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Luma3DS-3GX/arm9/source/i2c.c

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/*
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* This file is part of fastboot 3DS
* Copyright (C) 2017 derrek, profi200
*
* 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 3 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, see <http://www.gnu.org/licenses/>.
*/
#include <stdbool.h>
#include "types.h"
#include "i2c.h"
#include "utils.h"
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#define I2C1_REGS_BASE (0x10161000)
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#define I2C2_REGS_BASE (0x10144000)
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#define I2C3_REGS_BASE (0x10148000)
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typedef struct
{
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vu8 REG_I2C_DATA;
vu8 REG_I2C_CNT;
vu16 REG_I2C_CNTEX;
vu16 REG_I2C_SCL;
} I2cRegs;
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static const struct
{
u8 busId;
u8 devAddr;
} i2cDevTable[] =
{
{0, 0x4A},
{0, 0x7A},
{0, 0x78},
{1, 0x4A},
{1, 0x78},
{1, 0x2C},
{1, 0x2E},
{1, 0x40},
{1, 0x44},
{2, 0xA6}, // TODO: Find out if 0xA6 or 0xD6 is correct
{2, 0xD0},
{2, 0xD2},
{2, 0xA4},
{2, 0x9A},
{2, 0xA0},
{1, 0xEE},
{0, 0x40},
{2, 0x54}
};
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static void i2cWaitBusy(I2cRegs *const regs)
{
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while(regs->REG_I2C_CNT & I2C_ENABLE);
}
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static I2cRegs* i2cGetBusRegsBase(u8 busId)
{
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I2cRegs *base;
switch(busId)
{
case 0:
base = (I2cRegs*)I2C1_REGS_BASE;
break;
case 1:
base = (I2cRegs*)I2C2_REGS_BASE;
break;
case 2:
base = (I2cRegs*)I2C3_REGS_BASE;
break;
default:
base = NULL;
}
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return base;
}
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void I2C_init(void)
{
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I2cRegs *regs = i2cGetBusRegsBase(0); // Bus 1
i2cWaitBusy(regs);
regs->REG_I2C_CNTEX = 2; // ?
regs->REG_I2C_SCL = 1280; // ?
regs = i2cGetBusRegsBase(1); // Bus 2
i2cWaitBusy(regs);
regs->REG_I2C_CNTEX = 2; // ?
regs->REG_I2C_SCL = 1280; // ?
regs = i2cGetBusRegsBase(2); // Bus 3
i2cWaitBusy(regs);
regs->REG_I2C_CNTEX = 2; // ?
regs->REG_I2C_SCL = 1280; // ?
}
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static bool i2cStartTransfer(I2cDevice devId, u8 regAddr, bool read, I2cRegs *const regs)
{
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const u8 devAddr = i2cDevTable[devId].devAddr;
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u32 i = 0;
for(; i < 8; i++)
{
i2cWaitBusy(regs);
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// Select device and start.
regs->REG_I2C_DATA = devAddr;
regs->REG_I2C_CNT = I2C_ENABLE | I2C_IRQ_ENABLE | I2C_START;
i2cWaitBusy(regs);
if(!I2C_GET_ACK(regs->REG_I2C_CNT)) // If ack flag is 0 it failed.
{
regs->REG_I2C_CNT = I2C_ENABLE | I2C_IRQ_ENABLE | I2C_ERROR | I2C_STOP;
continue;
}
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// Select register and change direction to write.
regs->REG_I2C_DATA = regAddr;
regs->REG_I2C_CNT = I2C_ENABLE | I2C_IRQ_ENABLE | I2C_DIRE_WRITE;
i2cWaitBusy(regs);
if(!I2C_GET_ACK(regs->REG_I2C_CNT)) // If ack flag is 0 it failed.
{
regs->REG_I2C_CNT = I2C_ENABLE | I2C_IRQ_ENABLE | I2C_ERROR | I2C_STOP;
continue;
}
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// Select device in read mode for read transfer.
if(read)
{
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regs->REG_I2C_DATA = devAddr | 1u; // Set bit 0 for read.
regs->REG_I2C_CNT = I2C_ENABLE | I2C_IRQ_ENABLE | I2C_START;
i2cWaitBusy(regs);
if(!I2C_GET_ACK(regs->REG_I2C_CNT)) // If ack flag is 0 it failed.
{
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regs->REG_I2C_CNT = I2C_ENABLE | I2C_IRQ_ENABLE | I2C_ERROR | I2C_STOP;
continue;
}
}
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break;
}
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if(i < 8) return true;
else return false;
}
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bool I2C_readRegBuf(I2cDevice devId, u8 regAddr, u8 *out, u32 size)
{
const u8 busId = i2cDevTable[devId].busId;
I2cRegs *const regs = i2cGetBusRegsBase(busId);
if(!i2cStartTransfer(devId, regAddr, true, regs)) return false;
while(--size)
{
regs->REG_I2C_CNT = I2C_ENABLE | I2C_IRQ_ENABLE | I2C_DIRE_READ | I2C_ACK;
i2cWaitBusy(regs);
*out++ = regs->REG_I2C_DATA;
}
regs->REG_I2C_CNT = I2C_ENABLE | I2C_IRQ_ENABLE | I2C_DIRE_READ | I2C_STOP;
i2cWaitBusy(regs);
*out = regs->REG_I2C_DATA; // Last byte
return true;
}
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bool I2C_writeRegBuf(I2cDevice devId, u8 regAddr, const u8 *in, u32 size)
{
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const u8 busId = i2cDevTable[devId].busId;
I2cRegs *const regs = i2cGetBusRegsBase(busId);
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if(!i2cStartTransfer(devId, regAddr, false, regs)) return false;
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while(--size)
{
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regs->REG_I2C_DATA = *in++;
regs->REG_I2C_CNT = I2C_ENABLE | I2C_IRQ_ENABLE | I2C_DIRE_WRITE;
i2cWaitBusy(regs);
if(!I2C_GET_ACK(regs->REG_I2C_CNT)) // If ack flag is 0 it failed.
{
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regs->REG_I2C_CNT = I2C_ENABLE | I2C_IRQ_ENABLE | I2C_ERROR | I2C_STOP;
return false;
}
}
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regs->REG_I2C_DATA = *in;
regs->REG_I2C_CNT = I2C_ENABLE | I2C_IRQ_ENABLE | I2C_DIRE_WRITE | I2C_STOP;
i2cWaitBusy(regs);
if(!I2C_GET_ACK(regs->REG_I2C_CNT)) // If ack flag is 0 it failed.
{
regs->REG_I2C_CNT = I2C_ENABLE | I2C_IRQ_ENABLE | I2C_ERROR | I2C_STOP;
return false;
}
return true;
}
u8 I2C_readReg(I2cDevice devId, u8 regAddr)
{
u8 data;
if(!I2C_readRegBuf(devId, regAddr, &data, 1)) return 0xFF;
return data;
}
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bool I2C_writeReg(I2cDevice devId, u8 regAddr, u8 data)
{
return I2C_writeRegBuf(devId, regAddr, &data, 1);
}