/* * This file is subject to the terms and conditions of the GNU General Public * License. See the file "COPYING" in the main directory of this archive * for more details. * * Copyright (c) 1992-1997,2000-2003 Silicon Graphics, Inc. All rights reserved. */ #include #include #include #include #include #include #include #include #include #include #include #include /* #define DEBUG 1 */ /* #define XBOW_DEBUG 1 */ #define kdebug 0 /* * This file supports the Xbow chip. Main functions: initializtion, * error handling. */ /* * each vertex corresponding to an xbow chip * has a "fastinfo" pointer pointing at one * of these things. */ struct xbow_soft_s { vertex_hdl_t conn; /* our connection point */ vertex_hdl_t vhdl; /* xbow's private vertex */ vertex_hdl_t busv; /* the xswitch vertex */ xbow_t *base; /* PIO pointer to crossbow chip */ char *name; /* hwgraph name */ xbow_link_status_t xbow_link_status[MAX_XBOW_PORTS]; widget_cfg_t *wpio[MAX_XBOW_PORTS]; /* cached PIO pointer */ /* Bandwidth allocation state. Bandwidth values are for the * destination port since contention happens there. * Implicit mapping from xbow ports (8..f) -> (0..7) array indices. */ unsigned long long bw_hiwm[MAX_XBOW_PORTS]; /* hiwater mark values */ unsigned long long bw_cur_used[MAX_XBOW_PORTS]; /* bw used currently */ }; #define xbow_soft_set(v,i) hwgraph_fastinfo_set((v), (arbitrary_info_t)(i)) #define xbow_soft_get(v) ((struct xbow_soft_s *)hwgraph_fastinfo_get((v))) /* * Function Table of Contents */ int xbow_attach(vertex_hdl_t); int xbow_widget_present(xbow_t *, int); static int xbow_link_alive(xbow_t *, int); vertex_hdl_t xbow_widget_lookup(vertex_hdl_t, int); void xbow_intr_preset(void *, int, xwidgetnum_t, iopaddr_t, xtalk_intr_vector_t); static void xbow_setwidint(xtalk_intr_t); xswitch_reset_link_f xbow_reset_link; xswitch_provider_t xbow_provider = { xbow_reset_link, }; static int xbow_mmap(struct file * file, struct vm_area_struct * vma) { unsigned long phys_addr; int error; phys_addr = (unsigned long)file->private_data & ~0xc000000000000000; /* Mask out the Uncache bits */ vma->vm_page_prot = pgprot_noncached(vma->vm_page_prot); vma->vm_flags |= VM_RESERVED | VM_IO; error = io_remap_page_range(vma, vma->vm_start, phys_addr, vma->vm_end-vma->vm_start, vma->vm_page_prot); return(error); } /* * This is the file operation table for the pcibr driver. * As each of the functions are implemented, put the * appropriate function name below. */ struct file_operations xbow_fops = { .owner = THIS_MODULE, .mmap = xbow_mmap, }; #ifdef XBRIDGE_REGS_SIM /* xbow_set_simulated_regs: sets xbow regs as needed * for powering through the boot */ void xbow_set_simulated_regs(xbow_t *xbow, int port) { /* * turn on link */ xbow->xb_link(port).link_status = (1<<31); /* * and give it a live widget too */ xbow->xb_link(port).link_aux_status = XB_AUX_STAT_PRESENT; /* * zero the link control reg */ xbow->xb_link(port).link_control = 0x0; } #endif /* XBRIDGE_REGS_SIM */ /* * xbow_attach: the crosstalk provider has * determined that there is a