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kernel / drivers / net / depca.c
at v2.6.32 2107 lines 62 kB view raw
1/* depca.c: A DIGITAL DEPCA & EtherWORKS ethernet driver for linux. 2 3 Written 1994, 1995 by David C. Davies. 4 5 6 Copyright 1994 David C. Davies 7 and 8 United States Government 9 (as represented by the Director, National Security Agency). 10 11 Copyright 1995 Digital Equipment Corporation. 12 13 14 This software may be used and distributed according to the terms of 15 the GNU General Public License, incorporated herein by reference. 16 17 This driver is written for the Digital Equipment Corporation series 18 of DEPCA and EtherWORKS ethernet cards: 19 20 DEPCA (the original) 21 DE100 22 DE101 23 DE200 Turbo 24 DE201 Turbo 25 DE202 Turbo (TP BNC) 26 DE210 27 DE422 (EISA) 28 29 The driver has been tested on DE100, DE200 and DE202 cards in a 30 relatively busy network. The DE422 has been tested a little. 31 32 This driver will NOT work for the DE203, DE204 and DE205 series of 33 cards, since they have a new custom ASIC in place of the AMD LANCE 34 chip. See the 'ewrk3.c' driver in the Linux source tree for running 35 those cards. 36 37 I have benchmarked the driver with a DE100 at 595kB/s to (542kB/s from) 38 a DECstation 5000/200. 39 40 The author may be reached at davies@maniac.ultranet.com 41 42 ========================================================================= 43 44 The driver was originally based on the 'lance.c' driver from Donald 45 Becker which is included with the standard driver distribution for 46 linux. V0.4 is a complete re-write with only the kernel interface 47 remaining from the original code. 48 49 1) Lance.c code in /linux/drivers/net/ 50 2) "Ethernet/IEEE 802.3 Family. 1992 World Network Data Book/Handbook", 51 AMD, 1992 [(800) 222-9323]. 52 3) "Am79C90 CMOS Local Area Network Controller for Ethernet (C-LANCE)", 53 AMD, Pub. #17881, May 1993. 54 4) "Am79C960 PCnet-ISA(tm), Single-Chip Ethernet Controller for ISA", 55 AMD, Pub. #16907, May 1992 56 5) "DEC EtherWORKS LC Ethernet Controller Owners Manual", 57 Digital Equipment corporation, 1990, Pub. #EK-DE100-OM.003 58 6) "DEC EtherWORKS Turbo Ethernet Controller Owners Manual", 59 Digital Equipment corporation, 1990, Pub. #EK-DE200-OM.003 60 7) "DEPCA Hardware Reference Manual", Pub. #EK-DEPCA-PR 61 Digital Equipment Corporation, 1989 62 8) "DEC EtherWORKS Turbo_(TP BNC) Ethernet Controller Owners Manual", 63 Digital Equipment corporation, 1991, Pub. #EK-DE202-OM.001 64 65 66 Peter Bauer's depca.c (V0.5) was referred to when debugging V0.1 of this 67 driver. 68 69 The original DEPCA card requires that the ethernet ROM address counter 70 be enabled to count and has an 8 bit NICSR. The ROM counter enabling is 71 only done when a 0x08 is read as the first address octet (to minimise 72 the chances of writing over some other hardware's I/O register). The 73 NICSR accesses have been changed to byte accesses for all the cards 74 supported by this driver, since there is only one useful bit in the MSB 75 (remote boot timeout) and it is not used. Also, there is a maximum of 76 only 48kB network RAM for this card. My thanks to Torbjorn Lindh for 77 help debugging all this (and holding my feet to the fire until I got it 78 right). 79 80 The DE200 series boards have on-board 64kB RAM for use as a shared 81 memory network buffer. Only the DE100 cards make use of a 2kB buffer 82 mode which has not been implemented in this driver (only the 32kB and 83 64kB modes are supported [16kB/48kB for the original DEPCA]). 84 85 At the most only 2 DEPCA cards can be supported on the ISA bus because 86 there is only provision for two I/O base addresses on each card (0x300 87 and 0x200). The I/O address is detected by searching for a byte sequence 88 in the Ethernet station address PROM at the expected I/O address for the 89 Ethernet PROM. The shared memory base address is 'autoprobed' by 90 looking for the self test PROM and detecting the card name. When a 91 second DEPCA is detected, information is placed in the base_addr 92 variable of the next device structure (which is created if necessary), 93 thus enabling ethif_probe initialization for the device. More than 2 94 EISA cards can be supported, but care will be needed assigning the 95 shared memory to ensure that each slot has the correct IRQ, I/O address 96 and shared memory address assigned. 97 98 ************************************************************************ 99 100 NOTE: If you are using two ISA DEPCAs, it is important that you assign 101 the base memory addresses correctly. The driver autoprobes I/O 0x300 102 then 0x200. The base memory address for the first device must be less 103 than that of the second so that the auto probe will correctly assign the 104 I/O and memory addresses on the same card. I can't think of a way to do 105 this unambiguously at the moment, since there is nothing on the cards to 106 tie I/O and memory information together. 107 108 I am unable to test 2 cards together for now, so this code is 109 unchecked. All reports, good or bad, are welcome. 110 111 ************************************************************************ 112 113 The board IRQ setting must be at an unused IRQ which is auto-probed 114 using Donald Becker's autoprobe routines. DEPCA and DE100 board IRQs are 115 {2,3,4,5,7}, whereas the DE200 is at {5,9,10,11,15}. Note that IRQ2 is 116 really IRQ9 in machines with 16 IRQ lines. 117 118 No 16MB memory limitation should exist with this driver as DMA is not 119 used and the common memory area is in low memory on the network card (my 120 current system has 20MB and I've not had problems yet). 121 122 The ability to load this driver as a loadable module has been added. To 123 utilise this ability, you have to do <8 things: 124 125 0) have a copy of the loadable modules code installed on your system. 126 1) copy depca.c from the /linux/drivers/net directory to your favourite 127 temporary directory. 128 2) if you wish, edit the source code near line 1530 to reflect the I/O 129 address and IRQ you're using (see also 5). 130 3) compile depca.c, but include -DMODULE in the command line to ensure 131 that the correct bits are compiled (see end of source code). 132 4) if you are wanting to add a new card, goto 5. Otherwise, recompile a 133 kernel with the depca configuration turned off and reboot. 134 5) insmod depca.o [irq=7] [io=0x200] [mem=0xd0000] [adapter_name=DE100] 135 [Alan Cox: Changed the code to allow command line irq/io assignments] 136 [Dave Davies: Changed the code to allow command line mem/name 137 assignments] 138 6) run the net startup bits for your eth?? interface manually 139 (usually /etc/rc.inet[12] at boot time). 140 7) enjoy! 141 142 Note that autoprobing is not allowed in loadable modules - the system is 143 already up and running and you're messing with interrupts. 144 145 To unload a module, turn off the associated interface 146 'ifconfig eth?? down' then 'rmmod depca'. 147 148 To assign a base memory address for the shared memory when running as a 149 loadable module, see 5 above. To include the adapter name (if you have 150 no PROM but know the card name) also see 5 above. Note that this last 151 option will not work with kernel built-in depca's. 152 153 The shared memory assignment for a loadable module makes sense to avoid 154 the 'memory autoprobe' picking the wrong shared memory (for the case of 155 2 depca's in a PC). 156 157 ************************************************************************ 158 Support for MCA EtherWORKS cards added 11-3-98. 159 Verified to work with up to 2 DE212 cards in a system (although not 160 fully stress-tested). 161 162 Currently known bugs/limitations: 163 164 Note: with the MCA stuff as a module, it trusts the MCA configuration, 165 not the command line for IRQ and memory address. You can 166 specify them if you want, but it will throw your values out. 167 You still have to pass the IO address it was configured as 168 though. 169 170 ************************************************************************ 171 TO DO: 172 ------ 173 174 175 Revision History 176 ---------------- 177 178 Version Date Description 179 180 0.1 25-jan-94 Initial writing. 