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1822 1823 1824 1825 1826 1827 1828 1829 1830 1831 1832 1833 1834 1835 1836 1837 1838 1839 1840 1841 1842 1843 1844 1845 1846 1847 1848 1849 1850 1851 1852 1853 1854 1855 1856 1857 1858 1859 1860 1861 1862 1863 1864 1865 1866 1867 1868 1869 1870 1871 1872 1873 1874 1875 1876 1877 1878 1879 1880 1881 1882 1883 1884 1885 1886 1887 1888 1889 1890 1891 1892 1893 1894 1895 1896 1897 1898 1899 1900 1901 1902 1903 1904 1905 1906 1907 1908 1909 1910 1911 1912 1913 1914 1915 1916 1917 1918 1919 1920 1921 1922 1923 1924 1925 1926 1927 1928 1929 1930 1931 1932 1933 1934 1935 1936 1937 1938 1939 1940 1941 1942 1943 1944 1945 1946 1947 1948 | /* ibmtr.c: A shared-memory IBM Token Ring 16/4 driver for linux * * Written 1993 by Mark Swanson and Peter De Schrijver. * This software may be used and distributed according to the terms * of the GNU Public License, incorporated herein by reference. * * This device driver should work with Any IBM Token Ring Card that does * not use DMA. * * I used Donald Becker's (becker@cesdis.gsfc.nasa.gov) device driver work * as a base for most of my initial work. * * Changes by Peter De Schrijver (Peter.Deschrijver@linux.cc.kuleuven.ac.be) : * * + changed name to ibmtr.c in anticipation of other tr boards. * + changed reset code and adapter open code. * + added SAP open code. * + a first attempt to write interrupt, transmit and receive routines. * * Changes by David W. Morris (dwm@shell.portal.com) : * 941003 dwm: - Restructure tok_probe for multiple adapters, devices. * + Add comments, misc reorg for clarity. * + Flatten interrupt handler levels. * * Changes by Farzad Farid (farzy@zen.via.ecp.fr) * and Pascal Andre (andre@chimay.via.ecp.fr) (March 9 1995) : * + multi ring support clean up. * + RFC1042 compliance enhanced. * * Changes by Pascal Andre (andre@chimay.via.ecp.fr) (September 7 1995) : * + bug correction in tr_tx * + removed redundant information display * + some code reworking * * Changes by Michel Lespinasse (walken@via.ecp.fr), * Yann Doussot (doussot@via.ecp.fr) and Pascal Andre (andre@via.ecp.fr) * (February 18, 1996) : * + modified shared memory and mmio access port the driver to * alpha platform (structure access -> readb/writeb) * * Changes by Steve Kipisz (bungy@ibm.net or kipisz@vnet.ibm.com) * (January 18 1996): * + swapped WWOR and WWCR in ibmtr.h * + moved some init code from tok_probe into trdev_init. The * PCMCIA code can call trdev_init to complete initializing * the driver. * + added -DPCMCIA to support PCMCIA * + detecting PCMCIA Card Removal in interrupt handler. If * ISRP is FF, then a PCMCIA card has been removed * * Changes by Paul Norton (pnorton@cts.com) : * + restructured the READ.LOG logic to prevent the transmit SRB * from being rudely overwritten before the transmit cycle is * complete. (August 15 1996) * + completed multiple adapter support. (November 20 1996) * + implemented csum_partial_copy in tr_rx and increased receive * buffer size and count. Minor fixes. (March 15, 1997) * * Changes by Christopher Turcksin <wabbit@rtfc.demon.co.uk> * + Now compiles ok as a module again. * * Changes by Paul Norton (pnorton@ieee.org) : * + moved the header manipulation code in tr_tx and tr_rx to * net/802/tr.c. (July 12 1997) * + add retry and timeout on open if cable disconnected. (May 5 1998) * + lifted 2000 byte mtu limit. now depends on shared-RAM size. * May 25 1998) * + can't allocate 2k recv buff at 8k shared-RAM. (20 October 1998) * * Changes by Joel Sloan (jjs@c-me.com) : * + disable verbose debug messages by default - to enable verbose * debugging, edit the IBMTR_DEBUG_MESSAGES define below * * Changes by Mike Phillips <phillim@amtrak.com> : * + Added extra #ifdef's to work with new PCMCIA Token Ring Code. * The PCMCIA code now just sets up the card so it can be recognized * by ibmtr_probe. Also checks allocated memory vs. on-board memory * for correct figure to use. * * Changes by Tim Hockin (thockin@isunix.it.ilstu.edu) : * + added spinlocks for SMP sanity (10 March 1999) * * Changes by Jochen Friedrich to enable RFC1469 Option 2 multicasting * i.e. using functional address C0 00 00 04 00 00 to transmit and * receive multicast packets. * * Changes by Mike Sullivan (based on original sram patch by Dave Grothe * to support windowing into on adapter shared ram. * i.e. Use LANAID to setup a PnP configuration with 16K RAM. Paging * will shift this 16K window over the entire available shared RAM. */ /* change the define of IBMTR_DEBUG_MESSAGES to a nonzero value in the event that chatty debug messages are desired - jjs 12/30/98 */ #define IBMTR_DEBUG_MESSAGES 0 #ifdef PCMCIA #define MODULE #endif #include <linux/module.h> #ifdef PCMCIA #undef MODULE #endif #define NO_AUTODETECT 1 #undef NO_AUTODETECT //#undef ENABLE_PAGING #define ENABLE_PAGING 1 #define FALSE 0 #define TRUE (!FALSE) /* changes the output format of driver initialisation */ #define TR_NEWFORMAT 1 #define TR_VERBOSE 0 /* some 95 OS send many non UI frame; this allow removing the warning */ #define TR_FILTERNONUI 1 /* version and credits */ static char *version = "ibmtr.c: v1.3.57 8/ 7/94 Peter De Schrijver and Mark Swanson\n" " v2.1.125 10/20/98 Paul Norton <pnorton@ieee.org>\n" " v2.2.0 12/30/98 Joel Sloan <jjs@c-me.com>\n" " v2.2.1 02/08/00 Mike Sullivan <sullivam@us.ibm.com>\n"; static char pcchannelid[] = { 0x05, 0x00, 0x04, 0x09, 0x04, 0x03, 0x04, 0x0f, 0x03, 0x06, 0x03, 0x01, 0x03, 0x01, 0x03, 0x00, 0x03, 0x09, 0x03, 0x09, 0x03, 0x00, 0x02, 0x00 }; static char mcchannelid[] = { 0x04, 0x0d, 0x04, 0x01, 0x05, 0x02, 0x05, 0x03, 0x03, 0x06, 0x03, 0x03, 0x05, 0x08, 0x03, 0x04, 0x03, 0x05, 0x03, 0x01, 0x03, 0x08, 0x02, 0x00 }; #include <linux/kernel.h> #include <linux/sched.h> #include <linux/errno.h> #include <linux/sched.h> #include <linux/timer.h> #include <linux/in.h> #include <linux/ioport.h> #include <linux/errno.h> #include <linux/string.h> #include <linux/skbuff.h> #include <linux/interrupt.h> #include <linux/delay.h> #include <linux/netdevice.h> #include <linux/trdevice.h> #include <linux/stddef.h> #include <linux/init.h> #include <net/checksum.h> #include <asm/io.h> #include <asm/spinlock.h> #include <asm/system.h> #include <asm/bitops.h> #include "ibmtr.h" #define DPRINTK(format, args...) printk("%s: " format, dev->name , ## args) #define DPRINTD(format, args...) DummyCall("%s: " format, dev->name , ## args) #define MIN(X, Y) ((X) < (Y) ? (X) : (Y)) #define MAX(X, Y) ((X) > (Y) ? (X) : (Y)) #if TR_NEWFORMAT /* this allows displaying full adapter information */ const char *channel_def[] __initdata = { "ISA", "MCA", "ISA P&P" }; __initfunc(char *adapter_def(char type)) { switch (type) { case 0xF : return "PC Adapter | PC Adapter II | Adapter/A"; case 0xE : return "16/4 Adapter | 16/4 Adapter/A (long)"; case 0xD : return "16/4 Adapter/A (short) | 16/4 ISA-16 Adapter"; case 0xC : return "Auto 16/4 Adapter"; default : return "adapter (unknown type)"; }; }; #endif #if !TR_NEWFORMAT unsigned char ibmtr_debug_trace=1; /* Patch or otherwise alter to control tokenring tracing. */ #else unsigned char ibmtr_debug_trace=0; #endif #define TRC_INIT 0x01 /* Trace initialization & PROBEs */ #define TRC_INITV 0x02 /* verbose init trace points */ int ibmtr_probe(struct device *dev); static int ibmtr_probe1(struct device *dev, int ioaddr); static unsigned char get_sram_size(struct tok_info *adapt_info); #ifdef PCMCIA extern unsigned char pcmcia_reality_check(unsigned char gss); #endif static int tok_init_card(struct device *dev); void tok_interrupt(int irq, void *dev_id, struct pt_regs *regs); static int trdev_init(struct device *dev); static void initial_tok_int(struct device *dev); static void open_sap(unsigned char type,struct device *dev); void tok_open_adapter(unsigned long dev_addr); static void tr_rx(struct device *dev); static void tr_tx(struct device *dev); static int tok_open(struct device *dev); static int tok_close(struct device *dev); static int tok_send_packet(struct sk_buff *skb, struct device *dev); static struct net_device_stats * tok_get_stats(struct device *dev); static void tok_set_multicast_list(struct device *dev); void ibmtr_readlog(struct device *dev); void ibmtr_reset_timer(struct timer_list *tmr, struct device *dev); int ibmtr_change_mtu(struct device *dev, int mtu); static unsigned int ibmtr_portlist[] __initdata = { 0xa20, 0xa24, 0 }; static __u32 ibmtr_mem_base = 0xd0000; __initfunc(static void PrtChanID(char *pcid, short stride) ) { short i, j; for (i=0, j=0; i<24; i++, j+=stride) printk("%1x", ((int) pcid[j]) & 0x0f); printk("\n"); } __initfunc(static void HWPrtChanID (__u32 pcid, short stride)) { short i, j; for (i=0, j=0; i<24; i++, j+=stride) printk("%1x", ((int)readb(pcid + j)) & 0x0f); printk("\n"); } /* * ibmtr_probe(): Routine specified in the network device structure * to probe for an IBM Token Ring Adapter. Routine outline: * I. Interrogate hardware to determine if an adapter exists * and what the speeds and feeds are * II. Setup data structures to control execution based upon * adapter characteristics. * III. Initialize adapter operation * * We expect ibmtr_probe to be called once for each device entry * which references it. */ __initfunc(int ibmtr_probe(struct device *dev)) { int i; int base_addr = dev ? dev->base_addr : 0; if (base_addr > 0x1ff) { /* * Check a single specified location. */ if (ibmtr_probe1(dev, base_addr)) { #ifndef MODULE #ifndef PCMCIA tr_freedev(dev); #endif #endif return -ENODEV; } else return 0; } else if (base_addr != 0) /* Don't probe at all. */ return -ENXIO; for (i = 0; ibmtr_portlist[i]; i++) { int ioaddr = ibmtr_portlist[i]; if (check_region(ioaddr, IBMTR_IO_EXTENT)) continue; if (ibmtr_probe1(dev, ioaddr)) { #ifndef MODULE #ifndef PCMCIA tr_freedev(dev); #endif #endif } else return 0; } return -ENODEV; } __initfunc(static int ibmtr_probe1(struct device *dev, int PIOaddr)) { unsigned char segment=0, intr=0, irq=0, i=0, j=0, cardpresent=NOTOK,temp=0; __u32 t_mmio=0; struct tok_info *ti=0; __u32 cd_chanid; unsigned char *tchanid, ctemp; unsigned long timeout; #ifndef MODULE #ifndef PCMCIA dev = init_trdev(dev,0); #endif #endif /* Query the adapter PIO base port which will return * indication of where MMIO was placed. We also have a * coded interrupt number. */ segment = inb(PIOaddr); /* * Out of range values so we'll assume non-existent IO device */ if (segment < 0x40 || segment > 0xe0) return -ENODEV; /* * Compute the linear base address of the MMIO area * as LINUX doesn't care about segments */ t_mmio=(((__u32)(segment & 0xfc) << 11) + 0x80000); intr = segment & 0x03; /* low bits is coded interrupt # */ if (ibmtr_debug_trace & TRC_INIT) DPRINTK("PIOaddr: %4hx seg/intr: %2x mmio base: %08X intr: %d\n", PIOaddr, (int)segment, t_mmio, (int)intr); /* * Now we will compare expected 'channelid' strings with * what we is there to learn of ISA/MCA or not TR card */ cd_chanid = (CHANNEL_ID + t_mmio); /* for efficiency */ tchanid=pcchannelid; cardpresent=TR_ISA; /* try ISA */ /* * Suboptimize knowing first byte different */ ctemp = readb(cd_chanid) & 0x0f; if (ctemp != *tchanid) { /* NOT ISA card, try MCA */ tchanid=mcchannelid; cardpresent=TR_MCA; if (ctemp != *tchanid) /* Neither ISA nor MCA */ cardpresent=NOTOK; } if (cardpresent != NOTOK) { /* * Know presumed type, try rest of ID */ for (i=2,j=1; i<=46; i=i+2,j++) { if ((readb(cd_chanid+i) & 0x0f) != tchanid[j]) { cardpresent=NOTOK; /* match failed, not TR card */ break; } } } /* * If we have an ISA board check for the ISA P&P version, * as it has different IRQ settings */ if (cardpresent == TR_ISA && (readb(AIPFID + t_mmio)==0x0e)) cardpresent=TR_ISAPNP; if (cardpresent == NOTOK) { /* "channel_id" did not match, report */ if (ibmtr_debug_trace & TRC_INIT) { DPRINTK("Channel ID string not found for PIOaddr: %4hx\n", PIOaddr); DPRINTK("Expected for ISA: "); PrtChanID(pcchannelid,1); DPRINTK(" found: "); HWPrtChanID(cd_chanid,2); DPRINTK("Expected for MCA: "); PrtChanID(mcchannelid,1); } return -ENODEV; } /* Now, allocate some of the pl0 buffers for this driver.. */ /* If called from PCMCIA, ti is already set up, so no need to waste the memory, just use the existing structure */ #ifndef PCMCIA ti = (struct tok_info *)kmalloc(sizeof(struct tok_info), GFP_KERNEL); if (ti == NULL) return -ENOMEM; memset(ti, 0, sizeof(struct tok_info)); #else ti = dev->priv ; #endif ti->mmio= t_mmio; ti->readlog_pending = 0; dev->priv = ti; /* this seems like the logical use of the field ... let's try some empirical tests using the token-info structure -- that should fit with out future hope of multiple adapter support as well /dwm */ /* if PCMCIA, then the card is recognized as TR_ISAPNP * and there is no need to set up the interrupt, it is already done. */ #ifndef PCMCIA switch (cardpresent) { case TR_ISA: if (intr==0) irq=9; /* irq2 really is irq9 */ if (intr==1) irq=3; if (intr==2) irq=6; if (intr==3) irq=7; ti->global_int_enable=GLOBAL_INT_ENABLE+((irq==9) ? 