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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 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 1321 1322 1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337 1338 1339 1340 1341 1342 1343 1344 1345 1346 1347 1348 1349 1350 1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 1361 1362 1363 1364 1365 1366 1367 1368 1369 1370 1371 1372 | /*** ltpc.c -- a driver for the LocalTalk PC card. * * Copyright (c) 1995,1996 Bradford W. Johnson <johns393@maroon.tc.umn.edu> * * This software may be used and distributed according to the terms * of the GNU General Public License, incorporated herein by reference. * * This is ALPHA code at best. It may not work for you. It may * damage your equipment. It may damage your relations with other * users of your network. Use it at your own risk! * * Based in part on: * skeleton.c by Donald Becker * dummy.c by Nick Holloway and Alan Cox * loopback.c by Ross Biro, Fred van Kampen, Donald Becker * the netatalk source code (UMICH) * lots of work on the card... * * I do not have access to the (proprietary) SDK that goes with the card. * If you do, I don't want to know about it, and you can probably write * a better driver yourself anyway. This does mean that the pieces that * talk to the card are guesswork on my part, so use at your own risk! * * This is my first try at writing Linux networking code, and is also * guesswork. Again, use at your own risk! (Although on this part, I'd * welcome suggestions) * * This is a loadable kernel module which seems to work at my site * consisting of a 1.2.13 linux box running netatalk 1.3.3, and with * the kernel support from 1.3.3b2 including patches routing.patch * and ddp.disappears.from.chooser. In order to run it, you will need * to patch ddp.c and aarp.c in the kernel, but only a little... * * I'm fairly confident that while this is arguably badly written, the * problems that people experience will be "higher level", that is, with * complications in the netatalk code. The driver itself doesn't do * anything terribly complicated -- it pretends to be an ether device * as far as netatalk is concerned, strips the DDP data out of the ether * frame and builds a LLAP packet to send out the card. In the other * direction, it receives LLAP frames from the card and builds a fake * ether packet that it then tosses up to the networking code. You can * argue (correctly) that this is an ugly way to do things, but it * requires a minimal amount of fooling with the code in ddp.c and aarp.c. * * The card will do a lot more than is used here -- I *think* it has the * layers up through ATP. Even if you knew how that part works (which I * don't) it would be a big job to carve up the kernel ddp code to insert * things at a higher level, and probably a bad idea... * * There are a number of other cards that do LocalTalk on the PC. If * nobody finds any insurmountable (at the netatalk level) problems * here, this driver should encourage people to put some work into the * other cards (some of which I gather are still commercially available) * and also to put hooks for LocalTalk into the official ddp code. * * I welcome comments and suggestions. This is my first try at Linux * networking stuff, and there are probably lots of things that I did * suboptimally. * ***/ /*** * * $Log: ltpc.c,v $ * Revision 1.8 1997/01/28 05:44:54 bradford * Clean up for non-module a little. * Hacked about a bit to clean things up - Alan Cox * Probably broken it from the origina 1.8 * * 1998/11/09: David Huggins-Daines <dhd@debian.org> * Cleaned up the initialization code to use the standard autoirq methods, and to probe for things in the standard order of i/o, irq, dma. This removes the "reset the reset" hack, because I couldn't figure out an easy way to get the card to trigger an interrupt after