crossbow widget * present, and has handed us the connection * point for that vertex. * * We not only add our own vertex, but add * some "xtalk switch" data to the switch * vertex (at the connect point's parent) if * it does not have any. */ /*ARGSUSED */ int xbow_attach(vertex_hdl_t conn) { /*REFERENCED */ vertex_hdl_t vhdl; vertex_hdl_t busv; xbow_t *xbow; struct xbow_soft_s *soft; int port; xswitch_info_t info; xtalk_intr_t intr_hdl; char devnm[MAXDEVNAME], *s; xbowreg_t id; int rev; int i; int xbow_num; #if DEBUG && ATTACH_DEBUG char name[MAXDEVNAME]; #endif static irqreturn_t xbow_errintr_handler(int, void *, struct pt_regs *); #if DEBUG && ATTACH_DEBUG printk("%s: xbow_attach\n", vertex_to_name(conn, name, MAXDEVNAME)); #endif /* * Get a PIO pointer to the base of the crossbow * chip. */ #ifdef XBRIDGE_REGS_SIM printk("xbow_attach: XBRIDGE_REGS_SIM FIXME: allocating %ld bytes for xbow_s\n", sizeof(xbow_t)); xbow = (xbow_t *) kmalloc(sizeof(xbow_t), GFP_KERNEL); if (!xbow) return -ENOMEM; /* * turn on ports e and f like in a real live ibrick */ xbow_set_simulated_regs(xbow, 0xe); xbow_set_simulated_regs(xbow, 0xf); #else xbow = (xbow_t *) xtalk_piotrans_addr(conn, 0, 0, sizeof(xbow_t), 0); #endif /* XBRIDGE_REGS_SIM */ /* * Locate the "switch" vertex: it is the parent * of our connection point. */ busv = hwgraph_connectpt_get(conn); #if DEBUG && ATTACH_DEBUG printk("xbow_attach: Bus Vertex 0x%p, conn 0x%p, xbow register 0x%p wid= 0x%x\n", busv, conn, xbow, *(volatile u32 *)xbow); #endif ASSERT(busv != GRAPH_VERTEX_NONE); /* * Create our private vertex, and connect our * driver information to it. This makes it possible * for diagnostic drivers to open the crossbow * vertex for access to registers. */ /* * Register a xbow driver with hwgraph. * file ops. */ vhdl = hwgraph_register(conn, EDGE_LBL_XBOW, 0, 0, 0, 0, S_IFCHR | S_IRUSR | S_IWUSR | S_IRGRP, 0, 0, (struct file_operations *)&xbow_fops, (void *)xbow); if (!vhdl) { printk(KERN_WARNING "xbow_attach: Unable to create char device for xbow conn %p\n", (void *)conn); } /* * Allocate the soft state structure and attach * it to the xbow's vertex */ soft = kmalloc(sizeof(*soft), GFP_KERNEL); if (!soft) return -ENOMEM; soft->conn = conn; soft->vhdl = vhdl; soft->busv = busv; soft->base = xbow; /* does the universe really need another macro? */ /* xbow_soft_set(vhdl, (arbitrary_info_t) soft); */ /* hwgraph_fastinfo_set(vhdl, (arbitrary_info_t) soft); */ #define XBOW_NUM_SUFFIX_FORMAT "[xbow# %d]" /* Add xbow number as a suffix to the hwgraph name of the xbow. * This is helpful while looking at the error/warning messages. */ xbow_num = 0; /* * get the name of this xbow vertex and keep the info. * This is needed during errors and interupts, but as * long as we have it, we can use it elsewhere. */ s = dev_to_name(vhdl, devnm, MAXDEVNAME); soft->name = kmalloc(strlen(s) + strlen(XBOW_NUM_SUFFIX_FORMAT) + 1, GFP_KERNEL); if (!soft->name) { kfree(soft); return -ENOMEM; } sprintf(soft->name,"%s"XBOW_NUM_SUFFIX_FORMAT, s,xbow_num); #ifdef XBRIDGE_REGS_SIM /* my o200/ibrick has id=0x2d002049, but XXBOW_WIDGET_PART_NUM is defined * as 0xd000, so I'm using that for the partnum bitfield. */ printk("xbow_attach: XBRIDGE_REGS_SIM FIXME: need xb_wid_id value!!