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2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 2055 2056 2057 2058 2059 2060 2061 2062 2063 2064 2065 2066 2067 2068 2069 2070 2071 2072 2073 2074 2075 2076 2077 2078 2079 2080 2081 2082 2083 2084 2085 2086 2087 2088 2089 2090 2091 2092 2093 2094 2095 2096 2097 2098 2099 2100 2101 2102 2103 2104 2105 | /* [xirc2ps_cs.c wk 03.11.99] (1.40 1999/11/18 00:06:03) * Xircom CreditCard Ethernet Adapter IIps driver * Xircom Realport 10/100 (RE-100) driver * * This driver supports various Xircom CreditCard Ethernet adapters * including the CE2, CE IIps, RE-10, CEM28, CEM33, CE33, CEM56, * CE3-100, CE3B, RE-100, REM10BT, and REM56G-100. * * 2000-09-24 <psheer@icon.co.za> The Xircom CE3B-100 may not * autodetect the media properly. In this case use the * if_port=1 (for 10BaseT) or if_port=4 (for 100BaseT) options * to force the media type. * * Written originally by Werner Koch based on David Hinds' skeleton of the * PCMCIA driver. * * Copyright (c) 1997,1998 Werner Koch (dd9jn) * * This driver is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * It is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA * * * ALTERNATIVELY, this driver may be distributed under the terms of * the following license, in which case the provisions of this license * are required INSTEAD OF the GNU General Public License. (This clause * is necessary due to a potential bad interaction between the GPL and * the restrictions contained in a BSD-style copyright.) * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, and the entire permission notice in its entirety, * including the disclaimer of warranties. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote * products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED * OF THE POSSIBILITY OF SUCH DAMAGE. */ #include <linux/module.h> #include <linux/kernel.h> #include <linux/init.h> #include <linux/sched.h> #include <linux/ptrace.h> #include <linux/slab.h> #include <linux/string.h> #include <linux/timer.h> #include <linux/interrupt.h> #include <linux/in.h> #include <linux/delay.h> #include <asm/io.h> #include <asm/system.h> #include <asm/bitops.h> #include <linux/netdevice.h> #include <linux/etherdevice.h> #include <linux/skbuff.h> #include <linux/if_arp.h> #include <linux/ioport.h> #include <pcmcia/version.h> #include <pcmcia/cs_types.h> #include <pcmcia/cs.h> #include <pcmcia/cistpl.h> #include <pcmcia/cisreg.h> #include <pcmcia/ciscode.h> #ifndef MANFID_COMPAQ #define MANFID_COMPAQ 0x0138 #define MANFID_COMPAQ2 0x0183 /* is this correct? */ #endif #include <pcmcia/ds.h> /* Time in jiffies before concluding Tx hung */ #define TX_TIMEOUT ((400*HZ)/1000) /**************** * Some constants used to access the hardware */ /* Register offsets and value constans */ #define XIRCREG_CR 0 /* Command register (wr) */ enum xirc_cr { TransmitPacket = 0x01, SoftReset = 0x02, EnableIntr = 0x04, ForceIntr = 0x08, ClearTxFIFO = 0x10, ClearRxOvrun = 0x20, RestartTx = 0x40 }; #define XIRCREG_ESR 0 /* Ethernet status register (rd) */ enum xirc_esr { FullPktRcvd = 0x01, /* full packet in receive buffer */ PktRejected = 0x04, /* a packet has been rejected */ TxPktPend = 0x08, /* TX Packet Pending */ IncorPolarity = 0x10, MediaSelect = 0x20 /* set if TP, clear if AUI */ }; #define XIRCREG_PR 1 /* Page Register select */ #define XIRCREG_EDP 4 /* Ethernet Data Port Register */ #define XIRCREG_ISR 6 /* Ethernet Interrupt Status Register */ enum xirc_isr { TxBufOvr = 0x01, /* TX Buffer Overflow */ PktTxed = 0x02, /* Packet Transmitted */ MACIntr = 0x04, /* MAC Interrupt occurred */ TxResGrant = 0x08, /* Tx Reservation Granted */ RxFullPkt = 0x20, /* Rx Full Packet */ RxPktRej = 0x40, /* Rx Packet Rejected */ ForcedIntr= 0x80 /* Forced Interrupt */ }; #define XIRCREG1_IMR0 12 /* Ethernet Interrupt Mask Register (on page 1)*/ #define XIRCREG1_IMR1 13 #define XIRCREG0_TSO 8 /* Transmit Space Open Register (on page 0)*/ #define XIRCREG0_TRS 10 /* Transmit reservation Size Register (page 0)*/ #define XIRCREG0_DO 12 /* Data Offset Register (page 0) (wr) */ #define XIRCREG0_RSR 12 /* Receive Status Register (page 0) (rd) */ enum xirc_rsr { PhyPkt = 0x01, /* set:physical packet, clear: multicast packet */ BrdcstPkt = 0x02, /* set if it is a broadcast packet */ PktTooLong = 0x04, /* set if packet length > 1518 */ AlignErr = 0x10, /* incorrect CRC and last octet not complete */ CRCErr = 0x20, /* incorrect CRC and last octet is complete */ PktRxOk = 0x80 /* received ok */ }; #define XIRCREG0_PTR 13 /* packets transmitted register (rd) */ #define XIRCREG0_RBC 14 /* receive byte count regsister (rd) */ #define XIRCREG1_ECR 14 /* ethernet configurationn register */ enum xirc_ecr { FullDuplex = 0x04, /* enable full duplex mode */ LongTPMode = 0x08, /* adjust for longer lengths of TP cable */ DisablePolCor = 0x10,/* disable auto polarity correction */ DisableLinkPulse = 0x20, /* disable link pulse generation */ DisableAutoTx = 0x40, /* disable auto-transmit */ }; #define XIRCREG2_RBS 8 /* receive buffer start register */ #define XIRCREG2_LED 10 /* LED Configuration register */ /* values for the leds: Bits 2-0 for led 1 * 0 disabled Bits 5-3 for led 2 * 1 collision * 2 noncollision * 3 link_detected * 4 incor_polarity * 5 jabber * 6 auto_assertion * 7 rx_tx_activity */ #define XIRCREG2_MSR 12 /* Mohawk specific register */ #define XIRCREG4_GPR0 8 /* General Purpose Register 0 */ #define XIRCREG4_GPR1 9 /* General Purpose Register 1 */ #define XIRCREG2_GPR2 13 /* General Purpose Register 2 (page2!)*/ #define XIRCREG4_BOV 10 /* Bonding Version Register */ #define XIRCREG4_LMA 12 /* Local Memory Address Register */ #define XIRCREG4_LMD 14 /* Local Memory Data Port */ /* MAC register can only by accessed with 8 bit operations */ #define XIRCREG40_CMD0 8 /* Command Register (wr) */ enum xirc_cmd { /* Commands */ Transmit = 0x01, EnableRecv = 0x04, DisableRecv = 0x08, Abort = 0x10, Online = 0x20, IntrAck = 0x40, Offline = 0x80 }; #define XIRCREG5_RHSA0 10 /* Rx Host Start Address */ #define XIRCREG40_RXST0 9 /* Receive Status Register */ #define XIRCREG40_TXST0 11 /* Transmit Status Register 0 */ #define XIRCREG40_TXST1 12 /* Transmit Status Register 10 */ #define XIRCREG40_RMASK0 13 /* Receive Mask Register */ #define XIRCREG40_TMASK0 14 /* Transmit Mask Register 0 */ #define XIRCREG40_TMASK1 15 /* Transmit Mask Register 0 */ #define XIRCREG42_SWC0 8 /* Software Configuration 0 */ #define XIRCREG42_SWC1 9 /* Software Configuration 1 */ #define XIRCREG42_BOC 10 /* Back-Off Configuration */ #define XIRCREG44_TDR0 8 /* Time Domain Reflectometry 0 */ #define XIRCREG44_TDR1 9 /* Time Domain Reflectometry 1 */ #define XIRCREG44_RXBC_LO 10 /* Rx Byte Count 0 (rd) */ #define XIRCREG44_RXBC_HI 11 /* Rx Byte Count 1 (rd) */ #define XIRCREG45_REV 15 /* Revision Register (rd) */ #define XIRCREG50_IA 8 /* Individual Address (8-13) */ static char *if_names[] = { "Auto", "10BaseT", "10Base2", "AUI", "100BaseT" }; /**************** * All the PCMCIA modules use PCMCIA_DEBUG to control debugging. If * you do not define PCMCIA_DEBUG at all, all the debug code will be * left out. If you compile with PCMCIA_DEBUG=0, the debug code will * be present but disabled -- but it can then be enabled for specific * modules at load time with a 'pc_debug=#' option to insmod. */ #ifdef PCMCIA_DEBUG static int pc_debug = PCMCIA_DEBUG; MODULE_PARM(pc_debug, "i"); #define DEBUG(n, args...) if (pc_debug>(n)) printk(KDBG_XIRC args) #else #define DEBUG(n, args...) #endif static char *version = "xirc2ps_cs.c 1.31 1998/12/09 19:32:55 (dd9jn+kvh)"; /* !