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2002, 2003, 2005, 2006 Maciej W. Rozycki * * additional sources: * - PMAD-AA TURBOchannel Ethernet Module Functional Specification, * Revision 1.2 * * History: * * v0.001: The kernel accepts the code and it shows the hardware address. * * v0.002: Removed most sparc stuff, left only some module and dma stuff. * * v0.003: Enhanced base address calculation from proposals by * Harald Koerfgen and Thomas Riemer. * * v0.004: lance-regs is pointing at the right addresses, added prom * check. First start of address mapping and DMA. * * v0.005: started to play around with LANCE-DMA. This driver will not * work for non IOASIC lances. HK * * v0.006: added pointer arrays to lance_private and setup routine for * them in dec_lance_init. HK * * v0.007: Big shit. The LANCE seems to use a different DMA mechanism to * access the init block. This looks like one (short) word at a * time, but the smallest amount the IOASIC can transfer is a * (long) word. So we have a 2-2 padding here. Changed * lance_init_block accordingly. The 16-16 padding for the buffers * seems to be correct. HK * * v0.008: mods to make PMAX_LANCE work. 01/09/1999 triemer * * v0.009: Module support fixes, multiple interfaces support, various * bits. macro * * v0.010: Fixes for the PMAD mapping of the LANCE buffer and for the * PMAX requirement to only use halfword accesses to the * buffer. macro * * v0.011: Converted the PMAD to the driver model. macro */ #include <linux/crc32.h> #include <linux/delay.h> #include <linux/errno.h> #include <linux/if_ether.h> #include <linux/init.h> #include <linux/kernel.h> #include <linux/module.h> #include <linux/netdevice.h> #include <linux/etherdevice.h> #include <linux/spinlock.h> #include <linux/stddef.h> #include <linux/string.h> #include <linux/tc.h> #include <linux/types.h> #include <asm/addrspace.h> #include <asm/dec/interrupts.h> #include <asm/dec/ioasic.h> #include <asm/dec/ioasic_addrs.h> #include <asm/dec/kn01.h> #include <asm/dec/machtype.h> #include <asm/dec/system.h> static const char version[] = "declance.c: v0.011 by Linux MIPS DECstation task force\n"; MODULE_AUTHOR("Linux MIPS DECstation task force"); MODULE_DESCRIPTION("DEC LANCE (DECstation onboard, PMAD-xx) driver"); MODULE_LICENSE("GPL"); #define __unused __attribute__ ((unused)) /* * card types */ #define ASIC_LANCE 1 #define PMAD_LANCE 2 #define PMAX_LANCE 3 #define LE_CSR0 0 #define LE_CSR1 1 #define LE_CSR2 2 #define LE_CSR3 3 #define LE_MO_PROM 0x8000 /* Enable promiscuous mode */ #define LE_C0_ERR 0x8000 /* Error: set if BAB, SQE, MISS or ME is set */ #define LE_C0_BABL 0x4000 /* BAB: Babble: tx timeout. */ #define LE_C0_CERR 0x2000 /* SQE: Signal quality error */ #define LE_C0_MISS 0x1000 /* MISS: Missed a packet */ #define LE_C0_MERR 0x0800 /* ME: Memory error */ #define LE_C0_RINT 0x0400 /* Received interrupt */ #define LE_C0_TINT 0x0200 /* Transmitter Interrupt */ #define LE_C0_IDON 0x0100 /* IFIN: Init finished. */ #define LE_C0_INTR 0x0080 /* Interrupt or error */ #define LE_C0_INEA 0x0040 /* Interrupt enable */ #define LE_C0_RXON 0x0020 /* Receiver on */ #define LE_C0_TXON 0x0010 /* Transmitter on */ #define LE_C0_TDMD 0x0008 /* Transmitter demand */ #define LE_C0_STOP 0x0004 /* Stop the card */ #define LE_C0_STRT 0x0002 /* Start the card */ #define LE_C0_INIT 0x0001 /* Init the card */ #define LE_C3_BSWP 0x4 /* SWAP */ #define LE_C3_ACON 0x2 /* ALE Control */ #define LE_C3_BCON 0x1 /* Byte control */ /* Receive message descriptor 1 */ #define LE_R1_OWN 0x8000 /* Who owns the entry */ #define LE_R1_ERR 0x4000 /* Error: if FRA, OFL, CRC or BUF is set */ #define LE_R1_FRA 0x2000 /* FRA: Frame error */ #define LE_R1_OFL 0x1000 /* OFL: Frame overflow */ #define LE_R1_CRC 0x0800 /* CRC error */ #define LE_R1_BUF 0x0400 /* BUF: Buffer error */ #define LE_R1_SOP 0x0200 /* Start of packet */ #define LE_R1_EOP 0x0100 /* End of packet */ #define LE_R1_POK 0x0300 /* Packet is complete: SOP + EOP */ /* Transmit message descriptor 1 */ #define LE_T1_OWN 0x8000 /* Lance owns the packet */ #define LE_T1_ERR 