181 0.2 27-jan-94 Added LANCE TX hardware buffer chaining. 182 0.3 1-feb-94 Added multiple DEPCA support. 183 0.31 4-feb-94 Added DE202 recognition. 184 0.32 19-feb-94 Tidy up. Improve multi-DEPCA support. 185 0.33 25-feb-94 Fix DEPCA ethernet ROM counter enable. 186 Add jabber packet fix from murf@perftech.com 187 and becker@super.org 188 0.34 7-mar-94 Fix DEPCA max network memory RAM & NICSR access. 189 0.35 8-mar-94 Added DE201 recognition. Tidied up. 190 0.351 30-apr-94 Added EISA support. Added DE422 recognition. 191 0.36 16-may-94 DE422 fix released. 192 0.37 22-jul-94 Added MODULE support 193 0.38 15-aug-94 Added DBR ROM switch in depca_close(). 194 Multi DEPCA bug fix. 195 0.38axp 15-sep-94 Special version for Alpha AXP Linux V1.0. 196 0.381 12-dec-94 Added DE101 recognition, fix multicast bug. 197 0.382 9-feb-95 Fix recognition bug reported by <bkm@star.rl.ac.uk>. 198 0.383 22-feb-95 Fix for conflict with VESA SCSI reported by 199 <stromain@alf.dec.com> 200 0.384 17-mar-95 Fix a ring full bug reported by <bkm@star.rl.ac.uk> 201 0.385 3-apr-95 Fix a recognition bug reported by 202 <ryan.niemi@lastfrontier.com> 203 0.386 21-apr-95 Fix the last fix...sorry, must be galloping senility 204 0.40 25-May-95 Rewrite for portability & updated. 205 ALPHA support from <jestabro@amt.tay1.dec.com> 206 0.41 26-Jun-95 Added verify_area() calls in depca_ioctl() from 207 suggestion by <heiko@colossus.escape.de> 208 0.42 27-Dec-95 Add 'mem' shared memory assignment for loadable 209 modules. 210 Add 'adapter_name' for loadable modules when no PROM. 211 Both above from a suggestion by 212 <pchen@woodruffs121.residence.gatech.edu>. 213 Add new multicasting code. 214 0.421 22-Apr-96 Fix alloc_device() bug <jari@markkus2.fimr.fi> 215 0.422 29-Apr-96 Fix depca_hw_init() bug <jari@markkus2.fimr.fi> 216 0.423 7-Jun-96 Fix module load bug <kmg@barco.be> 217 0.43 16-Aug-96 Update alloc_device() to conform to de4x5.c 218 0.44 1-Sep-97 Fix *_probe() to test check_region() first - bug 219 reported by <mmogilvi@elbert.uccs.edu> 220 0.45 3-Nov-98 Added support for MCA EtherWORKS (DE210/DE212) cards 221 by <tymm@computer.org> 222 0.451 5-Nov-98 Fixed mca stuff cuz I'm a dummy. <tymm@computer.org> 223 0.5 14-Nov-98 Re-spin for 2.1.x kernels. 224 0.51 27-Jun-99 Correct received packet length for CRC from 225 report by <worm@dkik.dk> 226 0.52 16-Oct-00 Fixes for 2.3 io memory accesses 227 Fix show-stopper (ints left masked) in depca_interrupt 228 by <peterd@pnd-pc.demon.co.uk> 229 0.53 12-Jan-01 Release resources on failure, bss tidbits 230 by acme@conectiva.com.br 231 0.54 08-Nov-01 use library crc32 functions 232 by Matt_Domsch@dell.com 233 0.55 01-Mar-03 Use EISA/sysfs framework <maz@wild-wind.fr.eu.org> 234 235 ========================================================================= 236*/ 237 238#include <linux/module.h> 239#include <linux/kernel.h> 240#include <linux/sched.h> 241#include <linux/string.h> 242#include <linux/errno.h> 243#include <linux/ioport.h> 244#include <linux/slab.h> 245#include <linux/interrupt.h> 246#include <linux/delay.h> 247#include <linux/init.h> 248#include <linux/crc32.h> 249#include <linux/netdevice.h> 250#include <linux/etherdevice.h> 251#include <linux/skbuff.h> 252#include <linux/time.h> 253#include <linux/types.h> 254#include <linux/unistd.h> 255#include <linux/ctype.h> 256#include <linux/moduleparam.h> 257#include <linux/platform_device.h> 258#include <linux/bitops.h> 259 260#include <asm/uaccess.h> 261#include <asm/io.h> 262#include <asm/dma.h> 263 264#ifdef CONFIG_MCA 265#include <linux/mca.h> 266#endif 267 268#ifdef CONFIG_EISA 269#include <linux/eisa.h> 270#endif 271 272#include "depca.h" 273 274static char version[] __initdata = "depca.c:v0.53 2001/1/12 davies@maniac.ultranet.com\n"; 275 276#ifdef DEPCA_DEBUG 277static int depca_debug = DEPCA_DEBUG; 278#else 279static int depca_debug = 1; 280#endif 281 282#define DEPCA_NDA 0xffe0 /* No Device Address */ 283 284#define TX_TIMEOUT (1*HZ) 285 286/* 287** Ethernet PROM defines 288*/ 289#define PROBE_LENGTH 32 290#define ETH_PROM_SIG 0xAA5500FFUL 291 292/* 293** Set the number of Tx and Rx buffers. Ensure that the memory requested 294** here is <= to the amount of shared memory set up by the board switches. 295** The number of descriptors MUST BE A POWER OF 2. 296** 297** total_memory = NUM_RX_DESC*(8+RX_BUFF_SZ) + NUM_TX_DESC*(8+TX_BUFF_SZ) 298*/ 299#define NUM_RX_DESC 8 /* Number of RX descriptors */ 300#define NUM_TX_DESC 8 /* Number of TX descriptors */ 301#define RX_BUFF_SZ 1536 /* Buffer size for each Rx buffer */ 302#define TX_BUFF_SZ 1536 /* Buffer size for each Tx buffer */ 303 304/* 305** EISA bus defines 306*/ 307#define DEPCA_EISA_IO_PORTS 0x0c00 /* I/O port base address, slot 0 */ 308 309/* 310** ISA Bus defines 311*/ 312#define DEPCA_RAM_BASE_ADDRESSES {0xc0000,0xd0000,0xe0000,0x00000} 313#define DEPCA_TOTAL_SIZE 0x10 314 315static struct { 316 u_long iobase; 317 struct platform_device *device; 318} depca_io_ports[] = { 319 { 0x300, NULL }, 320 { 0x200, NULL }, 321 { 0 , NULL }, 322}; 323 324/* 325** Name <-> Adapter mapping 326*/ 327#define DEPCA_SIGNATURE {"DEPCA",\ 328 "DE100","DE101",\ 329 "DE200","DE201","DE202",\ 330 "DE210","DE212",\ 331 "DE422",\ 332 ""} 333 334static char* __initdata depca_signature[] = DEPCA_SIGNATURE; 335 336enum depca_type { 337 DEPCA, de100, de101, de200, de201, de202, de210, de212, de422, unknown 338}; 339 340static char depca_string[] = "depca"; 341 342static int depca_device_remove (struct device *device); 343 344#ifdef CONFIG_EISA 345static struct eisa_device_id depca_eisa_ids[] = { 346 { "DEC4220", de422 }, 347 { "" } 348}; 349MODULE_DEVICE_TABLE(eisa, depca_eisa_ids); 350 351static int depca_eisa_probe (struct device *device); 352 353static struct eisa_driver depca_eisa_driver = { 354 .id_table = depca_eisa_ids, 355 .driver = { 356 .name = depca_string, 357 .probe = depca_eisa_probe, 358 .remove = __devexit_p (depca_device_remove) 359 } 360}; 361#endif 362 363#ifdef CONFIG_MCA 364/* 365** Adapter ID for the MCA EtherWORKS DE210/212 adapter 366*/ 367#define DE210_ID 0x628d 368#define DE212_ID 0x6def 369 370static short depca_mca_adapter_ids[] = { 371 DE210_ID, 372 DE212_ID, 373 0x0000 374}; 375 376static char *depca_mca_adapter_name[] = { 377 "DEC EtherWORKS MC Adapter (DE210)", 378 "DEC EtherWORKS MC Adapter (DE212)", 379 NULL 380}; 381 382static enum depca_type depca_mca_adapter_type[] = { 383 de210, 384 de212, 385 0 386}; 387 388static int depca_mca_probe (struct device *); 389 390static struct mca_driver depca_mca_driver = { 391 .id_table = depca_mca_adapter_ids, 392 .driver = { 393 .name = depca_string, 394 .bus = &mca_bus_type, 395 .probe = depca_mca_probe, 396 .remove = __devexit_p(depca_device_remove), 397 }, 398}; 399#endif 400 401static int depca_isa_probe (struct platform_device *); 402 403static int __devexit depca_isa_remove(struct platform_device *pdev) 404{ 405 return depca_device_remove(&pdev->dev); 406} 407 408static struct platform_driver depca_isa_driver = { 409 .probe = depca_isa_probe, 410 .remove = __devexit_p(depca_isa_remove), 411 .driver = { 412 .name = depca_string, 413 }, 414}; 415 416/* 417** Miscellaneous info... 418*/ 419#define DEPCA_STRLEN 16 420 421/* 422** Memory Alignment. Each descriptor is 4 longwords long. To force a 423** particular alignment on the TX descriptor, adjust DESC_SKIP_LEN and 424** DESC_ALIGN. DEPCA_ALIGN aligns the start address of the private memory area 425** and hence the RX descriptor ring's first entry. 426*/ 427#define DEPCA_ALIGN4 ((u_long)4 - 1) /* 1 longword align */ 428#define DEPCA_ALIGN8 ((u_long)8 - 1) /* 2 longword (quadword) align */ 429#define DEPCA_ALIGN DEPCA_ALIGN8 /* Keep the LANCE happy... */ 430 431/* 432** The DEPCA Rx and Tx ring descriptors. 433*/ 434struct depca_rx_desc { 435 volatile s32 base; 436 s16 buf_length; /* This length is negative 2's complement! */ 437 s16 msg_length; /* This length is "normal". */ 438}; 439 440struct depca_tx_desc { 441 volatile s32 base; 442 s16 length; /* This length is negative 2's complement! */ 443 s16 misc; /* Errors and TDR info */ 444}; 445 446#define LA_MASK 0x0000ffff /* LANCE address mask for mapping network RAM 447 to LANCE memory address space */ 448 449/* 450** The Lance initialization block, described in databook, in common memory. 