--- CVS revision */ #define KDBG_XIRC KERN_DEBUG "xirc2ps_cs: " #define KERR_XIRC KERN_ERR "xirc2ps_cs: " #define KWRN_XIRC KERN_WARNING "xirc2ps_cs: " #define KNOT_XIRC KERN_NOTICE "xirc2ps_cs: " #define KINF_XIRC KERN_INFO "xirc2ps_cs: " /* card types */ #define XIR_UNKNOWN 0 /* unknown: not supported */ #define XIR_CE 1 /* (prodid 1) different hardware: not supported */ #define XIR_CE2 2 /* (prodid 2) */ #define XIR_CE3 3 /* (prodid 3) */ #define XIR_CEM 4 /* (prodid 1) different hardware: not supported */ #define XIR_CEM2 5 /* (prodid 2) */ #define XIR_CEM3 6 /* (prodid 3) */ #define XIR_CEM33 7 /* (prodid 4) */ #define XIR_CEM56M 8 /* (prodid 5) */ #define XIR_CEM56 9 /* (prodid 6) */ #define XIR_CM28 10 /* (prodid 3) modem only: not supported here */ #define XIR_CM33 11 /* (prodid 4) modem only: not supported here */ #define XIR_CM56 12 /* (prodid 5) modem only: not supported here */ #define XIR_CG 13 /* (prodid 1) GSM modem only: not supported */ #define XIR_CBE 14 /* (prodid 1) cardbus ethernet: not supported */ /*====================================================================*/ /* Module parameters */ MODULE_DESCRIPTION("Xircom PCMCIA ethernet driver"); MODULE_LICENSE("Dual MPL/GPL"); #define INT_MODULE_PARM(n, v) static int n = v; MODULE_PARM(n, "i") static int irq_list[4] = { -1 }; MODULE_PARM(irq_list, "1-4i"); INT_MODULE_PARM(irq_mask, 0xdeb8); INT_MODULE_PARM(if_port, 0); INT_MODULE_PARM(full_duplex, 0); INT_MODULE_PARM(do_sound, 1); INT_MODULE_PARM(lockup_hack, 0); /* anti lockup hack */ /*====================================================================*/ /* We do not process more than these number of bytes during one * interrupt. (Of course we receive complete packets, so this is not * an exact value). * Something between 2000..22000; first value gives best interrupt latency, * the second enables the usage of the complete on-chip buffer. We use the * high value as the initial value. */ static unsigned maxrx_bytes = 22000; /* MII management prototypes */ static void mii_idle(ioaddr_t ioaddr); static void mii_putbit(ioaddr_t ioaddr, unsigned data); static int mii_getbit(ioaddr_t ioaddr); static void mii_wbits(ioaddr_t ioaddr, unsigned data, int len); static unsigned mii_rd(ioaddr_t ioaddr, u_char phyaddr, u_char phyreg); static void mii_wr(ioaddr_t ioaddr, u_char phyaddr, u_char phyreg, unsigned data, int len); /* * The event() function is this driver's Card Services event handler. * It will be called by Card Services when an appropriate card status * event is received. The config() and release() entry points are * used to configure or release a socket, in response to card insertion * and ejection events. They are invoked from the event handler. */ static int has_ce2_string(dev_link_t * link); static void xirc2ps_config(dev_link_t * link); static void xirc2ps_release(u_long arg); static int xirc2ps_event(event_t event, int priority, event_callback_args_t * args); /**************** * The attach() and detach() entry points are used to create and destroy * "instances" of the driver, where each instance represents everything * needed to manage one actual PCMCIA card. */ static dev_link_t *xirc2ps_attach(void); static void xirc2ps_detach(dev_link_t *); /**************** * You'll also need to prototype all the functions that will actually * be used to talk to your device. See 'pcmem_cs' for a good example * of a fully self-sufficient driver; the other drivers rely more or * less on other parts of the kernel. */ static void xirc2ps_interrupt(int irq, void *dev_id, struct pt_regs *regs); /* * The dev_info variable is the "key" that is used to match up this * device driver with appropriate cards, through the card configuration * database. */ static dev_info_t dev_info = "xirc2ps_cs"; /**************** * A linked list of "instances" of the device. Each actual * PCMCIA card corresponds to one device instance, and is described * by one dev_link_t structure (defined in ds.h). * * You may not want to use a linked list for this -- for example, the * memory card driver uses an array of dev_link_t pointers, where minor * device numbers are used to derive the corresponding array index. */ static dev_link_t *dev_list; /**************** * A dev_link_t structure has fields for most things that are needed * to keep track of a socket, but there will usually be some device * specific information that also needs to be kept track of. The * 'priv' pointer in a dev_link_t structure can be used to point to * a device-specific private data structure, like this. * * A driver needs to provide a dev_node_t structure for each device * on a card. In some cases, there is only one device per card (for * example, ethernet cards, modems). In other cases, there may be * many actual or logical devices (SCSI adapters, memory cards with * multiple partitions). The dev_node_t structures need to be kept * in a linked list starting at the 'dev' field of a dev_link_t * structure. We allocate them in the card's private data structure, * because they generally can't be allocated dynamically. */ typedef struct local_info_t { dev_link_t link; struct net_device dev; dev_node_t node; struct net_device_stats stats; int card_type; int probe_port; int silicon; /* silicon revision. 0=old CE2, 1=Scipper, 4=Mohawk */ int mohawk; /* a CE3 type card */ int dingo; /* a CEM56 type card */ int new_mii; /* has full 10baseT/100baseT MII */ int modem; /* is a multi function card (i.e with a modem) */ caddr_t dingo_ccr; /* only used for CEM56 cards */ unsigned last_ptr_value; /* last packets transmitted value */ const char *manf_str; } local_info_t; /**************** * Some more prototypes */ static int do_start_xmit(struct sk_buff *skb, struct net_device *dev); static void do_tx_timeout(struct net_device *dev); static struct net_device_stats *do_get_stats(struct net_device *dev); static void set_addresses(struct net_device *dev); static void set_multicast_list(struct net_device *dev); static int set_card_type(dev_link_t *link, const void *s); static int do_config(struct net_device *dev, struct ifmap *map); static int do_open(struct net_device *dev); static int do_ioctl(struct net_device *dev, struct ifreq *rq, int cmd); static void hardreset(struct net_device *dev); static void do_reset(struct net_device *dev, int full); static int init_mii(struct net_device *dev); static void do_powerdown(struct net_device *dev); static int do_stop(struct net_device *dev); /*=============== Helper functions =========================*/ static void flush_stale_links(void) { dev_link_t *link, *next; for (link = dev_list; link; link = next) { next = link->next; if (link->state & DEV_STALE_LINK) xirc2ps_detach(link); } } static void cs_error(client_handle_t handle, int func, int ret) { error_info_t err = { func, ret }; CardServices(ReportError, handle, &err); } static int get_tuple_data(int fn, client_handle_t handle, tuple_t *tuple) { int err; if ((err=CardServices(fn, handle, tuple))) return err; return CardServices(GetTupleData, handle, tuple); } static int get_tuple(int fn, client_handle_t handle, tuple_t *tuple, cisparse_t *parse) { int err; if ((err=get_tuple_data(fn, handle, tuple))) return err; return CardServices(ParseTuple, handle, tuple, parse); } #define first_tuple(a, b, c) get_tuple(GetFirstTuple, a, b, c) #define next_tuple(a, b, c) get_tuple(GetNextTuple, a, b, c) #define SelectPage(pgnr) outb((pgnr), ioaddr + XIRCREG_PR) #define GetByte(reg) ((unsigned)inb(ioaddr + (reg))) #define GetWord(reg) ((unsigned)inw(ioaddr + (reg))) #define PutByte(reg,value) outb((value), ioaddr+(reg)) #define PutWord(reg,value) outw((value), ioaddr+(reg)) static void busy_loop(u_long len) { if (in_interrupt()) { u_long timeout = jiffies + len; u_long flags; save_flags(flags); sti(); while (timeout >= jiffies) ; restore_flags(flags); } else { __set_current_state(TASK_UNINTERRUPTIBLE); schedule_timeout(len); } } /*====== Functions used for debugging =================================*/ #if defined(PCMCIA_DEBUG) && 0 /* reading regs may change system status */ static void PrintRegisters(struct net_device *dev) { ioaddr_t ioaddr = dev->base_addr; if (pc_debug > 1) { int i, page; printk(KDBG_XIRC "Register common: "); for (i = 0; i < 8; i++) printk(" %2.2x", GetByte(i)); printk("\n"); for (page = 0; page <= 8; page++) { printk(KDBG_XIRC "Register page %2x: ", page); SelectPage(page); for (i = 8; i < 16; i++) printk(" %2.2x", GetByte(i)); printk("\n"); } for (page=0x40 ; page <= 0x5f; page++) { if (page == 0x43 || (page >= 0x46 && page <= 0x4f) || (page >= 0x51 && page <=0x5e)) continue; printk(KDBG_XIRC "Register page %2x: ", page); SelectPage(page); for (i = 8; i < 16; i++) printk(" %2.2x", GetByte(i)); printk("\n"); } } } #endif /* PCMCIA_DEBUG */ /*============== MII Management functions ===============*/ /**************** * Turn around for read */ static void mii_idle(ioaddr_t ioaddr) { PutByte(XIRCREG2_GPR2, 0x04|0); /* drive MDCK low */ udelay(1); PutByte(XIRCREG2_GPR2, 0x04|1); /* and drive MDCK high */ udelay(1); } /**************** * Write a bit to MDI/O */ static void mii_putbit(ioaddr_t ioaddr, unsigned data) { #if 1 if (data) { PutByte(XIRCREG2_GPR2, 0x0c|2|0); /* set MDIO */ udelay(1); PutByte(XIRCREG2_GPR2, 0x0c|2|1); /* and drive MDCK high */ udelay(1); } else { PutByte(XIRCREG2_GPR2, 0x0c|0|0); /* clear MDIO */ udelay(1); PutByte(XIRCREG2_GPR2, 0x0c|0|1); /* and drive MDCK high */ udelay(1); } #else if (data) { PutWord(XIRCREG2_GPR2-1, 0x0e0e); udelay(1); PutWord(XIRCREG2_GPR2-1, 0x0f0f); udelay(1); } else { PutWord(XIRCREG2_GPR2-1, 0x0c0c); udelay(1); PutWord(XIRCREG2_GPR2-1, 0x0d0d); udelay(1); } #endif } /**************** * Get a bit from MDI/O */ static int mii_getbit(ioaddr_t ioaddr) { unsigned d; PutByte(XIRCREG2_GPR2, 4|0); /* drive MDCK low */ udelay(1); d = GetByte(XIRCREG2_GPR2); /* read MDIO */ PutByte(XIRCREG2_GPR2, 4|1); /* drive MDCK high again */ udelay(1); return d & 0x20; /* read MDIO */ } static void mii_wbits(ioaddr_t ioaddr, unsigned data, int len) { unsigned m = 1 << (len-1); for (; m; m >>= 1) mii_putbit(ioaddr, data & m); } static unsigned mii_rd(ioaddr_t ioaddr, u_char phyaddr, u_char phyreg) { int i; unsigned data=0, m; SelectPage(2); for (i=0; i < 32; i++) /* 32 bit preamble */ mii_putbit(ioaddr, 1); mii_wbits(ioaddr, 0x06, 4); /* Start and opcode for read */ mii_wbits(ioaddr, phyaddr, 5); /* PHY address to be accessed */ mii_wbits(ioaddr, phyreg, 5); /* PHY register to read */ mii_idle(ioaddr); /* turn around */ mii_getbit(ioaddr); for (m = 1<<15; m; m >>= 1) if (mii_getbit(ioaddr)) data |= m; mii_idle(ioaddr); return data; } static void mii_wr(ioaddr_t ioaddr, u_char phyaddr, u_char phyreg, unsigned data, int len) { int i; SelectPage(2); for (i=0; i < 32; i++) /* 32 bit preamble */ mii_putbit(ioaddr, 1); mii_wbits(ioaddr, 0x05, 4); /* Start and opcode for write */ mii_wbits(ioaddr, phyaddr, 5); /* PHY address to be accessed */ mii_wbits(ioaddr, phyreg, 5); /* PHY Register to write */ mii_putbit(ioaddr, 1); /* turn around */ mii_putbit(ioaddr, 0); mii_wbits(ioaddr, data, len); /* And write the data */ mii_idle(ioaddr); } /*============= Main bulk of functions =========================*/ /**************** * xirc2ps_attach() creates an "instance" of the driver, allocating * local data structures for one device. The device is registered * with Card Services. * * The dev_link structure is initialized, but we don't actually * configure the card at this point -- we wait until we receive a * card insertion event. */ static dev_link_t * xirc2ps_attach(void) { client_reg_t client_reg; dev_link_t *link; struct net_device *dev; local_info_t *local; int err; DEBUG(0, "attach()\n"); flush_stale_links(); /* Allocate the device structure */ local = kmalloc(sizeof(*local), GFP_KERNEL); if (!local) return NULL; memset(local, 0, sizeof(*local)); link = &local->link; dev = &local->dev; link->priv = dev->priv = local; link->release.function = &xirc2ps_release; link->release.data = (u_long) link; /* General socket configuration */ link->conf.Attributes = CONF_ENABLE_IRQ; link->conf.Vcc = 50; link->conf.IntType = INT_MEMORY_AND_IO; link->conf.ConfigIndex = 1; link->conf.Present = PRESENT_OPTION; link->irq.Handler = xirc2ps_interrupt; link->irq.Instance = dev; /* Fill in card specific entries */ dev->hard_start_xmit = &do_start_xmit; dev->set_config = &do_config; dev->get_stats = &do_get_stats; dev->do_ioctl = &do_ioctl; dev->set_multicast_list = &set_multicast_list; ether_setup(dev); dev->open = &do_open; dev->stop = &do_stop; #ifdef HAVE_TX_TIMEOUT dev->tx_timeout = do_tx_timeout; dev->watchdog_timeo = TX_TIMEOUT; #endif /* Register with Card Services */ link->next = dev_list; dev_list = link; client_reg.dev_info = &dev_info; client_reg.Attributes = INFO_IO_CLIENT | INFO_CARD_SHARE; client_reg.EventMask = CS_EVENT_CARD_INSERTION | CS_EVENT_CARD_REMOVAL | CS_EVENT_RESET_PHYSICAL | CS_EVENT_CARD_RESET | CS_EVENT_PM_SUSPEND | CS_EVENT_PM_RESUME; client_reg.event_handler = &xirc2ps_event; client_reg.Version = 0x0210; client_reg.event_callback_args.client_data = link; if ((err = CardServices(RegisterClient, &link->handle, &client_reg))) { cs_error(link->handle, RegisterClient, err); xirc2ps_detach(link); return NULL; } return link; } /* xirc2ps_attach */ /**************** * This deletes a driver "instance". The device is de-registered * with Card Services. If it has been released, all local data * structures are freed. Otherwise, the structures will be freed * when the device is released. */ static void xirc2ps_detach(dev_link_t * link) { local_info_t *local = link->priv; dev_link_t **linkp; DEBUG(0, "detach(0x%p)\n", link); /* Locate device structure */ for (linkp = &dev_list; *linkp; linkp = &(*linkp)->next) if (*linkp == link) break; if (!