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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 | // SPDX-License-Identifier: GPL-2.0-or-later /* * Device driver for the SYMBIOS/LSILOGIC 53C8XX and 53C1010 family * of PCI-SCSI IO processors. * * Copyright (C) 1999-2001 Gerard Roudier <groudier@free.fr> * Copyright (c) 2003-2005 Matthew Wilcox <matthew@wil.cx> * * This driver is derived from the Linux sym53c8xx driver. * Copyright (C) 1998-2000 Gerard Roudier * * The sym53c8xx driver is derived from the ncr53c8xx driver that had been * a port of the FreeBSD ncr driver to Linux-1.2.13. * * The original ncr driver has been written for 386bsd and FreeBSD by * Wolfgang Stanglmeier <wolf@cologne.de> * Stefan Esser <se@mi.Uni-Koeln.de> * Copyright (C) 1994 Wolfgang Stanglmeier * * Other major contributions: * * NVRAM detection and reading. * Copyright (C) 1997 Richard Waltham <dormouse@farsrobt.demon.co.uk> * *----------------------------------------------------------------------------- */ #include <linux/ctype.h> #include <linux/init.h> #include <linux/module.h> #include <linux/moduleparam.h> #include <linux/spinlock.h> #include <scsi/scsi.h> #include <scsi/scsi_tcq.h> #include <scsi/scsi_device.h> #include <scsi/scsi_transport.h> #include "sym_glue.h" #include "sym_nvram.h" #define NAME53C "sym53c" #define NAME53C8XX "sym53c8xx" struct sym_driver_setup sym_driver_setup = SYM_LINUX_DRIVER_SETUP; unsigned int sym_debug_flags = 0; static char *excl_string; static char *safe_string; module_param_named(cmd_per_lun, sym_driver_setup.max_tag, ushort, 0); module_param_named(burst, sym_driver_setup.burst_order, byte, 0); module_param_named(led, sym_driver_setup.scsi_led, byte, 0); module_param_named(diff, sym_driver_setup.scsi_diff, byte, 0); module_param_named(irqm, sym_driver_setup.irq_mode, byte, 0); module_param_named(buschk, sym_driver_setup.scsi_bus_check, byte, 0); module_param_named(hostid, sym_driver_setup.host_id, byte, 0); module_param_named(verb, sym_driver_setup.verbose, byte, 0); module_param_named(debug, sym_debug_flags, uint, 0); module_param_named(settle, sym_driver_setup.settle_delay, byte, 0); module_param_named(nvram, sym_driver_setup.use_nvram, byte, 0); module_param_named(excl, excl_string, charp, 0); module_param_named(safe, safe_string, charp, 0); MODULE_PARM_DESC(cmd_per_lun, "The maximum number of tags to use by default"); MODULE_PARM_DESC(burst, "Maximum burst. 0 to disable, 255 to read from registers"); MODULE_PARM_DESC(led, "Set to 1 to enable LED support"); MODULE_PARM_DESC(diff, "0 for no differential mode, 1 for BIOS, 2 for always, 3 for not GPIO3"); MODULE_PARM_DESC(irqm, "0 for open drain, 1 to leave alone, 2 for totem pole"); MODULE_PARM_DESC(buschk, "0 to not check, 1 for detach on error, 2 for warn on error"); MODULE_PARM_DESC(hostid, "The SCSI ID to use for the host adapters"); MODULE_PARM_DESC(verb, "0 for minimal verbosity, 1 for normal, 2 for excessive"); MODULE_PARM_DESC(debug, "Set bits to enable debugging"); MODULE_PARM_DESC(settle, "Settle delay in seconds. Default 3"); MODULE_PARM_DESC(nvram, "Option currently not used"); MODULE_PARM_DESC(excl, "List ioport addresses here to prevent controllers from being attached"); MODULE_PARM_DESC(safe, "Set other settings to a \"safe mode\""); MODULE_LICENSE("GPL"); MODULE_VERSION(SYM_VERSION); MODULE_AUTHOR("Matthew Wilcox <matthew@wil.cx>"); MODULE_DESCRIPTION("NCR, Symbios and LSI 8xx and 1010 PCI SCSI adapters"); static void sym2_setup_params(void) { char *p = excl_string; int xi = 0; while (p && (xi < 8)) { char *next_p; int val = (int) simple_strtoul(p, &next_p, 0); sym_driver_setup.excludes[xi++] = val; p = next_p; } if (safe_string) { if (*safe_string == 'y') { sym_driver_setup.max_tag = 0; sym_driver_setup.burst_order = 0; sym_driver_setup.scsi_led = 0; sym_driver_setup.scsi_diff = 1; sym_driver_setup.irq_mode = 0; sym_driver_setup.scsi_bus_check = 2; sym_driver_setup.host_id = 7; sym_driver_setup.verbose = 2; sym_driver_setup.settle_delay = 10; sym_driver_setup.use_nvram = 1; } else if (*safe_string != 'n') { printk(KERN_WARNING NAME53C8XX "Ignoring parameter %s" " passed to safe option", safe_string); } } } static struct scsi_transport_template *sym2_transport_template = NULL; /* * Driver private area in the SCSI command structure. */ struct sym_ucmd { /* Override the SCSI pointer structure */ struct completion *eh_done; /* SCSI error handling */ }; #define SYM_UCMD_PTR(cmd) ((struct sym_ucmd *)scsi_cmd_priv(cmd)) #define SYM_SOFTC_PTR(cmd) sym_get_hcb(cmd->device->host) /* * Complete a pending CAM CCB. */ void sym_xpt_done(struct sym_hcb *np, struct scsi_cmnd *cmd) { struct sym_ucmd *ucmd = SYM_UCMD_PTR(cmd); if (ucmd->eh_done) complete(ucmd->eh_done); scsi_dma_unmap(cmd); scsi_done(cmd); } /* * Tell the SCSI layer about a BUS RESET. */ void sym_xpt_async_bus_reset(struct sym_hcb *np) { printf_notice("%s: SCSI BUS has been reset.\n", sym_name(np)); np->s.settle_time = jiffies + sym_driver_setup.settle_delay * HZ; np->s.settle_time_valid = 1; if (sym_verbose >= 2) printf_info("%s: command processing suspended for %d seconds\n", sym_name(np), sym_driver_setup.settle_delay); } /* * Choose the more appropriate CAM status if * the IO encountered an extended error. */ static int sym_xerr_cam_status(int cam_status, int x_status) { if (x_status) { if (x_status & XE_PARITY_ERR) cam_status = DID_PARITY; else cam_status = DID_ERROR; } return cam_status; } /* * Build CAM result for a failed or auto-sensed IO. */ void sym_set_cam_result_error(struct sym_hcb *np, struct sym_ccb *cp, int resid) { struct scsi_cmnd *cmd = cp->cmd; u_int cam_status, scsi_status; cam_status = DID_OK; scsi_status = cp->ssss_status; if (cp->host_flags & HF_SENSE) { scsi_status = cp->sv_scsi_status; resid = cp->sv_resid; if (sym_verbose && cp->sv_xerr_status) sym_print_xerr(cmd, cp->sv_xerr_status); if (cp->host_status == HS_COMPLETE && cp->ssss_status == S_GOOD && cp->xerr_status == 0) { cam_status = sym_xerr_cam_status(DID_OK, cp->sv_xerr_status); /* * Bounce back the sense data to user. */ memset(cmd->sense_buffer, 0, SCSI_SENSE_BUFFERSIZE); memcpy(cmd->sense_buffer, cp->sns_bbuf, min(SCSI_SENSE_BUFFERSIZE, SYM_SNS_BBUF_LEN)); #if 0 /* * If the device reports a UNIT ATTENTION condition * due to a RESET condition, we should consider all * disconnect CCBs for this unit as aborted. */ if (1) { u_char *p; p = (u_char *) cmd->sense_data; if (p[0]==0x70 && p[2]==0x6 && p[12]==0x29) sym_clear_tasks(np, DID_ABORT, cp->target,cp->lun, -1); } #endif } else { /* * Error return from our internal request sense. This * is bad: we must clear the contingent allegiance * condition otherwise the device will always return * BUSY. Use a big stick. */ sym_reset_scsi_target(np, cmd->device->id); cam_status = DID_ERROR; } } else if (cp->host_status == HS_COMPLETE) /* Bad SCSI status */ cam_status = DID_OK; else if (cp->host_status == HS_SEL_TIMEOUT) /* Selection timeout */ cam_status = DID_NO_CONNECT; else if (cp->host_status == HS_UNEXPECTED) /* Unexpected BUS FREE*/ cam_status = DID_ERROR; else { /* Extended error */ if (sym_verbose) { sym_print_addr(cmd, "COMMAND FAILED (%x %x %x).