\n"); id = 0x2d000049; #else id = xbow->xb_wid_id; #endif /* XBRIDGE_REGS_SIM */ rev = XWIDGET_PART_REV_NUM(id); #define XBOW_16_BIT_PORT_BW_MAX (800 * 1000 * 1000) /* 800 MB/s */ /* Set bandwidth hiwatermark and current values */ for (i = 0; i < MAX_XBOW_PORTS; i++) { soft->bw_hiwm[i] = XBOW_16_BIT_PORT_BW_MAX; /* for now */ soft->bw_cur_used[i] = 0; } /* * attach the crossbow error interrupt. */ intr_hdl = xtalk_intr_alloc(conn, (device_desc_t)0, vhdl); ASSERT(intr_hdl != NULL); { int irq = ((hub_intr_t)intr_hdl)->i_bit; int cpu = ((hub_intr_t)intr_hdl)->i_cpuid; intr_unreserve_level(cpu, irq); ((hub_intr_t)intr_hdl)->i_bit = SGI_XBOW_ERROR; } xtalk_intr_connect(intr_hdl, (intr_func_t) xbow_errintr_handler, (intr_arg_t) soft, (xtalk_intr_setfunc_t) xbow_setwidint, (void *) xbow); request_irq(SGI_XBOW_ERROR, (void *)xbow_errintr_handler, SA_SHIRQ, "XBOW error", (intr_arg_t) soft); /* * Enable xbow error interrupts */ xbow->xb_wid_control = (XB_WID_CTRL_REG_ACC_IE | XB_WID_CTRL_XTALK_IE); /* * take a census of the widgets present, * leaving notes at the switch vertex. */ info = xswitch_info_new(busv); for (port = MAX_PORT_NUM - MAX_XBOW_PORTS; port < MAX_PORT_NUM; ++port) { if (!xbow_link_alive(xbow, port)) { #if DEBUG && XBOW_DEBUG printk(KERN_INFO "0x%p link %d is not alive\n", (void *)busv, port); #endif continue; } if (!xbow_widget_present(xbow, port)) { #if DEBUG && XBOW_DEBUG printk(KERN_INFO "0x%p link %d is alive but no widget is present\n", (void *)busv, port); #endif continue; } #if DEBUG && XBOW_DEBUG printk(KERN_INFO "0x%p link %d has a widget\n", (void *)busv, port); #endif xswitch_info_link_is_ok(info, port); /* * Turn some error interrupts on * and turn others off. The PROM has * some things turned on we don't * want to see (bandwidth allocation * errors for instance); so if it * is not listed here, it is not on. */ xbow->xb_link(port).link_control = ( (xbow->xb_link(port).link_control /* * Turn off these bits; they are non-fatal, * but we might want to save some statistics * on the frequency of these errors. * XXX FIXME XXX */ & ~XB_CTRL_RCV_CNT_OFLOW_IE & ~XB_CTRL_XMT_CNT_OFLOW_IE & ~XB_CTRL_BNDWDTH_ALLOC_IE & ~XB_CTRL_RCV_IE) /* * These are the ones we want to turn on. */ | (XB_CTRL_ILLEGAL_DST_IE | XB_CTRL_OALLOC_IBUF_IE | XB_CTRL_XMT_MAX_RTRY_IE | XB_CTRL_MAXREQ_TOUT_IE | XB_CTRL_XMT_RTRY_IE | XB_CTRL_SRC_TOUT_IE) ); } xswitch_provider_register(busv, &xbow_provider); return 0; /* attach successful */ } /* * xbow_widget_present: See if a device is present * on the specified port of this crossbow. */ int xbow_widget_present(xbow_t *xbow, int port) { if ( IS_RUNNING_ON_SIMULATOR() ) { if ( (port == 14) || (port == 15) ) { return 1; } else { return 0; } } else { /* WAR: port 0xf on PIC is missing present bit */ if (XBOW_WAR_ENABLED(PV854827, xbow->xb_wid_id) && IS_PIC_XBOW(xbow->xb_wid_id) && port==0xf) { return 