*linkp) { DEBUG(0, "detach(0x%p): dev_link lost\n", link); return; } /* * If the device is currently configured and active, we won't * actually delete it yet. Instead, it is marked so that when * the release() function is called, that will trigger a proper * detach(). */ del_timer(&link->release); if (link->state & DEV_CONFIG) { DEBUG(0, "detach postponed, '%s' still locked\n", link->dev->dev_name); link->state |= DEV_STALE_LINK; return; } /* Break the link with Card Services */ if (link->handle) CardServices(DeregisterClient, link->handle); /* Unlink device structure, free it */ *linkp = link->next; if (link->dev) unregister_netdev(&local->dev); kfree(local); } /* xirc2ps_detach */ /**************** * Detect the type of the card. s is the buffer with the data of tuple 0x20 * Returns: 0 := not supported * mediaid=11 and prodid=47 * Media-Id bits: * Ethernet 0x01 * Tokenring 0x02 * Arcnet 0x04 * Wireless 0x08 * Modem 0x10 * GSM only 0x20 * Prod-Id bits: * Pocket 0x10 * External 0x20 * Creditcard 0x40 * Cardbus 0x80 * */ static int set_card_type(dev_link_t *link, const void *s) { local_info_t *local = link->priv; #ifdef PCMCIA_DEBUG unsigned cisrev = ((const unsigned char *)s)[2]; #endif unsigned mediaid= ((const unsigned char *)s)[3]; unsigned prodid = ((const unsigned char *)s)[4]; DEBUG(0, "cisrev=%02x mediaid=%02x prodid=%02x\n", cisrev, mediaid, prodid); local->mohawk = 0; local->dingo = 0; local->modem = 0; local->card_type = XIR_UNKNOWN; if (!(prodid & 0x40)) { printk(KNOT_XIRC "Ooops: Not a creditcard\n"); return 0; } if (!(mediaid & 0x01)) { printk(KNOT_XIRC "Not an Ethernet card\n"); return 0; } if (mediaid & 0x10) { local->modem = 1; switch(prodid & 15) { case 1: local->card_type = XIR_CEM ; break; case 2: local->card_type = XIR_CEM2 ; break; case 3: local->card_type = XIR_CEM3 ; break; case 4: local->card_type = XIR_CEM33 ; break; case 5: local->card_type = XIR_CEM56M; local->mohawk = 1; break; case 6: case 7: /* 7 is the RealPort 10/56 */ local->card_type = XIR_CEM56 ; local->mohawk = 1; local->dingo = 1; break; } } else { switch(prodid & 15) { case 1: local->card_type = has_ce2_string(link)? XIR_CE2 : XIR_CE ; break; case 2: local->card_type = XIR_CE2; break; case 3: local->card_type = XIR_CE3; local->mohawk = 1; break; } } if (local->card_type == XIR_CE || local->card_type == XIR_CEM) { printk(KNOT_XIRC "Sorry, this is an old CE card\n"); return 0; } if (local->card_type == XIR_UNKNOWN) printk(KNOT_XIRC "unknown card (mediaid=%02x prodid=%02x)\n", mediaid, prodid); return 1; } /**************** * There are some CE2 cards out which claim to be a CE card. * This function looks for a "CE2" in the 3rd version field. * Returns: true if this is a CE2 */ static int has_ce2_string(dev_link_t * link) { client_handle_t handle = link->handle; tuple_t tuple; cisparse_t parse; u_char buf[256]; tuple.Attributes = 0; tuple.TupleData = buf; tuple.TupleDataMax = 254; tuple.TupleOffset = 0; tuple.DesiredTuple = CISTPL_VERS_1; if (!first_tuple(handle, &tuple, &parse) && parse.version_1.ns > 2) { if (strstr(parse.version_1.str + parse.version_1.ofs[2], "CE2")) return 1; } return 0; } /**************** * xirc2ps_config() is scheduled to run after a CARD_INSERTION event * is received, to configure the PCMCIA socket, and to make the * ethernet device available to the system. */ static void xirc2ps_config(dev_link_t * link) { client_handle_t handle = link->handle; local_info_t *local = link->priv; struct net_device *dev = &local->dev; tuple_t tuple; cisparse_t parse; ioaddr_t ioaddr; int err, i; u_char buf[64]; cistpl_lan_node_id_t *node_id = (cistpl_lan_node_id_t*)parse.funce.data; cistpl_cftable_entry_t *cf = &parse.cftable_entry; local->dingo_ccr = 0; DEBUG(0, "config(0x%p)\n", link); /* * This reads the card's CONFIG tuple to find its configuration * registers. */ tuple.Attributes = 0; tuple.TupleData = buf; tuple.TupleDataMax = 64; tuple.TupleOffset = 0; /* Is this a valid card */ tuple.DesiredTuple = CISTPL_MANFID; if ((err=first_tuple(handle, &tuple, &parse))) { printk(KNOT_XIRC "manfid not found in CIS\n"); goto failure; } switch(parse.manfid.manf) { case MANFID_XIRCOM: local->manf_str = "Xircom"; break; case MANFID_ACCTON: local->manf_str = "Accton"; break; case MANFID_COMPAQ: case MANFID_COMPAQ2: local->manf_str = "Compaq"; break; case MANFID_INTEL: local->manf_str = "Intel"; break; case MANFID_TOSHIBA: local->manf_str = "Toshiba"; break; default: printk(KNOT_XIRC "Unknown Card Manufacturer ID: 0x%04x\n", (unsigned)parse.manfid.manf); goto failure; } DEBUG(0, "found %s card\n", local->manf_str); if (!set_card_type(link, buf)) { printk(KNOT_XIRC "this card is not supported\n"); goto failure; } /* get configuration stuff */ tuple.DesiredTuple = CISTPL_CONFIG; if ((err=first_tuple(handle, &tuple, &parse))) goto cis_error; link->conf.ConfigBase = parse.config.base; link->conf.Present = parse.config.rmask[0]; /* get the ethernet address from the CIS */ tuple.DesiredTuple = CISTPL_FUNCE; for (err = first_tuple(handle, &tuple, &parse); !err; err = next_tuple(handle, &tuple, &parse)) { /* Once I saw two CISTPL_FUNCE_LAN_NODE_ID entries: * the first one with a length of zero the second correct - * so I skip all entries with length 0 */ if (parse.funce.type == CISTPL_FUNCE_LAN_NODE_ID && ((cistpl_lan_node_id_t *)parse.funce.data)->nb) break; } if (err) { /* not found: try to get the node-id from tuple 0x89 */ tuple.DesiredTuple = 0x89; /* data layout looks like tuple 0x22 */ if (!(err = get_tuple_data(GetFirstTuple, handle, &tuple))) { if (tuple.TupleDataLen == 8 && *buf == CISTPL_FUNCE_LAN_NODE_ID) memcpy(&parse, buf, 8); else err = -1; } } if (err) { /* another try (James Lehmer's CE2 version 4.1)*/ tuple.DesiredTuple = CISTPL_FUNCE; for (err = first_tuple(handle, &tuple, &parse); !err; err = next_tuple(handle, &tuple, &parse)) { if (parse.funce.type == 0x02 && parse.funce.data[0] == 1 && parse.funce.data[1] == 6 && tuple.TupleDataLen == 13) { buf[1] = 4; memcpy(&parse, buf+1, 8); break; } } } if (err) { printk(KNOT_XIRC "node-id not found in CIS\n"); goto failure; } node_id = (cistpl_lan_node_id_t *)parse.funce.data; if (node_id->nb != 6) { printk(KNOT_XIRC "malformed node-id in CIS\n"); goto failure; } for (i=0; i < 6; i++) dev->dev_addr[i] = node_id->id[i]; /* Configure card */ link->state |= DEV_CONFIG; link->io.IOAddrLines =10; link->io.Attributes1 = IO_DATA_PATH_WIDTH_16; link->irq.Attributes = IRQ_HANDLE_PRESENT; link->irq.IRQInfo1 = IRQ_INFO2_VALID | IRQ_LEVEL_ID; if (irq_list[0] == -1) link->irq.IRQInfo2 = irq_mask; else { for (i = 0; i < 4; i++) link->irq.IRQInfo2 |= 1 << irq_list[i]; } if (local->modem) { int pass; if (do_sound) { link->conf.Attributes |= CONF_ENABLE_SPKR; link->conf.Status |= CCSR_AUDIO_ENA; } link->irq.Attributes |= IRQ_TYPE_DYNAMIC_SHARING|IRQ_FIRST_SHARED ; link->io.NumPorts2 = 8; link->io.Attributes2 = IO_DATA_PATH_WIDTH_8; if (local->dingo) { /* Take the Modem IO port from the CIS and scan for a free * Ethernet port */ link->io.NumPorts1 = 16; /* no Mako stuff anymore */ tuple.DesiredTuple = CISTPL_CFTABLE_ENTRY; for (err = first_tuple(handle, &tuple, &parse); !err; err = next_tuple(handle, &tuple, &parse)) { if (cf->io.nwin > 0 && (cf->io.win[0].base & 0xf) == 8) { for (ioaddr = 0x300; ioaddr < 0x400; ioaddr += 0x10) { link->conf.ConfigIndex = cf->index ; link->io.BasePort2 = cf->io.win[0].base; link->io.BasePort1 = ioaddr; if (!