2 : irq); ti->adapter_int_enable=PIOaddr+ADAPTINTREL; ti->sram=0; #if !TR_NEWFORMAT DPRINTK("ti->global_int_enable: %04X\n",ti->global_int_enable); #endif break; case TR_MCA: if (intr==0) irq=9; if (intr==1) irq=3; if (intr==2) irq=10; if (intr==3) irq=11; ti->global_int_enable=0; ti->adapter_int_enable=0; ti->sram=((__u32)(inb(PIOaddr+ADAPTRESETREL) & 0xfe) << 12); break; case TR_ISAPNP: if (intr==0) irq=9; if (intr==1) irq=3; if (intr==2) irq=10; if (intr==3) irq=11; timeout = jiffies + TR_SPIN_INTERVAL; while(!readb(ti->mmio + ACA_OFFSET + ACA_RW + RRR_EVEN)) if (time_after(jiffies, timeout)) { DPRINTK("Hardware timeout during initialization.\n"); kfree_s(ti, sizeof(struct tok_info)); return -ENODEV; } ti->sram=((__u32)readb(ti->mmio + ACA_OFFSET + ACA_RW + RRR_EVEN)<<12); ti->global_int_enable=PIOaddr+ADAPTINTREL; ti->adapter_int_enable=PIOaddr+ADAPTINTREL; break; } #endif if (ibmtr_debug_trace & TRC_INIT) { /* just report int */ DPRINTK("irq=%d",irq); if (ibmtr_debug_trace & TRC_INITV) { /* full chat in verbose only */ DPRINTK(", ti->mmio=%08X",ti->mmio); printk(", segment=%02X",segment); } printk(".\n"); } /* Get hw address of token ring card */ #if !TR_NEWFORMAT DPRINTK("hw address: "); #endif j=0; for (i=0; i<0x18; i=i+2) { /* technical reference states to do this */ temp = readb(ti->mmio + AIP + i) & 0x0f; #if !TR_NEWFORMAT printk("%1X",ti->hw_address[j]=temp); #else ti->hw_address[j]=temp; #endif if(j&1) dev->dev_addr[(j/2)]=ti->hw_address[j]+(ti->hw_address[j-1]<<4); ++j; } #ifndef TR_NEWFORMAT printk("\n"); #endif /* get Adapter type: 'F' = Adapter/A, 'E' = 16/4 Adapter II,...*/ ti->adapter_type = readb(ti->mmio + AIPADAPTYPE); /* get Data Rate: F=4Mb, E=16Mb, D=4Mb & 16Mb ?? */ ti->data_rate = readb(ti->mmio + AIPDATARATE); /* Get Early Token Release support?: F=no, E=4Mb, D=16Mb, C=4&16Mb */ ti->token_release = readb(ti->mmio + AIPEARLYTOKEN); /* How much shared RAM is on adapter ? */ #ifdef PCMCIA ti->avail_shared_ram = pcmcia_reality_check(get_sram_size(ti)); ibmtr_mem_base = ti->sram_base << 12 ; #else ti->avail_shared_ram = get_sram_size(ti); #endif /* We need to set or do a bunch of work here based on previous results.. */ /* Support paging? What sizes?: F=no, E=16k, D=32k, C=16 & 32k */ ti->shared_ram_paging = readb(ti->mmio + AIPSHRAMPAGE); /* Available DHB 4Mb size: F=2048, E=4096, D=4464 */ switch (readb(ti->mmio + AIP4MBDHB)) { case 0xe : ti->dhb_size4mb = 4096; break; case 0xd : ti->dhb_size4mb = 4464; break; default : ti->dhb_size4mb = 2048; break; } /* Available DHB 16Mb size: F=2048, E=4096, D=8192, C=16384, B=17960 */ switch (readb(ti->mmio + AIP16MBDHB)) { case 0xe : ti->dhb_size16mb = 4096; break; case 0xd : ti->dhb_size16mb = 8192; break; case 0xc : ti->dhb_size16mb = 16384; break; case 0xb : ti->dhb_size16mb = 17960; break; default : ti->dhb_size16mb = 2048; break; } #if !TR_NEWFORMAT DPRINTK("atype=%x, drate=%x, trel=%x, asram=%dK, srp=%x, " "dhb(4mb=%x, 16mb=%x)\n",ti->adapter_type, ti->data_rate, ti->token_release, ti->avail_shared_ram/2, ti->shared_ram_paging, ti->dhb_size4mb, ti->dhb_size16mb); #endif /* We must figure out how much shared memory space this adapter * will occupy so that if there are two adapters we can fit both * in. Given a choice, we will limit this adapter to 32K. The * maximum space will will use for two adapters is 64K so if the * adapter we are working on demands 64K (it also doesn't support * paging), then only one adapter can be supported. */ /* * determine how much of total RAM is mapped into PC space */ ti->mapped_ram_size=1<<((((readb(ti->mmio+ ACA_OFFSET + ACA_RW + RRR_ODD)) >>2) & 0x03) + 4); ti->page_mask=0; if (ti->shared_ram_paging == 0xf) { /* No paging in adapter */ ti->mapped_ram_size = ti->avail_shared_ram; } else { #ifdef ENABLE_PAGING unsigned char pg_size=0; #endif #if !TR_NEWFORMAT DPRINTK("shared ram page size: %dK\n",ti->mapped_ram_size/2); #endif #ifdef ENABLE_PAGING switch(ti->shared_ram_paging) { case 0xf: break; case 0xe: ti->page_mask=(ti->mapped_ram_size==32) ? 0xc0 : 0; pg_size=32; /* 16KB page size */ break; case 0xd: ti->page_mask=(ti->mapped_ram_size==64) ? 0x80 : 0; pg_size=64; /* 32KB page size */ break; case 0xc: switch (ti->mapped_ram_size) { case 32: ti->page_mask=0xc0; pg_size=32; break; case 64: ti->page_mask=0x80; pg_size=64; break; } break; default: DPRINTK("Unknown shared ram paging info %01X\n",ti->shared_ram_paging); kfree_s(ti, sizeof(struct tok_info)); return -ENODEV; break; } if (ibmtr_debug_trace & TRC_INIT) DPRINTK("Shared RAM paging code: " "%02X mapped RAM size: %dK shared RAM size: %dK page mask: %0xX\n:", ti->shared_ram_paging, ti->mapped_ram_size/2, ti->avail_shared_ram/2, ti->page_mask); if (ti->page_mask) { if (pg_size > ti->mapped_ram_size) { DPRINTK("Page size (%d) > mapped ram window (%d), can't page.\n", pg_size/2, ti->mapped_ram_size/2); ti->page_mask = 0; /* reset paging */ } } else if (pg_size > ti->mapped_ram_size) { DPRINTK("Page size (%d) > mapped ram window (%d), can't page.\n", pg_size/2, ti->mapped_ram_size/2); } #endif } /* finish figuring the shared RAM address */ if (cardpresent==TR_ISA) { static __u32 ram_bndry_mask[]={0xffffe000, 0xffffc000, 0xffff8000, 0xffff0000}; __u32 new_base, rrr_32, chk_base, rbm; rrr_32 = ((readb(ti->mmio+ ACA_OFFSET + ACA_RW + RRR_ODD))>>2) & 0x00000003; rbm = ram_bndry_mask[rrr_32]; new_base = (ibmtr_mem_base + (~rbm)) & rbm; /* up to boundary */ chk_base = new_base + (ti->mapped_ram_size<<9); if (chk_base > (ibmtr_mem_base + IBMTR_SHARED_RAM_SIZE)) { DPRINTK("Shared RAM for this adapter (%05x) exceeds driver" " limit (%05x), adapter not started.\n", chk_base, ibmtr_mem_base + IBMTR_SHARED_RAM_SIZE); kfree_s(ti, sizeof(struct tok_info)); return -ENODEV; } else { /* seems cool, record what we have figured out */ ti->sram_base = new_base >> 12; ibmtr_mem_base = chk_base; } } #if !TR_NEWFORMAT DPRINTK("Using %dK shared RAM\n",ti->mapped_ram_size/2); #endif /* The PCMCIA has already got the interrupt line and the io port, so no chance of anybody else getting it - MLP */ #ifndef PCMCIA if (request_irq (dev->irq = irq, &tok_interrupt,0,"ibmtr", dev) != 0) { DPRINTK("Could not grab irq %d. Halting Token Ring driver.\n",irq); kfree_s(ti, sizeof(struct tok_info)); return -ENODEV; } /*?? Now, allocate some of the PIO PORTs for this driver.. */ request_region(PIOaddr,IBMTR_IO_EXTENT,"ibmtr"); /* record PIOaddr range as busy */ #endif #if !TR_NEWFORMAT DPRINTK("%s",version); /* As we have passed card identification, let the world know we're here! */ #else if (version) { printk("%s",version); version = NULL; } DPRINTK("%s %s found\n", channel_def[cardpresent-1], adapter_def(ti->adapter_type)); DPRINTK("using irq %d, PIOaddr %hx, %dK shared RAM.