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// Copyright 2020 The Pigweed Authors
//
// Licensed under the Apache License, Version 2.0 (the "License"); you may not
// use this file except in compliance with the License. You may obtain a copy of
// the License at
//
// https://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
// License for the specific language governing permissions and limitations under
// the License.
#pragma once
#include <cstdint>
#include "pw_bytes/span.h"
#include "pw_chrono/system_clock.h"
#include "pw_i2c/address.h"
#include "pw_status/status.h"
namespace pw::i2c {
// Base driver interface for I2C initiating I2C transactions in a thread safe
// manner. Other documentation sources may call this style of interface an I2C
// "master", "central" or "controller". // inclusive-language: ignore
//
// The Initiator is not required to support 10bit addressing. If only 7bit
// addressing is supported, the Initiator will assert when given an address
// which is out of 7bit address range.
//
// The implementer of this pure virtual interface is responsible for ensuring
// thread safety and enabling functionality such as initialization,
// configuration, enabling/disabling, unsticking SDA, and detecting device
// address registration collisions.
class Initiator {
public:
virtual ~Initiator() = default;
// Write bytes and then read bytes as either one atomic or two independent I2C
// transaction. If the I2C bus is a multi-initiator bus then the implementer
// MUST ensure it is a single atomic I2C transaction.
// The signal on the bus should appear as follows:
// 1) Write Only:
// START + I2C Address + WRITE(0) + TX_BUFFER_BYTES + STOP
// 2) Read Only:
// START + I2C Address + READ(1) + RX_BUFFER_BYTES + STOP
// 3A) Write + Read (atomic):
// START + I2C Address + WRITE(0) + TX_BUFFER_BYTES +
// START + I2C Address + READ(1) + RX_BUFFER_BYTES + STOP
// 3B) Write + Read (separate):
// START + I2C Address + WRITE(0) + TX_BUFFER_BYTES + STOP
// START + I2C Address + READ(1) + RX_BUFFER_BYTES + STOP
//
// The timeout defines the minimum duration one may block waiting for both
// exclusive bus access and the completion of the I2C transaction.
//
// Preconditions:
// The Address must be supported by the Initiator, i.e. do not use a 10
// address if the Initiator only supports 7 bit. This will assert.
//
// Returns:
// Ok - Success.
// InvalidArgument - device_address is larger than the 10 bit address space.
// DeadlineExceeded - Was unable to acquire exclusive Initiator access
// and complete the I2C transaction in time.
// Unavailable - NACK condition occurred, meaning the addressed device did
// not respond or was unable to process the request.
// FailedPrecondition - The interface is not currently initialized and/or
// enabled.
Status WriteReadFor(Address device_address,
ConstByteSpan tx_buffer,
ByteSpan rx_buffer,
chrono::SystemClock::duration timeout) {
return DoWriteReadFor(device_address, tx_buffer, rx_buffer, timeout);
}
Status WriteReadFor(Address device_address,
const void* tx_buffer,
size_t tx_size_bytes,
void* rx_buffer,
size_t rx_size_bytes,
chrono::SystemClock::duration timeout) {
return WriteReadFor(
device_address,
span(static_cast<const std::byte*>(tx_buffer), tx_size_bytes),
span(static_cast<std::byte*>(rx_buffer), rx_size_bytes),
timeout);
}
// Write bytes. The signal on the bus should appear as follows:
// START + I2C Address + WRITE(0) + TX_BUFFER_BYTES + STOP
//
// The timeout defines the minimum duration one may block waiting for both
// exclusive bus access and the completion of the I2C transaction.
//
// Preconditions:
// The Address must be supported by the Initiator, i.e. do not use a 10
// address if the Initiator only supports 7 bit. This will assert.
//
// Returns:
// Ok - Success.
// InvalidArgument - device_address is larger than the 10 bit address space.
// DeadlineExceeded - Was unable to acquire exclusive Initiator access
// and complete the I2C transaction in time.
// Unavailable - NACK condition occurred, meaning the addressed device did
// not respond or was unable to process the request.
// FailedPrecondition - The interface is not currently initialized and/or
// enabled.
Status WriteFor(Address device_address,
ConstByteSpan tx_buffer,
chrono::SystemClock::duration timeout) {
return WriteReadFor(device_address, tx_buffer, ByteSpan(), timeout);
}
Status WriteFor(Address device_address,
const void* tx_buffer,
size_t tx_size_bytes,
chrono::SystemClock::duration timeout) {
return WriteFor(
device_address,
span(static_cast<const std::byte*>(tx_buffer), tx_size_bytes),
timeout);
}
// Read bytes. The signal on the bus should appear as follows:
// START + I2C Address + READ(1) + RX_BUFFER_BYTES + STOP
//
// The timeout defines the minimum duration one may block waiting for both
// exclusive bus access and the completion of the I2C transaction.
//
// Preconditions:
// The Address must be supported by the Initiator, i.e. do not use a 10
// address if the Initiator only supports 7 bit. This will assert.
//
// Returns:
// Ok - Success.
// InvalidArgument - device_address is larger than the 10 bit address space.
// DeadlineExceeded - Was unable to acquire exclusive Initiator access
// and complete the I2C transaction in time.
// Unavailable - NACK condition occurred, meaning the addressed device did
// not respond or was unable to process the request.
// FailedPrecondition - The interface is not currently initialized and/or
// enabled.
Status ReadFor(Address device_address,
ByteSpan rx_buffer,
chrono::SystemClock::duration timeout) {
return WriteReadFor(device_address, ConstByteSpan(), rx_buffer, timeout);
}
Status ReadFor(Address device_address,
void* rx_buffer,
size_t rx_size_bytes,
chrono::SystemClock::duration timeout) {
return ReadFor(device_address,
span(static_cast<std::byte*>(rx_buffer), rx_size_bytes),
timeout);
}
// Probes the device for an I2C ACK after only writing the address.
// This is done by attempting to read a single byte from the specified device.
//
// The timeout defines the minimum duration one may block waiting for both
// exclusive bus access and the completion of the I2C transaction.
//
// Preconditions:
// The Address must be supported by the Initiator, i.e. do not use a 10
// address if the Initiator only supports 7 bit. This will assert.
//
// Returns:
// Ok - Success.
// InvalidArgument - device_address is larger than the 10 bit address space.
// DeadlineExceeded - Was unable to acquire exclusive Initiator access
// and complete the I2C transaction in time.
// Unavailable - NACK condition occurred, meaning the addressed device did
// not respond or was unable to process the request.
// FailedPrecondition - The interface is not currently initialized and/or
// enabled.
Status ProbeDeviceFor(Address device_address,
chrono::SystemClock::duration timeout) {
std::byte ignored_buffer[1] = {}; // Read a byte to probe.
return WriteReadFor(
device_address, ConstByteSpan(), ignored_buffer, timeout);
}
private:
virtual Status DoWriteReadFor(Address device_address,
ConstByteSpan tx_buffer,
ByteSpan rx_buffer,
chrono::SystemClock::duration timeout) = 0;
};
} // namespace pw::i2c