#include <modules.h>
#include <fs_devfs.h>
#include <drv_pci.h>
-#include <tpl_drv_network.h>
+#include <api_drv_network.h>
#include <semaphore.h>
// === CONSTANTS ===
char *TransmitBuffers[4];
tPAddr PhysTransmitBuffers[4];
- BOOL TransmitInUse; // Flags for each transmit descriptor
- int CurTXDecscriptor;
+ tMutex TransmitInUse[4];
+ tMutex CurTXProtector; //!< Protects \a .CurTXDescriptor
+ int CurTXDescriptor;
char Name[2];
tVFS_Node Node;
tVFS_Node *RTL8139_FindDir(tVFS_Node *Node, const char *Filename);
int RTL8139_RootIOCtl(tVFS_Node *Node, int ID, void *Arg);
Uint64 RTL8139_Read(tVFS_Node *Node, Uint64 Offset, Uint64 Length, void *Buffer);
-Uint64 RTL8139_Write(tVFS_Node *Node, Uint64 Offset, Uint64 Length, void *Buffer);
+Uint64 RTL8139_Write(tVFS_Node *Node, Uint64 Offset, Uint64 Length, const void *Buffer);
int RTL8139_IOCtl(tVFS_Node *Node, int ID, void *Arg);
-void RTL8139_IRQHandler(int Num);
+void RTL8139_IRQHandler(int Num, void *Ptr);
// === GLOBALS ===
MODULE_DEFINE(0, VERSION, RTL8139, RTL8139_Install, NULL, NULL);
+tVFS_NodeType gRTL8139_RootNodeType = {
+ .ReadDir = RTL8139_ReadDir,
+ .FindDir = RTL8139_FindDir,
+ .IOCtl = RTL8139_IOCtl
+ };
+tVFS_NodeType gRTL8139_DevNodeType = {
+ .Write = RTL8139_Write,
+ .Read = RTL8139_Read,
+ .IOCtl = RTL8139_IOCtl
+ };
tDevFS_Driver gRTL8139_DriverInfo = {
NULL, "RTL8139",
{
.NumACLs = 1,
.ACLs = &gVFS_ACL_EveryoneRX,
.Flags = VFS_FFLAG_DIRECTORY,
- .ReadDir = RTL8139_ReadDir,
- .FindDir = RTL8139_FindDir,
- .IOCtl = RTL8139_RootIOCtl
+ .Type = &gRTL8139_RootNodeType
}
};
int giRTL8139_CardCount;
Uint16 base;
tCard *card;
- giRTL8139_CardCount = PCI_CountDevices(VENDOR_ID, DEVICE_ID, 0);
- Log_Debug("RTL8139", "%i cards", giRTL8139_CardCount);
+ giRTL8139_CardCount = PCI_CountDevices(VENDOR_ID, DEVICE_ID);
if( giRTL8139_CardCount == 0 ) return MODULE_ERR_NOTNEEDED;
-
+
+ Log_Debug("RTL8139", "%i cards", giRTL8139_CardCount);
gaRTL8139_Cards = calloc( giRTL8139_CardCount, sizeof(tCard) );
- //while( (id = PCI_GetDevice(0x10EC, 0x8139, 0, id)) != -1 )
- while( (id = PCI_GetDevice(VENDOR_ID, DEVICE_ID, 0, i)) != -1 )
+ for( i = 0 ; (id = PCI_GetDevice(VENDOR_ID, DEVICE_ID, i)) != -1; i ++ )
{
card = &gaRTL8139_Cards[i];
- base = PCI_AssignPort( id, 0, 0x100 );
+ base = PCI_GetBAR( id, 0 );
+ if( !(base & 1) ) {
+ Log_Warning("RTL8139", "Driver does not support MMIO, skipping card (addr %x)",
+ base);
+ card->IOBase = 0;
+ card->IRQ = 0;
+ continue ;
+ }
+ base &= ~1;
card->IOBase = base;
card->IRQ = PCI_GetIRQ( id );
// Install IRQ Handler
- IRQ_AddHandler(card->IRQ, RTL8139_IRQHandler);
+ IRQ_AddHandler(card->IRQ, RTL8139_IRQHandler, card);
// Power on
outb( base + CONFIG1, 0x00 );
// Set up recieve buffer
// - Allocate 3 pages below 4GiB for the recieve buffer (Allows 8k+16+1500)
card->ReceiveBuffer = (void*)MM_AllocDMA( 3, 32, &card->PhysReceiveBuffer );
- card->ReceiveBufferLength = 8*1024+16;
+ card->ReceiveBufferLength = 8*1024;
outd(base + RBSTART, (Uint32)card->PhysReceiveBuffer);
outd(base + CBA, 0);
outd(base + CAPR, 0);
outd(base + TSAD3, card->PhysTransmitBuffers[3]);
// Set recieve buffer size and recieve mask
- // - Bit 7 being unset tells the card to overflow the recieve buffer if needed
+ // - Bit 7 being set tells the card to overflow the recieve buffer if needed
// (i.e. when the packet starts at the end of the bufffer, it overflows up