\n", irq, PIOaddr, ti->mapped_ram_size/2); DPRINTK("Hardware address : %02X:%02X:%02X:%02X:%02X:%02X\n", dev->dev_addr[0], dev->dev_addr[1], dev->dev_addr[2], dev->dev_addr[3], dev->dev_addr[4], dev->dev_addr[5]); if (ti->page_mask) DPRINTK("Shared RAM paging enabled. Page size: %uK Shared Ram size %dK\n", ((ti->page_mask ^ 0xff)+1)>>2,ti->avail_shared_ram/2); else DPRINTK("Shared RAM paging disabled. ti->page_mask %x\n",ti->page_mask); #endif /* Calculate the maximum DHB we can use */ if (!ti->page_mask) { ti->avail_shared_ram=ti->mapped_ram_size; } switch (ti->avail_shared_ram) { case 16 : /* 8KB shared RAM */ ti->dhb_size4mb = MIN(ti->dhb_size4mb, 2048); ti->rbuf_len4 = 1032; ti->rbuf_cnt4 = 2; ti->dhb_size16mb = MIN(ti->dhb_size16mb, 2048); ti->rbuf_len16 = 1032; ti->rbuf_cnt16 = 2; break; case 32 : /* 16KB shared RAM */ ti->dhb_size4mb = MIN(ti->dhb_size4mb, 2048); ti->rbuf_len4 = 520; ti->rbuf_cnt4 = 9; ti->dhb_size16mb = MIN(ti->dhb_size16mb, 2048); ti->rbuf_len16 = 1032; /* 1024 usable */ ti->rbuf_cnt16 = 4; break; case 64 : /* 32KB shared RAM */ ti->dhb_size4mb = MIN(ti->dhb_size4mb, 2048); ti->rbuf_len4 = 1032; ti->rbuf_cnt4 = 6; ti->dhb_size16mb = MIN(ti->dhb_size16mb, 2048); ti->rbuf_len16 = 1032; ti->rbuf_cnt16 = 10; break; case 127 : /* 63KB shared RAM */ ti->dhb_size4mb = MIN(ti->dhb_size4mb, 2048); ti->rbuf_len4 = 1032; ti->rbuf_cnt4 = 6; ti->dhb_size16mb = MIN(ti->dhb_size16mb, 2048); ti->rbuf_len16 = 1032; ti->rbuf_cnt16 = 16; break; case 128 : /* 64KB shared RAM */ ti->dhb_size4mb = MIN(ti->dhb_size4mb, 2048); ti->rbuf_len4 = 1032; ti->rbuf_cnt4 = 6; ti->dhb_size16mb = MIN(ti->dhb_size16mb, 2048); ti->rbuf_len16 = 1032; ti->rbuf_cnt16 = 18; break; default : ti->dhb_size4mb = 2048; ti->rbuf_len4 = 1032; ti->rbuf_cnt4 = 2; ti->dhb_size16mb = 2048; ti->rbuf_len16 = 1032; ti->rbuf_cnt16 = 2; break; } ti->maxmtu16 = (ti->rbuf_len16*ti->rbuf_cnt16)-((ti->rbuf_cnt16)<<3)-TR_HLEN; ti->maxmtu4 = (ti->rbuf_len4*ti->rbuf_cnt4)-((ti->rbuf_cnt4)<<3)-TR_HLEN; DPRINTK("Maximum MTU 16Mbps: %d, 4Mbps: %d\n", ti->maxmtu16, ti->maxmtu4); dev->base_addr=PIOaddr; /* set the value for device */ trdev_init(dev); tok_init_card(dev); return 0; /* Return 0 to indicate we have found a Token Ring card. */ } /* query the adapter for the size of shared RAM */ __initfunc(static unsigned char get_sram_size(struct tok_info *adapt_info)) { unsigned char avail_sram_code; static unsigned char size_code[]={ 0,16,32,64,127,128 }; /* Adapter gives 'F' -- use RRR bits 3,2 'E' -- 8kb 'D' -- 16kb 'C' -- 32kb 'A' -- 64KB 'B' - 64KB less 512 bytes at top (WARNING ... must zero top bytes in INIT */ avail_sram_code=0xf-readb(adapt_info->mmio + AIPAVAILSHRAM); if (avail_sram_code) return size_code[avail_sram_code]; else /* for code 'F', must compute size from RRR(3,2) bits */ return 1<<((readb(adapt_info->mmio+ ACA_OFFSET + ACA_RW + RRR_ODD)>>2)+4); } __initfunc(static int trdev_init(struct device *dev)) { struct tok_info *ti=(struct tok_info *)dev->priv; SET_PAGE(ti->srb_page); ti->open_status = CLOSED; dev->init = tok_init_card; dev->open = tok_open; dev->stop = tok_close; dev->hard_start_xmit = tok_send_packet; dev->get_stats = tok_get_stats; dev->set_multicast_list = tok_set_multicast_list; dev->change_mtu = ibmtr_change_mtu; #ifndef MODULE #ifndef PCMCIA tr_setup(dev); #endif #endif return 0; } static void tok_set_multicast_list(struct device *dev) { struct tok_info *ti=(struct tok_info *)dev->priv; struct dev_mc_list *mclist; unsigned char address[4]; int i; address[0] = address[1] = address[2] = address[3] = 0; mclist = dev->mc_list; for (i=0; i< dev->mc_count; i++) { address[0] |= mclist->dmi_addr[2]; address[1] |= mclist->dmi_addr[3]; address[2] |= mclist->dmi_addr[4]; address[3] |= mclist->dmi_addr[5]; mclist = mclist->next; } SET_PAGE(ti->srb_page); for (i=0; i<sizeof(struct srb_set_funct_addr); i++) writeb(0, ti->srb+i); writeb(DIR_SET_FUNC_ADDR, ti->srb + offsetof(struct srb_set_funct_addr, command)); DPRINTK("Setting functional address: "); for (i=0; i<4; i++) { writeb(address[i], ti->srb + offsetof(struct srb_set_funct_addr, funct_address)+i); printk("%02X ", address[i]); } writeb(CMD_IN_SRB, ti->mmio + ACA_OFFSET + ACA_SET + ISRA_ODD); printk("\n"); } static int tok_open(struct device *dev) { struct tok_info *ti=(struct tok_info *)dev->priv; /* init the spinlock */ ti->lock = (spinlock_t) SPIN_LOCK_UNLOCKED; if (ti->open_status==CLOSED) tok_init_card(dev); if (ti->open_status==IN_PROGRESS) sleep_on(&ti->wait_for_reset); if (ti->open_status==SUCCESS) { dev->tbusy=0; dev->interrupt=0; dev->start=1; /* NEED to see smem size *AND* reset high 512 bytes if needed */ MOD_INC_USE_COUNT; return 0; } else return -EAGAIN; } static int tok_close(struct device *dev) { struct tok_info *ti=(struct tok_info *) dev->priv; SET_PAGE(ti->srb_page); writeb(DIR_CLOSE_ADAPTER, ti->srb + offsetof(struct srb_close_adapter, command)); writeb(CMD_IN_SRB, ti->mmio + ACA_OFFSET + ACA_SET + ISRA_ODD); ti->open_status=CLOSED; sleep_on(&ti->wait_for_tok_int); SET_PAGE(ti->srb_page); if (readb(ti->srb + offsetof(struct srb_close_adapter, ret_code))) DPRINTK("close adapter failed: %02X\n", (int)readb(ti->srb + offsetof(struct srb_close_adapter, ret_code))); dev->start = 0; #ifdef PCMCIA ti->sram = 0 ; #endif DPRINTK("Adapter closed.\n"); MOD_DEC_USE_COUNT; return 0; } void tok_interrupt (int irq, void *dev_id, struct pt_regs *regs) { unsigned char status; struct tok_info *ti; struct device *dev; #ifdef ENABLE_PAGING unsigned char save_srpr; #endif dev = dev_id; #if TR_VERBOSE DPRINTK("Int from tok_driver, dev : %p\n",dev); #endif ti = (struct tok_info *) dev->priv; spin_lock(&(ti->lock)); #ifdef ENABLE_PAGING save_srpr=readb(ti->mmio+ACA_OFFSET+ACA_RW+SRPR_EVEN); #endif /* Disable interrupts till processing is finished */ dev->interrupt=1; writeb((~INT_ENABLE), ti->mmio + ACA_OFFSET + ACA_RESET + ISRP_EVEN); /* Reset interrupt for ISA boards */ if (ti->adapter_int_enable) outb(0,ti->adapter_int_enable); else outb(0,ti->global_int_enable); switch (ti->do_tok_int) { case NOT_FIRST: /* Begin the regular interrupt handler HERE inline to avoid the extra levels of logic and call depth for the original solution. */ status=readb(ti->mmio + ACA_OFFSET + ACA_RW + ISRP_ODD); #ifdef PCMCIA /* Check if the PCMCIA card was pulled. */ if (status == 0xFF) { DPRINTK("PCMCIA card removed.\n"); dev->interrupt = 0; goto return_point; } /* Check ISRP EVEN too. */ if ( readb (ti->mmio + ACA_OFFSET + ACA_RW + ISRP_EVEN) == 0xFF) { DPRINTK("PCMCIA card removed.