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495 lines
17 KiB
C++
495 lines
17 KiB
C++
// Copyright 2020 Espressif Systems (Shanghai) PTE LTD
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#pragma once
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#ifndef __cpp_exceptions
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#error I2C class can only be used when __cpp_exceptions is enabled. Enable CONFIG_COMPILER_CXX_EXCEPTIONS in Kconfig
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#endif
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#include <exception>
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#include <memory>
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#include <chrono>
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#include <vector>
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#include <list>
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#include <future>
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#include "driver/i2c.h"
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#include "esp_exception.hpp"
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namespace idf {
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struct I2CException : public ESPException {
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I2CException(esp_err_t error);
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};
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struct I2CTransferException : public I2CException {
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I2CTransferException(esp_err_t error);
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};
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/**
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* Superclass for all transfer objects which are accepted by \c I2CMaster::transfer().
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*/
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template<typename TReturn>
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class I2CTransfer {
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protected:
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/**
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* Wrapper around i2c_cmd_handle_t, makes it exception-safe.
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*/
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struct I2CCommandLink {
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I2CCommandLink();
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~I2CCommandLink();
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i2c_cmd_handle_t handle;
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};
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public:
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/**
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* Helper typedef to facilitate type resolution during calls to I2CMaster::transfer().
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*/
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typedef TReturn TransferReturnT;
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/**
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* @param driver_timeout The timeout used for calls like i2c_master_cmd_begin() to the underlying driver.
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*/
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I2CTransfer(std::chrono::milliseconds driver_timeout = std::chrono::milliseconds(1000));
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virtual ~I2CTransfer() { }
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/**
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* Do all general parts of the I2C transfer:
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* - initialize the command link
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* - issuing a start to the command link queue
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* - calling \c queue_cmd() in the subclass to issue specific commands to the command link queue
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* - issuing a stop to the command link queue
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* - executing the assembled commands on the I2C bus
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* - calling \c process_result() to process the results of the commands or calling process_exception() if
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* there was an exception
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* - deleting the command link
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* This method is normally called by I2CMaster, but can also be used stand-alone if the bus corresponding to
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* \c i2c_num has be initialized.
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*
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* @throws I2CException for any particular I2C error
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*/
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TReturn do_transfer(i2c_port_t i2c_num, uint8_t i2c_addr);
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protected:
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/**
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* Implementation of the I2C command is implemented by subclasses.
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* The I2C command handle is initialized already at this stage.
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* The first action is issuing the I2C address and the read/write bit, depending on what the subclass implements.
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* On error, this method has to throw an instance of I2CException.
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*
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* @param handle the initialized command handle of the I2C driver.
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* @param i2c_addr The slave's I2C address.
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*
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* @throw I2CException
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*/
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virtual void queue_cmd(i2c_cmd_handle_t handle, uint8_t i2c_addr) = 0;
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/**
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* Implementation of whatever neccessary action after successfully sending the I2C command.
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* On error, this method has to throw an instance of I2CException.
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*
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* @throw I2CException
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*/
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virtual TReturn process_result() = 0;
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/**
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* For some calls to the underlying driver (e.g. \c i2c_master_cmd_begin() ), this general timeout will be passed.
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*/
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const TickType_t driver_timeout;
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};
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/**
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* @brief Super class for any I2C master or slave
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*/
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class I2CBus {
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public:
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/*
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* @brief Initialize I2C master bus.
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*
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* Initialize and install the bus driver in master mode.
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*
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* @param i2c_number The I2C port number.
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*/
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I2CBus(i2c_port_t i2c_number);
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/**
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* @brief uninstall the bus driver.
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*/
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virtual ~I2CBus();
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/**
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* The I2C port number.
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*/
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const i2c_port_t i2c_num;
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};
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/**
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* @brief Simple I2C Master object
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*
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* This class provides to ways to issue I2C read and write requests. The simplest way is to use \c sync_write() and
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* sync_read() to write and read, respectively. As the name suggests, they block during the whole transfer.
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* For all asynchrounous transfers as well as combined write-read transfers, use \c transfer().
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*/
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class I2CMaster : public I2CBus {
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public:
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/**
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* Initialize and install the driver of an I2C master peripheral.