(err=CardServices(RequestIO, link->handle, &link->io))) goto port_found; } } } } else { link->io.NumPorts1 = 18; /* We do 2 passes here: The first one uses the regular mapping and * the second tries again, thereby considering that the 32 ports are * mirrored every 32 bytes. Actually we use a mirrored port for * the Mako if (on the first pass) the COR bit 5 is set. */ for (pass=0; pass < 2; pass++) { tuple.DesiredTuple = CISTPL_CFTABLE_ENTRY; for (err = first_tuple(handle, &tuple, &parse); !err; err = next_tuple(handle, &tuple, &parse)){ if (cf->io.nwin > 0 && (cf->io.win[0].base & 0xf) == 8){ link->conf.ConfigIndex = cf->index ; link->io.BasePort2 = cf->io.win[0].base; link->io.BasePort1 = link->io.BasePort2 + (pass ? (cf->index & 0x20 ? -24:8) : (cf->index & 0x20 ? 8:-24)); if (!(err=CardServices(RequestIO, link->handle, &link->io))) goto port_found; } } } /* if special option: * try to configure as Ethernet only. * .... */ } printk(KNOT_XIRC "no ports available\n"); } else { link->irq.Attributes |= IRQ_TYPE_EXCLUSIVE; link->io.NumPorts1 = 16; for (ioaddr = 0x300; ioaddr < 0x400; ioaddr += 0x10) { link->io.BasePort1 = ioaddr; if (!(err=CardServices(RequestIO, link->handle, &link->io))) goto port_found; } link->io.BasePort1 = 0; /* let CS decide */ if ((err=CardServices(RequestIO, link->handle, &link->io))) { cs_error(link->handle, RequestIO, err); goto config_error; } } port_found: if (err) goto config_error; /**************** * Now allocate an interrupt line. Note that this does not * actually assign a handler to the interrupt. */ if ((err=CardServices(RequestIRQ, link->handle, &link->irq))) { cs_error(link->handle, RequestIRQ, err); goto config_error; } /**************** * This actually configures the PCMCIA socket -- setting up * the I/O windows and the interrupt mapping. */ if ((err=CardServices(RequestConfiguration, link->handle, &link->conf))) { cs_error(link->handle, RequestConfiguration, err); goto config_error; } if (local->dingo) { conf_reg_t reg; win_req_t req; memreq_t mem; /* Reset the modem's BAR to the correct value * This is necessary because in the RequestConfiguration call, * the base address of the ethernet port (BasePort1) is written * to the BAR registers of the modem. */ reg.Action = CS_WRITE; reg.Offset = CISREG_IOBASE_0; reg.Value = link->io.BasePort2 & 0xff; if ((err = CardServices(AccessConfigurationRegister, link->handle, ®))) { cs_error(link->handle, AccessConfigurationRegister, err); goto config_error; } reg.Action = CS_WRITE; reg.Offset = CISREG_IOBASE_1; reg.Value = (link->io.BasePort2 >> 8) & 0xff; if ((err = CardServices(AccessConfigurationRegister, link->handle, ®))) { cs_error(link->handle, AccessConfigurationRegister, err); goto config_error; } /* There is no config entry for the Ethernet part which * is at 0x0800. So we allocate a window into the attribute * memory and write direct to the CIS registers */ req.Attributes = WIN_DATA_WIDTH_8|WIN_MEMORY_TYPE_AM|WIN_ENABLE; req.Base = req.Size = 0; req.AccessSpeed = 0; link->win = (window_handle_t)link->handle; if ((err = CardServices(RequestWindow, &link->win, &req))) { cs_error(link->handle, RequestWindow, err); goto config_error; } local->dingo_ccr = ioremap(req.Base,0x1000) + 0x0800; mem.CardOffset = 0x0; mem.Page = 0; if ((err = CardServices(MapMemPage, link->win, &mem))) { cs_error(link->handle, MapMemPage, err); goto config_error; } /* Setup the CCRs; there are no infos in the CIS about the Ethernet * part. */ writeb(0x47, local->dingo_ccr + CISREG_COR); ioaddr = link->io.BasePort1; writeb(ioaddr & 0xff , local->dingo_ccr + CISREG_IOBASE_0); writeb((ioaddr >> 8)&0xff , local->dingo_ccr + CISREG_IOBASE_1); #if 0 { u_char tmp; printk(KERN_INFO "ECOR:"); for (i=0; i < 7; i++) { tmp = readb(local->dingo_ccr + i*2); printk(" %02x", tmp); } printk("\n"); printk(KERN_INFO "DCOR:"); for (i=0; i < 4; i++) { tmp = readb(local->dingo_ccr + 0x20 + i*2); printk(" %02x", tmp); } printk("\n"); printk(KERN_INFO "SCOR:"); for (i=0; i < 10; i++) { tmp = readb(local->dingo_ccr + 0x40 + i*2); printk(" %02x", tmp); } printk("\n"); } #endif writeb(0x01, local->dingo_ccr + 0x20); writeb(0x0c, local->dingo_ccr + 0x22); writeb(0x00, local->dingo_ccr + 0x24); writeb(0x00, local->dingo_ccr + 0x26); writeb(0x00, local->dingo_ccr + 0x28); } /* The if_port symbol can be set when the module is loaded */ local->probe_port=0; if (!if_port) { local->probe_port = dev->if_port = 1; } else if ((if_port >= 1 && if_port <= 2) || (local->mohawk && if_port==4)) dev->if_port = if_port; else printk(KNOT_XIRC "invalid if_port requested\n"); /* we can now register the device with the net subsystem */ dev->irq = link->irq.AssignedIRQ; dev->base_addr = link->io.BasePort1; if ((err=register_netdev(dev))) { printk(KNOT_XIRC "register_netdev() failed\n"); goto config_error; } strcpy(local->node.dev_name, dev->name); link->dev = &local->node; link->state &= ~DEV_CONFIG_PENDING; if (local->dingo) do_reset(dev, 1); /* a kludge to make the cem56 work */ /* give some infos about the hardware */ printk(KERN_INFO "%s: %s: port %#3lx, irq %d, hwaddr", dev->name, local->manf_str,(u_long)dev->base_addr, (int)dev->irq); for (i = 0; i < 6; i++) printk("%c%02X", i?':':' ', dev->dev_addr[i]); printk("\n"); return; config_error: link->state &= ~DEV_CONFIG_PENDING; xirc2ps_release((u_long)link); return; cis_error: printk(KNOT_XIRC "unable to parse CIS\n"); failure: link->state &= ~DEV_CONFIG_PENDING; } /* xirc2ps_config */ /**************** * After a card is removed, xirc2ps_release() will unregister the net * device, and release the PCMCIA configuration. If the device is * still open, this will be postponed until it is closed. */ static void xirc2ps_release(u_long arg) { dev_link_t *link = (dev_link_t *) arg; local_info_t *local = link->priv; struct net_device *dev = &local->dev; DEBUG(0, "release(0x%p)\n", link); /* * If the device is currently in use, we won't release until it * is actually closed. */ if (link->open) { DEBUG(0, "release postponed, '%s' " "still open\n", link->dev->dev_name); link->state |= DEV_STALE_CONFIG; return; } if (link->win) { local_info_t *local = dev->priv; if (local->dingo) iounmap(local->dingo_ccr - 0x0800); CardServices(ReleaseWindow, link->win); } CardServices(ReleaseConfiguration, link->handle); CardServices(ReleaseIO, link->handle, &link->io); CardServices(ReleaseIRQ, link->handle, &link->irq); link->state &= ~DEV_CONFIG; } /* xirc2ps_release */ /*====================================================================*/ /**************** * The card status event handler. Mostly, this schedules other * stuff to run after an event is received. A CARD_REMOVAL event * also sets some flags to