\n", cp->host_status, cp->ssss_status, cp->xerr_status); } /* * Set the most appropriate value for CAM status. */ cam_status = sym_xerr_cam_status(DID_ERROR, cp->xerr_status); } scsi_set_resid(cmd, resid); cmd->result = (cam_status << 16) | scsi_status; } static int sym_scatter(struct sym_hcb *np, struct sym_ccb *cp, struct scsi_cmnd *cmd) { int segment; int use_sg; cp->data_len = 0; use_sg = scsi_dma_map(cmd); if (use_sg > 0) { struct scatterlist *sg; struct sym_tcb *tp = &np->target[cp->target]; struct sym_tblmove *data; if (use_sg > SYM_CONF_MAX_SG) { scsi_dma_unmap(cmd); return -1; } data = &cp->phys.data[SYM_CONF_MAX_SG - use_sg]; scsi_for_each_sg(cmd, sg, use_sg, segment) { dma_addr_t baddr = sg_dma_address(sg); unsigned int len = sg_dma_len(sg); if ((len & 1) && (tp->head.wval & EWS)) { len++; cp->odd_byte_adjustment++; } sym_build_sge(np, &data[segment], baddr, len); cp->data_len += len; } } else { segment = -2; } return segment; } /* * Queue a SCSI command. */ static int sym_queue_command(struct sym_hcb *np, struct scsi_cmnd *cmd) { struct scsi_device *sdev = cmd->device; struct sym_tcb *tp; struct sym_lcb *lp; struct sym_ccb *cp; int order; /* * Retrieve the target descriptor. */ tp = &np->target[sdev->id]; /* * Select tagged/untagged. */ lp = sym_lp(tp, sdev->lun); order = (lp && lp->s.reqtags) ? M_SIMPLE_TAG : 0; /* * Queue the SCSI IO. */ cp = sym_get_ccb(np, cmd, order); if (!cp) return 1; /* Means resource shortage */ sym_queue_scsiio(np, cmd, cp); return 0; } /* * Setup buffers and pointers that address the CDB. */ static inline int sym_setup_cdb(struct sym_hcb *np, struct scsi_cmnd *cmd, struct sym_ccb *cp) { memcpy(cp->cdb_buf, cmd->cmnd, cmd->cmd_len); cp->phys.cmd.addr = CCB_BA(cp, cdb_buf[0]); cp->phys.cmd.size = cpu_to_scr(cmd->cmd_len); return 0; } /* * Setup pointers that address the data and start the I/O. */ int sym_setup_data_and_start(struct sym_hcb *np, struct scsi_cmnd *cmd, struct sym_ccb *cp) { u32 lastp, goalp; int dir; /* * Build the CDB. */ if (sym_setup_cdb(np, cmd, cp)) goto out_abort; /* * No direction means no data. */ dir = cmd->sc_data_direction; if (dir != DMA_NONE) { cp->segments = sym_scatter(np, cp, cmd); if (cp->segments < 0) { sym_set_cam_status(cmd, DID_ERROR); goto out_abort; } /* * No segments means no data. */ if (!cp->segments) dir = DMA_NONE; } else { cp->data_len = 0; cp->segments = 0; } /* * Set the data pointer. */ switch (dir) { case DMA_BIDIRECTIONAL: scmd_printk(KERN_INFO, cmd, "got DMA_BIDIRECTIONAL command"); sym_set_cam_status(cmd, DID_ERROR); goto out_abort; case DMA_TO_DEVICE: goalp = SCRIPTA_BA(np, data_out2) + 8; lastp = goalp - 8 - (cp->segments * (2*4)); break; case DMA_FROM_DEVICE: cp->host_flags |= HF_DATA_IN; goalp = SCRIPTA_BA(np, data_in2) + 8; lastp = goalp - 8 - (cp->segments * (2*4)); break; case DMA_NONE: default: lastp = goalp = SCRIPTB_BA(np, no_data); break; } /* * Set all pointers values needed by SCRIPTS. */ cp->phys.head.lastp = cpu_to_scr(lastp); cp->phys.head.savep = cpu_to_scr(lastp); cp->startp = cp->phys.head.savep; cp->goalp = cpu_to_scr(goalp); /* * When `#ifed 1', the code below makes the driver * panic on the first attempt to write to a SCSI device. * It is the first test we want to do after a driver * change that does not seem obviously safe. :) */ #if 0 switch (cp->cdb_buf[0]) { case 0x0A: case 0x2A: case 0xAA: panic("XXXXXXXXXXXXX WRITE NOT YET ALLOWED XXXXXXXXXXXXXX\n"); break; default: break; } #endif /* * activate this job. */ sym_put_start_queue(np, cp); return 0; out_abort: sym_free_ccb(np, cp); sym_xpt_done(np, cmd); return 0; } /* * timer daemon. * * Misused to keep the driver running when * interrupts are not configured correctly. */ static void sym_timer(struct sym_hcb *np) { unsigned long thistime = jiffies; /* * Restart the timer. */ np->s.timer.expires = thistime + SYM_CONF_TIMER_INTERVAL; add_timer(&np->s.timer); /* * If we are resetting the ncr, wait for settle_time before * clearing it. Then command processing will be resumed. */ if (np->s.settle_time_valid) { if (time_before_eq(np->s.settle_time, thistime)) { if (sym_verbose >= 2 ) printk("%s: command processing resumed\n", sym_name(np)); np->s.settle_time_valid = 0; } return; } /* * Nothing to do for now, but that may come. */ if (np->s.lasttime + 4*HZ < thistime) { np->s.lasttime = thistime; } #ifdef SYM_CONF_PCIQ_MAY_MISS_COMPLETIONS /* * Some way-broken PCI bridges may lead to * completions being lost when the clearing * of the INTFLY flag by the CPU occurs * concurrently with the chip raising this flag. * If this ever happen, lost completions will * be reaped here. */ sym_wakeup_done(np); #endif } /* * PCI BUS error handler. */ void sym_log_bus_error(struct Scsi_Host *shost) { struct sym_data *sym_data = shost_priv(shost); struct pci_dev *pdev = sym_data->pdev; unsigned short pci_sts; pci_read_config_word(pdev, PCI_STATUS, &pci_sts); if (pci_sts & 0xf900) { pci_write_config_word(pdev, PCI_STATUS, pci_sts); shost_printk(KERN_WARNING, shost, "PCI bus error: status = 0x%04x\n", pci_sts & 0xf900); } } /* * queuecommand method. Entered with the host adapter lock held and * interrupts disabled. */ static int sym53c8xx_queue_command_lck(struct scsi_cmnd *cmd) { struct sym_hcb *np = SYM_SOFTC_PTR(cmd); struct sym_ucmd *ucp = SYM_UCMD_PTR(cmd); int sts = 0; memset(ucp, 0, sizeof(*ucp)); /* * Shorten our settle_time if needed for * this command not to time out. */ if (np->s.settle_time_valid && scsi_cmd_to_rq(cmd)->timeout) { unsigned long tlimit = jiffies + scsi_cmd_to_rq(cmd)->timeout; tlimit -= SYM_CONF_TIMER_INTERVAL*2; if (time_after(np->s.settle_time, tlimit)) { np->s.settle_time = tlimit; } } if (np->s.settle_time_valid) return SCSI_MLQUEUE_HOST_BUSY; sts = sym_queue_command(np, cmd); if (sts) return SCSI_MLQUEUE_HOST_BUSY; return 0; } static DEF_SCSI_QCMD(sym53c8xx_queue_command) /* * Linux entry point of the interrupt handler. */ static irqreturn_t sym53c8xx_intr(int irq, void *dev_id) { struct Scsi_Host *shost = dev_id; struct sym_data *sym_data = shost_priv(shost); irqreturn_t result; /* Avoid spinloop trying to handle interrupts on frozen device */ if (pci_channel_offline(sym_data->pdev)) return IRQ_NONE; if (DEBUG_FLAGS & DEBUG_TINY) printf_debug ("["); spin_lock(shost->host_lock); result = sym_interrupt(shost); spin_unlock(shost->host_lock); if (DEBUG_FLAGS & DEBUG_TINY) printf_debug ("]\n"); return result; } /* * Linux entry point of the timer handler */ static void sym53c8xx_timer(struct timer_list *t) { struct sym_hcb *np = from_timer(np, t, s.timer); unsigned long flags; spin_lock_irqsave(np->s.host->host_lock, flags); sym_timer(np); spin_unlock_irqrestore(np->s.host->host_lock, flags); } /* * What the eh thread wants us to perform. */ #define SYM_EH_ABORT 0 #define SYM_EH_DEVICE_RESET 1 #define SYM_EH_BUS_RESET 2 #define SYM_EH_HOST_RESET 3 /* * Generic method for our eh processing. * The 'op' argument tells what we have to do. */ static int sym_eh_handler(int op, char *opname, struct scsi_cmnd *cmd) { struct sym_ucmd *ucmd = SYM_UCMD_PTR(cmd); struct Scsi_Host *shost = cmd->device->host; struct sym_data *sym_data = shost_priv(shost); struct pci_dev *pdev = sym_data->pdev; struct sym_hcb *np = sym_data->ncb; SYM_QUEHEAD *qp; int cmd_queued = 0; int sts = -1; struct completion eh_done; scmd_printk(KERN_WARNING, cmd, "%s operation started\n", opname); /* We may be in an error condition because the PCI bus * went down. In this case, we need to wait until the * PCI bus is reset, the card is reset, and only then * proceed with the scsi error recovery. There's no * point in hurrying; take a leisurely wait. */ #define WAIT_FOR_PCI_RECOVERY 35 if (pci_channel_offline(pdev)) { int finished_reset = 0; init_completion(&eh_done); spin_lock_irq(shost->host_lock); /* Make sure we didn't race */ if (pci_channel_offline(pdev)) { BUG_ON(sym_data->io_reset); sym_data->io_reset = &eh_done; } else { finished_reset = 1; } spin_unlock_irq(shost->host_lock); if (!finished_reset) finished_reset = wait_for_completion_timeout (sym_data->io_reset, WAIT_FOR_PCI_RECOVERY*HZ); spin_lock_irq(shost->host_lock); sym_data->io_reset = NULL; spin_unlock_irq(shost->host_lock); if (!finished_reset) return SCSI_FAILED; } spin_lock_irq(shost->host_lock); /* This one is queued in some place -> to wait for completion */ FOR_EACH_QUEUED_ELEMENT(&np->busy_ccbq, qp) { struct sym_ccb *cp = sym_que_entry(qp, struct sym_ccb, link_ccbq); if (cp->cmd == cmd) { cmd_queued = 1; break; } } /* Try to proceed the operation we have been asked for */ sts = -1; switch(op) { case SYM_EH_ABORT: sts = sym_abort_scsiio(np, cmd, 1); break; case SYM_EH_DEVICE_RESET: sts = sym_reset_scsi_target(np, cmd->device->id); break; case SYM_EH_BUS_RESET: sym_reset_scsi_bus(np, 1); sts = 0; break; case SYM_EH_HOST_RESET: sym_reset_scsi_bus(np, 0); sym_start_up(shost, 1); sts = 0; break; default: break; } /* On error, restore everything and cross fingers :) */ if (sts) cmd_queued = 0; if (cmd_queued) { init_completion(&eh_done); ucmd->eh_done = &eh_done; spin_unlock_irq(shost->host_lock); if (!wait_for_completion_timeout(&eh_done, 5*HZ)) { ucmd->eh_done = NULL; sts = -2; } } else { spin_unlock_irq(shost->host_lock); } dev_warn(&cmd->device->sdev_gendev, "%s operation %s.\n", opname, sts==0 ? "complete" :sts==-2 ? "timed-out" : "failed"); return sts ? SCSI_FAILED : SCSI_SUCCESS; } /* * Error handlers called from the eh thread (one thread per HBA). */ static int sym53c8xx_eh_abort_handler(struct scsi_cmnd *cmd) { return sym_eh_handler(SYM_EH_ABORT, "ABORT", cmd); } static int sym53c8xx_eh_device_reset_handler(struct scsi_cmnd *cmd) { return sym_eh_handler(SYM_EH_DEVICE_RESET, "DEVICE RESET", cmd); } static int sym53c8xx_eh_bus_reset_handler(struct scsi_cmnd *cmd) { return sym_eh_handler(SYM_EH_BUS_RESET, "BUS RESET", cmd); } static int sym53c8xx_eh_host_reset_handler(struct scsi_cmnd *cmd) { return sym_eh_handler(SYM_EH_HOST_RESET, "HOST RESET", cmd); } /* * Tune device queuing depth, according to various limits. */ static void sym_tune_dev_queuing(struct sym_tcb *tp, int lun, u_short reqtags) { struct sym_lcb *lp = sym_lp(tp, lun); u_short oldtags; if (!lp) return; oldtags = lp->s.reqtags; if (reqtags > lp->s.scdev_depth) reqtags = lp->s.scdev_depth; lp->s.reqtags = reqtags; if (reqtags != oldtags) { dev_info(&tp->starget->dev, "tagged command queuing %s, command queue depth %d.\n", lp->s.reqtags ? "enabled" : "disabled", reqtags); } } static int sym53c8xx_slave_alloc(struct scsi_device *sdev) { struct sym_hcb *np = sym_get_hcb(sdev->host); struct sym_tcb *tp = &np->target[sdev->id]; struct sym_lcb *lp; unsigned long flags; int error; if (sdev->id >= SYM_CONF_MAX_TARGET || sdev->lun >= SYM_CONF_MAX_LUN) return -ENXIO; spin_lock_irqsave(np->s.host->host_lock, flags); /* * Fail the device init if the device is flagged NOSCAN at BOOT in * the NVRAM. This may speed up boot and maintain coherency with * BIOS device numbering. Clearing the flag allows the user to * rescan skipped devices later. We also return an error for * devices not flagged for SCAN LUNS in the NVRAM since some single * lun devices behave badly when asked for a non zero LUN. */ if (tp->usrflags & SYM_SCAN_BOOT_DISABLED) { tp->usrflags &= ~SYM_SCAN_BOOT_DISABLED; starget_printk(KERN_INFO, sdev->sdev_target, "Scan at boot disabled in NVRAM\n"); error = -ENXIO; goto out; } if (tp->usrflags & SYM_SCAN_LUNS_DISABLED) { if (sdev->lun != 0) { error = -ENXIO; goto out; } starget_printk(KERN_INFO, sdev->sdev_target, "Multiple LUNs disabled in NVRAM\n"); } lp = sym_alloc_lcb(np, sdev->id, sdev->lun); if (!lp) { error = -ENOMEM; goto out; } if (tp->nlcb == 1) tp->starget = sdev->sdev_target; spi_min_period(tp->starget) = tp->usr_period; spi_max_width(tp->starget) = tp->usr_width; error = 0; out: spin_unlock_irqrestore(np->s.host->host_lock, flags); return error; } /* * Linux entry point for device queue sizing. */ static int sym53c8xx_slave_configure(struct scsi_device *sdev) { struct sym_hcb *np = sym_get_hcb(sdev->host); struct sym_tcb *tp = &np->target[sdev->id]; struct sym_lcb *lp = sym_lp(tp, sdev->lun); int reqtags, depth_to_use; /* * Get user flags. */ lp->curr_flags = lp->user_flags; /* * Select queue depth from driver setup. * Do not use more than configured by user. * Use at least 1. * Do not use more than our maximum. */ reqtags = sym_driver_setup.max_tag; if (reqtags > tp->usrtags) reqtags = tp->usrtags; if (!sdev->tagged_supported) reqtags = 0; if (reqtags > SYM_CONF_MAX_TAG) reqtags = SYM_CONF_MAX_TAG; depth_to_use = reqtags ? reqtags : 1; scsi_change_queue_depth(sdev, depth_to_use); lp->s.scdev_depth = depth_to_use; sym_tune_dev_queuing(tp, sdev->lun, reqtags); if (!spi_initial_dv(sdev->sdev_target)) spi_dv_device(sdev); return 0; } static void sym53c8xx_slave_destroy(struct scsi_device *sdev) { struct sym_hcb *np = sym_get_hcb(sdev->host); struct sym_tcb *tp = &np->target[sdev->id]; struct sym_lcb *lp = sym_lp(tp, sdev->lun); unsigned long flags; /* if slave_alloc returned before allocating a sym_lcb, return */ if (!lp) return; spin_lock_irqsave(np->s.host->host_lock, flags); if (lp->busy_itlq || lp->busy_itl) { /* * This really shouldn't happen, but we can't return an error * so let's try to stop all on-going I/O. */ starget_printk(KERN_WARNING, tp->starget, "Removing busy LCB (%d)\n", (u8)sdev->lun); sym_reset_scsi_bus(np, 1); } if (sym_free_lcb(np, sdev->id, sdev->lun) == 0) { /* * It was the last unit for this target. */ tp->head.sval = 0; tp->head.wval = np->rv_scntl3; tp->head.uval = 0; tp->tgoal.check_nego = 1; tp->starget = NULL; } spin_unlock_irqrestore(np->s.host->host_lock, flags); } /* * Linux entry point for info() function */ static const char *sym53c8xx_info (struct Scsi_Host *host) { return SYM_DRIVER_NAME; } #ifdef SYM_LINUX_PROC_INFO_SUPPORT /* * Proc file system stuff * * A read operation returns adapter information. * A write operation is a control command. * The string is parsed in the driver code and the command is passed * to the sym_usercmd() function. */ #ifdef SYM_LINUX_USER_COMMAND_SUPPORT struct sym_usrcmd { u_long target; u_long lun; u_long data; u_long cmd; }; #define UC_SETSYNC 10 #define UC_SETTAGS 11 #define UC_SETDEBUG 12 #define UC_SETWIDE 14 #define UC_SETFLAG 15 #define UC_SETVERBOSE 17 #define UC_RESETDEV 18 #define UC_CLEARDEV 19 static void sym_exec_user_command (struct sym_hcb *np, struct sym_usrcmd *uc) { struct sym_tcb *tp; int t, l; switch (uc->cmd) { case 0: return; #ifdef SYM_LINUX_DEBUG_CONTROL_SUPPORT case UC_SETDEBUG: sym_debug_flags = uc->data; break; #endif case UC_SETVERBOSE: np->verbose = uc->data; break; default: /* * We assume that other commands apply to targets. * This should always be the case and avoid the below * 4 lines to be repeated 6 times. */ for (t = 0; t < SYM_CONF_MAX_TARGET; t++) { if (!((uc->target >> t) & 1)) continue; tp = &np->target[t]; if (!tp->nlcb) continue; switch (uc->cmd) { case UC_SETSYNC: if (!uc->data || uc->data >= 255) { tp->tgoal.iu = tp->tgoal.dt = tp->tgoal.qas = 0; tp->tgoal.offset = 0; } else if (uc->data <= 9 && np->minsync_dt) { if (uc->data < np->minsync_dt) uc->data = np->minsync_dt; tp->tgoal.iu = tp->tgoal.dt = tp->tgoal.qas = 1; tp->tgoal.width = 1; tp->tgoal.period = uc->data; tp->tgoal.offset = np->maxoffs_dt; } else { if (uc->data < np->minsync) uc->data = np->minsync; tp->tgoal.iu = tp->tgoal.dt = tp->tgoal.qas = 0; tp->tgoal.period = uc->data; tp->tgoal.offset = np->maxoffs; } tp->tgoal.check_nego = 1; break; case UC_SETWIDE: tp->tgoal.width = uc->data ? 1 : 0; tp->tgoal.check_nego = 1; break; case UC_SETTAGS: for (l = 0; l < SYM_CONF_MAX_LUN; l++) sym_tune_dev_queuing(tp, l, uc->data); break; case UC_RESETDEV: tp->to_reset = 1; np->istat_sem = SEM; OUTB(np, nc_istat, SIGP|SEM); break; case UC_CLEARDEV: for (l = 0; l < SYM_CONF_MAX_LUN; l++) { struct sym_lcb *lp = sym_lp(tp, l); if (lp) lp->to_clear = 1; } np->istat_sem = SEM; OUTB(np, nc_istat, SIGP|SEM); break; case UC_SETFLAG: tp->usrflags = uc->data; break; } } break; } } static int sym_skip_spaces(char *ptr, int len) { int cnt, c; for (cnt = len; cnt > 0 && (c = *ptr++) && isspace(c); cnt--); return (len - cnt); } static int get_int_arg(char *ptr, int len, u_long *pv) { char *end; *pv = simple_strtoul(ptr, &end, 10); return (end - ptr); } static int is_keyword(char *ptr, int len, char *verb) { int verb_len = strlen(verb); if (len >= verb_len && !memcmp(verb, ptr, verb_len)) return verb_len; else return 0; } #define SKIP_SPACES(ptr, len) \ if ((arg_len = sym_skip_spaces(ptr, len)) < 1) \ return -EINVAL; \ ptr += arg_len; len -= arg_len; #define GET_INT_ARG(ptr, len, v) \ if (!(arg_len = get_int_arg(ptr, len, &(v)))) \ return -EINVAL; \ ptr += arg_len; len -= arg_len; /* * Parse a control command */ static int sym_user_command(struct Scsi_Host *shost, char *buffer, int length) { struct sym_hcb *np = sym_get_hcb(shost); char *ptr = buffer; int len = length; struct sym_usrcmd cmd, *uc = &cmd; int arg_len; u_long target; memset(uc, 0, sizeof(*uc)); if (len > 0 && ptr[len-1] == '\n') --len; if ((arg_len = is_keyword(ptr, len, "setsync")) != 0) uc->cmd = UC_SETSYNC; else if ((arg_len = is_keyword(ptr, len, "settags")) != 0) uc->cmd = UC_SETTAGS; else if ((arg_len = is_keyword(ptr, len, "setverbose")) != 0) uc->cmd = UC_SETVERBOSE; else if ((arg_len = is_keyword(ptr, len, "setwide")) != 0) uc->cmd = UC_SETWIDE; #ifdef SYM_LINUX_DEBUG_CONTROL_SUPPORT else if ((arg_len = is_keyword(ptr, len, "setdebug")) != 0) uc->cmd = UC_SETDEBUG; #endif else if ((arg_len = is_keyword(ptr, len, "setflag")) != 0) uc->cmd = UC_SETFLAG; else if ((arg_len = is_keyword(ptr, len, "resetdev")) != 0) uc->cmd = UC_RESETDEV; else if ((arg_len = is_keyword(ptr, len, "cleardev")) != 0) uc->cmd = UC_CLEARDEV; else arg_len = 0; #ifdef DEBUG_PROC_INFO printk("sym_user_command: arg_len=%d, cmd=%ld\n", arg_len, uc->cmd); #endif if (!arg_len) return -EINVAL; ptr += arg_len; len -= arg_len; switch(uc->cmd) { case UC_SETSYNC: case UC_SETTAGS: case UC_SETWIDE: case UC_SETFLAG: case