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*
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* Initialize and install the bus driver in master mode. Pullups will be enabled for both pins. If you want a
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* different configuration, use configure() and i2c_set_pin() of the underlying driver to disable one or both
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* pullups.
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*
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* @param i2c_number The number of the I2C device.
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* @param scl_gpio GPIO number of the SCL line.
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* @param sda_gpio GPIO number of the SDA line.
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* @param clock_speed The master clock speed.
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* @param scl_pullup Enable SCL pullup.
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* @param sda_pullup Enable SDA pullup.
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*
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* @throws I2CException with the corrsponding esp_err_t return value if something goes wrong
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*/
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I2CMaster(i2c_port_t i2c_number,
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int scl_gpio,
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int sda_gpio,
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uint32_t clock_speed,
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bool scl_pullup = true,
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bool sda_pullup = true);
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/**
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* Delete the driver.
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*/
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virtual ~I2CMaster();
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/**
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* Issue an asynchronous I2C transfer which is executed in the background.
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*
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* This method uses a C++ \c std::future as mechanism to wait for the asynchronous return value.
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* The return value can be accessed with \c future::get(). \c future::get() also synchronizes with the thread
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* doing the work in the background, i.e. it waits until the return value has been issued.
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*
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* The actual implementation is delegated to the TransferT object. It will be given the I2C number to work
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* with.
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*
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* Requirements for TransferT: It should implement or imitate the interface of I2CTransfer.
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*
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* @param xfer The transfer to execute. What the transfer does, depends on it's implementation in
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* \c TransferT::do_transfer(). It also determines the future template of this function, indicated by
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* \c TransferT::TransferReturnT.
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*
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* @param i2c_addr The address of the I2C slave device targeted by the transfer.
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*
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* @return A future with \c TransferT::TransferReturnT. It depends on which template type is used for xfer.
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* In case of a simple write (I2CWrite), it's future<void>.
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* In case of a read (I2CRead), it's future<vector<uint8_t> > corresponding to the length of the read
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* operation.
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* If TransferT is a combined transfer with repeated reads (I2CComposed), then the return type is
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* future<vector<vector<uint8_t> > >, a vector of results corresponding to the queued read operations.
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*
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* @throws I2CException with the corrsponding esp_err_t return value if something goes wrong
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* @throws std::exception for failures in libstdc++
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*/
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template<typename TransferT>
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std::future<typename TransferT::TransferReturnT> transfer(std::shared_ptr<TransferT> xfer, uint8_t i2c_addr);
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/**
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* Do a synchronous write.
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*
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* All data in data will be written to the I2C device with i2c_addr at once.
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* This method will block until the I2C write is complete.
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*
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* @param i2c_addr The address of the I2C device to which the data shall be sent.
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* @param data The data to send (size to be sent is determined by data.size()).
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*
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* @throws I2CException with the corrsponding esp_err_t return value if something goes wrong
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* @throws std::exception for failures in libstdc++
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*/
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void sync_write(uint8_t i2c_addr, const std::vector<uint8_t> &data);
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/**
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* Do a synchronous read.
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* This method will block until the I2C read is complete.
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*
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* n_bytes bytes of data will be read from the I2C device with i2c_addr.
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* While reading the last byte, the master finishes the reading by sending a NACK, before issuing a stop.
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*
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* @param i2c_addr The address of the I2C device from which to read.
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* @param n_bytes The number of bytes to read.
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*
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* @return the read bytes
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*
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* @throws I2CException with the corrsponding esp_err_t return value if something goes wrong
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* @throws std::exception for failures in libstdc++
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*/
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std::vector<uint8_t> sync_read(uint8_t i2c_addr, size_t n_bytes);
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/**
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* Do a simple asynchronous write-read transfer.
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*
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* First, \c write_data will be written to the bus, then a number of \c read_n_bytes will be read from the bus
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* with a repeated start condition. The slave device is determined by \c i2c_addr.
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* While reading the last byte, the master finishes the reading by sending a NACK, before issuing a stop.
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* This method will block until the I2C transfer is complete.
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*
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* @param i2c_addr The address of the I2C device from which to read.
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* @param write_data The data to write to the bus before reading.
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* @param read_n_bytes The number of bytes to read.