discourage the net drivers from trying * to talk to the card any more. * * When a CARD_REMOVAL event is received, we immediately set a flag * to block future accesses to this device. All the functions that * actually access the device should check this flag to make sure * the card is still present. */ static int xirc2ps_event(event_t event, int priority, event_callback_args_t * args) { dev_link_t *link = args->client_data; local_info_t *lp = link->priv; struct net_device *dev = &lp->dev; DEBUG(0, "event(%d)\n", (int)event); switch (event) { case CS_EVENT_REGISTRATION_COMPLETE: DEBUG(0, "registration complete\n"); break; case CS_EVENT_CARD_REMOVAL: link->state &= ~DEV_PRESENT; if (link->state & DEV_CONFIG) { netif_device_detach(dev); mod_timer(&link->release, jiffies + HZ/20); } break; case CS_EVENT_CARD_INSERTION: link->state |= DEV_PRESENT | DEV_CONFIG_PENDING; xirc2ps_config(link); break; case CS_EVENT_PM_SUSPEND: link->state |= DEV_SUSPEND; /* Fall through... */ case CS_EVENT_RESET_PHYSICAL: if (link->state & DEV_CONFIG) { if (link->open) { netif_device_detach(dev); do_powerdown(dev); } CardServices(ReleaseConfiguration, link->handle); } break; case CS_EVENT_PM_RESUME: link->state &= ~DEV_SUSPEND; /* Fall through... */ case CS_EVENT_CARD_RESET: if (link->state & DEV_CONFIG) { CardServices(RequestConfiguration, link->handle, &link->conf); if (link->open) { do_reset(dev,1); netif_device_attach(dev); } } break; } return 0; } /* xirc2ps_event */ /*====================================================================*/ /**************** * This is the Interrupt service route. */ static void xirc2ps_interrupt(int irq, void *dev_id, struct pt_regs *regs) { struct net_device *dev = (struct net_device *)dev_id; local_info_t *lp = dev->priv; ioaddr_t ioaddr; u_char saved_page; unsigned bytes_rcvd; unsigned int_status, eth_status, rx_status, tx_status; unsigned rsr, pktlen; ulong start_ticks = jiffies; /* fixme: jiffies rollover every 497 days * is this something to worry about? * -- on a laptop? */ if (!netif_device_present(dev)) return; ioaddr = dev->base_addr; if (lp->mohawk) { /* must disable the interrupt */ PutByte(XIRCREG_CR, 0); } DEBUG(6, "%s: interrupt %d at %#x.\n", dev->name, irq, ioaddr); saved_page = GetByte(XIRCREG_PR); /* Read the ISR to see whats the cause for the interrupt. * This also clears the interrupt flags on CE2 cards */ int_status = GetByte(XIRCREG_ISR); bytes_rcvd = 0; loop_entry: if (int_status == 0xff) { /* card may be ejected */ DEBUG(3, "%s: interrupt %d for dead card\n", dev->name, irq); goto leave; } eth_status = GetByte(XIRCREG_ESR); SelectPage(0x40); rx_status = GetByte(XIRCREG40_RXST0); PutByte(XIRCREG40_RXST0, (~rx_status & 0xff)); tx_status = GetByte(XIRCREG40_TXST0); tx_status |= GetByte(XIRCREG40_TXST1) << 8; PutByte(XIRCREG40_TXST0, 0); PutByte(XIRCREG40_TXST1, 0); DEBUG(3, "%s: ISR=%#2.2x ESR=%#2.2x RSR=%#2.2x TSR=%#4.4x\n", dev->name, int_status, eth_status, rx_status, tx_status); /***** receive section ******/ SelectPage(0); while (eth_status & FullPktRcvd) { rsr = GetByte(XIRCREG0_RSR); if (bytes_rcvd > maxrx_bytes && (rsr & PktRxOk)) { /* too many bytes received during this int, drop the rest of the * packets */ lp->stats.rx_dropped++; DEBUG(2, "%s: RX drop, too much done\n", dev->name); } else if (rsr & PktRxOk) { struct sk_buff *skb; pktlen = GetWord(XIRCREG0_RBC); bytes_rcvd += pktlen; DEBUG(5, "rsr=%#02x packet_length=%u\n", rsr, pktlen); skb = dev_alloc_skb(pktlen+3); /* 1 extra so we can use insw */ if (!skb) { printk(KNOT_XIRC "low memory, packet dropped (size=%u)\n", pktlen); lp->stats.rx_dropped++; } else { /* okay get the packet */ skb_reserve(skb, 2); if (lp->silicon == 0 ) { /* work around a hardware bug */ unsigned rhsa; /* receive start address */ SelectPage(5); rhsa = GetWord(XIRCREG5_RHSA0); SelectPage(0); rhsa += 3; /* skip control infos */ if (rhsa >= 0x8000) rhsa = 0; if (rhsa + pktlen > 0x8000) { unsigned i; u_char *buf = skb_put(skb, pktlen); for (i=0; i < pktlen ; i++, rhsa++) { buf[i] = GetByte(XIRCREG_EDP); if (rhsa == 0x8000) { rhsa = 0; i--; } } } else { insw(ioaddr+XIRCREG_EDP, skb_put(skb, pktlen), (pktlen+1)>>1); } } #if 0 else if (lp->mohawk) { /* To use this 32 bit access we should use * a manual optimized loop * Also the words are swapped, we can get more * performance by using 32 bit access and swapping * the words in a register. Will need this for cardbus * * Note: don't forget to change the ALLOC_SKB to .. +3 */ unsigned i; u_long *p = skb_put(skb, pktlen); register u_long a; ioaddr_t edpreg = ioaddr+XIRCREG_EDP-2; for (i=0; i < len ; i += 4, p++) { a = inl(edpreg); __asm__("rorl $16,%0\n\t" :"=q" (a) : "0" (a)); *p = a; } } #endif else { insw(ioaddr+XIRCREG_EDP, skb_put(skb, pktlen), (pktlen+1)>>1); } skb->protocol = eth_type_trans(skb, dev); skb->dev = dev; netif_rx(skb); dev->last_rx = jiffies; lp->stats.rx_packets++; lp->stats.rx_bytes += pktlen; if (!(rsr & PhyPkt)) lp->stats.multicast++; } } else { /* bad packet */ DEBUG(5, "rsr=%#02x\n", rsr); } if (rsr & PktTooLong) { lp->stats.rx_frame_errors++; DEBUG(3, "%s: Packet too long\n", dev->name); } if (rsr & CRCErr) { lp->stats.rx_crc_errors++; DEBUG(3, "%s: CRC error\n", dev->name); } if (rsr & AlignErr) { lp->stats.rx_fifo_errors++; /* okay ? */ DEBUG(3, "%s: Alignment error\n", dev->name); } /* clear the received/dropped/error packet */ PutWord(XIRCREG0_DO, 0x8000); /* issue cmd: skip_rx_packet */ /* get the new ethernet status */ eth_status = GetByte(XIRCREG_ESR); } if (rx_status & 0x10) { /* Receive overrun */ lp->stats.rx_over_errors++; PutByte(XIRCREG_CR, ClearRxOvrun); DEBUG(3, "receive overrun cleared\n"); } /***** transmit section ******/ if (int_status & PktTxed) { unsigned n, nn; n = lp->last_ptr_value; nn = GetByte(XIRCREG0_PTR); lp->last_ptr_value = nn; if (nn < n) /* rollover */ lp->stats.tx_packets += 256 - n; else if (n == nn) { /* happens sometimes - don't know why */ DEBUG(0, "PTR not changed?\n"); } else lp->stats.tx_packets += lp->last_ptr_value - n; netif_wake_queue(dev); } if (tx_status & 0x0002) { /* Execessive collissions */ DEBUG(0, "tx restarted due to execssive collissions\n"); PutByte(XIRCREG_CR, RestartTx); /* restart transmitter process */ } if (tx_status & 0x0040) lp->stats.tx_aborted_errors++; /* recalculate our work chunk so that we limit the duration of this * ISR to about 1/10 of a second. * Calculate only if we received a reasonable amount of bytes. */ if (bytes_rcvd > 1000) { u_long duration = jiffies - start_ticks; if (duration >= HZ/10) { /* if more than about 1/10 second */ maxrx_bytes = (bytes_rcvd * (HZ/10)) / duration; if (maxrx_bytes < 2000) maxrx_bytes = 2000; else if (maxrx_bytes > 22000) maxrx_bytes = 22000; DEBUG(1, "set maxrx=%u (rcvd=%u ticks=%lu)\n", maxrx_bytes, bytes_rcvd, duration); } else if (!duration && maxrx_bytes < 22000) { /* now much faster */ maxrx_bytes += 2000; if (maxrx_bytes > 22000) maxrx_bytes = 22000; DEBUG(1, "set maxrx=%u\n", maxrx_bytes); } } leave: if (lockup_hack) { if (int_status != 0xff && (int_status = GetByte(XIRCREG_ISR)) != 0) goto