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Current File : //usr/src/cddl/contrib/opensolaris/lib/libdtrace/common/dt_handle.c |
/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include <stddef.h> #include <stdlib.h> #include <strings.h> #include <errno.h> #include <unistd.h> #include <assert.h> #if defined(sun) #include <alloca.h> #endif #include <dt_impl.h> #include <dt_program.h> static const char _dt_errprog[] = "dtrace:::ERROR" "{" " trace(arg1);" " trace(arg2);" " trace(arg3);" " trace(arg4);" " trace(arg5);" "}"; int dtrace_handle_err(dtrace_hdl_t *dtp, dtrace_handle_err_f *hdlr, void *arg) { dtrace_prog_t *pgp = NULL; dt_stmt_t *stp; dtrace_ecbdesc_t *edp; /* * We don't currently support multiple error handlers. */ if (dtp->dt_errhdlr != NULL) return (dt_set_errno(dtp, EALREADY)); /* * If the DTRACEOPT_GRABANON is enabled, the anonymous enabling will * already have a dtrace:::ERROR probe enabled; save 'hdlr' and 'arg' * but do not bother compiling and enabling _dt_errprog. */ if (dtp->dt_options[DTRACEOPT_GRABANON] != DTRACEOPT_UNSET) goto out; if ((pgp = dtrace_program_strcompile(dtp, _dt_errprog, DTRACE_PROBESPEC_NAME, DTRACE_C_ZDEFS, 0, NULL)) == NULL) return (dt_set_errno(dtp, dtrace_errno(dtp))); stp = dt_list_next(&pgp->dp_stmts); assert(stp != NULL); edp = stp->ds_desc->dtsd_ecbdesc; assert(edp != NULL); edp->dted_uarg = DT_ECB_ERROR; out: dtp->dt_errhdlr = hdlr; dtp->dt_errarg = arg; dtp->dt_errprog = pgp; return (0); } int dtrace_handle_drop(dtrace_hdl_t *dtp, dtrace_handle_drop_f *hdlr, void *arg) { if (dtp->dt_drophdlr != NULL) return (dt_set_errno(dtp, EALREADY)); dtp->dt_drophdlr = hdlr; dtp->dt_droparg = arg; return (0); } int dtrace_handle_proc(dtrace_hdl_t *dtp, dtrace_handle_proc_f *hdlr, void *arg) { if (dtp->dt_prochdlr != NULL) return (dt_set_errno(dtp, EALREADY)); dtp->dt_prochdlr = hdlr; dtp->dt_procarg = arg; return (0); } int dtrace_handle_buffered(dtrace_hdl_t *dtp, dtrace_handle_buffered_f *hdlr, void *arg) { if (dtp->dt_bufhdlr != NULL) return (dt_set_errno(dtp, EALREADY)); if (hdlr == NULL) return (dt_set_errno(dtp, EINVAL)); dtp->dt_bufhdlr = hdlr; dtp->dt_bufarg = arg; return (0); } int dtrace_handle_setopt(dtrace_hdl_t *dtp, dtrace_handle_setopt_f *hdlr, void *arg) { if (hdlr == NULL) return (dt_set_errno(dtp, EINVAL)); dtp->dt_setopthdlr = hdlr; dtp->dt_setoptarg = arg; return (0); } #define DT_REC(type, ndx) *((type *)((uintptr_t)data->dtpda_data + \ epd->dtepd_rec[(ndx)].dtrd_offset)) static int dt_handle_err(dtrace_hdl_t *dtp, dtrace_probedata_t *data) { dtrace_eprobedesc_t *epd = data->dtpda_edesc, *errepd; dtrace_probedesc_t *pd = data->dtpda_pdesc, *errpd; dtrace_errdata_t err; dtrace_epid_t epid; char where[30]; char details[30]; char offinfo[30]; const int slop = 80; const char *faultstr; char *str; int len; assert(epd->dtepd_uarg == DT_ECB_ERROR); if (epd->dtepd_nrecs != 5 || strcmp(pd->dtpd_provider, "dtrace") != 0 || strcmp(pd->dtpd_name, "ERROR") != 0) return (dt_set_errno(dtp, EDT_BADERROR)); /* * This is an error. We have the following items here: EPID, * faulting action, DIF offset, fault code and faulting address. */ epid = (uint32_t)DT_REC(uint64_t, 0); if (dt_epid_lookup(dtp, epid, &errepd, &errpd) != 0) return (dt_set_errno(dtp, EDT_BADERROR)); err.dteda_edesc = errepd; err.dteda_pdesc = errpd; err.dteda_cpu = data->dtpda_cpu; err.dteda_action = (int)DT_REC(uint64_t, 1); err.dteda_offset = (int)DT_REC(uint64_t, 2); err.dteda_fault = (int)DT_REC(uint64_t, 