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*
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* @return the read bytes
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*
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* @throws I2CException with the corrsponding esp_err_t return value if something goes wrong
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* @throws std::exception for failures in libstdc++
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*/
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std::vector<uint8_t> sync_transfer(uint8_t i2c_addr,
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const std::vector<uint8_t> &write_data,
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size_t read_n_bytes);
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};
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/**
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* @brief Responsible for initialization and de-initialization of an I2C slave peripheral.
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*/
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class I2CSlave : public I2CBus {
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public:
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/**
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* Initialize and install the driver of an I2C slave peripheral.
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*
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* Initialize and install the bus driver in slave mode. Pullups will be enabled for both pins. If you want a
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* different configuration, use configure() and i2c_set_pin() of the underlying driver to disable one or both
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* pullups.
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*
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* @param i2c_number The number of the I2C device.
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* @param scl_gpio GPIO number of the SCL line.
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* @param sda_gpio GPIO number of the SDA line.
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* @param slave_addr The address of the slave device on the I2C bus.
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* @param rx_buf_len Receive buffer length.
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* @param tx_buf_len Transmit buffer length.
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* @param scl_pullup Enable SCL pullup.
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* @param sda_pullup Enable SDA pullup.
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*
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* @throws
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*/
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I2CSlave(i2c_port_t i2c_number,
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int scl_gpio,
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int sda_gpio,
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uint8_t slave_addr,
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size_t rx_buf_len,
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size_t tx_buf_len,
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bool scl_pullup = true,
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bool sda_pullup = true);
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/**
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* Delete the driver.
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*/
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virtual ~I2CSlave();
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/**
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* Schedule a raw data write once master is ready.
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*
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* The data is saved in a buffer, waiting for the master to pick it up.
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*/
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virtual int write_raw(const uint8_t* data, size_t data_len, std::chrono::milliseconds timeout);
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/**
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* Read raw data from the bus.
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*
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* The data is read directly from the buffer. Hence, it has to be written already by master.
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*/
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virtual int read_raw(uint8_t* buffer, size_t buffer_len, std::chrono::milliseconds timeout);
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};
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/**
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* Implementation for simple I2C writes, which can be executed by \c I2CMaster::transfer().
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* It stores the bytes to be written as a vector.
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*/
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class I2CWrite : public I2CTransfer<void> {
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public:
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/**
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* @param bytes The bytes which should be written.
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* @param driver_timeout The timeout used for calls like i2c_master_cmd_begin() to the underlying driver.
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*/
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I2CWrite(const std::vector<uint8_t> &bytes, std::chrono::milliseconds driver_timeout = std::chrono::milliseconds(1000));
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protected:
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/**
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* Write the address and set the read bit to 0 to issue the address and request a write.
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* Then write the bytes.
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*
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* @param handle The initialized I2C command handle.
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* @param i2c_addr The I2C address of the slave.
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*/
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void queue_cmd(i2c_cmd_handle_t handle, uint8_t i2c_addr) override;
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/**
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* Set the value of the promise to unblock any callers waiting on it.
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*/
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void process_result() override;
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private:
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/**
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* The bytes to write.
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*/
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std::vector<uint8_t> bytes;
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};
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/**
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* Implementation for simple I2C reads, which can be executed by \c I2CMaster::transfer().
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* It stores the bytes to be read as a vector to be returned later via a future.
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*/
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class I2CRead : public I2CTransfer<std::vector<uint8_t> > {
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public:
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/**
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* @param The number of bytes to read.
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* @param driver_timeout The timeout used for calls like i2c_master_cmd_begin() to the underlying driver.
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*/
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I2CRead(size_t size, std::chrono::milliseconds driver_timeout = std::chrono::milliseconds(1000));
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protected:
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/**
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* Write the address and set the read bit to 1 to issue the address and request a read.
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* Then read into bytes.
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*
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* @param handle The initialized I2C command handle.
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* @param i2c_addr The I2C address of the slave.
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*/
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void queue_cmd(i2c_cmd_handle_t handle, uint8_t i2c_addr) override;
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/**
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* Set the return value of the promise to unblock any callers waiting on it.
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*/
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std::vector<uint8_t> process_result() override;
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private:
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/**
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* The bytes to read.