451*/ 452struct depca_init { 453 u16 mode; /* Mode register */ 454 u8 phys_addr[ETH_ALEN]; /* Physical ethernet address */ 455 u8 mcast_table[8]; /* Multicast Hash Table. */ 456 u32 rx_ring; /* Rx ring base pointer & ring length */ 457 u32 tx_ring; /* Tx ring base pointer & ring length */ 458}; 459 460#define DEPCA_PKT_STAT_SZ 16 461#define DEPCA_PKT_BIN_SZ 128 /* Should be >=100 unless you 462 increase DEPCA_PKT_STAT_SZ */ 463struct depca_private { 464 char adapter_name[DEPCA_STRLEN]; /* /proc/ioports string */ 465 enum depca_type adapter; /* Adapter type */ 466 enum { 467 DEPCA_BUS_MCA = 1, 468 DEPCA_BUS_ISA, 469 DEPCA_BUS_EISA, 470 } depca_bus; /* type of bus */ 471 struct depca_init init_block; /* Shadow Initialization block */ 472/* CPU address space fields */ 473 struct depca_rx_desc __iomem *rx_ring; /* Pointer to start of RX descriptor ring */ 474 struct depca_tx_desc __iomem *tx_ring; /* Pointer to start of TX descriptor ring */ 475 void __iomem *rx_buff[NUM_RX_DESC]; /* CPU virt address of sh'd memory buffs */ 476 void __iomem *tx_buff[NUM_TX_DESC]; /* CPU virt address of sh'd memory buffs */ 477 void __iomem *sh_mem; /* CPU mapped virt address of device RAM */ 478 u_long mem_start; /* Bus address of device RAM (before remap) */ 479 u_long mem_len; /* device memory size */ 480/* Device address space fields */ 481 u_long device_ram_start; /* Start of RAM in device addr space */ 482/* Offsets used in both address spaces */ 483 u_long rx_ring_offset; /* Offset from start of RAM to rx_ring */ 484 u_long tx_ring_offset; /* Offset from start of RAM to tx_ring */ 485 u_long buffs_offset; /* LANCE Rx and Tx buffers start address. */ 486/* Kernel-only (not device) fields */ 487 int rx_new, tx_new; /* The next free ring entry */ 488 int rx_old, tx_old; /* The ring entries to be free()ed. */ 489 spinlock_t lock; 490 struct { /* Private stats counters */ 491 u32 bins[DEPCA_PKT_STAT_SZ]; 492 u32 unicast; 493 u32 multicast; 494 u32 broadcast; 495 u32 excessive_collisions; 496 u32 tx_underruns; 497 u32 excessive_underruns; 498 } pktStats; 499 int txRingMask; /* TX ring mask */ 500 int rxRingMask; /* RX ring mask */ 501 s32 rx_rlen; /* log2(rxRingMask+1) for the descriptors */ 502 s32 tx_rlen; /* log2(txRingMask+1) for the descriptors */ 503}; 504 505/* 506** The transmit ring full condition is described by the tx_old and tx_new 507** pointers by: 508** tx_old = tx_new Empty ring 509** tx_old = tx_new+1 Full ring 510** tx_old+txRingMask = tx_new Full ring (wrapped condition) 511*/ 512#define TX_BUFFS_AVAIL ((lp->tx_old<=lp->tx_new)?\ 513 lp->tx_old+lp->txRingMask-lp->tx_new:\ 514 lp->tx_old -lp->tx_new-1) 515 516/* 517** Public Functions 518*/ 519static int depca_open(struct net_device *dev); 520static netdev_tx_t depca_start_xmit(struct sk_buff *skb, 521 struct net_device *dev); 522static irqreturn_t depca_interrupt(int irq, void *dev_id); 523static int depca_close(struct net_device *dev); 524static int depca_ioctl(struct net_device *dev, struct ifreq *rq, int cmd); 525static void depca_tx_timeout(struct net_device *dev); 526static void set_multicast_list(struct net_device *dev); 527 528/* 529** Private functions 530*/ 531static void depca_init_ring(struct net_device *dev); 532static int depca_rx(struct net_device *dev); 533static int depca_tx(struct net_device *dev); 534 535static void LoadCSRs(struct net_device *dev); 536static int InitRestartDepca(struct net_device *dev); 537static int DepcaSignature(char *name, u_long paddr); 538static int DevicePresent(u_long ioaddr); 539static int get_hw_addr(struct net_device *dev); 540static void SetMulticastFilter(struct net_device *dev); 541static int load_packet(struct net_device *dev, struct sk_buff *skb); 542static void depca_dbg_open(struct net_device *dev); 543 544static u_char de1xx_irq[] __initdata = { 2, 3, 4, 5, 7, 9, 0 }; 545static u_char de2xx_irq[] __initdata = { 5, 9, 10, 11, 15, 0 }; 546static u_char de422_irq[] __initdata = { 5, 9, 10, 11, 0 }; 547static u_char *depca_irq; 548 549static int irq; 550static int io; 551static char *adapter_name; 552static int mem; /* For loadable module assignment 553 use insmod mem=0x????? .... */ 554module_param (irq, int, 0); 555module_param (io, int, 0); 556module_param (adapter_name, charp, 0); 557module_param (mem, int, 0); 558MODULE_PARM_DESC(irq, "DEPCA IRQ number"); 559MODULE_PARM_DESC(io, "DEPCA I/O base address"); 560MODULE_PARM_DESC(adapter_name, "DEPCA adapter name"); 561MODULE_PARM_DESC(mem, "DEPCA shared memory address"); 562MODULE_LICENSE("GPL"); 563 564/* 565** Miscellaneous defines... 566*/ 567#define STOP_DEPCA \ 568 outw(CSR0, DEPCA_ADDR);\ 569 outw(STOP, DEPCA_DATA) 570 571static const struct net_device_ops depca_netdev_ops = { 572 .ndo_open = depca_open, 573 .ndo_start_xmit = depca_start_xmit, 574 .ndo_stop = depca_close, 575 .ndo_set_multicast_list = set_multicast_list, 576 .ndo_do_ioctl = depca_ioctl, 577 .ndo_tx_timeout = depca_tx_timeout, 578 .ndo_change_mtu = eth_change_mtu, 579 .ndo_set_mac_address = eth_mac_addr, 580 .ndo_validate_addr = eth_validate_addr, 581}; 582 583static int __init depca_hw_init (struct net_device *dev, struct device *device) 584{ 585 struct depca_private *lp; 586 int i, j, offset, netRAM, mem_len, status = 0; 587 s16 nicsr; 588 u_long ioaddr; 589 u_long mem_start; 590 591 /* 592 * We are now supposed to enter this function with the 593 * following fields filled with proper values : 594 * 595 * dev->base_addr 596 * lp->mem_start 597 * lp->depca_bus 598 * lp->adapter 599 * 600 * dev->irq can be set if known from device configuration (on 601 * MCA or EISA) or module option. Otherwise, it will be auto 602 * detected. 603 */ 604 605 ioaddr = dev->base_addr; 606 607 STOP_DEPCA; 608 609 nicsr = inb(DEPCA_NICSR); 610 nicsr = ((nicsr & ~SHE & ~RBE & ~IEN) | IM); 611 outb(nicsr, DEPCA_NICSR); 612 613 if (inw(DEPCA_DATA) != STOP) { 614 return -ENXIO; 615 } 616 617 lp = netdev_priv(dev); 618 mem_start = lp->mem_start; 619 620 if (!mem_start || lp->adapter < DEPCA || lp->adapter >=unknown) 621 return -ENXIO; 622 623 printk("%s: %s at 0x%04lx", 624 dev_name(device), depca_signature[lp->adapter], ioaddr); 625 626 switch (lp->depca_bus) { 627#ifdef CONFIG_MCA 628 case DEPCA_BUS_MCA: 629 printk(" (MCA slot %d)", to_mca_device(device)->slot + 1); 630 break; 631#endif 632 633#ifdef CONFIG_EISA 634 case DEPCA_BUS_EISA: 635 printk(" (EISA slot %d)", to_eisa_device(device)->slot); 636 break; 637#endif 638 639 case DEPCA_BUS_ISA: 640 break; 641 642 default: 643 printk("Unknown DEPCA bus %d\n", lp->depca_bus); 644 return -ENXIO; 645 } 646 647 printk(", h/w address "); 648 status = get_hw_addr(dev); 649 printk("%pM", dev->dev_addr); 650 if (status != 0) { 651 printk(" which has an Ethernet PROM CRC error.\n"); 652 return -ENXIO; 653 } 654 655 /* Set up the maximum amount of network RAM(kB) */ 656 netRAM = ((lp->adapter != DEPCA) ? 64 : 48); 657 if ((nicsr & _128KB) && (lp->adapter == de422)) 658 netRAM = 128; 659 660 /* Shared Memory Base Address */ 661 if (nicsr & BUF) { 662 nicsr &= ~BS; /* DEPCA RAM in top 32k */ 663 netRAM -= 32; 664 665 /* Only EISA/ISA needs start address to be re-computed */ 666 if (lp->depca_bus != DEPCA_BUS_MCA) 667 mem_start += 0x8000; 668 } 669 670 if ((mem_len = (NUM_RX_DESC * (sizeof(struct depca_rx_desc) + RX_BUFF_SZ) + NUM_TX_DESC * (sizeof(struct depca_tx_desc) + TX_BUFF_SZ) + sizeof(struct depca_init))) 671 > (netRAM << 10)) { 672 printk(",\n requests %dkB RAM: only %dkB is available!