UC_RESETDEV: case UC_CLEARDEV: SKIP_SPACES(ptr, len); if ((arg_len = is_keyword(ptr, len, "all")) != 0) { ptr += arg_len; len -= arg_len; uc->target = ~0; } else { GET_INT_ARG(ptr, len, target); uc->target = (1<<target); #ifdef DEBUG_PROC_INFO printk("sym_user_command: target=%ld\n", target); #endif } break; } switch(uc->cmd) { case UC_SETVERBOSE: case UC_SETSYNC: case UC_SETTAGS: case UC_SETWIDE: SKIP_SPACES(ptr, len); GET_INT_ARG(ptr, len, uc->data); #ifdef DEBUG_PROC_INFO printk("sym_user_command: data=%ld\n", uc->data); #endif break; #ifdef SYM_LINUX_DEBUG_CONTROL_SUPPORT case UC_SETDEBUG: while (len > 0) { SKIP_SPACES(ptr, len); if ((arg_len = is_keyword(ptr, len, "alloc"))) uc->data |= DEBUG_ALLOC; else if ((arg_len = is_keyword(ptr, len, "phase"))) uc->data |= DEBUG_PHASE; else if ((arg_len = is_keyword(ptr, len, "queue"))) uc->data |= DEBUG_QUEUE; else if ((arg_len = is_keyword(ptr, len, "result"))) uc->data |= DEBUG_RESULT; else if ((arg_len = is_keyword(ptr, len, "scatter"))) uc->data |= DEBUG_SCATTER; else if ((arg_len = is_keyword(ptr, len, "script"))) uc->data |= DEBUG_SCRIPT; else if ((arg_len = is_keyword(ptr, len, "tiny"))) uc->data |= DEBUG_TINY; else if ((arg_len = is_keyword(ptr, len, "timing"))) uc->data |= DEBUG_TIMING; else if ((arg_len = is_keyword(ptr, len, "nego"))) uc->data |= DEBUG_NEGO; else if ((arg_len = is_keyword(ptr, len, "tags"))) uc->data |= DEBUG_TAGS; else if ((arg_len = is_keyword(ptr, len, "pointer"))) uc->data |= DEBUG_POINTER; else return -EINVAL; ptr += arg_len; len -= arg_len; } #ifdef DEBUG_PROC_INFO printk("sym_user_command: data=%ld\n", uc->data); #endif break; #endif /* SYM_LINUX_DEBUG_CONTROL_SUPPORT */ case UC_SETFLAG: while (len > 0) { SKIP_SPACES(ptr, len); if ((arg_len = is_keyword(ptr, len, "no_disc"))) uc->data &= ~SYM_DISC_ENABLED; else return -EINVAL; ptr += arg_len; len -= arg_len; } break; default: break; } if (len) return -EINVAL; else { unsigned long flags; spin_lock_irqsave(shost->host_lock, flags); sym_exec_user_command(np, uc); spin_unlock_irqrestore(shost->host_lock, flags); } return length; } #endif /* SYM_LINUX_USER_COMMAND_SUPPORT */ /* * Copy formatted information into the input buffer. */ static int sym_show_info(struct seq_file *m, struct Scsi_Host *shost) { #ifdef SYM_LINUX_USER_INFO_SUPPORT struct sym_data *sym_data = shost_priv(shost); struct pci_dev *pdev = sym_data->pdev; struct sym_hcb *np = sym_data->ncb; seq_printf(m, "Chip " NAME53C "%s, device id 0x%x, " "revision id 0x%x\n", np->s.chip_name, pdev->device, pdev->revision); seq_printf(m, "At PCI address %s, IRQ %u\n", pci_name(pdev), pdev->irq); seq_printf(m, "Min. period factor %d, %s SCSI BUS%s\n", (int) (np->minsync_dt ? np->minsync_dt : np->minsync), np->maxwide ? "Wide" : "Narrow", np->minsync_dt ? ", DT capable" : ""); seq_printf(m, "Max. started commands %d, " "max. commands per LUN %d\n", SYM_CONF_MAX_START, SYM_CONF_MAX_TAG); return 0; #else return -EINVAL; #endif /* SYM_LINUX_USER_INFO_SUPPORT */ } #endif /* SYM_LINUX_PROC_INFO_SUPPORT */ /* * Free resources claimed by sym_iomap_device(). Note that * sym_free_resources() should be used instead of this function after calling * sym_attach(). */ static void sym_iounmap_device(struct sym_device *device) { if (device->s.ioaddr) pci_iounmap(device->pdev, device->s.ioaddr); if (device->s.ramaddr) pci_iounmap(device->pdev, device->s.ramaddr); } /* * Free controller resources. */ static void sym_free_resources(struct sym_hcb *np, struct pci_dev *pdev, int do_free_irq) { /* * Free O/S specific resources. */ if (do_free_irq) free_irq(pdev->irq, np->s.host); if (np->s.ioaddr) pci_iounmap(pdev, np->s.ioaddr); if (np->s.ramaddr) pci_iounmap(pdev, np->s.ramaddr); /* * Free O/S independent resources. */ sym_hcb_free(np); sym_mfree_dma(np, sizeof(*np), "HCB"); } /* * Host attach and initialisations. * * Allocate host data and ncb structure. * Remap MMIO region. * Do chip initialization. * If all is OK, install interrupt handling and * start the timer daemon. */ static struct Scsi_Host *sym_attach(struct scsi_host_template *tpnt, int unit, struct sym_device *dev) { struct sym_data *sym_data; struct sym_hcb *np = NULL; struct Scsi_Host *shost = NULL; struct pci_dev *pdev = dev->pdev; unsigned long flags; struct sym_fw *fw; int do_free_irq = 0; printk(KERN_INFO "sym%d: <%s> rev 0x%x at pci %s irq %u\n", unit, dev->chip.name, pdev->revision, pci_name(pdev), pdev->irq); /* * Get the firmware for this chip. */ fw = sym_find_firmware(&dev->chip); if (!fw) goto attach_failed; shost = scsi_host_alloc(tpnt, sizeof(*sym_data)); if (!shost) goto attach_failed; sym_data = shost_priv(shost); /* * Allocate immediately the host control block, * since we are only expecting to succeed. :) * We keep track in the HCB of all the resources that * are to be released on error. */ np = __sym_calloc_dma(&pdev->dev, sizeof(*np), "HCB"); if (!np) goto attach_failed; np->bus_dmat = &pdev->dev; /* Result in 1 DMA pool per HBA */ sym_data->ncb = np; sym_data->pdev = pdev; np->s.host = shost; pci_set_drvdata(pdev, shost); /* * Copy some useful infos to the HCB. */ np->hcb_ba = vtobus(np); np->verbose = sym_driver_setup.verbose; np->s.unit = unit; np->features = dev->chip.features; np->clock_divn = dev->chip.nr_divisor; np->maxoffs = dev->chip.offset_max; np->maxburst = dev->chip.burst_max; np->myaddr = dev->host_id; np->mmio_ba = (u32)dev->mmio_base; np->ram_ba = (u32)dev->ram_base; np->s.ioaddr = dev->s.ioaddr; np->s.ramaddr = dev->s.ramaddr; /* * Edit its name. */ strlcpy(np->s.chip_name, dev->chip.name, sizeof(np->s.chip_name)); sprintf(np->s.inst_name, "sym%d", np->s.unit); if ((SYM_CONF_DMA_ADDRESSING_MODE > 0) && (np->features & FE_DAC) && !dma_set_mask(&pdev->dev, DMA_DAC_MASK)) { set_dac(np); } else if (dma_set_mask(&pdev->dev, DMA_BIT_MASK(32))) { printf_warning("%s: No suitable DMA available\n", sym_name(np)); goto attach_failed; } if (sym_hcb_attach(shost, fw, dev->nvram)) goto attach_failed; /* * Install the interrupt handler. * If we synchonize the C code with SCRIPTS on interrupt, * we do not want to share the INTR line at all. */ if (request_irq(pdev->irq, sym53c8xx_intr, IRQF_SHARED, NAME53C8XX, shost)) { printf_err("%s: request irq %u failure\n", sym_name(np), pdev->irq); goto attach_failed; } do_free_irq = 1; /* * After SCSI devices have been opened, we cannot * reset the bus safely, so we do it here. */ spin_lock_irqsave(shost->host_lock, flags); if (sym_reset_scsi_bus(np, 0)) goto reset_failed; /* * Start the SCRIPTS. */ sym_start_up(shost, 1); /* * Start the timer daemon */ timer_setup(&np->s.timer, sym53c8xx_timer, 0); np->s.lasttime=0; sym_timer (np); /* * Fill Linux host instance structure * and return success. */ shost->max_channel = 0; shost->this_id = np->myaddr; shost->max_id = np->maxwide ? 