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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 2106 2107 2108 2109 2110 | /*- * Copyright (C) 1994 by PJD Weichmann & SWS Bern, Switzerland * * This software may be used and distributed according to the terms * of the GNU Public License, incorporated herein by reference. * * Module : sk_g16.c * * Version : $Revision: 1.1 $ * * Author : Patrick J.D. Weichmann * * Date Created : 94/05/26 * Last Updated : $Date: 1994/06/30 16:25:15 $ * * Description : Schneider & Koch G16 Ethernet Device Driver for * Linux Kernel >= 1.1.22 * Update History : * -*/ static const char *rcsid = "$Id: sk_g16.c,v 1.1 1994/06/30 16:25:15 root Exp $"; /* * The Schneider & Koch (SK) G16 Network device driver is based * on the 'ni6510' driver from Michael Hipp which can be found at * ftp://sunsite.unc.edu/pub/Linux/system/Network/drivers/nidrivers.tar.gz * * Sources: 1) ni6510.c by M. Hipp * 2) depca.c by D.C. Davies * 3) skeleton.c by D. Becker * 4) Am7990 Local Area Network Controller for Ethernet (LANCE), * AMD, Pub. #05698, June 1989 * * Many Thanks for helping me to get things working to: * * A. Cox (A.Cox@swansea.ac.uk) * M. Hipp (mhipp@student.uni-tuebingen.de) * R. Bolz (Schneider & Koch, Germany) * * See README.sk_g16 for details about limitations and bugs for the * current version. * * To Do: * - Support of SK_G8 and other SK Network Cards. * - Autoset memory mapped RAM. Check for free memory and then * configure RAM correctly. * - SK_close should really set card in to initial state. * - Test if IRQ 3 is not switched off. Use autoirq() functionality. * (as in /drivers/net/skeleton.c) * - Implement Multicast addressing. At minimum something like * in depca.c. * - Redo the statistics part. * - Try to find out if the board is in 8 Bit or 16 Bit slot. * If in 8 Bit mode don't use IRQ 11. * - (Try to make it slightly faster.) */ #include <linux/kernel.h> #include <linux/sched.h> #include <linux/ptrace.h> #include <linux/fcntl.h> #include <linux/ioport.h> #include <linux/interrupt.h> #include <linux/malloc.h> #include <linux/string.h> #include <asm/system.h> #include <asm/io.h> #include <asm/bitops.h> #include <linux/errno.h> #include <linux/netdevice.h> #include <linux/etherdevice.h> #include <linux/skbuff.h> #include "sk_g16.h" /* * Schneider & Koch Card Definitions * ================================= */ #define SK_NAME "SK_G16" /* * SK_G16 Configuration * -------------------- */ /* * Abbreviations * ------------- * * RAM - used for the 16KB shared memory * Boot_ROM, ROM - are used for referencing the BootEPROM * * SK_BOOT_ROM and SK_ADDR are symbolic constants used to configure * the behaviour of the driver and the SK_G16. * * ! See sk_g16.install on how to install and configure the driver ! * * SK_BOOT_ROM defines if the Boot_ROM should be switched off or not. * * SK_ADDR defines the address where the RAM will be mapped into the real * host memory. * valid addresses are from 0xa0000 to 0xfc000 in 16Kbyte steps. */ #define SK_BOOT_ROM 1 /* 1=BootROM on 0=off */ #define SK_ADDR 0xcc000 /* * In POS3 are bits A14-A19 of the address bus. These bits can be set * to choose the RAM address. Thats why we only can choose the RAM address * in 16KB steps. */ #define POS_ADDR (rom_addr>>14) /* Do not change this line */ /* * SK_G16 I/O PORT's + IRQ's + Boot_ROM locations * ---------------------------------------------- */ /* * As nearly every card has also SK_G16 a specified I/O Port region and * only a few possible IRQ's. * In the Installation Guide from Schneider & Koch is listed a possible * Interrupt IRQ2. IRQ2 is always IRQ9 in boards with two cascaded interrupt * controllers. So we use in SK_IRQS IRQ9. */ /* Don't touch any of the following #defines. */ #define SK_IO_PORTS { 0x100, 0x180, 0x208, 0x220, 0x288, 0x320, 0x328, 0x390, 0 } #define SK_IRQS { 3, 5, 9, 11, 0 } #define SK_BOOT_ROM_LOCATIONS { 0xc0000, 0xc4000, 0xc8000, 0xcc000, 0xd0000, 0xd4000, 0xd8000, 0xdc000, 0 } #define SK_BOOT_ROM_ID { 0x55, 0xaa, 0x10, 0x50, 0x06, 0x33 } /* * SK_G16 POS REGISTERS * -------------------- */ /* * SK_G16 has a Programmable Option Select (POS) Register. * The POS is composed of 8 separate registers (POS0-7) which * are I/O mapped on an address set by the W1 switch. * */ #define SK_POS_SIZE 8 /* 8 I/O Ports are used by SK_G16 */ #define SK_POS0 ioaddr /* Card-ID Low (R) */ #define SK_POS1 ioaddr+1 /* Card-ID High (R) */ #define SK_POS2 ioaddr+2 /* Card-Enable, Boot-ROM Disable (RW) */ #define SK_POS3 ioaddr+3 /* Base address of RAM */ #define SK_POS4 ioaddr+4 /* IRQ */ /* POS5 - POS7 are unused */ /* * SK_G16 MAC PREFIX * ----------------- */ /* * Scheider & Koch manufacturer code (00:00:a5). * This must be checked, that we are sure it is a SK card. */ #define SK_MAC0 0x00 #define SK_MAC1 0x00 #define SK_MAC2 0x5a /* * SK_G16 ID * --------- */ /* * If POS0,POS1 contain the following ID, then we know * at which I/O Port Address we are. */ #define SK_IDLOW 0xfd #define SK_IDHIGH 0x6a /* * LANCE POS Bit definitions * ------------------------- */ #define SK_ROM_RAM_ON (POS2_CARD) #define SK_ROM_RAM_OFF (POS2_EPROM) #define SK_ROM_ON (inb(SK_POS2) & POS2_CARD) #define SK_ROM_OFF (inb(SK_POS2) | POS2_EPROM) #define SK_RAM_ON (inb(SK_POS2) | POS2_CARD) #define SK_RAM_OFF (inb(SK_POS2) & POS2_EPROM) #define POS2_CARD 0x0001 /* 1 = SK_G16 on 0 = off */ #define POS2_EPROM 0x0002 /* 1 = Boot EPROM off 0 = on */ /* * SK_G16 Memory mapped Registers * ------------------------------ * */ #define SK_IOREG (board->ioreg) /* LANCE data registers. */ #define SK_PORT (board->port) /* Control, Status register */ #define SK_IOCOM (board->iocom) /* I/O Command */ /* * SK_G16 Status/Control Register bits * ----------------------------------- * * (C) Controlreg (S) Statusreg */ /* * Register transfer: 0 = no transfer * 1 = transferring data between LANCE and I/O reg */ #define SK_IORUN 0x20 /* * LANCE interrupt: 0 = LANCE interrupt occurred * 1 = no LANCE interrupt occurred */ #define SK_IRQ 0x10 #define SK_RESET 0x08 /* Reset SK_CARD: 0 = RESET 1 = normal */ #define SK_RW 0x02 /* 0 = write to 1 = read from */ #define SK_ADR 0x01 /* 0 = REG DataPort 1 = RAP Reg addr port */ #define SK_RREG SK_RW /* Transferdirection to read from lance */ #define SK_WREG 0 /* Transferdirection to write to lance */ #define SK_RAP SK_ADR /* Destination Register RAP */ #define SK_RDATA 0 /* Destination Register REG DataPort */ /* * SK_G16 I/O Command * ------------------ */ /* * Any bitcombination sets the internal I/O bit (transfer will start) * when written to I/O Command */ #define SK_DOIO 0x80 /* Do Transfer */ /* * LANCE RAP (Register Address Port). * --------------------------------- */ /* * The LANCE internal registers are selected through the RAP. * The Registers are: * * CSR0 - Status and Control flags * CSR1 - Low order bits of initialize block (bits 15:00) * CSR2 - High order bits of initialize block (bits 07:00, 15:08 are reserved) * CSR3 - Allows redefinition of the Bus Master Interface. * This register must be set to 0x0002, which means BSWAP = 0, * ACON = 1, BCON = 0; * */ #define CSR0 0x00 #define CSR1 0x01 #define CSR2 0x02 #define CSR3 0x03 /* * General Definitions * =================== */ /* * Set the number of Tx and Rx buffers, using Log_2(# buffers). * We have 16KB RAM which can be accessed by the LANCE. In the * memory are not only the buffers but also the ring descriptors and * the initialize block. * Don't change anything unless you really know what you do. */ #define LC_LOG_TX_BUFFERS 1 /* (2 == 2^^1) 2 Transmit buffers */ #define LC_LOG_RX_BUFFERS 3 /* (8 == 2^^3) 8 Receive buffers */ /* Descriptor ring sizes */ #define TMDNUM (1 << (LC_LOG_TX_BUFFERS)) /* 2 Transmit descriptor rings */ #define RMDNUM (1 << (LC_LOG_RX_BUFFERS)) /* 8 Receive Buffers */ /* Define Mask for setting RMD, TMD length in the LANCE init_block */ #define TMDNUMMASK (LC_LOG_TX_BUFFERS << 29) #define RMDNUMMASK (LC_LOG_RX_BUFFERS << 29) /* * Data Buffer size is set to maximum packet length. */ #define PKT_BUF_SZ 1518 /* * The number of low I/O ports used by the ethercard. */ #define ETHERCARD_TOTAL_SIZE SK_POS_SIZE /* * Portreserve is there to mark the Card I/O Port region as used. * Check_region is to check if the region at ioaddr with the size "size" * is free or not. * Snarf_region allocates the I/O Port region. */ #ifndef HAVE_PORTRESERVE #define check_region(ioaddr, size) 0 #define request_region(ioaddr, size,name) do ; while (0) #endif /* * SK_DEBUG * * Here you can choose what level of debugging wanted. * * If SK_DEBUG and SK_DEBUG2 are undefined, then only the * necessary messages will be printed. * * If SK_DEBUG is defined, there will be many debugging prints * which can help to find some mistakes in configuration or even * in the driver code. * * If SK_DEBUG2 is defined, many many messages will be printed * which normally you don't need. I used this to check the interrupt * routine. * * (If you define only SK_DEBUG2 then only the messages for * checking interrupts will be printed!) * * Normal way of live is: * * For the whole thing get going let both symbolic constants * undefined. If you face any problems and you know what's going * on (you know something about the card and you can interpret some * hex LANCE register output) then define SK_DEBUG * */ #undef SK_DEBUG /* debugging */ #undef SK_DEBUG2 /* debugging with more verbose report */ #ifdef SK_DEBUG #define PRINTK(x) printk x #else #define PRINTK(x) /**/ #endif #ifdef SK_DEBUG2 #define PRINTK2(x) printk x #else #define PRINTK2(x) /**/ #endif /* * SK_G16 RAM * * The components are memory mapped and can be set in a region from * 0x00000 through 0xfc000 in 16KB steps. * * The Network components are: dual ported RAM, Prom, I/O Reg, Status-, * Controlregister and I/O Command. * * dual ported RAM: This is the only memory region which the LANCE chip * has access to. From the Lance it is addressed from 0x0000 to * 0x3fbf. The host accesses it normally. * * PROM: The PROM obtains the ETHERNET-MAC-Address. It is realised as a * 8-Bit PROM, this means only the 16 even addresses are used of the * 32 Byte Address region. Access to a odd address results in invalid * data. * * LANCE I/O Reg: The I/O Reg is build of 4 single Registers, Low-Byte Write, * Hi-Byte Write, Low-Byte Read, Hi-Byte Read. * Transfer from or to the LANCE is always in 16Bit so Low and High * registers are always relevant. * * The Data from the Readregister is not the data in the Writeregister!! * * Port: Status- and Controlregister. * Two different registers which share the same address, Status is * read-only, Control is write-only. * * I/O Command: * Any bitcombination written in here starts the transmission between * Host and LANCE. */ typedef struct { unsigned char ram[0x3fc0]; /* 16KB dual ported ram */ unsigned char rom[0x0020]; /* 32Byte PROM containing 6Byte MAC */ unsigned char res1[0x0010]; /* reserved */ unsigned volatile short ioreg;/* LANCE I/O Register */ unsigned volatile char port; /* Statusregister and Controlregister */ unsigned char iocom; /* I/O Command Register */ } SK_RAM; /* struct */ /* * This is the structure for the dual ported ram. We * have exactly 16 320 Bytes. In here there must be: * * - Initialize Block (starting at a word boundary) * - Receive and Transmit Descriptor Rings (quadword boundary) * - Data Buffers (arbitrary boundary) * * This is because LANCE has on SK_G16 only access to the dual ported * RAM and nowhere else. */ struct SK_ram { struct init_block ib; struct tmd tmde[TMDNUM]; struct rmd rmde[RMDNUM]; char tmdbuf[TMDNUM][PKT_BUF_SZ]; char rmdbuf[RMDNUM][PKT_BUF_SZ]; }; /* * Structure where all necessary information is for ring buffer * management and statistics. */ struct priv { struct SK_ram *ram; /* dual ported ram structure */ struct rmd *rmdhead; /* start of receive ring descriptors */ struct tmd *tmdhead; /* start of transmit ring descriptors */ int rmdnum; /* actual used ring descriptor */ int tmdnum; /* actual transmit descriptor for transmitting data */ int tmdlast; /* last sent descriptor used for error handling, etc */ void *rmdbufs[RMDNUM]; /* pointer to the receive buffers */ void *tmdbufs[TMDNUM]; /* pointer to the transmit buffers */ struct enet_statistics stats; /* Device driver statistics */ }; /* global variable declaration */ /* IRQ map used