\n", (mem_len >> 10), netRAM); 673 return -ENXIO; 674 } 675 676 printk(",\n has %dkB RAM at 0x%.5lx", netRAM, mem_start); 677 678 /* Enable the shadow RAM. */ 679 if (lp->adapter != DEPCA) { 680 nicsr |= SHE; 681 outb(nicsr, DEPCA_NICSR); 682 } 683 684 spin_lock_init(&lp->lock); 685 sprintf(lp->adapter_name, "%s (%s)", 686 depca_signature[lp->adapter], dev_name(device)); 687 status = -EBUSY; 688 689 /* Initialisation Block */ 690 if (!request_mem_region (mem_start, mem_len, lp->adapter_name)) { 691 printk(KERN_ERR "depca: cannot request ISA memory, aborting\n"); 692 goto out_priv; 693 } 694 695 status = -EIO; 696 lp->sh_mem = ioremap(mem_start, mem_len); 697 if (lp->sh_mem == NULL) { 698 printk(KERN_ERR "depca: cannot remap ISA memory, aborting\n"); 699 goto out1; 700 } 701 702 lp->mem_start = mem_start; 703 lp->mem_len = mem_len; 704 lp->device_ram_start = mem_start & LA_MASK; 705 706 offset = 0; 707 offset += sizeof(struct depca_init); 708 709 /* Tx & Rx descriptors (aligned to a quadword boundary) */ 710 offset = (offset + DEPCA_ALIGN) & ~DEPCA_ALIGN; 711 lp->rx_ring = (struct depca_rx_desc __iomem *) (lp->sh_mem + offset); 712 lp->rx_ring_offset = offset; 713 714 offset += (sizeof(struct depca_rx_desc) * NUM_RX_DESC); 715 lp->tx_ring = (struct depca_tx_desc __iomem *) (lp->sh_mem + offset); 716 lp->tx_ring_offset = offset; 717 718 offset += (sizeof(struct depca_tx_desc) * NUM_TX_DESC); 719 720 lp->buffs_offset = offset; 721 722 /* Finish initialising the ring information. */ 723 lp->rxRingMask = NUM_RX_DESC - 1; 724 lp->txRingMask = NUM_TX_DESC - 1; 725 726 /* Calculate Tx/Rx RLEN size for the descriptors. */ 727 for (i = 0, j = lp->rxRingMask; j > 0; i++) { 728 j >>= 1; 729 } 730 lp->rx_rlen = (s32) (i << 29); 731 for (i = 0, j = lp->txRingMask; j > 0; i++) { 732 j >>= 1; 733 } 734 lp->tx_rlen = (s32) (i << 29); 735 736 /* Load the initialisation block */ 737 depca_init_ring(dev); 738 739 /* Initialise the control and status registers */ 740 LoadCSRs(dev); 741 742 /* Enable DEPCA board interrupts for autoprobing */ 743 nicsr = ((nicsr & ~IM) | IEN); 744 outb(nicsr, DEPCA_NICSR); 745 746 /* To auto-IRQ we enable the initialization-done and DMA err, 747 interrupts. For now we will always get a DMA error. */ 748 if (dev->irq < 2) { 749 unsigned char irqnum; 750 unsigned long irq_mask, delay; 751 752 irq_mask = probe_irq_on(); 753 754 /* Assign the correct irq list */ 755 switch (lp->adapter) { 756 case DEPCA: 757 case de100: 758 case de101: 759 depca_irq = de1xx_irq; 760 break; 761 case de200: 762 case de201: 763 case de202: 764 case de210: 765 case de212: 766 depca_irq = de2xx_irq; 767 break; 768 case de422: 769 depca_irq = de422_irq; 770 break; 771 772 default: 773 break; /* Not reached */ 774 } 775 776 /* Trigger an initialization just for the interrupt. */ 777 outw(INEA | INIT, DEPCA_DATA); 778 779 delay = jiffies + HZ/50; 780 while (time_before(jiffies, delay)) 781 yield(); 782 783 irqnum = probe_irq_off(irq_mask); 784 785 status = -ENXIO; 786 if (!irqnum) { 787 printk(" and failed to detect IRQ line.\n"); 788 goto out2; 789 } else { 790 for (dev->irq = 0, i = 0; (depca_irq[i]) && (!dev->irq); i++) 791 if (irqnum == depca_irq[i]) { 792 dev->irq = irqnum; 793 printk(" and uses IRQ%d.\n", dev->irq); 794 } 795 796 if (!dev->irq) { 797 printk(" but incorrect IRQ line detected.\n"); 798 goto out2; 799 } 800 } 801 } else { 802 printk(" and assigned IRQ%d.\n", dev->irq); 803 } 804 805 if (depca_debug > 1) { 806 printk(version); 807 } 808 809 /* The DEPCA-specific entries in the device structure. */ 810 dev->netdev_ops = &depca_netdev_ops; 811 dev->watchdog_timeo = TX_TIMEOUT; 812 813 dev->mem_start = 0; 814 815 dev_set_drvdata(device, dev); 816 SET_NETDEV_DEV (dev, device); 817 818 status = register_netdev(dev); 819 if (status == 0) 820 return 0; 821out2: 822 iounmap(lp->sh_mem); 823out1: 824 release_mem_region (mem_start, mem_len); 825out_priv: 826 return status; 827} 828 829 830static int depca_open(struct net_device *dev) 831{ 832 struct depca_private *lp = netdev_priv(dev); 833 u_long ioaddr = dev->base_addr; 834 s16 nicsr; 835 int status = 0; 836 837 STOP_DEPCA; 838 nicsr = inb(DEPCA_NICSR); 839 840 /* Make sure the shadow RAM is enabled */ 841 if (lp->adapter != DEPCA) { 842 nicsr |= SHE; 843 outb(nicsr, DEPCA_NICSR); 844 } 845 846 /* Re-initialize the DEPCA... */ 847 depca_init_ring(dev); 848 LoadCSRs(dev); 849 850 depca_dbg_open(dev); 851 852 if (request_irq(dev->irq, &depca_interrupt, 0, lp->adapter_name, dev)) { 853 printk("depca_open(): Requested IRQ%d is busy\n", dev->irq); 854 status = -EAGAIN; 855 } else { 856 857 /* Enable DEPCA board interrupts and turn off LED */ 858 nicsr = ((nicsr & ~IM & ~LED) | IEN); 859 outb(nicsr, DEPCA_NICSR); 860 outw(CSR0, DEPCA_ADDR); 861 862 netif_start_queue(dev); 863 864 status = InitRestartDepca(dev); 865 866 if (depca_debug > 1) { 867 printk("CSR0: 0x%4.4x\n", inw(DEPCA_DATA)); 868 printk("nicsr: 0x%02x\n", inb(DEPCA_NICSR)); 869 } 870 } 871 return status; 872} 873 874/* Initialize the lance Rx and Tx descriptor rings. */ 875static void depca_init_ring(struct net_device *dev) 876{ 877 struct depca_private *lp = netdev_priv(dev); 878 u_int i; 879 u_long offset; 880 881 /* Lock out other processes whilst setting up the hardware */ 882 netif_stop_queue(dev); 883 884 lp->rx_new = lp->tx_new = 0; 885 lp->rx_old = lp->tx_old = 0; 886 887 /* Initialize the base address and length of each buffer in the ring */ 888 for (i = 0; i <= lp->rxRingMask; i++) { 889 offset = lp->buffs_offset + i * RX_BUFF_SZ; 890 writel((lp->device_ram_start + offset) | R_OWN, &lp->rx_ring[i].base); 891 writew(-RX_BUFF_SZ, &lp->rx_ring[i].buf_length); 892 lp->rx_buff[i] = lp->sh_mem + offset; 893 } 894 895 for (i = 0; i <= lp->txRingMask; i++) { 896 offset = lp->buffs_offset + (i + lp->rxRingMask + 1) * TX_BUFF_SZ; 897 writel((lp->device_ram_start + offset) & 0x00ffffff, &lp->tx_ring[i].base); 898 lp->tx_buff[i] = lp->sh_mem + offset; 899 } 900 901 /* Set up the initialization block */ 902 lp->init_block.rx_ring = (lp->device_ram_start + lp->rx_ring_offset) | lp->rx_rlen; 903 lp->init_block.tx_ring = (lp->device_ram_start + lp->tx_ring_offset) | lp->tx_rlen; 904 905 SetMulticastFilter(dev); 906 907 for (i = 0; i < ETH_ALEN; i++) { 908 lp->init_block.phys_addr[i] = dev->dev_addr[i]; 909 } 910 911 lp->init_block.mode = 0x0000; /* Enable the Tx and Rx */ 912} 913 914 915static void depca_tx_timeout(struct net_device *dev) 916{ 917 u_long ioaddr = dev->base_addr; 918 919 printk("%s: transmit timed out, status %04x, resetting.\n", dev->name, inw(DEPCA_DATA)); 920 921 STOP_DEPCA; 922 depca_init_ring(dev); 923 LoadCSRs(dev); 924 dev->trans_start = jiffies; 925 netif_wake_queue(dev); 926 InitRestartDepca(dev); 927} 928 929 930/* 931** Writes a socket buffer to TX descriptor ring and starts transmission 932*/ 933static netdev_tx_t depca_start_xmit(struct sk_buff *skb, 934 struct net_device *dev) 935{ 936 struct depca_private *lp = netdev_priv(dev); 937 u_long ioaddr = dev->base_addr; 938 int status = 0; 939 940 /* Transmitter timeout, serious problems. */ 941 if (skb->len < 1) 942 goto out; 943 944 if (skb_padto(skb, ETH_ZLEN)) 945 goto out; 946 947 netif_stop_queue(dev); 948 949 if (TX_BUFFS_AVAIL) { /* Fill in a Tx ring entry */ 950 status = load_packet(dev, skb); 951 952 if (!status) { 953 /* Trigger an immediate send demand. */ 954 outw(CSR0, DEPCA_ADDR); 955 outw(INEA | TDMD, DEPCA_DATA); 956 957 dev->trans_start = jiffies; 958 dev_kfree_skb(skb); 959 } 960 if (TX_BUFFS_AVAIL) 961 netif_start_queue(dev); 962 } else 963 status = NETDEV_TX_LOCKED; 964 965 out: 966 return status; 967} 968 969/* 970** The DEPCA interrupt handler. 971*/ 972static irqreturn_t depca_interrupt(int irq, void *dev_id) 973{ 974 struct net_device *dev = dev_id; 975 struct depca_private *lp; 976 s16 csr0, nicsr; 977 u_long ioaddr; 978 979 if (dev == NULL) { 980 printk("depca_interrupt(): irq %d for unknown device.\n", irq); 981 return IRQ_NONE; 982 } 983 984 lp = netdev_priv(dev); 985 ioaddr = dev->base_addr; 986 987 spin_lock(&lp->lock); 988 989 /* mask the DEPCA board interrupts and turn on the LED */ 990 nicsr = inb(DEPCA_NICSR); 991 nicsr |= (IM | LED); 992 outb(nicsr, DEPCA_NICSR); 993 994 outw(CSR0, DEPCA_ADDR); 995 csr0 = inw(DEPCA_DATA); 996 997 /* Acknowledge all of the current interrupt sources ASAP. */ 998 outw(csr0 & INTE, DEPCA_DATA); 999 1000 if (csr0 & RINT) /* Rx interrupt (packet arrived) */ 1001 depca_rx(dev); 1002 1003 if (csr0 & TINT) /* Tx interrupt (packet sent) */ 1004 depca_tx(dev); 1005 1006 /* Any resources available? */ 1007 if ((TX_BUFFS_AVAIL >= 0) && netif_queue_stopped(dev)) { 1008 netif_wake_queue(dev); 1009 } 1010 1011 /* Unmask the DEPCA board interrupts and turn off the LED */ 1012 nicsr = (nicsr & ~IM & ~LED); 1013 outb(nicsr, DEPCA_NICSR); 1014 1015 spin_unlock(&lp->lock); 1016 return IRQ_HANDLED; 1017} 1018 1019/* Called with lp->lock held */ 1020static int depca_rx(struct net_device *dev) 1021{ 1022 struct depca_private *lp = netdev_priv(dev); 1023 int i, entry; 1024 s32 status; 1025 1026 for (entry = lp->rx_new; !