564 lines
14 KiB
Go
564 lines
14 KiB
Go
// 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 allwinner
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import (
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"errors"
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"fmt"
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"os"
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"path"
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"strconv"
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"strings"
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"time"
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"periph.io/x/conn/v3/driver/driverreg"
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"periph.io/x/conn/v3/gpio"
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"periph.io/x/conn/v3/gpio/gpioreg"
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"periph.io/x/conn/v3/physic"
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"periph.io/x/conn/v3/pin"
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"periph.io/x/host/v3/pmem"
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"periph.io/x/host/v3/sysfs"
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)
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// All the pins in the PL group.
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var PL0, PL1, PL2, PL3, PL4, PL5, PL6, PL7, PL8, PL9, PL10, PL11, PL12 *PinPL
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// PinPL defines one CPU supported pin in the PL group.
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//
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// PinPL implements gpio.PinIO.
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type PinPL struct {
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// Immutable.
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offset uint8 // as per register offset calculation
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name string // name as per datasheet
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defaultPull gpio.Pull // default pull at startup
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// Immutable after driver initialization.
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sysfsPin *sysfs.Pin // Set to the corresponding sysfs.Pin, if any.
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available bool // Set when the pin is available on this CPU architecture.
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// Mutable.
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usingEdge bool // Set when edge detection is enabled.
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}
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// String implements conn.Resource.
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//
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// It returns the pin name and number, ex: "PL5(352)".
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func (p *PinPL) String() string {
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return fmt.Sprintf("%s(%d)", p.name, p.Number())
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}
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// Halt implements conn.Resource.
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//
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// It stops edge detection if enabled.
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func (p *PinPL) Halt() error {
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if p.usingEdge {
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if err := p.sysfsPin.Halt(); err != nil {
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return p.wrap(err)
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}
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p.usingEdge = false
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}
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return nil
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}
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// Name implements pin.Pin.
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//
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// It returns the pin name, ex: "PL5".
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func (p *PinPL) Name() string {
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return p.name
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}
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// Number implements pin.Pin.
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//
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// It returns the GPIO pin number as represented by gpio sysfs.
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func (p *PinPL) Number() int {
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return 11*32 + int(p.offset)
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}
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// Function implements pin.Pin.
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func (p *PinPL) Function() string {
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return string(p.Func())
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}
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// Func implements pin.PinFunc.
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func (p *PinPL) Func() pin.Func {
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if !p.available {
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// We do not want the error message about uninitialized system.
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return pin.FuncNone
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}
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if drvGPIOPL.gpioMemoryPL == nil {
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if p.sysfsPin == nil {
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return pin.FuncNone
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}
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return p.sysfsPin.Func()
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}
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switch f := p.function(); f {
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case in:
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if p.FastRead() {
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return gpio.IN_HIGH
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}
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return gpio.IN_LOW
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case out:
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if p.FastRead() {
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return gpio.OUT_HIGH
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}
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return gpio.OUT_LOW
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case alt1:
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if s := mappingPL[p.offset][0]; len(s) != 0 {
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return pin.Func(s)
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}
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return pin.Func("ALT1")
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case alt2:
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if s := mappingPL[p.offset][1]; len(s) != 0 {
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return pin.Func(s)
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}
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return pin.Func("ALT2")
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case alt3:
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if s := mappingPL[p.offset][2]; len(s) != 0 {
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return pin.Func(s)
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}
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return pin.Func("ALT3")
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case alt4:
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if s := mappingPL[p.offset][3]; len(s) != 0 {
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return pin.Func(s)
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}
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return pin.Func("ALT4")
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case alt5:
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if s := mappingPL[p.offset][4]; len(s) != 0 {
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if strings.Contains(string(s), "_EINT") {
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// It's an input supporting interrupts.
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if p.FastRead() {
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return gpio.IN_HIGH
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}
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return gpio.IN_LOW
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}
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return pin.Func(s)
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}
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return pin.Func("ALT5")
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case disabled:
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return pin.FuncNone
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default:
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return pin.FuncNone
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}
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}
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// SupportedFuncs implements pin.PinFunc.
