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/* Copyright 2012 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
/* 1-wire interface module for Chrome EC */
#include "common.h"
#include "gpio.h"
#include "task.h"
#include "timer.h"
/*
* Standard speed; all timings padded by 2 usec for safety.
*
* Note that these timing are actually _longer_ than legacy 1-wire standard
* speed because we're running the 1-wire bus at 3.3V instead of 5V.
*/
#define T_RSTL 602 /* Reset low pulse; 600-960 us */
#define T_MSP 72 /* Presence detect sample time; 70-75 us */
#define T_RSTH (68 + 260 + 5 + 2) /* Reset high; tPDHmax + tPDLmax + tRECmin */
#define T_SLOT 70 /* Timeslot; >67 us */
#define T_W0L 63 /* Write 0 low; 62-120 us */
#define T_W1L 7 /* Write 1 low; 5-15 us */
#define T_RL 7 /* Read low; 5-15 us */
#define T_MSR 9 /* Read sample time; <15 us. Must be at least 200 ns after
* T_RL since that's how long the signal takes to be pulled
* up on our board. */
/**
* Output low on the bus for <usec> us, then switch back to open-drain input.
*/
static void output0(int usec)
{
gpio_set_flags(GPIO_ONEWIRE,
GPIO_OPEN_DRAIN | GPIO_OUTPUT | GPIO_OUT_LOW);
udelay(usec);
gpio_set_flags(GPIO_ONEWIRE, GPIO_INPUT);
}
/**
* Read a bit.
*/
static int readbit(void)
{
int bit;
/*
* The delay between sending the output pulse and reading the bit is
* extremely timing sensitive, so disable interrupts.
*/
interrupt_disable();
/* Output low */
output0(T_RL);
/*
* Delay to let peripheral release the line if it wants to send
* a 1-bit
*/
udelay(T_MSR - T_RL);
/* Read bit */
bit = gpio_get_level(GPIO_ONEWIRE);
/*
* Enable interrupt as soon as we've read the bit. The delay to the
* end of the timeslot is a lower bound, so additional latency here is
* harmless.
*/
interrupt_enable();
/* Delay to end of timeslot */
udelay(T_SLOT - T_MSR);
return bit;
}
/**
* Write a bit.
*/
static void writebit(int bit)
{
/*
* The delays in the output-low signal for sending 0 and 1 bits are
* extremely timing sensitive, so disable interrupts during that time.
* Interrupts can be enabled again as soon as the output is switched
* back to open-drain, since the delay for the rest of the timeslot is
* a lower bound.
*/
if (bit) {
interrupt_disable();
output0(T_W1L);
interrupt_enable();
udelay(T_SLOT - T_W1L);
} else {
interrupt_disable();
output0(T_W0L);
interrupt_enable();
udelay(T_SLOT - T_W0L);
}
}
int onewire_reset(void)
{
/* Start transaction with controller reset pulse */
output0(T_RSTL);
/* Wait for presence detect sample time.
*
* (Alternately, we could poll waiting for a 1-bit indicating our pulse
* has let go, then poll up to max time waiting for a 0-bit indicating
* the peripheral has responded.)
*/
udelay(T_MSP);
if (gpio_get_level(GPIO_ONEWIRE))
return EC_ERROR_UNKNOWN;
/*
* Wait for end of presence pulse.
*
* (Alternately, we could poll waiting for a 1-bit.)
*/
udelay(T_RSTH - T_MSP);
return EC_SUCCESS;
}
int onewire_read(void)
{
int data = 0;
int i;
for (i = 0; i < 8; i++)
data |= readbit() << i; /* LSB first */
return data;
}
void onewire_write(int data)
{
int i;
for (i = 0; i < 8; i++)
writebit((data >> i) & 0x01); /* LSB first */
}
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