/* * 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 (c) 2009, 2010, Oracle and/or its affiliates. All rights reserved. */ #include #include #include #include #include #include "damap.h" void damap_help(void) { mdb_printf("Print the damap at the address given.\n"); mdb_printf("\n"); mdb_printf("EXAMPLE: SCSI: To display the SCSI tgtmap damaps "); mdb_printf("associated with a scsi HBA driver iport dip:\n"); mdb_printf("\n"); mdb_printf("::devbindings -q \n"); mdb_printf("\n"); mdb_printf("::print struct dev_info devi_driver_data|"); mdb_printf("::print scsi_hba_tran_t tran_tgtmap|"); mdb_printf("::print impl_scsi_tgtmap_t "); mdb_printf("tgtmap_dam[0] tgtmap_dam[1]|::damap\n"); } static char * local_strdup(const char *s) { if (s) return (strcpy(mdb_alloc(strlen(s) + 1, UM_SLEEP), s)); else return (NULL); } static void local_strfree(const char *s) { if (s) mdb_free((void *)s, strlen(s) + 1); } static void bitset_free(bitset_t *bs, int embedded) { if (bs == NULL) return; if (bs->bs_set && bs->bs_words) mdb_free(bs->bs_set, bs->bs_words * sizeof (ulong_t)); if (!embedded) mdb_free(bs, sizeof (*bs)); /* not embedded, free */ } static bitset_t * bitset_get(uintptr_t bsaddr) { bitset_t *bs; bs = mdb_zalloc(sizeof (*bs), UM_SLEEP); if (mdb_vread(bs, sizeof (*bs), bsaddr) == -1) { mdb_warn("couldn't read bitset 0x%p", bsaddr); bitset_free(bs, 0); return (NULL); } bsaddr = (uintptr_t)bs->bs_set; bs->bs_set = mdb_alloc(bs->bs_words * sizeof (ulong_t), UM_SLEEP); if (mdb_vread(bs->bs_set, bs->bs_words * sizeof (ulong_t), bsaddr) == -1) { mdb_warn("couldn't read bitset bs_set 0x%p", bsaddr); bitset_free(bs, 0); return (NULL); } return (bs); } static void damap_free(struct dam *dam, void **kdamda, int kdamda_n) { int i; struct i_ddi_soft_state *ss; dam_da_t *da; if (dam) { /* free in dam_da_t softstate */ ss = (struct i_ddi_soft_state *)dam->dam_da; if (ss) { if (ss->n_items && ss->array) { for (i = 0; i < ss->n_items; i++) { da = ss->array[i]; if (da == NULL) continue; local_strfree(da->da_addr); mdb_free(da, sizeof (*da)); } } mdb_free(ss, sizeof (*ss)); } /* free dam_active/stable/report_set embedded in dam */ bitset_free(&dam->dam_report_set, 1); bitset_free(&dam->dam_stable_set, 1); bitset_free(&dam->dam_active_set, 1); /* free dam_name */ local_strfree(dam->dam_name); /* free dam */ mdb_free(dam, sizeof (*dam)); } if (kdamda) mdb_free(kdamda, kdamda_n * sizeof (void *)); } /* * The dam implementation uses a number of different abstractions. Given a * pointer to a damap_t, this function make an mdb instantiation of the dam - * many, but not all, of the different abstractions used in the dam * implementation are also instantiated in mdb. This means that callers of * damap_get can perform some (but not all) types of structure pointer * traversals. */ struct dam * damap_get(uintptr_t damaddr, void ***pkdamda, int *pkdamda_n) { /* variables that hold instantiation read from kernel */ struct dam kdam; char kstring[MAXPATHLEN]; struct i_ddi_soft_state kss; void **kssarray = NULL; int array_sz = 0; /* variables that hold mdb instantiation */ struct dam *dam = NULL; struct i_ddi_soft_state *ss; bitset_t *bs; dam_da_t *da; int i; /* read kernel: dam */ if (mdb_vread(&kdam, sizeof (kdam), damaddr) == -1) { mdb_warn("couldn't read dam 0x%p", damaddr); goto err; } /* read kernel: dam->dam_name */ mdb_readstr(kstring, sizeof (kstring), (uintptr_t)kdam.dam_name); /* read kernel: dam->dam_da (softstate) */ if (mdb_vread(&kss, sizeof (kss), (uintptr_t)kdam.dam_da) == -1) { mdb_warn("couldn't read dam dam_da 0x%p", (uintptr_t)kdam.dam_da); goto err; } /* read