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func (p *PinPL) SupportedFuncs() []pin.Func {
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f := make([]pin.Func, 0, 2+2)
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f = append(f, gpio.IN, gpio.OUT)
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for _, m := range mappingPL[p.offset] {
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if m != pin.FuncNone && !strings.Contains(string(m), "_EINT") {
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f = append(f, m)
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}
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}
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return f
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}
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// SetFunc implements pin.PinFunc.
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func (p *PinPL) SetFunc(f pin.Func) error {
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switch f {
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case gpio.FLOAT:
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return p.In(gpio.Float, gpio.NoEdge)
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case gpio.IN:
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return p.In(gpio.PullNoChange, gpio.NoEdge)
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case gpio.IN_LOW:
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return p.In(gpio.PullDown, gpio.NoEdge)
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case gpio.IN_HIGH:
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return p.In(gpio.PullUp, gpio.NoEdge)
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case gpio.OUT_HIGH:
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return p.Out(gpio.High)
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case gpio.OUT_LOW:
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return p.Out(gpio.Low)
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default:
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isGeneral := f == f.Generalize()
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for i, m := range mappingPL[p.offset] {
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if m == f || (isGeneral && m.Generalize() == f) {
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if err := p.Halt(); err != nil {
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return err
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}
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switch i {
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case 0:
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p.setFunction(alt1)
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case 1:
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p.setFunction(alt2)
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case 2:
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p.setFunction(alt3)
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case 3:
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p.setFunction(alt4)
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case 4:
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p.setFunction(alt5)
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}
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return nil
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}
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}
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return p.wrap(errors.New("unsupported function"))
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}
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}
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// In implements gpio.PinIn.
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func (p *PinPL) In(pull gpio.Pull, edge gpio.Edge) error {
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if !p.available {
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// We do not want the error message about uninitialized system.
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return p.wrap(errors.New("not available on this CPU architecture"))
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}
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if p.usingEdge && edge == gpio.NoEdge {
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if err := p.sysfsPin.Halt(); err != nil {
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return p.wrap(err)
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}
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p.usingEdge = false
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}
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if drvGPIOPL.gpioMemoryPL == nil {
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if p.sysfsPin == nil {
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return p.wrap(errors.New("subsystem gpiomem not initialized and sysfs not accessible; try running as root?"))
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}
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if pull != gpio.PullNoChange {
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return p.wrap(errors.New("pull cannot be used when subsystem gpiomem not initialized; try running as root?"))
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}
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if err := p.sysfsPin.In(pull, edge); err != nil {
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return p.wrap(err)
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}
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p.usingEdge = edge != gpio.NoEdge
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return nil
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}
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if !p.setFunction(in) {
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return p.wrap(errors.New("failed to set pin as input"))
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}
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if pull != gpio.PullNoChange {
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off := p.offset / 16
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shift := 2 * (p.offset % 16)
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// Do it in a way that is concurrent safe.
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drvGPIOPL.gpioMemoryPL.pull[off] &^= 3 << shift
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switch pull {
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case gpio.PullDown:
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drvGPIOPL.gpioMemoryPL.pull[off] = 2 << shift
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case gpio.PullUp:
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drvGPIOPL.gpioMemoryPL.pull[off] = 1 << shift
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default:
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}
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}
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if edge != gpio.NoEdge {
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if p.sysfsPin == nil {
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return p.wrap(fmt.Errorf("pin %d is not exported by sysfs", p.Number()))
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}
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// This resets pending edges.
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if err := p.sysfsPin.In(gpio.PullNoChange, edge); err != nil {
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return p.wrap(err)
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}
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p.usingEdge = true
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}
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return nil
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}
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// Read implements gpio.PinIn.
