/** * Copyright (c) 1997 by Matthew N. Dodd * All Rights Reserved * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions, and the following disclaimer, * without modification, immediately at the beginning of the file. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ /* Credits: Based on and part of the DPT driver for FreeBSD written and * maintained by Simon Shapiro */ /* * $Id: dpt_eisa.c,v 1.1 1998/03/11 00:30:12 julian Exp $ */ #include "eisa.h" #if NEISA > 0 #include "opt_dpt.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* Function Prototypes */ int dpt_eisa_probe(void); int dpt_eisa_attach(struct eisa_device*); int dpt_eisa_shutdown(int); static const char *dpt_eisa_match(eisa_id_t); static struct eisa_driver dpt_eisa_driver = { "dpt", dpt_eisa_probe, dpt_eisa_attach, dpt_eisa_shutdown, &dpt_unit }; DATA_SET (eisadriver_set, dpt_eisa_driver); int dpt_eisa_probe(void) { static int already_announced = 0; u_int32_t io_base; u_int32_t irq; struct eisa_device *e_dev = NULL; dpt_conf_t *config; dpt_softc_t *dpt; int count = 0; if ( !already_announced ) { printf("DPT: EISA SCSI HBA Driver, version %d.%d.%d\n", DPT_RELEASE, DPT_VERSION, DPT_PATCH); ++already_announced; } if ((dpt = (dpt_softc_t *) malloc(sizeof(dpt_softc_t), M_DEVBUF, M_NOWAIT)) == NULL) { printf("dpt_eisa_probe() : Failed to allocate %d bytes for a DPT softc\n", sizeof(dpt_softc_t)); return -1; } bzero(dpt, sizeof(dpt_softc_t)); TAILQ_INIT(&dpt->free_ccbs); TAILQ_INIT(&dpt->waiting_ccbs); TAILQ_INIT(&dpt->submitted_ccbs); TAILQ_INIT(&dpt->completed_ccbs); dpt->queue_status = DPT_QUEUES_NONE_ACTIVE; dpt->commands_processed = 0; dpt->handle_interrupts = 0; dpt->v_membase = NULL; dpt->p_membase = NULL; dpt->unit = -1; while ((e_dev = eisa_match_dev(e_dev, dpt_eisa_match))) { io_base = (e_dev->ioconf.slot * EISA_SLOT_SIZE) + DPT_EISA_SLOT_OFFSET; eisa_add_iospace(e_dev, io_base, DPT_EISA_IOSIZE, RESVADDR_NONE); dpt->io_base = io_base; if ((config = dpt_get_conf(dpt, 0xc1, 7, sizeof(dpt_conf_t), 1)) == NULL) { #ifdef DPT_DEBUG_ERROR printf("eisa0:%d dpt_eisa_probe() : Failed to get board configuration.\n", e_dev->ioconf.slot); #endif continue; } irq = config->IRQ; eisa_add_intr(e_dev, irq); eisa_registerdev(e_dev, &dpt_eisa_driver); count++; } free(dpt, M_DEVBUF); return count; } int dpt_eisa_attach(e_dev) struct eisa_device *e_dev; { int result; int ndx; dpt_conf_t *config; dpt_softc_t *dpt; int unit = e_dev->unit; int irq; resvaddr_t *io_space; if (TAILQ_FIRST(&e_dev->ioconf.irqs) == NULL) { #ifdef DPT_DEBUG_ERROR printf("dpt%d: Can't retrieve irq from EISA config struct.\n", unit); #endif return -1; } irq = TAILQ_FIRST(&e_dev->ioconf.irqs)->irq_no; io_space = e_dev->ioconf.ioaddrs.lh_first; if (!io_space) { #ifdef DPT_DEBUG_ERROR printf("dpt%d: No I/O space?!