to reserve a IRQ (see SK_open()) */ /* extern void *irq2dev_map[16]; */ /* Declared in <linux/ioport.h> */ /* static variables */ static SK_RAM *board; /* pointer to our memory mapped board components */ /* Macros */ /* Function Prototypes */ /* * Device Driver functions * ----------------------- * See for short explanation of each function its definitions header. */ int SK_init(struct device *dev); static int SK_probe(struct device *dev, short ioaddr); static int SK_open(struct device *dev); static int SK_send_packet(struct sk_buff *skb, struct device *dev); static void SK_interrupt(int irq, void *dev_id, struct pt_regs * regs); static void SK_rxintr(struct device *dev); static void SK_txintr(struct device *dev); static int SK_close(struct device *dev); static struct enet_statistics *SK_get_stats(struct device *dev); unsigned int SK_rom_addr(void); static void set_multicast_list(struct device *dev); /* * LANCE Functions * --------------- */ static int SK_lance_init(struct device *dev, unsigned short mode); void SK_reset_board(void); void SK_set_RAP(int reg_number); int SK_read_reg(int reg_number); int SK_rread_reg(void); void SK_write_reg(int reg_number, int value); /* * Debugging functions * ------------------- */ void SK_print_pos(struct device *dev, char *text); void SK_print_dev(struct device *dev, char *text); void SK_print_ram(struct device *dev); /*- * Function : SK_init * Author : Patrick J.D. Weichmann * Date Created : 94/05/26 * * Description : Check for a SK_G16 network adaptor and initialize it. * This function gets called by dev_init which initializes * all Network devices. * * Parameters : I : struct device *dev - structure preconfigured * from Space.c * Return Value : 0 = Driver Found and initialized * Errors : ENODEV - no device found * ENXIO - not probed * Globals : None * Update History : * YY/MM/DD uid Description -*/ /* * Check for a network adaptor of this type, and return '0' if one exists. * If dev->base_addr == 0, probe all likely locations. * If dev->base_addr == 1, always return failure. * If dev->base_addr == 2, allocate space for the device and return success * (detachable devices only). */ int SK_init(struct device *dev) { int ioaddr = 0; /* I/O port address used for POS regs */ int *port, ports[] = SK_IO_PORTS; /* SK_G16 supported ports */ /* get preconfigured base_addr from dev which is done in Space.c */ int base_addr = dev->base_addr; PRINTK(("%s: %s", SK_NAME, rcsid)); rcsid = NULL; /* We do not want to use this further */ if (base_addr > 0x0ff) /* Check a single specified address */ { /* Check if on specified address is a SK_G16 */ if ( (inb(SK_POS0) == SK_IDLOW) || (inb(SK_POS1) == SK_IDHIGH) ) { return SK_probe(dev, base_addr); } return ENODEV; /* Sorry, but on specified address NO SK_G16 */ } else if (base_addr > 0) /* Don't probe at all */ { return ENXIO; } /* Autoprobe base_addr */ for (port = &ports[0]; *port; port++) { ioaddr = *port; /* we need ioaddr for accessing POS regs */ /* Check if I/O Port region is used by another board */ if (check_region(ioaddr, ETHERCARD_TOTAL_SIZE)) { continue; /* Try next Port address */ } /* Check if at ioaddr is a SK_G16 */ if ( !(inb(SK_POS0) == SK_IDLOW) || !(inb(SK_POS1) == SK_IDHIGH) ) { continue; /* Try next Port address */ } dev->base_addr = ioaddr; /* Set I/O Port Address */ if (SK_probe(dev, ioaddr) == 0) { return 0; /* Card found and initialized */ } } dev->base_addr = base_addr; /* Write back original base_addr */ return ENODEV; /* Failed to find or init driver */ } /* End of SK_init */ /*- * Function : SK_probe * Author : Patrick J.D. Weichmann * Date Created : 94/05/26 * * Description : This function is called by SK_init and * does the main part of initialization. * * Parameters : I : struct device *dev - SK_G16 device structure * I : short ioaddr - I/O Port address where POS is. * Return Value : 0 = Initialization done * Errors : ENODEV - No SK_G16 found * -1 - Configuration problem * Globals : irq2dev_map - Which device uses which IRQ * : board - pointer to SK_RAM * Update History : * YY/MM/DD uid Description * 94/06/30 pwe SK_ADDR now checked and at the correct place -*/ int SK_probe(struct device *dev, short ioaddr) { int i,j; /* Counters */ int sk_addr_flag = 0; /* SK ADDR correct? 1 - no, 0 - yes */ unsigned int rom_addr; /* used to store RAM address used for POS_ADDR */ struct priv *p; /* SK_G16 private structure */ if (SK_ADDR & 0x3fff || SK_ADDR < 0xa0000) { sk_addr_flag = 1; /* * Now here we could use a routine which searches for a free * place in the ram and set SK_ADDR if found. TODO. */ } if (SK_BOOT_ROM) /* Shall we keep Boot_ROM on ? */ { PRINTK(("## %s: SK_BOOT_ROM is set.\n", SK_NAME)); rom_addr = SK_rom_addr(); if (rom_addr == 0) /* No Boot_ROM found */ { if (sk_addr_flag) /* No or Invalid SK_ADDR is defined */ { printk("%s: SK_ADDR %#08x is not valid. Check configuration.\n", dev->name, SK_ADDR); return -1; } rom_addr = SK_ADDR; /* assign predefined address */ PRINTK(("## %s: NO Bootrom found \n", SK_NAME)); outb(SK_ROM_RAM_OFF, SK_POS2); /* Boot_ROM + RAM off */ outb(POS_ADDR, SK_POS3); /* Set RAM address */ outb(SK_RAM_ON, SK_POS2); /* enable RAM */ } else if (rom_addr == SK_ADDR) { printk("%s: RAM + ROM are set to the same address %#08x\n" " Check configuration. Now switching off Boot_ROM\n", SK_NAME, rom_addr); outb(SK_ROM_RAM_OFF, SK_POS2); /* Boot_ROM + RAM off*/ outb(POS_ADDR, SK_POS3); /* Set RAM address */ outb(SK_RAM_ON, SK_POS2); /* enable RAM */ } else { PRINTK(("## %s: Found ROM at %#08x\n", SK_NAME, rom_addr)); PRINTK(("## %s: Keeping Boot_ROM on\n", SK_NAME)); if (sk_addr_flag) /* No or Invalid SK_ADDR is defined */ { printk("%s: SK_ADDR %#08x is not valid. Check configuration.\n", dev->name, SK_ADDR); return -1; } rom_addr = SK_ADDR; outb(SK_ROM_RAM_OFF, SK_POS2); /* Boot_ROM + RAM off */ outb(POS_ADDR, SK_POS3); /* Set RAM address */ outb(SK_ROM_RAM_ON, SK_POS2); /* RAM on, BOOT_ROM on */ } } else /* Don't keep Boot_ROM */ { PRINTK(("## %s: SK_BOOT_ROM is not set.\n", SK_NAME)); if (sk_addr_flag) /* No or Invalid SK_ADDR is defined */ { printk("%s: SK_ADDR %#08x is not valid. Check configuration.