(readl(&lp->rx_ring[entry].base) & R_OWN); entry = lp->rx_new) { 1027 status = readl(&lp->rx_ring[entry].base) >> 16; 1028 if (status & R_STP) { /* Remember start of frame */ 1029 lp->rx_old = entry; 1030 } 1031 if (status & R_ENP) { /* Valid frame status */ 1032 if (status & R_ERR) { /* There was an error. */ 1033 dev->stats.rx_errors++; /* Update the error stats. */ 1034 if (status & R_FRAM) 1035 dev->stats.rx_frame_errors++; 1036 if (status & R_OFLO) 1037 dev->stats.rx_over_errors++; 1038 if (status & R_CRC) 1039 dev->stats.rx_crc_errors++; 1040 if (status & R_BUFF) 1041 dev->stats.rx_fifo_errors++; 1042 } else { 1043 short len, pkt_len = readw(&lp->rx_ring[entry].msg_length) - 4; 1044 struct sk_buff *skb; 1045 1046 skb = dev_alloc_skb(pkt_len + 2); 1047 if (skb != NULL) { 1048 unsigned char *buf; 1049 skb_reserve(skb, 2); /* 16 byte align the IP header */ 1050 buf = skb_put(skb, pkt_len); 1051 if (entry < lp->rx_old) { /* Wrapped buffer */ 1052 len = (lp->rxRingMask - lp->rx_old + 1) * RX_BUFF_SZ; 1053 memcpy_fromio(buf, lp->rx_buff[lp->rx_old], len); 1054 memcpy_fromio(buf + len, lp->rx_buff[0], pkt_len - len); 1055 } else { /* Linear buffer */ 1056 memcpy_fromio(buf, lp->rx_buff[lp->rx_old], pkt_len); 1057 } 1058 1059 /* 1060 ** Notify the upper protocol layers that there is another 1061 ** packet to handle 1062 */ 1063 skb->protocol = eth_type_trans(skb, dev); 1064 netif_rx(skb); 1065 1066 /* 1067 ** Update stats 1068 */ 1069 dev->stats.rx_packets++; 1070 dev->stats.rx_bytes += pkt_len; 1071 for (i = 1; i < DEPCA_PKT_STAT_SZ - 1; i++) { 1072 if (pkt_len < (i * DEPCA_PKT_BIN_SZ)) { 1073 lp->pktStats.bins[i]++; 1074 i = DEPCA_PKT_STAT_SZ; 1075 } 1076 } 1077 if (buf[0] & 0x01) { /* Multicast/Broadcast */ 1078 if ((*(s16 *) & buf[0] == -1) && (*(s16 *) & buf[2] == -1) && (*(s16 *) & buf[4] == -1)) { 1079 lp->pktStats.broadcast++; 1080 } else { 1081 lp->pktStats.multicast++; 1082 } 1083 } else if ((*(s16 *) & buf[0] == *(s16 *) & dev->dev_addr[0]) && (*(s16 *) & buf[2] == *(s16 *) & dev->dev_addr[2]) && (*(s16 *) & buf[4] == *(s16 *) & dev->dev_addr[4])) { 1084 lp->pktStats.unicast++; 1085 } 1086 1087 lp->pktStats.bins[0]++; /* Duplicates stats.rx_packets */ 1088 if (lp->pktStats.bins[0] == 0) { /* Reset counters */ 1089 memset((char *) &lp->pktStats, 0, sizeof(lp->pktStats)); 1090 } 1091 } else { 1092 printk("%s: Memory squeeze, deferring packet.\n", dev->name); 1093 dev->stats.rx_dropped++; /* Really, deferred. */ 1094 break; 1095 } 1096 } 1097 /* Change buffer ownership for this last frame, back to the adapter */ 1098 for (; lp->rx_old != entry; lp->rx_old = (++lp->rx_old) & lp->rxRingMask) { 1099 writel(readl(&lp->rx_ring[lp->rx_old].base) | R_OWN, &lp->rx_ring[lp->rx_old].base); 1100 } 1101 writel(readl(&lp->rx_ring[entry].base) | R_OWN, &lp->rx_ring[entry].base); 1102 } 1103 1104 /* 1105 ** Update entry information 1106 */ 1107 lp->rx_new = (++lp->rx_new) & lp->rxRingMask; 1108 } 1109 1110 return 0; 1111} 1112 1113/* 1114** Buffer sent - check for buffer errors. 1115** Called with lp->lock held 1116*/ 1117static int depca_tx(struct net_device *dev) 1118{ 1119 struct depca_private *lp = netdev_priv(dev); 1120 int entry; 1121 s32 status; 1122 u_long ioaddr = dev->base_addr; 1123 1124 for (entry = lp->tx_old; entry != lp->tx_new; entry = lp->tx_old) { 1125 status = readl(&lp->tx_ring[entry].base) >> 16; 1126 1127 if (status < 0) { /* Packet not yet sent! */ 1128 break; 1129 } else if (status & T_ERR) { /* An error occurred. */ 1130 status = readl(&lp->tx_ring[entry].misc); 1131 dev->stats.tx_errors++; 1132 if (status & TMD3_RTRY) 1133 dev->stats.tx_aborted_errors++; 1134 if (status & TMD3_LCAR) 1135 dev->stats.tx_carrier_errors++; 1136 if (status & TMD3_LCOL) 1137 dev->stats.tx_window_errors++; 1138 if (status & TMD3_UFLO) 1139 dev->stats.tx_fifo_errors++; 1140 if (status & (TMD3_BUFF | TMD3_UFLO)) { 1141 /* Trigger an immediate send demand. */ 1142 outw(CSR0, DEPCA_ADDR); 1143 outw(INEA | TDMD, DEPCA_DATA); 1144 } 1145 } else if (status & (T_MORE | T_ONE)) { 1146 dev->stats.collisions++; 1147 } else { 1148 dev->stats.tx_packets++; 1149 } 1150 1151 /* Update all the pointers */ 1152 lp->tx_old = (++lp->tx_old) & lp->txRingMask; 1153 } 1154 1155 return 0; 1156} 1157 1158static int depca_close(struct net_device *dev) 1159{ 1160 struct depca_private *lp = netdev_priv(dev); 1161 s16 nicsr; 1162 u_long ioaddr = dev->base_addr; 1163 1164 netif_stop_queue(dev); 1165 1166 outw(CSR0, DEPCA_ADDR); 1167 1168 if (depca_debug > 1) { 1169 printk("%s: Shutting down ethercard, status was %2.2x.\n", dev->name, inw(DEPCA_DATA)); 1170 } 1171 1172 /* 1173 ** We stop the DEPCA here -- it occasionally polls 1174 ** memory if we don't. 1175 */ 1176 outw(STOP, DEPCA_DATA); 1177 1178 /* 1179 ** Give back the ROM in case the user wants to go to DOS 1180 */ 1181 if (lp->adapter != DEPCA) { 1182 nicsr = inb(DEPCA_NICSR); 1183 nicsr &= ~SHE; 1184 outb(nicsr, DEPCA_NICSR); 1185 } 1186 1187 /* 1188 ** Free the associated irq 1189 */ 1190 free_irq(dev->irq, dev); 1191 return 0; 1192} 1193 1194static void LoadCSRs(struct net_device *dev) 1195{ 1196 struct depca_private *lp = netdev_priv(dev); 1197 u_long ioaddr = dev->base_addr; 1198 1199 outw(CSR1, DEPCA_ADDR); /* initialisation block address LSW */ 1200 outw((u16) lp->device_ram_start, DEPCA_DATA); 1201 outw(CSR2, DEPCA_ADDR); /* initialisation block address MSW */ 1202 outw((u16) (lp->device_ram_start >> 16), DEPCA_DATA); 1203 outw(CSR3, DEPCA_ADDR); /* ALE control */ 1204 outw(ACON, DEPCA_DATA); 1205 1206 outw(CSR0, DEPCA_ADDR); /* Point back to CSR0 */ 1207 1208 return; 1209} 1210 1211static int InitRestartDepca(struct net_device *dev) 1212{ 1213 struct depca_private *lp = netdev_priv(dev); 1214 u_long ioaddr = dev->base_addr; 1215 int i, status = 0; 1216 1217 /* Copy the shadow init_block to shared memory */ 1218 memcpy_toio(lp->sh_mem, &lp->init_block, sizeof(struct depca_init)); 1219 1220 outw(CSR0, DEPCA_ADDR); /* point back to CSR0 */ 1221 outw(INIT, DEPCA_DATA); /* initialize DEPCA */ 1222 1223 /* wait for lance to complete initialisation */ 1224 for (i = 0; (i < 100) && !(inw(DEPCA_DATA) & IDON); i++); 1225 1226 if (i != 100) { 1227 /* clear IDON by writing a "1", enable interrupts and start lance */ 1228 outw(IDON | INEA | STRT, DEPCA_DATA); 1229 if (depca_debug > 2) { 1230 printk("%s: DEPCA open after %d ticks, init block 0x%08lx csr0 %4.4x.\n", dev->name, i, lp->mem_start, inw(DEPCA_DATA)); 1231 } 1232 } else { 1233 printk("%s: DEPCA unopen after %d ticks, init block 0x%08lx csr0 %4.4x.\n", dev->name, i, lp->mem_start, inw(DEPCA_DATA)); 1234 status = -1; 1235 } 1236 1237 return status; 1238} 1239 1240/* 1241** Set or clear the multicast filter for this adaptor. 1242*/ 1243static void set_multicast_list(struct net_device *dev) 1244{ 1245 struct depca_private *lp = netdev_priv(dev); 1246 u_long ioaddr = dev->base_addr; 1247 1248 netif_stop_queue(dev); 1249 while (lp->tx_old != lp->tx_new); /* Wait for the ring to empty */ 1250 1251 STOP_DEPCA; /* Temporarily stop the depca. */ 1252 depca_init_ring(dev); /* Initialize the descriptor rings */ 1253 1254 if (dev->flags & IFF_PROMISC) { /* Set promiscuous mode */ 1255 lp->init_block.mode |= PROM; 1256 } else { 1257 SetMulticastFilter(dev); 1258 lp->init_block.mode &= ~PROM; /* Unset promiscuous mode */ 1259 } 1260 1261 LoadCSRs(dev); /* Reload CSR3 */ 1262 InitRestartDepca(dev); /* Resume normal operation. */ 1263 netif_start_queue(dev); /* Unlock the TX ring */ 1264} 1265 1266/* 1267** Calculate the hash code and update the logical address filter 1268** from a list of ethernet multicast addresses. 1269** Big endian crc one liner is mine, all mine, ha ha ha ha! 1270** LANCE calculates its hash codes big endian. 