2008-03-05 09:52:00 -05:00
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///////////////////////////////////////////////////////////////////////////////
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//
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// Microsoft Research Singularity
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//
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// Copyright (c) Microsoft Corporation. All rights reserved.
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//
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// File: TulipTxRingBuffer.cs
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//
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// Notes:
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//
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using Microsoft.Contracts;
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using Microsoft.Singularity.Channels;
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using Microsoft.Singularity.Io;
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using Microsoft.Singularity.Io.Net;
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using Microsoft.Singularity.V1.Services;
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using System;
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namespace Microsoft.Singularity.Drivers.Network.Tulip
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{
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internal class TulipTxRingBuffer
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{
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internal const int MaxFragmentBytes = 2047;
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internal const int BytesPerDescriptor = 16;
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internal const int DescriptorAlignment = 4;
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internal const int FragmentsPerDescriptor = 2;
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private ExRef<PacketFifo>! txPackets;
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private IoMemory! region;
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private IoMemory! setupFrame;
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// Descriptor ring buffer values
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private readonly int capacity;
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private int head;
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private int count;
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internal TulipTxRingBuffer(int packetCount, int fragmentCount)
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requires packetCount > 0 && IsPowerOf2(packetCount);
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requires fragmentCount > 0 && IsPowerOf2(fragmentCount);
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requires fragmentCount >= packetCount;
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{
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this.txPackets =
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new ExRef<PacketFifo>(new [ExHeap] PacketFifo(packetCount),
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true);
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int descriptorCount = fragmentCount / FragmentsPerDescriptor;
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this.region =
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(!)IoMemory.AllocatePhysical(
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new UIntPtr((uint)(descriptorCount * BytesPerDescriptor)),
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DescriptorAlignment
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);
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this.setupFrame =
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(!)IoMemory.AllocatePhysical(Tulip.SetupFrameBytes, 0);
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this.capacity = descriptorCount;
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this.head = 0;
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this.count = 0;
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}
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internal void Reset()
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requires this.Count == 0;
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{
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this.head = 0;
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for (int i = 0; i < this.region.Length; i += BytesPerDescriptor) {
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this.region.Write32(i, 0);
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}
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}
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[Pure]
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internal int FreePacketSlots
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{
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get {
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PacketFifo*! in ExHeap txFifo = this.txPackets.Acquire();
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try {
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return txFifo->Capacity - txFifo->Count;
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}
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finally {
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this.txPackets.Release(txFifo);
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}
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}
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}
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internal void Push(PacketFifo*! in ExHeap incoming)
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requires incoming->Count <= FreePacketSlots;
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ensures FreePacketSlots == old(FreePacketSlots) - old(incoming->Count);
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{
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PacketFifo*! in ExHeap txFifo = this.txPackets.Acquire();
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try {
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while (incoming->Count > 0) {
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Packet*! in ExHeap packet = incoming->Pop();
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PushPacket(packet);
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txFifo->Push(packet);
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}
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}
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finally {
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this.txPackets.Release(txFifo);
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}
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}
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[Pure]
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internal int DescriptorsRequired(Packet*! in ExHeap packet)
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{
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return (packet->FragmentCount + FragmentsPerDescriptor - 1) / FragmentsPerDescriptor;
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}
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private static void
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GetFragmentPhysicalAddressAndLength(Packet*! in ExHeap packet,
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int fragment,
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out uint phyAddr,
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out uint length)
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requires fragment <= packet->FragmentCount;
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{
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if (fragment < packet->FragmentCount) {
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UIntPtr vAddr;
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int vLength;
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packet->GetFragmentRange(fragment, out vAddr, out vLength);
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phyAddr = GetPhysicalAddress(vAddr).ToUInt32();
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length = (uint)vLength;
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}
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else {
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phyAddr = 0;
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length = 0;
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}
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}
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private void PushPacket(Packet*! in ExHeap packet)
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requires packet->GetLength() <= Tulip.MtuBytes;
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requires DescriptorsRequired(packet) + this.Count <= this.Capacity;
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ensures this.Count == old(this.Count) + DescriptorsRequired(packet); ensures this.Head == (old(this.Head) + DescriptorsRequired(packet)) % this.Capacity;
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{
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int descriptorsRequired = DescriptorsRequired(packet);
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int startHead = this.head;
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int descriptorsDone = 0;
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while (descriptorsDone < descriptorsRequired) {
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int fragment = descriptorsDone * FragmentsPerDescriptor;
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uint tdes2;
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uint len2;
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GetFragmentPhysicalAddressAndLength(packet, fragment,
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out tdes2, out len2);
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uint tdes3;
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uint len3;