\n", unit); #endif return -1; } if ( dpt_controllers_present >= DPT_MAX_ADAPTERS ){ printf("dpt%d: More than %d Adapters found! Adapter rejected\n", unit, DPT_MAX_ADAPTERS); return -1; } if ((dpt = (dpt_softc_t *) malloc(sizeof(dpt_softc_t), M_DEVBUF, M_NOWAIT)) == NULL) { printf("dpt%d: Failed to allocate %d bytes for a DPT softc\n", unit, sizeof(dpt_softc_t)); return -1; } /* * Initialize the queues. See dpt.h for details. We do this here, * as we may get hit with interrupts at any moment and we want to * have a minimal structure in place to handle them. We also want to * register interrupts correctly. To do so, we need a valid dpt * structure. To have that, we need this minimal setup here. */ bzero(dpt, sizeof(dpt_softc_t)); TAILQ_INIT(&dpt->free_ccbs); TAILQ_INIT(&dpt->waiting_ccbs); TAILQ_INIT(&dpt->submitted_ccbs); TAILQ_INIT(&dpt->completed_ccbs); if (TAILQ_EMPTY(&dpt_softc_list)) { TAILQ_INIT(&dpt_softc_list); } TAILQ_INSERT_TAIL(&dpt_softc_list, dpt, links); dpt->queue_status = DPT_QUEUES_NONE_ACTIVE; dpt->commands_processed = 0; #ifdef DPT_MEASURE_PERFORMANCE /* Zero out all command counters */ bzero((void *)&dpt->performance, sizeof(dpt_perf_t)); #endif /* DPT_MEASURE_PERFORMANCE */ dpt->handle_interrupts = 0; /* * Do not set to 1 until all * initialization is done */ dpt->v_membase = NULL; dpt->p_membase = NULL; dpt->unit = unit; dpt->io_base = (e_dev->ioconf.slot * EISA_SLOT_SIZE) + DPT_EISA_SLOT_OFFSET; eisa_reg_start(e_dev); if (eisa_reg_iospace(e_dev, io_space)) { #ifdef DPT_DEBUG_ERROR printf("dpt%d: eisa_reg_iospace() failed.\n", unit); #endif free(dpt, M_DEVBUF); return -1; } /* reset the card? */ /* If the DPT is mapped as an IDE controller, let it be IDE controller */ if (dpt->io_base == ISA_PRIMARY_WD_ADDRESS) { #ifdef DPT_DEBUG_WARN printf("dpt%d: Mapped as an IDE controller. " "Disabling SCSI setup\n", unit); #endif free(dpt, M_DEVBUF); return -1; } else { if ((config = dpt_get_conf(dpt, 0xc1, 7, sizeof(dpt_conf_t), 1)) == NULL) { #ifdef DPT_DEBUG_ERROR printf("dpt%d: Failed to get board configuration (%x)\n", unit, BaseRegister(dpt)); #endif free(dpt, M_DEVBUF); return -1; } } if(eisa_reg_intr(e_dev, irq, dpt_intr, (void *)dpt, &cam_imask, /* shared == */ config->IRQ_TR)) { #ifdef DPT_DEBUG_ERROR printf("dpt%d: eisa_reg_intr() failed.\n", unit); #endif free(dpt, M_DEVBUF); return -1; } eisa_reg_end(e_dev); /* Enable our interrupt handler. */ if (eisa_enable_intr(e_dev, irq)) { #ifdef DPT_DEBUG_ERROR printf("dpt%d: eisa_enable_intr() failed.\n", unit); #endif free(dpt, M_DEVBUF); eisa_release_intr(e_dev, irq, dpt_intr); return -1; } dpt->max_id = config->MAX_ID; dpt->max_lun = config->MAX_LUN; dpt->irq = config->IRQ; dpt->channels = config->MAX_CHAN; dpt->dma_channel = (8 - config->DMA_channel) & 7; #ifdef DPT_DEBUG_SETUP printf("dpt%d: max_id = %d, max_chan = %d, max_lun = %d\n", dpt->unit, dpt->max_id, dpt->channels, dpt->max_lun); #endif if (result = dpt_setup(dpt, config)) { free(config, M_TEMP); free(dpt, M_DEVBUF); printf("dpt%d: dpt_setup failed (%d). Driver Disabled :-(\n", dpt->unit, result); } else { /* clean up the informational data, and display */ char clean_vendor[9]; char clean_model[17]; char clean_firmware[5]; char clean_protocol[5]; char clean_other[7]; int ndx; strncpy(clean_other, dpt->board_data.otherData, 8); clean_other[6] = '\0'; for (ndx = 5; ndx >= 0; ndx--) { if (clean_other[ndx] == ' ') { clean_other[ndx] = '\0'; } else { break; } } strncpy(dpt->board_data.otherData, clean_other, 6); strncpy(clean_vendor, dpt->board_data.vendor, 8); clean_vendor[8] = '\0'; for (ndx = 7; ndx >= 0; ndx--) { if (clean_vendor[ndx] == ' ') { clean_vendor[ndx] = '\0'; } else { break; } } strncpy(dpt->board_data.vendor, clean_vendor, 