16 : 8; shost->max_lun = SYM_CONF_MAX_LUN; shost->unique_id = pci_resource_start(pdev, 0); shost->cmd_per_lun = SYM_CONF_MAX_TAG; shost->can_queue = (SYM_CONF_MAX_START-2); shost->sg_tablesize = SYM_CONF_MAX_SG; shost->max_cmd_len = 16; BUG_ON(sym2_transport_template == NULL); shost->transportt = sym2_transport_template; /* 53c896 rev 1 errata: DMA may not cross 16MB boundary */ if (pdev->device == PCI_DEVICE_ID_NCR_53C896 && pdev->revision < 2) shost->dma_boundary = 0xFFFFFF; spin_unlock_irqrestore(shost->host_lock, flags); return shost; reset_failed: printf_err("%s: FATAL ERROR: CHECK SCSI BUS - CABLES, " "TERMINATION, DEVICE POWER etc.!\n", sym_name(np)); spin_unlock_irqrestore(shost->host_lock, flags); attach_failed: printf_info("sym%d: giving up ...\n", unit); if (np) sym_free_resources(np, pdev, do_free_irq); else sym_iounmap_device(dev); if (shost) scsi_host_put(shost); return NULL; } /* * Detect and try to read SYMBIOS and TEKRAM NVRAM. */ #if SYM_CONF_NVRAM_SUPPORT static void sym_get_nvram(struct sym_device *devp, struct sym_nvram *nvp) { devp->nvram = nvp; nvp->type = 0; sym_read_nvram(devp, nvp); } #else static inline void sym_get_nvram(struct sym_device *devp, struct sym_nvram *nvp) { } #endif /* SYM_CONF_NVRAM_SUPPORT */ static int sym_check_supported(struct sym_device *device) { struct sym_chip *chip; struct pci_dev *pdev = device->pdev; unsigned long io_port = pci_resource_start(pdev, 0); int i; /* * If user excluded this chip, do not initialize it. * I hate this code so much. Must kill it. */ if (io_port) { for (i = 0 ; i < 8 ; i++) { if (sym_driver_setup.excludes[i] == io_port) return -ENODEV; } } /* * Check if the chip is supported. Then copy the chip description * to our device structure so we can make it match the actual device * and options. */ chip = sym_lookup_chip_table(pdev->device, pdev->revision); if (!chip) { dev_info(&pdev->dev, "device not supported\n"); return -ENODEV; } memcpy(&device->chip, chip, sizeof(device->chip)); return 0; } /* * Ignore Symbios chips controlled by various RAID controllers. * These controllers set value 0x52414944 at RAM end - 16. */ static int sym_check_raid(struct sym_device *device) { unsigned int ram_size, ram_val; if (!device->s.ramaddr) return 0; if (device->chip.features & FE_RAM8K) ram_size = 8192; else ram_size = 4096; ram_val = readl(device->s.ramaddr + ram_size - 16); if (ram_val != 0x52414944) return 0; dev_info(&device->pdev->dev, "not initializing, driven by RAID controller.\n"); return -ENODEV; } static int sym_set_workarounds(struct sym_device *device) { struct sym_chip *chip = &device->chip; struct pci_dev *pdev = device->pdev; u_short status_reg; /* * (ITEM 12 of a DEL about the 896 I haven't yet). * We must ensure the chip will use WRITE AND INVALIDATE. * The revision number limit is for now arbitrary. */ if (pdev->device == PCI_DEVICE_ID_NCR_53C896 && pdev->revision < 0x4) { chip->features |= (FE_WRIE | FE_CLSE); } /* If the chip can do Memory Write Invalidate, enable it */ if (chip->features & FE_WRIE) { if (pci_set_mwi(pdev)) return -ENODEV; } /* * Work around for errant bit in 895A. The 66Mhz * capable bit is set erroneously. Clear this bit. * (Item 1 DEL 533) * * Make sure Config space and Features agree. * * Recall: writes are not normal to status register - * write a 1 to clear and a 0 to leave unchanged. * Can only reset bits. */ pci_read_config_word(pdev, PCI_STATUS, &status_reg); if (chip->features & FE_66MHZ) { if (!(status_reg & PCI_STATUS_66MHZ)) chip->features &= ~FE_66MHZ; } else { if (status_reg & PCI_STATUS_66MHZ) { status_reg = PCI_STATUS_66MHZ; pci_write_config_word(pdev, PCI_STATUS, status_reg); pci_read_config_word(pdev, PCI_STATUS, &status_reg); } } return 0; } /* * Map HBA registers and on-chip SRAM (if present). */ static int sym_iomap_device(struct sym_device *device) { struct pci_dev *pdev = device->pdev; struct pci_bus_region bus_addr; int i = 2; pcibios_resource_to_bus(pdev->bus, &bus_addr, &pdev->resource[1]); device->mmio_base = bus_addr.start; if (device->chip.features & FE_RAM) { /* * If the BAR is 64-bit, resource 2 will be occupied by the * upper 32 bits */ if (!pdev->resource[i].flags) i++; pcibios_resource_to_bus(pdev->bus, &bus_addr, &pdev->resource[i]); device->ram_base = bus_addr.start; } #ifdef CONFIG_SCSI_SYM53C8XX_MMIO if (device->mmio_base) device->s.ioaddr = pci_iomap(pdev, 1, pci_resource_len(pdev, 1)); #endif if (!device->s.ioaddr) device->s.ioaddr = pci_iomap(pdev, 0, pci_resource_len(pdev, 0)); if (!device->s.ioaddr) { dev_err(&pdev->dev, "could not map registers; giving up.\n"); return -EIO; } if (device->ram_base) { device->s.ramaddr = pci_iomap(pdev, i, pci_resource_len(pdev, i)); if (!device->s.ramaddr) { dev_warn(&pdev->dev, "could not map SRAM; continuing anyway.\n"); device->ram_base = 0; } } return 0; } /* * The NCR PQS and PDS cards are constructed as a DEC bridge * behind which sits a proprietary NCR memory controller and * either four or two 53c875s as separate devices. We can tell * if an 875 is part of a PQS/PDS or not since if it is, it will * be on the same bus as the memory controller. In its usual * mode of operation, the 875s are slaved to the memory * controller for all transfers. To operate with the Linux * driver, the memory controller is disabled and the 875s * freed to function independently. The only wrinkle is that * the preset SCSI ID (which may be zero) must be read in from * a special configuration space register of the 875. */ static void sym_config_pqs(struct pci_dev *pdev, struct sym_device *sym_dev) { int slot; u8 tmp; for (slot = 0; slot < 256; slot++) { struct pci_dev *memc = pci_get_slot(pdev->bus, slot); if (!memc || memc->vendor != 0x101a || memc->device == 0x0009) { pci_dev_put(memc); continue; } /* bit 1: allow individual 875 configuration */ pci_read_config_byte(memc, 0x44, &tmp); if ((tmp & 0x2) == 0) { tmp |= 0x2; pci_write_config_byte(memc, 0x44, tmp); } /* bit 2: drive individual 875 interrupts to the bus */ pci_read_config_byte(memc, 0x45, &tmp); if ((tmp & 0x4) == 0) { tmp |= 0x4; pci_write_config_byte(memc, 0x45, tmp); } pci_dev_put(memc); break; } pci_read_config_byte(pdev, 0x84, &tmp); sym_dev->host_id = tmp; } /* * Called before unloading the module. * Detach the host. * We have to free resources and halt the NCR chip. */ static int sym_detach(struct Scsi_Host *shost, struct pci_dev *pdev) { struct sym_hcb *np = sym_get_hcb(shost); printk("%s: detaching ...