0x4000 /* Error summary */ #define LE_T1_EMORE 0x1000 /* Error: more than one retry needed */ #define LE_T1_EONE 0x0800 /* Error: one retry needed */ #define LE_T1_EDEF 0x0400 /* Error: deferred */ #define LE_T1_SOP 0x0200 /* Start of packet */ #define LE_T1_EOP 0x0100 /* End of packet */ #define LE_T1_POK 0x0300 /* Packet is complete: SOP + EOP */ #define LE_T3_BUF 0x8000 /* Buffer error */ #define LE_T3_UFL 0x4000 /* Error underflow */ #define LE_T3_LCOL 0x1000 /* Error late collision */ #define LE_T3_CLOS 0x0800 /* Error carrier loss */ #define LE_T3_RTY 0x0400 /* Error retry */ #define LE_T3_TDR 0x03ff /* Time Domain Reflectometry counter */ /* Define: 2^4 Tx buffers and 2^4 Rx buffers */ #ifndef LANCE_LOG_TX_BUFFERS #define LANCE_LOG_TX_BUFFERS 4 #define LANCE_LOG_RX_BUFFERS 4 #endif #define TX_RING_SIZE (1 << (LANCE_LOG_TX_BUFFERS)) #define TX_RING_MOD_MASK (TX_RING_SIZE - 1) #define RX_RING_SIZE (1 << (LANCE_LOG_RX_BUFFERS)) #define RX_RING_MOD_MASK (RX_RING_SIZE - 1) #define PKT_BUF_SZ 1536 #define RX_BUFF_SIZE PKT_BUF_SZ #define TX_BUFF_SIZE PKT_BUF_SZ #undef TEST_HITS #define ZERO 0 /* * The DS2100/3100 have a linear 64 kB buffer which supports halfword * accesses only. Each halfword of the buffer is word-aligned in the * CPU address space. * * The PMAD-AA has a 128 kB buffer on-board. * * The IOASIC LANCE devices use a shared memory region. This region * as seen from the CPU is (max) 128 kB long and has to be on an 128 kB * boundary. The LANCE sees this as a 64 kB long continuous memory * region. * * The LANCE's DMA address is used as an index in this buffer and DMA * takes place in bursts of eight 16-bit words which are packed into * four 32-bit words by the IOASIC. This leads to a strange padding: * 16 bytes of valid data followed by a 16 byte gap :-(. */ struct lance_rx_desc { unsigned short rmd0; /* low address of packet */ unsigned short rmd1; /* high address of packet and descriptor bits */ short length; /* 2s complement (negative!) of buffer length */ unsigned short mblength; /* actual number of bytes received */ }; struct lance_tx_desc { unsigned short tmd0; /* low address of packet */ unsigned short tmd1; /* high address of packet and descriptor bits */ short length; /* 2s complement (negative!) of buffer length */ unsigned short misc; }; /* First part of the LANCE initialization block, described in databook. */ struct lance_init_block { unsigned short mode; /* pre-set mode (reg. 15) */ unsigned short phys_addr[3]; /* physical ethernet address */ unsigned short filter[4]; /* multicast filter */ /* Receive and transmit ring base, along with extra bits. */ unsigned short rx_ptr; /* receive descriptor addr */ unsigned short rx_len; /* receive len and high addr */ unsigned short tx_ptr; /* transmit descriptor addr */ unsigned short tx_len; /* transmit len and high addr */ short gap[4]; /* The buffer descriptors */ struct lance_rx_desc brx_ring[RX_RING_SIZE]; struct lance_tx_desc btx_ring[TX_RING_SIZE]; }; #define BUF_OFFSET_CPU sizeof(struct lance_init_block) #define BUF_OFFSET_LNC sizeof(struct lance_init_block) #define shift_off(off, type) \ (type == ASIC_LANCE || type == PMAX_LANCE ? off << 1 : off) #define lib_off(rt, type) \ shift_off(offsetof(struct lance_init_block, rt), type) #define lib_ptr(ib, rt, type) \ ((volatile u16 *)((u8 *)(ib) + lib_off(rt, type))) #define rds_off(rt, type) \ shift_off(offsetof(struct lance_rx_desc, rt), type) #define rds_ptr(rd, rt, type) \ ((volatile u16 *)((u8 *)(rd) + rds_off(rt, type))) #define tds_off(rt, type) \ shift_off(offsetof(struct lance_tx_desc, rt), type) #define tds_ptr(td, rt, type) \ ((volatile u16 *)((u8 *)(td) + tds_off(rt, type))) struct lance_private { struct net_device *next; int type; int dma_irq; volatile struct lance_regs *ll; spinlock_t lock; int rx_new, tx_new; int rx_old, tx_old; unsigned short busmaster_regval; struct timer_list multicast_timer; struct net_device *dev; /* Pointers to the ring buffers as seen from the CPU */ char *rx_buf_ptr_cpu[RX_RING_SIZE]; char *tx_buf_ptr_cpu[TX_RING_SIZE]; /* Pointers to the ring buffers as seen from the LANCE */ uint rx_buf_ptr_lnc[RX_RING_SIZE]; uint tx_buf_ptr_lnc[TX_RING_SIZE]; }; #define TX_BUFFS_AVAIL ((lp->tx_old<=lp->tx_new)?