3); err.dteda_addr = DT_REC(uint64_t, 4); faultstr = dtrace_faultstr(dtp, err.dteda_fault); len = sizeof (where) + sizeof (offinfo) + strlen(faultstr) + strlen(errpd->dtpd_provider) + strlen(errpd->dtpd_mod) + strlen(errpd->dtpd_name) + strlen(errpd->dtpd_func) + slop; str = (char *)alloca(len); if (err.dteda_action == 0) { (void) sprintf(where, "predicate"); } else { (void) sprintf(where, "action #%d", err.dteda_action); } if (err.dteda_offset != -1) { (void) sprintf(offinfo, " at DIF offset %d", err.dteda_offset); } else { offinfo[0] = 0; } switch (err.dteda_fault) { case DTRACEFLT_BADADDR: case DTRACEFLT_BADALIGN: case DTRACEFLT_BADSTACK: (void) sprintf(details, " (0x%llx)", (u_longlong_t)err.dteda_addr); break; default: details[0] = 0; } (void) snprintf(str, len, "error on enabled probe ID %u " "(ID %u: %s:%s:%s:%s): %s%s in %s%s\n", epid, errpd->dtpd_id, errpd->dtpd_provider, errpd->dtpd_mod, errpd->dtpd_func, errpd->dtpd_name, dtrace_faultstr(dtp, err.dteda_fault), details, where, offinfo); err.dteda_msg = str; if (dtp->dt_errhdlr == NULL) return (dt_set_errno(dtp, EDT_ERRABORT)); if ((*dtp->dt_errhdlr)(&err, dtp->dt_errarg) == DTRACE_HANDLE_ABORT) return (dt_set_errno(dtp, EDT_ERRABORT)); return (0); } int dt_handle_liberr(dtrace_hdl_t *dtp, const dtrace_probedata_t *data, const char *faultstr) { dtrace_probedesc_t *errpd = data->dtpda_pdesc; dtrace_errdata_t err; const int slop = 80; char *str; int len; err.dteda_edesc = data->dtpda_edesc; err.dteda_pdesc = errpd; err.dteda_cpu = data->dtpda_cpu; err.dteda_action = -1; err.dteda_offset = -1; err.dteda_fault = DTRACEFLT_LIBRARY; err.dteda_addr = 0; len = strlen(faultstr) + strlen(errpd->dtpd_provider) + strlen(errpd->dtpd_mod) + strlen(errpd->dtpd_name) + strlen(errpd->dtpd_func) + slop; str = alloca(len); (void) snprintf(str, len, "error on enabled probe ID %u " "(ID %u: %s:%s:%s:%s): %s\n", data->dtpda_edesc->dtepd_epid, errpd->dtpd_id, errpd->dtpd_provider, errpd->dtpd_mod, errpd->dtpd_func, errpd->dtpd_name, faultstr); err.dteda_msg = str; if (dtp->dt_errhdlr == NULL) return (dt_set_errno(dtp, EDT_ERRABORT)); if ((*dtp->dt_errhdlr)(&err, dtp->dt_errarg) == DTRACE_HANDLE_ABORT) return (dt_set_errno(dtp, EDT_ERRABORT)); return (0); } #define DROPTAG(x) x, #x static const struct { dtrace_dropkind_t dtdrg_kind; char *dtdrg_tag; } _dt_droptags[] = { { DROPTAG(DTRACEDROP_PRINCIPAL) }, { DROPTAG(DTRACEDROP_AGGREGATION) }, { DROPTAG(DTRACEDROP_DYNAMIC) }, { DROPTAG(DTRACEDROP_DYNRINSE) }, { DROPTAG(DTRACEDROP_DYNDIRTY) }, { DROPTAG(DTRACEDROP_SPEC) }, { DROPTAG(DTRACEDROP_SPECBUSY) }, { DROPTAG(DTRACEDROP_SPECUNAVAIL) }, { DROPTAG(DTRACEDROP_DBLERROR) }, { DROPTAG(DTRACEDROP_STKSTROVERFLOW) }, { 0, NULL } }; static const char * dt_droptag(dtrace_dropkind_t kind) { int i; for (i = 0; _dt_droptags[i].dtdrg_tag != NULL; i++) { if (_dt_droptags[i].dtdrg_kind == kind) return (_dt_droptags[i].dtdrg_tag); } return ("DTRACEDROP_UNKNOWN"); } int dt_handle_cpudrop(dtrace_hdl_t *dtp, processorid_t cpu, dtrace_dropkind_t what, uint64_t howmany) { dtrace_dropdata_t drop; char str[80], *s; int size; assert(what == DTRACEDROP_PRINCIPAL || what == DTRACEDROP_AGGREGATION); bzero(&drop, sizeof (drop)); drop.dtdda_handle = dtp; drop.dtdda_cpu = cpu; drop.dtdda_kind = what; drop.dtdda_drops = howmany; drop.dtdda_msg = str; if (dtp->dt_droptags) { (void) snprintf(str, sizeof (str), "[%s] ", dt_droptag(what)); s = &str[strlen(str)]; size = sizeof (str) - (s - str); } else { s = str; size = sizeof (str); } (void) snprintf(s, size, "%llu %sdrop%s on CPU %d\n", (u_longlong_t)howmany, what == DTRACEDROP_PRINCIPAL ? "" : "aggregation ", howmany > 1 ? "s" : "", cpu); if (dtp->dt_drophdlr == NULL) return (dt_set_errno(dtp, EDT_DROPABORT)); if ((*dtp->dt_drophdlr)(&drop, dtp->dt_droparg) == DTRACE_HANDLE_ABORT) return (dt_set_errno(dtp, EDT_DROPABORT)); return (0); } static const struct { dtrace_dropkind_t dtdrt_kind; uintptr_t dtdrt_offset; const char *dtdrt_str; const char *dtdrt_msg; } _dt_droptab[] = { { DTRACEDROP_DYNAMIC, offsetof(dtrace_status_t, dtst_dyndrops), "dynamic variable drop" }, { DTRACEDROP_DYNRINSE, offsetof(dtrace_status_t, dtst_dyndrops_rinsing), "dynamic variable drop", " with non-empty rinsing list" }, { DTRACEDROP_DYNDIRTY, offsetof(dtrace_status_t, dtst_dyndrops_dirty), "dynamic variable drop", " with non-empty dirty list" }, { DTRACEDROP_SPEC, offsetof(dtrace_status_t, dtst_specdrops), "speculative drop" }, { DTRACEDROP_SPECBUSY, offsetof(dtrace_status_t, dtst_specdrops_busy), "failed speculation", " (available buffer(s) still busy)" }, { DTRACEDROP_SPECUNAVAIL, offsetof(dtrace_status_t, dtst_specdrops_unavail), "failed speculation", " (no speculative buffer available)" }, { DTRACEDROP_STKSTROVERFLOW, offsetof(dtrace_status_t, dtst_stkstroverflows), "jstack()/ustack() string table overflow" }, { DTRACEDROP_DBLERROR, offsetof(dtrace_status_t, dtst_dblerrors), "error", " in ERROR probe enabling" }, { 0, 0, NULL } }; int dt_handle_status(dtrace_hdl_t *dtp, dtrace_status_t *old, dtrace_status_t *new) { dtrace_dropdata_t drop; char str[80], *s; uintptr_t base = (uintptr_t)new, obase = (uintptr_t)old; int i, size; bzero(&drop, sizeof (drop)); drop.dtdda_handle = dtp; drop.dtdda_cpu = DTRACE_CPUALL; drop.dtdda_msg = str; /* * First, check to see if we've been killed -- in which case we abort. */ if (new->dtst_killed && !old->dtst_killed) return (dt_set_errno(dtp, EDT_BRICKED)); for (i = 0; _dt_droptab[i].dtdrt_str != NULL; i++) { uintptr_t naddr = base + _dt_droptab[i].dtdrt_offset; uintptr_t oaddr = obase + _dt_droptab[i].dtdrt_offset; uint64_t nval = *((uint64_t *)naddr); uint64_t oval = *((uint64_t *)oaddr); if (nval == oval) continue; if (dtp->dt_droptags) { (void) snprintf(str, sizeof (str), "[%s] ", dt_droptag(_dt_droptab[i].dtdrt_kind)); s = &str[strlen(str)]; size = sizeof (str) - (s - str); } else { s = str; size = sizeof (str); } (void) snprintf(s, size, "%llu %s%s%s\n", (u_longlong_t)(nval - oval), _dt_droptab[i].dtdrt_str, (nval - oval > 1) ? "s" : "", _dt_droptab[i].dtdrt_msg != NULL ? _dt_droptab[i].dtdrt_msg : ""); drop.dtdda_kind = _dt_droptab[i].dtdrt_kind; drop.dtdda_total = nval; drop.dtdda_drops = nval - oval; if (dtp->dt_drophdlr == NULL) return (dt_set_errno(dtp, EDT_DROPABORT)); if ((*dtp->dt_drophdlr)(&drop, dtp->dt_droparg) == DTRACE_HANDLE_ABORT) return (dt_set_errno(dtp, EDT_DROPABORT)); } return (0); } int dt_handle_setopt(dtrace_hdl_t *dtp, dtrace_setoptdata_t *data) { void *arg = dtp->dt_setoptarg; if (dtp->dt_setopthdlr == NULL) return (0); if ((*dtp->dt_setopthdlr)(data, arg) == DTRACE_HANDLE_ABORT) return (dt_set_errno(dtp, EDT_DIRABORT)); return (0); } int dt_handle(dtrace_hdl_t *dtp, dtrace_probedata_t *data) { dtrace_eprobedesc_t *epd = data->dtpda_edesc; int rval; switch (epd->dtepd_uarg) { case DT_ECB_ERROR: rval = dt_handle_err(dtp, data); break; default: return (DTRACE_CONSUME_THIS); } if (rval == 0) return (DTRACE_CONSUME_NEXT); return (DTRACE_CONSUME_ERROR); }