\n", sym_name(np)); del_timer_sync(&np->s.timer); /* * Reset NCR chip. * We should use sym_soft_reset(), but we don't want to do * so, since we may not be safe if interrupts occur. */ printk("%s: resetting chip\n", sym_name(np)); OUTB(np, nc_istat, SRST); INB(np, nc_mbox1); udelay(10); OUTB(np, nc_istat, 0); sym_free_resources(np, pdev, 1); scsi_host_put(shost); return 1; } /* * Driver host template. */ static struct scsi_host_template sym2_template = { .module = THIS_MODULE, .name = "sym53c8xx", .info = sym53c8xx_info, .cmd_size = sizeof(struct sym_ucmd), .queuecommand = sym53c8xx_queue_command, .slave_alloc = sym53c8xx_slave_alloc, .slave_configure = sym53c8xx_slave_configure, .slave_destroy = sym53c8xx_slave_destroy, .eh_abort_handler = sym53c8xx_eh_abort_handler, .eh_device_reset_handler = sym53c8xx_eh_device_reset_handler, .eh_bus_reset_handler = sym53c8xx_eh_bus_reset_handler, .eh_host_reset_handler = sym53c8xx_eh_host_reset_handler, .this_id = 7, .max_sectors = 0xFFFF, #ifdef SYM_LINUX_PROC_INFO_SUPPORT .show_info = sym_show_info, #ifdef SYM_LINUX_USER_COMMAND_SUPPORT .write_info = sym_user_command, #endif .proc_name = NAME53C8XX, #endif }; static int attach_count; static int sym2_probe(struct pci_dev *pdev, const struct pci_device_id *ent) { struct sym_device sym_dev; struct sym_nvram nvram; struct Scsi_Host *shost; int do_iounmap = 0; int do_disable_device = 1; memset(&sym_dev, 0, sizeof(sym_dev)); memset(&nvram, 0, sizeof(nvram)); sym_dev.pdev = pdev; sym_dev.host_id = SYM_SETUP_HOST_ID; if (pci_enable_device(pdev)) goto leave; pci_set_master(pdev); if (pci_request_regions(pdev, NAME53C8XX)) goto disable; if (sym_check_supported(&sym_dev)) goto free; if (sym_iomap_device(&sym_dev)) goto free; do_iounmap = 1; if (sym_check_raid(&sym_dev)) { do_disable_device = 0; /* Don't disable the device */ goto free; } if (sym_set_workarounds(&sym_dev)) goto free; sym_config_pqs(pdev, &sym_dev); sym_get_nvram(&sym_dev, &nvram); do_iounmap = 0; /* Don't sym_iounmap_device() after sym_attach(). */ shost = sym_attach(&sym2_template, attach_count, &sym_dev); if (!shost) goto free; if (scsi_add_host(shost, &pdev->dev)) goto detach; scsi_scan_host(shost); attach_count++; return 0; detach: sym_detach(pci_get_drvdata(pdev), pdev); free: if (do_iounmap) sym_iounmap_device(&sym_dev); pci_release_regions(pdev); disable: if (do_disable_device) pci_disable_device(pdev); leave: return -ENODEV; } static void sym2_remove(struct pci_dev *pdev) { struct Scsi_Host *shost = pci_get_drvdata(pdev); scsi_remove_host(shost); sym_detach(shost, pdev); pci_release_regions(pdev); pci_disable_device(pdev); attach_count--; } /** * sym2_io_error_detected() - called when PCI error is detected * @pdev: pointer to PCI device * @state: current state of the PCI slot */ static pci_ers_result_t sym2_io_error_detected(struct pci_dev *pdev, pci_channel_state_t state) { /* If slot is permanently frozen, turn everything off */ if (state == pci_channel_io_perm_failure) { sym2_remove(pdev); return PCI_ERS_RESULT_DISCONNECT; } disable_irq(pdev->irq); pci_disable_device(pdev); /* Request that MMIO be enabled, so register dump can be taken. */ return PCI_ERS_RESULT_CAN_RECOVER; } /** * sym2_io_slot_dump - Enable MMIO and dump debug registers * @pdev: pointer to PCI device */ static pci_ers_result_t sym2_io_slot_dump(struct pci_dev *pdev) { struct Scsi_Host *shost = pci_get_drvdata(pdev); sym_dump_registers(shost); /* Request a slot reset. */ return PCI_ERS_RESULT_NEED_RESET; } /** * sym2_reset_workarounds - hardware-specific work-arounds * @pdev: pointer to PCI device * * This routine is similar to sym_set_workarounds(), except * that, at this point, we already know that the device was * successfully initialized at least once before, and so most * of the steps taken there are un-needed here. */ static void sym2_reset_workarounds(struct pci_dev *pdev) { u_short status_reg; struct sym_chip *chip; chip = sym_lookup_chip_table(pdev->device, pdev->revision); /* Work around for errant bit in 895A, in a fashion * similar to what is done in sym_set_workarounds(). */ pci_read_config_word(pdev, PCI_STATUS, &status_reg); if (!(chip->features & FE_66MHZ) && (status_reg & PCI_STATUS_66MHZ)) { status_reg = PCI_STATUS_66MHZ; pci_write_config_word(pdev, PCI_STATUS, status_reg); pci_read_config_word(pdev, PCI_STATUS, &status_reg); } } /** * sym2_io_slot_reset() - called when the pci bus has been reset. * @pdev: pointer to PCI device * * Restart the card from scratch. */ static pci_ers_result_t sym2_io_slot_reset(struct pci_dev *pdev) { struct Scsi_Host *shost = pci_get_drvdata(pdev); struct sym_hcb *np = sym_get_hcb(shost); printk(KERN_INFO "%s: recovering from a PCI slot reset\n", sym_name(np)); if (pci_enable_device(pdev)) { printk(KERN_ERR "%s: Unable to enable after PCI reset\n", sym_name(np)); return PCI_ERS_RESULT_DISCONNECT; } pci_set_master(pdev); enable_irq(pdev->irq); /* If the chip can do Memory Write Invalidate, enable it */ if (np->features & FE_WRIE) { if (pci_set_mwi(pdev)) return PCI_ERS_RESULT_DISCONNECT; } /* Perform work-arounds, analogous to sym_set_workarounds() */ sym2_reset_workarounds(pdev); /* Perform host reset only on one instance of the card */ if (PCI_FUNC(pdev->devfn) == 0) { if (sym_reset_scsi_bus(np, 0)) { printk(KERN_ERR "%s: Unable to reset scsi host\n", sym_name(np)); return PCI_ERS_RESULT_DISCONNECT; } sym_start_up(shost, 1); } return PCI_ERS_RESULT_RECOVERED; } /** * sym2_io_resume() - resume normal ops after PCI reset * @pdev: pointer to PCI device * * Called when the error recovery driver tells us that its * OK to resume normal operation. Use completion to allow * halted scsi ops to resume. */ static void sym2_io_resume(struct pci_dev *pdev) { struct Scsi_Host *shost = pci_get_drvdata(pdev); struct sym_data *sym_data = shost_priv(shost); spin_lock_irq(shost->host_lock); if (sym_data->io_reset) complete(sym_data->io_reset); spin_unlock_irq(shost->host_lock); } static void sym2_get_signalling(struct Scsi_Host *shost) { struct sym_hcb *np = sym_get_hcb(shost); enum spi_signal_type type; switch (np->scsi_mode) { case SMODE_SE: type = SPI_SIGNAL_SE; break; case SMODE_LVD: type = SPI_SIGNAL_LVD; break; case SMODE_HVD: type = SPI_SIGNAL_HVD; break; default: type = SPI_SIGNAL_UNKNOWN; break; } spi_signalling(shost) = type; } static void sym2_set_offset(struct scsi_target *starget, int offset) { struct Scsi_Host *shost = dev_to_shost(starget->dev.parent); struct sym_hcb *np = sym_get_hcb(shost); struct sym_tcb *tp = &np->target[starget->id]; tp->tgoal.offset = offset; tp->tgoal.check_nego = 1; } static void sym2_set_period(struct scsi_target *starget, int period) { struct Scsi_Host *shost = dev_to_shost(starget->dev.parent); struct sym_hcb *np = sym_get_hcb(shost); struct sym_tcb *tp = &np->target[starget->id]; /* have to have DT for these transfers, but DT will also * set width, so check that this is allowed */ if (period <= np->minsync && spi_width(starget)) tp->tgoal.dt = 1; tp->tgoal.period = period; tp->tgoal.check_nego = 1; } static void sym2_set_width(struct scsi_target *starget, int width) { struct Scsi_Host *shost = dev_to_shost(starget->dev.parent); struct sym_hcb *np = sym_get_hcb(shost); struct sym_tcb *tp = &np->target[starget->id]; /* It is illegal to have DT set on narrow transfers. If DT is * clear, we must also clear IU and QAS. */ if (width == 0) tp->tgoal.iu = tp->tgoal.dt = tp->tgoal.qas = 0; tp->tgoal.width = width; tp->tgoal.check_nego = 1; } static void sym2_set_dt(struct scsi_target *starget, int dt) { struct Scsi_Host *shost = dev_to_shost(starget->dev.parent); struct sym_hcb *np = sym_get_hcb(shost); struct sym_tcb *tp = &np->target[starget->id]; /* We must clear QAS and IU if DT is clear */ if (dt) tp->tgoal.dt = 1; else tp->tgoal.iu = tp->tgoal.dt = tp->tgoal.qas = 0; tp->tgoal.check_nego = 1; } #if 0 static void sym2_set_iu(struct scsi_target *starget, int iu) { struct Scsi_Host *shost = dev_to_shost(starget->dev.parent); struct sym_hcb *np = sym_get_hcb(shost); struct sym_tcb *tp = &np->target[starget->id]; if (iu) tp->tgoal.iu = tp->tgoal.dt = 1; else tp->tgoal.iu = 0; tp->tgoal.check_nego = 1; } static void sym2_set_qas(struct scsi_target *starget, int qas) { struct Scsi_Host *shost = dev_to_shost(starget->dev.parent); struct sym_hcb *np = sym_get_hcb(shost); struct sym_tcb *tp = &np->target[starget->id]; if (qas) tp->tgoal.dt = tp->tgoal.qas = 1; else tp->tgoal.qas = 0; tp->tgoal.check_nego = 1; } #endif static struct spi_function_template sym2_transport_functions = { .set_offset = sym2_set_offset, .show_offset = 1, .set_period = sym2_set_period, .show_period = 1, .set_width = sym2_set_width, .show_width = 1, .set_dt = sym2_set_dt, .show_dt = 1, #if 0 .set_iu = sym2_set_iu, .show_iu = 1, .set_qas = sym2_set_qas, .show_qas = 1, #endif .get_signalling = sym2_get_signalling, }; static struct pci_device_id sym2_id_table[] = { { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_NCR_53C810, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL }, { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_NCR_53C820, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL }, /* new */ { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_NCR_53C825, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL }, { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_NCR_53C815, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL }, { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_LSI_53C810AP, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL }, /* new */ { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_NCR_53C860, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL }, { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_LSI_53C1510, PCI_ANY_ID, PCI_ANY_ID, PCI_CLASS_STORAGE_SCSI<<8, 0xffff00, 0UL }, { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_NCR_53C896, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL }, { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_NCR_53C895, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL }, { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_NCR_53C885, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL }, { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_NCR_53C875, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL }, { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_NCR_53C1510, PCI_ANY_ID, PCI_ANY_ID, PCI_CLASS_STORAGE_SCSI<<8, 0xffff00, 0UL }, /* new */ { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_LSI_53C895A, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL }, { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_LSI_53C875A, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL }, { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_LSI_53C1010_33, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL }, { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_LSI_53C1010_66, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL }, { PCI_VENDOR_ID_LSI_LOGIC, PCI_DEVICE_ID_NCR_53C875J, PCI_ANY_ID, PCI_ANY_ID, 0, 0, 0UL }, { 0, } }; MODULE_DEVICE_TABLE(pci, sym2_id_table); static const struct pci_error_handlers sym2_err_handler = { .error_detected = sym2_io_error_detected, .mmio_enabled = sym2_io_slot_dump, .slot_reset = sym2_io_slot_reset, .resume = sym2_io_resume, }; static struct pci_driver sym2_driver = { .name = NAME53C8XX, .id_table = sym2_id_table, .probe = sym2_probe, .remove = sym2_remove, .err_handler = &sym2_err_handler, }; static int __init sym2_init(void) { int error; sym2_setup_params(); sym2_transport_template = spi_attach_transport(&sym2_transport_functions); if (!sym2_transport_template) return -ENODEV; error = pci_register_driver(&sym2_driver); if (error) spi_release_transport(sym2_transport_template); return error; } static void __exit sym2_exit(void) { pci_unregister_driver(&sym2_driver); spi_release_transport(sym2_transport_template); } module_init(sym2_init); module_exit(sym2_exit); |