2019-12-27 17:23:08 +00:00
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// Copyright 2016 The Periph Authors. All rights reserved.
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// Use of this source code is governed under the Apache License, Version 2.0
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// that can be found in the LICENSE file.
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// Package spi defines the API to communicate with devices over the SPI
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// protocol.
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//
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2021-09-01 19:34:31 +00:00
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// As described in https://periph.io/x/conn/v3#hdr-Concepts, periph.io uses
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2019-12-27 17:23:08 +00:00
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// the concepts of Bus, Port and Conn.
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//
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// In the package spi, 'Bus' is not exposed, as it would be SPI bus number
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// without a CS line, for example on linux asking for "/dev/spi0" without the
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// ".0" suffix.
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//
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// The OS doesn't allow that so it is counter productive to express this at the
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// API layer, so 'Port' is exposed directly instead.
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//
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// Use Port.Connect() converts the uninitialized Port into a Conn.
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//
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// See https://en.wikipedia.org/wiki/Serial_Peripheral_Interface for more
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// information.
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package spi
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import (
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"io"
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"strconv"
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2021-09-01 19:34:31 +00:00
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"periph.io/x/conn/v3"
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"periph.io/x/conn/v3/gpio"
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"periph.io/x/conn/v3/physic"
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2019-12-27 17:23:08 +00:00
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)
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// Mode determines how communication is done.
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//
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// The bits can be OR'ed to change the parameters used for
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// communication.
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//
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type Mode int
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// Mode determines the SPI communication parameters.
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//
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// CPOL means the clock polarity. Idle is High when set.
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//
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// CPHA is the clock phase, sample on trailing edge when set.
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const (
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Mode0 Mode = 0x0 // CPOL=0, CPHA=0
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Mode1 Mode = 0x1 // CPOL=0, CPHA=1
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Mode2 Mode = 0x2 // CPOL=1, CPHA=0
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Mode3 Mode = 0x3 // CPOL=1, CPHA=1
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// HalfDuplex specifies that MOSI and MISO use the same wire, and that only
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// one duplex is used at a time.
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HalfDuplex Mode = 0x4
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// NoCS request the driver to not use the CS line.
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NoCS Mode = 0x8
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// LSBFirst requests the words to be encoded in little endian instead of the
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// default big endian.
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LSBFirst = 0x10
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)
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func (m Mode) String() string {
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s := ""
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switch m & Mode3 {
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case Mode0:
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s = "Mode0"
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case Mode1:
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s = "Mode1"
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case Mode2:
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s = "Mode2"
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case Mode3:
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s = "Mode3"
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}
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m &^= Mode3
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if m&HalfDuplex != 0 {
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s += "|HalfDuplex"
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}
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m &^= HalfDuplex
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if m&NoCS != 0 {
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s += "|NoCS"
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}
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m &^= NoCS
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if m&LSBFirst != 0 {
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s += "|LSBFirst"
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}
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m &^= LSBFirst
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if m != 0 {
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s += "|0x"
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s += strconv.FormatUint(uint64(m), 16)
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}
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return s
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}
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// Packet represents one packet when sending multiple packets as a transaction.
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type Packet struct {
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// W and R are the output and input data. When HalfDuplex is specified to
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// Connect, only one of the two can be set.
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W, R []byte
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// BitsPerWord overrides the default bits per word value set in Connect.
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BitsPerWord uint8
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// KeepCS tells the driver to keep CS asserted after this packet is
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// completed. This can be leveraged to create long transaction as multiple
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// packets like to use 9 bits commands then 8 bits data.
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//
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// Normally during a spi.Conn.TxPackets() call, KeepCS should be set to true
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// for all packets except the last one. If the last one is set to true, the
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// CS line stays asserted, leaving the transaction hanging on the bus.
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//
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// KeepCS is ignored when NoCS was specified to Connect.
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KeepCS bool
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}
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// Conn defines the interface a concrete SPI driver must implement.
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//
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// Implementers can optionally implement io.Writer and io.Reader for
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// unidirectional operation.
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type Conn interface {
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conn.Conn
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// TxPackets does multiple operations over the SPI connection.
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//
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// The maximum number of bytes can be limited depending on the driver. Query
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// conn.Limits.MaxTxSize() can be used to determine the limit.
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//
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// If the last packet has KeepCS:true, the CS line stays asserted. This
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// enables doing SPI transaction over multiple calls.
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//
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// Conversely, if any packet beside the last one has KeepCS:false, the CS
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// line will blip for a short amount of time to force a new transaction.
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//
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// It was observed on RPi3 hardware to have a one clock delay between each
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// packet.
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TxPackets(p []Packet) error
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}
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// Port is the interface to be provided to device drivers.
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//
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// The device driver, that is the driver for the peripheral connected over
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// this port, calls Connect() to retrieve a configured connection as Conn.
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type Port interface {
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String() string
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// Connect sets the communication parameters of the connection for use by a
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// device.
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//
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// The device driver must call this function exactly once.
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//
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// f must specify the maximum rated speed by the device's spec. The lowest
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// speed between the port speed and the device speed is selected. Use 0 for f
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// if there is no known maximum value for this device.
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//
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// mode specifies the clock and signal polarities, if the port is using half
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// duplex (shared MISO and MOSI) or if CS is not needed.
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//
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// bits is the number of bits per word. Generally you should use 8.
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Connect(f physic.Frequency, mode Mode, bits int) (Conn, error)
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}
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// PortCloser is a SPI port that can be closed.
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//
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// This interface is meant to be handled by the application.
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type PortCloser interface {
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io.Closer
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Port
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// LimitSpeed sets the maximum port speed.
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//
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// It lets an application use a device at a lower speed than the maximum
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// speed as rated by the device driver. This is useful for example when the
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// wires are long or the connection is of poor quality.
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//
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// This function can be called multiple times and resets the previous value.
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// 0 is not a valid value for f. The lowest speed between the port speed and
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// the device speed is selected.
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LimitSpeed(f physic.Frequency) error
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}
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// Pins defines the pins that a SPI port interconnect is using on the host.
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//
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// It is expected that a implementer of ConnCloser or Conn also implement Pins
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// but this is not a requirement.
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type Pins interface {
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// CLK returns the SCK (clock) pin.
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CLK() gpio.PinOut
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// MOSI returns the SDO (master out, slave in) pin.
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MOSI() gpio.PinOut
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// MISO returns the SDI (master in, slave out) pin.
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MISO() gpio.PinIn
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// CS returns the CSN (chip select) pin.
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CS() gpio.PinOut
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}
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