\n", dev->name, SK_ADDR); return -1; } rom_addr = SK_rom_addr(); /* Try to find a Boot_ROM */ /* IF we find a Boot_ROM disable it */ outb(SK_ROM_RAM_OFF, SK_POS2); /* Boot_ROM + RAM off */ /* We found a Boot_ROM and it's gone. Set RAM address on * Boot_ROM address. */ if (rom_addr) { printk("%s: We found Boot_ROM at %#08x. Now setting RAM on" "that address\n", SK_NAME, rom_addr); outb(POS_ADDR, SK_POS3); /* Set RAM on Boot_ROM address */ } else /* We did not find a Boot_ROM, use predefined SK_ADDR for ram */ { if (sk_addr_flag) /* No or Invalid SK_ADDR is defined */ { printk("%s: SK_ADDR %#08x is not valid. Check configuration.\n", dev->name, SK_ADDR); return -1; } rom_addr = SK_ADDR; outb(POS_ADDR, SK_POS3); /* Set RAM address */ } outb(SK_RAM_ON, SK_POS2); /* enable RAM */ } #ifdef SK_DEBUG SK_print_pos(dev, "POS registers after ROM, RAM config"); #endif board = (SK_RAM *) rom_addr; /* Read in station address */ for (i = 0, j = 0; i < ETH_ALEN; i++, j+=2) { dev->dev_addr[i] = board->rom[j]; } /* Check for manufacturer code */ if (!(dev->dev_addr[0] == SK_MAC0 && dev->dev_addr[1] == SK_MAC1 && dev->dev_addr[2] == SK_MAC2) ) { PRINTK(("## %s: We did not find SK_G16 at RAM location.\n", SK_NAME)); return ENODEV; /* NO SK_G16 found */ } printk("%s: %s found at %#3x, HW addr: %#04x:%02x:%02x:%02x:%02x:%02x\n", dev->name, "Schneider & Koch Netcard", (unsigned int) dev->base_addr, dev->dev_addr[0], dev->dev_addr[1], dev->dev_addr[2], dev->dev_addr[3], dev->dev_addr[4], dev->dev_addr[5]); /* Grab the I/O Port region */ request_region(ioaddr, ETHERCARD_TOTAL_SIZE,"sk_g16"); /* Initialize device structure */ /* Allocate memory for private structure */ p = dev->priv = (void *) kmalloc(sizeof(struct priv), GFP_KERNEL); if (p == NULL) return -ENOMEM; memset((char *) dev->priv, 0, sizeof(struct priv)); /* clear memory */ /* Assign our Device Driver functions */ dev->open = &SK_open; dev->stop = &SK_close; dev->hard_start_xmit = &SK_send_packet; dev->get_stats = &SK_get_stats; dev->set_multicast_list = &set_multicast_list; /* Set the generic fields of the device structure */ ether_setup(dev); dev->flags &= ~IFF_MULTICAST; /* Initialize private structure */ p->ram = (struct SK_ram *) rom_addr; /* Set dual ported RAM addr */ p->tmdhead = &(p->ram)->tmde[0]; /* Set TMD head */ p->rmdhead = &(p->ram)->rmde[0]; /* Set RMD head */ /* Initialize buffer pointers */ for (i = 0; i < TMDNUM; i++) { p->tmdbufs[i] = &(p->ram)->tmdbuf[i]; } for (i = 0; i < RMDNUM; i++) { p->rmdbufs[i] = &(p->ram)->rmdbuf[i]; } #ifdef SK_DEBUG SK_print_pos(dev, "End of SK_probe"); SK_print_ram(dev); #endif return 0; /* Initialization done */ } /* End of SK_probe() */ /*- * Function : SK_open * Author : Patrick J.D. Weichmann * Date Created : 94/05/26 * * Description : This function is called sometimes after booting * when ifconfig program is run. * * This function requests an IRQ, sets the correct * IRQ in the card. Then calls SK_lance_init() to * init and start the LANCE chip. Then if everything is * ok returns with 0 (OK), which means SK_G16 is now * opened and operational. * * (Called by dev_open() /net/inet/dev.c) * * Parameters : I : struct device *dev - SK_G16 device structure * Return Value : 0 - Device opened * Errors : -EAGAIN - Open failed * Globals : irq2dev_map - which device uses which irq * Side Effects : None * Update History : * YY/MM/DD uid Description -*/ static int SK_open(struct device *dev) { int i = 0; int irqval = 0; int ioaddr = dev->base_addr; int irqtab[] = SK_IRQS; struct priv *p = (struct priv *)dev->priv; PRINTK(("## %s: At beginning of SK_open(). CSR0: %#06x\n", SK_NAME, SK_read_reg(CSR0))); if (dev->irq == 0) /* Autoirq */ { i = 0; /* * Check if one IRQ out of SK_IRQS is free and install * interrupt handler. * Most done by request_irq(). * irqval: 0 - interrupt handler installed for IRQ irqtab[i] * -EBUSY - interrupt busy * -EINVAL - irq > 15 or handler = NULL */ do { irqval = request_irq(irqtab[i], &SK_interrupt, 0, "sk_g16", NULL); i++; } while (irqval && irqtab[i]); if (irqval) /* We tried every possible IRQ but no success */ { printk("%s: unable to get an IRQ\n", dev->name); return -EAGAIN; } dev->irq = irqtab[--i]; outb(i<<2, SK_POS4); /* Set Card on probed IRQ */ } else if (dev->irq == 2) /* IRQ2 is always IRQ9 */ { if (request_irq(9, &SK_interrupt, 0, "sk_g16", NULL)) { printk("%s: unable to get IRQ 9\n", dev->name); return -EAGAIN; } dev->irq = 9; /* * Now we set card on IRQ2. * This can be confusing, but remember that IRQ2 on the network * card is in reality IRQ9 */ outb(0x08, SK_POS4); /* set card to IRQ2 */ } else /* Check IRQ as defined in Space.c */ { int i = 0; /* check if IRQ free and valid. Then install Interrupt handler */ if (request_irq(dev->irq, &SK_interrupt, 0, "sk_g16", NULL)) { printk("%s: unable to get selected IRQ\n", dev->name); return -EAGAIN; } switch(dev->irq) { case 3: i = 0; break; case 5: i = 1; break; case 2: i = 2; break; case 11:i = 3; break; default: printk("%s: Preselected IRQ %d is invalid for %s boards", dev->name, dev->irq, SK_NAME); return -EAGAIN; } outb(i<<2, SK_POS4); /* Set IRQ on card */ } irq2dev_map[dev->irq] = dev; /* Set IRQ as used by us */ printk("%s: Schneider & Koch G16 at %#3x, IRQ %d, shared mem at %#08x\n", dev->name, (unsigned int)dev->base_addr, (int) dev->irq, (unsigned int) p->ram); if (!