\n"); dev->interrupt = 0; goto return_point; } #endif if (status & ADAP_CHK_INT) { int i; __u32 check_reason; __u8 check_reason_page=0; check_reason=ntohs(readw(ti->sram + ACA_OFFSET + ACA_RW +WWCR_EVEN)); if (ti->page_mask) { check_reason_page=(check_reason>>8) & ti->page_mask; check_reason &= ~(ti->page_mask << 8); } check_reason += ti->sram; SET_PAGE(check_reason_page); DPRINTK("Adapter check interrupt\n"); DPRINTK("8 reason bytes follow: "); for(i=0; i<8; i++, check_reason++) printk("%02X ", (int)readb(check_reason)); printk("\n"); writeb((~ADAP_CHK_INT), ti->mmio + ACA_OFFSET + ACA_RESET + ISRP_ODD); writeb(INT_ENABLE, ti->mmio + ACA_OFFSET + ACA_SET + ISRP_EVEN); dev->interrupt=0; } else if (readb(ti->mmio + ACA_OFFSET + ACA_RW + ISRP_EVEN) & (TCR_INT | ERR_INT | ACCESS_INT)) { DPRINTK("adapter error: ISRP_EVEN : %02x\n", (int)readb(ti->mmio + ACA_OFFSET + ACA_RW + ISRP_EVEN)); writeb(~(TCR_INT | ERR_INT | ACCESS_INT), ti->mmio + ACA_OFFSET + ACA_RESET + ISRP_EVEN); writeb(INT_ENABLE, ti->mmio + ACA_OFFSET + ACA_SET + ISRP_EVEN); dev->interrupt=0; } else if (status & (SRB_RESP_INT | ASB_FREE_INT | ARB_CMD_INT | SSB_RESP_INT)) { /* SRB, ASB, ARB or SSB response */ if (status & SRB_RESP_INT) { /* SRB response */ SET_PAGE(ti->srb_page); #if TR_VERBOSE DPRINTK("SRB resp: cmd=%02X rsp=%02X\n", readb(ti->srb), readb(ti->srb + offsetof(struct srb_xmit, ret_code))); #endif switch(readb(ti->srb)) { /* SRB command check */ case XMIT_DIR_FRAME: { unsigned char xmit_ret_code; xmit_ret_code=readb(ti->srb + offsetof(struct srb_xmit, ret_code)); if (xmit_ret_code != 0xff) { DPRINTK("error on xmit_dir_frame request: %02X\n", xmit_ret_code); if (ti->current_skb) { dev_kfree_skb(ti->current_skb); ti->current_skb=NULL; } dev->tbusy=0; if (ti->readlog_pending) ibmtr_readlog(dev); } } break; case XMIT_UI_FRAME: { unsigned char xmit_ret_code; xmit_ret_code=readb(ti->srb + offsetof(struct srb_xmit, ret_code)); if (xmit_ret_code != 0xff) { DPRINTK("error on xmit_ui_frame request: %02X\n", xmit_ret_code); if (ti->current_skb) { dev_kfree_skb(ti->current_skb); ti->current_skb=NULL; } dev->tbusy=0; if (ti->readlog_pending) ibmtr_readlog(dev); } } break; case DIR_OPEN_ADAPTER: { unsigned char open_ret_code; __u16 open_error_code; ti->srb=ntohs(readw(ti->init_srb +offsetof(struct srb_open_response, srb_addr))); ti->ssb=ntohs(readw(ti->init_srb +offsetof(struct srb_open_response, ssb_addr))); ti->arb=ntohs(readw(ti->init_srb +offsetof(struct srb_open_response, arb_addr))); ti->asb=ntohs(readw(ti->init_srb +offsetof(struct srb_open_response, asb_addr))); if (ti->page_mask) { ti->srb_page=(ti->srb>>8) & ti->page_mask; ti->srb &= ~(ti->page_mask<<8); ti->ssb_page=(ti->ssb>>8) & ti->page_mask; ti->ssb &= ~(ti->page_mask<<8); ti->arb_page=(ti->arb>>8) & ti->page_mask; ti->arb &= ~(ti->page_mask<<8); ti->asb_page=(ti->asb>>8) & ti->page_mask; ti->asb &= ~(ti->page_mask<<8); } ti->srb+=ti->sram; ti->ssb+=ti->sram; ti->arb+=ti->sram; ti->asb+=ti->sram; ti->current_skb=NULL; open_ret_code = readb(ti->init_srb +offsetof(struct srb_open_response, ret_code)); open_error_code = ntohs(readw(ti->init_srb +offsetof(struct srb_open_response, error_code))); if (open_ret_code==7) { if (!ti->auto_ringspeedsave && (open_error_code==0x24)) { DPRINTK("Open failed: Adapter speed must match ring " "speed if Automatic Ring Speed Save is disabled.\n"); ti->open_status=FAILURE; wake_up(&ti->wait_for_reset); } else if (open_error_code==0x24) DPRINTK("Retrying open to adjust to ring speed.\n"); else if ((open_error_code==0x2d) && ti->auto_ringspeedsave) DPRINTK("No signal detected for Auto Speed Detection.\n"); else if (open_error_code==0x11) { if (ti->retry_count--) DPRINTK("Ring broken/disconnected, retrying...\n"); else { DPRINTK("Ring broken/disconnected, open failed.\n"); ti->open_status = FAILURE; } } else DPRINTK("Unrecoverable error: error code = %04x.\n", open_error_code); } else if (!open_ret_code) { #if !TR_NEWFORMAT DPRINTK("board opened...\n"); #else DPRINTK("Adapter initialized and opened.\n"); #endif writeb(~(SRB_RESP_INT), ti->mmio + ACA_OFFSET + ACA_RESET + ISRP_ODD); writeb(~(CMD_IN_SRB), ti->mmio + ACA_OFFSET + ACA_RESET + ISRA_ODD); open_sap(EXTENDED_SAP,dev); /* YdW probably hates me */ goto skip_reset; } else DPRINTK("open failed: ret_code = %02X, retrying\n", open_ret_code); if (ti->open_status != FAILURE) { ibmtr_reset_timer(&(ti->tr_timer), dev); } } break; case DIR_CLOSE_ADAPTER: wake_up(&ti->wait_for_tok_int); break; case DLC_OPEN_SAP: if (readb(ti->srb+offsetof(struct dlc_open_sap, ret_code))) { DPRINTK("open_sap failed: ret_code = %02X,retrying\n", (int)readb(ti->srb+offsetof(struct dlc_open_sap, ret_code))); ibmtr_reset_timer(&(ti->tr_timer), dev); } else { ti->exsap_station_id= readw(ti->srb+offsetof(struct dlc_open_sap, station_id)); ti->open_status=SUCCESS; /* TR adapter is now available */ wake_up(&ti->wait_for_reset); } break; case DIR_INTERRUPT: case DIR_MOD_OPEN_PARAMS: case DIR_SET_GRP_ADDR: case DIR_SET_FUNC_ADDR: case DLC_CLOSE_SAP: if (readb(ti->srb+offsetof(struct srb_interrupt, ret_code))) DPRINTK("error on %02X: %02X\n", (int)readb(ti->srb+offsetof(struct srb_interrupt, command)), (int)readb(ti->srb+offsetof(struct srb_interrupt, ret_code))); break; case DIR_READ_LOG: if (readb(ti->srb+offsetof(struct srb_read_log, ret_code))) DPRINTK("error on dir_read_log: %02X\n", (int)readb(ti->srb+offsetof(struct srb_read_log, ret_code))); else if (IBMTR_DEBUG_MESSAGES) { DPRINTK( "Line errors %02X, Internal errors %02X, Burst errors %02X\n" "A/C errors %02X, Abort delimiters %02X, Lost frames %02X\n" "Receive congestion count %02X, Frame copied errors %02X\n" "Frequency errors %02X, Token errors %02X\n", (int)readb(ti->srb+offsetof(struct srb_read_log, line_errors)), (int)readb(ti->srb+offsetof(struct srb_read_log, internal_errors)), (int)readb(ti->srb+offsetof(struct srb_read_log, burst_errors)), (int)readb(ti->srb+offsetof(struct srb_read_log, A_C_errors)), (int)readb(ti->srb+offsetof(struct srb_read_log, abort_delimiters)), (int)readb(ti->srb+offsetof(struct srb_read_log, lost_frames)), (int)readb(ti->srb+offsetof(struct srb_read_log, recv_congest_count)), (int)readb(ti->srb+offsetof(struct srb_read_log, frame_copied_errors)), (int)readb(ti->srb+offsetof(struct srb_read_log, frequency_errors)), (int)readb(ti->srb+offsetof(struct srb_read_log, token_errors))); } dev->tbusy=0; break; default: DPRINTK("Unknown command %02X encountered\n", (int)readb(ti->srb)); } /* SRB command check */ writeb(~CMD_IN_SRB, ti->mmio + ACA_OFFSET + ACA_RESET + ISRA_ODD); writeb(~SRB_RESP_INT, ti->mmio + ACA_OFFSET + ACA_RESET + ISRP_ODD); skip_reset: } /* SRB response */ if (status & ASB_FREE_INT) { /* ASB response */ SET_PAGE(ti->asb_page); #if TR_VERBOSE DPRINTK("ASB resp: cmd=%02X\n", readb(ti->asb)); #endif switch(readb(ti->asb)) { /* ASB command check */ case REC_DATA: case XMIT_UI_FRAME: case XMIT_DIR_FRAME: break; default: DPRINTK("unknown command in asb %02X\n", (int)readb(ti->asb)); } /* ASB command check */ if (readb(ti->asb+2)!