8); strncpy(clean_model, dpt->board_data.modelNum, 16); clean_model[16] = '\0'; for (ndx = 15; ndx >= 0; ndx--) { if (clean_model[ndx] == ' ') { clean_model[ndx] = '\0'; } else { break; } } strncpy(dpt->board_data.modelNum, clean_model, 16); strncpy(clean_firmware, dpt->board_data.firmware, 4); clean_firmware[4] = '\0'; for (ndx = 3; ndx >= 0; ndx--) { if (clean_firmware[ndx] == ' ') clean_firmware[ndx] = '\0'; else break; } strncpy(dpt->board_data.firmware, clean_firmware, 4); strncpy(clean_protocol, dpt->board_data.protocol, 4); clean_protocol[4] = '\0'; for (ndx = 3; ndx >= 0; ndx--) { if (clean_protocol[ndx] == ' ') clean_protocol[ndx] = '\0'; else break; } strncpy(dpt->board_data.protocol, clean_protocol, 4); dpt_detect_cache(dpt); printf("dpt%d: %s type %x, model %s firmware %s, Protocol %s \n" " on port %x with %dMB %s cache. LED = %s\n", dpt->unit, clean_vendor, dpt->board_data.deviceType, clean_model, clean_firmware, clean_protocol, dpt->io_base, dpt->cache_size, (dpt->cache_type == DPT_NO_CACHE) ? "Disabled" : (dpt->cache_type == DPT_CACHE_WRITETHROUGH) ? "Write-Through" : "Write-Back", i2bin(dpt_blinking_led(dpt), 8)); printf("dpt%d: Enabled Options:\n", dpt->unit); #ifdef DPT_VERIFY_HINTR printf(" Verify Lost Transactions\n"); #endif #ifdef DPT_RESTRICTED_FREELIST printf(" Restrict the Freelist Size\n"); #endif #ifdef DPT_TRACK_CCB_STATES printf(" Precisely Track State Transitions\n"); #endif #ifdef DPT_MEASURE_PERFORMANCE printf(" Collect Metrics\n"); #endif #ifdef DPT_FREELIST_IS_STACK printf(" Optimize CPU Cache\n"); #endif #ifdef DPT_HANDLE_TIMEOUTS printf(" Handle Timeouts\n"); #endif #ifdef DPT_ALLOW_MEMIO printf(" Allow I/O to be Memeory Mapped\n"); #endif #ifdef DPT_HINTR_CHECK_SOFTC printf(" Validate SoftC at Interrupt\n"); #endif /* register shutdown handlers */ result = at_shutdown((bootlist_fn)dpt_shutdown, (void *)dpt, SHUTDOWN_POST_SYNC); switch ( result ) { case 0: #ifdef DPT_DEBUG_SHUTDOWN printf("dpt%d: Shutdown handler registered\n", dpt->unit); #endif break; default: #ifdef DPT_DEBUG_WARN printf("dpt%d: Failed to register shutdown handler (%d)\n", dpt->unit, result); #endif break; } dpt_attach(dpt); } ++dpt_controllers_present; return 0; } int dpt_eisa_shutdown(foo) int foo; { #ifdef DPT_DEBUG_WARN printf("dpt_pci_shutdown(%x)\n", foo); #endif return (0); } static const char * dpt_eisa_match(type) eisa_id_t type; { switch (type) { case DPT_EISA_DPT2402 : return ("DPT PM2012A/9X"); break; case DPT_EISA_DPTA401 : return ("DPT PM2012B/9X"); break; case DPT_EISA_DPTA402 : return ("DPT PM2012B2/9X"); break; case DPT_EISA_DPTA410 : return ("DPT PM2x22A/9X"); break; case DPT_EISA_DPTA411 : return ("DPT Spectre"); break; case DPT_EISA_DPTA412 : return ("DPT PM2021A/9X"); break; case DPT_EISA_DPTA420 : return ("DPT Smart Cache IV (PM2042)"); break; case DPT_EISA_DPTA501 : return ("DPT PM2012B1/9X"); break; case DPT_EISA_DPTA502 : return ("DPT PM2012Bx/9X"); break; case DPT_EISA_DPTA701 : return ("DPT PM2011B1/9X"); break; case DPT_EISA_DPTBC01 : return ("DPT PM3011/7X ESDI"); break; case DPT_EISA_NEC8200 : return ("NEC EATA SCSI"); break; case DPT_EISA_ATT2408 : return ("ATT EATA SCSI"); break; default: break; } return (NULL); } #endif /* NEISA > 0 */