package sifive.blocks.devices.gpio
import Chisel._
-import config.Parameters
-import regmapper._
-import uncore.tilelink2._
-import util.{AsyncResetRegVec, GenericParameterizedBundle}
+import sifive.blocks.devices.pinctrl.{PinCtrl, Pin, BasePin, EnhancedPin, EnhancedPinCtrl}
+import freechips.rocketchip.config.Parameters
+import freechips.rocketchip.regmapper._
+import freechips.rocketchip.tilelink._
+import freechips.rocketchip.util.{AsyncResetRegVec, GenericParameterizedBundle}
case class GPIOParams(address: BigInt, width: Int, includeIOF: Boolean = false)
-// YAGNI: Make the PUE, DS, and
-// these also optionally HW controllable.
-// This is the base class of things you "always"
-// want to control from a HW block.
-class GPIOCtrl extends Bundle {
- val oval = Bool()
- val oe = Bool()
- val ie = Bool()
-}
-
-// This is the actual IOF interface.
+// This is the actual IOF interface.pa
// Add a valid bit to indicate whether
// there is something actually connected
// to this.
-class GPIOPinIOFCtrl extends GPIOCtrl {
+class IOFCtrl extends PinCtrl {
val valid = Bool()
}
// By default,
-object GPIOPinIOFCtrl {
- def apply(): GPIOPinIOFCtrl = {
- val iof = Wire(new GPIOPinIOFCtrl())
+object IOFCtrl {
+ def apply(): IOFCtrl = {
+ val iof = Wire(new IOFCtrl())
iof.valid := Bool(false)
iof.oval := Bool(false)
iof.oe := Bool(false)
}
}
-// This is the control for a physical
-// Pad.
-
-class GPIOPinCtrl extends GPIOCtrl {
- val pue = Bool() // Pull-up Enable
- val ds = Bool() // Drive Strength
-}
-
-object GPIOPinCtrl {
- def apply(): GPIOPinCtrl = {
- val pin = Wire(new GPIOPinCtrl())
- pin.oval := Bool(false)
- pin.oe := Bool(false)
- pin.pue := Bool(false)
- pin.ds := Bool(false)
- pin.ie := Bool(false)
- pin
- }
-}
-
// Package up the inputs and outputs
// for the IOF
-class GPIOPinIOF extends Bundle {
- val i = new Bundle {
- val ival = Bool(INPUT)
+class IOFPin extends Pin {
+ val o = new IOFCtrl().asOutput
+
+ def default(): Unit = {
+ this.o.oval := Bool(false)
+ this.o.oe := Bool(false)
+ this.o.ie := Bool(false)
+ this.o.valid := Bool(false)
+ }
+
+ def inputPin(pue: Bool = Bool(false) /*ignored*/): Bool = {
+ this.o.oval := Bool(false)
+ this.o.oe := Bool(false)
+ this.o.ie := Bool(true)
+ this.i.ival
+ }
+ def outputPin(signal: Bool,
+ pue: Bool = Bool(false), /*ignored*/
+ ds: Bool = Bool(false), /*ignored*/
+ ie: Bool = Bool(false)
+ ): Unit = {
+ this.o.oval := signal
+ this.o.oe := Bool(true)
+ this.o.ie := ie
}
- val o = new GPIOPinIOFCtrl().asOutput
}
// Connect both the i and o side of the pin,
// and drive the valid signal for the IOF.
-object GPIOPinToIOF {
-
- def apply (pin: GPIOPin, iof: GPIOPinIOF): Unit = {
+object BasePinToIOF {
+ def apply(pin: BasePin, iof: IOFPin): Unit = {
iof <> pin
iof.o.valid := Bool(true)
}
-
-}
-
-// Package up the inputs and outputs
-// for the Pin
-class GPIOPin extends Bundle {
- val i = new Bundle {
- val ival = Bool(INPUT)
- }
- val o = new GPIOPinCtrl().asOutput
}
// This is sort of weird because
// outside of RocketChipTop.