\ lp->tx_old+TX_RING_MOD_MASK-lp->tx_new:\ lp->tx_old - lp->tx_new-1) /* The lance control ports are at an absolute address, machine and tc-slot * dependent. * DECstations do only 32-bit access and the LANCE uses 16 bit addresses, * so we have to give the structure an extra member making rap pointing * at the right address */ struct lance_regs { volatile unsigned short rdp; /* register data port */ unsigned short pad; volatile unsigned short rap; /* register address port */ }; int dec_lance_debug = 2; static struct tc_driver dec_lance_tc_driver; static struct net_device *root_lance_dev; static inline void writereg(volatile unsigned short *regptr, short value) { *regptr = value; iob(); } /* Load the CSR registers */ static void load_csrs(struct lance_private *lp) { volatile struct lance_regs *ll = lp->ll; uint leptr; /* The address space as seen from the LANCE * begins at address 0. HK */ leptr = 0; writereg(&ll->rap, LE_CSR1); writereg(&ll->rdp, (leptr & 0xFFFF)); writereg(&ll->rap, LE_CSR2); writereg(&ll->rdp, leptr >> 16); writereg(&ll->rap, LE_CSR3); writereg(&ll->rdp, lp->busmaster_regval); /* Point back to csr0 */ writereg(&ll->rap, LE_CSR0); } /* * Our specialized copy routines * */ static void cp_to_buf(const int type, void *to, const void *from, int len) { unsigned short *tp; const unsigned short *fp; unsigned short clen; unsigned char *rtp; const unsigned char *rfp; if (type == PMAD_LANCE) { memcpy(to, from, len); } else if (type == PMAX_LANCE) { clen = len >> 1; tp = to; fp = from; while (clen--) { *tp++ = *fp++; tp++; } clen = len & 1; rtp = (unsigned char *)tp; rfp = (const unsigned char *)fp; while (clen--) { *rtp++ = *rfp++; } } else { /* * copy 16 Byte chunks */ clen = len >> 4; tp = to; fp = from; while (clen--) { *tp++ = *fp++; *tp++ = *fp++; *tp++ = *fp++; *tp++ = *fp++; *tp++ = *fp++; *tp++ = *fp++; *tp++ = *fp++; *tp++ = *fp++; tp += 8; } /* * do the rest, if any. */ clen = len & 15; rtp = (unsigned char *)tp; rfp = (const unsigned char *)fp; while (clen--) { *rtp++ = *rfp++; } } iob(); } static void cp_from_buf(const int type, void *to, const void *from, int len) { unsigned short *tp; const unsigned short *fp; unsigned short clen; unsigned char *rtp; const unsigned char *rfp; if (type == PMAD_LANCE) { memcpy(to, from, len); } else if (type == PMAX_LANCE) { clen = len >> 1; tp = to; fp = from; while (clen--) { *tp++ = *fp++; fp++; } clen = len & 1; rtp = (unsigned char *)tp; rfp = (const unsigned char *)fp; while (clen--) { *rtp++ = *rfp++; } } else { /* * copy 16 Byte chunks */ clen = len >> 4; tp = to; fp = from; while (clen--) { *tp++ = *fp++; *tp++ = *fp++; *tp++ = *fp++; *tp++ = *fp++; *tp++ = *fp++; *tp++ = *fp++; *tp++ = *fp++; *tp++ = *fp++; fp += 8; } /* * do the rest, if any. */ clen = len & 15; rtp = (unsigned char *)tp; rfp = (const unsigned char *)fp; while (clen--) { *rtp++ = *rfp++; } } } /* Setup the Lance Rx and Tx rings */ static void lance_init_ring(struct net_device *dev) { struct lance_private *lp = netdev_priv(dev); volatile u16 *ib = (volatile u16 *)dev->mem_start; uint leptr; int i; /* Lock out other processes while setting up hardware */ netif_stop_queue(dev); lp->rx_new = lp->tx_new = 0; lp->rx_old = lp->tx_old = 0; /* Copy the ethernet address to the lance init block. * XXX bit 0 of the physical address registers has to be zero */ *lib_ptr(ib, phys_addr[0], lp->type) = (dev->dev_addr[1] << 8) | dev->dev_addr[0]; *lib_ptr(ib, phys_addr[1], lp->type) = (dev->dev_addr[3] << 8) | dev->dev_addr[2]; *lib_ptr(ib, phys_addr[2], lp->type) = (dev->dev_addr[5] << 8) | dev->dev_addr[4]; /* Setup the initialization block */ /* Setup rx descriptor pointer */ leptr = offsetof(struct lance_init_block, brx_ring); *lib_ptr(ib, rx_len, lp->type) = (LANCE_LOG_RX_BUFFERS << 13) | (leptr >> 16); *lib_ptr(ib, rx_ptr, lp->type) = leptr; if (ZERO) printk("RX ptr: %8.8x(%8.8x)\n", leptr, (uint)lib_off(brx_ring, lp->type)); /* Setup tx descriptor pointer */ leptr = offsetof(struct lance_init_block, btx_ring); *lib_ptr(ib, tx_len, lp->type) = (LANCE_LOG_TX_BUFFERS << 13) | (leptr >> 16); *lib_ptr(ib, tx_ptr, lp->type) = leptr; if (ZERO) printk("TX ptr: %8.8x(%8.8x)\n", leptr, (uint)lib_off(btx_ring, lp->type)); if (ZERO) printk("TX rings:\n"); /* Setup the Tx ring entries */ for (i = 0; i < TX_RING_SIZE; i++) { leptr = lp->tx_buf_ptr_lnc[i]; *lib_ptr(ib, btx_ring[i].tmd0, lp->type) = leptr; *lib_ptr(ib, btx_ring[i].tmd1, lp->type) = (leptr >> 16) & 0xff; *lib_ptr(ib, btx_ring[i].length, lp->type) = 0xf000; /* The ones required by tmd2 */ *lib_ptr(ib, btx_ring[i].misc, lp->type) = 0; if (i < 3 && ZERO) printk("%d: %8.8x(%p)\n", i, leptr, lp->tx_buf_ptr_cpu[i]); } /* Setup the Rx ring entries */ if (ZERO) printk("RX rings:\n"); for (i = 0; i < RX_RING_SIZE; i++) { leptr = lp->rx_buf_ptr_lnc[i]; *lib_ptr(ib, brx_ring[i].rmd0, lp->type) = leptr; *lib_ptr(ib, brx_ring[i].rmd1, lp->type) = ((leptr >> 16) & 0xff) | LE_R1_OWN; *lib_ptr(ib, brx_ring[i].length, lp->type) = -RX_BUFF_SIZE | 0xf000; *lib_ptr(ib, brx_ring[i].mblength, lp->type) = 0; if (i < 3 && ZERO) printk("%d: %8.8x(%p)\n", i, leptr, lp->rx_buf_ptr_cpu[i]); } iob(); } static int init_restart_lance(struct lance_private *lp) { volatile struct lance_regs *ll = lp->ll; int i; writereg(&ll->rap, LE_CSR0); writereg(&ll->rdp, LE_C0_INIT); /* Wait for the lance to complete initialization */ for (i = 0; (i < 100) && !(ll->rdp & LE_C0_IDON); i++) { udelay(10); } if ((i == 100) || (ll->rdp & LE_C0_ERR)) { printk("LANCE unopened after %d ticks, csr0=%4.4x.\n", i, ll->rdp); return -1; } if ((ll->rdp & LE_C0_ERR)) { printk("LANCE unopened after %d ticks, csr0=%4.4x.\n", i, ll->rdp); return -1; } writereg(&ll->rdp, LE_C0_IDON); writereg(&ll->rdp, LE_C0_STRT); writereg(&ll->rdp, LE_C0_INEA); return 0; } static int lance_rx(struct net_device *dev) { struct lance_private *lp = netdev_priv(dev); volatile u16 *ib = (volatile u16 *)dev->mem_start; volatile u16 *rd; unsigned short bits; int entry, len; struct sk_buff *skb; #ifdef TEST_HITS { int i; printk("["); for (i = 0; i < RX_RING_SIZE; i++) { if (i == lp->rx_new) printk("%s", *lib_ptr(ib, brx_ring[i].rmd1, lp->type) & LE_R1_OWN ? "_" : "X"); else printk("%s", *lib_ptr(ib, brx_ring[i].rmd1, lp->type) & LE_R1_OWN ? "." : "1"); } printk("]"); } #endif for (rd = lib_ptr(ib, brx_ring[lp->rx_new], lp->type); !((bits = *rds_ptr(rd, rmd1, lp->type)) & LE_R1_OWN); rd = lib_ptr(ib, brx_ring[lp->rx_new], lp->type)) { entry = lp->rx_new; /* We got an incomplete frame? */ if ((bits & LE_R1_POK) != LE_R1_POK) { dev->stats.rx_over_errors++; dev->stats.rx_errors++; } else if (bits & LE_R1_ERR) { /* Count only the end frame as a rx error, * not the beginning */ if (bits & LE_R1_BUF) dev->stats.rx_fifo_errors++; if (bits & LE_R1_CRC) dev->stats.rx_crc_errors++; if (bits & LE_R1_OFL) dev->stats.rx_over_errors++; if (bits & LE_R1_FRA) dev->stats.rx_frame_errors++; if (bits & LE_R1_EOP) dev->stats.rx_errors++; } else { len = (*rds_ptr(rd, mblength, lp->type) & 0xfff) - 4; skb = netdev_alloc_skb(dev, len + 2); if (!skb) { dev->stats.rx_dropped++; *rds_ptr(rd, mblength, lp->type) = 0; *rds_ptr(rd, rmd1, lp->type) = ((lp->rx_buf_ptr_lnc[entry] >> 16) & 0xff) | LE_R1_OWN; lp->rx_new = (entry + 1) & RX_RING_MOD_MASK; return 0; } dev->stats.rx_bytes += len; skb_reserve(skb, 2); /* 16 byte align */ skb_put(skb, len); /* make room */ cp_from_buf(lp->type, skb->data, lp->rx_buf_ptr_cpu[entry], len); skb->protocol = eth_type_trans(skb, dev); netif_rx(skb); dev->stats.rx_packets++; } /* Return the packet to the pool */ *rds_ptr(rd, mblength, lp->type) = 0; *rds_ptr(rd, length, lp->type) = -RX_BUFF_SIZE | 0xf000; *rds_ptr(rd, rmd1, lp->type) = ((lp->rx_buf_ptr_lnc[entry] >> 16) & 0xff) | LE_R1_OWN; lp->rx_new = (entry + 1) & RX_RING_MOD_MASK; } return 0; } static void lance_tx(struct net_device *dev) { struct lance_private *lp = netdev_priv(dev); volatile u16 *ib = (volatile u16 *)dev->mem_start; volatile struct lance_regs *ll = lp->ll; volatile u16 *td; int i, j; int status; j = lp->tx_old; spin_lock(&lp->lock); for (i = j; i != lp->tx_new; i = j) { td = lib_ptr(ib, btx_ring[i], lp->type); /* If we hit a packet not owned by us, stop */ if (*tds_ptr(td, tmd1, lp->type) & LE_T1_OWN) break; if (*tds_ptr(td, tmd1, lp->type) & LE_T1_ERR) { status = *tds_ptr(td, misc, lp->type); dev->stats.tx_errors++; if (status & LE_T3_RTY) dev->stats.tx_aborted_errors++; if (status & LE_T3_LCOL) dev->stats.tx_window_errors++; if (status & LE_T3_CLOS) { dev->stats.tx_carrier_errors++; printk("%s: Carrier Lost\n", dev->name); /* Stop the lance */ writereg(&ll->rap, LE_CSR0); writereg(&ll->rdp, LE_C0_STOP); lance_init_ring(dev); load_csrs(lp); init_restart_lance(lp); goto out; } /* Buffer errors and underflows turn off the * transmitter, restart the adapter. */ if (status & (LE_T3_BUF | LE_T3_UFL)) { dev->stats.tx_fifo_errors++; printk("%s: Tx: ERR_BUF|ERR_UFL, restarting\n", dev->name); /* Stop the lance */ writereg(&ll->rap, LE_CSR0); writereg(&ll->rdp, LE_C0_STOP); lance_init_ring(dev); load_csrs(lp); init_restart_lance(lp); goto out; } } else if ((*tds_ptr(td, tmd1, lp->type) & LE_T1_POK) == LE_T1_POK) { /* * So we don't count the packet more than once. */ *tds_ptr(td, tmd1, lp->type) &= ~(LE_T1_POK); /* One collision before packet was sent. */ if (*tds_ptr(td, tmd1, lp->type) & LE_T1_EONE) dev->stats.collisions++; /* More than one collision, be optimistic. */ if (*tds_ptr(td, tmd1, lp->type) & LE_T1_EMORE) dev->stats.collisions += 2; dev->stats.tx_packets++; } j = (j + 1) & TX_RING_MOD_MASK; } lp->tx_old = j; out: if (netif_queue_stopped(dev) && TX_BUFFS_AVAIL > 0) netif_wake_queue(dev); spin_unlock(&lp->lock); } static irqreturn_t lance_dma_merr_int(int irq, void *dev_id) { struct net_device *dev = dev_id; printk(KERN_ERR "%s: DMA error\n", dev->name); return IRQ_HANDLED; } static irqreturn_t lance_interrupt(int irq, void *dev_id) { struct net_device *dev = dev_id; struct lance_private *lp = netdev_priv(dev); volatile struct lance_regs *ll = lp->ll; int csr0; writereg(&ll->rap, LE_CSR0); csr0 = ll->rdp; /* Acknowledge all the interrupt sources ASAP */ writereg(&ll->rdp, csr0 & (LE_C0_INTR | LE_C0_TINT | LE_C0_RINT)); if ((csr0 & LE_C0_ERR)) { /* Clear the error condition */ writereg(&ll->rdp, LE_C0_BABL | LE_C0_ERR | LE_C0_MISS | LE_C0_CERR | LE_C0_MERR); } if (csr0 & LE_C0_RINT) lance_rx(dev); if (csr0 & LE_C0_TINT) lance_tx(dev); if (csr0 & LE_C0_BABL) dev->stats.tx_errors++; if (csr0 & LE_C0_MISS) dev->stats.rx_errors++; if (csr0 & LE_C0_MERR) { printk("%s: Memory error, status %04x\n", dev->name, csr0); writereg(&ll->rdp, LE_C0_STOP); lance_init_ring(dev); load_csrs(lp); init_restart_lance(lp); netif_wake_queue(dev); } writereg(&ll->rdp, LE_C0_INEA); writereg(&ll->rdp, LE_C0_INEA); return IRQ_HANDLED; } static int lance_open(struct net_device *dev) { volatile u16 *ib = (volatile u16 *)dev->mem_start; struct lance_private *lp = netdev_priv(dev); volatile struct lance_regs *ll = lp->ll; int status = 0; /* Stop the Lance */ writereg(&ll->rap, LE_CSR0); writereg(&ll->rdp, LE_C0_STOP); /* Set mode and clear multicast filter only at device open, * so that lance_init_ring() called at any error will not * forget multicast filters. * * BTW it is common bug in all lance drivers! --ANK */ *lib_ptr(ib, mode, lp->type) = 0; *lib_ptr(ib, filter[0], lp->type) = 0; *lib_ptr(ib, filter[1], lp->type) = 0; *lib_ptr(ib, filter[2], lp->type) = 0; *lib_ptr(ib, filter[3], lp->type) = 0; lance_init_ring(dev); load_csrs(lp); netif_start_queue(dev); /* Associate IRQ with lance_interrupt */ if (request_irq(dev->irq, lance_interrupt, 0, "lance", dev)) { printk("%s: Can't get IRQ %d\n", dev->name, dev->irq); return -EAGAIN; } if (lp->dma_irq >= 0) { unsigned long flags; if (request_irq(lp->dma_irq, lance_dma_merr_int, IRQF_ONESHOT, "lance error", dev)) { free_irq(dev->irq, dev); printk("%s: Can't get DMA IRQ %d\n", dev->name, lp->dma_irq); return -EAGAIN; } spin_lock_irqsave(&ioasic_ssr_lock, flags); fast_mb(); /* Enable I/O ASIC LANCE DMA. */ ioasic_write(IO_REG_SSR, ioasic_read(IO_REG_SSR) | IO_SSR_LANCE_DMA_EN); fast_mb(); spin_unlock_irqrestore(&ioasic_ssr_lock, flags); } status = init_restart_lance(lp); return status; } static int lance_close(struct net_device *dev) { struct lance_private *lp = netdev_priv(dev); volatile struct lance_regs *ll = lp->ll; netif_stop_queue(dev); del_timer_sync(&lp->multicast_timer); /* Stop the card */ writereg(&ll->rap, LE_CSR0); writereg(&ll->rdp, LE_C0_STOP); if (lp->dma_irq >= 0) { unsigned long flags; spin_lock_irqsave(&ioasic_ssr_lock, flags); fast_mb(); /* Disable I/O ASIC LANCE DMA. */ ioasic_write(IO_REG_SSR, ioasic_read(IO_REG_SSR) & ~IO_SSR_LANCE_DMA_EN); fast_iob(); spin_unlock_irqrestore(&ioasic_ssr_lock, flags); free_irq(lp->dma_irq, dev); } free_irq(dev->irq, dev); return 0; } static inline int lance_reset(struct net_device *dev) { struct lance_private *lp = netdev_priv(dev); volatile struct lance_regs *ll = lp->ll; int status; /* Stop the lance */ writereg(&ll->rap, LE_CSR0); writereg(&ll->rdp, LE_C0_STOP); lance_init_ring(dev); load_csrs(lp); netif_trans_update(dev); /* prevent tx timeout */ status = init_restart_lance(lp); return status; } static void lance_tx_timeout(struct net_device *dev, unsigned int txqueue) { struct lance_private *lp = netdev_priv(dev); volatile struct lance_regs *ll = lp->ll; printk(KERN_ERR "%s: transmit timed out, status %04x, reset\n", dev->name, ll->rdp); lance_reset(dev); netif_wake_queue(dev); } static netdev_tx_t lance_start_xmit(struct sk_buff *skb, struct net_device *dev) { struct lance_private *lp = netdev_priv(dev); volatile struct lance_regs *ll = lp->ll; volatile u16 *ib = (volatile u16 *)dev->mem_start; unsigned long flags; int entry, len; len = skb->len; if (len < ETH_ZLEN) { if (skb_padto(skb, ETH_ZLEN)) return NETDEV_TX_OK; len = ETH_ZLEN; } dev->stats.tx_bytes += len; spin_lock_irqsave(&lp->lock, flags); entry = lp->tx_new; *lib_ptr(ib, btx_ring[entry].length, lp->type) = (-len); *lib_ptr(ib, btx_ring[entry].misc, lp->type) = 0; cp_to_buf(lp->type, lp->tx_buf_ptr_cpu[entry], skb->data, len); /* Now, give the packet to the lance */ *lib_ptr(ib, btx_ring[entry].tmd1, lp->type) = ((lp->tx_buf_ptr_lnc[entry] >> 16) & 0xff) | (LE_T1_POK | LE_T1_OWN); lp->tx_new = (entry + 1) & TX_RING_MOD_MASK; if (TX_BUFFS_AVAIL <= 0) netif_stop_queue(dev); /* Kick the lance: transmit now */ writereg(&ll->rdp, LE_C0_INEA | LE_C0_TDMD); spin_unlock_irqrestore(&lp->lock, flags); dev_kfree_skb(skb); return NETDEV_TX_OK; } static void lance_load_multicast(struct net_device *dev) { struct lance_private *lp = netdev_priv(dev); volatile u16 *ib = (volatile u16 *)dev->mem_start; struct netdev_hw_addr *ha; u32 crc; /* set all multicast bits */ if (dev->flags & IFF_ALLMULTI) { *lib_ptr(ib, filter[0], lp->type) = 0xffff; *lib_ptr(ib, filter[1], lp->type) = 0xffff; *lib_ptr(ib, filter[2], lp->type) = 0xffff; *lib_ptr(ib, filter[3], lp->type) = 0xffff; return; } /* clear the multicast filter */ *lib_ptr(ib, filter[0], lp->type) = 0; *lib_ptr(ib, filter[1], lp->type) = 0; *lib_ptr(ib, filter[2], lp->type) = 0; *lib_ptr(ib, filter[3], lp->type) = 0; /* Add addresses */ netdev_for_each_mc_addr(ha, dev) { crc = ether_crc_le(ETH_ALEN, ha->addr); crc = crc >> 26; *lib_ptr(ib, filter[crc >> 4], lp->type) |= 1 << (crc & 0xf); } } static void lance_set_multicast(struct net_device *dev) { struct lance_private *lp = netdev_priv(dev); volatile u16 *ib = (volatile u16 *)dev->mem_start; volatile struct lance_regs *ll = lp->ll; if (!netif_running(dev)) return; if (lp->tx_old != lp->tx_new) { mod_timer(&lp->multicast_timer, jiffies + 4 * HZ/100); netif_wake_queue(dev); return; } netif_stop_queue(dev); writereg(&ll->rap, LE_CSR0); writereg(&ll->rdp, LE_C0_STOP); lance_init_ring(dev); if (dev->flags & IFF_PROMISC) { *lib_ptr(ib, mode, lp->type) |= LE_MO_PROM; } else { *lib_ptr(ib, mode, lp->type) &= ~LE_MO_PROM; lance_load_multicast(dev); } load_csrs(lp); init_restart_lance(lp); netif_wake_queue(dev); } static void lance_set_multicast_retry(struct timer_list *t) { struct lance_private *lp = from_timer(lp, t, multicast_timer); struct net_device *dev = lp->dev; lance_set_multicast(dev); } static const struct net_device_ops lance_netdev_ops = { .ndo_open = lance_open, .ndo_stop = lance_close, .ndo_start_xmit = lance_start_xmit, .ndo_tx_timeout = lance_tx_timeout, .ndo_set_rx_mode = lance_set_multicast, .ndo_validate_addr = eth_validate_addr, .ndo_set_mac_address = eth_mac_addr, }; static int dec_lance_probe(struct device *bdev, const int type) { static unsigned version_printed; static const char fmt[] = "declance%d"; char name[10]; struct net_device *dev; struct lance_private *lp; volatile struct lance_regs *ll; resource_size_t start = 0, len = 0; int i, ret; unsigned long esar_base; unsigned char *esar; u8 addr[ETH_ALEN]; const char *desc; if (dec_lance_debug && version_printed++ == 0) printk(version); if (bdev) snprintf(name, sizeof(name), "%s", dev_name(bdev)); else { i = 0; dev = root_lance_dev; while (dev) { i++; lp = netdev_priv(dev); dev = lp->next; } snprintf(name, sizeof(name), fmt, i); } dev = alloc_etherdev(sizeof(struct lance_private)); if (!dev) { ret = -ENOMEM; goto err_out; } /* * alloc_etherdev ensures the data structures used by the LANCE * are aligned. */ lp = netdev_priv(dev); spin_lock_init(&lp->lock); lp->type = type; switch (type) { case ASIC_LANCE: dev->base_addr = CKSEG1ADDR(dec_kn_slot_base + IOASIC_LANCE); /* buffer space for the on-board LANCE shared memory */ /* * FIXME: ugly hack! */ dev->mem_start = CKSEG1ADDR(0x00020000); dev->mem_end = dev->mem_start + 0x00020000; dev->irq = dec_interrupt[DEC_IRQ_LANCE]; esar_base = CKSEG1ADDR(dec_kn_slot_base + IOASIC_ESAR); /* Workaround crash with booting KN04 2.1k from Disk */ memset((void *)dev->mem_start, 0, dev->mem_end - dev->mem_start); /* * setup the pointer arrays, this sucks [tm] :-( */ for (i = 0; i < RX_RING_SIZE; i++) { lp->rx_buf_ptr_cpu[i] = (char *)(dev->mem_start + 2 * BUF_OFFSET_CPU + 2 * i * RX_BUFF_SIZE); lp->rx_buf_ptr_lnc[i] = (BUF_OFFSET_LNC + i * RX_BUFF_SIZE); } for (i = 0; i < TX_RING_SIZE; i++) { lp->tx_buf_ptr_cpu[i] = (char *)(dev->mem_start + 2 * BUF_OFFSET_CPU + 2 * RX_RING_SIZE * RX_BUFF_SIZE + 2 * i * TX_BUFF_SIZE); lp->tx_buf_ptr_lnc[i] = (BUF_OFFSET_LNC + RX_RING_SIZE * RX_BUFF_SIZE + i * TX_BUFF_SIZE); } /* Setup I/O ASIC LANCE DMA. */ lp->dma_irq = dec_interrupt[DEC_IRQ_LANCE_MERR]; ioasic_write(IO_REG_LANCE_DMA_P, CPHYSADDR(dev->mem_start) << 3); break; #ifdef CONFIG_TC case PMAD_LANCE: dev_set_drvdata(bdev, dev); start = to_tc_dev(bdev)->resource.start; len = to_tc_dev(bdev)->resource.end - start + 1; if (!request_mem_region(start, len, dev_name(bdev))) { printk(KERN_ERR "%s: Unable to reserve MMIO resource\n", dev_name(bdev)); ret = -EBUSY; goto err_out_dev; } dev->mem_start = CKSEG1ADDR(start); dev->mem_end = dev->mem_start + 0x100000; dev->base_addr = dev->mem_start + 0x100000; dev->irq = to_tc_dev(bdev)->interrupt; esar_base = dev->mem_start + 0x1c0002; lp->dma_irq = -1; for (i = 0; i < RX_RING_SIZE; i++) { lp->rx_buf_ptr_cpu[i] = (char *)(dev->mem_start + BUF_OFFSET_CPU + i * RX_BUFF_SIZE); lp->rx_buf_ptr_lnc[i] = (BUF_OFFSET_LNC + i * RX_BUFF_SIZE); } for (i = 0; i < TX_RING_SIZE; i++) { lp->tx_buf_ptr_cpu[i] = (char *)(dev->mem_start + BUF_OFFSET_CPU + RX_RING_SIZE * RX_BUFF_SIZE + i * TX_BUFF_SIZE); lp->tx_buf_ptr_lnc[i] = (BUF_OFFSET_LNC + RX_RING_SIZE * RX_BUFF_SIZE + i * TX_BUFF_SIZE); } break; #endif case PMAX_LANCE: dev->irq = dec_interrupt[DEC_IRQ_LANCE]; dev->base_addr = CKSEG1ADDR(KN01_SLOT_BASE + KN01_LANCE); dev->mem_start = CKSEG1ADDR(KN01_SLOT_BASE + KN01_LANCE_MEM); dev->mem_end = dev->mem_start + KN01_SLOT_SIZE; esar_base = CKSEG1ADDR(KN01_SLOT_BASE + KN01_ESAR + 1); lp->dma_irq = -1; /* * setup the pointer arrays, this sucks [tm] :-( */ for (i = 0; i < RX_RING_SIZE; i++) { lp->rx_buf_ptr_cpu[i] = (char *)(dev->mem_start + 2 * BUF_OFFSET_CPU + 2 * i * RX_BUFF_SIZE); lp->rx_buf_ptr_lnc[i] = (BUF_OFFSET_LNC + i * RX_BUFF_SIZE); } for (i = 0; i < TX_RING_SIZE; i++) { lp->tx_buf_ptr_cpu[i] = (char *)(dev->mem_start + 2 * BUF_OFFSET_CPU + 2 * RX_RING_SIZE * RX_BUFF_SIZE + 2 * i * TX_BUFF_SIZE); lp->tx_buf_ptr_lnc[i] = (BUF_OFFSET_LNC + RX_RING_SIZE * RX_BUFF_SIZE + i * TX_BUFF_SIZE); } break; default: printk(KERN_ERR "%s: declance_init called with unknown type\n", name); ret = -ENODEV; goto err_out_dev; } ll = (struct lance_regs *) dev->base_addr; esar = (unsigned char *) esar_base; /* prom checks */ /* First, check for test pattern */ if (esar[0x60] != 0xff && esar[0x64] != 0x00 && esar[0x68] != 0x55 && esar[0x6c] != 0xaa) { printk(KERN_ERR "%s: Ethernet station address prom not found!