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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 | /* $Id: eexpress.c,v 1.13.2.2 1997/03/11 05:52:32 davem Exp $ * * Intel EtherExpress device driver for Linux * * Original version written 1993 by Donald Becker * Modularized by Pauline Middelink <middelin@polyware.iaf.nl> * Changed to support io= irq= by Alan Cox <Alan.Cox@linux.org> * Reworked 1995 by John Sullivan <js10039@cam.ac.uk> * More fixes by Philip Blundell <pjb27@cam.ac.uk> * Added the Compaq LTE Alan Cox <alan@redhat.com> * * Note - this driver is experimental still - it has problems on faster * machines. Someone needs to sit down and go through it line by line with * a databook... */ /* * The original EtherExpress driver was just about usable, but * suffered from a long startup delay, a hard limit of 16k memory * usage on the card (EtherExpress 16s have either 32k or 64k), * and random locks under load. The last was particularly annoying * and made running eXceed/W preferable to Linux/XFree. After hacking * through the driver for a couple of days, I had fixed most of the * card handling errors, at the expense of turning the code into * a complete jungle, but still hadn't tracked down the lock-ups. * I had hoped these would be an IP bug, but failed to reproduce them * under other drivers, so decided to start from scratch and rewrite * the driver cleanly. And here it is. * * It's still not quite there, but self-corrects a lot more problems. * the 'CU wedged, resetting...' message shouldn't happen at all, but * at least we recover. It still locks occasionally, any ideas welcome. * * The original startup delay experienced by some people was due to the * first ARP request for the address of the default router getting lost. * (mostly the reply we were getting back was arriving before our * hardware address was set up, or before the configuration sequence * had told the card NOT to strip of the frame header). If you a long * startup delay, you may have lost this ARP request/reply, although * the original cause has been fixed. However, it is more likely that * you've just locked under this version. * * The main changes are in the 586 initialization procedure (which was * just broken before - the EExp is a strange beasty and needs careful * handling) the receive buffer handling (we now use a non-terminating * circular list of buffers, which stops the card giving us out-of- * resources errors), and the transmit code. The driver is also more * structured, and I have tried to keep the kernel interface separate * from the hardware interface (although some routines naturally want * to do both). * * John Sullivan * * 18/5/95: * * The lock-ups seem to happen when you access card memory after a 586 * reset. This happens only 1 in 12 resets, on a random basis, and * completely locks the machine. As far as I can see there is no * workaround possible - the only thing to be done is make sure we * never reset the card *after* booting the kernel - once at probe time * must be sufficient, and we'll just have to put up with that failing * occasionally (or buy a new NIC). By the way, this looks like a * definite card bug, since Intel's own driver for DOS does exactly the * same. * * This bug makes switching in and out of promiscuous mode a risky * business, since we must do a 586 reset each time. */ /* * Sources: * * The original eexpress.c by Donald Becker * Sources: the Crynwr EtherExpress driver source. * the Intel Microcommunications Databook Vol.1 1990 * * wavelan.c and i82586.h * This was invaluable for the complete '586 configuration details * and command format. * * The Crynwr sources (again) * Not as useful as the Wavelan driver, but then I had eexpress.c to * go off. * * The Intel EtherExpress 16 ethernet card * Provided the only reason I want to see a working etherexpress driver. * A lot of fixes came from just observing how the card (mis)behaves when * you prod it. * */ static char version[] = "eexpress.c: v0.10 04-May-95 John Sullivan <js10039@cam.ac.uk>\n" " v0.14 19-May-96 Philip Blundell <phil@tazenda.demon.co.uk>\n" " v0.15 04-Aug-98 Alan Cox <alan@redhat.com>\n"; #include <linux/module.h> #include <linux/kernel.h> #include <linux/sched.h> #include <linux/types.h> #include <linux/fcntl.h> #include <linux/interrupt.h> #include <linux/ptrace.h> #include <linux/ioport.h> #include <linux/string.h> #include <linux/in.h> #include <asm/system.h> #include <asm/bitops.h> #include <asm/io.h> #include <asm/dma.h> #include <linux/delay.h> #include <linux/errno.h> #include <linux/netdevice.h> #include <linux/etherdevice.h> #include <linux/skbuff.h> #include <linux/malloc.h> /* * Not actually used yet - may be implemented when the driver has * been debugged! * * Debug Level Driver Status * 0 Final release * 1 Beta test * 2 * 3 * 4 Report timeouts & 586 errors (normal debug level) * 5 Report all major events * 6 Dump sent/received packet contents * 7 Report function entry/exit */ #ifndef NET_DEBUG #define NET_DEBUG 4 #endif static unsigned int net_debug = NET_DEBUG; #undef F_DEB #include "eth82586.h" #define PRIV(x) ((struct net_local *)(x)->priv) #define EEXP_IO_EXTENT 16 /* * Private data declarations */ struct net_local { struct enet_statistics stats; unsigned long init_time; /* jiffies when eexp_hw_init586 called */ unsigned short rx_first; /* first rx buf, same as RX_BUF_START */ unsigned short rx_last; /* last rx buf */ unsigned short tx_head; /* next free tx buf */ unsigned short tx_reap; /* first in-use tx buf */ unsigned short tx_tail; /* previous tx buf to tx_head */ unsigned short tx_link; /* last known-executing tx buf */ unsigned short last_tx_restart; /* set to tx_link when we restart the CU */ unsigned char started; unsigned char promisc; unsigned short rx_buf_start; unsigned short rx_buf_end; unsigned short num_tx_bufs; unsigned short num_rx_bufs; }; unsigned short start_code[] = { 0x0000, /* SCP: set bus to 16 bits */ 0x0000,0x0000, /* junk */ 0x0000,0x0000, /* address of ISCP (lo,hi) */ 0x0001, /* ISCP: busy - cleared after reset */ 0x0008,0x0000,0x0000, /* offset,address (lo,hi) of SCB */ 0x0000,0x0000, /* SCB: status, commands */ 0x0000,0x0000, /* links to first command block, first receive descriptor */ 0x0000,0x0000, /* CRC error, alignment error counts */ 0x0000,0x0000, /* out of resources, overrun error counts */ 0x0000,0x0000, /* pad */ 0x0000,0x0000, 0x0000,Cmd_Config, /* startup configure sequence, at 0x0020 */ 0x0032, /* link to next command */ 0x080c, /* 12 bytes follow : fifo threshold=8 */ 0x2e40, /* don't rx bad frames : SRDY/ARDY => ext. sync. : preamble len=8 * take addresses from data buffers : 6 bytes/address */ 0x6000, /* default backoff method & priority : interframe spacing = 0x60 */ 0xf200, /* slot time=0x200 : max collision retry = 0xf */ 0x0000, /* no HDLC : normal CRC : enable broadcast : disable promiscuous/multicast modes */ 0x003c, /* minimum frame length = 60 octets) */ 0x0000,Cmd_INT|Cmd_SetAddr, 0x003e, /* link to next command */ 0x0000,0x0000,0x0000, /* hardware address placed here, 0x0038 */ 0x0000,Cmd_END|Cmd_Nop, /* end of configure sequence */ 0x003e, 0x0000 }; #define CONF_LINK 0x0020 #define CONF_HW_ADDR 0x0038 /* maps irq number to EtherExpress magic value */ static char irqrmap[] = { 0,0,1,2,3,4,0,0,0,1,5,6,0,0,0,0 }; /* * Prototypes for Linux interface */ extern int express_probe(struct device *dev); static int eexp_open (struct device *dev); static int eexp_close(struct device *dev); static struct enet_statistics *eexp_stats(struct device *dev); static int eexp_xmit (struct sk_buff *buf, struct device *dev); static void eexp_irq (int irq, void *dev_addr, struct pt_regs *regs); static void eexp_set_multicast(struct device *dev); /* * Prototypes for hardware access functions */ static void eexp_hw_rx (struct device *dev); static void eexp_hw_tx (struct device *dev, unsigned short *buf, unsigned short len); static int eexp_hw_probe (struct device *dev,unsigned short ioaddr); static unsigned short eexp_hw_readeeprom(unsigned short ioaddr, unsigned char location); static unsigned short eexp_hw_lasttxstat(struct device *dev); static void eexp_hw_txrestart (struct device *dev); static void eexp_hw_txinit (struct device *dev); static void eexp_hw_rxinit (struct device *dev); static void eexp_hw_init586 (struct device *dev); static void eexp_hw_ASICrst (struct device *dev); /* * Linux interface */ /* * checks for presence of EtherExpress card */ int express_probe(struct device *dev) { unsigned short *port,ports[] = { 0x0300,0x0270,0x0320,0x0340,0 }; unsigned short ioaddr = dev->base_addr; if (ioaddr&0xfe00) return eexp_hw_probe(dev,ioaddr); else if (ioaddr) return ENXIO; for ( port=&ports[0] ; *port ; port++ ) { unsigned short sum = 0; int i; for ( i=0 ; i<4 ; i++ ) { unsigned short t; t = inb(*port + ID_PORT); sum |= (t>>4) << ((t & 0x03)<<2); } if (sum==0xbaba && !eexp_hw_probe(dev,*port)) return 0; } return ENODEV; } /* * open and initialize the adapter, ready for use */ static int eexp_open(struct device *dev) { int irq = dev->irq; unsigned short ioaddr = dev->base_addr; #if NET_DEBUG > 6 printk(KERN_DEBUG "%s: eexp_open()\n", dev->name); #endif if (!irq || !irqrmap[irq]) return -ENXIO; if (irq2dev_map[irq] || /* more consistent, surely? */ ((irq2dev_map[irq]=dev),0) || request_irq(irq,&eexp_irq,0,"eexpress",NULL)) return -EAGAIN; request_region(ioaddr, EEXP_IO_EXTENT, "eexpress"); dev->tbusy = 0; dev->interrupt = 0; eexp_hw_init586(dev); dev->start = 1; MOD_INC_USE_COUNT; #if NET_DEBUG > 6 printk(KERN_DEBUG "%s: leaving eexp_open()\n", dev->name); #endif return 0; } /* * close and disable the interface, leaving * the 586 in reset */ static int eexp_close(struct device *dev) { unsigned short ioaddr = dev->base_addr; int irq = dev->irq; dev->tbusy = 1; dev->start = 0; outb(SIRQ_dis|irqrmap[irq],ioaddr+SET_IRQ); PRIV(dev)->started = 0; outw(SCB_CUsuspend|SCB_RUsuspend,ioaddr+SCB_CMD); outb(0,ioaddr+SIGNAL_CA); free_irq(irq,NULL); irq2dev_map[irq] = NULL; outb(i586_RST,ioaddr+EEPROM_Ctrl); release_region(ioaddr,16); MOD_DEC_USE_COUNT; return 0; } /* * Return interface stats */ static struct enet_statistics *eexp_stats(struct device *dev) { struct net_local *lp = (struct net_local *)dev->priv; /* * Hmmm, this looks a little too easy... The card maintains * some stats in the SCB, and I'm not convinced we're * incrementing the most sensible statistics when the card * returns an error (esp. slow DMA, out-of-resources) */ return &lp->stats; } /* * Called to transmit a packet, or to allow us to right ourselves * if the kernel thinks we've died. */ static int eexp_xmit(struct sk_buff *buf, struct device *dev) { struct net_local *lp = (struct net_local *)dev->priv; unsigned short ioaddr = dev->base_addr; #if NET_DEBUG > 6 printk(KERN_DEBUG "%s: eexp_xmit()\n", dev->name); #endif outb(SIRQ_dis|irqrmap[dev->irq],ioaddr+SET_IRQ); if (dev->tbusy) { /* This will happen, but hopefully not as often as when * tbusy==0. If it happens too much, we probably ought * to think about unwedging ourselves... */ if (test_bit(0,(void *)&PRIV(dev)->started)) { if ((jiffies - dev->trans_start)>5) { if (lp->tx_link==lp->last_tx_restart) { unsigned short boguscount=200,rsst; printk(KERN_WARNING "%s: Retransmit timed out, status %04x, resetting...\n", dev->name,inw(ioaddr+SCB_STATUS)); eexp_hw_txinit(dev); lp->last_tx_restart = 0; outw(lp->tx_link,ioaddr+SCB_CBL); outw(0,ioaddr+SCB_STATUS); outw(SCB_CUstart,ioaddr+SCB_CMD); outb(0,ioaddr+SIGNAL_CA); while (!SCB_complete(rsst=inw(ioaddr+SCB_STATUS))) { if (!--boguscount) { boguscount=200; printk(KERN_WARNING "%s: Reset timed out status %04x, retrying...\n", dev->name,rsst); outw(lp->tx_link,ioaddr+SCB_CBL); outw(0,ioaddr+SCB_STATUS); outw(SCB_CUstart,ioaddr+SCB_CMD); outb(0,ioaddr+SIGNAL_CA); } } dev->tbusy = 0; mark_bh(NET_BH); } else { unsigned short status = inw(ioaddr+SCB_STATUS); if (SCB_CUdead(status)) { unsigned short txstatus = eexp_hw_lasttxstat(dev); printk(KERN_WARNING "%s: Transmit timed out, CU not active status %04x %04x, restarting...\n", dev->name, status, txstatus); eexp_hw_txrestart(dev); } else { unsigned short txstatus = eexp_hw_lasttxstat(dev); if (dev->tbusy && !txstatus) { printk(KERN_WARNING "%s: CU wedged, status %04x %04x, resetting...\n", dev->name,status,txstatus); eexp_hw_init586(dev); dev->tbusy = 0; mark_bh(NET_BH); } } } } } else { if ((jiffies-lp->init_time)>10) { unsigned short status = inw(ioaddr+SCB_STATUS); printk(KERN_WARNING "%s: i82586 startup timed out, status %04x, resetting...