1; } else if ( IS_PIC_XBOW(xbow->xb_wid_id) && port==0xb ) { /* for opus the present bit doesn't work on port 0xb */ return 1; } return xbow->xb_link(port).link_aux_status & XB_AUX_STAT_PRESENT; } } static int xbow_link_alive(xbow_t * xbow, int port) { xbwX_stat_t xbow_linkstat; xbow_linkstat.linkstatus = xbow->xb_link(port).link_status; return (xbow_linkstat.link_alive); } /* * xbow_widget_lookup * Lookup the edges connected to the xbow specified, and * retrieve the handle corresponding to the widgetnum * specified. * If not found, return 0. */ vertex_hdl_t xbow_widget_lookup(vertex_hdl_t vhdl, int widgetnum) { xswitch_info_t xswitch_info; vertex_hdl_t conn; xswitch_info = xswitch_info_get(vhdl); conn = xswitch_info_vhdl_get(xswitch_info, widgetnum); return conn; } /* * xbow_setwidint: called when xtalk * is establishing or migrating our * interrupt service. */ static void xbow_setwidint(xtalk_intr_t intr) { xwidgetnum_t targ = xtalk_intr_target_get(intr); iopaddr_t addr = xtalk_intr_addr_get(intr); xtalk_intr_vector_t vect = xtalk_intr_vector_get(intr); xbow_t *xbow = (xbow_t *) xtalk_intr_sfarg_get(intr); xbow_intr_preset((void *) xbow, 0, targ, addr, vect); } /* * xbow_intr_preset: called during mlreset time * if the platform specific code needs to route * an xbow interrupt before the xtalk infrastructure * is available for use. * * Also called from xbow_setwidint, so we don't * replicate the guts of the routine. * * XXX- probably should be renamed xbow_wid_intr_set or * something to reduce confusion. */ /*ARGSUSED3 */ void xbow_intr_preset(void *which_widget, int which_widget_intr, xwidgetnum_t targ, iopaddr_t addr, xtalk_intr_vector_t vect) { xbow_t *xbow = (xbow_t *) which_widget; xbow->xb_wid_int_upper = ((0xFF000000 & (vect << 24)) | (0x000F0000 & (targ << 16)) | XTALK_ADDR_TO_UPPER(addr)); xbow->xb_wid_int_lower = XTALK_ADDR_TO_LOWER(addr); } #define XEM_ADD_STR(s) printk("%s", (s)) #define XEM_ADD_NVAR(n,v) printk("\t%20s: 0x%llx\n", (n), ((unsigned long long)v)) #define XEM_ADD_VAR(v) XEM_ADD_NVAR(#v,(v)) #define XEM_ADD_IOEF(p,n) if (IOERROR_FIELDVALID(ioe,n)) { \ IOERROR_GETVALUE(p,ioe,n); \ XEM_ADD_NVAR("ioe." #n, p); \ } int xbow_xmit_retry_error(struct xbow_soft_s *soft, int port) { xswitch_info_t info; vertex_hdl_t vhdl; widget_cfg_t *wid; widgetreg_t id; int part; int mfgr; wid = soft->wpio[port - BASE_XBOW_PORT]; if (wid == NULL) { /* If we can't track down a PIO * pointer to our widget yet, * leave our caller knowing that * we are interested in this * interrupt if it occurs in * the future. */ info = xswitch_info_get(soft->busv); if (!info) return 1; vhdl = xswitch_info_vhdl_get(info, port); if (vhdl == GRAPH_VERTEX_NONE) return 1; wid = (widget_cfg_t *) xtalk_piotrans_addr (vhdl, 0, 0, sizeof *wid, 0); if (!wid) return 1; soft->wpio[port - BASE_XBOW_PORT] = wid; } id = wid->w_id; part = XWIDGET_PART_NUM(id); mfgr = XWIDGET_MFG_NUM(id); return 0; } /* * xbow_errintr_handler will be called if the xbow * sends an interrupt request to report