kernel ((struct i_ddi_soft_state *)dam->dam_da)->array */ array_sz = kss.n_items * sizeof (void *); kssarray = mdb_alloc(array_sz, UM_SLEEP); if (mdb_vread(kssarray, array_sz, (uintptr_t)kss.array) == -1) { mdb_warn("couldn't read dam dam_da array 0x%p", (uintptr_t)kss.array); goto err; } /* * Produce mdb instantiation of kernel data structures. * * Structure copy kdam to dam, then clear out pointers in dam (some * will be filled in by mdb instantiation code below). */ dam = mdb_zalloc(sizeof (*dam), UM_SLEEP); *dam = kdam; dam->dam_name = NULL; dam->dam_active_set.bs_set = NULL; dam->dam_stable_set.bs_set = NULL; dam->dam_report_set.bs_set = NULL; dam->dam_da = NULL; /* dam_addr_hash, dam_taskqp, dam_kstatp left as kernel addresses */ /* fill in dam_name */ dam->dam_name = local_strdup(kstring); /* fill in dam_active/stable/report_set embedded in the dam */ bs = bitset_get(damaddr + (offsetof(struct dam, dam_active_set))); if (bs) { dam->dam_active_set = *bs; mdb_free(bs, sizeof (*bs)); } bs = bitset_get(damaddr + (offsetof(struct dam, dam_stable_set))); if (bs) { dam->dam_stable_set = *bs; mdb_free(bs, sizeof (*bs)); } bs = bitset_get(damaddr + (offsetof(struct dam, dam_report_set))); if (bs) { dam->dam_report_set = *bs; mdb_free(bs, sizeof (*bs)); } /* fill in dam_da_t softstate */ ss = mdb_zalloc(sizeof (struct i_ddi_soft_state), UM_SLEEP); *ss = kss; ss->next = NULL; ss->array = mdb_zalloc(array_sz, UM_SLEEP); dam->dam_da = ss; for (i = 0; i < kss.n_items; i++) { if (kssarray[i] == NULL) continue; da = ss->array[i] = mdb_zalloc(sizeof (*da), UM_SLEEP); if (mdb_vread(da, sizeof (*da), (uintptr_t)kssarray[i]) == -1) { mdb_warn("couldn't read dam dam_da %d 0x%p", i, (uintptr_t)kss.array); goto err; } /* da_nvl, da_ppriv_rpt, da_nvl_rpt left as kernel addresses */ /* read kernel: da->da_addr */ mdb_readstr(kstring, sizeof (kstring), (uintptr_t)da->da_addr); da->da_addr = local_strdup(kstring); } /* return array of kernel dam_da_t pointers associated with each id */ *pkdamda = kssarray; *pkdamda_n = array_sz / sizeof (void *); /* return pointer to mdb instantiation of the dam */ return (dam); err: damap_free(dam, kssarray, array_sz / sizeof (void *)); *pkdamda = NULL; *pkdamda_n = 0; return (NULL); } /*ARGSUSED*/ static void damap_print(struct dam *dam, void **kdamda, int kdamda_n) { struct i_ddi_soft_state *ss; dam_da_t *da; int i; mdb_printf("%s:\n", dam->dam_name); ss = (struct i_ddi_soft_state *)dam->dam_da; if (ss == NULL) return; if ((ss->n_items == 0) || (ss->array == NULL)) return; mdb_printf(" #: %-20s [ASR] ref config-private provider-private\n", "address"); for (i = 0; i < ss->n_items; i++) { da = ss->array[i]; if (da == NULL) continue; /* Print index and address. */ mdb_printf(" %3d: %-20s [", i, da->da_addr); /* Print shorthand of Active/Stable/Report set membership */ if (BT_TEST(dam->dam_active_set.bs_set, i)) mdb_printf("A"); else mdb_printf("."); if (BT_TEST(dam->dam_stable_set.bs_set, i)) mdb_printf("S"); else mdb_printf("."); if (BT_TEST(dam->dam_report_set.bs_set, i)) mdb_printf("R"); else mdb_printf("."); /* Print the reference count and priv */ mdb_printf("] %-3d %0?lx %0?lx\n", da->da_ref, da->da_cfg_priv, da->da_ppriv); mdb_printf(" %p::print -ta dam_da_t\n", kdamda[i]); } } /*ARGSUSED*/ int damap(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv) { struct dam *dam; void **kdamda; int kdamda_n; if (!(flags & DCMD_ADDRSPEC)) { return (DCMD_ERR); } dam = damap_get(addr, &kdamda, &kdamda_n); if (dam == NULL) return (DCMD_ERR); damap_print(dam, kdamda, kdamda_n); damap_free(dam, kdamda, kdamda_n); return (DCMD_OK); }