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func (p *PinPL) Read() gpio.Level {
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if drvGPIOPL.gpioMemoryPL == nil {
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if p.sysfsPin == nil {
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return gpio.Low
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}
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return p.sysfsPin.Read()
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}
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return gpio.Level(drvGPIOPL.gpioMemoryPL.data&(1<<p.offset) != 0)
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}
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// FastRead reads without verification.
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func (p *PinPL) FastRead() gpio.Level {
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return gpio.Level(drvGPIOPL.gpioMemoryPL.data&(1<<p.offset) != 0)
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}
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// WaitForEdge implements gpio.PinIn.
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func (p *PinPL) WaitForEdge(timeout time.Duration) bool {
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if p.sysfsPin != nil {
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return p.sysfsPin.WaitForEdge(timeout)
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}
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return false
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}
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// Pull implements gpio.PinIn.
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func (p *PinPL) Pull() gpio.Pull {
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if drvGPIOPL.gpioMemoryPL == nil {
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// If gpioMemoryPL is set, p.available is true.
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return gpio.PullNoChange
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}
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switch (drvGPIOPL.gpioMemoryPL.pull[p.offset/16] >> (2 * (p.offset % 16))) & 3 {
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case 0:
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return gpio.Float
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case 1:
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return gpio.PullUp
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case 2:
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return gpio.PullDown
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default:
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// Confused.
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return gpio.PullNoChange
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}
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}
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// DefaultPull implements gpio.PinIn.
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func (p *PinPL) DefaultPull() gpio.Pull {
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return p.defaultPull
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}
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// Out implements gpio.PinOut.
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func (p *PinPL) Out(l gpio.Level) error {
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if !p.available {
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// We do not want the error message about uninitialized system.
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return p.wrap(errors.New("not available on this CPU architecture"))
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}
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if drvGPIOPL.gpioMemoryPL == nil {
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if p.sysfsPin != nil {
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return p.wrap(errors.New("subsystem gpiomem not initialized and sysfs not accessible; try running as root?"))
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}
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return p.sysfsPin.Out(l)
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}
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// First disable edges.
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if err := p.Halt(); err != nil {
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return err
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}
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p.FastOut(l)
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if !p.setFunction(out) {
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return p.wrap(errors.New("failed to set pin as output"))
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}
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return nil
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}
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// FastOut sets a pin output level with Absolutely No error checking.
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//
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// See Pin.FastOut for more information.
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func (p *PinPL) FastOut(l gpio.Level) {
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bit := uint32(1 << p.offset)
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if l {
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drvGPIOPL.gpioMemoryPL.data |= bit
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} else {
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drvGPIOPL.gpioMemoryPL.data &^= bit
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}
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}
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// PWM implements gpio.PinOut.
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func (p *PinPL) PWM(gpio.Duty, physic.Frequency) error {
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// TODO(maruel): PWM support for PL10.
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return p.wrap(errors.New("not available on this CPU architecture"))
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}
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//
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// function returns the current GPIO pin function.
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//
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// It must not be called if drvGPIOPL.gpioMemoryPL is nil.
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func (p *PinPL) function() function {
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shift := 4 * (p.offset % 8)
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return function((drvGPIOPL.gpioMemoryPL.cfg[p.offset/8] >> shift) & 7)
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}
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// setFunction changes the GPIO pin function.
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//
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// Returns false if the pin was in AltN. Only accepts in and out
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//
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// It must not be called if drvGPIOPL.gpioMemoryPL is nil.
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func (p *PinPL) setFunction(f function) bool {
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if f != in && f != out {
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return false
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}
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// Interrupt based edge triggering is Alt5 but this is only supported on some
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// pins.
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// TODO(maruel): This check should use a whitelist of pins.
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if actual := p.function(); actual != in && actual != out && actual != disabled && actual != alt5 {
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// Pin is in special mode.
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return false
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}
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off := p.offset / 8
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shift := 4 * (p.offset % 8)
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mask := uint32(disabled) << shift
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v := (uint32(f) << shift) ^ mask
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// First disable, then setup. This is concurrent safe.