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*/
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std::vector<uint8_t> bytes;
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};
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/**
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* This kind of transfer uses repeated start conditions to chain transfers coherently.
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* In particular, this can be used to chain multiple single write and read transfers into a single transfer with
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* repeated starts as it is commonly done for I2C devices.
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* The result is a vector of vectors representing the reads in the order of how they were added using add_read().
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*/
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class I2CComposed : public I2CTransfer<std::vector<std::vector<uint8_t> > > {
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public:
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I2CComposed(std::chrono::milliseconds driver_timeout = std::chrono::milliseconds(1000));
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/**
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* Add a read to the chain.
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*
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* @param size The size of the read in bytes.
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*/
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void add_read(size_t size);
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/**
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* Add a write to the chain.
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*
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* @param bytes The bytes to write; size will be bytes.size()
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*/
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void add_write(std::vector<uint8_t> bytes);
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protected:
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/**
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* Write all chained transfers, including a repeated start issue after each but the last transfer.
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*
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* @param handle The initialized I2C command handle.
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* @param i2c_addr The I2C address of the slave.
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*/
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void queue_cmd(i2c_cmd_handle_t handle, uint8_t i2c_addr) override;
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/**
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* Creates the vector with the vectors from all reads.
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*/
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std::vector<std::vector<uint8_t> > process_result() override;
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private:
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class CompTransferNode {
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public:
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virtual ~CompTransferNode() = default;
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virtual void queue_cmd(i2c_cmd_handle_t handle, uint8_t i2c_addr) = 0;
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virtual void process_result(std::vector<std::vector<uint8_t> > &read_results) { }
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};
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class CompTransferNodeRead : public CompTransferNode {
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public:
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CompTransferNodeRead(size_t size) : bytes(size) { }
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void queue_cmd(i2c_cmd_handle_t handle, uint8_t i2c_addr) override;
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void process_result(std::vector<std::vector<uint8_t> > &read_results) override;
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private:
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std::vector<uint8_t> bytes;
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};
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class CompTransferNodeWrite : public CompTransferNode {
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public:
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CompTransferNodeWrite(std::vector<uint8_t> bytes) : bytes(bytes) { }
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void queue_cmd(i2c_cmd_handle_t handle, uint8_t i2c_addr) override;
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private:
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std::vector<uint8_t> bytes;
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};
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/**
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* The chained transfers.
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*/
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std::list<std::shared_ptr<CompTransferNode> > transfer_list;
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};
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template<typename TReturn>
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I2CTransfer<TReturn>::I2CTransfer(std::chrono::milliseconds driver_timeout)
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: driver_timeout(driver_timeout.count()) { }
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template<typename TReturn>
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I2CTransfer<TReturn>::I2CCommandLink::I2CCommandLink()
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{
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handle = i2c_cmd_link_create();
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if (!handle) {
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throw I2CException(ESP_ERR_NO_MEM);
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}
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}
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template<typename TReturn>
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I2CTransfer<TReturn>::I2CCommandLink::~I2CCommandLink()
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{
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i2c_cmd_link_delete(handle);
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}
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template<typename TReturn>
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TReturn I2CTransfer<TReturn>::do_transfer(i2c_port_t i2c_num, uint8_t i2c_addr)
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{
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I2CCommandLink cmd_link;
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queue_cmd(cmd_link.handle, i2c_addr);
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CHECK_THROW_SPECIFIC(i2c_master_stop(cmd_link.handle), I2CException);
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CHECK_THROW_SPECIFIC(i2c_master_cmd_begin(i2c_num, cmd_link.handle, driver_timeout / portTICK_RATE_MS), I2CTransferException);
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return process_result();
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}
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template<typename TransferT>
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std::future<typename TransferT::TransferReturnT> I2CMaster::transfer(std::shared_ptr<TransferT> xfer, uint8_t i2c_addr)
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{
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if (!xfer) throw I2CException(ESP_ERR_INVALID_ARG);
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return std::async(std::launch::async, [this](std::shared_ptr<TransferT> xfer, uint8_t i2c_addr) {
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return xfer->do_transfer(i2c_num, i2c_addr);
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}, xfer, i2c_addr);
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}
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} // idf
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