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GetFragmentPhysicalAddressAndLength(packet, fragment + 1,
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out tdes3, out len3);
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uint tdes1 = (len2 & TDES1.TBS_MASK);
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tdes1 |= (len3 & TDES1.TBS_MASK) << TDES1.TBS2_ROLL;
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uint tdes0;
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if (descriptorsDone == 0) {
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tdes0 = 0;
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tdes1 |= TDES1.FS;
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}
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else {
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tdes0 = TDES0.OWN;
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}
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if (descriptorsDone + 1 == descriptorsRequired) {
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tdes1 |= TDES1.LS | TDES1.IC;
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}
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if (this.head == (this.Capacity - 1)) {
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tdes1 |= TDES1.TER;
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}
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int tdes0Base = this.head * BytesPerDescriptor;
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this.region.Write32(tdes0Base, tdes0);
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this.region.Write32(tdes0Base + 4, tdes1);
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this.region.Write32(tdes0Base + 8, tdes2);
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this.region.Write32(tdes0Base + 12, tdes3);
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this.head = (this.head + 1) & (this.Capacity - 1);
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this.count++;
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descriptorsDone++;
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}
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// Update ownership of first descriptor last to
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// avoid race setting up the buffers. Getting
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// context switched would be painful otherwise.
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this.region.Write32(startHead * BytesPerDescriptor, TDES0.OWN);
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}
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public void Pop(PacketFifo*! in ExHeap outgoing)
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ensures this.Count >= 0 && this.Count <= old(this.Count);
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{
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PacketFifo*! in ExHeap txFifo = this.txPackets.Acquire();
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try {
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while (txFifo->Count > 0) {
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uint tdes0 = this.region.Read32(this.Tail * BytesPerDescriptor);
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if ((tdes0 & TDES0.OWN) == TDES0.OWN) {
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break;
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2008-11-17 18:29:00 -05:00
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}
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else if ((tdes0 & TDES0.ES) == TDES0.ES) {
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2008-03-05 09:52:00 -05:00
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// Found an error, clear error for
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// retry.
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this.region.Write32(this.Tail * BytesPerDescriptor,
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TDES0.OWN);
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break;
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}
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Packet*! in ExHeap packet = txFifo->Pop();
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packet->FromDeviceFlags = FromDeviceFlags.TransmitSuccess;
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this.count -= DescriptorsRequired(packet);
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outgoing->Push(packet);
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}
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}
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finally {
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this.txPackets.Release(txFifo);
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}
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}
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internal void ClearTransmitError()
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{
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PacketFifo*! in ExHeap txFifo = this.txPackets.Acquire();
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try {
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if (txFifo->Count == 0)
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return;
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uint tdes0 = this.region.Read32(this.Tail * BytesPerDescriptor);
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if ((tdes0 & TDES0.ES) == TDES0.ES) {
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this.region.Write32(this.Tail * BytesPerDescriptor,
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TDES0.OWN);
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}
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}
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finally {
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this.txPackets.Release(txFifo);
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}
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}
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internal void WriteSetupFrame(byte[]! setupFrame,
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FilteringType filteringType)
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requires setupFrame.Length == Tulip.SetupFrameBytes;
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requires filteringType >= FilteringType.MinValue && filteringType <= FilteringType.MaxValue;
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requires this.Count == 0;
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requires this.Head == 0;
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{
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this.setupFrame.Write8(0, setupFrame);
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uint tdes1 = TDES1.SET | (uint)setupFrame.Length;
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switch (filteringType) {
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case FilteringType.Perfect:
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tdes1 |= TDES1.FT_PERFECT;
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break;
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case FilteringType.Hash:
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tdes1 |= TDES1.FT_HASH;
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break;
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case FilteringType.Inverse:
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tdes1 |= TDES1.FT_INVERSE;
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break;
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case FilteringType.HashOnly:
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tdes1 |= TDES1.FT_HASH_ONLY;
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break;
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default:
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DebugStub.Break();
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break;
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}
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this.region.Write32(12, 0);
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this.region.Write32(8, (uint)this.setupFrame.PhysicalAddress.Value);
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this.region.Write32(4, tdes1);
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this.region.Write32(0, TDES0.OWN);
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this.head = 1;
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this.count = 1;
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}
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internal bool PollSetupFrameCompleted()
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requires this.Count == 1;
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requires this.Head == 1;
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{
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// NB spec has no timeout, it appears setup frame always completes
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uint tdes0 = this.region.Read32(0);
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if (tdes0 == TDES0.SETUP_DONE) {
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this.count--;
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return true;
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}
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return false;
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}
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private static UIntPtr GetPhysicalAddress(UIntPtr va)
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{
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UIntPtr pa; // Physical address
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UIntPtr paLeft; // Bytes remaining on physical page
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if (!DeviceService.GetDmaPhysicalAddress(va, out pa, out paLeft) ||
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2008-11-17 18:29:00 -05:00
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pa == UIntPtr.Zero ) {
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//XXX commenting this out for new netstack.