\n", name); ret = -ENODEV; goto err_out_resource; } /* Check the prom contents */ for (i = 0; i < 8; i++) { if (esar[i * 4] != esar[0x3c - i * 4] && esar[i * 4] != esar[0x40 + i * 4] && esar[0x3c - i * 4] != esar[0x40 + i * 4]) { printk(KERN_ERR "%s: Something is wrong with the " "ethernet station address prom!\n", name); ret = -ENODEV; goto err_out_resource; } } /* Copy the ethernet address to the device structure, later to the * lance initialization block so the lance gets it every time it's * (re)initialized. */ switch (type) { case ASIC_LANCE: desc = "IOASIC onboard LANCE"; break; case PMAD_LANCE: desc = "PMAD-AA"; break; case PMAX_LANCE: desc = "PMAX onboard LANCE"; break; } for (i = 0; i < 6; i++) addr[i] = esar[i * 4]; eth_hw_addr_set(dev, addr); printk("%s: %s, addr = %pM, irq = %d\n", name, desc, dev->dev_addr, dev->irq); dev->netdev_ops = &lance_netdev_ops; dev->watchdog_timeo = 5*HZ; /* lp->ll is the location of the registers for lance card */ lp->ll = ll; /* busmaster_regval (CSR3) should be zero according to the PMAD-AA * specification. */ lp->busmaster_regval = 0; dev->dma = 0; /* We cannot sleep if the chip is busy during a * multicast list update event, because such events * can occur from interrupts (ex. IPv6). So we * use a timer to try again later when necessary. -DaveM */ lp->dev = dev; timer_setup(&lp->multicast_timer, lance_set_multicast_retry, 0); ret = register_netdev(dev); if (ret) { printk(KERN_ERR "%s: Unable to register netdev, aborting.\n", name); goto err_out_resource; } if (!bdev) { lp->next = root_lance_dev; root_lance_dev = dev; } printk("%s: registered as %s.\n", name, dev->name); return 0; err_out_resource: if (bdev) release_mem_region(start, len); err_out_dev: free_netdev(dev); err_out: return ret; } /* Find all the lance cards on the system and initialize them */ static int __init dec_lance_platform_probe(void) { int count = 0; if (dec_interrupt[DEC_IRQ_LANCE] >= 0) { if (dec_interrupt[DEC_IRQ_LANCE_MERR] >= 0) { if (dec_lance_probe(NULL, ASIC_LANCE) >= 0) count++; } else if (!TURBOCHANNEL) { if (dec_lance_probe(NULL, PMAX_LANCE) >= 0) count++; } } return (count > 0) ? 0 : -ENODEV; } static void __exit dec_lance_platform_remove(void) { while (root_lance_dev) { struct net_device *dev = root_lance_dev; struct lance_private *lp = netdev_priv(dev); unregister_netdev(dev); root_lance_dev = lp->next; free_netdev(dev); } } #ifdef CONFIG_TC static int dec_lance_tc_probe(struct device *dev); static int dec_lance_tc_remove(struct device *dev); static const struct tc_device_id dec_lance_tc_table[] = { { "DEC ", "PMAD-AA " }, { } }; MODULE_DEVICE_TABLE(tc, dec_lance_tc_table); static struct tc_driver dec_lance_tc_driver = { .id_table = dec_lance_tc_table, .driver = { .name = "declance", .bus = &tc_bus_type, .probe = dec_lance_tc_probe, .remove = dec_lance_tc_remove, }, }; static int dec_lance_tc_probe(struct device *dev) { int status = dec_lance_probe(dev, PMAD_LANCE); if (!status) get_device(dev); return status; } static void dec_lance_remove(struct device *bdev) { struct net_device *dev = dev_get_drvdata(bdev); resource_size_t start, len; unregister_netdev(dev); start = to_tc_dev(bdev)->resource.start; len = to_tc_dev(bdev)->resource.end - start + 1; release_mem_region(start, len); free_netdev(dev); } static int dec_lance_tc_remove(struct device *dev) { put_device(dev); dec_lance_remove(dev); return 0; } #endif static int __init dec_lance_init(void) { int status; status = tc_register_driver(&dec_lance_tc_driver); if (!status) dec_lance_platform_probe(); return status; } static void __exit dec_lance_exit(void) { dec_lance_platform_remove(); tc_unregister_driver(&dec_lance_tc_driver); } module_init(dec_lance_init); module_exit(dec_lance_exit); |