it. * Added support for passing configuration parameters on the kernel command line and through insmod * Changed the device name from "ltalk0" to "lt0", both to conform with the other localtalk driver, and to clear up the inconsistency between the module and the non-module versions of the driver :-) * Added a bunch of comments (I was going to make some enums for the state codes and the register offsets, but I'm still not sure exactly what their semantics are) * Don't poll anymore in interrupt-driven mode * It seems to work as a module now (as of 2.1.127), but I don't think I'm responsible for that... * * Revision 1.7 1996/12/12 03:42:33 bradford * DMA alloc cribbed from 3c505.c. * * Revision 1.6 1996/12/12 03:18:58 bradford * Added virt_to_bus; works in 2.1.13. * * Revision 1.5 1996/12/12 03:13:22 root * xmitQel initialization -- think through better though. * * Revision 1.4 1996/06/18 14:55:55 root * Change names to ltpc. Tabs. Took a shot at dma alloc, * although more needs to be done eventually. * * Revision 1.3 1996/05/22 14:59:39 root * Change dev->open, dev->close to track dummy.c in 1.99.(around 7) * * Revision 1.2 1996/05/22 14:58:24 root * Change tabs mostly. * * Revision 1.1 1996/04/23 04:45:09 root * Initial revision * * Revision 0.16 1996/03/05 15:59:56 root * Change ARPHRD_LOCALTLK definition to the "real" one. * * Revision 0.15 1996/03/05 06:28:30 root * Changes for kernel 1.3.70. Still need a few patches to kernel, but * it's getting closer. * * Revision 0.14 1996/02/25 17:38:32 root * More cleanups. Removed query to card on get_stats. * * Revision 0.13 1996/02/21 16:27:40 root * Refix debug_print_skb. Fix mac.raw gotcha that appeared in 1.3.65. * Clean up receive code a little. * * Revision 0.12 1996/02/19 16:34:53 root * Fix debug_print_skb. Kludge outgoing snet to 0 when using startup * range. Change debug to mask: 1 for verbose, 2 for higher level stuff * including packet printing, 4 for lower level (card i/o) stuff. * * Revision 0.11 1996/02/12 15:53:38 root * Added router sends (requires new aarp.c patch) * * Revision 0.10 1996/02/11 00:19:35 root * Change source LTALK_LOGGING debug switch to insmod ... debug=2. * * Revision 0.9 1996/02/10 23:59:35 root * Fixed those fixes for 1.2 -- DANGER! The at.h that comes with netatalk * has a *different* definition of struct sockaddr_at than the Linux kernel * does. This is an "insidious and invidious" bug... * (Actually the preceding comment is false -- it's the atalk.h in the * ancient atalk-0.06 that's the problem) * * Revision 0.8 1996/02/10 19:09:00 root * Merge 1.3 changes. Tested OK under 1.3.60. * * Revision 0.7 1996/02/10 17:56:56 root * Added debug=1 parameter on insmod for debugging prints. Tried * to fix timer unload on rmmod, but I don't think that's the problem. * * Revision 0.6 1995/12/31 19:01:09 root * Clean up rmmod, irq comments per feedback from Corin Anderson (Thanks Corey!) * Clean up initial probing -- sometimes the card wakes up latched in reset. * * Revision 0.5 1995/12/22 06:03:44 root * Added comments in front and cleaned up a bit. * This version sent out to people. * * Revision 0.4 1995/12/18 03:46:44 root * Return shortDDP to longDDP fake to 0/0. Added command structs. * ***/ /* ltpc jumpers are: * * Interrupts -- set at most one. If none are set, the driver uses * polled mode. Because the card was developed in the XT era, the * original documentation refers to IRQ2. Since you'll be running * this on an AT (or later) class machine, that really means IRQ9. * * SW1 IRQ 4 * SW2 IRQ 3 * SW3 IRQ 9 (2 in original card documentation only applies to XT) * * * DMA -- choose DMA 1 or 3, and set both corresponding switches. * * SW4 DMA 3 * SW5 DMA 1 * SW6 DMA 3 * SW7 DMA 1 * * * I/O address -- choose one. * * SW8 220 / 240 */ /* To have some stuff logged, do * insmod ltpc.o debug=1 * * For a whole bunch of