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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [libchip/] [network/] [dec21140.c] - Rev 507
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/* * RTEMS driver for TULIP based Ethernet Controller * * Copyright (C) 1999 Emmanuel Raguet. raguet@crf.canon.fr * * The license and distribution terms for this file may be * found in found in the file LICENSE in this distribution or at * http://www.OARcorp.com/rtems/license.html. * * $Id: dec21140.c,v 1.2 2001-09-27 12:01:41 chris Exp $ * * ------------------------------------------------------------------------ * [22.05.2000,StWi/CWA] added support for the DEC/Intel 21143 chip * * The 21143 support is (for now) only available for the __i386 target, * because that's the only testing platform I have. It should (to my best * knowledge) work in the same way for the "__PPC" target, but someone * should test this first before it's put into the code. Thanks go to * Andrew Klossner who provided the vital information about the * Intel 21143 chip. * (FWIW: I tested this driver using a Kingston KNE100TX with 21143PD chip) * * The driver will automatically detect whether there is a 21140 or 21143 * network card in the system and activate support accordingly. It will * look for the 21140 first. If the 21140 is not found the driver will * look for the 21143. * ------------------------------------------------------------------------ */ #include <rtems.h> /* * This driver only supports architectures with the new style * exception processing. The following checks try to keep this * from being compiled on systems which can't support this driver. */ #if defined(__i386) #define DEC21140_SUPPORTED #endif #if defined(__PPC) && (defined(mpc604) || defined(mpc750)) #define DEC21140_SUPPORTED #endif #if defined(DEC21140_SUPPORTED) #include <bsp.h> #if defined(i386) #include <pcibios.h> #endif #if defined(__PPC) #include <bsp/pci.h> #include <libcpu/byteorder.h> #include <libcpu/io.h> #endif #include <stdlib.h> #include <stdio.h> #include <stdarg.h> #include <rtems/error.h> #include <rtems/rtems_bsdnet.h> #include <libcpu/cpu.h> #include <sys/param.h> #include <sys/mbuf.h> #include <sys/socket.h> #include <sys/sockio.h> #include <net/if.h> #include <netinet/in.h> #include <netinet/if_ether.h> #if defined(i386) #include <irq.h> #endif #if defined(__PPC) #include <bsp/irq.h> #endif #ifdef malloc #undef malloc #endif #ifdef free #undef free #endif #define DEC_DEBUG /* note: the 21143 isn't really a DEC, it's an Intel chip */ #define PCI_INVALID_VENDORDEVICEID 0xffffffff #define PCI_VENDOR_ID_DEC 0x1011 #define PCI_DEVICE_ID_DEC_21140 0x0009 #define PCI_DEVICE_ID_DEC_21143 0x0019 #define IO_MASK 0x3 #define MEM_MASK 0xF /* command and status registers, 32-bit access, only if IO-ACCESS */ #define ioCSR0 0x00 /* bus mode register */ #define ioCSR1 0x08 /* transmit poll demand */ #define ioCSR2 0x10 /* receive poll demand */ #define ioCSR3 0x18 /* receive list base address */ #define ioCSR4 0x20 /* transmit list base address */ #define ioCSR5 0x28 /* status register */ #define ioCSR6 0x30 /* operation mode register */ #define ioCSR7 0x38 /* interrupt mask register */ #define