=0xff) /* checks ret_code */ DPRINTK("ASB error %02X in cmd %02X\n", (int)readb(ti->asb+2),(int)readb(ti->asb)); writeb(~ASB_FREE_INT, ti->mmio + ACA_OFFSET + ACA_RESET + ISRP_ODD); } /* ASB response */ if (status & ARB_CMD_INT) { /* ARB response */ SET_PAGE(ti->arb_page); #if TR_VERBOSE DPRINTK("ARB resp: cmd=%02X rsp=%02X\n", readb(ti->arb), readb(ti->arb + offsetof(struct arb_dlc_status, status))); #endif switch (readb(ti->arb)) { /* ARB command check */ case DLC_STATUS: DPRINTK("DLC_STATUS new status: %02X on station %02X\n", ntohs(readw(ti->arb + offsetof(struct arb_dlc_status, status))), ntohs(readw(ti->arb +offsetof(struct arb_dlc_status, station_id)))); break; case REC_DATA: tr_rx(dev); break; case RING_STAT_CHANGE: { unsigned short ring_status; ring_status=ntohs(readw(ti->arb +offsetof(struct arb_ring_stat_change, ring_status))); if (ring_status & (SIGNAL_LOSS | LOBE_FAULT)) { DPRINTK("Signal loss/Lobe fault\n"); DPRINTK("We try to reopen the adapter.\n"); ibmtr_reset_timer(&(ti->tr_timer), dev); } else if (ring_status & (HARD_ERROR | XMIT_BEACON | AUTO_REMOVAL | REMOVE_RECV | RING_RECOVER)) DPRINTK("New ring status: %02X\n", ring_status); if (ring_status & LOG_OVERFLOW) { if (dev->tbusy) ti->readlog_pending = 1; else ibmtr_readlog(dev); } } break; case XMIT_DATA_REQ: tr_tx(dev); break; default: DPRINTK("Unknown command %02X in arb\n", (int)readb(ti->arb)); break; } /* ARB command check */ writeb(~ARB_CMD_INT, ti->mmio + ACA_OFFSET + ACA_RESET + ISRP_ODD); writeb(ARB_FREE, ti->mmio + ACA_OFFSET + ACA_SET + ISRA_ODD); } /* ARB response */ if (status & SSB_RESP_INT) { /* SSB response */ unsigned char retcode; SET_PAGE(ti->ssb_page); #if TR_VERBOSE DPRINTK("SSB resp: cmd=%02X rsp=%02X\n", readb(ti->ssb), readb(ti->ssb+2)); #endif switch (readb(ti->ssb)) { /* SSB command check */ case XMIT_DIR_FRAME: case XMIT_UI_FRAME: retcode = readb(ti->ssb+2); if (retcode && (retcode != 0x22)) /* checks ret_code */ DPRINTK("xmit ret_code: %02X xmit error code: %02X\n", (int)retcode, (int)readb(ti->ssb+6)); else ti->tr_stats.tx_packets++; break; case XMIT_XID_CMD: DPRINTK("xmit xid ret_code: %02X\n", (int)readb(ti->ssb+2)); break; default: DPRINTK("Unknown command %02X in ssb\n", (int)readb(ti->ssb)); } /* SSB command check */ writeb(~SSB_RESP_INT, ti->mmio + ACA_OFFSET + ACA_RESET + ISRP_ODD); writeb(SSB_FREE, ti->mmio + ACA_OFFSET + ACA_SET + ISRA_ODD); } /* SSB response */ } /* SRB, ARB, ASB or SSB response */ dev->interrupt=0; writeb(INT_ENABLE, ti->mmio + ACA_OFFSET + ACA_SET + ISRP_EVEN); break; case FIRST_INT: initial_tok_int(dev); break; default: DPRINTK("Unexpected interrupt from tr adapter\n"); } #ifdef PCMCIA return_point: #endif #ifdef ENABLE_PAGING writeb(save_srpr, ti->mmio+ACA_OFFSET+ACA_RW+SRPR_EVEN); #endif spin_unlock(&(ti->lock)); } static void initial_tok_int(struct device *dev) { __u32 encoded_addr; __u32 hw_encoded_addr; struct tok_info *ti; ti=(struct tok_info *) dev->priv; ti->do_tok_int=NOT_FIRST; #ifndef TR_NEWFORMAT DPRINTK("Initial tok int received\n"); #endif /* we assign the shared-ram address for ISA devices */ if(!ti->sram) { writeb(ti->sram_base, ti->mmio + ACA_OFFSET + ACA_RW + RRR_EVEN); ti->sram=((__u32)ti->sram_base << 12); } ti->init_srb=ntohs((unsigned short)readw(ti->mmio+ ACA_OFFSET + WRBR_EVEN)); if (ti->page_mask) { ti->init_srb_page=(ti->init_srb>>8)&ti->page_mask; ti->init_srb &= ~(ti->page_mask<<8); } ti->init_srb+=ti->sram; if (ti->avail_shared_ram == 127) { int i; int last_512=0xfe00; if (ti->page_mask) { last_512 &= ~(ti->page_mask<<8); } // initialize high section of ram (if necessary) SET_PAGE(0xc0); for (i=0; i<512; i++) { writeb(0,ti->sram+last_512+i); } } SET_PAGE(ti->init_srb_page); dev->mem_start = ti->sram; dev->mem_end = ti->sram + (ti->mapped_ram_size<<9) - 1; #if TR_VERBOSE { int i; DPRINTK("init_srb(%lx):", (long)ti->init_srb); for (i=0;i<17;i++) printk("%02X ", (int)readb(ti->init_srb+i)); printk("\n"); } #endif hw_encoded_addr = readw(ti->init_srb + offsetof(struct srb_init_response, encoded_address)); #if !TR_NEWFORMAT DPRINTK("srb_init_response->encoded_address: %04X\n", hw_encoded_addr); DPRINTK("ntohs(srb_init_response->encoded_address): %04X\n", ntohs(hw_encoded_addr)); #endif encoded_addr=(ti->sram + ntohs(hw_encoded_addr)); ti->ring_speed = readb(ti->init_srb+offsetof(struct srb_init_response, init_status)) & 0x01 ? 16 : 4; #if !TR_NEWFORMAT DPRINTK("encoded addr (%04X,%04X,%08X): ", hw_encoded_addr, ntohs(hw_encoded_addr), encoded_addr); #else DPRINTK("Initial interrupt : %d Mbps, shared RAM base %08x.\n", ti->ring_speed, ti->sram); #endif ti->auto_ringspeedsave=readb(ti->init_srb +offsetof(struct srb_init_response, init_status_2)) & 0x4 ? TRUE : FALSE; #if !TR_NEWFORMAT for(i=0;i<TR_ALEN;i++) { dev->dev_addr[i]=readb(encoded_addr + i); printk("%02X%s", dev->dev_addr[i], (i==TR_ALEN-1) ? "" : ":" ); } printk("\n"); #endif tok_open_adapter((unsigned long)dev); } static int tok_init_card(struct device *dev) { struct tok_info *ti; short PIOaddr; unsigned long i; PIOaddr = dev->base_addr; ti=(struct tok_info *) dev->priv; /* Special processing for first interrupt after reset */ ti->do_tok_int=FIRST_INT; /* Reset adapter */ dev->tbusy=1; /* nothing can be done before reset and open completed */ writeb(~INT_ENABLE, ti->mmio + ACA_OFFSET + ACA_RESET + ISRP_EVEN); #if !TR_NEWFORMAT DPRINTK("resetting card\n"); #endif outb(0, PIOaddr+ADAPTRESET); for (i=jiffies+TR_RESET_INTERVAL; time_before_eq(jiffies, i);); /* wait 50ms */ outb(0,PIOaddr+ADAPTRESETREL); #ifdef ENABLE_PAGING if(ti->page_mask) writeb(SRPR_ENABLE_PAGING, ti->mmio + ACA_OFFSET + ACA_RW + SRPR_EVEN); #endif #if !TR_NEWFORMAT DPRINTK("card reset\n"); #endif ti->open_status=IN_PROGRESS; writeb(INT_ENABLE, ti->mmio + ACA_OFFSET + ACA_SET + ISRP_EVEN); return 0; } static void open_sap(unsigned char type,struct device *dev) { int i; struct tok_info *ti=(struct tok_info *) dev->priv; SET_PAGE(ti->srb_page); for (i=0; i<sizeof(struct dlc_open_sap); i++) writeb(0, ti->srb+i); writeb(DLC_OPEN_SAP, ti->srb + offsetof(struct dlc_open_sap, command)); writew(htons(MAX_I_FIELD), ti->srb + offsetof(struct dlc_open_sap, max_i_field)); writeb(SAP_OPEN_IND_SAP | SAP_OPEN_PRIORITY, ti->srb + offsetof(struct dlc_open_sap, sap_options)); writeb(SAP_OPEN_STATION_CNT, ti->srb + offsetof(struct dlc_open_sap, station_count)); writeb(type, ti->srb + offsetof(struct dlc_open_sap, sap_value)); writeb(CMD_IN_SRB, ti->mmio + ACA_OFFSET + ACA_SET + ISRA_ODD); } void tok_open_adapter(unsigned long dev_addr) { struct device *dev=(struct device *)dev_addr; struct tok_info *ti; int i; ti=(struct tok_info *) dev->priv; #if !TR_NEWFORMAT DPRINTK("now opening the board...