Modules/VIARhineII - RX and TX works, but TX is a hack atm

[tpg/acess2.git] / KernelLand / Modules / Network / VIARhineII / rhine2.c

/*
 * Acess2 VIA Rhine II Driver (VT6102)
 * - By John Hodge (thePowersGang)
 */
#define DEBUG   1
#define VERSION ((0<<8)|10)
#include <acess.h>
#include <modules.h>
#include <drv_pci.h>
#include <semaphore.h>
#include "rhine2_hw.h"
#include <IPStack/include/adapters_api.h>

#define DESC_SIZE       16
#define N_RX_DESCS      16
#define RX_BUF_SIZE     1024
#define N_RX_PAGES      ((N_RX_DESCS*RX_BUF_SIZE)/PAGE_SIZE)
#define N_TX_DESCS      ((PAGE_SIZE/DESC_SIZE)-N_RX_DESCS)

#define CR0_BASEVAL     (CR0_STRT|CR0_TXON|CR0_RXON)

// === CONSTANTS ===
#define VENDOR_ID       0x1106
#define DEVICE_ID       0x3065

// === TYPES ===
typedef struct sCard
{
        Uint16  IOBase;
        Uint8   IRQ;
        
        tSemaphore      ReadSemaphore;
        tSemaphore      SendSemaphore;

        struct {
                Uint32  Phys;
                void    *Virt;
        } RXBuffers[N_RX_PAGES];

        Uint32  DescTablePhys;
        void    *DescTable;

        struct sTXDesc  *TXDescs;
         int    NextTX;
         int    nFreeTX;
        
        struct sRXDesc  *FirstRX;       // Most recent unread packet
        struct sRXDesc  *LastRX;        // End of RX descriptor queue

        void    *IPHandle;      
        Uint8   MacAddr[6];
}       tCard;

// === PROTOTYPES ===
 int    Rhine2_Install(char **Options);
void    Rhine2_int_InitialiseCard(tCard *Card);
tIPStackBuffer  *Rhine2_WaitPacket(void *Ptr);
 int    Rhine2_SendPacket(void *Ptr, tIPStackBuffer *Buffer);
void    Rhine2_IRQHandler(int Num, void *Pt);
// --- Helpers ---
struct sRXDesc  *Rhine2_int_GetDescFromPhys(tCard *Card, Uint32 Addr);
void    *Rhine2_int_GetBufferFromPhys(tCard *Card, Uint32 Addr);
void    Rhine2_int_FreeRXDesc(void *Desc, size_t, size_t, const void*);

// === GLOBALS ===
MODULE_DEFINE(0, VERSION, VIARhineII, Rhine2_Install, NULL, NULL);
tIPStack_AdapterType    gRhine2_AdapterType = {
        .Name = "VIA Rhine II",
        .SendPacket = Rhine2_SendPacket,
        .WaitForPacket = Rhine2_WaitPacket,
};
 int    giRhine2_CardCount;
tCard   *gaRhine2_Cards;

// === CODE ===
/**
 * \brief Initialises the driver
 */
int Rhine2_Install(char **Options)
{
         int    id = -1;
         int    i = 0;
//      Uint16  base;
        tCard   *card;
        
        giRhine2_CardCount = PCI_CountDevices(VENDOR_ID, DEVICE_ID);
        if( giRhine2_CardCount == 0 )   return MODULE_ERR_NOTNEEDED;
        
        gaRhine2_Cards = calloc( giRhine2_CardCount, sizeof(tCard) );
        
        while( (id = PCI_GetDevice(VENDOR_ID, DEVICE_ID, i)) != -1 )
        {
                card = &gaRhine2_Cards[i];
                
                LOG("BAR0 = 0x%08x", PCI_GetBAR(id, 0));
                LOG("BAR1 = 0x%08x", PCI_GetBAR(id, 1));
                LOG("BAR2 = 0x%08x", PCI_GetBAR(id, 2));
                LOG("BAR3 = 0x%08x", PCI_GetBAR(id, 3));
                LOG("BAR4 = 0x%08x", PCI_GetBAR(id, 4));
                LOG("BAR5 = 0x%08x", PCI_GetBAR(id, 5));
                
                card->IOBase = PCI_GetBAR(id, 0);
                if( !(card->IOBase & 1) ) {
                        // Oops?
                        Log_Warning("Rhine2", "BAR0 is not in IO space");
                        continue ;
                }
                card->IOBase &= ~1;
                card->IRQ = PCI_GetIRQ( id );
                