// to 1500 bytes)
- outd(base + RCR, 0x0F);
+ outd(base + RCR, 0x8F);
// Recive Enable and Transmit Enable
outb(base + CMD, 0x0C);
card->Node.ImplPtr = card;
card->Node.NumACLs = 0;
card->Node.CTime = now();
- card->Node.Write = RTL8139_Write;
- card->Node.Read = RTL8139_Read;
- card->Node.IOCtl = RTL8139_IOCtl;
+ card->Node.Type = &gRTL8139_DevNodeType;
Log_Log("RTL8139", "Card %i 0x%04x, IRQ %i %02x:%02x:%02x:%02x:%02x:%02x",
i, card->IOBase, card->IRQ,
card->MacAddr[0], card->MacAddr[1], card->MacAddr[2],
card->MacAddr[3], card->MacAddr[4], card->MacAddr[5]
);
-
- i ++;
}
gRTL8139_DriverInfo.RootNode.Size = giRTL8139_CardCount;
Mutex_Acquire( &card->ReadMutex );
- read_ofs = (inw( card->IOBase + CAPR ) + 0x10) & 0xFFFF;
+ read_ofs = inw( card->IOBase + CAPR );
+ LOG("raw read_ofs = %i", read_ofs);
+ read_ofs = (read_ofs + 0x10) & 0xFFFF;
LOG("read_ofs = %i", read_ofs);
pkt_length = *(Uint16*)&card->ReceiveBuffer[read_ofs+2];
// Calculate new read offset
new_read_ofs = read_ofs + pkt_length + 4;
new_read_ofs = (new_read_ofs + 3) & ~3; // Align
- if(new_read_ofs > card->ReceiveBufferLength) new_read_ofs = 0;
+ if(new_read_ofs > card->ReceiveBufferLength) {
+ LOG("wrapping read_ofs");
+ new_read_ofs -= card->ReceiveBufferLength;
+ }
new_read_ofs -= 0x10; // I dunno
+ LOG("new_read_ofs = %i", new_read_ofs);
// Check for errors
if( *(Uint16*)&card->ReceiveBuffer[read_ofs] & 0x1E ) {
// Update CAPR
- outd(card->IOBase + CAPR, new_read_ofs);
+ outw(card->IOBase + CAPR, new_read_ofs);
Mutex_Release( &card->ReadMutex );
goto retry; // I feel evil
}
return Length;
}
-Uint64 RTL8139_Write(tVFS_Node *Node, Uint64 Offset, Uint64 Length, void *Buffer)
+Uint64 RTL8139_Write(tVFS_Node *Node, Uint64 Offset, Uint64 Length, const void *Buffer)
{
int td;
Uint32 status;
ENTER("pNode XLength pBuffer", Node, Length, Buffer);
// TODO: Implement a semaphore for avaliable transmit buffers
-
- td = card->CurTXDecscriptor;
-
+
// Find an avaliable descriptor
- while( card->TransmitInUse & (1 << td) )
- Threads_Yield();
+ Mutex_Acquire(&card->CurTXProtector);
+ td = card->CurTXDescriptor;
+ card->CurTXDescriptor ++;
+ card->CurTXDescriptor %= 4;
+ Mutex_Release(&card->CurTXProtector);
+ // - Lock it
+ Mutex_Acquire( &card->TransmitInUse[td] );
LOG("td = %i", td);
// Transmit using descriptor `td`
- card->TransmitInUse |= (1 << td);
+ LOG("card->PhysTransmitBuffers[td] = %P", card->PhysTransmitBuffers[td]);
outd(card->IOBase + TSAD0 + td*4, card->PhysTransmitBuffers[td]);
- LOG("card->PhysTransmitBuffers[td] = 0x%llx", card->PhysTransmitBuffers[td]);
+ LOG("card->TransmitBuffers[td] = %p", card->TransmitBuffers[td]);
// Copy to buffer
memcpy(card->TransmitBuffers[td], Buffer, Length);
// Start
LOG("status = 0x%08x", status);
outd(card->IOBase + TSD0 + td*4, status);
- card->CurTXDecscriptor ++;
- card->CurTXDecscriptor %= 4;
-
LEAVE('i', (int)Length);
return Length;
return 0;
}
-void RTL8139_IRQHandler(int Num)
+void RTL8139_IRQHandler(int Num, void *Ptr)
{
- int i, j;
- tCard *card;
+ int j;
+ tCard *card = Ptr;
Uint16 status;
+
+ LOG("Num = %i", Num);
- for( i = 0; i < giRTL8139_CardCount; i ++ )
- {
- card = &gaRTL8139_Cards[i];
- if( Num != card->IRQ ) break;
+ if( Num != card->IRQ ) return;
- status = inw(card->IOBase + ISR);
- LOG("status = 0x%02x", status);
+ status = inw(card->IOBase + ISR);