stuff, use higher numbers. * * The default is 0, i.e. no messages except for the probe results. */ /* insmod-tweakable variables */ static int debug=0; #define DEBUG_VERBOSE 1 #define DEBUG_UPPER 2 #define DEBUG_LOWER 4 static int io=0; static int irq=0; static int dma=0; #ifdef MODULE #include <linux/module.h> #include <linux/version.h> #endif #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/in.h> #include <linux/malloc.h> #include <linux/string.h> #include <asm/system.h> #include <asm/bitops.h> #include <asm/dma.h> #include <linux/errno.h> #include <linux/init.h> #include <linux/netdevice.h> #include <linux/etherdevice.h> #include <linux/skbuff.h> #include <linux/if_arp.h> #include <linux/if_ltalk.h> #include <linux/delay.h> #include <linux/timer.h> #include <linux/atalk.h> /* our stuff */ #include "ltpc.h" /* function prototypes */ static int do_read(struct device *dev, void *cbuf, int cbuflen, void *dbuf, int dbuflen); static int sendup_buffer (struct device *dev); /* Dma Memory related stuff, cribbed directly from 3c505.c */ /* Pure 2^n version of get_order */ static inline int __get_order(unsigned long size) { int order; size = (size - 1) >> (PAGE_SHIFT - 1); order = -1; do { size >>= 1; order++; } while (size); return order; } static unsigned long dma_mem_alloc(int size) { int order = __get_order(size); return __get_dma_pages(GFP_KERNEL, order); } /* DMA data buffer, DMA command buffer */ static unsigned char *ltdmabuf; static unsigned char *ltdmacbuf; /* private struct, holds our appletalk address */ struct ltpc_private { struct net_device_stats stats; struct at_addr my_addr; }; /* transmit queue element struct */ struct xmitQel { struct xmitQel *next; /* command buffer */ unsigned char *cbuf; short cbuflen; /* data buffer */ unsigned char *dbuf; short dbuflen; unsigned char QWrite; /* read or write data */ unsigned char mailbox; }; /* the transmit queue itself */ static struct xmitQel *xmQhd=NULL,*xmQtl=NULL; static void enQ(struct xmitQel *qel) { unsigned long flags; qel->next = NULL; save_flags(flags); cli(); if (xmQtl) { xmQtl->next = qel; } else { xmQhd = qel; } xmQtl = qel; restore_flags(flags); if (debug&DEBUG_LOWER) printk("enqueued a 0x%02x command\n",qel->cbuf[0]); } static struct xmitQel *deQ(void) { unsigned long flags; int i; struct xmitQel *qel=NULL; save_flags(flags); cli(); if (xmQhd) { qel = xmQhd; xmQhd = qel->next; if(!xmQhd) xmQtl = NULL; } restore_flags(flags); if ((debug&DEBUG_LOWER) && qel) { int n; printk("ltpc: dequeued command "); n = qel->cbuflen; if (n>100) n=100; for(i=0;i<n;i++) printk("%02x ",qel->cbuf[i]); printk("\n"); } return qel; } /* and... the queue elements we'll be using */ static struct xmitQel qels[16]; /* and their corresponding mailboxes */ static unsigned char mailbox[16]; static unsigned char mboxinuse[16] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}; static int wait_timeout(struct device *dev, int c) { /* returns true if it stayed c */ /* this uses base+6, but it's ok */ int i; int timeout; /* twenty second or so total */ for(i=0;i<20000;i++) { if ( c != inb_p(dev->base_addr+6) ) return 0; for(timeout=loops_per_sec/1000; timeout > 0; timeout--) ; } return 1; /* timed out */ } /* get the first free mailbox */ static int getmbox(void) { unsigned long flags; int i; save_flags(flags); cli(); for(i=1;i<16;i++) if(!mboxinuse[i]) { mboxinuse[i]=1; restore_flags(flags); return i; } restore_flags(flags); return 0; } /* read a command from the card */ static void handlefc(struct device *dev) { /* called *only* from idle, non-reentrant */ int dma = dev->dma; int base = dev->base_addr; unsigned long flags; flags=claim_dma_lock(); disable_dma(dma); clear_dma_ff(dma); set_dma_mode(dma,DMA_MODE_READ); set_dma_addr(dma,virt_to_bus(ltdmacbuf)); set_dma_count(dma,50); enable_dma(dma); release_dma_lock(flags); inb_p(base+3); inb_p(base+2); if ( wait_timeout(dev,0xfc) ) printk("timed out in handlefc\n"); } /* read data from the card */ static void handlefd(struct device *dev) { int dma = dev->dma; int base = dev->base_addr; unsigned long flags; flags=claim_dma_lock(); disable_dma(dma); clear_dma_ff(dma); set_dma_mode(dma,DMA_MODE_READ); set_dma_addr(dma,virt_to_bus(ltdmabuf)); set_dma_count(dma,800); enable_dma(dma); release_dma_lock(flags); inb_p(base+3); inb_p(base+2); if ( wait_timeout(dev,0xfd) ) printk("timed out in handlefd\n"); sendup_buffer(dev); } static void handlewrite(struct device *dev) { /* called *only* from idle, non-reentrant */ /* on entry, 0xfb and ltdmabuf holds data */ int dma = dev->dma; int base = dev->base_addr; unsigned long flags; flags=claim_dma_lock(); disable_dma(dma); clear_dma_ff(dma); set_dma_mode(dma,DMA_MODE_WRITE); set_dma_addr(dma,virt_to_bus(ltdmabuf)); set_dma_count(dma,800); enable_dma(dma); release_dma_lock(flags); inb_p(base+3); inb_p(base+2); if ( wait_timeout(dev,0xfb) ) { flags=claim_dma_lock(); printk("timed out in handlewrite, dma res %d\n", get_dma_residue(dev->dma) ); release_dma_lock(flags); } } static void handleread(struct device *dev) { /* on entry, 0xfb */ /* on exit, ltdmabuf holds data */ int dma = dev->dma; int base = dev->base_addr; unsigned long flags; flags=claim_dma_lock(); disable_dma(dma); clear_dma_ff(dma); set_dma_mode(dma,DMA_MODE_READ); set_dma_addr(dma,virt_to_bus(ltdmabuf)); set_dma_count(dma,800); enable_dma(dma); release_dma_lock(flags); inb_p(base+3); inb_p(base+2); if ( wait_timeout(dev,0xfb) ) printk("timed out in handleread\n"); } static void handlecommand(struct device *dev) { /* on entry, 0xfa and ltdmacbuf holds command */ int dma = dev->dma; int base = dev->base_addr; unsigned long flags; flags=claim_dma_lock(); disable_dma(dma); clear_dma_ff(dma); set_dma_mode(dma,DMA_MODE_WRITE); set_dma_addr(dma,virt_to_bus(ltdmacbuf)); set_dma_count(dma,50); enable_dma(dma); release_dma_lock(flags); inb_p(base+3); inb_p(base+2); if ( wait_timeout(dev,0xfa) ) printk("timed out in handlecommand\n"); } /* ready made command for getting the result from the card */ static unsigned char rescbuf[2] = {LT_GETRESULT,0}; static unsigned char resdbuf[2]; static int QInIdle=0; /* idle expects to be called with the IRQ line high -- either because of * an interrupt, or because the line is tri-stated */ static void idle(struct device *dev) { unsigned long flags; int state; /* FIXME This is initialized to shut the warning up, but I need to * think this through again. */ struct xmitQel *q=0; int oops; int i; int base = dev->base_addr; save_flags(flags); cli(); if(QInIdle) { restore_flags(flags); return; } QInIdle = 1; restore_flags(flags); /* this tri-states the IRQ line */ (void) inb_p(base+6); oops = 100; loop: if (0>oops--) { printk("idle: looped too many times\n"); goto done; } state = inb_p(base+6); if (state != inb_p(base+6)) goto loop; switch(state) { case 0xfc: /* incoming command */ if (debug&DEBUG_LOWER) printk("idle: fc\n"); handlefc(dev); break; case 0xfd: /* incoming data */ if(debug&DEBUG_LOWER) printk("idle: fd\n"); handlefd(dev); break; case 0xf9: /* result ready */ if (debug&DEBUG_LOWER) printk("idle: f9\n"); if(!mboxinuse[0]) { mboxinuse[0] = 1; qels[0].cbuf = rescbuf; qels[0].cbuflen = 2; qels[0].dbuf = resdbuf; qels[0].dbuflen = 2; qels[0].QWrite = 0; qels[0].mailbox = 0; enQ(&qels[0]); } inb_p(dev->base_addr+1); inb_p(dev->base_addr+0); if( wait_timeout(dev,0xf9) ) printk("timed out idle f9\n"); break; case 0xf8: /* ?? */ if (xmQhd) { inb_p(dev->base_addr+1); inb_p(dev->base_addr+0); if(wait_timeout(dev,0xf8) ) printk("timed out idle f8\n"); } else { goto done; } break; case 0xfa: /* waiting for command */ if(debug&DEBUG_LOWER) printk("idle: fa\n"); if (xmQhd) { q=deQ(); memcpy(ltdmacbuf,q->cbuf,q->cbuflen); ltdmacbuf[1] = q->mailbox; if (debug>1) { int