                // Install IRQ Handler
                IRQ_AddHandler(card->IRQ, Rhine2_IRQHandler, card);
                
                Rhine2_int_InitialiseCard(card);
        
                card->IPHandle = IPStack_Adapter_Add(&gRhine2_AdapterType, card, card->MacAddr);
        
                Log_Log("Rhine2", "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 ++;
        }
        
        return MODULE_ERR_OK;
}

void Rhine2_int_InitialiseCard(tCard *Card)
{
        tPAddr  phys;
        
        Card->MacAddr[0] = inb(Card->IOBase + REG_PAR0);
        Card->MacAddr[1] = inb(Card->IOBase + REG_PAR1);
        Card->MacAddr[2] = inb(Card->IOBase + REG_PAR2);
        Card->MacAddr[3] = inb(Card->IOBase + REG_PAR3);
        Card->MacAddr[4] = inb(Card->IOBase + REG_PAR4);
        Card->MacAddr[5] = inb(Card->IOBase + REG_PAR5);

        LOG("Resetting card");  
        outb(Card->IOBase + REG_CR1, CR1_SFRST);
        // TODO: Timeout
        while( inb(Card->IOBase + REG_CR1) & CR1_SFRST ) ;
        
        LOG("Allocaating RX buffers");
        // Allocate memory for things
        for( int i = 0; i < N_RX_PAGES; i ++ )
        {
                Card->RXBuffers[i].Virt = (void*)MM_AllocDMA(1, 32, &phys);
                Card->RXBuffers[i].Phys = phys;
        }
        
        LOG("Allocating and filling RX/TX Descriptors");
        Card->DescTable = (void*)MM_AllocDMA(1, 32, &phys);
        Card->DescTablePhys = phys;

        // Initialise RX Descriptors
        struct sRXDesc  *rxdescs = Card->DescTable;
        for( int i = 0; i < N_RX_DESCS; i ++ )
        {
                rxdescs[i].RSR = 0;
                rxdescs[i].BufferSize = RX_BUF_SIZE;
                rxdescs[i].RXBufferStart = Card->RXBuffers[i/(PAGE_SIZE/RX_BUF_SIZE)].Phys
                        + (i % (PAGE_SIZE/RX_BUF_SIZE)) * RX_BUF_SIZE;
                rxdescs[i].RDBranchAddress = Card->DescTablePhys + (i+1) * DESC_SIZE;
                rxdescs[i].Length = (1 << 15);  // set OWN
        }
        rxdescs[ N_RX_DESCS - 1 ].RDBranchAddress = Card->DescTablePhys;
        Card->FirstRX = &rxdescs[0];
        Card->LastRX = &rxdescs[N_RX_DESCS - 1];

        Card->TXDescs = (void*)(rxdescs + N_RX_DESCS);
        memset(Card->TXDescs, 0, sizeof(struct sTXDesc)*N_TX_DESCS);
        for( int i = 0; i < N_TX_DESCS; i ++ )
        {
                Card->TXDescs[i].TDBranchAddress = Card->DescTablePhys + (N_RX_DESCS + i + 1) * DESC_SIZE;
        }
        Card->TXDescs[N_TX_DESCS-1].TDBranchAddress = Card->DescTablePhys + N_RX_DESCS * DESC_SIZE;
        Card->nFreeTX = N_TX_DESCS;
        Card->NextTX = 0;
        
        // - Initialise card state
        LOG("Initialising card state");
        outb(Card->IOBase + REG_IMR0, 0xFF);
        outb(Card->IOBase + REG_IMR1, 0xFF);
        outd(Card->IOBase + REG_CUR_RX_DESC, Card->DescTablePhys);
        outd(Card->IOBase + REG_CUR_TX_DESC, Card->DescTablePhys + N_RX_DESCS * DESC_SIZE);

        outb(Card->IOBase + REG_TCR, TCR_TRSF(4));
        
        LOG("RX started");
        outb(Card->IOBase + REG_CR0, CR0_BASEVAL);
        outb(Card->IOBase + REG_CR1, CR1_DPOLL);        // Disabled TX polling only?
        