an error. */ static irqreturn_t xbow_errintr_handler(int irq, void *arg, struct pt_regs *ep) { ioerror_t ioe[1]; struct xbow_soft_s *soft = (struct xbow_soft_s *)arg; xbow_t *xbow = soft->base; xbowreg_t wid_control; xbowreg_t wid_stat; xbowreg_t wid_err_cmdword; xbowreg_t wid_err_upper; xbowreg_t wid_err_lower; w_err_cmd_word_u wid_err; unsigned long long wid_err_addr; int fatal = 0; int dump_ioe = 0; static int xbow_error_handler(void *, int, ioerror_mode_t, ioerror_t *); wid_control = xbow->xb_wid_control; wid_stat = xbow->xb_wid_stat_clr; wid_err_cmdword = xbow->xb_wid_err_cmdword; wid_err_upper = xbow->xb_wid_err_upper; wid_err_lower = xbow->xb_wid_err_lower; xbow->xb_wid_err_cmdword = 0; wid_err_addr = wid_err_lower | (((iopaddr_t) wid_err_upper & WIDGET_ERR_UPPER_ADDR_ONLY) << 32); if (wid_stat & XB_WID_STAT_LINK_INTR_MASK) { int port; wid_err.r = wid_err_cmdword; for (port = MAX_PORT_NUM - MAX_XBOW_PORTS; port < MAX_PORT_NUM; port++) { if (wid_stat & XB_WID_STAT_LINK_INTR(port)) { xb_linkregs_t *link = &(xbow->xb_link(port)); xbowreg_t link_control = link->link_control; xbowreg_t link_status = link->link_status_clr; xbowreg_t link_aux_status = link->link_aux_status; xbowreg_t link_pend; link_pend = link_status & link_control & (XB_STAT_ILLEGAL_DST_ERR | XB_STAT_OALLOC_IBUF_ERR | XB_STAT_RCV_CNT_OFLOW_ERR | XB_STAT_XMT_CNT_OFLOW_ERR | XB_STAT_XMT_MAX_RTRY_ERR | XB_STAT_RCV_ERR | XB_STAT_XMT_RTRY_ERR | XB_STAT_MAXREQ_TOUT_ERR | XB_STAT_SRC_TOUT_ERR ); if (link_pend & XB_STAT_ILLEGAL_DST_ERR) { if (wid_err.f.sidn == port) { IOERROR_INIT(ioe); IOERROR_SETVALUE(ioe, widgetnum, port); IOERROR_SETVALUE(ioe, xtalkaddr, wid_err_addr); if (IOERROR_HANDLED == xbow_error_handler(soft, IOECODE_DMA, MODE_DEVERROR, ioe)) { link_pend &= ~XB_STAT_ILLEGAL_DST_ERR; } else { dump_ioe++; } } } /* Xbow/Bridge WAR: * if the bridge signals an LLP Transmitter Retry, * rewrite its control register. * If someone else triggers this interrupt, * ignore (and disable) the interrupt. */ if (link_pend & XB_STAT_XMT_RTRY_ERR) { if (!xbow_xmit_retry_error(soft, port)) { link_control &= ~XB_CTRL_XMT_RTRY_IE; link->link_control = link_control; link->link_control; /* stall until written */ } link_pend &= ~XB_STAT_XMT_RTRY_ERR; } if (link_pend) { vertex_hdl_t xwidget_vhdl; char *xwidget_name; /* Get the widget name corresponding to the current * xbow link. */ xwidget_vhdl = xbow_widget_lookup(soft->busv,port); xwidget_name = xwidget_name_get(xwidget_vhdl); printk("%s port %X[%s] XIO Bus Error", soft->name, port, xwidget_name); if (link_status & XB_STAT_MULTI_ERR) XEM_ADD_STR("\tMultiple Errors\n"); if (link_status & XB_STAT_ILLEGAL_DST_ERR) XEM_ADD_STR("\tInvalid Packet Destination\n"); if (link_status & XB_STAT_OALLOC_IBUF_ERR) XEM_ADD_STR("\tInput Overallocation Error\n"); if (link_status & XB_STAT_RCV_CNT_OFLOW_ERR) XEM_ADD_STR("\tLLP receive error counter overflow\n"); if (link_status & XB_STAT_XMT_CNT_OFLOW_ERR) XEM_ADD_STR("\tLLP transmit retry counter overflow\n"); if (link_status & XB_STAT_XMT_MAX_RTRY_ERR) XEM_ADD_STR("\tLLP