1271*/ 1272static void SetMulticastFilter(struct net_device *dev) 1273{ 1274 struct depca_private *lp = netdev_priv(dev); 1275 struct dev_mc_list *dmi = dev->mc_list; 1276 char *addrs; 1277 int i, j, bit, byte; 1278 u16 hashcode; 1279 u32 crc; 1280 1281 if (dev->flags & IFF_ALLMULTI) { /* Set all multicast bits */ 1282 for (i = 0; i < (HASH_TABLE_LEN >> 3); i++) { 1283 lp->init_block.mcast_table[i] = (char) 0xff; 1284 } 1285 } else { 1286 for (i = 0; i < (HASH_TABLE_LEN >> 3); i++) { /* Clear the multicast table */ 1287 lp->init_block.mcast_table[i] = 0; 1288 } 1289 /* Add multicast addresses */ 1290 for (i = 0; i < dev->mc_count; i++) { /* for each address in the list */ 1291 addrs = dmi->dmi_addr; 1292 dmi = dmi->next; 1293 if ((*addrs & 0x01) == 1) { /* multicast address? */ 1294 crc = ether_crc(ETH_ALEN, addrs); 1295 hashcode = (crc & 1); /* hashcode is 6 LSb of CRC ... */ 1296 for (j = 0; j < 5; j++) { /* ... in reverse order. */ 1297 hashcode = (hashcode << 1) | ((crc >>= 1) & 1); 1298 } 1299 1300 1301 byte = hashcode >> 3; /* bit[3-5] -> byte in filter */ 1302 bit = 1 << (hashcode & 0x07); /* bit[0-2] -> bit in byte */ 1303 lp->init_block.mcast_table[byte] |= bit; 1304 } 1305 } 1306 } 1307 1308 return; 1309} 1310 1311static int __init depca_common_init (u_long ioaddr, struct net_device **devp) 1312{ 1313 int status = 0; 1314 1315 if (!request_region (ioaddr, DEPCA_TOTAL_SIZE, depca_string)) { 1316 status = -EBUSY; 1317 goto out; 1318 } 1319 1320 if (DevicePresent(ioaddr)) { 1321 status = -ENODEV; 1322 goto out_release; 1323 } 1324 1325 if (!(*devp = alloc_etherdev (sizeof (struct depca_private)))) { 1326 status = -ENOMEM; 1327 goto out_release; 1328 } 1329 1330 return 0; 1331 1332 out_release: 1333 release_region (ioaddr, DEPCA_TOTAL_SIZE); 1334 out: 1335 return status; 1336} 1337 1338#ifdef CONFIG_MCA 1339/* 1340** Microchannel bus I/O device probe 1341*/ 1342static int __init depca_mca_probe(struct device *device) 1343{ 1344 unsigned char pos[2]; 1345 unsigned char where; 1346 unsigned long iobase, mem_start; 1347 int irq, err; 1348 struct mca_device *mdev = to_mca_device (device); 1349 struct net_device *dev; 1350 struct depca_private *lp; 1351 1352 /* 1353 ** Search for the adapter. If an address has been given, search 1354 ** specifically for the card at that address. Otherwise find the 1355 ** first card in the system. 1356 */ 1357 1358 pos[0] = mca_device_read_stored_pos(mdev, 2); 1359 pos[1] = mca_device_read_stored_pos(mdev, 3); 1360 1361 /* 1362 ** IO of card is handled by bits 1 and 2 of pos0. 1363 ** 1364 ** bit2 bit1 IO 1365 ** 0 0 0x2c00 1366 ** 0 1 0x2c10 1367 ** 1 0 0x2c20 1368 ** 1 1 0x2c30 1369 */ 1370 where = (pos[0] & 6) >> 1; 1371 iobase = 0x2c00 + (0x10 * where); 1372 1373 /* 1374 ** Found the adapter we were looking for. Now start setting it up. 1375 ** 1376 ** First work on decoding the IRQ. It's stored in the lower 4 bits 1377 ** of pos1. Bits are as follows (from the ADF file): 1378 ** 1379 ** Bits 1380 ** 3 2 1 0 IRQ 1381 ** -------------------- 1382 ** 0 0 1 0 5 1383 ** 0 0 0 1 9 1384 ** 0 1 0 0 10 1385 ** 1 0 0 0 11 1386 */ 1387 where = pos[1] & 0x0f; 1388 switch (where) { 1389 case 1: 1390 irq = 9; 1391 break; 1392 case 2: 1393 irq = 5; 1394 break; 1395 case 4: 1396 irq = 10; 1397 break; 1398 case 8: 1399 irq = 11; 1400 break; 1401 default: 1402 printk("%s: mca_probe IRQ error. You should never get here (%d).\n", mdev->name, where); 1403 return -EINVAL; 1404 } 1405 1406 /* 1407 ** Shared memory address of adapter is stored in bits 3-5 of pos0. 1408 ** They are mapped as follows: 1409 ** 1410 ** Bit 1411 ** 5 4 3 Memory Addresses 1412 ** 0 0 0 C0000-CFFFF (64K) 1413 ** 1 0 0 C8000-CFFFF (32K) 1414 ** 0 0 1 D0000-DFFFF (64K) 1415 ** 1 0 1 D8000-DFFFF (32K) 1416 ** 0 1 0 E0000-EFFFF (64K) 1417 ** 1 1 0 E8000-EFFFF (32K) 1418 */ 1419 where = (pos[0] & 0x18) >> 3; 1420 mem_start = 0xc0000 + (where * 0x10000); 1421 if (pos[0] & 0x20) { 1422 mem_start += 0x8000; 1423 } 1424 1425 /* claim the slot */ 1426 strncpy(mdev->name, depca_mca_adapter_name[mdev->index], 1427 sizeof(mdev->name)); 1428 mca_device_set_claim(mdev, 1); 1429 1430 /* 1431 ** Get everything allocated and initialized... (almost just 1432 ** like the ISA and EISA probes) 1433 */ 1434 irq = mca_device_transform_irq(mdev, irq); 1435 iobase = mca_device_transform_ioport(mdev, iobase); 1436 1437 if ((err = depca_common_init (iobase, &dev))) 1438 goto out_unclaim; 1439 1440 dev->irq = irq; 1441 dev->base_addr = iobase; 1442 lp = netdev_priv(dev); 1443 lp->depca_bus = DEPCA_BUS_MCA; 1444 lp->adapter = depca_mca_adapter_type[mdev->index]; 1445 lp->mem_start = mem_start; 1446 1447 if ((err = depca_hw_init(dev, device))) 1448 goto out_free; 1449 1450 return 0; 1451 1452 out_free: 1453 free_netdev (dev); 1454 release_region (iobase, DEPCA_TOTAL_SIZE); 1455 out_unclaim: 1456 mca_device_set_claim(mdev, 0); 1457 1458 return err; 1459} 1460#endif 1461 1462/* 1463** ISA bus I/O device probe 1464*/ 1465 1466static void __init depca_platform_probe (void) 1467{ 1468 int i; 1469 struct platform_device *pldev; 1470 1471 for (i = 0; depca_io_ports[i].iobase; i++) { 1472 depca_io_ports[i].device = NULL; 1473 1474 /* if an address has been specified on the command 1475 * line, use it (if valid) */ 1476 if (io && io != depca_io_ports[i].iobase) 1477 continue; 1478 1479 pldev = platform_device_alloc(depca_string, i); 1480 if (!pldev) 1481 continue; 1482 1483 pldev->dev.platform_data = (void *) depca_io_ports[i].iobase; 1484 depca_io_ports[i].device = pldev; 1485 1486 if (platform_device_add(pldev)) { 1487 depca_io_ports[i].device = NULL; 1488 pldev->dev.platform_data = NULL; 1489 platform_device_put(pldev); 1490 continue; 1491 } 1492 1493 if (!pldev->dev.driver) { 1494 /* The driver was not bound to this device, there was 1495 * no hardware at this address. Unregister it, as the 1496 * release fuction will take care of freeing the 1497 * allocated structure */ 1498 1499 depca_io_ports[i].device = NULL; 1500 pldev->dev.platform_data = NULL; 1501 platform_device_unregister (pldev); 1502 } 1503 } 1504} 1505 1506static enum depca_type __init depca_shmem_probe (ulong *mem_start) 1507{ 1508 u_long mem_base[] = DEPCA_RAM_BASE_ADDRESSES; 1509 enum depca_type adapter = unknown; 1510 int i; 1511 1512 for (i = 0; mem_base[i]; i++) { 1513 *mem_start = mem ? mem : mem_base[i]; 1514 adapter = DepcaSignature (adapter_name, *mem_start); 1515 if (adapter != unknown) 1516 break; 1517 } 1518 1519 return adapter; 1520} 1521 1522static int __init depca_isa_probe (struct platform_device *device) 1523{ 1524 struct net_device *dev; 1525 struct depca_private *lp; 1526 u_long ioaddr, mem_start = 0; 1527 enum depca_type adapter = unknown; 1528 int status = 0; 1529 1530 ioaddr = (u_long) device->dev.platform_data; 1531 1532 if ((status = depca_common_init (ioaddr, &dev))) 1533 goto out; 1534 1535 adapter = depca_shmem_probe (&mem_start); 1536 1537 if (adapter == unknown) { 1538 status = -ENODEV; 1539 goto out_free; 1540 } 1541 1542 dev->base_addr = ioaddr; 1543 dev->irq = irq; /* Use whatever value the user gave 1544 * us, and 0 if he didn't. */ 1545 lp = netdev_priv(dev); 1546 lp->depca_bus = DEPCA_BUS_ISA; 1547 lp->adapter = adapter; 1548 lp->mem_start = mem_start; 1549 1550 if ((status = depca_hw_init(dev, &device->dev))) 1551 goto out_free; 1552 1553 return 0; 1554 1555 out_free: 1556 free_netdev (dev); 1557 release_region (ioaddr, DEPCA_TOTAL_SIZE); 1558 out: 1559 return status; 1560} 1561 1562/* 1563** EISA callbacks from sysfs. 