n; printk("ltpc: sent command "); n = q->cbuflen; if (n>100) n=100; for(i=0;i<n;i++) printk("%02x ",ltdmacbuf[i]); printk("\n"); } handlecommand(dev); if(0xfa==inb_p(base+6)) { /* we timed out, so return */ goto done; } } else { /* we don't seem to have a command */ if (!mboxinuse[0]) { mboxinuse[0] = 1; qels[0].cbuf = rescbuf; qels[0].cbuflen = 2; qels[0].dbuf = resdbuf; qels[0].dbuflen = 2; qels[0].QWrite = 0; qels[0].mailbox = 0; enQ(&qels[0]); } else { printk("trouble: response command already queued\n"); goto done; } } break; case 0Xfb: /* data transfer ready */ if(debug&DEBUG_LOWER) printk("idle: fb\n"); if(q->QWrite) { memcpy(ltdmabuf,q->dbuf,q->dbuflen); handlewrite(dev); } else { handleread(dev); /* non-zero mailbox numbers are for commmands, 0 is for GETRESULT requests */ if(q->mailbox) { memcpy(q->dbuf,ltdmabuf,q->dbuflen); } else { /* this was a result */ mailbox[ 0x0f & ltdmabuf[0] ] = ltdmabuf[1]; mboxinuse[0]=0; } } break; } goto loop; done: QInIdle=0; /* now set the interrupts back as appropriate */ /* the first read takes it out of tri-state (but still high) */ /* the second resets it */ /* note that after this point, any read of base+6 will trigger an interrupt */ if (dev->irq) { inb_p(base+7); inb_p(base+7); } return; } static int do_write(struct device *dev, void *cbuf, int cbuflen, void *dbuf, int dbuflen) { int i = getmbox(); int ret; if(i) { qels[i].cbuf = (unsigned char *) cbuf; qels[i].cbuflen = cbuflen; qels[i].dbuf = (unsigned char *) dbuf; qels[i].dbuflen = dbuflen; qels[i].QWrite = 1; qels[i].mailbox = i; /* this should be initted rather */ enQ(&qels[i]); idle(dev); ret = mailbox[i]; mboxinuse[i]=0; return ret; } printk("ltpc: could not allocate mbox\n"); return -1; } static int do_read(struct device *dev, void *cbuf, int cbuflen, void *dbuf, int dbuflen) { int i = getmbox(); int ret; if(i) { qels[i].cbuf = (unsigned char *) cbuf; qels[i].cbuflen = cbuflen; qels[i].dbuf = (unsigned char *) dbuf; qels[i].dbuflen = dbuflen; qels[i].QWrite = 0; qels[i].mailbox = i; /* this should be initted rather */ enQ(&qels[i]); idle(dev); ret = mailbox[i]; mboxinuse[i]=0; return ret; } printk("ltpc: could not allocate mbox\n"); return -1; } /* end of idle handlers -- what should be seen is do_read, do_write */ static struct timer_list ltpc_timer; static int ltpc_xmit(struct sk_buff *skb, struct device *dev); static struct net_device_stats *ltpc_get_stats(struct device *dev); static int ltpc_open(struct device *dev) { #ifdef MODULE MOD_INC_USE_COUNT; #endif return 0; } static int ltpc_close(struct device *dev) { #ifdef MODULE MOD_DEC_USE_COUNT; #endif return 0; } static int read_30 ( struct device *dev) { lt_command c; c.getflags.command = LT_GETFLAGS; return do_read(dev, &c, sizeof(c.getflags),&c,0); } static int set_30 (struct device *dev,int x) { lt_command c; c.setflags.command = LT_SETFLAGS; c.setflags.flags = x; return do_write(dev, &c, sizeof(c.setflags),&c,0); } /* LLAP to DDP translation */ static int sendup_buffer (struct device *dev) { /* on entry, command is in ltdmacbuf, data in ltdmabuf */ /* called from idle, non-reentrant */ int dnode, snode, llaptype, len; int sklen; struct sk_buff *skb; struct net_device_stats *stats = &((struct ltpc_private *)dev->priv)->stats; struct lt_rcvlap *ltc = (struct lt_rcvlap *) ltdmacbuf; if (ltc->command != LT_RCVLAP) { printk("unknown command 0x%02x from ltpc card\n",ltc->command); return(-1); } dnode = ltc->dnode; snode = ltc->snode; llaptype = ltc->laptype; len = ltc->length; sklen = len; if (llaptype == 1) sklen += 8; /* correct for short ddp */ if(sklen > 800) { printk(KERN_INFO "%s: nonsense length in ltpc command 0x14: 0x%08x\n", dev->name,sklen); return -1; } if ( (llaptype==0) || (llaptype>2) ) { printk(KERN_INFO "%s: unknown LLAP type: %d\n",dev->name,llaptype); return -1; } skb = dev_alloc_skb(3+sklen); if (skb == NULL) { printk("%s: dropping packet due to memory squeeze.