Max Transmitter Retry\n"); if (link_status & XB_STAT_RCV_ERR) XEM_ADD_STR("\tLLP Receiver error\n"); if (link_status & XB_STAT_XMT_RTRY_ERR) XEM_ADD_STR("\tLLP Transmitter Retry\n"); if (link_status & XB_STAT_MAXREQ_TOUT_ERR) XEM_ADD_STR("\tMaximum Request Timeout\n"); if (link_status & XB_STAT_SRC_TOUT_ERR) XEM_ADD_STR("\tSource Timeout Error\n"); { int other_port; for (other_port = 8; other_port < 16; ++other_port) { if (link_aux_status & (1 << other_port)) { /* XXX- need to go to "other_port" * and clean up after the timeout? */ XEM_ADD_VAR(other_port); } } } #if !DEBUG if (kdebug) { #endif XEM_ADD_VAR(link_control); XEM_ADD_VAR(link_status); XEM_ADD_VAR(link_aux_status); #if !DEBUG } #endif fatal++; } } } } if (wid_stat & wid_control & XB_WID_STAT_WIDGET0_INTR) { /* we have a "widget zero" problem */ if (wid_stat & (XB_WID_STAT_MULTI_ERR | XB_WID_STAT_XTALK_ERR | XB_WID_STAT_REG_ACC_ERR)) { printk("%s Port 0 XIO Bus Error", soft->name); if (wid_stat & XB_WID_STAT_MULTI_ERR) XEM_ADD_STR("\tMultiple Error\n"); if (wid_stat & XB_WID_STAT_XTALK_ERR) XEM_ADD_STR("\tXIO Error\n"); if (wid_stat & XB_WID_STAT_REG_ACC_ERR) XEM_ADD_STR("\tRegister Access Error\n"); fatal++; } } if (fatal) { XEM_ADD_VAR(wid_stat); XEM_ADD_VAR(wid_control); XEM_ADD_VAR(wid_err_cmdword); XEM_ADD_VAR(wid_err_upper); XEM_ADD_VAR(wid_err_lower); XEM_ADD_VAR(wid_err_addr); panic("XIO Bus Error"); } return IRQ_HANDLED; } /* * XBOW ERROR Handling routines. * These get invoked as part of walking down the error handling path * from hub/heart towards the I/O device that caused the error. */ /* * xbow_error_handler * XBow error handling dispatch routine. * This is the primary interface used by external world to invoke * in case of an error related to a xbow. * Only functionality in this layer is to identify the widget handle * given the widgetnum. Otherwise, xbow does not gathers any error * data. */ static int xbow_error_handler( void *einfo, int error_code, ioerror_mode_t mode, ioerror_t *ioerror) { int retval = IOERROR_WIDGETLEVEL; struct xbow_soft_s *soft = (struct xbow_soft_s *) einfo; int port; vertex_hdl_t conn; vertex_hdl_t busv; xbow_t *xbow = soft->base; xbowreg_t wid_stat; xbowreg_t wid_err_cmdword; xbowreg_t wid_err_upper; xbowreg_t wid_err_lower; unsigned long long wid_err_addr; xb_linkregs_t *link; xbowreg_t link_control; xbowreg_t link_status; xbowreg_t link_aux_status; ASSERT(soft != 0); busv = soft->busv; #if DEBUG && ERROR_DEBUG printk("%s: xbow_error_handler\n", soft->name, busv); #endif IOERROR_GETVALUE(port, ioerror, widgetnum); if (port == 0) { /* error during access to xbow: * do NOT attempt to access xbow regs. */ if (mode == MODE_DEVPROBE) return IOERROR_HANDLED; if (error_code & IOECODE_DMA) { printk(KERN_ALERT "DMA error blamed on Crossbow at %s\n" "\tbut Crosbow never initiates DMA!", soft->name); } if (error_code & IOECODE_PIO) { iopaddr_t tmp; IOERROR_GETVALUE(tmp, ioerror, xtalkaddr); printk(KERN_ALERT "PIO Error on XIO Bus %s\n" "\tattempting to access XIO controller\n" "\twith offset 