+ LOG("status = 0x%02x", status);
- // Transmit OK, a transmit descriptor is now free
- if( status & FLAG_ISR_TOK )
+ // Transmit OK, a transmit descriptor is now free
+ if( status & FLAG_ISR_TOK )
+ {
+ for( j = 0; j < 4; j ++ )
{
- for( j = 0; j < 4; j ++ )
- {
- if( ind(card->IOBase + TSD0 + j*4) & 0x8000 ) { // TSD TOK
- card->TransmitInUse &= ~(1 << j);
- // TODO: Update semaphore once implemented
- }
+ if( ind(card->IOBase + TSD0 + j*4) & 0x8000 ) { // TSD TOK
+ Mutex_Release( &card->TransmitInUse[j] );
+ // TODO: Update semaphore once implemented
}
- outw(card->IOBase + ISR, FLAG_ISR_TOK);
}
+ outw(card->IOBase + ISR, FLAG_ISR_TOK);
+ }
+
+ // Recieve OK, inform read
+ if( status & FLAG_ISR_ROK )
+ {
+ int read_ofs, end_ofs;
+ int packet_count = 0;
+ int len;
- // Recieve OK, inform read
- if( status & FLAG_ISR_ROK )
+ // Scan recieve buffer for packets
+ end_ofs = inw(card->IOBase + CBA);
+ read_ofs = card->SeenOfs;
+ LOG("read_ofs = %i, end_ofs = %i", read_ofs, end_ofs);
+ if( read_ofs > end_ofs )
{
- int read_ofs, end_ofs;
- int packet_count = 0;
-
- // Scan recieve buffer for packets
- end_ofs = inw(card->IOBase + CBA);
- read_ofs = card->SeenOfs;
- LOG("read_ofs = %i, end_ofs = %i", read_ofs, end_ofs);
- if( read_ofs > end_ofs )
- {
- while( read_ofs < card->ReceiveBufferLength )
- {
- packet_count ++;
- LOG("%i 0x%x Pkt Hdr: 0x%04x, len: 0x%04x",
- packet_count, read_ofs,
- *(Uint16*)&card->ReceiveBuffer[read_ofs],
- *(Uint16*)&card->ReceiveBuffer[read_ofs+2]
- );
- read_ofs += *(Uint16*)&card->ReceiveBuffer[read_ofs+2] + 4;
- read_ofs = (read_ofs + 3) & ~3; // Align
-
- }
- read_ofs = 0;
- }
- while( read_ofs < end_ofs )
+ while( read_ofs < card->ReceiveBufferLength )
{
+ packet_count ++;
+ len = *(Uint16*)&card->ReceiveBuffer[read_ofs+2];
LOG("%i 0x%x Pkt Hdr: 0x%04x, len: 0x%04x",
packet_count, read_ofs,
*(Uint16*)&card->ReceiveBuffer[read_ofs],
- *(Uint16*)&card->ReceiveBuffer[read_ofs+2]
+ len
);
- packet_count ++;
- read_ofs += *(Uint16*)&card->ReceiveBuffer[read_ofs+2] + 4;
+ if(len > 2000) {
+ Log_Warning("RTL8139", "IRQ: Packet in buffer exceeds sanity (%i>2000)", len);
+ }
+ read_ofs += len + 4;
read_ofs = (read_ofs + 3) & ~3; // Align
}
- card->SeenOfs = read_ofs;
-
- LOG("packet_count = %i, read_ofs = 0x%x", packet_count, read_ofs);
-
- if( packet_count )
- {
- if( Semaphore_Signal( &card->ReadSemaphore, packet_count ) != packet_count ) {
- // Oops?
- }
- VFS_MarkAvaliable( &card->Node, 1 );
+ read_ofs -= card->ReceiveBufferLength;
+ LOG("wrapped read_ofs");
+ }
+ while( read_ofs < end_ofs )
+ {
+ packet_count ++;
+ LOG("%i 0x%x Pkt Hdr: 0x%04x, len: 0x%04x",
+ packet_count, read_ofs,
+ *(Uint16*)&card->ReceiveBuffer[read_ofs],
+ *(Uint16*)&card->ReceiveBuffer[read_ofs+2]
+ );
+ read_ofs += *(Uint16*)&card->ReceiveBuffer[read_ofs+2] + 4;
+ read_ofs = (read_ofs + 3) & ~3; // Align
+ }
+ if( read_ofs != end_ofs ) {
+ Log_Warning("RTL8139", "IRQ: read_ofs (%i) != end_ofs(%i)", read_ofs, end_ofs);
+ read_ofs = end_ofs;
+ }
+ card->SeenOfs = read_ofs;
+
+ LOG("packet_count = %i, read_ofs = 0x%x", packet_count, read_ofs);
+
+ if( packet_count )
+ {
+ if( Semaphore_Signal( &card->ReadSemaphore, packet_count ) != packet_count ) {
+ // Oops?
}
-
- outw(card->IOBase + ISR, FLAG_ISR_ROK);
+ VFS_MarkAvaliable( &card->Node, 1 );
}
- }
+
+ outw(card->IOBase + ISR, FLAG_ISR_ROK);
+ }
}