\n", dev->name); return -1; } skb->dev = dev; if (sklen > len) skb_reserve(skb,8); skb_put(skb,len+3); skb->protocol = htons(ETH_P_LOCALTALK); /* add LLAP header */ skb->data[0] = dnode; skb->data[1] = snode; skb->data[2] = llaptype; skb->mac.raw = skb->data; /* save pointer to llap header */ skb_pull(skb,3); /* copy ddp(s,e)hdr + contents */ memcpy(skb->data,(void*)ltdmabuf,len); skb->h.raw = skb->data; stats->rx_packets++; stats->rx_bytes+=skb->len; /* toss it onwards */ netif_rx(skb); return 0; } /* the handler for the board interrupt */ static void ltpc_interrupt(int irq, void *dev_id, struct pt_regs *reg_ptr) { struct device *dev = dev_id; if (dev==NULL) { printk("ltpc_interrupt: unknown device.\n"); return; } inb_p(dev->base_addr+6); /* disable further interrupts from board */ idle(dev); /* handle whatever is coming in */ /* idle re-enables interrupts from board */ return; } /*** * * The ioctls that the driver responds to are: * * SIOCSIFADDR -- do probe using the passed node hint. * SIOCGIFADDR -- return net, node. * * some of this stuff should be done elsewhere. * ***/ static int ltpc_ioctl(struct device *dev, struct ifreq *ifr, int cmd) { struct sockaddr_at *sa = (struct sockaddr_at *) &ifr->ifr_addr; /* we'll keep the localtalk node address in dev->pa_addr */ struct at_addr *aa = &((struct ltpc_private *)dev->priv)->my_addr; struct lt_init c; int ltflags; if(debug&DEBUG_VERBOSE) printk("ltpc_ioctl called\n"); switch(cmd) { case SIOCSIFADDR: aa->s_net = sa->sat_addr.s_net; /* this does the probe and returns the node addr */ c.command = LT_INIT; c.hint = sa->sat_addr.s_node; aa->s_node = do_read(dev,&c,sizeof(c),&c,0); /* get all llap frames raw */ ltflags = read_30(dev); ltflags |= LT_FLAG_ALLLAP; set_30 (dev,ltflags); dev->broadcast[0] = 0xFF; dev->dev_addr[0] = aa->s_node; dev->addr_len=1; return 0; case SIOCGIFADDR: sa->sat_addr.s_net = aa->s_net; sa->sat_addr.s_node = aa->s_node; return 0; default: return -EINVAL; } } static void set_multicast_list(struct device *dev) { /* This needs to be present to keep netatalk happy. */ /* Actually netatalk needs fixing! */ } static int ltpc_hard_header (struct sk_buff *skb, struct device *dev, unsigned short type, void *daddr, void *saddr, unsigned len) { if(debug&DEBUG_VERBOSE) printk("ltpc_hard_header called for device %s\n", dev->name); return 0; } static int ltpc_init(struct device *dev) { /* Initialize the device structure. */ /* Fill in the fields of the device structure with ethernet-generic values. */ ltalk_setup(dev); dev->hard_start_xmit = ltpc_xmit; dev->hard_header = ltpc_hard_header; dev->priv = kmalloc(sizeof(struct ltpc_private), GFP_KERNEL); if(!dev->priv) { printk(KERN_INFO "%s: could not allocate statistics buffer\n", dev->name); return -ENOMEM; } memset(dev->priv, 0, sizeof(struct ltpc_private)); dev->get_stats = ltpc_get_stats; dev->open = ltpc_open; dev->stop = ltpc_close; /* add the ltpc-specific things */ dev->do_ioctl = <pc_ioctl; dev->set_multicast_list = &set_multicast_list; dev->mc_list = NULL; return 0; } static int ltpc_poll_counter = 0; static void ltpc_poll(unsigned long l) { struct device *dev = (struct device *) l; del_timer(<pc_timer); if(debug&DEBUG_VERBOSE) { if (!ltpc_poll_counter) { ltpc_poll_counter = 50; printk("ltpc poll is alive\n"); } ltpc_poll_counter--; } if (!dev) return; /* we've been downed */ idle(dev); ltpc_timer.expires = jiffies+5; add_timer(<pc_timer); } /* DDP to LLAP translation */ static int ltpc_xmit(struct sk_buff *skb, struct device *dev) { /* in kernel 1.3.xx, on entry skb->data points to ddp header, * and skb->len is the length of the ddp data + ddp header */ struct net_device_stats *stats = &((struct ltpc_private *)dev->priv)->stats; int i; struct lt_sendlap cbuf; cbuf.command = LT_SENDLAP; cbuf.dnode = skb->data[0]; cbuf.laptype = skb->data[2]; skb_pull(skb,3); /* skip past LLAP header */ cbuf.length = skb->len; /* this is host order */ skb->h.raw=skb->data; if(debug&DEBUG_UPPER) { printk("command "); for(i=0;i<6;i++) printk("%02x ",((unsigned char *)&cbuf)[i]); printk("\n"); } do_write(dev,&cbuf,sizeof(cbuf),skb->h.raw,skb->len); if(debug&DEBUG_UPPER) { printk("sent %d ddp bytes\n",skb->len); for(i=0;i<skb->len;i++) printk("%02x ",skb->h.raw[i]); printk("\n"); } stats->tx_packets++; stats->tx_bytes+=skb->len; dev_kfree_skb(skb); return 0; } static struct net_device_stats *ltpc_get_stats(struct device *dev) { struct net_device_stats *stats = &((struct ltpc_private *) dev->priv)->stats; return stats; } /* initialization stuff */ __initfunc(int ltpc_probe_dma(int base)) { int dma = 0; int timeout; unsigned long f; if (!request_dma(1,"ltpc")) { f=claim_dma_lock(); disable_dma(1); clear_dma_ff(1); set_dma_mode(1,DMA_MODE_WRITE); set_dma_addr(1,virt_to_bus(ltdmabuf)); set_dma_count(1,sizeof(struct lt_mem)); enable_dma(1); release_dma_lock(f); dma|=1; } if (!request_dma(3,"ltpc")) { f=claim_dma_lock(); disable_dma(3); clear_dma_ff(3); set_dma_mode(3,DMA_MODE_WRITE); set_dma_addr(3,virt_to_bus(ltdmabuf)); set_dma_count(3,sizeof(struct lt_mem)); enable_dma(3); release_dma_lock(f); dma|=2; } /* set up request */ /* FIXME -- do timings better! */ ltdmabuf[0] = LT_READMEM; ltdmabuf[1] = 1; /* mailbox */ ltdmabuf[2] = 0; ltdmabuf[3] = 0; /* address */ ltdmabuf[4] = 0; ltdmabuf[5] = 1; /* read 0x0100 bytes */ ltdmabuf[6] = 0; /* dunno if this is necessary */ inb_p(io+1); inb_p(io+0); timeout = jiffies+100*HZ/100; while(time_before(jiffies, timeout)) { if ( 0xfa == inb_p(io+6) ) break; } inb_p(io+3); inb_p(io+2); while(time_before(jiffies, timeout)) { if ( 0xfb == inb_p(io+6) ) break; } /* release the other dma channel (if we opened both of them) */ if ( (dma&0x2) && (get_dma_residue(3)==sizeof(struct lt_mem)) ){ dma&=1; free_dma(3); } if ( (dma&0x1) && (get_dma_residue(1)==sizeof(struct lt_mem)) ){ dma&=0x2; free_dma(1); } /* fix up dma number */ dma|=1; return dma; } __initfunc(int ltpc_probe(struct device *dev)) { int err; int x=0,y=0; int timeout; int autoirq; unsigned long flags; unsigned long f; save_flags(flags); /* probe for the I/O port address */ if (io != 0x240 && !check_region(0x220,8)) { x = inb_p(0x220+6); if ( (x!=0xff) && (x>=0xf0) ) io = 0x220; } if (io != 0x220 && !check_region(0x240,8)) { y = inb_p(0x240+6); if ( (y!=0xff) && (y>=0xf0) ) io = 0x240; } if(io) { /* found it, now grab it */ request_region(io,8,"ltpc"); } else { /* give up in despair */ printk ("LocalTalk card not found; 220 = %02x, 240 = %02x.\n", x,y); restore_flags(flags); return -1; } /* probe for the IRQ line */ if (irq < 2) { autoirq_setup(2); /* reset the interrupt line */ inb_p(io+7); inb_p(io+7); /* trigger an interrupt (I hope) */ inb_p(io+6); autoirq = autoirq_report(1); if (autoirq == 0) { printk("ltpc: probe at %#x failed to detect IRQ line.\n", io); } else { irq = autoirq; } } /* allocate a DMA buffer */ ltdmabuf = (unsigned char *) dma_mem_alloc(1000); if (ltdmabuf) ltdmacbuf = <dmabuf[800]; if (!ltdmabuf) { printk("ltpc: mem alloc failed\n"); restore_flags(flags); return(-1); } if(debug&DEBUG_VERBOSE) { printk("ltdmabuf pointer %08lx\n",(unsigned long) ltdmabuf); } /* reset the card */ inb_p(io+1); inb_p(io+3); timeout = jiffies+2*HZ/100; while(time_before(jiffies, timeout)) ; /* hold it in reset for a coupla jiffies */ inb_p(io+0); inb_p(io+2); inb_p(io+7); /* clear reset */ inb_p(io+4); inb_p(io+5); inb_p(io+5); /* enable dma */ inb_p(io+6); /* tri-state interrupt line */ timeout = jiffies+100*HZ/100; while(time_before(jiffies, timeout)) { /* wait for the card to complete initialization */ } /* now, figure out which dma channel we're using, unless it's already been specified */ /* well, 0 is a legal DMA channel, but the LTPC card doesn't use it... */ if (dma == 0) { dma = ltpc_probe_dma(io); if (!dma) { /* no dma channel */ printk("No DMA channel found on ltpc card.