        LOG("ISR state: %02x %02x", inb(Card->IOBase + REG_ISR0), inb(Card->IOBase + REG_ISR1));
}

// --- File Functions ---
tIPStackBuffer *Rhine2_WaitPacket(void *Ptr)
{
        tCard   *card = Ptr;
        tIPStackBuffer  *ret;
        struct sRXDesc  *desc;
         int    nDesc;
        
        ENTER("pPtr", Ptr);

        LOG("CR0 state: %02x", inb(card->IOBase + REG_CR0));
        if( Semaphore_Wait( &card->ReadSemaphore, 1 ) != 1 )
        {
                LEAVE('n');
                return NULL;
        }
        
        nDesc = 0;
        desc = card->FirstRX;
        while( !(desc->Length & (1 << 15)) )
        {
//              LOG("desc(%p) = {RSR:%04x,Length:%04x,BufferSize:%04x,RXBufferStart:%08x,RDBranchAddress:%08x}",
//                      desc, desc->RSR, desc->Length, desc->BufferSize, desc->RXBufferStart, desc->RDBranchAddress);
                // TODO: This kinda expensive call can be changed for an increment, but cbf
                desc = Rhine2_int_GetDescFromPhys(card, desc->RDBranchAddress);
                nDesc ++;
        }

        LOG("%i descriptors in packet", nDesc);

        ret = IPStack_Buffer_CreateBuffer(nDesc);
        desc = card->FirstRX;
        while( !(desc->Length & (1 << 15)) )
        {
                void    *data = Rhine2_int_GetBufferFromPhys(card, desc->RXBufferStart);
                IPStack_Buffer_AppendSubBuffer(ret,
                        desc->Length, 0, data,
                        Rhine2_int_FreeRXDesc, desc
                        );
                desc = Rhine2_int_GetDescFromPhys(card, desc->RDBranchAddress);
        }       
        card->FirstRX = desc;

        LEAVE('p', ret);
        return ret;
}

int Rhine2_SendPacket(void *Ptr, tIPStackBuffer *Buffer)
{
        tCard   *card = Ptr;
        size_t  len;
        const void      *data;
         int    nDescs, first_desc_id;
        struct sTXDesc  *desc = NULL;
        struct sTXDesc  *first_desc = NULL;
        struct sTXDesc  *last_desc = NULL;

        ENTER("pPtr pBuffer", Ptr, Buffer);     

        #if 0
        // Iterate buffers
        nDescs = 0;
        for( int id = -1; -1 != (id = IPStack_Buffer_GetBuffer(Buffer, id, &len, &data)); )
        {
                if( ((tVAddr)data & (PAGE_SIZE-1)) + len > PAGE_SIZE )
                        nDescs ++;
                nDescs ++;
        }
        if( nDescs == 0 ) {
                LEAVE('i', -1);
                return -1;
        }

        LOG("%i descriptors needed", nDescs);
        
        if( card->nFreeTX < nDescs ) {
                // Oops... wait?
                // TODO: Semaphore instead?
                LEAVE('i', 1);
                return 1;
        }

        first_desc_id = card->NextTX;
        card->NextTX = (card->NextTX + nDescs) % N_TX_DESCS;

        desc = card->TXDescs + first_desc_id;
        
        nDescs = 0;
        for( int id = -1; -1 != (id = IPStack_Buffer_GetBuffer(Buffer, id, &len, &data)); )
        {
                tPAddr  pdata = MM_GetPhysAddr( (tVAddr)data );
                #if PHYS_BITS > 32
                if( pdata >> 32 ) {
                        // TODO: re-map
                        Log_Warning("Rhine2", "TODO: Bounce-buffer >32 pbit buffers");
                } 
                #endif
        
                if( (pdata & (PAGE_SIZE-1)) + len > PAGE_SIZE )
                {
                        // Need to split into to descriptors
                        Log_Warning("Rhine2", "TODO: Split cross-page buffers");
                }
                
                LOG("Buffer %i (%p+0x%x) placed in %p", id-1, data, len, desc);