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//paLeft < Tulip.MtuBytes) {
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DebugStub.Break();
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2008-03-05 09:52:00 -05:00
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throw new ApplicationException("Bad DMA pointer");
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}
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return pa;
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}
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internal UIntPtr BaseAddress
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{
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get { return this.region.PhysicalAddress.Value; }
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}
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[Pure]
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internal int Capacity { get { return this.capacity; } }
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[Pure]
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internal int Count { get { return this.count; } }
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[Pure]
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internal int Free { get { return this.capacity - this.count; } }
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[Pure]
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internal int Head { get { return this.head; } }
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[Pure]
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internal int Tail
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{
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get {
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return ((this.capacity + this.head - this.count) %
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this.capacity);
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}
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}
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[Pure]
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private static bool IsPowerOf2(int n)
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{
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return (n > 0) && ((n & (n - 1)) == 0);
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}
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[ System.Diagnostics.Conditional("DEBUG_TULIP") ]
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private static void DumpOwnership(int start, int end, bool owned)
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{
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TulipDebug.Print(
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"{0:4}-{1:4} {2}\n",
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__arglist(start, end, owned ? "OWNED" : "UNOWNED")
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);
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}
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[ System.Diagnostics.Conditional("DEBUG_TULIP") ]
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internal void DumpOwnership(string title)
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{
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TulipDebug.Print("{0}\n", __arglist(title));
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PacketFifo*! in ExHeap fifo = this.txPackets.Acquire();
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try {
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assert fifo->Count == this.Count;
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TulipDebug.Print("Head = {0} Tail = {1} PacketCount = {2}\n",
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__arglist(this.Head, this.Tail,
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fifo->Count));
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bool errorsFound = false;
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uint lastTdes0 = this.region.Read32(0) & TDES0.OWN;
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int lastStart = 0;
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for (int i = 1; i < this.Capacity; i++) {
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uint tdes0 = this.region.Read32(i * BytesPerDescriptor);
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errorsFound = ((tdes0 & TDES0.ES) != 0);
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if ((tdes0 & TDES0.OWN) != lastTdes0) {
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DumpOwnership(lastStart, i - 1,
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lastTdes0 == TDES0.OWN);
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lastStart = i;
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lastTdes0 = tdes0 & TDES0.OWN;
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}
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}
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DumpOwnership(lastStart, this.Capacity - 1,
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(lastTdes0 & TDES0.OWN) == TDES0.OWN);
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if (errorsFound) {
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for (int i = 0; i < this.Capacity; i++) {
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uint tdes0, tdes1, tdes2, tdes3;
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tdes0 = this.region.Read32(i * BytesPerDescriptor);
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tdes1 = this.region.Read32(i * BytesPerDescriptor + 4);
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tdes2 = this.region.Read32(i * BytesPerDescriptor + 8);
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tdes3 = this.region.Read32(i * BytesPerDescriptor + 12);
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TulipDebug.Print(
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"{0:x4} {1}{2} TDES [0]={3:x8} [1]={4:x8} [2]={5:x8} [3]={6:x8}\n",
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__arglist(i,
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(tdes0 & TDES0.OWN) != 0 ? "O" : "U",
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(tdes0 & TDES0.ES) != 0 ? "E" : "0",
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tdes0, tdes1, tdes2, tdes3));
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}
|
|
|
|
}
|
|
|
|
}
|
|
|
|
finally {
|
|
|
|
this.txPackets.Release(fifo);
|
|
|
|
}
|
|
|
|
}
|
|
|
|
}
|
|
|
|
}
|