\n", dev->name, status); eexp_hw_init586(dev); dev->tbusy = 0; mark_bh(NET_BH); } } } if (buf==NULL) { unsigned short status = inw(ioaddr+SCB_STATUS); unsigned short txstatus = eexp_hw_lasttxstat(dev); if (SCB_CUdead(status)) { printk(KERN_WARNING "%s: CU has died! status %04x %04x, attempting to restart...\n", dev->name, status, txstatus); lp->stats.tx_errors++; eexp_hw_txrestart(dev); } dev_tint(dev); outb(SIRQ_en|irqrmap[dev->irq],ioaddr+SET_IRQ); dev_kfree_skb(buf, FREE_WRITE); return 0; } if (set_bit(0,(void *)&dev->tbusy)) { lp->stats.tx_dropped++; } else { unsigned short length = (ETH_ZLEN < buf->len) ? buf->len : ETH_ZLEN; unsigned short *data = (unsigned short *)buf->data; outb(SIRQ_dis|irqrmap[dev->irq],ioaddr+SET_IRQ); eexp_hw_tx(dev,data,length); outb(SIRQ_en|irqrmap[dev->irq],ioaddr+SET_IRQ); } dev_kfree_skb(buf, FREE_WRITE); outb(SIRQ_en|irqrmap[dev->irq],ioaddr+SET_IRQ); return 0; } /* * Handle an EtherExpress interrupt * If we've finished initializing, start the RU and CU up. * If we've already started, reap tx buffers, handle any received packets, * check to make sure we've not become wedged. */ static void eexp_irq(int irq, void *dev_info, struct pt_regs *regs) { struct device *dev = irq2dev_map[irq]; struct net_local *lp; unsigned short ioaddr,status,ack_cmd; unsigned short old_rp,old_wp; if (dev==NULL) { printk(KERN_WARNING "net_interrupt(): irq %d for unknown device caught by EExpress\n",irq); return; } #if NET_DEBUG > 6 printk(KERN_DEBUG "%s: interrupt\n", dev->name); #endif dev->interrupt = 1; /* should this be reset on exit? */ lp = (struct net_local *)dev->priv; ioaddr = dev->base_addr; outb(SIRQ_dis|irqrmap[irq],ioaddr+SET_IRQ); old_rp = inw(ioaddr+READ_PTR); old_wp = inw(ioaddr+WRITE_PTR); status = inw(ioaddr+SCB_STATUS); ack_cmd = SCB_ack(status); if (PRIV(dev)->started==0 && SCB_complete(status)) { #if NET_DEBUG > 4 printk(KERN_DEBUG "%s: SCBcomplete event received\n", dev->name); #endif while (SCB_CUstat(status)==2) status = inw_p(ioaddr+SCB_STATUS); #if NET_DEBUG > 4 printk(KERN_DEBUG "%s: CU went non-active (status = %08x)\n", dev->name, status); #endif PRIV(dev)->started=1; outw_p(lp->tx_link,ioaddr+SCB_CBL); outw_p(PRIV(dev)->rx_buf_start,ioaddr+SCB_RFA); ack_cmd |= SCB_CUstart | SCB_RUstart; } else if (PRIV(dev)->started) { unsigned short txstatus; txstatus = eexp_hw_lasttxstat(dev); } if (SCB_rxdframe(status)) { eexp_hw_rx(dev); } if ((PRIV(dev)->started&2)!=0 && SCB_RUstat(status)!=4) { printk(KERN_WARNING "%s: RU stopped status %04x, restarting...\n", dev->name,status); lp->stats.rx_errors++; eexp_hw_rxinit(dev); outw(PRIV(dev)->rx_buf_start,ioaddr+SCB_RFA); ack_cmd |= SCB_RUstart; } else if (PRIV(dev)->started==1 && SCB_RUstat(status)==4) PRIV(dev)->started|=2; outw(ack_cmd,ioaddr+SCB_CMD); outb(0,ioaddr+SIGNAL_CA); outw(old_rp,ioaddr+READ_PTR); outw(old_wp,ioaddr+WRITE_PTR); outb(SIRQ_en|irqrmap[irq],ioaddr+SET_IRQ); dev->interrupt = 0; #if NET_DEBUG > 6 printk(KERN_DEBUG "%s: leaving eexp_irq()\n", dev->name); #endif return; } /* * Hardware access functions */ /* * Check all the receive buffers, and hand any received packets * to the upper levels. Basic sanity check on each frame * descriptor */ static void eexp_hw_rx(struct device *dev) { struct net_local *lp = (struct net_local *)dev->priv; unsigned short ioaddr = dev->base_addr; unsigned short old_wp = inw(ioaddr+WRITE_PTR); unsigned short old_rp = inw(ioaddr+READ_PTR); unsigned short rx_block = lp->rx_first; unsigned short boguscount = lp->num_rx_bufs; #if NET_DEBUG > 6 printk(KERN_DEBUG "%s: eexp_hw_rx()\n", dev->name); #endif while (outw(rx_block,ioaddr+READ_PTR),boguscount--) { unsigned short status = inw(ioaddr); unsigned short rfd_cmd = inw(ioaddr); unsigned short rx_next = inw(ioaddr); unsigned short pbuf = inw(ioaddr); unsigned short pkt_len; if (FD_Done(status)) { outw(pbuf,ioaddr+READ_PTR); pkt_len = inw(ioaddr); if (rfd_cmd!=0x0000 || pbuf!=rx_block+0x16 || (pkt_len & 0xc000)!