1564*/ 1565 1566#ifdef CONFIG_EISA 1567static int __init depca_eisa_probe (struct device *device) 1568{ 1569 enum depca_type adapter = unknown; 1570 struct eisa_device *edev; 1571 struct net_device *dev; 1572 struct depca_private *lp; 1573 u_long ioaddr, mem_start; 1574 int status = 0; 1575 1576 edev = to_eisa_device (device); 1577 ioaddr = edev->base_addr + DEPCA_EISA_IO_PORTS; 1578 1579 if ((status = depca_common_init (ioaddr, &dev))) 1580 goto out; 1581 1582 /* It would have been nice to get card configuration from the 1583 * card. Unfortunately, this register is write-only (shares 1584 * it's address with the ethernet prom)... As we don't parse 1585 * the EISA configuration structures (yet... :-), just rely on 1586 * the ISA probing to sort it out... */ 1587 1588 adapter = depca_shmem_probe (&mem_start); 1589 if (adapter == unknown) { 1590 status = -ENODEV; 1591 goto out_free; 1592 } 1593 1594 dev->base_addr = ioaddr; 1595 dev->irq = irq; 1596 lp = netdev_priv(dev); 1597 lp->depca_bus = DEPCA_BUS_EISA; 1598 lp->adapter = edev->id.driver_data; 1599 lp->mem_start = mem_start; 1600 1601 if ((status = depca_hw_init(dev, device))) 1602 goto out_free; 1603 1604 return 0; 1605 1606 out_free: 1607 free_netdev (dev); 1608 release_region (ioaddr, DEPCA_TOTAL_SIZE); 1609 out: 1610 return status; 1611} 1612#endif 1613 1614static int __devexit depca_device_remove (struct device *device) 1615{ 1616 struct net_device *dev; 1617 struct depca_private *lp; 1618 int bus; 1619 1620 dev = dev_get_drvdata(device); 1621 lp = netdev_priv(dev); 1622 1623 unregister_netdev (dev); 1624 iounmap (lp->sh_mem); 1625 release_mem_region (lp->mem_start, lp->mem_len); 1626 release_region (dev->base_addr, DEPCA_TOTAL_SIZE); 1627 bus = lp->depca_bus; 1628 free_netdev (dev); 1629 1630 return 0; 1631} 1632 1633/* 1634** Look for a particular board name in the on-board Remote Diagnostics 1635** and Boot (readb) ROM. This will also give us a clue to the network RAM 1636** base address. 1637*/ 1638static int __init DepcaSignature(char *name, u_long base_addr) 1639{ 1640 u_int i, j, k; 1641 void __iomem *ptr; 1642 char tmpstr[16]; 1643 u_long prom_addr = base_addr + 0xc000; 1644 u_long mem_addr = base_addr + 0x8000; /* 32KB */ 1645 1646 /* Can't reserve the prom region, it is already marked as 1647 * used, at least on x86. Instead, reserve a memory region a 1648 * board would certainly use. If it works, go ahead. If not, 1649 * run like hell... */ 1650 1651 if (!request_mem_region (mem_addr, 16, depca_string)) 1652 return unknown; 1653 1654 /* Copy the first 16 bytes of ROM */ 1655 1656 ptr = ioremap(prom_addr, 16); 1657 if (ptr == NULL) { 1658 printk(KERN_ERR "depca: I/O remap failed at %lx\n", prom_addr); 1659 return unknown; 1660 } 1661 for (i = 0; i < 16; i++) { 1662 tmpstr[i] = readb(ptr + i); 1663 } 1664 iounmap(ptr); 1665 1666 release_mem_region (mem_addr, 16); 1667 1668 /* Check if PROM contains a valid string */ 1669 for (i = 0; *depca_signature[i] != '\0'; i++) { 1670 for (j = 0, k = 0; j < 16 && k < strlen(depca_signature[i]); j++) { 1671 if (depca_signature[i][k] == tmpstr[j]) { /* track signature */ 1672 k++; 1673 } else { /* lost signature; begin search again */ 1674 k = 0; 1675 } 1676 } 1677 if (k == strlen(depca_signature[i])) 1678 break; 1679 } 1680 1681 /* Check if name string is valid, provided there's no PROM */ 1682 if (name && *name && (i == unknown)) { 1683 for (i = 0; *depca_signature[i] != '\0'; i++) { 1684 if (strcmp(name, depca_signature[i]) == 0) 1685 break; 1686 } 1687 } 1688 1689 return i; 1690} 1691 1692/* 1693** Look for a special sequence in the Ethernet station address PROM that 1694** is common across all DEPCA products. Note that the original DEPCA needs 1695** its ROM address counter to be initialized and enabled. Only enable 1696** if the first address octet is a 0x08 - this minimises the chances of 1697** messing around with some other hardware, but it assumes that this DEPCA 1698** card initialized itself correctly. 1699** 1700** Search the Ethernet address ROM for the signature. Since the ROM address 1701** counter can start at an arbitrary point, the search must include the entire 1702** probe sequence length plus the (length_of_the_signature - 1). 1703** Stop the search IMMEDIATELY after the signature is found so that the 1704** PROM address counter is correctly positioned at the start of the 1705** ethernet address for later read out. 1706*/ 1707static int __init DevicePresent(u_long ioaddr) 1708{ 1709 union { 1710 struct { 1711 u32 a; 1712 u32 b; 1713 } llsig; 1714 char Sig[sizeof(u32) << 1]; 1715 } 1716 dev; 1717 short sigLength = 0; 1718 s8 data; 1719 s16 nicsr; 1720 int i, j, status = 0; 1721 1722 data = inb(DEPCA_PROM); /* clear counter on DEPCA */ 1723 data = inb(DEPCA_PROM); /* read data */ 1724 1725 if (data == 0x08) { /* Enable counter on DEPCA */ 1726 nicsr = inb(DEPCA_NICSR); 1727 nicsr |= AAC; 1728 outb(nicsr, DEPCA_NICSR); 1729 } 1730 1731 dev.llsig.a = ETH_PROM_SIG; 1732 dev.llsig.b = ETH_PROM_SIG; 1733 sigLength = sizeof(u32) << 1; 1734 1735 for (i = 0, j = 0; j < sigLength && i < PROBE_LENGTH + sigLength - 1; i++) { 1736 data = inb(DEPCA_PROM); 1737 if (dev.Sig[j] == data) { /* track signature */ 1738 j++; 1739 } else { /* lost signature; begin search again */ 1740 if (data == dev.Sig[0]) { /* rare case.... */ 1741 j = 1; 1742 } else { 1743 j = 0; 1744 } 1745 } 1746 } 1747 1748 if (j != sigLength) { 1749 status = -ENODEV; /* search failed */ 1750 } 1751 1752 return status; 1753} 1754 1755/* 1756** The DE100 and DE101 PROM accesses were made non-standard for some bizarre 1757** reason: access the upper half of the PROM with x=0; access the lower half 1758** with x=1. 1759*/ 1760static int __init get_hw_addr(struct net_device *dev) 1761{ 1762 u_long ioaddr = dev->base_addr; 1763 struct depca_private *lp = netdev_priv(dev); 1764 int i, k, tmp, status = 0; 1765 u_short j, x, chksum; 1766 1767 x = (((lp->adapter == de100) || (lp->adapter == de101)) ? 1 : 0); 1768 1769 for (i = 0, k = 0, j = 0; j < 3; j++) { 1770 k <<= 1; 1771 if (k > 0xffff) 1772 k -= 0xffff; 1773 1774 k += (u_char) (tmp = inb(DEPCA_PROM + x)); 1775 dev->dev_addr[i++] = (u_char) tmp; 1776 k += (u_short) ((tmp = inb(DEPCA_PROM + x)) << 8); 1777 dev->dev_addr[i++] = (u_char) tmp; 1778 1779 if (k > 0xffff) 1780 k -= 0xffff; 1781 } 1782 if (k == 0xffff) 1783 k = 0; 1784 1785 chksum = (u_char) inb(DEPCA_PROM + x); 1786 chksum |= (u_short) (inb(DEPCA_PROM + x) << 8); 1787 if (k != chksum) 1788 status = -1; 1789 1790 return status; 1791} 1792 1793/* 1794** Load a packet into the shared memory 1795*/ 1796static int load_packet(struct net_device *dev, struct sk_buff *skb) 1797{ 1798 struct depca_private *lp = netdev_priv(dev); 1799 int i, entry, end, len, status = NETDEV_TX_OK; 1800 1801 entry = lp->tx_new; /* Ring around buffer number. */ 1802 end = (entry + (skb->len - 1) / TX_BUFF_SZ) & lp->txRingMask; 1803 if (!(readl(&lp->tx_ring[end].base) & T_OWN)) { /* Enough room? */ 1804 /* 1805 ** Caution: the write order is important here... don't set up the 1806 ** ownership rights until all the other information is in place. 1807 */ 1808 if (end < entry) { /* wrapped buffer */ 1809 len = (lp->txRingMask - entry + 1) * TX_BUFF_SZ; 1810 memcpy_toio(lp->tx_buff[entry], skb->data, len); 1811 memcpy_toio(lp->tx_buff[0], skb->data + len, skb->len - len); 1812 } else { /* linear buffer */ 1813 memcpy_toio(lp->tx_buff[entry], skb->data, skb->len); 1814 } 1815 1816 /* set up the buffer descriptors */ 1817 len = (skb->len < ETH_ZLEN) ? ETH_ZLEN : skb->len; 1818 for (i = entry; i != end; i = (i+1) & lp->txRingMask) { 1819 /* clean out flags */ 1820 writel(readl(&lp->tx_ring[i].base) & ~T_FLAGS, &lp->tx_ring[i].base); 1821 writew(0x0000, &lp->tx_ring[i].misc); /* clears other error flags */ 1822 writew(-TX_BUFF_SZ, &lp->tx_ring[i].length); /* packet length in buffer */ 1823 len -= TX_BUFF_SZ; 1824 } 1825 /* clean out flags */ 1826 writel(readl(&lp->tx_ring[end].base) & ~T_FLAGS, &lp->tx_ring[end].base); 1827 writew(0x0000, &lp->tx_ring[end].misc); /* clears other error flags */ 1828 writew(-len, &lp->tx_ring[end].length); /* packet length in last buff */ 1829 1830 /* start of packet */ 1831 writel(readl(&lp->tx_ring[entry].base) | T_STP, &lp->tx_ring[entry].base); 1832 /* end of packet */ 1833 writel(readl(&lp->tx_ring[end].base) | T_ENP, &lp->tx_ring[end].base); 1834 1835 for (i = end; i != entry; --i) { 1836 /* ownership of packet */ 1837 writel(readl(&lp->tx_ring[i].base) | T_OWN, &lp->tx_ring[i].base); 1838 if (i == 0) 1839 i = lp->txRingMask + 1; 1840 } 1841 writel(readl(&lp->tx_ring[entry].base) | T_OWN, &lp->tx_ring[entry].base); 1842 1843 lp->tx_new = (++end) & lp->txRingMask; /* update current pointers */ 1844 } else { 1845 status = NETDEV_TX_LOCKED; 1846 } 1847 1848 return status; 1849} 1850 1851static void depca_dbg_open(struct net_device *dev) 1852{ 1853 struct depca_private *lp = netdev_priv(dev); 1854 u_long ioaddr = dev->base_addr; 1855 struct depca_init *p = &lp->init_block; 1856 int i; 1857 1858 if (depca_debug > 1) { 1859 /* Do not copy the shadow init block into shared memory */ 1860 /* Debugging should not affect normal operation! */ 1861 /* The shadow init block will get copied across during InitRestartDepca */ 1862 printk("%s: depca open with irq %d\n", dev->name, dev->irq); 1863 printk("Descriptor head addresses (CPU):\n"); 1864 printk(" 0x%lx 0x%lx\n", (u_long) lp->rx_ring, (u_long) lp->tx_ring); 1865 printk("Descriptor addresses (CPU):\nRX: "); 1866 for (i = 0; i < lp->rxRingMask; i++) { 1867 if (i < 3) { 1868 printk("%p ", &lp->rx_ring[i].base); 1869 } 1870 } 1871 printk("...