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drvGPIOPL.gpioMemoryPL.cfg[off] |= mask
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drvGPIOPL.gpioMemoryPL.cfg[off] &^= v
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if p.function() != f {
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panic(f)
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}
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return true
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}
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func (p *PinPL) wrap(err error) error {
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return fmt.Errorf("allwinner-gpio-pl (%s): %v", p, err)
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}
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//
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// cpuPinsPL is all the pins as supported by the CPU. There is no guarantee that
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// they are actually connected to anything on the board.
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var cpuPinsPL = []PinPL{
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{offset: 0, name: "PL0", defaultPull: gpio.PullUp},
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{offset: 1, name: "PL1", defaultPull: gpio.PullUp},
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{offset: 2, name: "PL2", defaultPull: gpio.Float},
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{offset: 3, name: "PL3", defaultPull: gpio.Float},
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{offset: 4, name: "PL4", defaultPull: gpio.Float},
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{offset: 5, name: "PL5", defaultPull: gpio.Float},
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{offset: 6, name: "PL6", defaultPull: gpio.Float},
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{offset: 7, name: "PL7", defaultPull: gpio.Float},
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{offset: 8, name: "PL8", defaultPull: gpio.Float},
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{offset: 9, name: "PL9", defaultPull: gpio.Float},
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{offset: 10, name: "PL10", defaultPull: gpio.Float},
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{offset: 11, name: "PL11", defaultPull: gpio.Float},
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{offset: 12, name: "PL12", defaultPull: gpio.Float},
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}
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// See gpio.go for details.
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var mappingPL = [13][5]pin.Func{
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{"RSB_SCK", "I2C_SCL", "", "", "PL_EINT0"}, // PL0
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{"RSB_SDA", "I2C_SDA", "", "", "PL_EINT1"}, // PL1
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{"UART_TX", "", "", "", "PL_EINT2"}, // PL2
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{"UART_RX", "", "", "", "PL_EINT3"}, // PL3
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{"JTAG_TMS", "", "", "", "PL_EINT4"}, // PL4
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{"JTAG_TCK", "", "", "", "PL_EINT5"}, // PL5
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{"JTAG_TDO", "", "", "", "PL_EINT6"}, // PL6
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{"JTAG_TDI", "", "", "", "PL_EINT7"}, // PL7
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{"I2C_SCL", "", "", "", "PL_EINT8"}, // PL8
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{"I2C_SDA", "", "", "", "PL_EINT9"}, // PL9
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{"PWM0", "", "", "", "PL_EINT10"}, // PL10
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{"CIR_RX", "", "", "", "PL_EINT11"}, // PL11
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{"", "", "", "", "PL_EINT12"}, // PL12
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}
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func init() {
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PL0 = &cpuPinsPL[0]
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PL1 = &cpuPinsPL[1]
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PL2 = &cpuPinsPL[2]
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PL3 = &cpuPinsPL[3]
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PL4 = &cpuPinsPL[4]
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PL5 = &cpuPinsPL[5]
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PL6 = &cpuPinsPL[6]
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PL7 = &cpuPinsPL[7]
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PL8 = &cpuPinsPL[8]
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PL9 = &cpuPinsPL[9]
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PL10 = &cpuPinsPL[10]
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PL11 = &cpuPinsPL[11]
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PL12 = &cpuPinsPL[12]
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}
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// getBaseAddressPL queries the virtual file system to retrieve the base address
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// of the GPIO registers for GPIO pins in group PL.
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//
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// Defaults to 0x01F02C00 as per datasheet if could query the file system.
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func getBaseAddressPL() uint64 {
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base := uint64(0x01F02C00)
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link, err := os.Readlink("/sys/bus/platform/drivers/sun50i-r-pinctrl/driver")
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if err != nil {
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return base
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}
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parts := strings.SplitN(path.Base(link), ".", 2)
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if len(parts) != 2 {
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return base
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}
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base2, err := strconv.ParseUint(parts[0], 16, 64)
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if err != nil {
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return base
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}
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return base2
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}
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// driverGPIOPL implements periph.Driver.