(i = SK_lance_init(dev, 0))) /* LANCE init OK? */ { dev->tbusy = 0; dev->interrupt = 0; dev->start = 1; #ifdef SK_DEBUG /* * This debug block tries to stop LANCE, * reinit LANCE with transmitter and receiver disabled, * then stop again and reinit with NORMAL_MODE */ printk("## %s: After lance init. CSR0: %#06x\n", SK_NAME, SK_read_reg(CSR0)); SK_write_reg(CSR0, CSR0_STOP); printk("## %s: LANCE stopped. CSR0: %#06x\n", SK_NAME, SK_read_reg(CSR0)); SK_lance_init(dev, MODE_DTX | MODE_DRX); printk("## %s: Reinit with DTX + DRX off. CSR0: %#06x\n", SK_NAME, SK_read_reg(CSR0)); SK_write_reg(CSR0, CSR0_STOP); printk("## %s: LANCE stopped. CSR0: %#06x\n", SK_NAME, SK_read_reg(CSR0)); SK_lance_init(dev, MODE_NORMAL); printk("## %s: LANCE back to normal mode. CSR0: %#06x\n", SK_NAME, SK_read_reg(CSR0)); SK_print_pos(dev, "POS regs before returning OK"); #endif /* SK_DEBUG */ return 0; /* SK_open() is successful */ } else /* LANCE init failed */ { PRINTK(("## %s: LANCE init failed: CSR0: %#06x\n", SK_NAME, SK_read_reg(CSR0))); dev->start = 0; /* Device not ready */ return -EAGAIN; } } /* End of SK_open() */ /*- * Function : SK_lance_init * Author : Patrick J.D. Weichmann * Date Created : 94/05/26 * * Description : Reset LANCE chip, fill RMD, TMD structures with * start values and Start LANCE. * * Parameters : I : struct device *dev - SK_G16 device structure * I : int mode - put LANCE into "mode" see data-sheet for * more info. * Return Value : 0 - Init done * Errors : -1 - Init failed * Update History : * YY/MM/DD uid Description -*/ static int SK_lance_init(struct device *dev, unsigned short mode) { int i; struct priv *p = (struct priv *) dev->priv; struct tmd *tmdp; struct rmd *rmdp; PRINTK(("## %s: At beginning of LANCE init. CSR0: %#06x\n", SK_NAME, SK_read_reg(CSR0))); /* Reset LANCE */ SK_reset_board(); /* Initialize TMD's with start values */ p->tmdnum = 0; /* First descriptor for transmitting */ p->tmdlast = 0; /* First descriptor for reading stats */ for (i = 0; i < TMDNUM; i++) /* Init all TMD's */ { tmdp = p->tmdhead + i; tmdp->u.buffer = (unsigned long) p->tmdbufs[i]; /* assign buffer */ /* Mark TMD as start and end of packet */ tmdp->u.s.status = TX_STP | TX_ENP; } /* Initialize RMD's with start values */ p->rmdnum = 0; /* First RMD which will be used */ for (i = 0; i < RMDNUM; i++) /* Init all RMD's */ { rmdp = p->rmdhead + i; rmdp->u.buffer = (unsigned long) p->rmdbufs[i]; /* assign buffer */ /* * LANCE must be owner at beginning so that he can fill in * receiving packets, set status and release RMD */ rmdp->u.s.status = RX_OWN; rmdp->blen = -PKT_BUF_SZ; /* Buffer Size in a two's complement */ rmdp->mlen = 0; /* init message length */ } /* Fill LANCE Initialize Block */ (p->ram)->ib.mode = mode; /* Set operation mode */ for (i = 0; i < ETH_ALEN; i++) /* Set physical address */ { (p->ram)->ib.paddr[i] = dev->dev_addr[i]; } for (i = 0; i < 8; i++) /* Set multicast, logical address */ { (p->ram)->ib.laddr[i] = 0; /* We do not use logical addressing */ } /* Set ring descriptor pointers and set number of descriptors */ (p->ram)->ib.rdrp = (int) p->rmdhead | RMDNUMMASK; (p->ram)->ib.tdrp = (int) p->tmdhead | TMDNUMMASK; /* Prepare LANCE Control and Status Registers */ cli(); SK_write_reg(CSR3, CSR3_ACON); /* Ale Control !!!THIS MUST BE SET!!!! */ /* * LANCE addresses the RAM from 0x0000 to 0x3fbf and has no access to * PC Memory locations. * * In structure SK_ram is defined that the first thing in ram * is the initialization block. So his address is for LANCE always * 0x0000 * * CSR1 contains low order bits 15:0 of initialization block address * CSR2 is built of: * 7:0 High order bits 23:16 of initialization block address * 15:8 reserved, must be 0 */ /* Set initialization block address (must be on word boundary) */ SK_write_reg(CSR1, 0); /* Set low order bits 15:0 */ SK_write_reg(CSR2, 0); /* Set high order bits 23:16 */ PRINTK(("## %s: After setting CSR1-3. CSR0: %#06x\n", SK_NAME, SK_read_reg(CSR0))); /* Initialize LANCE */ /* * INIT = Initialize, when set, causes the LANCE to begin the * initialization procedure and access the Init Block. */ SK_write_reg(CSR0, CSR0_INIT); sti(); /* Wait until LANCE finished initialization */ SK_set_RAP(CSR0); /* Register Address Pointer to CSR0 */ for (i = 0; (i < 100) && !(SK_rread_reg() & CSR0_IDON); i++) ; /* Wait until init done or go ahead if problems (i>=100) */ if (i >= 100) /* Something is wrong ! */ { printk("%s: can't init am7990, status: %04x " "init_block: %#08x\n", dev->name, (int) SK_read_reg(CSR0), (unsigned int) &(p->ram)->ib); #ifdef SK_DEBUG SK_print_pos(dev, "LANCE INIT failed"); SK_print_dev(dev,"Device Structure:"); #endif return -1; /* LANCE init failed */ } PRINTK(("## %s: init done after %d ticks\n", SK_NAME, i)); /* Clear Initialize done, enable Interrupts, start LANCE */ SK_write_reg(CSR0, CSR0_IDON | CSR0_INEA | CSR0_STRT); PRINTK(("## %s: LANCE started. CSR0: %#06x\n", SK_NAME, SK_read_reg(CSR0))); return 0; /* LANCE is up and running */ } /* End of SK_lance_init() */ /*- * Function : SK_send_packet * Author : Patrick J.D. Weichmann * Date Created : 94/05/27 * * Description : Writes an socket buffer into a transmit descriptor * and starts transmission. * * Parameters : I : struct sk_buff *skb - packet to transfer * I : struct device *dev - SK_G16 device structure * Return Value : 0 - OK * 1 - Could not transmit (dev_queue_xmit will queue it) * and try to sent it later * Globals : None * Side Effects : None * Update History : * YY/MM/DD uid Description -*/ static int SK_send_packet(struct sk_buff *skb, struct device *dev) { struct priv *p = (struct priv *) dev->priv; struct tmd *tmdp; if (dev->tbusy) { /* if Transmitter more than 150ms busy -> time_out */ int tickssofar = jiffies - dev->trans_start; if (tickssofar < 15) { return 1; /* We have to try transmit later */ } printk("%s: xmitter timed out, try to restart!\n", dev->name); SK_lance_init(dev, MODE_NORMAL); /* Reinit LANCE */ dev->tbusy = 0; /* Clear Transmitter flag */ dev->trans_start = jiffies; /* Mark Start of transmission */ } /* * If some upper Layer thinks we missed a transmit done interrupt * we are passed NULL. * (dev_queue_xmit net/inet/dev.c */ if (skb == NULL) { /* * Dequeue packets from transmit queue and send them. */ dev_tint(dev); return 0; } PRINTK2(("## %s: SK_send_packet() called, CSR0 %#04x.\n", SK_NAME, SK_read_reg(CSR0))); /* * Block a timer-based transmit from overlapping. * This means check if we are already in. */ if (set_bit(0, (void *) &dev->tbusy) != 0) /* dev->tbusy already set ? */ { printk("%s: Transmitter access conflict.