%p\n", &lp->rx_ring[i].base); 1872 printk("TX: "); 1873 for (i = 0; i < lp->txRingMask; i++) { 1874 if (i < 3) { 1875 printk("%p ", &lp->tx_ring[i].base); 1876 } 1877 } 1878 printk("...%p\n", &lp->tx_ring[i].base); 1879 printk("\nDescriptor buffers (Device):\nRX: "); 1880 for (i = 0; i < lp->rxRingMask; i++) { 1881 if (i < 3) { 1882 printk("0x%8.8x ", readl(&lp->rx_ring[i].base)); 1883 } 1884 } 1885 printk("...0x%8.8x\n", readl(&lp->rx_ring[i].base)); 1886 printk("TX: "); 1887 for (i = 0; i < lp->txRingMask; i++) { 1888 if (i < 3) { 1889 printk("0x%8.8x ", readl(&lp->tx_ring[i].base)); 1890 } 1891 } 1892 printk("...0x%8.8x\n", readl(&lp->tx_ring[i].base)); 1893 printk("Initialisation block at 0x%8.8lx(Phys)\n", lp->mem_start); 1894 printk(" mode: 0x%4.4x\n", p->mode); 1895 printk(" physical address: %pM\n", p->phys_addr); 1896 printk(" multicast hash table: "); 1897 for (i = 0; i < (HASH_TABLE_LEN >> 3) - 1; i++) { 1898 printk("%2.2x:", p->mcast_table[i]); 1899 } 1900 printk("%2.2x\n", p->mcast_table[i]); 1901 printk(" rx_ring at: 0x%8.8x\n", p->rx_ring); 1902 printk(" tx_ring at: 0x%8.8x\n", p->tx_ring); 1903 printk("buffers (Phys): 0x%8.8lx\n", lp->mem_start + lp->buffs_offset); 1904 printk("Ring size:\nRX: %d Log2(rxRingMask): 0x%8.8x\n", (int) lp->rxRingMask + 1, lp->rx_rlen); 1905 printk("TX: %d Log2(txRingMask): 0x%8.8x\n", (int) lp->txRingMask + 1, lp->tx_rlen); 1906 outw(CSR2, DEPCA_ADDR); 1907 printk("CSR2&1: 0x%4.4x", inw(DEPCA_DATA)); 1908 outw(CSR1, DEPCA_ADDR); 1909 printk("%4.4x\n", inw(DEPCA_DATA)); 1910 outw(CSR3, DEPCA_ADDR); 1911 printk("CSR3: 0x%4.4x\n", inw(DEPCA_DATA)); 1912 } 1913 1914 return; 1915} 1916 1917/* 1918** Perform IOCTL call functions here. Some are privileged operations and the 1919** effective uid is checked in those cases. 1920** All multicast IOCTLs will not work here and are for testing purposes only. 1921*/ 1922static int depca_ioctl(struct net_device *dev, struct ifreq *rq, int cmd) 1923{ 1924 struct depca_private *lp = netdev_priv(dev); 1925 struct depca_ioctl *ioc = (struct depca_ioctl *) &rq->ifr_ifru; 1926 int i, status = 0; 1927 u_long ioaddr = dev->base_addr; 1928 union { 1929 u8 addr[(HASH_TABLE_LEN * ETH_ALEN)]; 1930 u16 sval[(HASH_TABLE_LEN * ETH_ALEN) >> 1]; 1931 u32 lval[(HASH_TABLE_LEN * ETH_ALEN) >> 2]; 1932 } tmp; 1933 unsigned long flags; 1934 void *buf; 1935 1936 switch (ioc->cmd) { 1937 case DEPCA_GET_HWADDR: /* Get the hardware address */ 1938 for (i = 0; i < ETH_ALEN; i++) { 1939 tmp.addr[i] = dev->dev_addr[i]; 1940 } 1941 ioc->len = ETH_ALEN; 1942 if (copy_to_user(ioc->data, tmp.addr, ioc->len)) 1943 return -EFAULT; 1944 break; 1945 1946 case DEPCA_SET_HWADDR: /* Set the hardware address */ 1947 if (!capable(CAP_NET_ADMIN)) 1948 return -EPERM; 1949 if (copy_from_user(tmp.addr, ioc->data, ETH_ALEN)) 1950 return -EFAULT; 1951 for (i = 0; i < ETH_ALEN; i++) { 1952 dev->dev_addr[i] = tmp.addr[i]; 1953 } 1954 netif_stop_queue(dev); 1955 while (lp->tx_old != lp->tx_new) 1956 cpu_relax(); /* Wait for the ring to empty */ 1957 1958 STOP_DEPCA; /* Temporarily stop the depca. */ 1959 depca_init_ring(dev); /* Initialize the descriptor rings */ 1960 LoadCSRs(dev); /* Reload CSR3 */ 1961 InitRestartDepca(dev); /* Resume normal operation. */ 1962 netif_start_queue(dev); /* Unlock the TX ring */ 1963 break; 1964 1965 case DEPCA_SET_PROM: /* Set Promiscuous Mode */ 1966 if (!capable(CAP_NET_ADMIN)) 1967 return -EPERM; 1968 netif_stop_queue(dev); 1969 while (lp->tx_old != lp->tx_new) 1970 cpu_relax(); /* Wait for the ring to empty */ 1971 1972 STOP_DEPCA; /* Temporarily stop the depca. */ 1973 depca_init_ring(dev); /* Initialize the descriptor rings */ 1974 lp->init_block.mode |= PROM; /* Set promiscuous mode */ 1975 1976 LoadCSRs(dev); /* Reload CSR3 */ 1977 InitRestartDepca(dev); /* Resume normal operation. */ 1978 netif_start_queue(dev); /* Unlock the TX ring */ 1979 break; 1980 1981 case DEPCA_CLR_PROM: /* Clear Promiscuous Mode */ 1982 if (!capable(CAP_NET_ADMIN)) 1983 return -EPERM; 1984 netif_stop_queue(dev); 1985 while (lp->tx_old != lp->tx_new) 1986 cpu_relax(); /* Wait for the ring to empty */ 1987 1988 STOP_DEPCA; /* Temporarily stop the depca. */ 1989 depca_init_ring(dev); /* Initialize the descriptor rings */ 1990 lp->init_block.mode &= ~PROM; /* Clear promiscuous mode */ 1991 1992 LoadCSRs(dev); /* Reload CSR3 */ 1993 InitRestartDepca(dev); /* Resume normal operation. */ 1994 netif_start_queue(dev); /* Unlock the TX ring */ 1995 break; 1996 1997 case DEPCA_SAY_BOO: /* Say "Boo!" to the kernel log file */ 1998 if(!capable(CAP_NET_ADMIN)) 1999 return -EPERM; 2000 printk("%s: Boo!\n", dev->name); 2001 break; 2002 2003 case DEPCA_GET_MCA: /* Get the multicast address table */ 2004 ioc->len = (HASH_TABLE_LEN >> 3); 2005 if (copy_to_user(ioc->data, lp->init_block.mcast_table, ioc->len)) 2006 return -EFAULT; 2007 break; 2008 2009 case DEPCA_SET_MCA: /* Set a multicast address */ 2010 if (!capable(CAP_NET_ADMIN)) 2011 return -EPERM; 2012 if (ioc->len >= HASH_TABLE_LEN) 2013 return -EINVAL; 2014 if (copy_from_user(tmp.addr, ioc->data, ETH_ALEN * ioc->len)) 2015 return -EFAULT; 2016 set_multicast_list(dev); 2017 break; 2018 2019 case DEPCA_CLR_MCA: /* Clear all multicast addresses */ 2020 if (!capable(CAP_NET_ADMIN)) 2021 return -EPERM; 2022 set_multicast_list(dev); 2023 break; 2024 2025 case DEPCA_MCA_EN: /* Enable pass all multicast addressing */ 2026 if (!capable(CAP_NET_ADMIN)) 2027 return -EPERM; 2028 set_multicast_list(dev); 2029 break; 2030 2031 case DEPCA_GET_STATS: /* Get the driver statistics */ 2032 ioc->len = sizeof(lp->pktStats); 2033 buf = kmalloc(ioc->len, GFP_KERNEL); 2034 if(!buf) 2035 return -ENOMEM; 2036 spin_lock_irqsave(&lp->lock, flags); 2037 memcpy(buf, &lp->pktStats, ioc->len); 2038 spin_unlock_irqrestore(&lp->lock, flags); 2039 if (copy_to_user(ioc->data, buf, ioc->len)) 2040 status = -EFAULT; 2041 kfree(buf); 2042 break; 2043 2044 case DEPCA_CLR_STATS: /* Zero out the driver statistics */ 2045 if (!capable(CAP_NET_ADMIN)) 2046 return -EPERM; 2047 spin_lock_irqsave(&lp->lock, flags); 2048 memset(&lp->pktStats, 0, sizeof(lp->pktStats)); 2049 spin_unlock_irqrestore(&lp->lock, flags); 2050 break; 2051 2052 case DEPCA_GET_REG: /* Get the DEPCA Registers */ 2053 i = 0; 2054 tmp.sval[i++] = inw(DEPCA_NICSR); 2055 outw(CSR0, DEPCA_ADDR); /* status register */ 2056 tmp.sval[i++] = inw(DEPCA_DATA); 2057 memcpy(&tmp.sval[i], &lp->init_block, sizeof(struct depca_init)); 2058 ioc->len = i + sizeof(struct depca_init); 2059 if (copy_to_user(ioc->data, tmp.addr, ioc->len)) 2060 return -EFAULT; 2061 break; 2062 2063 default: 2064 return -EOPNOTSUPP; 2065 } 2066 2067 return status; 2068} 2069 2070static int __init depca_module_init (void) 2071{ 2072 int err = 0; 2073 2074#ifdef CONFIG_MCA 2075 err = mca_register_driver (&depca_mca_driver); 2076#endif 2077#ifdef CONFIG_EISA 2078 err |= eisa_driver_register (&depca_eisa_driver); 2079#endif 2080 err |= platform_driver_register (&depca_isa_driver); 2081 depca_platform_probe (); 2082 2083 return err; 2084} 2085 2086static void __exit depca_module_exit (void) 2087{ 2088 int i; 2089#ifdef CONFIG_MCA 2090 mca_unregister_driver (&depca_mca_driver); 2091#endif 2092#ifdef CONFIG_EISA 2093 eisa_driver_unregister (&depca_eisa_driver); 2094#endif 2095 platform_driver_unregister (&depca_isa_driver); 2096 2097 for (i = 0; depca_io_ports[i].iobase; i++) { 2098 if (depca_io_ports[i].device) { 2099 depca_io_ports[i].device->dev.platform_data = NULL; 2100 platform_device_unregister (depca_io_ports[i].device); 2101 depca_io_ports[i].device = NULL; 2102 } 2103 } 2104} 2105 2106module_init (depca_module_init); 2107module_exit (depca_module_exit);