class GPIOPortIO(c: GPIOParams) extends GenericParameterizedBundle(c) {
- val pins = Vec(c.width, new GPIOPin)
- val iof_0 = if (c.includeIOF) Some(Vec(c.width, new GPIOPinIOF).flip) else None
- val iof_1 = if (c.includeIOF) Some(Vec(c.width, new GPIOPinIOF).flip) else None
+ val pins = Vec(c.width, new EnhancedPin())
+ val iof_0 = if (c.includeIOF) Some(Vec(c.width, new IOFPin).flip) else None
+ val iof_1 = if (c.includeIOF) Some(Vec(c.width, new IOFPin).flip) else None
}
// It would be better if the IOF were here and
// we could do the pinmux inside.
trait HasGPIOBundleContents extends Bundle {
- val params: GPIOParams
+ def params: GPIOParams
val port = new GPIOPortIO(params)
}
// Actual Pinmux
// -------------------------------------------------
- val swPinCtrl = Wire(Vec(c.width, new GPIOPinCtrl()))
+ val swPinCtrl = Wire(Vec(c.width, new EnhancedPinCtrl()))
// This strips off the valid.
- val iof0Ctrl = Wire(Vec(c.width, new GPIOCtrl()))
- val iof1Ctrl = Wire(Vec(c.width, new GPIOCtrl()))
-
- val iofCtrl = Wire(Vec(c.width, new GPIOCtrl()))
- val iofPlusSwPinCtrl = Wire(Vec(c.width, new GPIOPinCtrl()))
+ val iof0Ctrl = Wire(Vec(c.width, new EnhancedPinCtrl()))
+ val iof1Ctrl = Wire(Vec(c.width, new EnhancedPinCtrl()))
+ val iofCtrl = Wire(Vec(c.width, new EnhancedPinCtrl()))
+ val iofPlusSwPinCtrl = Wire(Vec(c.width, new EnhancedPinCtrl()))
for (pin <- 0 until c.width) {
swPinCtrl(pin).ds := dsReg(pin)
swPinCtrl(pin).ie := ieReg.io.q(pin)
- val pre_xor = Wire(new GPIOPinCtrl())
+ val pre_xor = Wire(new EnhancedPinCtrl())
if (c.includeIOF) {
// Allow SW Override for invalid inputs.
}
}
-object GPIOOutputPinCtrl {
-
- def apply( pin: GPIOPin, signal: Bool,
- pue: Bool = Bool(false),
- ds: Bool = Bool(false),
- ie: Bool = Bool(false)
- ): Unit = {
- pin.o.oval := signal
- pin.o.oe := Bool(true)
- pin.o.pue := pue
- pin.o.ds := ds
- pin.o.ie := ie
- }
-
- def apply(pins: Vec[GPIOPin], signals: Bits,
- pue: Bool, ds: Bool, ie: Bool
- ): Unit = {
- for ((signal, pin) <- (signals.toBools zip pins)) {
- apply(pin, signal, pue, ds, ie)
- }
- }
-
- def apply(pins: Vec[GPIOPin], signals: Bits): Unit = apply(pins, signals,
- Bool(false), Bool(false), Bool(false))
-
-}
-
-object GPIOInputPinCtrl {
-
- def apply (pin: GPIOPin, pue: Bool = Bool(false)): Bool = {
- pin.o.oval := Bool(false)
- pin.o.oe := Bool(false)
- pin.o.pue := pue
- pin.o.ds := Bool(false)
- pin.o.ie := Bool(true)
-
- pin.i.ival
- }
-
- def apply (pins: Vec[GPIOPin], pue: Bool): Vec[Bool] = {
- val signals = Wire(Vec.fill(pins.size)(Bool(false)))
- for ((signal, pin) <- (signals zip pins)) {
- signal := GPIOInputPinCtrl(pin, pue)
- }
- signals
- }
-
- def apply (pins: Vec[GPIOPin]): Vec[Bool] = apply(pins, Bool(false))
-
-}
-
// Magic TL2 Incantation to create a TL2 Slave
class TLGPIO(w: Int, c: GPIOParams)(implicit p: Parameters)
extends TLRegisterRouter(c.address, "gpio", Seq("sifive,gpio0"), interrupts = c.width, beatBytes = w)(