ioCSR8 0x40 /* missed frame counter */ #define ioCSR9 0x48 /* Ethernet ROM register */ #define ioCSR10 0x50 /* reserved */ #define ioCSR11 0x58 /* full-duplex register */ #define ioCSR12 0x60 /* SIA status register */ #define ioCSR13 0x68 #define ioCSR14 0x70 #define ioCSR15 0x78 /* SIA general register */ /* command and status registers, 32-bit access, only if MEMORY-ACCESS */ #define memCSR0 0x00 /* bus mode register */ #define memCSR1 0x02 /* transmit poll demand */ #define memCSR2 0x04 /* receive poll demand */ #define memCSR3 0x06 /* receive list base address */ #define memCSR4 0x08 /* transmit list base address */ #define memCSR5 0x0A /* status register */ #define memCSR6 0x0C /* operation mode register */ #define memCSR7 0x0E /* interrupt mask register */ #define memCSR8 0x10 /* missed frame counter */ #define memCSR9 0x12 /* Ethernet ROM register */ #define memCSR10 0x14 /* reserved */ #define memCSR11 0x16 /* full-duplex register */ #define memCSR12 0x18 /* SIA status register */ #define memCSR13 0x1A #define memCSR14 0x1C #define memCSR15 0x1E /* SIA general register */ #define DEC_REGISTER_SIZE 0x100 /* to reserve virtual memory */ #define RESET_CHIP 0x00000001 #if defined(__PPC) #define CSR0_MODE 0x0030e002 /* 01b08000 */ #else #define CSR0_MODE 0x0020e002 /* 01b08000 */ #endif #define ROM_ADDRESS 0x00004800 #define CSR6_INIT 0x022cc000 /* 022c0000 020c0000 */ #define CSR6_TX 0x00002000 #define CSR6_TXRX 0x00002002 #define IT_SETUP 0x000100c0 /* 000100e0 */ #define CLEAR_IT 0xFFFFFFFF #define NO_IT 0x00000000 #define NRXBUFS 32 /* number of receive buffers */ #define NTXBUFS 16 /* number of transmit buffers */ /* message descriptor entry */ struct MD { /* used by hardware */ volatile unsigned32 status; volatile unsigned32 counts; unsigned32 buf1, buf2; /* used by software */ volatile struct mbuf *m; volatile struct MD *next; }; /* * Number of DECs supported by this driver */ #define NDECDRIVER 1 /* * Receive buffer size -- Allow for a full ethernet packet including CRC */ #define RBUF_SIZE 1536 #define ET_MINLEN 60 /* minimum message length */ /* * RTEMS event used by interrupt handler to signal driver tasks. * This must not be any of the events used by the network task synchronization. */ #define INTERRUPT_EVENT RTEMS_EVENT_1 /* * RTEMS event used to start transmit daemon. * This must not be the same as INTERRUPT_EVENT. */ #define START_TRANSMIT_EVENT RTEMS_EVENT_2 #if defined(__PPC) #define phys_to_bus(address) ((unsigned int)((address)) + PREP_PCI_DRAM_OFFSET) #define bus_to_phys(address) ((unsigned int)((address)) - PREP_PCI_DRAM_OFFSET) #define CPU_CACHE_ALIGNMENT_FOR_BUFFER PPC_CACHE_ALIGNMENT #else extern void Wait_X_ms( unsigned int timeToWait ); #define phys_to_bus(address) ((unsigned int) ((address))) #define bus_to_phys(address) ((unsigned int) ((address))) #define delay_in_bus_cycles(cycle) Wait_X_ms( cycle/100 ) #define CPU_CACHE_ALIGNMENT_FOR_BUFFER PG_SIZE inline void st_le32(volatile unsigned32 *addr, unsigned32 value) { *(addr)=value ; } inline unsigned32 ld_le32(volatile unsigned32 *addr) { return(*addr); } #endif #if (MCLBYTES < RBUF_SIZE) # error "Driver must have MCLBYTES > RBUF_SIZE" #endif /* * Per-device data */ struct dec21140_softc { struct arpcom arpcom; rtems_irq_connect_data irqInfo; volatile struct MD *MDbase; volatile unsigned char *bufferBase; int acceptBroadcast; rtems_id rxDaemonTid; rtems_id txDaemonTid; volatile struct MD *TxMD; volatile struct MD *SentTxMD; int PendingTxCount; int TxSuspended; unsigned int port; volatile unsigned int *base; /* * Statistics */ unsigned long rxInterrupts; unsigned long rxNotFirst; unsigned long rxNotLast; unsigned long rxGiant; unsigned long rxNonOctet; unsigned long rxRunt; unsigned long rxBadCRC; unsigned long rxOverrun; unsigned long rxCollision; unsigned long txInterrupts; unsigned long txDeferred; unsigned long txHeartbeat; unsigned long txLateCollision; unsigned long txRetryLimit; unsigned long txUnderrun; unsigned long txLostCarrier; unsigned long txRawWait; }; static struct dec21140_softc dec21140_softc[NDECDRIVER]; /* * DEC21140 interrupt handler */ static rtems_isr dec21140Enet_interrupt_handler (rtems_vector_number v) { volatile unsigned32 *tbase; unsigned32 status; struct dec21140_softc *sc; sc = &dec21140_softc[0]; tbase = (unsigned32 *)(sc->base) ; /* * Read status */ status = ld_le32(tbase+memCSR5); st_le32((tbase+memCSR5), status); /* clear the bits we've read */ /* * Frame received? */ if (status & 0x000000c0){ sc->rxInterrupts++; rtems_event_send (sc->rxDaemonTid, INTERRUPT_EVENT); } } static void nopOn(const rtems_irq_connect_data* notUsed) { /* * code should be moved from dec21140Enet_initialize_hardware * to this location */ } static int dec21140IsOn(const rtems_irq_connect_data* irq) { return BSP_irq_enabled_at_i8259s (irq->name); } /* * This routine reads a word (16 bits) from the serial EEPROM. */ /* EEPROM_Ctrl bits. */ #define EE_SHIFT_CLK 0x02 /* EEPROM shift clock. */ #define EE_CS 0x01 /* EEPROM chip select. */ #define EE_DATA_WRITE 0x04 /* EEPROM chip data in. */ #define EE_WRITE_0 0x01 #define EE_WRITE_1 0x05 #define EE_DATA_READ 0x08 /* EEPROM chip data out. */ #define EE_ENB (0x4800 | EE_CS) /* The EEPROM commands include the alway-set leading bit. */ #define EE_WRITE_CMD (5 << 6) #define EE_READ_CMD (6 << 6) #define EE_ERASE_CMD (7 << 6) static int eeget16(volatile unsigned int *ioaddr, int location) { int i; unsigned short retval = 0; int read_cmd = location | EE_READ_CMD; st_le32(ioaddr, EE_ENB & ~EE_CS); st_le32(ioaddr, EE_ENB); /* Shift the read command bits out. */ for (i = 10; i >= 0; i--) { short dataval = (read_cmd & (1 << i)) ? EE_DATA_WRITE : 0; st_le32(ioaddr, EE_ENB | dataval); delay_in_bus_cycles(200); st_le32(ioaddr, EE_ENB | dataval | EE_SHIFT_CLK); delay_in_bus_cycles(200); st_le32(ioaddr, EE_ENB | dataval); /* Finish EEPROM a clock tick. */ delay_in_bus_cycles(200); } st_le32(ioaddr, EE_ENB); for (i = 16; i > 0; i--) { st_le32(ioaddr, EE_ENB | EE_SHIFT_CLK); delay_in_bus_cycles(200); retval = (retval << 1) | ((ld_le32(ioaddr) & EE_DATA_READ) ? 