                // TODO: Rhine I requires 4-byte alignment (fsck that, I don't have one)
        
                desc->TXBufferStart = pdata;
                desc->BufferSize = len | (1 << 15);
                // TODO: TCR
                desc->TCR = 0;
                if( nDescs == 0 )
                        desc->TSR = 0;  // OWN will be set below
                else
                        desc->TSR = TD_TSR_OWN;

                nDescs ++;
                if(first_desc_id + nDescs == N_TX_DESCS)
                        desc = card->TXDescs;
                else
                        desc ++;
        }
        #else
        data = IPStack_Buffer_CompactBuffer(Buffer, &len);
        
        nDescs = 1;
        first_desc_id = card->NextTX;
        card->NextTX = (card->NextTX + nDescs) % N_TX_DESCS;
        desc = card->TXDescs + first_desc_id;
        
        desc->TXBufferStart = MM_GetPhysAddr( (tVAddr)data );
        desc->BufferSize = len | (1 << 15);
        desc->TSR = 0;
        desc->TCR = 0;
        #endif
        
        first_desc = card->TXDescs + first_desc_id;
        last_desc = desc;
        
        first_desc->TCR |= TD_TCR_STP;
        last_desc->TCR |= TD_TCR_EDP|TD_TCR_IC;
//      last_desc->BufferSize &= ~(1 << 15);

        first_desc->TSR |= TD_TSR_OWN;

        LOG("%i descriptors allocated, first = %p, last = %p", nDescs, first_desc, last_desc);


        LOG("Waiting for TX to complete");
        outb(card->IOBase + REG_CR0, CR0_TDMD|CR0_BASEVAL);
        Semaphore_Wait(&card->SendSemaphore, 1);

        #if 1
        free((void*)data);
        #endif

        LEAVE('i', 0);
        return 0;
}

void Rhine2_IRQHandler(int Num, void *Ptr)
{
        tCard   *card = Ptr;
        Uint8   isr0 = inb(card->IOBase + REG_ISR0);
        Uint8   isr1 = inb(card->IOBase + REG_ISR1);

        if( isr0 == 0 ) return ;        

        LOG("ISR0 = 0x%02x, ISR1 = 0x%02x", isr0, isr1);

        if( isr0 & ISR0_PRX )
        {
                LOG("PRX");
                Semaphore_Signal(&card->ReadSemaphore, 1);
        }
        
        if( isr0 & ISR0_PTX )
        {
                LOG("PTX");
                Semaphore_Signal(&card->SendSemaphore, 1);
        }
        
        if( isr0 & ISR0_TXE )
        {
                LOG("TX Error... oops");
                Semaphore_Signal(&card->SendSemaphore, 1);
        }
        
        if( isr0 & ISR0_TU )
        {
                LOG("Transmit buffer underflow");
        }

        LOG("Acking interrupts");
        outb(card->IOBase + REG_ISR0, isr0);
        outb(card->IOBase + REG_ISR1, isr1);
}

// --- Helpers ---
struct sRXDesc *Rhine2_int_GetDescFromPhys(tCard *Card, Uint32 Addr)
{
        if( Card->DescTablePhys > Addr )        return NULL;
        if( Card->DescTablePhys + PAGE_SIZE <= Addr )   return NULL;
        if( Addr & 15 ) return NULL;
        return (struct sRXDesc*)Card->DescTable + ((Addr & (PAGE_SIZE-1)) / 16);
}

void *Rhine2_int_GetBufferFromPhys(tCard *Card, Uint32 Addr)
{
        for( int i = 0; i < N_RX_PAGES; i ++ )
        {
                if( Card->RXBuffers[i].Phys > Addr )    continue;
                if( Card->RXBuffers[i].Phys + PAGE_SIZE <= Addr )       continue;
                return Card->RXBuffers[i].Virt + (Addr & (PAGE_SIZE-1));
        }
        return NULL;
}

void Rhine2_int_FreeRXDesc(void *Ptr, size_t u1, size_t u2, const void *u3)
{
        struct sRXDesc  *desc = Ptr;
        
        desc->RSR = 0;
        desc->Length = (1 << 15);       // Reset OWN
}