\n"); restore_flags(flags); return -1; } } /* print out friendly message */ if(irq) printk("Apple/Farallon LocalTalk-PC card at %03x, IR%d, DMA%d.\n",io,irq,dma); else printk("Apple/Farallon LocalTalk-PC card at %03x, DMA%d. Using polled mode.\n",io,dma); /* seems more logical to do this *after* probing the card... */ err = ltpc_init(dev); if (err) return err; dev->base_addr = io; dev->irq = irq; dev->dma = dma; /* the card will want to send a result at this point */ /* (I think... leaving out this part makes the kernel crash, so I put it back in...) */ f=claim_dma_lock(); disable_dma(dma); clear_dma_ff(dma); set_dma_mode(dma,DMA_MODE_READ); set_dma_addr(dma,virt_to_bus(ltdmabuf)); set_dma_count(dma,0x100); enable_dma(dma); release_dma_lock(f); (void) inb_p(io+3); (void) inb_p(io+2); timeout = jiffies+100*HZ/100; while(time_before(jiffies, timeout)) { if( 0xf9 == inb_p(io+6)) break; } if(debug&DEBUG_VERBOSE) { printk("setting up timer and irq\n"); } if (irq) { /* grab it and don't let go :-) */ (void) request_irq( irq, <pc_interrupt, 0, "ltpc", dev); (void) inb_p(io+7); /* enable interrupts from board */ (void) inb_p(io+7); /* and reset irq line */ } else { /* polled mode -- 20 times per second */ /* this is really, really slow... should it poll more often? */ init_timer(<pc_timer); ltpc_timer.function=ltpc_poll; ltpc_timer.data = (unsigned long) dev; ltpc_timer.expires = jiffies + 5; add_timer(<pc_timer); restore_flags(flags); } return 0; } /* handles "ltpc=io,irq,dma" kernel command lines */ __initfunc(void ltpc_setup(char *str, int *ints)) { if (ints[0] == 0) { if (str && !strncmp(str, "auto", 4)) { /* do nothing :-) */ } else { /* usage message */ printk (KERN_ERR "ltpc: usage: ltpc=auto|iobase[,irq[,dma]]\n"); } return; } else { io = ints[1]; if (ints[0] > 1) { irq = ints[2]; return; } if (ints[0] > 2) { dma = ints[3]; return; } /* ignore any other paramters */ } return; } #ifdef MODULE static char dev_name[8]; static struct device dev_ltpc = { dev_name, 0, 0, 0, 0, 0x0, 0, 0, 0, 0, NULL, ltpc_probe }; MODULE_PARM(debug, "i"); MODULE_PARM(io, "i"); MODULE_PARM(irq, "i"); MODULE_PARM(dma, "i"); int init_module(void) { int err, result; if(io == 0) printk(KERN_NOTICE "ltpc: Autoprobing is not recommended for modules\n"); /* Find a name for this unit */ err=dev_alloc_name(&dev_ltpc,"lt%d"); if(err<0) return err; if ((result = register_netdev(&dev_ltpc)) != 0) { printk(KERN_DEBUG "could not register Localtalk-PC device\n"); return result; } else { if(debug&DEBUG_VERBOSE) printk("0 from register_netdev\n"); return 0; } } void cleanup_module(void) { long timeout; ltpc_timer.data = 0; /* signal the poll routine that we're done */ if(debug&DEBUG_VERBOSE) printk("freeing irq\n"); if(dev_ltpc.irq) { free_irq(dev_ltpc.irq,&dev_ltpc); dev_ltpc.irq = 0; } if(del_timer(<pc_timer)) { /* either the poll was never started, or a poll is in process */ if(debug&DEBUG_VERBOSE) printk("waiting\n"); /* if it's in process, wait a bit for it to finish */ timeout = jiffies+HZ; add_timer(<pc_timer); while(del_timer(<pc_timer) && time_after(timeout, jiffies)) { add_timer(<pc_timer); schedule(); } } if(debug&DEBUG_VERBOSE) printk("freeing dma\n"); if(dev_ltpc.dma) { free_dma(dev_ltpc.dma); dev_ltpc.dma = 0; } if(debug&DEBUG_VERBOSE) printk("freeing ioaddr\n"); if(dev_ltpc.base_addr) { release_region(dev_ltpc.base_addr,8); dev_ltpc.base_addr = 0; } if(debug&DEBUG_VERBOSE) printk("free_pages\n"); free_pages( (unsigned long) ltdmabuf, __get_order(1000)); ltdmabuf=NULL; ltdmacbuf=NULL; if(debug&DEBUG_VERBOSE) printk("unregister_netdev\n"); unregister_netdev(&dev_ltpc); if(debug&DEBUG_VERBOSE) printk("returning from cleanup_module\n"); } #endif /* MODULE */ |