0x%lx", soft->name, tmp); } /* caller will dump contents of ioerror * in DEBUG and kdebug kernels. */ return retval; } /* * error not on port zero: * safe to read xbow registers. */ wid_stat = xbow->xb_wid_stat; wid_err_cmdword = xbow->xb_wid_err_cmdword; wid_err_upper = xbow->xb_wid_err_upper; wid_err_lower = xbow->xb_wid_err_lower; wid_err_addr = wid_err_lower | (((iopaddr_t) wid_err_upper & WIDGET_ERR_UPPER_ADDR_ONLY) << 32); if ((port < BASE_XBOW_PORT) || (port >= MAX_PORT_NUM)) { if (mode == MODE_DEVPROBE) return IOERROR_HANDLED; if (error_code & IOECODE_DMA) { printk(KERN_ALERT "DMA error blamed on XIO port at %s/%d\n" "\tbut Crossbow does not support that port", soft->name, port); } if (error_code & IOECODE_PIO) { iopaddr_t tmp; IOERROR_GETVALUE(tmp, ioerror, xtalkaddr); printk(KERN_ALERT "PIO Error on XIO Bus %s\n" "\tattempting to access XIO port %d\n" "\t(which Crossbow does not support)" "\twith offset 0x%lx", soft->name, port, tmp); } #if !DEBUG if (kdebug) { #endif XEM_ADD_STR("Raw status values for Crossbow:\n"); XEM_ADD_VAR(wid_stat); XEM_ADD_VAR(wid_err_cmdword); XEM_ADD_VAR(wid_err_upper); XEM_ADD_VAR(wid_err_lower); XEM_ADD_VAR(wid_err_addr); #if !DEBUG } #endif /* caller will dump contents of ioerror * in DEBUG and kdebug kernels. */ return retval; } /* access to valid port: * ok to check port status. */ link = &(xbow->xb_link(port)); link_control = link->link_control; link_status = link->link_status; link_aux_status = link->link_aux_status; /* Check that there is something present * in that XIO port. */ /* WAR: PIC widget 0xf is missing prescense bit */ if (XBOW_WAR_ENABLED(PV854827, xbow->xb_wid_id) && IS_PIC_XBOW(xbow->xb_wid_id) && (port==0xf)) ; else if (IS_PIC_XBOW(xbow->xb_wid_id) && (port==0xb)) ; /* WAR for opus this is missing on 0xb */ else if (!(link_aux_status & XB_AUX_STAT_PRESENT)) { /* nobody connected. */ if (mode == MODE_DEVPROBE) return IOERROR_HANDLED; if (error_code & IOECODE_DMA) { printk(KERN_ALERT "DMA error blamed on XIO port at %s/%d\n" "\tbut there is no device connected there.", soft->name, port); } if (error_code & IOECODE_PIO) { iopaddr_t tmp; IOERROR_GETVALUE(tmp, ioerror, xtalkaddr); printk(KERN_ALERT "PIO Error on XIO Bus %s\n" "\tattempting to access XIO port %d\n" "\t(which has no device connected)" "\twith offset 0x%lx", soft->name, port, tmp); } #if !DEBUG if (kdebug) { #endif XEM_ADD_STR("Raw status values for Crossbow:\n"); XEM_ADD_VAR(wid_stat); XEM_ADD_VAR(wid_err_cmdword); XEM_ADD_VAR(wid_err_upper); XEM_ADD_VAR(wid_err_lower); XEM_ADD_VAR(wid_err_addr); XEM_ADD_VAR(port); XEM_ADD_VAR(link_control); XEM_ADD_VAR(link_status); XEM_ADD_VAR(link_aux_status); #if !DEBUG } #endif return retval; } /* Check that the link is alive. */ if (!