=0xc000) { printk(KERN_WARNING "%s: Rx frame at %04x corrupted, status %04x, cmd %04x, " "next %04x, pbuf %04x, len %04x\n",dev->name,rx_block, status,rfd_cmd,rx_next,pbuf,pkt_len); boguscount++; continue; } else if (!FD_OK(status)) { lp->stats.rx_errors++; if (FD_CRC(status)) lp->stats.rx_crc_errors++; if (FD_Align(status)) lp->stats.rx_frame_errors++; if (FD_Resrc(status)) lp->stats.rx_fifo_errors++; if (FD_DMA(status)) lp->stats.rx_over_errors++; if (FD_Short(status)) lp->stats.rx_length_errors++; } else { struct sk_buff *skb; pkt_len &= 0x3fff; skb = dev_alloc_skb(pkt_len+16); if (skb == NULL) { printk(KERN_WARNING "%s: Memory squeeze, dropping packet\n",dev->name); lp->stats.rx_dropped++; break; } skb->dev = dev; skb_reserve(skb, 2); outw(pbuf+10,ioaddr+READ_PTR); insw(ioaddr,skb_put(skb,pkt_len),(pkt_len+1)>>1); skb->protocol = eth_type_trans(skb,dev); netif_rx(skb); lp->stats.rx_packets++; } outw(rx_block,ioaddr+WRITE_PTR); outw(0x0000,ioaddr); outw(0x0000,ioaddr); } rx_block = rx_next; } outw(old_rp,ioaddr+READ_PTR); outw(old_wp,ioaddr+WRITE_PTR); } /* * Hand a packet to the card for transmission * If we get here, we MUST have already checked * to make sure there is room in the transmit * buffer region */ static void eexp_hw_tx(struct device *dev, unsigned short *buf, unsigned short len) { struct net_local *lp = (struct net_local *)dev->priv; unsigned short ioaddr = dev->base_addr; unsigned short old_wp = inw(ioaddr+WRITE_PTR); outw(lp->tx_head,ioaddr+WRITE_PTR); outw(0x0000,ioaddr); outw(Cmd_INT|Cmd_Xmit,ioaddr); outw(lp->tx_head+0x08,ioaddr); outw(lp->tx_head+0x0e,ioaddr); outw(0x0000,ioaddr); outw(0x0000,ioaddr); outw(lp->tx_head+0x08,ioaddr); outw(0x8000|len,ioaddr); outw(-1,ioaddr); outw(lp->tx_head+0x16,ioaddr); outw(0,ioaddr); outsw(ioaddr,buf,(len+1)>>1); outw(lp->tx_tail+0x0c,ioaddr+WRITE_PTR); outw(lp->tx_head,ioaddr); dev->trans_start = jiffies; lp->tx_tail = lp->tx_head; if (lp->tx_head==TX_BUF_START+((lp->num_tx_bufs-1)*TX_BUF_SIZE)) lp->tx_head = TX_BUF_START; else lp->tx_head += TX_BUF_SIZE; if (lp->tx_head != lp->tx_reap) dev->tbusy = 0; outw(old_wp,ioaddr+WRITE_PTR); } /* * Sanity check the suspected EtherExpress card * Read hardware address, reset card, size memory and * initialize buffer memory pointers. These should * probably be held in dev->priv, in case someone has 2 * differently configured cards in their box (Arghhh!) */ static int eexp_hw_probe(struct device *dev, unsigned short ioaddr) { unsigned short hw_addr[3]; int i; unsigned char *chw_addr = (unsigned char *)hw_addr; printk("%s: EtherExpress at %#x, ",dev->name,ioaddr); hw_addr[0] = eexp_hw_readeeprom(ioaddr,2); hw_addr[1] = eexp_hw_readeeprom(ioaddr,3); hw_addr[2] = eexp_hw_readeeprom(ioaddr,4); /* Standard Address or Compaq LTE Address */ if (!((hw_addr[2]==0x00aa && ((hw_addr[1] & 0xff00)==0x0000)) || (hw_addr[2]==0x0080 && ((hw_addr[1] & 0xff00)==0x5F00)))) { printk("rejected: invalid address %04x%04x%04x\n", hw_addr[2],hw_addr[1],hw_addr[0]); return -ENODEV; } dev->base_addr = ioaddr; for ( i=0 ; i<6 ; i++ ) dev->dev_addr[i] = chw_addr[5-i]; { char irqmap[]={0, 9, 3, 4, 5, 10, 11, 0}; char *ifmap[]={"AUI", "BNC", "10baseT"}; enum iftype {AUI=0, BNC=1, TP=2}; unsigned short setupval = eexp_hw_readeeprom(ioaddr,0); dev->irq = irqmap[setupval>>13]; dev->if_port = !(setupval & 0x1000) ? AUI : eexp_hw_readeeprom(ioaddr,5) & 0x1 ? TP : BNC; printk("IRQ %d, Interface %s, ",dev->irq,ifmap[dev->if_port]); outb(SIRQ_dis|irqrmap[dev->irq],ioaddr+SET_IRQ); outb(0,ioaddr+SET_IRQ); } dev->priv = kmalloc(sizeof(struct net_local), GFP_KERNEL); if (!dev->priv) return -ENOMEM; memset(dev->priv, 0, sizeof(struct net_local)); eexp_hw_ASICrst(dev); { unsigned short i586mso = 0x023e; unsigned short old_wp,old_rp,old_a0,old_a1; unsigned short a0_0,a1_0,a0_1,a1_1; old_wp = inw(ioaddr+WRITE_PTR); old_rp = inw(ioaddr+READ_PTR); outw(0x8000+i586mso,ioaddr+READ_PTR); old_a1 = inw(ioaddr); outw(i586mso,ioaddr+READ_PTR); old_a0 = inw(ioaddr); outw(i586mso,ioaddr+WRITE_PTR); outw(0x55aa,ioaddr); outw(i586mso,ioaddr+READ_PTR); a0_0 = inw(ioaddr); outw(0x8000+i586mso,ioaddr+WRITE_PTR); outw(0x5a5a,ioaddr); outw(0x8000+i586mso,ioaddr+READ_PTR); a1_0 = inw(ioaddr); outw(i586mso,ioaddr+READ_PTR); a0_1 = inw(ioaddr); outw(i586mso,ioaddr+WRITE_PTR); outw(0x1234,ioaddr); outw(0x8000+i586mso,ioaddr+READ_PTR); a1_1 = inw(ioaddr); if ((a0_0 != a0_1) || (a1_0 != a1_1) || (a1_0 != 0x5a5a) || (a0_0 != 0x55aa)) { printk("32k\n"); PRIV(dev)->rx_buf_end = 0x7ff6; PRIV(dev)->num_tx_bufs = 4; } else { printk("64k\n"); PRIV(dev)->num_tx_bufs = 8; PRIV(dev)->rx_buf_start = TX_BUF_START + (PRIV(dev)->num_tx_bufs*TX_BUF_SIZE); PRIV(dev)->rx_buf_end = 0xfff6; } outw(0x8000+i586mso,ioaddr+WRITE_PTR); outw(old_a1,ioaddr); outw(i586mso,ioaddr+WRITE_PTR); outw(old_a0,ioaddr); outw(old_wp,ioaddr+WRITE_PTR); outw(old_rp,ioaddr+READ_PTR); } if (net_debug) printk(version); dev->open = eexp_open; dev->stop = eexp_close; dev->hard_start_xmit = eexp_xmit; dev->get_stats = eexp_stats; dev->set_multicast_list = &eexp_set_multicast; ether_setup(dev); return 0; } /* * Read a word from eeprom location (0-63?) */ static unsigned short eexp_hw_readeeprom(unsigned short ioaddr, unsigned char location) { unsigned short cmd = 0x180|(location&0x7f); unsigned short rval = 0,wval = EC_CS|i586_RST; int i; outb(EC_CS|i586_RST,ioaddr+EEPROM_Ctrl); for ( i=0x100 ; i ; i>>=1 ) { if (cmd&i) wval |= EC_Wr; else wval &= ~EC_Wr; outb(wval,ioaddr+EEPROM_Ctrl); outb(wval|EC_Clk,ioaddr+EEPROM_Ctrl); eeprom_delay(); outb(wval,ioaddr+EEPROM_Ctrl); eeprom_delay(); } wval &= ~EC_Wr; outb(wval,ioaddr+EEPROM_Ctrl); for ( i=0x8000 ; i ; i>>=1 ) { outb(wval|EC_Clk,ioaddr+EEPROM_Ctrl); eeprom_delay(); if (inb(ioaddr+EEPROM_Ctrl)&EC_Rd) rval |= i; outb(wval,ioaddr+EEPROM_Ctrl); eeprom_delay(); } wval &= ~EC_CS; outb(wval|EC_Clk,ioaddr+EEPROM_Ctrl); eeprom_delay(); outb(wval,ioaddr+EEPROM_Ctrl); eeprom_delay(); return rval; } /* * Reap tx buffers and return last transmit status. * if ==0 then either: * a) we're not transmitting anything, so why are we here? * b) we've died. * otherwise, Stat_Busy(return) means we've still got some packets * to transmit, Stat_Done(return) means our buffers should be empty * again */ static unsigned short eexp_hw_lasttxstat(struct device *dev) { struct net_local *lp = (struct net_local *)dev->priv; unsigned short ioaddr = dev->base_addr; unsigned short old_rp = inw(ioaddr+READ_PTR); unsigned short old_wp = inw(ioaddr+WRITE_PTR); unsigned short tx_block = lp->tx_reap; unsigned short status; if (!test_bit(0,(void *)&dev->tbusy) && lp->tx_head==lp->tx_reap) return 0x0000; do { outw(tx_block,ioaddr+READ_PTR); status = inw(ioaddr); if (!Stat_Done(status)) { lp->tx_link = tx_block; outw(old_rp,ioaddr+READ_PTR); outw(old_wp,ioaddr+WRITE_PTR); return status; } else { lp->last_tx_restart = 0; lp->stats.collisions += Stat_NoColl(status); if (!Stat_OK(status)) { if (Stat_Abort(status)) lp->stats.tx_aborted_errors++; if (Stat_TNoCar(status) || Stat_TNoCTS(status)) lp->stats.tx_carrier_errors++; if (Stat_TNoDMA(status)) lp->stats.tx_fifo_errors++; } else lp->stats.tx_packets++; } if (tx_block == TX_BUF_START+((lp->num_tx_bufs-1)*TX_BUF_SIZE)) lp->tx_reap = tx_block = TX_BUF_START; else lp->tx_reap = tx_block += TX_BUF_SIZE; dev->tbusy = 0; mark_bh(NET_BH); } while (lp->tx_reap != lp->tx_head); lp->tx_link = lp->tx_tail + 0x08; outw(old_rp,ioaddr+READ_PTR); outw(old_wp,ioaddr+WRITE_PTR); return status; } /* * This should never happen. It is called when some higher * routine detects the CU has stopped, to try to restart * it from the last packet we knew we were working on, * or the idle loop if we had finished for the time. */ static void eexp_hw_txrestart(struct device *dev) { struct net_local *lp = (struct net_local *)dev->priv; unsigned short ioaddr = dev->base_addr; lp->last_tx_restart = lp->tx_link; outw(lp->tx_link,ioaddr+SCB_CBL); outw(SCB_CUstart,ioaddr+SCB_CMD); outw(0,ioaddr+SCB_STATUS); outb(0,ioaddr+SIGNAL_CA); { unsigned short boguscount=50,failcount=5; while (!inw(ioaddr+SCB_STATUS)) { if (!--boguscount) { if (--failcount) { printk(KERN_WARNING "%s: CU start timed out, status %04x, cmd %04x\n", dev->name, inw(ioaddr+SCB_STATUS), inw(ioaddr+SCB_CMD)); outw(lp->tx_link,ioaddr+SCB_CBL); outw(0,ioaddr+SCB_STATUS); outw(SCB_CUstart,ioaddr+SCB_CMD); outb(0,ioaddr+SIGNAL_CA); boguscount = 100; } else { printk(KERN_WARNING "%s: Failed to restart CU, resetting board...