\n", dev->name); } else { /* Evaluate Packet length */ short len = ETH_ZLEN < skb->len ? skb->len : ETH_ZLEN; tmdp = p->tmdhead + p->tmdnum; /* Which descriptor for transmitting */ /* Fill in Transmit Message Descriptor */ /* Copy data into dual ported ram */ memcpy((char *) (tmdp->u.buffer & 0x00ffffff), (char *)skb->data, skb->len); tmdp->blen = -len; /* set length to transmit */ /* * Packet start and end is always set because we use the maximum * packet length as buffer length. * Relinquish ownership to LANCE */ tmdp->u.s.status = TX_OWN | TX_STP | TX_ENP; /* Start Demand Transmission */ SK_write_reg(CSR0, CSR0_TDMD | CSR0_INEA); dev->trans_start = jiffies; /* Mark start of transmission */ /* Set pointer to next transmit buffer */ p->tmdnum++; p->tmdnum &= TMDNUM-1; /* Do we own the next transmit buffer ? */ if (! ((p->tmdhead + p->tmdnum)->u.s.status & TX_OWN) ) { /* * We own next buffer and are ready to transmit, so * clear busy flag */ dev->tbusy = 0; } } dev_kfree_skb(skb, FREE_WRITE); return 0; } /* End of SK_send_packet */ /*- * Function : SK_interrupt * Author : Patrick J.D. Weichmann * Date Created : 94/05/27 * * Description : SK_G16 interrupt handler which checks for LANCE * Errors, handles transmit and receive interrupts * * Parameters : I : int irq, void *dev_id, struct pt_regs * regs - * Return Value : None * Errors : None * Globals : None * Side Effects : None * Update History : * YY/MM/DD uid Description -*/ static void SK_interrupt(int irq, void *dev_id, struct pt_regs * regs) { int csr0; struct device *dev = (struct device *) irq2dev_map[irq]; struct priv *p = (struct priv *) dev->priv; PRINTK2(("## %s: SK_interrupt(). status: %#06x\n", SK_NAME, SK_read_reg(CSR0))); if (dev == NULL) { printk("SK_interrupt(): IRQ %d for unknown device.\n", irq); } if (dev->interrupt) { printk("%s: Re-entering the interrupt handler.\n", dev->name); } csr0 = SK_read_reg(CSR0); /* store register for checking */ dev->interrupt = 1; /* We are handling an interrupt */ /* * Acknowledge all of the current interrupt sources, disable * Interrupts (INEA = 0) */ SK_write_reg(CSR0, csr0 & CSR0_CLRALL); if (csr0 & CSR0_ERR) /* LANCE Error */ { printk("%s: error: %04x\n", dev->name, csr0); if (csr0 & CSR0_MISS) /* No place to store packet ? */ { p->stats.rx_dropped++; } } if (csr0 & CSR0_RINT) /* Receive Interrupt (packet arrived) */ { SK_rxintr(dev); } if (csr0 & CSR0_TINT) /* Transmit interrupt (packet sent) */ { SK_txintr(dev); } SK_write_reg(CSR0, CSR0_INEA); /* Enable Interrupts */ dev->interrupt = 0; /* We are out */ } /* End of SK_interrupt() */ /*- * Function : SK_txintr * Author : Patrick J.D. Weichmann * Date Created : 94/05/27 * * Description : After sending a packet we check status, update * statistics and relinquish ownership of transmit * descriptor ring. * * Parameters : I : struct device *dev - SK_G16 device structure * Return Value : None * Errors : None * Globals : None * Update History : * YY/MM/DD uid Description -*/ static void SK_txintr(struct device *dev) { int tmdstat; struct tmd *tmdp; struct priv *p = (struct priv *) dev->priv; PRINTK2(("## %s: SK_txintr() status: %#06x\n", SK_NAME, SK_read_reg(CSR0))); tmdp = p->tmdhead + p->tmdlast; /* Which buffer we sent at last ? */ /* Set next buffer */ p->tmdlast++; p->tmdlast &= TMDNUM-1; tmdstat = tmdp->u.s.status & 0xff00; /* filter out status bits 15:08 */ /* * We check status of transmitted packet. * see LANCE data-sheet for error explanation */ if (tmdstat & TX_ERR) /* Error occurred */ { printk("%s: TX error: %04x %04x\n", dev->name, (int) tmdstat, (int) tmdp->status2); if (tmdp->status2 & TX_TDR) /* TDR problems? */ { printk("%s: tdr-problems \n", dev->name); } if (tmdp->status2 & TX_RTRY) /* Failed in 16 attempts to transmit ? */ p->stats.tx_aborted_errors++; if (tmdp->status2 & TX_LCOL) /* Late collision ? */ p->stats.tx_window_errors++; if (tmdp->status2 & TX_LCAR) /* Loss of Carrier ? */ p->stats.tx_carrier_errors++; if (tmdp->status2 & TX_UFLO) /* Underflow error ? */ { p->stats.tx_fifo_errors++; /* * If UFLO error occurs it will turn transmitter of. * So we must reinit LANCE */ SK_lance_init(dev, MODE_NORMAL); } p->stats.tx_errors++; tmdp->status2 = 0; /* Clear error flags */ } else if (tmdstat & TX_MORE) /* Collisions occurred ? */ { /* * Here I have a problem. * I only know that there must be one or up to 15 collisions. * Thats why TX_MORE is set, because after 16 attempts TX_RTRY * will be set which means couldn't send packet aborted transfer. * * First I did not have this in but then I thought at minimum * we see that something was not ok. * If anyone knows something better than this to handle this * please report it. (see Email addresses in the README file) */ p->stats.collisions++; } else /* Packet sent without any problems */ { p->stats.tx_packets++; } /* * We mark transmitter not busy anymore, because now we have a free * transmit descriptor which can be filled by SK_send_packet and * afterwards sent by the LANCE */ dev->tbusy = 0; /* * mark_bh(NET_BH); * This will cause net_bh() to run after this interrupt handler. * * The function which do handle slow IRQ parts is do_bottom_half() * which runs at normal kernel priority, that means all interrupt are * enabled. (see kernel/irq.c) * * net_bh does something like this: * - check if already in net_bh * - try to transmit something from the send queue * - if something is in the receive queue send it up to higher * levels if it is a known protocol * - try to transmit something from the send queue */ mark_bh(NET_BH); } /* End of SK_txintr() */ /*- * Function : SK_rxintr * Author : Patrick J.D. Weichmann * Date Created : 94/05/27 * * Description : Buffer sent, check for errors, relinquish ownership * of the receive message descriptor. * * Parameters : I : SK_G16 device structure * Return Value : None * Globals : None * Update History : * YY/MM/DD uid Description -*/ static void SK_rxintr(struct device *dev) { struct rmd *rmdp; int rmdstat; struct priv *p = (struct priv *) dev->priv; PRINTK2(("## %s: SK_rxintr(). CSR0: %#06x\n", SK_NAME, SK_read_reg(CSR0))); rmdp = p->rmdhead + p->rmdnum; /* As long as we own the next entry, check status and send * it up to higher layer */ while (!