1 : 0); st_le32(ioaddr, EE_ENB); delay_in_bus_cycles(200); } /* Terminate the EEPROM access. */ st_le32(ioaddr, EE_ENB & ~EE_CS); return ( ((retval<<8)&0xff00) | ((retval>>8)&0xff) ); } /* * Initialize the ethernet hardware */ static void dec21140Enet_initialize_hardware (struct dec21140_softc *sc) { rtems_status_code st; volatile unsigned int *tbase; int i; volatile unsigned char *cp, *setup_frm, *eaddrs; volatile unsigned char *buffer; volatile struct MD *rmd; tbase = sc->base; /* * WARNING : First write in CSR6 * Then Reset the chip ( 1 in CSR0) */ st_le32( (tbase+memCSR6), CSR6_INIT); st_le32( (tbase+memCSR0), RESET_CHIP); delay_in_bus_cycles(200); /* * Init CSR0 */ st_le32( (tbase+memCSR0), CSR0_MODE); #ifdef DEC_DEBUG printk("DC2114x %x:%x:%x:%x:%x:%x IRQ %d IO %x M %x .........\n", sc->arpcom.ac_enaddr[0], sc->arpcom.ac_enaddr[1], sc->arpcom.ac_enaddr[2], sc->arpcom.ac_enaddr[3], sc->arpcom.ac_enaddr[4], sc->arpcom.ac_enaddr[5], sc->irqInfo.name, sc->port, (unsigned) sc->base); #endif /* * Init RX ring */ cp = (volatile unsigned char *)malloc(((NRXBUFS+NTXBUFS)*sizeof(struct MD)) + (NTXBUFS*RBUF_SIZE) + CPU_CACHE_ALIGNMENT_FOR_BUFFER); sc->bufferBase = cp; cp += (CPU_CACHE_ALIGNMENT_FOR_BUFFER - (int)cp) & (CPU_CACHE_ALIGNMENT_FOR_BUFFER - 1); #if defined(__i386) #ifdef PCI_BRIDGE_DOES_NOT_ENSURE_CACHE_COHERENCY_FOR_DMA if (_CPU_is_paging_enabled()) _CPU_change_memory_mapping_attribute (NULL, cp, ((NRXBUFS+NTXBUFS)*sizeof(struct MD)) + (NTXBUFS*RBUF_SIZE), PTE_CACHE_DISABLE | PTE_WRITABLE); #endif #endif rmd = (volatile struct MD*)cp; sc->MDbase = rmd; buffer = cp + ((NRXBUFS+NTXBUFS)*sizeof(struct MD)); st_le32( (tbase+memCSR3), (long)(phys_to_bus((long)(sc->MDbase)))); for (i=0 ; i<NRXBUFS; i++){ struct mbuf *m; /* allocate an mbuf for each receive descriptor */ MGETHDR (m, M_WAIT, MT_DATA); MCLGET (m, M_WAIT); m->m_pkthdr.rcvif = &sc->arpcom.ac_if; rmd->m = m; rmd->buf2 = phys_to_bus(rmd+1); rmd->buf1 = phys_to_bus(mtod(m, void *)); rmd->counts = 0xfdc00000 | (RBUF_SIZE); rmd->status = 0x80000000; rmd->next = rmd + 1; rmd++; } /* * mark last RX buffer. */ sc->MDbase [NRXBUFS-1].counts = 0xfec00000 | (RBUF_SIZE); sc->MDbase [NRXBUFS-1].next = sc->MDbase; /* * Init TX ring */ st_le32( (tbase+memCSR4), (long)(phys_to_bus((long)(rmd))) ); for (i=0 ; i<NTXBUFS; i++){ (rmd+i)->buf2 = phys_to_bus(rmd+i+1); (rmd+i)->buf1 = phys_to_bus(buffer + (i*RBUF_SIZE)); (rmd+i)->counts = 0x01000000; (rmd+i)->status = 0x0; (rmd+i)->next = rmd+i+1; (rmd+i)->m = 0; } /* * mark last TX buffer. */ (rmd+NTXBUFS-1)->buf2 = phys_to_bus(rmd); (rmd+NTXBUFS-1)->next = rmd; /* * Set up interrupts */ sc->irqInfo.hdl = (rtems_irq_hdl)dec21140Enet_interrupt_handler; sc->irqInfo.on = nopOn; sc->irqInfo.off = nopOn; sc->irqInfo.isOn = dec21140IsOn; st = BSP_install_rtems_irq_handler (&sc->irqInfo); if (!st) rtems_panic ("Can't attach DEC21140 interrupt handler for irq %d\n", sc->irqInfo.name); st_le32( (tbase+memCSR7), NO_IT); /* * Build setup frame */ setup_frm = (volatile unsigned char *)(bus_to_phys(rmd->buf1)); eaddrs = (char *)(sc->arpcom.ac_enaddr); /* Fill the buffer with our physical address. */ for (i = 1; i < 16; i++) { *setup_frm++ = eaddrs[0]; *setup_frm++ = eaddrs[1]; *setup_frm++ = eaddrs[0]; *setup_frm++ = eaddrs[1]; *setup_frm++ = eaddrs[2]; *setup_frm++ = eaddrs[3]; *setup_frm++ = eaddrs[2]; *setup_frm++ = eaddrs[3]; *setup_frm++ = eaddrs[4]; *setup_frm++ = eaddrs[5]; *setup_frm++ = eaddrs[4]; *setup_frm++ = eaddrs[5]; } /* Add the broadcast address when doing perfect filtering */ memset((void*) setup_frm, 0xff, 12); rmd->counts = 0x09000000 | 192 ; rmd->status = 0x80000000; st_le32( (tbase+memCSR6), CSR6_INIT | CSR6_TX); st_le32( (tbase+memCSR1), 1); while (rmd->status != 0x7fffffff); rmd->counts = 0x01000000; sc->TxMD = rmd+1; /* * Enable RX and TX */ st_le32( (tbase+memCSR5), IT_SETUP); st_le32( (tbase+memCSR7), IT_SETUP); st_le32( (unsigned int*)(tbase+memCSR6), CSR6_INIT | CSR6_TXRX); } static void dec21140_rxDaemon (void *arg) { volatile unsigned int *tbase; struct ether_header *eh; struct dec21140_softc *dp = (struct dec21140_softc *)&dec21140_softc[0]; struct ifnet *ifp = &dp->arpcom.ac_if; struct mbuf *m; volatile struct MD *rmd; unsigned int len; rtems_event_set events; tbase = dec21140_softc[0].base ; rmd = dec21140_softc[0].MDbase; for (;;){ rtems_bsdnet_event_receive (INTERRUPT_EVENT, RTEMS_WAIT|RTEMS_EVENT_ANY, RTEMS_NO_TIMEOUT, &events); while((rmd->status & 0x80000000) == 0){ /* pass on the packet in the mbuf */ len = (rmd->status >> 16) & 0x7ff; m = (struct mbuf *)(rmd->m); m->m_len = m->m_pkthdr.len = len - sizeof(struct ether_header); eh = mtod (m, struct ether_header *); m->m_data += sizeof(struct ether_header); ether_input (ifp, eh, m); /* get a new mbuf for the 21140 */ MGETHDR (m, M_WAIT, MT_DATA); MCLGET (m, M_WAIT); m->m_pkthdr.rcvif = ifp; rmd->m = m; rmd->buf1 = phys_to_bus(mtod(m, void *)); rmd->status = 0x80000000; rmd=rmd->next; } } } static void sendpacket (struct ifnet *ifp, struct mbuf *m) { struct dec21140_softc *dp = ifp->if_softc; volatile struct MD *tmd; volatile unsigned char *temp; struct mbuf *n; unsigned int len; volatile unsigned int *tbase; tbase = dp->base; /* * Waiting for Transmitter ready */ tmd = dec21140_softc[0].TxMD; n = m; while ((tmd->status & 0x80000000) != 0){ tmd=tmd->next; } len = 0; temp = (volatile unsigned char *)(bus_to_phys(tmd->buf1)); for (;;){ len += m->m_len; memcpy((void*) temp, (char *)m->m_data, m->m_len); temp += m->m_len ; if ((m = m->m_next) == NULL) break; } if (len < ET_MINLEN) len = ET_MINLEN; tmd->counts = 0xe1000000 | (len & 0x7ff); tmd->status = 0x80000000; st_le32( (tbase+memCSR1), 0x1); m_freem(n); dec21140_softc[0].TxMD = tmd->next; } /* * Driver transmit daemon */ void dec21140_txDaemon (void *arg) { struct dec21140_softc *sc = (struct dec21140_softc *)arg; struct ifnet *ifp = &sc->arpcom.ac_if; struct mbuf *m; rtems_event_set events; for (;;) { /* * Wait for packet */ rtems_bsdnet_event_receive (START_TRANSMIT_EVENT, RTEMS_EVENT_ANY | RTEMS_WAIT, RTEMS_NO_TIMEOUT, &events); /* * Send packets till queue is empty */ for (;;) { /* * Get the next mbuf chain to transmit. */ IF_DEQUEUE(&ifp->if_snd, m); if (!m) break; sendpacket (ifp, m); } ifp->if_flags &= ~IFF_OACTIVE; } } static void dec21140_start (struct ifnet *ifp) { struct dec21140_softc *sc = ifp->if_softc; rtems_event_send (sc->txDaemonTid, START_TRANSMIT_EVENT); ifp->if_flags |= IFF_OACTIVE; } /* * Initialize and start the device */ static void dec21140_init (void *arg) { struct dec21140_softc *sc = arg; struct ifnet *ifp = &sc->arpcom.ac_if; if (sc->txDaemonTid == 0) { /* * Set up DEC21140 hardware */ dec21140Enet_initialize_hardware (sc); /* * Start driver tasks */ sc->rxDaemonTid = rtems_bsdnet_newproc ("DCrx", 4096, dec21140_rxDaemon, sc); sc->txDaemonTid = rtems_bsdnet_newproc ("DCtx", 4096, dec21140_txDaemon, sc); } /* * Tell the world that we're running. */ ifp->if_flags |= IFF_RUNNING; } /* * Stop the device */ static void dec21140_stop (struct dec21140_softc *sc) { volatile unsigned int *tbase; struct ifnet *ifp = &sc->arpcom.ac_if; ifp->if_flags &= ~IFF_RUNNING; /* * Stop the transmitter */ tbase=dec21140_softc[0].base ; st_le32( (tbase+memCSR7), NO_IT); st_le32( (tbase+memCSR6), CSR6_INIT); free((void*)sc->bufferBase); } /* * Show interface statistics */ static void dec21140_stats (struct dec21140_softc *sc) { printf (" Rx Interrupts:%-8lu", sc->rxInterrupts); printf (" Not First:%-8lu", sc->rxNotFirst); printf (" Not Last:%-8lu\n", sc->rxNotLast); printf (" Giant:%-8lu", sc->rxGiant); printf (" Runt:%-8lu", sc->rxRunt); printf (" Non-octet:%-8lu\n", sc->rxNonOctet); printf (" Bad CRC:%-8lu", sc->rxBadCRC); printf (" Overrun:%-8lu", sc->rxOverrun); printf (" Collision:%-8lu\n", sc->rxCollision); printf (" Tx Interrupts:%-8lu", sc->txInterrupts); printf (" Deferred:%-8lu", sc->txDeferred); printf (" Missed Hearbeat:%-8lu\n", sc->txHeartbeat); printf (" No Carrier:%-8lu", sc->txLostCarrier); printf ("Retransmit Limit:%-8lu", sc->txRetryLimit); printf (" Late Collision:%-8lu\n", sc->txLateCollision); printf (" Underrun:%-8lu", sc->txUnderrun); printf (" Raw output wait:%-8lu\n", sc->txRawWait); } /* * Driver ioctl handler */ static int dec21140_ioctl (struct ifnet *ifp, int command, caddr_t data) { struct dec21140_softc *sc = ifp->if_softc; int error = 0; switch (command) { case SIOCGIFADDR: case SIOCSIFADDR: ether_ioctl (ifp, command, data); break; case SIOCSIFFLAGS: switch (ifp->if_flags & (IFF_UP | IFF_RUNNING)) { case IFF_RUNNING: dec21140_stop (sc); break; case IFF_UP: dec21140_init (sc); break; case IFF_UP | IFF_RUNNING: dec21140_stop (sc); dec21140_init (sc); break; default: break; } break; case SIO_RTEMS_SHOW_STATS: dec21140_stats (sc); break; /* * FIXME: All sorts of multicast commands need to be added here! */ default: error = EINVAL; break; } return error; } /* * Attach an DEC21140 driver to the system */ int rtems_dec21140_driver_attach (struct rtems_bsdnet_ifconfig *config) { struct dec21140_softc *sc; struct ifnet *ifp; int mtu; int i; int deviceId = PCI_DEVICE_ID_DEC_21140; /* network card device ID */ /* * First, find a DEC board */ #if defined(__i386) int signature; int value; char interrupt; int diag; if (pcib_init() == PCIB_ERR_NOTPRESENT) rtems_panic("PCI BIOS not found !!"); /* * Try to find the network card on the PCI bus. Probe for a DEC 21140 * card first. If not found probe the bus for a DEC/Intel 21143 card. */ deviceId = PCI_DEVICE_ID_DEC_21140; diag = pcib_find_by_devid( PCI_VENDOR_ID_DEC, deviceId, 0, &signature); if ( diag == PCIB_ERR_SUCCESS) printk( "DEC 21140 PCI network card found\n" ); else { deviceId = PCI_DEVICE_ID_DEC_21143; diag = pcib_find_by_devid( PCI_VENDOR_ID_DEC, deviceId, 0, &signature); if ( diag == PCIB_ERR_SUCCESS) printk( "DEC/Intel 21143 PCI network card found\n" ); else rtems_panic("DEC PCI network card not found !!