\n",dev->name); eexp_hw_init586(dev); dev->tbusy = 0; mark_bh(NET_BH); return; } } } } } /* * Writes down the list of transmit buffers into card * memory. Initial separate, repeated transmits link * them into a circular list, such that the CU can * be constantly active, and unlink them as we reap * transmitted packet buffers, so the CU doesn't loop * and endlessly transmit packets. (Try hacking the driver * to send continuous broadcast messages, say ARP requests * on a subnet with Windows boxes running on Novell and * LAN Workplace with EMM386. Amusing to watch them all die * horribly leaving the Linux boxes up!) */ static void eexp_hw_txinit(struct device *dev) { struct net_local *lp = (struct net_local *)dev->priv; unsigned short ioaddr = dev->base_addr; unsigned short old_wp = inw(ioaddr+WRITE_PTR); unsigned short tx_block = TX_BUF_START; unsigned short curtbuf; for ( curtbuf=0 ; curtbuf<lp->num_tx_bufs ; curtbuf++ ) { outw(tx_block,ioaddr+WRITE_PTR); outw(0x0000,ioaddr); outw(Cmd_INT|Cmd_Xmit,ioaddr); outw(tx_block+0x08,ioaddr); outw(tx_block+0x0e,ioaddr); outw(0x0000,ioaddr); outw(0x0000,ioaddr); outw(tx_block+0x08,ioaddr); outw(0x8000,ioaddr); outw(-1,ioaddr); outw(tx_block+0x16,ioaddr); outw(0x0000,ioaddr); tx_block += TX_BUF_SIZE; } lp->tx_head = TX_BUF_START; lp->tx_reap = TX_BUF_START; lp->tx_tail = tx_block - TX_BUF_SIZE; lp->tx_link = lp->tx_tail + 0x08; lp->rx_buf_start = tx_block; outw(old_wp,ioaddr+WRITE_PTR); } /* is this a standard test pattern, or dbecker randomness? */ unsigned short rx_words[] = { 0xfeed,0xf00d,0xf001,0x0505,0x2424,0x6565,0xdeaf }; /* * Write the circular list of receive buffer descriptors to * card memory. Note, we no longer mark the end of the list, * so if all the buffers fill up, the 82586 will loop until * we free one. This may sound dodgy, but it works, and * it makes the error detection in the interrupt handler * a lot simpler. */ static void eexp_hw_rxinit(struct device *dev) { struct net_local *lp = (struct net_local *)dev->priv; unsigned short ioaddr = dev->base_addr; unsigned short old_wp = inw(ioaddr+WRITE_PTR); unsigned short rx_block = lp->rx_buf_start; lp->num_rx_bufs = 0; lp->rx_first = rx_block; do { lp->num_rx_bufs++; outw(rx_block,ioaddr+WRITE_PTR); outw(0x0000,ioaddr); outw(0x0000,ioaddr); outw(rx_block+RX_BUF_SIZE,ioaddr); outw(rx_block+0x16,ioaddr); outsw(ioaddr, rx_words, sizeof(rx_words)>>1); outw(0x8000,ioaddr); outw(-1,ioaddr); outw(rx_block+0x20,ioaddr); outw(0x0000,ioaddr); outw(0x8000|(RX_BUF_SIZE-0x20),ioaddr); lp->rx_last = rx_block; rx_block += RX_BUF_SIZE; } while (rx_block <= lp->rx_buf_end-RX_BUF_SIZE); outw(lp->rx_last+4,ioaddr+WRITE_PTR); outw(lp->rx_first,ioaddr); outw(old_wp,ioaddr+WRITE_PTR); } /* * Reset the 586, fill memory (including calls to * eexp_hw_[(rx)(tx)]init()) unreset, and start * the configuration sequence. We don't wait for this * to finish, but allow the interrupt handler to start * the CU and RU for us. We can't start the receive/ * transmission system up before we know that the * hardware is configured correctly */ static void eexp_hw_init586(struct device *dev) { struct net_local *lp = (struct net_local *)dev->priv; unsigned short ioaddr = dev->base_addr; #if NET_DEBUG > 6 printk("%s: eexp_hw_init586()\n", dev->name); #endif lp->started = 0; set_loopback; outb(SIRQ_dis|irqrmap[dev->irq],ioaddr+SET_IRQ); outb_p(i586_RST,ioaddr+EEPROM_Ctrl); udelay(2000); /* delay 20ms */ { unsigned long ofs; for (ofs = 0; ofs < lp->rx_buf_end; ofs += 32) { unsigned long i; outw_p(ofs, ioaddr+SM_PTR); for (i = 0; i < 16; i++) { outw_p(0, ioaddr+SM_ADDR(i<<1)); } } } outw_p(lp->rx_buf_end,ioaddr+WRITE_PTR); start_code[28] = (dev->flags & IFF_PROMISC)?(start_code[28] | 1):(start_code[28] & ~1); lp->promisc = dev->flags & IFF_PROMISC; /* We may die here */ outsw(ioaddr, start_code, sizeof(start_code)>>1); outw(CONF_HW_ADDR,ioaddr+WRITE_PTR); outsw(ioaddr,dev->dev_addr,3); eexp_hw_txinit(dev); eexp_hw_rxinit(dev); outw(0,ioaddr+WRITE_PTR); outw(1,ioaddr); outb(0,ioaddr+EEPROM_Ctrl); outw(0,ioaddr+SCB_CMD); outb(0,ioaddr+SIGNAL_CA); { unsigned short rboguscount=50,rfailcount=5; while (outw(0,ioaddr+READ_PTR),inw(ioaddr)) { if (!