( (rmdstat = rmdp->u.s.status) & RX_OWN)) { /* * Start and end of packet must be set, because we use * the ethernet maximum packet length (1518) as buffer size. * * Because our buffers are at maximum OFLO and BUFF errors are * not to be concerned (see Data sheet) */ if ((rmdstat & (RX_STP | RX_ENP)) != (RX_STP | RX_ENP)) { /* Start of a frame > 1518 Bytes ? */ if (rmdstat & RX_STP) { p->stats.rx_errors++; /* bad packet received */ p->stats.rx_length_errors++; /* packet to long */ printk("%s: packet too long\n", dev->name); } /* * All other packets will be ignored until a new frame with * start (RX_STP) set follows. * * What we do is just give descriptor free for new incoming * packets. */ rmdp->u.s.status = RX_OWN; /* Relinquish ownership to LANCE */ } else if (rmdstat & RX_ERR) /* Receive Error ? */ { printk("%s: RX error: %04x\n", dev->name, (int) rmdstat); p->stats.rx_errors++; if (rmdstat & RX_FRAM) p->stats.rx_frame_errors++; if (rmdstat & RX_CRC) p->stats.rx_crc_errors++; rmdp->u.s.status = RX_OWN; /* Relinquish ownership to LANCE */ } else /* We have a packet which can be queued for the upper layers */ { int len = (rmdp->mlen & 0x0fff); /* extract message length from receive buffer */ struct sk_buff *skb; skb = dev_alloc_skb(len+2); /* allocate socket buffer */ if (skb == NULL) /* Could not get mem ? */ { /* * Couldn't allocate sk_buffer so we give descriptor back * to Lance, update statistics and go ahead. */ rmdp->u.s.status = RX_OWN; /* Relinquish ownership to LANCE */ printk("%s: Couldn't allocate sk_buff, deferring packet.\n", dev->name); p->stats.rx_dropped++; break; /* Jump out */ } /* Prepare sk_buff to queue for upper layers */ skb->dev = dev; skb_reserve(skb,2); /* Align IP header on 16 byte boundary */ /* * Copy data out of our receive descriptor into sk_buff. * * (rmdp->u.buffer & 0x00ffffff) -> get address of buffer and * ignore status fields) */ memcpy(skb_put(skb,len), (unsigned char *) (rmdp->u.buffer & 0x00ffffff), len); /* * Notify the upper protocol layers that there is another packet * to handle * * netif_rx() always succeeds. see /net/inet/dev.c for more. */ skb->protocol=eth_type_trans(skb,dev); netif_rx(skb); /* queue packet and mark it for processing */ /* * Packet is queued and marked for processing so we * free our descriptor and update statistics */ rmdp->u.s.status = RX_OWN; p->stats.rx_packets++; p->rmdnum++; p->rmdnum %= RMDNUM; rmdp = p->rmdhead + p->rmdnum; } } } /* End of SK_rxintr() */ /*- * Function : SK_close * Author : Patrick J.D. Weichmann * Date Created : 94/05/26 * * Description : close gets called from dev_close() and should * deinstall the card (free_irq, mem etc). * * Parameters : I : struct device *dev - our device structure * Return Value : 0 - closed device driver * Errors : None * Globals : None * Update History : * YY/MM/DD uid Description -*/ /* I have tried to set BOOT_ROM on and RAM off but then, after a 'ifconfig * down' the system stops. So I don't shut set card to init state. */ static int SK_close(struct device *dev) { PRINTK(("## %s: SK_close(). CSR0: %#06x\n", SK_NAME, SK_read_reg(CSR0))); dev->tbusy = 1; /* Transmitter busy */ dev->start = 0; /* Card down */ printk("%s: Shutting %s down CSR0 %#06x\n", dev->name, SK_NAME, (int) SK_read_reg(CSR0)); SK_write_reg(CSR0, CSR0_STOP); /* STOP the LANCE */ free_irq(dev->irq, NULL); /* Free IRQ */ irq2dev_map[dev->irq] = 0; /* Mark IRQ as unused */ return 0; /* always succeed */ } /* End of SK_close() */ /*- * Function : SK_get_stats * Author : Patrick J.D. Weichmann * Date Created : 94/05/26 * * Description : Return current status structure to upper layers. * It is called by sprintf_stats (dev.c). * * Parameters : I : struct device *dev - our device structure * Return Value : struct enet_statistics * - our current statistics * Errors : None * Side Effects : None * Update History : * YY/MM/DD uid Description -*/ static struct enet_statistics *SK_get_stats(struct device *dev) { struct priv *p = (struct priv *) dev->priv; PRINTK(("## %s: SK_get_stats(). CSR0: %#06x\n", SK_NAME, SK_read_reg(CSR0))); return &p->stats; /* Return Device status */ } /* End of SK_get_stats() */ /*- * Function : set_multicast_list * Author : Patrick J.D. Weichmann * Date Created : 94/05/26 * * Description : This function gets called when a program performs * a SIOCSIFFLAGS call. Ifconfig does this if you call * 'ifconfig [-]allmulti' which enables or disables the * Promiscuous mode. * Promiscuous mode is when the Network card accepts all * packets, not only the packets which match our MAC * Address. It is useful for writing a network monitor, * but it is also a security problem. You have to remember * that all information on the net is not encrypted. * * Parameters : I : struct device *dev - SK_G16 device Structure * Return Value : None * Errors : None * Globals : None * Update History : * YY/MM/DD uid Description * 95/10/18 ACox Noew multicast calling scheme -*/ /* Set or clear the multicast filter for SK_G16. */ static void set_multicast_list(struct device *dev) { if (dev->flags&IFF_PROMISC) { /* Reinitialize LANCE with MODE_PROM set */ SK_lance_init(dev, MODE_PROM); } else if (dev->mc_count==0 && !(dev->flags&IFF_ALLMULTI)) { /* Reinitialize LANCE without MODE_PROM */ SK_lance_init(dev, MODE_NORMAL); } else { /* Multicast with logical address filter on */ /* Reinitialize LANCE without MODE_PROM */ SK_lance_init(dev, MODE_NORMAL); /* Not implemented yet. */ } } /* End of set_multicast_list() */ /*- * Function : SK_rom_addr * Author : Patrick J.D. Weichmann * Date Created : 94/06/01 * * Description : Try to find a Boot_ROM at all possible locations * * Parameters : None * Return Value : Address where Boot_ROM is * Errors : 0 - Did not find Boot_ROM * Globals : None * Update History : * YY/MM/DD uid Description -*/ unsigned int SK_rom_addr(void) { int i,j; int rom_found = 0; unsigned int rom_location[] = SK_BOOT_ROM_LOCATIONS; unsigned char rom_id[] = SK_BOOT_ROM_ID; unsigned char *test_byte; /* Autodetect Boot_ROM */ PRINTK(("## %s: Autodetection of Boot_ROM\n", SK_NAME)); for (i = 0; (rom_location[i] != 0) && (rom_found == 0); i++) { PRINTK(("## Trying ROM location %#08x", rom_location[i])); rom_found = 1; for (j = 0; j < 6; j++) { test_byte = (unsigned char *) (rom_location[i]+j); PRINTK((" %02x ", *test_byte)); if(!