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type driverGPIOPL struct {
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// gpioMemoryPL is only the PL group in that case. Note that groups PI, PJ, PK
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// do not exist.
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gpioMemoryPL *gpioGroup
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}
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func (d *driverGPIOPL) String() string {
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return "allwinner-gpio-pl"
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}
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func (d *driverGPIOPL) Prerequisites() []string {
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return nil
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}
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func (d *driverGPIOPL) After() []string {
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return []string{"sysfs-gpio"}
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}
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func (d *driverGPIOPL) Init() (bool, error) {
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// BUG(maruel): H3 supports group PL too.
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if !IsA64() {
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return false, errors.New("no A64 CPU detected")
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}
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// Mark the right pins as available even if the memory map fails so they can
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// callback to sysfs.Pins.
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functions := map[pin.Func]struct{}{}
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for i := range cpuPinsPL {
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name := cpuPinsPL[i].Name()
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num := strconv.Itoa(cpuPinsPL[i].Number())
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cpuPinsPL[i].available = true
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gpion := "GPIO" + num
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// Unregister the pin if already registered. This happens with sysfs-gpio.
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// Do not error on it, since sysfs-gpio may have failed to load.
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_ = gpioreg.Unregister(gpion)
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_ = gpioreg.Unregister(num)
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// Register the pin with gpio.
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if err := gpioreg.Register(&cpuPinsPL[i]); err != nil {
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return true, err
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}
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if err := gpioreg.RegisterAlias(gpion, name); err != nil {
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return true, err
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}
|
|
if err := gpioreg.RegisterAlias(num, name); err != nil {
|
|
return true, err
|
|
}
|
|
switch f := cpuPinsPL[i].Func(); f {
|
|
case gpio.IN, gpio.OUT, pin.FuncNone:
|
|
default:
|
|
// Registering the same alias twice fails. This can happen if two pins
|
|
// are configured with the same function.
|
|
if _, ok := functions[f]; !ok {
|
|
// TODO(maruel): We'd have to clear out the ones from allwinner-gpio
|
|
// too.
|
|
functions[f] = struct{}{}
|
|
_ = gpioreg.RegisterAlias(string(f), name)
|
|
}
|
|
}
|
|
}
|
|
|
|
// Now do a second loop but do the alternate functions.
|
|
for i := range cpuPinsPL {
|
|
for _, f := range cpuPinsPL[i].SupportedFuncs() {
|
|
switch f {
|
|
case gpio.IN, gpio.OUT:
|
|
default:
|
|
if _, ok := functions[f]; !ok {
|
|
// TODO(maruel): We'd have to clear out the ones from allwinner-gpio
|
|
// too.
|
|
functions[f] = struct{}{}
|
|
_ = gpioreg.RegisterAlias(string(f), cpuPinsPL[i].name)
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
m, err := pmem.Map(getBaseAddressPL(), 4096)
|
|
if err != nil {
|
|
if os.IsPermission(err) {
|
|
return true, fmt.Errorf("need more access, try as root: %v", err)
|
|
}
|
|
return true, err
|
|
}
|
|
if err := m.AsPOD(&d.gpioMemoryPL); err != nil {
|
|
return true, err
|
|
}
|
|
|
|
return true, nil
|
|
}
|
|
|
|
func init() {
|
|
if isArm {
|
|
driverreg.MustRegister(&drvGPIOPL)
|
|
}
|
|
}
|
|
|
|
var drvGPIOPL driverGPIOPL
|
|
|
|
var _ gpio.PinIO = &PinPL{}
|
|
var _ gpio.PinIn = &PinPL{}
|
|
var _ gpio.PinOut = &PinPL{}
|
|
var _ pin.PinFunc = &PinPL{}
|