(link_status & XB_STAT_LINKALIVE)) { iopaddr_t tmp; /* nobody connected. */ if (mode == MODE_DEVPROBE) return IOERROR_HANDLED; printk(KERN_ALERT "%s%sError on XIO Bus %s port %d", (error_code & IOECODE_DMA) ? "DMA " : "", (error_code & IOECODE_PIO) ? "PIO " : "", soft->name, port); IOERROR_GETVALUE(tmp, ioerror, xtalkaddr); if ((error_code & IOECODE_PIO) && (IOERROR_FIELDVALID(ioerror, xtalkaddr))) { printk("\tAccess attempted to offset 0x%lx\n", tmp); } if (link_aux_status & XB_AUX_LINKFAIL_RST_BAD) XEM_ADD_STR("\tLink never came out of reset\n"); else XEM_ADD_STR("\tLink failed while transferring data\n"); } /* get the connection point for the widget * involved in this error; if it exists and * is not our connectpoint, cycle back through * xtalk_error_handler to deliver control to * the proper handler (or to report a generic * crosstalk error). * * If the downstream handler won't handle * the problem, we let our upstream caller * deal with it, after (in DEBUG and kdebug * kernels) dumping the xbow state for this * port. */ conn = xbow_widget_lookup(busv, port); if ((conn != GRAPH_VERTEX_NONE) && (conn != soft->conn)) { retval = xtalk_error_handler(conn, error_code, mode, ioerror); if (retval == IOERROR_HANDLED) return IOERROR_HANDLED; } if (mode == MODE_DEVPROBE) return IOERROR_HANDLED; if (retval == IOERROR_UNHANDLED) { iopaddr_t tmp; retval = IOERROR_PANIC; printk(KERN_ALERT "%s%sError on XIO Bus %s port %d", (error_code & IOECODE_DMA) ? "DMA " : "", (error_code & IOECODE_PIO) ? "PIO " : "", soft->name, port); IOERROR_GETVALUE(tmp, ioerror, xtalkaddr); if ((error_code & IOECODE_PIO) && (IOERROR_FIELDVALID(ioerror, xtalkaddr))) { printk("\tAccess attempted to offset 0x%lx\n", tmp); } } #if !DEBUG if (kdebug) { #endif XEM_ADD_STR("Raw status values for Crossbow:\n"); XEM_ADD_VAR(wid_stat); XEM_ADD_VAR(wid_err_cmdword); XEM_ADD_VAR(wid_err_upper); XEM_ADD_VAR(wid_err_lower); XEM_ADD_VAR(wid_err_addr); XEM_ADD_VAR(port); XEM_ADD_VAR(link_control); XEM_ADD_VAR(link_status); XEM_ADD_VAR(link_aux_status); #if !DEBUG } #endif /* caller will dump raw ioerror data * in DEBUG and kdebug kernels. */ return retval; } int xbow_reset_link(vertex_hdl_t xconn_vhdl) { xwidget_info_t widget_info; xwidgetnum_t port; xbow_t *xbow; xbowreg_t ctrl; xbwX_stat_t stat; unsigned long itick; unsigned int dtick; static long ticks_to_wait = HZ / 1000; widget_info = xwidget_info_get(xconn_vhdl); port = xwidget_info_id_get(widget_info); #ifdef XBOW_K1PTR /* defined if we only have one xbow ... */ xbow = XBOW_K1PTR; #else { vertex_hdl_t xbow_vhdl; struct xbow_soft_s *xbow_soft; hwgraph_traverse(xconn_vhdl, ".master/xtalk/0/xbow", &xbow_vhdl); xbow_soft = xbow_soft_get(xbow_vhdl); xbow = xbow_soft->base; } #endif /* * This requires three PIOs (reset the link, check for the * reset, restore the control register for the link) plus * 10us to wait for the reset. We allow up to 1ms for the * widget to come out of reset before giving up and * returning a failure. */ ctrl = xbow->xb_link(port).link_control; xbow->xb_link(port).link_reset = 0; itick = jiffies; while (1) { stat.linkstatus = xbow->xb_link(port).link_status; if (stat.link_alive) break; dtick = jiffies - itick; if (dtick > ticks_to_wait) { return -1; /* never came out of reset */ } udelay(2); /* don't beat on link_status */ } xbow->xb_link(port).link_control = ctrl; return 0; }