\n"); #endif writeb(~SRB_RESP_INT, ti->mmio + ACA_OFFSET + ACA_RESET + ISRP_ODD); writeb(~CMD_IN_SRB, ti->mmio + ACA_OFFSET + ACA_RESET + ISRA_ODD); for (i=0; i<sizeof(struct dir_open_adapter); i++) writeb(0, ti->init_srb+i); writeb(DIR_OPEN_ADAPTER, ti->init_srb + offsetof(struct dir_open_adapter, command)); writew(htons(OPEN_PASS_BCON_MAC), ti->init_srb + offsetof(struct dir_open_adapter, open_options)); if (ti->ring_speed == 16) { writew(htons(ti->dhb_size16mb), ti->init_srb + offsetof(struct dir_open_adapter, dhb_length)); writew(htons(ti->rbuf_cnt16), ti->init_srb + offsetof(struct dir_open_adapter, num_rcv_buf)); writew(htons(ti->rbuf_len16), ti->init_srb + offsetof(struct dir_open_adapter, rcv_buf_len)); } else { writew(htons(ti->dhb_size4mb), ti->init_srb + offsetof(struct dir_open_adapter, dhb_length)); writew(htons(ti->rbuf_cnt4), ti->init_srb + offsetof(struct dir_open_adapter, num_rcv_buf)); writew(htons(ti->rbuf_len4), ti->init_srb + offsetof(struct dir_open_adapter, rcv_buf_len)); } writeb(NUM_DHB, /* always 2 */ ti->init_srb + offsetof(struct dir_open_adapter, num_dhb)); writeb(DLC_MAX_SAP, ti->init_srb + offsetof(struct dir_open_adapter, dlc_max_sap)); writeb(DLC_MAX_STA, ti->init_srb + offsetof(struct dir_open_adapter, dlc_max_sta)); ti->srb=ti->init_srb; /* We use this one in the interrupt handler */ ti->srb_page=ti->init_srb_page; DPRINTK("Opend adapter: Xmit bfrs: %d X %d, Rcv bfrs: %d X %d\n", readb(ti->init_srb+offsetof(struct dir_open_adapter,num_dhb)), ntohs(readw(ti->init_srb+offsetof(struct dir_open_adapter,dhb_length))), ntohs(readw(ti->init_srb+offsetof(struct dir_open_adapter,num_rcv_buf))), ntohs(readw(ti->init_srb+offsetof(struct dir_open_adapter,rcv_buf_len))) ); writeb(INT_ENABLE, ti->mmio + ACA_OFFSET + ACA_SET + ISRP_EVEN); writeb(CMD_IN_SRB, ti->mmio + ACA_OFFSET + ACA_SET + ISRA_ODD); } static void tr_tx(struct device *dev) { struct tok_info *ti=(struct tok_info *) dev->priv; struct trh_hdr *trhdr=(struct trh_hdr *)ti->current_skb->data; unsigned int hdr_len; __u32 dhb; unsigned char xmit_command; int i; struct trllc *llc; struct srb_xmit xsrb; __u8 dhb_page=0; __u8 llc_ssap; SET_PAGE(ti->asb_page); if (readb(ti->asb + offsetof(struct asb_xmit_resp, ret_code))!=0xFF) DPRINTK("ASB not free !!!\n"); /* in providing the transmit interrupts, is telling us it is ready for data and providing a shared memory address for us to stuff with data. Here we compute the effective address where we will place data.*/ SET_PAGE(ti->arb_page); dhb=ntohs(readw(ti->arb + offsetof(struct arb_xmit_req, dhb_address))); if (ti->page_mask) { dhb_page=(dhb >> 8) & ti->page_mask; dhb &= ~(ti->page_mask << 8); } dhb+=ti->sram; /* Figure out the size of the 802.5 header */ if (!(trhdr->saddr[0] & 0x80)) /* RIF present? */ hdr_len=sizeof(struct trh_hdr)-TR_MAXRIFLEN; else hdr_len=((ntohs(trhdr->rcf) & TR_RCF_LEN_MASK)>>8) +sizeof(struct trh_hdr)-TR_MAXRIFLEN; llc = (struct trllc *)(ti->current_skb->data + hdr_len); llc_ssap=llc->ssap; SET_PAGE(ti->srb_page); memcpy_fromio(&xsrb, ti->srb, sizeof(xsrb)); SET_PAGE(ti->asb_page); xmit_command=xsrb.command; writeb(xmit_command, ti->asb + offsetof(struct asb_xmit_resp, command)); writew(xsrb.station_id, ti->asb + offsetof(struct asb_xmit_resp, station_id)); writeb(llc_ssap, ti->asb + offsetof(struct asb_xmit_resp, rsap_value)); writeb(xsrb.cmd_corr, ti->asb + offsetof(struct asb_xmit_resp, cmd_corr)); writeb(0, ti->asb + offsetof(struct asb_xmit_resp, ret_code)); if ((xmit_command==XMIT_XID_CMD) || (xmit_command==XMIT_TEST_CMD)) { writew(htons(0x11), ti->asb + offsetof(struct asb_xmit_resp, frame_length)); writeb(0x0e, ti->asb + offsetof(struct asb_xmit_resp, hdr_length)); SET_PAGE(dhb_page); writeb(AC, dhb); writeb(LLC_FRAME, dhb+1); for (i=0; i<TR_ALEN; i++) writeb((int)0x0FF, dhb+i+2); for (i=0; i<TR_ALEN; i++) writeb(0, dhb+i+TR_ALEN+2); writeb(RESP_IN_ASB, ti->mmio + ACA_OFFSET + ACA_SET + ISRA_ODD); return; } /* * the token ring packet is copied from sk_buff to the adapter * buffer identified in the command data received with the interrupt. */ writeb(hdr_len, ti->asb + offsetof(struct asb_xmit_resp, hdr_length)); writew(htons(ti->current_skb->len), ti->asb + offsetof(struct asb_xmit_resp, frame_length)); memcpy_toio(dhb, ti->current_skb->data, ti->current_skb->len); writeb(RESP_IN_ASB, ti->mmio + ACA_OFFSET + ACA_SET + ISRA_ODD); ti->tr_stats.tx_bytes+=ti->current_skb->len; dev->tbusy=0; dev_kfree_skb(ti->current_skb); ti->current_skb=NULL; mark_bh(NET_BH); if (ti->readlog_pending) ibmtr_readlog(dev); } static void tr_rx(struct device *dev) { struct tok_info *ti=(struct tok_info *) dev->priv; __u32 rbuffer, rbufdata; __u8 rbuffer_page=0; __u32 llc; unsigned char *data; unsigned int rbuffer_len, lan_hdr_len, hdr_len, ip_len, length; struct sk_buff *skb; unsigned int skb_size = 0; int IPv4_p = 0; unsigned int chksum = 0; struct iphdr *iph; struct arb_rec_req rarb; SET_PAGE(ti->arb_page); memcpy_fromio(&rarb, ti->arb, sizeof(rarb)); rbuffer=ntohs(rarb.rec_buf_addr)+2; if (ti->page_mask) { rbuffer_page=(rbuffer >> 8) & ti->page_mask; rbuffer &= ~(ti->page_mask<<8); } rbuffer += ti->sram; SET_PAGE(ti->asb_page); if(readb(ti->asb + offsetof(struct asb_rec, ret_code))!=0xFF) DPRINTK("ASB not free !!!\n"); writeb(REC_DATA, ti->asb + offsetof(struct asb_rec, command)); writew(rarb.station_id, ti->asb + offsetof(struct asb_rec, station_id)); writew(rarb.rec_buf_addr, ti->asb + offsetof(struct asb_rec, rec_buf_addr)); lan_hdr_len=rarb.lan_hdr_len; hdr_len = lan_hdr_len + sizeof(struct trllc) + sizeof(struct iphdr); SET_PAGE(rbuffer_page); llc=(rbuffer + offsetof(struct rec_buf, data) + lan_hdr_len); #if TR_VERBOSE DPRINTK("offsetof data: %02X lan_hdr_len: %02X\n", (unsigned int)offsetof(struct rec_buf,data), (unsigned int)lan_hdr_len); DPRINTK("llc: %08X rec_buf_addr: %04X ti->sram: %lx\n", llc, ntohs(rarb.rec_buf_addr), (long)ti->sram); DPRINTK("dsap: %02X, ssap: %02X, llc: %02X, protid: %02X%02X%02X, " "ethertype: %04X\n", (int)readb(llc + offsetof(struct trllc, dsap)), (int)readb(llc + offsetof(struct trllc, ssap)), (int)readb(llc + offsetof(struct trllc, llc)), (int)readb(llc + offsetof(struct trllc, protid)), (int)readb(llc + offsetof(struct trllc, protid)+1), (int)readb(llc + offsetof(struct trllc, protid)+2), (int)readw(llc + offsetof(struct trllc, ethertype))); #endif if (readb(llc + offsetof(struct trllc, llc))!