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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 1321 1322 1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337 1338 1339 1340 1341 1342 1343 1344 1345 1346 1347 1348 1349 1350 1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 1361 1362 1363 1364 1365 1366 1367 1368 1369 1370 1371 1372 1373 1374 1375 1376 1377 1378 1379 1380 1381 1382 1383 1384 1385 1386 1387 1388 1389 1390 1391 1392 1393 1394 1395 1396 1397 1398 1399 1400 1401 1402 1403 1404 1405 1406 1407 1408 1409 1410 1411 1412 1413 | /* $Id$ * * 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 <linux/types.h> #include <linux/slab.h> #include <linux/module.h> #include <linux/sched.h> #include <linux/interrupt.h> #include <asm/sn/sgi.h> #include <asm/delay.h> #include <asm/sn/intr.h> #include <asm/sn/sn2/sn_private.h> #include <asm/sn/sn2/shubio.h> #include <asm/sn/iograph.h> #include <asm/sn/invent.h> #include <asm/sn/hcl.h> #include <asm/sn/labelcl.h> #include <asm/sn/pci/bridge.h> #include <asm/sn/xtalk/xtalk_private.h> #include <asm/sn/simulator.h> /* #define DEBUG 1 */ /* #define XBOW_DEBUG 1 */ /* #define DEBUG_ERROR 1 */ #define kdebug 0 /* * Files needed to get the device driver entry points */ #include <asm/sn/xtalk/xbow.h> #include <asm/sn/xtalk/xtalk.h> #include <asm/sn/xtalk/xswitch.h> #include <asm/sn/xtalk/xwidget.h> #include <asm/sn/prio.h> #include <asm/sn/hcl_util.h> #define NEW(ptr) (ptr = kmalloc(sizeof (*(ptr)), GFP_KERNEL)) #define DEL(ptr) (kfree(ptr)) /* * This file supports the Xbow chip. Main functions: initializtion, * error handling, and GBR. */ /* * each vertex corresponding to an xbow chip * has a "fastinfo" pointer pointing at one * of these things. */ typedef struct xbow_soft_s *xbow_soft_t; 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_perf_t xbow_perfcnt[XBOW_PERF_COUNTERS]; xbow_perf_link_t xbow_perflink[MAX_XBOW_PORTS]; xbow_link_status_t xbow_link_status[MAX_XBOW_PORTS]; spinlock_t xbow_perf_lock; int link_monitor; 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. */ spinlock_t xbow_bw_alloc_lock; /* bw allocation lock */ 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) ((xbow_soft_t)hwgraph_fastinfo_get((v))) /* * Function Table of Contents */ void xbow_mlreset(xbow_t *); 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); void xbow_update_perf_counters(vertex_hdl_t); xbow_perf_link_t *xbow_get_perf_counters(vertex_hdl_t); int xbow_enable_perf_counter(vertex_hdl_t, int, int, int); xbow_link_status_t *xbow_get_llp_status(vertex_hdl_t); void xbow_update_llp_status(vertex_hdl_t); int xbow_disable_llp_monitor(vertex_hdl_t); int xbow_enable_llp_monitor(vertex_hdl_t); int xbow_prio_bw_alloc(vertex_hdl_t, xwidgetnum_t, xwidgetnum_t, unsigned long long, unsigned long long); 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 = 0; 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_NONCACHED | VM_RESERVED | VM_IO; error = io_remap_page_range(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, }; /* * xbow_mlreset: called at mlreset time if the * platform specific code determines that there is * a crossbow in a critical path that must be * functional before the driver would normally get * the device properly set up. * * what do we need to do, that the boot prom can * not be counted on to have already done, that is * generic across all platforms using crossbows? */ /*ARGSUSED */ void xbow_mlreset(xbow_t * xbow) { } #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; xbow_soft_t 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; static void xbow_errintr_handler(int, void *, struct pt_regs *); #if DEBUG && ATTACH_DEBUG #if defined(SUPPORT_PRINTING_V_FORMAT) printk("%v: xbow_attach\n", conn); #else printk("0x%x: xbow_attach\n", conn); #endif #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); /* * 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 devfs. * file ops. */ vhdl = NULL; vhdl = hwgraph_register(conn, EDGE_LBL_XBOW, 0, DEVFS_FL_AUTO_DEVNUM, 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 */ NEW(soft); 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); 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); spin_lock_init(&soft->xbow_perf_lock); soft->xbow_perfcnt[0].xp_perf_reg = &xbow->xb_perf_ctr_a; soft->xbow_perfcnt[1].xp_perf_reg = &xbow->xb_perf_ctr_b; /* Initialization for GBR bw allocation */ spin_lock_init(&soft->xbow_bw_alloc_lock); #define XBOW_8_BIT_PORT_BW_MAX (400 * 1000 * 1000) /* 400 MB/s */ #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_errors; int xbow_xmit_retry_error(xbow_soft_t 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); /* If this thing is not a Bridge, * do not activate the WAR, and * tell our caller we do not need * to be called again. */ if ((part != BRIDGE_WIDGET_PART_NUM) || (mfgr != BRIDGE_WIDGET_MFGR_NUM)) { /* FIXME: add Xbridge to the WAR. * Shouldn't hurt anything. Later need to * check if we can remove this. */ if ((part != XBRIDGE_WIDGET_PART_NUM) || (mfgr != XBRIDGE_WIDGET_MFGR_NUM)) return 0; } /* count how many times we * have picked up after * LLP Transmit problems. */ xbow_xmit_retry_errors++; /* rewrite the control register * to fix things up. */ wid->w_control = wid->w_control; wid->w_control; return 1; } /* * xbow_errintr_handler will be called if the xbow * sends an interrupt request to report an error. */ static void xbow_errintr_handler(int irq, void *arg, struct pt_regs *ep) { ioerror_t ioe[1]; xbow_soft_t soft = (xbow_soft_t) 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"); } } /* * 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; xbow_soft_t soft = (xbow_soft_t) 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; } void xbow_update_perf_counters(vertex_hdl_t vhdl) { xbow_soft_t xbow_soft = xbow_soft_get(vhdl); xbow_perf_t *xbow_perf = xbow_soft->xbow_perfcnt; xbow_perf_link_t *xbow_plink = xbow_soft->xbow_perflink; xbow_perfcount_t perf_reg; int link, i; for (i = 0; i < XBOW_PERF_COUNTERS; i++, xbow_perf++) { if (xbow_perf->xp_mode == XBOW_MONITOR_NONE) continue; spin_lock(&xbow_soft->xbow_perf_lock); perf_reg.xb_counter_val = *(xbowreg_t *) xbow_perf->xp_perf_reg; link = perf_reg.xb_perf.link_select; (xbow_plink + link)->xlp_cumulative[xbow_perf->xp_curmode] += ((perf_reg.xb_perf.count - xbow_perf->xp_current) & XBOW_COUNTER_MASK); xbow_perf->xp_current = perf_reg.xb_perf.count; spin_unlock(&xbow_soft->xbow_perf_lock); } } xbow_perf_link_t * xbow_get_perf_counters(vertex_hdl_t vhdl) { xbow_soft_t xbow_soft = xbow_soft_get(vhdl); xbow_perf_link_t *xbow_perf_link = xbow_soft->xbow_perflink; return xbow_perf_link; } int xbow_enable_perf_counter(vertex_hdl_t vhdl, int link, int mode, int counter) { xbow_soft_t xbow_soft = xbow_soft_get(vhdl); xbow_perf_t *xbow_perf = xbow_soft->xbow_perfcnt; xbow_linkctrl_t xbow_link_ctrl; xbow_t *xbow = xbow_soft->base; xbow_perfcount_t perf_reg; int i; link -= BASE_XBOW_PORT; if ((link < 0) || (link >= MAX_XBOW_PORTS)) return -1; if ((mode < XBOW_MONITOR_NONE) || (mode > XBOW_MONITOR_DEST_LINK)) return -1; if ((counter < 0) || (counter >= XBOW_PERF_COUNTERS)) return -1; spin_lock(&xbow_soft->xbow_perf_lock); if ((xbow_perf + counter)->xp_mode && mode) { spin_unlock(&xbow_soft->xbow_perf_lock); return -1; } for (i = 0; i < XBOW_PERF_COUNTERS; i++) { if (i == counter) continue; if (((xbow_perf + i)->xp_link == link) && ((xbow_perf + i)->xp_mode)) { spin_unlock(&xbow_soft->xbow_perf_lock); return -1; } } xbow_perf += counter; xbow_perf->xp_curlink = xbow_perf->xp_link = link; xbow_perf->xp_curmode = xbow_perf->xp_mode = mode; xbow_link_ctrl.xbl_ctrlword = xbow->xb_link_raw[link].link_control; xbow_link_ctrl.xb_linkcontrol.perf_mode = mode; xbow->xb_link_raw[link].link_control = xbow_link_ctrl.xbl_ctrlword; perf_reg.xb_counter_val = *(xbowreg_t *) xbow_perf->xp_perf_reg; perf_reg.xb_perf.link_select = link; *(xbowreg_t *) xbow_perf->xp_perf_reg = perf_reg.xb_counter_val; xbow_perf->xp_current = perf_reg.xb_perf.count; spin_unlock(&xbow_soft->xbow_perf_lock); return 0; } xbow_link_status_t * xbow_get_llp_status(vertex_hdl_t vhdl) { xbow_soft_t xbow_soft = xbow_soft_get(vhdl); xbow_link_status_t *xbow_llp_status = xbow_soft->xbow_link_status; return xbow_llp_status; } void xbow_update_llp_status(vertex_hdl_t vhdl) { xbow_soft_t xbow_soft = xbow_soft_get(vhdl); xbow_link_status_t *xbow_llp_status = xbow_soft->xbow_link_status; xbow_t *xbow; xbwX_stat_t lnk_sts; xbow_aux_link_status_t aux_sts; int link; vertex_hdl_t xwidget_vhdl; char *xwidget_name; xbow = (xbow_t *) xbow_soft->base; for (link = 0; link < MAX_XBOW_PORTS; link++, xbow_llp_status++) { /* Get the widget name corresponding the current link. * Note : 0 <= link < MAX_XBOW_PORTS(8). * BASE_XBOW_PORT(0x8) <= xwidget number < MAX_PORT_NUM (0x10) */ xwidget_vhdl = xbow_widget_lookup(xbow_soft->busv,link+BASE_XBOW_PORT); xwidget_name = xwidget_name_get(xwidget_vhdl); aux_sts.aux_linkstatus = xbow->xb_link_raw[link].link_aux_status; lnk_sts.linkstatus = xbow->xb_link_raw[link].link_status_clr; if (lnk_sts.link_alive == 0) continue; xbow_llp_status->rx_err_count += aux_sts.xb_aux_linkstatus.rx_err_cnt; xbow_llp_status->tx_retry_count += aux_sts.xb_aux_linkstatus.tx_retry_cnt; if (lnk_sts.linkstatus & ~(XB_STAT_RCV_ERR | XB_STAT_XMT_RTRY_ERR | XB_STAT_LINKALIVE)) { #ifdef LATER printk(KERN_WARNING "link %d[%s]: bad status 0x%x\n", link, xwidget_name, lnk_sts.linkstatus); #endif } } } int xbow_disable_llp_monitor(vertex_hdl_t vhdl) { xbow_soft_t xbow_soft = xbow_soft_get(vhdl); int port; for (port = 0; port < MAX_XBOW_PORTS; port++) { xbow_soft->xbow_link_status[port].rx_err_count = 0; xbow_soft->xbow_link_status[port].tx_retry_count = 0; } xbow_soft->link_monitor = 0; return 0; } int xbow_enable_llp_monitor(vertex_hdl_t vhdl) { xbow_soft_t xbow_soft = xbow_soft_get(vhdl); xbow_soft->link_monitor = 1; return 0; } 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 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; xbow_soft_t 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; } #define XBOW_ARB_RELOAD_TICKS 25 /* granularity: 4 MB/s, max: 124 MB/s */ #define GRANULARITY ((100 * 1000000) / XBOW_ARB_RELOAD_TICKS) #define XBOW_BYTES_TO_GBR(BYTES_per_s) (int) (BYTES_per_s / GRANULARITY) #define XBOW_GBR_TO_BYTES(cnt) (bandwidth_t) ((cnt) * GRANULARITY) #define CEILING_BYTES_TO_GBR(gbr, bytes_per_sec) \ ((XBOW_GBR_TO_BYTES(gbr) < bytes_per_sec) ? gbr+1 : gbr) #define XBOW_ARB_GBR_MAX 31 #define ABS(x) ((x > 0) ? (x) : (-1 * x)) /* absolute value */ int xbow_bytes_to_gbr(bandwidth_t old_bytes_per_sec, bandwidth_t bytes_per_sec) { int gbr_granted; int new_total_gbr; int change_gbr; bandwidth_t new_total_bw; #ifdef GRIO_DEBUG printk("xbow_bytes_to_gbr: old_bytes_per_sec %lld bytes_per_sec %lld\n", old_bytes_per_sec, bytes_per_sec); #endif /* GRIO_DEBUG */ gbr_granted = CEILING_BYTES_TO_GBR((XBOW_BYTES_TO_GBR(old_bytes_per_sec)), old_bytes_per_sec); new_total_bw = old_bytes_per_sec + bytes_per_sec; new_total_gbr = CEILING_BYTES_TO_GBR((XBOW_BYTES_TO_GBR(new_total_bw)), new_total_bw); change_gbr = new_total_gbr - gbr_granted; #ifdef GRIO_DEBUG printk("xbow_bytes_to_gbr: gbr_granted %d new_total_gbr %d change_gbr %d\n", gbr_granted, new_total_gbr, change_gbr); #endif /* GRIO_DEBUG */ return (change_gbr); } /* Conversion from GBR to bytes */ bandwidth_t xbow_gbr_to_bytes(int gbr) { return (XBOW_GBR_TO_BYTES(gbr)); } /* Given the vhdl for the desired xbow, the src and dest. widget ids * and the req_bw value, this xbow driver entry point accesses the * xbow registers and allocates the desired bandwidth if available. * * If bandwidth allocation is successful, return success else return failure. */ int xbow_prio_bw_alloc(vertex_hdl_t vhdl, xwidgetnum_t src_wid, xwidgetnum_t dest_wid, unsigned long long old_alloc_bw, unsigned long long req_bw) { xbow_soft_t soft = xbow_soft_get(vhdl); volatile xbowreg_t *xreg; xbowreg_t mask; int error = 0; bandwidth_t old_bw_BYTES, req_bw_BYTES; xbowreg_t old_xreg; int old_bw_GBR, req_bw_GBR, new_bw_GBR; #ifdef GRIO_DEBUG printk("xbow_prio_bw_alloc: vhdl %d src_wid %d dest_wid %d req_bw %lld\n", (int) vhdl, (int) src_wid, (int) dest_wid, req_bw); #endif ASSERT(XBOW_WIDGET_IS_VALID(src_wid)); ASSERT(XBOW_WIDGET_IS_VALID(dest_wid)); spin_lock(&soft->xbow_bw_alloc_lock); /* Get pointer to the correct register */ xreg = XBOW_PRIO_ARBREG_PTR(soft->base, dest_wid, src_wid); /* Get mask for GBR count value */ mask = XB_ARB_GBR_MSK << XB_ARB_GBR_SHFT(src_wid); req_bw_GBR = xbow_bytes_to_gbr(old_alloc_bw, req_bw); req_bw_BYTES = (req_bw_GBR < 0) ? (-1 * xbow_gbr_to_bytes(ABS(req_bw_GBR))) : xbow_gbr_to_bytes(req_bw_GBR); #ifdef GRIO_DEBUG printk("req_bw %lld req_bw_BYTES %lld req_bw_GBR %d\n", req_bw, req_bw_BYTES, req_bw_GBR); #endif /* GRIO_DEBUG */ old_bw_BYTES = soft->bw_cur_used[(int) dest_wid - MAX_XBOW_PORTS]; old_xreg = *xreg; old_bw_GBR = (((*xreg) & mask) >> XB_ARB_GBR_SHFT(src_wid)); #ifdef GRIO_DEBUG ASSERT(XBOW_BYTES_TO_GBR(old_bw_BYTES) == old_bw_GBR); printk("old_bw_BYTES %lld old_bw_GBR %d\n", old_bw_BYTES, old_bw_GBR); printk("req_bw_BYTES %lld old_bw_BYTES %lld soft->bw_hiwm %lld\n", req_bw_BYTES, old_bw_BYTES, soft->bw_hiwm[(int) dest_wid - MAX_XBOW_PORTS]); #endif /* GRIO_DEBUG */ /* Accept the request only if we don't exceed the destination * port HIWATER_MARK *AND* the max. link GBR arbitration count */ if (((old_bw_BYTES + req_bw_BYTES) <= soft->bw_hiwm[(int) dest_wid - MAX_XBOW_PORTS]) && (req_bw_GBR + old_bw_GBR <= XBOW_ARB_GBR_MAX)) { new_bw_GBR = (old_bw_GBR + req_bw_GBR); /* Set this in the xbow link register */ *xreg = (old_xreg & ~mask) | \ (new_bw_GBR << XB_ARB_GBR_SHFT(src_wid) & mask); soft->bw_cur_used[(int) dest_wid - MAX_XBOW_PORTS] = xbow_gbr_to_bytes(new_bw_GBR); } else { error = 1; } spin_unlock(&soft->xbow_bw_alloc_lock); return (error); } |