\n"); } #endif #if defined(__PPC) unsigned char ucSlotNumber, ucFnNumber; unsigned int ulDeviceID, lvalue, tmp; unsigned char cvalue; for(ucSlotNumber=0;ucSlotNumber<PCI_MAX_DEVICES;ucSlotNumber++) { for(ucFnNumber=0;ucFnNumber<PCI_MAX_FUNCTIONS;ucFnNumber++) { (void)pci_read_config_dword(0, ucSlotNumber, ucFnNumber, PCI_VENDOR_ID, &ulDeviceID); if(ulDeviceID==PCI_INVALID_VENDORDEVICEID) { /* * This slot is empty */ continue; } if (ulDeviceID == ((PCI_DEVICE_ID_DEC_21140<<16) + PCI_VENDOR_ID_DEC)) break; } if (ulDeviceID == ((PCI_DEVICE_ID_DEC_21140<<16) + PCI_VENDOR_ID_DEC)){ printk("DEC Adapter found !!\n"); break; } } if(ulDeviceID==PCI_INVALID_VENDORDEVICEID) rtems_panic("DEC PCI board not found !!\n"); #endif /* * Find a free driver */ for (i = 0 ; i < NDECDRIVER ; i++) { sc = &dec21140_softc[i]; ifp = &sc->arpcom.ac_if; if (ifp->if_softc == NULL) break; } if (i >= NDECDRIVER) { printk ("Too many DEC drivers.\n"); return 0; } /* * Process options */ #if defined(__i386) /* the 21143 chip must be enabled before it can be accessed */ if ( deviceId == PCI_DEVICE_ID_DEC_21143 ) pcib_conf_write32( signature, 0x40, 0 ); pcib_conf_read32(signature, 16, &value); sc->port = value & ~IO_MASK; pcib_conf_read32(signature, 20, &value); if (_CPU_is_paging_enabled()) _CPU_map_phys_address((void **) &(sc->base), (void *)(value & ~MEM_MASK), DEC_REGISTER_SIZE , PTE_CACHE_DISABLE | PTE_WRITABLE); else sc->base = (unsigned int *)(value & ~MEM_MASK); pcib_conf_read8(signature, 60, &interrupt); sc->irqInfo.name = (rtems_irq_symbolic_name)interrupt; #endif #if defined(__PPC) (void)pci_read_config_dword(0, ucSlotNumber, ucFnNumber, PCI_BASE_ADDRESS_0, &lvalue); sc->port = lvalue & (unsigned int)(~IO_MASK); (void)pci_read_config_dword(0, ucSlotNumber, ucFnNumber, PCI_BASE_ADDRESS_1 , &lvalue); tmp = (unsigned int)(lvalue & (unsigned int)(~MEM_MASK)) + (unsigned int)PREP_ISA_MEM_BASE; sc->base = (unsigned int *)(tmp); (void)pci_read_config_byte(0, ucSlotNumber, ucFnNumber, PCI_INTERRUPT_LINE, &cvalue); sc->irqInfo.name = (rtems_irq_symbolic_name)cvalue; #endif if (config->hardware_address) { memcpy (sc->arpcom.ac_enaddr, config->hardware_address, ETHER_ADDR_LEN); } else { union {char c[64]; unsigned short s[32];} rombuf; int i; for (i=0; i<32; i++){ rombuf.s[i] = eeget16(sc->base+memCSR9, i); } #if defined(__i386) for (i=0 ; i<(ETHER_ADDR_LEN/2); i++){ sc->arpcom.ac_enaddr[2*i] = rombuf.c[20+2*i+1]; sc->arpcom.ac_enaddr[2*i+1] = rombuf.c[20+2*i]; } #endif #if defined(__PPC) memcpy (sc->arpcom.ac_enaddr, rombuf.c+20, ETHER_ADDR_LEN); #endif } if (config->mtu) mtu = config->mtu; else mtu = ETHERMTU; sc->acceptBroadcast = !config->ignore_broadcast; /* * Set up network interface values */ ifp->if_softc = sc; ifp->if_unit = i + 1; ifp->if_name = "dc"; ifp->if_mtu = mtu; ifp->if_init = dec21140_init; ifp->if_ioctl = dec21140_ioctl; ifp->if_start = dec21140_start; ifp->if_output = ether_output; ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX; if (ifp->if_snd.ifq_maxlen == 0) ifp->if_snd.ifq_maxlen = ifqmaxlen; /* * Attach the interface */ if_attach (ifp); ether_ifattach (ifp); printk( "DC2114x : driver has been attached\n" ); return 1; }; #endif /* DEC21140_SUPPORTED */
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