=UI_CMD) { SET_PAGE(ti->asb_page); writeb(DATA_LOST, ti->asb + offsetof(struct asb_rec, ret_code)); ti->tr_stats.rx_dropped++; writeb(RESP_IN_ASB, ti->mmio + ACA_OFFSET + ACA_SET + ISRA_ODD); return; } length = ntohs(rarb.frame_len); if ((readb(llc + offsetof(struct trllc, dsap))==EXTENDED_SAP) && (readb(llc + offsetof(struct trllc, ssap))==EXTENDED_SAP) && (length>=hdr_len)) { IPv4_p = 1; } #if TR_VERBOSE if (!IPv4_p){ __u32 trhhdr; trhhdr=(rbuffer+offsetof(struct rec_buf,data)); DPRINTK("Probably non-IP frame received.\n"); DPRINTK("ssap: %02X dsap: %02X saddr: %02X:%02X:%02X:%02X:%02X:%02X " "daddr: %02X:%02X:%02X:%02X:%02X:%02X\n", (int)readb(llc + offsetof(struct trllc, ssap)), (int)readb(llc + offsetof(struct trllc, dsap)), (int)readb(trhhdr + offsetof(struct trh_hdr, saddr)), (int)readb(trhhdr + offsetof(struct trh_hdr, saddr)+1), (int)readb(trhhdr + offsetof(struct trh_hdr, saddr)+2), (int)readb(trhhdr + offsetof(struct trh_hdr, saddr)+3), (int)readb(trhhdr + offsetof(struct trh_hdr, saddr)+4), (int)readb(trhhdr + offsetof(struct trh_hdr, saddr)+5), (int)readb(trhhdr + offsetof(struct trh_hdr, daddr)), (int)readb(trhhdr + offsetof(struct trh_hdr, daddr)+1), (int)readb(trhhdr + offsetof(struct trh_hdr, daddr)+2), (int)readb(trhhdr + offsetof(struct trh_hdr, daddr)+3), (int)readb(trhhdr + offsetof(struct trh_hdr, daddr)+4), (int)readb(trhhdr + offsetof(struct trh_hdr, daddr)+5)); } #endif skb_size = length; if (!(skb=dev_alloc_skb(skb_size))) { DPRINTK("out of memory. frame dropped.\n"); ti->tr_stats.rx_dropped++; writeb(DATA_LOST, ti->asb + offsetof(struct asb_rec, ret_code)); writeb(RESP_IN_ASB, ti->mmio + ACA_OFFSET + ACA_SET + ISRA_ODD); return; } skb_put(skb, length); skb_reserve(skb, sizeof(struct trh_hdr)-lan_hdr_len+sizeof(struct trllc)); skb->dev=dev; data=skb->data; rbuffer_len=ntohs(readw(rbuffer + offsetof(struct rec_buf, buf_len))); rbufdata = rbuffer + offsetof(struct rec_buf,data); if (IPv4_p) { /* Copy the headers without checksumming */ memcpy_fromio(data, rbufdata, hdr_len); /* Watch for padded packets and bogons */ iph=(struct iphdr*)(data + lan_hdr_len + sizeof(struct trllc)); ip_len = ntohs(iph->tot_len) - sizeof(struct iphdr); length -= hdr_len; if ((ip_len <= length) && (ip_len > 7)) length = ip_len; data += hdr_len; rbuffer_len -= hdr_len; rbufdata += hdr_len; } /* Copy the payload... */ for (;;) { if (IPv4_p) chksum = csum_partial_copy(bus_to_virt(rbufdata), data, length < rbuffer_len ? length : rbuffer_len, chksum); else memcpy_fromio(data, rbufdata, rbuffer_len); rbuffer = ntohs(readw(rbuffer)); if (!rbuffer) break; length -= rbuffer_len; data += rbuffer_len; if (ti->page_mask) { rbuffer_page=(rbuffer>>8) & ti->page_mask; rbuffer &= ~(ti->page_mask << 8); } rbuffer += ti->sram; SET_PAGE(rbuffer_page); rbuffer_len = ntohs(readw(rbuffer + offsetof(struct rec_buf, buf_len))); rbufdata = rbuffer + offsetof(struct rec_buf, data); } SET_PAGE(ti->asb_page); writeb(0, ti->asb + offsetof(struct asb_rec, ret_code)); writeb(RESP_IN_ASB, ti->mmio + ACA_OFFSET + ACA_SET + ISRA_ODD); ti->tr_stats.rx_bytes += skb->len; ti->tr_stats.rx_packets++; skb->protocol = tr_type_trans(skb,dev); if (IPv4_p){ skb->csum = chksum; skb->ip_summed = 1; } netif_rx(skb); } static int tok_send_packet(struct sk_buff *skb, struct device *dev) { struct tok_info *ti; ti=(struct tok_info *) dev->priv; if (dev->tbusy) { int ticks_waited; ticks_waited=jiffies - dev->trans_start; if (ticks_waited<TR_BUSY_INTERVAL) return 1; DPRINTK("Arrg. Transmitter busy.\n"); dev->trans_start+=5; /* we fake the transmission start time... */ return 1; } if (test_and_set_bit(0,(void *)&dev->tbusy)!=0) DPRINTK("Transmitter access conflict\n"); else { int flags; /* lock against other CPUs */ spin_lock_irqsave(&(ti->lock), flags); /* Save skb; we'll need it when the adapter asks for the data */ ti->current_skb=skb; SET_PAGE(ti->srb_page); writeb(XMIT_UI_FRAME, ti->srb + offsetof(struct srb_xmit, command)); writew(ti->exsap_station_id, ti->srb +offsetof(struct srb_xmit, station_id)); writeb(CMD_IN_SRB, (ti->mmio + ACA_OFFSET + ACA_SET + ISRA_ODD)); spin_unlock_irqrestore(&(ti->lock), flags); dev->trans_start=jiffies; } return 0; } void ibmtr_reset_timer(struct timer_list *tmr, struct device *dev) { tmr->expires = jiffies + TR_RETRY_INTERVAL; tmr->data = (unsigned long) dev; tmr->function = tok_open_adapter; init_timer(tmr); add_timer(tmr); } void ibmtr_readlog(struct device *dev) { struct tok_info *ti; ti=(struct tok_info *) dev->priv; ti->readlog_pending = 0; SET_PAGE(ti->srb_page); writeb(DIR_READ_LOG, ti->srb); writeb(INT_ENABLE, ti->mmio + ACA_OFFSET + ACA_SET + ISRP_EVEN); writeb(CMD_IN_SRB, ti->mmio + ACA_OFFSET + ACA_SET + ISRA_ODD); dev->tbusy=1; /* really srb busy... */ } /* tok_get_stats(): Basically a scaffold routine which will return the address of the tr_statistics structure associated with this device -- the tr.... structure is an ethnet look-alike so at least for this iteration may suffice. */ static struct net_device_stats * tok_get_stats(struct device *dev) { struct tok_info *toki; toki=(struct tok_info *) dev->priv; return (struct net_device_stats *) &toki->tr_stats; } int ibmtr_change_mtu(struct device *dev, int mtu) { struct tok_info *ti = (struct tok_info *) dev->priv; if (ti->ring_speed == 16 && mtu > ti->maxmtu16) return -EINVAL; if (ti->ring_speed == 4 && mtu > ti->maxmtu4) return -EINVAL; dev->mtu = mtu; return 0; } #ifdef MODULE /* 3COM 3C619C supports 8 interrupts, 32 I/O ports */ static struct device* dev_ibmtr[IBMTR_MAX_ADAPTERS]; static int io[IBMTR_MAX_ADAPTERS] = {0xa20,0xa24}; static int irq[IBMTR_MAX_ADAPTERS] = {0,0}; static int mem[IBMTR_MAX_ADAPTERS] = {0,0}; MODULE_PARM(io, "1-" __MODULE_STRING(IBMTR_MAX_ADAPTERS) "i"); MODULE_PARM(irq, "1-" __MODULE_STRING(IBMTR_MAX_ADAPTERS) "i"); MODULE_PARM(mem, "1-" __MODULE_STRING(IBMTR_MAX_ADAPTERS) "i"); int init_module(void) { int i; for (i = 0; io[i] && (i<IBMTR_MAX_ADAPTERS); i++) { irq[i] = 0; mem[i] = 0; dev_ibmtr[i] = NULL; dev_ibmtr[i] = init_trdev(dev_ibmtr[i], 0); if (dev_ibmtr[i] == NULL) return -ENOMEM; dev_ibmtr[i]->base_addr = io[i]; dev_ibmtr[i]->irq = irq[i]; dev_ibmtr[i]->mem_start = mem[i]; dev_ibmtr[i]->init = &ibmtr_probe; if (register_trdev(dev_ibmtr[i]) != 0) { kfree_s(dev_ibmtr[i], sizeof(struct device)); dev_ibmtr[i] = NULL; if (i == 0) { printk("ibmtr: register_trdev() returned non-zero.\n"); return -EIO; } else { return 0; } } } return 0; } void cleanup_module(void) { int i; for (i = 0; i < IBMTR_MAX_ADAPTERS; i++) if (dev_ibmtr[i]) { unregister_trdev(dev_ibmtr[i]); free_irq(dev_ibmtr[i]->irq, dev_ibmtr[i]); release_region(dev_ibmtr[i]->base_addr, IBMTR_IO_EXTENT); kfree_s(dev_ibmtr[i]->priv, sizeof(struct tok_info)); kfree_s(dev_ibmtr[i], sizeof(struct device)); dev_ibmtr[i] = NULL; } } #endif /* MODULE */ |