(*test_byte == rom_id[j])) { rom_found = 0; } } PRINTK(("\n")); } if (rom_found == 1) { PRINTK(("## %s: Boot_ROM found at %#08x\n", SK_NAME, rom_location[(i-1)])); return (rom_location[--i]); } else { PRINTK(("%s: No Boot_ROM found\n", SK_NAME)); return 0; } } /* End of SK_rom_addr() */ /* LANCE access functions * * ! CSR1-3 can only be accessed when in CSR0 the STOP bit is set ! */ /*- * Function : SK_reset_board * * Author : Patrick J.D. Weichmann * * Date Created : 94/05/25 * * Description : This function resets SK_G16 and all components, but * POS registers are not changed * * Parameters : None * Return Value : None * Errors : None * Globals : SK_RAM *board - SK_RAM structure pointer * * Update History : * YY/MM/DD uid Description -*/ void SK_reset_board(void) { int i; SK_PORT = 0x00; /* Reset active */ for (i = 0; i < 10 ; i++) /* Delay min 5ms */ ; SK_PORT = SK_RESET; /* Set back to normal operation */ } /* End of SK_reset_board() */ /*- * Function : SK_set_RAP * Author : Patrick J.D. Weichmann * Date Created : 94/05/25 * * Description : Set LANCE Register Address Port to register * for later data transfer. * * Parameters : I : reg_number - which CSR to read/write from/to * Return Value : None * Errors : None * Globals : SK_RAM *board - SK_RAM structure pointer * Update History : * YY/MM/DD uid Description -*/ void SK_set_RAP(int reg_number) { SK_IOREG = reg_number; SK_PORT = SK_RESET | SK_RAP | SK_WREG; SK_IOCOM = SK_DOIO; while (SK_PORT & SK_IORUN) ; } /* End of SK_set_RAP() */ /*- * Function : SK_read_reg * Author : Patrick J.D. Weichmann * Date Created : 94/05/25 * * Description : Set RAP and read data from a LANCE CSR register * * Parameters : I : reg_number - which CSR to read from * Return Value : Register contents * Errors : None * Globals : SK_RAM *board - SK_RAM structure pointer * Update History : * YY/MM/DD uid Description -*/ int SK_read_reg(int reg_number) { SK_set_RAP(reg_number); SK_PORT = SK_RESET | SK_RDATA | SK_RREG; SK_IOCOM = SK_DOIO; while (SK_PORT & SK_IORUN) ; return (SK_IOREG); } /* End of SK_read_reg() */ /*- * Function : SK_rread_reg * Author : Patrick J.D. Weichmann * Date Created : 94/05/28 * * Description : Read data from preseted register. * This function requires that you know which * Register is actually set. Be aware that CSR1-3 * can only be accessed when in CSR0 STOP is set. * * Return Value : Register contents * Errors : None * Globals : SK_RAM *board - SK_RAM structure pointer * Update History : * YY/MM/DD uid Description -*/ int SK_rread_reg(void) { SK_PORT = SK_RESET | SK_RDATA | SK_RREG; SK_IOCOM = SK_DOIO; while (SK_PORT & SK_IORUN) ; return (SK_IOREG); } /* End of SK_rread_reg() */ /*- * Function : SK_write_reg * Author : Patrick J.D. Weichmann * Date Created : 94/05/25 * * Description : This function sets the RAP then fills in the * LANCE I/O Reg and starts Transfer to LANCE. * It waits until transfer has ended which is max. 7 ms * and then it returns. * * Parameters : I : reg_number - which CSR to write to * I : value - what value to fill into register * Return Value : None * Errors : None * Globals : SK_RAM *board - SK_RAM structure pointer * Update History : * YY/MM/DD uid Description -*/ void SK_write_reg(int reg_number, int value) { SK_set_RAP(reg_number); SK_IOREG = value; SK_PORT = SK_RESET | SK_RDATA | SK_WREG; SK_IOCOM = SK_DOIO; while (SK_PORT & SK_IORUN) ; } /* End of SK_write_reg */ /* * Debugging functions * ------------------- */ /*- * Function : SK_print_pos * Author : Patrick J.D. Weichmann * Date Created : 94/05/25 * * Description : This function prints out the 4 POS (Programmable * Option Select) Registers. Used mainly to debug operation. * * Parameters : I : struct device *dev - SK_G16 device structure * I : char * - Text which will be printed as title * Return Value : None * Errors : None * Update History : * YY/MM/DD uid Description -*/ void SK_print_pos(struct device *dev, char *text) { int ioaddr = dev->base_addr; unsigned char pos0 = inb(SK_POS0), pos1 = inb(SK_POS1), pos2 = inb(SK_POS2), pos3 = inb(SK_POS3), pos4 = inb(SK_POS4); printk("## %s: %s.\n" "## pos0=%#4x pos1=%#4x pos2=%#04x pos3=%#08x pos4=%#04x\n", SK_NAME, text, pos0, pos1, pos2, (pos3<<14), pos4); } /* End of SK_print_pos() */ /*- * Function : SK_print_dev * Author : Patrick J.D. Weichmann * Date Created : 94/05/25 * * Description : This function simply prints out the important fields * of the device structure. * * Parameters : I : struct device *dev - SK_G16 device structure * I : char *text - Title for printing * Return Value : None * Errors : None * Update History : * YY/MM/DD uid Description -*/ void SK_print_dev(struct device *dev, char *text) { if (dev == NULL) { printk("## %s: Device Structure. %s\n", SK_NAME, text); printk("## DEVICE == NULL\n"); } else { printk("## %s: Device Structure. %s\n", SK_NAME, text); printk("## Device Name: %s Base Address: %#06lx IRQ: %d\n", dev->name, dev->base_addr, dev->irq); printk("## FLAGS: start: %d tbusy: %ld int: %d\n", dev->start, dev->tbusy, dev->interrupt); printk("## next device: %#08x init function: %#08x\n", (int) dev->next, (int) dev->init); } } /* End of SK_print_dev() */ /*- * Function : SK_print_ram * Author : Patrick J.D. Weichmann * Date Created : 94/06/02 * * Description : This function is used to check how are things set up * in the 16KB RAM. Also the pointers to the receive and * transmit descriptor rings and rx and tx buffers locations. * It contains a minor bug in printing, but has no effect to the values * only newlines are not correct. * * Parameters : I : struct device *dev - SK_G16 device structure * Return Value : None * Errors : None * Globals : None * Update History : * YY/MM/DD uid Description -*/ void SK_print_ram(struct device *dev) { int i; struct priv *p = (struct priv *) dev->priv; printk("## %s: RAM Details.\n" "## RAM at %#08x tmdhead: %#08x rmdhead: %#08x initblock: %#08x\n", SK_NAME, (unsigned int) p->ram, (unsigned int) p->tmdhead, (unsigned int) p->rmdhead, (unsigned int) &(p->ram)->ib); printk("## "); for(i = 0; i < TMDNUM; i++) { if (!(i % 3)) /* Every third line do a newline */ { printk("\n## "); } printk("tmdbufs%d: %#08x ", (i+1), (int) p->tmdbufs[i]); } printk("## "); for(i = 0; i < RMDNUM; i++) { if (!(i % 3)) /* Every third line do a newline */ { printk("\n## "); } printk("rmdbufs%d: %#08x ", (i+1), (int) p->rmdbufs[i]); } printk("\n"); } /* End of SK_print_ram() */ |