loop_entry; } SelectPage(saved_page); PutByte(XIRCREG_CR, EnableIntr); /* re-enable interrupts */ /* Instead of dropping packets during a receive, we could * force an interrupt with this command: * PutByte(XIRCREG_CR, EnableIntr|ForceIntr); */ } /* xirc2ps_interrupt */ /*====================================================================*/ static void do_tx_timeout(struct net_device *dev) { local_info_t *lp = dev->priv; printk(KERN_NOTICE "%s: transmit timed out\n", dev->name); lp->stats.tx_errors++; /* reset the card */ do_reset(dev,1); dev->trans_start = jiffies; netif_wake_queue(dev); } static int do_start_xmit(struct sk_buff *skb, struct net_device *dev) { local_info_t *lp = dev->priv; ioaddr_t ioaddr = dev->base_addr; int okay; unsigned freespace; unsigned pktlen = skb? skb->len : 0; DEBUG(1, "do_start_xmit(skb=%p, dev=%p) len=%u\n", skb, dev, pktlen); netif_stop_queue(dev); /* adjust the packet length to min. required * and hope that the buffer is large enough * to provide some random data. * fixme: For Mohawk we can change this by sending * a larger packetlen than we actually have; the chip will * pad this in his buffer with random bytes */ if (pktlen < ETH_ZLEN) pktlen = ETH_ZLEN; SelectPage(0); PutWord(XIRCREG0_TRS, (u_short)pktlen+2); freespace = GetWord(XIRCREG0_TSO); okay = freespace & 0x8000; freespace &= 0x7fff; /* TRS doesn't work - (indeed it is eliminated with sil-rev 1) */ okay = pktlen +2 < freespace; DEBUG(2 + (okay ? 2 : 0), "%s: avail. tx space=%u%s\n", dev->name, freespace, okay ? " (okay)":" (not enough)"); if (!okay) { /* not enough space */ return 1; /* upper layer may decide to requeue this packet */ } /* send the packet */ PutWord(XIRCREG_EDP, (u_short)pktlen); outsw(ioaddr+XIRCREG_EDP, skb->data, pktlen>>1); if (pktlen & 1) PutByte(XIRCREG_EDP, skb->data[pktlen-1]); if (lp->mohawk) PutByte(XIRCREG_CR, TransmitPacket|EnableIntr); dev_kfree_skb (skb); dev->trans_start = jiffies; lp->stats.tx_bytes += pktlen; netif_start_queue(dev); return 0; } static struct net_device_stats * do_get_stats(struct net_device *dev) { local_info_t *lp = dev->priv; /* lp->stats.rx_missed_errors = GetByte(?) */ return &lp->stats; } /**************** * Set all addresses: This first one is the individual address, * the next 9 addresses are taken from the multicast list and * the rest is filled with the individual address. */ static void set_addresses(struct net_device *dev) { ioaddr_t ioaddr = dev->base_addr; local_info_t *lp = dev->priv; struct dev_mc_list *dmi = dev->mc_list; char *addr; int i,j,k,n; SelectPage(k=0x50); for (i=0,j=8,n=0; ; i++, j++) { if (i > 5) { if (++n > 9) break; i = 0; } if (j > 15) { j = 8; k++; SelectPage(k); } if (n && n <= dev->mc_count && dmi) { addr = dmi->dmi_addr; dmi = dmi->next; } else addr = dev->dev_addr; if (lp->mohawk) PutByte(j, addr[5-i]); else PutByte(j, addr[i]); } SelectPage(0); } /**************** * Set or clear the multicast filter for this adaptor. * We can filter up to 9 addresses, if more are requested we set * multicast promiscuous mode. */ static void set_multicast_list(struct net_device *dev) { ioaddr_t ioaddr = dev->base_addr; SelectPage(0x42); if (dev->flags & IFF_PROMISC) { /* snoop */ PutByte(XIRCREG42_SWC1, 0x06); /* set MPE and PME */ } else if (dev->mc_count > 9 || (dev->flags & IFF_ALLMULTI)) { PutByte(XIRCREG42_SWC1, 0x06); /* set MPE */ } else if (dev->mc_count) { /* the chip can filter 9 addresses perfectly */ PutByte(XIRCREG42_SWC1, 0x00); SelectPage(0x40); PutByte(XIRCREG40_CMD0, Offline); set_addresses(dev); SelectPage(0x40); PutByte(XIRCREG40_CMD0, EnableRecv | Online); } else { /* standard usage */ PutByte(XIRCREG42_SWC1, 0x00); } SelectPage(0); } static int do_config(struct net_device *dev, struct ifmap *map) { local_info_t *local = dev->priv; DEBUG(0, "do_config(%p)\n", dev); if (map->port != 255 && map->port != dev->if_port) { if (map->port > 4) return -EINVAL; if (!map->port) { local->probe_port = 1; dev->if_port = 1; } else { local->probe_port = 0; dev->if_port = map->port; } printk(KERN_INFO "%s: switching to %s port\n", dev->name, if_names[dev->if_port]); do_reset(dev,1); /* not the fine way :-) */ } return 0; } /**************** * Open the driver */ static int do_open(struct net_device *dev) { local_info_t *lp = dev->priv; dev_link_t *link = &lp->link; DEBUG(0, "do_open(%p)\n", dev); /* Check that the PCMCIA card is still here. */ /* Physical device present signature. */ if (!DEV_OK(link)) return -ENODEV; /* okay */ link->open++; MOD_INC_USE_COUNT; netif_start_queue(dev); do_reset(dev,1); return 0; } static int do_ioctl(struct net_device *dev, struct ifreq *rq, int cmd) { local_info_t *local = dev->priv; ioaddr_t ioaddr = dev->base_addr; u16 *data = (u16 *)&rq->ifr_data; DEBUG(1, "%s: ioctl(%-.6s, %#04x) %04x %04x %04x %04x\n", dev->name, rq->ifr_ifrn.ifrn_name, cmd, data[0], data[1], data[2], data[3]); if (!local->mohawk) return -EOPNOTSUPP; switch(cmd) { case SIOCDEVPRIVATE: /* Get the address of the PHY in use. */ data[0] = 0; /* we have only this address */ /* fall trough */ case SIOCDEVPRIVATE+1: /* Read the specified MII register. */ data[3] = mii_rd(ioaddr, data[0] & 0x1f, data[1] & 0x1f); break; case SIOCDEVPRIVATE+2: /* Write the specified MII register */ if (!capable(CAP_NET_ADMIN)) return -EPERM; mii_wr(ioaddr, data[0] & 0x1f, data[1] & 0x1f, data[2], 16); break; default: return -EOPNOTSUPP; } return 0; } static void hardreset(struct net_device *dev) { local_info_t *local = dev->priv; ioaddr_t ioaddr = dev->base_addr; SelectPage(4); udelay(1); PutByte(XIRCREG4_GPR1, 0); /* clear bit 0: power down */ busy_loop(HZ/25); /* wait 40 msec */ if (local->mohawk) PutByte(XIRCREG4_GPR1, 1); /* set bit 0: power up */ else PutByte(XIRCREG4_GPR1, 1 | 4); /* set bit 0: power up, bit 2: AIC */ busy_loop(HZ/50); /* wait 20 msec */ } static void do_reset(struct net_device *dev, int full) { local_info_t *local = dev->priv; ioaddr_t ioaddr = dev->base_addr; unsigned value; DEBUG(0, "%s: do_reset(%p,%d)\n", dev? dev->name:"eth?", dev, full); hardreset(dev); PutByte(XIRCREG_CR, SoftReset); /* set */ busy_loop(HZ/50); /* wait 20 msec */ PutByte(XIRCREG_CR, 0); /* clear */ busy_loop(HZ/25); /* wait 40 msec */ if (local->mohawk) { SelectPage(4); /* set pin GP1 and GP2 to output (0x0c) * set GP1 to low to power up the ML6692 (0x00) * set GP2 to high to power up the 10Mhz chip (0x02) */ PutByte(XIRCREG4_GPR0, 0x0e); } /* give the circuits some time to power up */ busy_loop(HZ/2); /* about 500ms */ local->last_ptr_value = 0; local->silicon = local->mohawk ? (GetByte(XIRCREG4_BOV) & 0x70) >> 4 : (GetByte(XIRCREG4_BOV) & 0x30) >> 4; if (local->probe_port) { if (!local->mohawk) { SelectPage(4); PutByte(XIRCREG4_GPR0, 4); local->probe_port = 0; } } else if (dev->if_port == 2) { /* enable 10Base2 */ SelectPage(0x42); PutByte(XIRCREG42_SWC1, 0xC0); } else { /* enable 10BaseT */ SelectPage(0x42); PutByte(XIRCREG42_SWC1, 0x80); } busy_loop(HZ/25); /* wait 40 msec to let it complete */ #ifdef PCMCIA_DEBUG if (pc_debug) { SelectPage(0); value = GetByte(XIRCREG_ESR); /* read the ESR */ printk(KERN_DEBUG "%s: ESR is: %#02x\n", dev->name, value); } #endif /* setup the ECR */ SelectPage(1); PutByte(XIRCREG1_IMR0, 0xff); /* allow all ints */ PutByte(XIRCREG1_IMR1, 1 ); /* and Set TxUnderrunDetect */ value = GetByte(XIRCREG1_ECR); #if 0 if (local->mohawk) value |= DisableLinkPulse; PutByte(XIRCREG1_ECR, value); #endif DEBUG(0, "%s: ECR is: %#02x\n", dev->name, value); SelectPage(0x42); PutByte(XIRCREG42_SWC0, 0x20); /* disable source insertion */ if (local->silicon != 1) { /* set the local memory dividing line. * The comments in the sample code say that this is only * settable with the scipper version 2 which is revision 0. * Always for CE3 cards */ SelectPage(2); PutWord(XIRCREG2_RBS, 0x2000); } if (full) set_addresses(dev); /* Hardware workaround: * The receive byte pointer after reset is off by 1 so we need * to move the offset pointer back to 0. */ SelectPage(0); PutWord(XIRCREG0_DO, 0x2000); /* change offset command, off=0 */ /* setup MAC IMRs and clear status registers */ SelectPage(0x40); /* Bit 7 ... bit 0 */ PutByte(XIRCREG40_RMASK0, 0xff); /* ROK, RAB, rsv, RO, CRC, AE, PTL, MP */ PutByte(XIRCREG40_TMASK0, 0xff); /* TOK, TAB, SQE, LL, TU, JAB, EXC, CRS */ PutByte(XIRCREG40_TMASK1, 0xb0); /* rsv, rsv, PTD, EXT, rsv,rsv,rsv, rsv*/ PutByte(XIRCREG40_RXST0, 0x00); /* ROK, RAB, REN, RO, CRC, AE, PTL, MP */ PutByte(XIRCREG40_TXST0, 0x00); /* TOK, TAB, SQE, LL, TU, JAB, EXC, CRS */ PutByte(XIRCREG40_TXST1, 0x00); /* TEN, rsv, PTD, EXT, retry_counter:4 */ if (full && local->mohawk && init_mii(dev)) { if (dev->if_port == 4 || local->dingo || local->new_mii) { printk(KERN_INFO "%s: MII selected\n", dev->name); SelectPage(2); PutByte(XIRCREG2_MSR, GetByte(XIRCREG2_MSR) | 0x08); busy_loop(HZ/50); } else { printk(KERN_INFO "%s: MII detected; using 10mbs\n", dev->name); SelectPage(0x42); if (dev->if_port == 2) /* enable 10Base2 */ PutByte(XIRCREG42_SWC1, 0xC0); else /* enable 10BaseT */ PutByte(XIRCREG42_SWC1, 0x80); busy_loop(HZ/25); /* wait 40 msec to let it complete */ } if (full_duplex) PutByte(XIRCREG1_ECR, GetByte(XIRCREG1_ECR | FullDuplex)); } else { /* No MII */ SelectPage(0); value = GetByte(XIRCREG_ESR); /* read the ESR */ dev->if_port = (value & MediaSelect) ? 1 : 2; } /* configure the LEDs */ SelectPage(2); if (dev->if_port == 1 || dev->if_port == 4) /* TP: Link and Activity */ PutByte(XIRCREG2_LED, 0x3b); else /* Coax: Not-Collision and Activity */ PutByte(XIRCREG2_LED, 0x3a); if (local->dingo) PutByte(0x0b, 0x04); /* 100 Mbit LED */ /* enable receiver and put the mac online */ if (full) { SelectPage(0x40); PutByte(XIRCREG40_CMD0, EnableRecv | Online); } /* setup Ethernet IMR and enable interrupts */ SelectPage(1); PutByte(XIRCREG1_IMR0, 0xff); udelay(1); SelectPage(0); PutByte(XIRCREG_CR, EnableIntr); if (local->modem && !local->dingo) { /* do some magic */ if (!(GetByte(0x10) & 0x01)) PutByte(0x10, 0x11); /* unmask master-int bit */ } if (full) printk(KERN_INFO "%s: media %s, silicon revision %d\n", dev->name, if_names[dev->if_port], local->silicon); /* We should switch back to page 0 to avoid a bug in revision 0 * where regs with offset below 8 can't be read after an access * to the MAC registers */ SelectPage(0); } /**************** * Initialize the Media-Independent-Interface * Returns: True if we have a good MII */ static int init_mii(struct net_device *dev) { local_info_t *local = dev->priv; ioaddr_t ioaddr = dev->base_addr; unsigned control, status, linkpartner; int i; if (if_port == 4 || if_port == 1) { /* force 100BaseT or 10BaseT */ dev->if_port = if_port; local->probe_port = 0; return 1; } status = mii_rd(ioaddr, 0, 1); if ((status & 0xff00) != 0x7800) return 0; /* No MII */ local->new_mii = (mii_rd(ioaddr, 0, 2) != 0xffff); if (local->probe_port) control = 0x1000; /* auto neg */ else if (dev->if_port == 4) control = 0x2000; /* no auto neg, 100mbs mode */ else control = 0x0000; /* no auto neg, 10mbs mode */ mii_wr(ioaddr, 0, 0, control, 16); udelay(100); control = mii_rd(ioaddr, 0, 0); if (control & 0x0400) { printk(KERN_NOTICE "%s can't take PHY out of isolation mode\n", dev->name); local->probe_port = 0; return 0; } if (local->probe_port) { /* according to the DP83840A specs the auto negotiation process * may take up to 3.5 sec, so we use this also for our ML6692 * Fixme: Better to use a timer here! */ for (i=0; i < 35; i++) { busy_loop(HZ/10); /* wait 100 msec */ status = mii_rd(ioaddr, 0, 1); if ((status & 0x0020) && (status & 0x0004)) break; } if (!(status & 0x0020)) { printk(KERN_INFO "%s: autonegotiation failed;" " using 10mbs\n", dev->name); if (!local->new_mii) { control = 0x0000; mii_wr(ioaddr, 0, 0, control, 16); udelay(100); SelectPage(0); dev->if_port = (GetByte(XIRCREG_ESR) & MediaSelect) ? 1 : 2; } } else { linkpartner = mii_rd(ioaddr, 0, 5); printk(KERN_INFO "%s: MII link partner: %04x\n", dev->name, linkpartner); if (linkpartner & 0x0080) { dev->if_port = 4; } else dev->if_port = 1; } } return 1; } static void do_powerdown(struct net_device *dev) { ioaddr_t ioaddr = dev->base_addr; DEBUG(0, "do_powerdown(%p)\n", dev); SelectPage(4); PutByte(XIRCREG4_GPR1, 0); /* clear bit 0: power down */ SelectPage(0); } static int do_stop(struct net_device *dev) { ioaddr_t ioaddr = dev->base_addr; local_info_t *lp = dev->priv; dev_link_t *link = &lp->link; DEBUG(0, "do_stop(%p)\n", dev); if (!link) return -ENODEV; netif_stop_queue(dev); SelectPage(0); PutByte(XIRCREG_CR, 0); /* disable interrupts */ SelectPage(0x01); PutByte(XIRCREG1_IMR0, 0x00); /* forbid all ints */ SelectPage(4); PutByte(XIRCREG4_GPR1, 0); /* clear bit 0: power down */ SelectPage(0); link->open--; if (link->state & DEV_STALE_CONFIG) mod_timer(&link->release, jiffies + HZ/20); MOD_DEC_USE_COUNT; return 0; } static int __init init_xirc2ps_cs(void) { servinfo_t serv; printk(KERN_INFO "%s\n", version); if (lockup_hack) printk(KINF_XIRC "lockup hack is enabled\n"); CardServices(GetCardServicesInfo, &serv); if (serv.Revision != CS_RELEASE_CODE) { printk(KNOT_XIRC "Card Services release does not match!\n"); return -1; } DEBUG(0, "pc_debug=%d\n", pc_debug); register_pccard_driver(&dev_info, &xirc2ps_attach, &xirc2ps_detach); return 0; } static void __exit exit_xirc2ps_cs(void) { DEBUG(0, "unloading\n"); unregister_pccard_driver(&dev_info); while (dev_list) { if (dev_list->state & DEV_CONFIG) xirc2ps_release((u_long)dev_list); if (dev_list) /* xirc2ps_release() might already have detached... */ xirc2ps_detach(dev_list); } } module_init(init_xirc2ps_cs); module_exit(exit_xirc2ps_cs); #ifndef MODULE static int __init setup_xirc2ps_cs(char *str) { /* irq, irq_mask, if_port, full_duplex, do_sound, lockup_hack * [,irq2 [,irq3 [,irq4]]] */ int ints[10] = { -1 }; str = get_options(str, 9, ints); #define MAYBE_SET(X,Y) if (ints[0] >= Y && ints[Y] != -1) { X = ints[Y]; } MAYBE_SET(irq_list[0], 1); MAYBE_SET(irq_mask, 2); MAYBE_SET(if_port, 3); MAYBE_SET(full_duplex, 4); MAYBE_SET(do_sound, 5); MAYBE_SET(lockup_hack, 6); MAYBE_SET(irq_list[1], 7); MAYBE_SET(irq_list[2], 8); MAYBE_SET(irq_list[3], 9); #undef MAYBE_SET(X,Y) return 0; } __setup("xirc2ps_cs=", setup_xirc2ps_cs); #endif |