--rboguscount) { printk(KERN_WARNING "%s: i82586 reset timed out, kicking...\n", dev->name); outw(0,ioaddr+SCB_CMD); outb(0,ioaddr+SIGNAL_CA); rboguscount = 100; if (!--rfailcount) { printk(KERN_WARNING "%s: i82586 not responding, giving up.\n", dev->name); return; } } } } outw(CONF_LINK,ioaddr+SCB_CBL); outw(0,ioaddr+SCB_STATUS); outw(0xf000|SCB_CUstart,ioaddr+SCB_CMD); outb(0,ioaddr+SIGNAL_CA); { unsigned short iboguscount=50,ifailcount=5; while (!inw(ioaddr+SCB_STATUS)) { if (!--iboguscount) { if (--ifailcount) { printk(KERN_WARNING "%s: i82586 initialization timed out, status %04x, cmd %04x\n", dev->name, inw(ioaddr+SCB_STATUS), inw(ioaddr+SCB_CMD)); outw(CONF_LINK,ioaddr+SCB_CBL); outw(0,ioaddr+SCB_STATUS); outw(0xf000|SCB_CUstart,ioaddr+SCB_CMD); outb(0,ioaddr+SIGNAL_CA); iboguscount = 100; } else { printk(KERN_WARNING "%s: Failed to initialize i82586, giving up.\n",dev->name); return; } } } } outb(SIRQ_en|irqrmap[dev->irq],ioaddr+SET_IRQ); clear_loopback; lp->init_time = jiffies; #if NET_DEBUG > 6 printk("%s: leaving eexp_hw_init586()\n", dev->name); #endif return; } /* * completely reset the EtherExpress hardware. We will most likely get * an interrupt during this whether we want one or not. It is best, * therefore, to call this while we don't have a request_irq() on. */ static void eexp_hw_ASICrst(struct device *dev) { unsigned short ioaddr = dev->base_addr; unsigned short wrval = 0x0001,succount=0,boguscount=500; outb(SIRQ_dis|irqrmap[dev->irq],ioaddr+SET_IRQ); PRIV(dev)->started = 0; outb(ASIC_RST|i586_RST,ioaddr+EEPROM_Ctrl); while (succount<20) { if (wrval == 0xffff) wrval = 0x0001; outw(0,ioaddr+WRITE_PTR); outw(wrval,ioaddr); outw(0,ioaddr+READ_PTR); if (wrval++ == inw(ioaddr)) succount++; else { succount = 0; if (!boguscount--) { boguscount = 500; printk("%s: Having problems resetting EtherExpress ASIC, continuing...\n", dev->name); wrval = 0x0001; outb(ASIC_RST|i586_RST,ioaddr+EEPROM_Ctrl); } } } outb(i586_RST,ioaddr+EEPROM_Ctrl); } /* * Set or clear the multicast filter for this adaptor. * We have to do a complete 586 restart for this to take effect. * At the moment only promiscuous mode is supported. */ static void eexp_set_multicast(struct device *dev) { if ((dev->flags & IFF_PROMISC) != PRIV(dev)->promisc) eexp_hw_init586(dev); } /* * MODULE stuff */ #ifdef MODULE #define EEXP_MAX_CARDS 4 /* max number of cards to support */ #define NAMELEN 8 /* max length of dev->name (inc null) */ static char namelist[NAMELEN * EEXP_MAX_CARDS] = { 0, }; static struct device dev_eexp[EEXP_MAX_CARDS] = { { NULL, /* will allocate dynamically */ 0, 0, 0, 0, 0, 0, 0, 0, 0, NULL, express_probe }, }; int irq[EEXP_MAX_CARDS] = {0, }; int io[EEXP_MAX_CARDS] = {0, }; /* Ideally the user would give us io=, irq= for every card. If any parameters * are specified, we verify and then use them. If no parameters are given, we * autoprobe for one card only. */ int init_module(void) { int this_dev, found = 0; for (this_dev = 0; this_dev < EEXP_MAX_CARDS; this_dev++) { struct device *dev = &dev_eexp[this_dev]; dev->name = namelist + (NAMELEN*this_dev); dev->irq = irq[this_dev]; dev->base_addr = io[this_dev]; if (io[this_dev] == 0) { if (this_dev) break; printk(KERN_NOTICE "eexpress.c: Module autoprobe not recommended, give io=xx.\n"); } if (register_netdev(dev) != 0) { printk(KERN_WARNING "eexpress.c: Failed to register card at 0x%x.\n", io[this_dev]); if (found != 0) return 0; return -ENXIO; } found++; } return 0; } void cleanup_module(void) { int this_dev; for (this_dev = 0; this_dev < EEXP_MAX_CARDS; this_dev++) { struct device *dev = &dev_eexp[this_dev]; if (dev->priv != NULL) { kfree(dev->priv); dev->priv = NULL; release_region(dev->base_addr, EEXP_IO_EXTENT); unregister_netdev(dev); } } } #endif /* * Local Variables: * c-file-style: "linux" * tab-width: 8 * compile-command: "gcc -D__KERNEL__ -I/discs/bibble/src/linux-1.3.69/include -Wall -Wstrict-prototypes -O2 -fomit-frame-pointer -fno-strength-reduce -pipe -m486 -DCPU=486 -DMODULE -c 3c505.c" * End: */ |