/* * 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 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * PCI PBM implementation: * initialization * Bus error interrupt handler */ #include #include #include #include #include #include #include #include /* ldphysio() */ #include #include #include #include #include #include /*LINTLIBRARY*/ static uint_t pbm_error_intr(caddr_t a); /* The nexus interrupt priority values */ int pci_pil[] = {14, 14, 14, 14, 14, 14}; void pbm_create(pci_t *pci_p) { pbm_t *pbm_p; int i, len; int nrange = pci_p->pci_ranges_length / sizeof (pci_ranges_t); dev_info_t *dip = pci_p->pci_dip; pci_ranges_t *rangep = pci_p->pci_ranges; uint64_t base_addr, last_addr; #ifdef lint dip = dip; #endif /* * Allocate a state structure for the PBM and cross-link it * to its per pci node state structure. */ pbm_p = (pbm_t *)kmem_zalloc(sizeof (pbm_t), KM_SLEEP); pci_p->pci_pbm_p = pbm_p; pbm_p->pbm_pci_p = pci_p; len = snprintf(pbm_p->pbm_nameinst_str, sizeof (pbm_p->pbm_nameinst_str), "%s%d", NAMEINST(dip)); pbm_p->pbm_nameaddr_str = pbm_p->pbm_nameinst_str + ++len; (void) snprintf(pbm_p->pbm_nameaddr_str, sizeof (pbm_p->pbm_nameinst_str) - len, "%s@%s", NAMEADDR(dip)); pci_pbm_setup(pbm_p); /* * Get this pbm's mem32 and mem64 segments to determine whether * a dma object originates from ths pbm. i.e. dev to dev dma */ /* Init all of our boundaries */ base_addr = -1ull; last_addr = 0ull; for (i = 0; i < nrange; i++, rangep++) { uint32_t rng_type = rangep->child_high & PCI_ADDR_MASK; if (rng_type == PCI_ADDR_MEM32 || rng_type == PCI_ADDR_MEM64) { uint64_t rng_addr, rng_size; rng_addr = (uint64_t)rangep->parent_high << 32; rng_addr |= (uint64_t)rangep->parent_low; rng_size = (uint64_t)rangep->size_high << 32; rng_size |= (uint64_t)rangep->size_low; base_addr = MIN(rng_addr, base_addr); last_addr = MAX(rng_addr + rng_size, last_addr); } } pbm_p->pbm_base_pfn = mmu_btop(base_addr); pbm_p->pbm_last_pfn = mmu_btop(last_addr); DEBUG4(DBG_ATTACH, dip, "pbm_create: ctrl=%x, afsr=%x, afar=%x, diag=%x\n", pbm_p->pbm_ctrl_reg, pbm_p->pbm_async_flt_status_reg, pbm_p->pbm_async_flt_addr_reg, pbm_p->pbm_diag_reg); DEBUG1(DBG_ATTACH, dip, "pbm_create: conf=%x\n", pbm_p->pbm_config_header); /* * Register a function to disable pbm error interrupts during a panic. */ bus_func_register(BF_TYPE_ERRDIS, (busfunc_t)pbm_disable_pci_errors, pbm_p); /* * create the interrupt-priorities property if it doesn't * already exist to provide a hint as to the PIL level for * our interrupt. */ if (ddi_getproplen(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, "interrupt-priorities", &len) != DDI_PROP_SUCCESS) { /* Create the interrupt-priorities property. */ (void) ddi_prop_create(DDI_DEV_T_NONE, dip, DDI_PROP_CANSLEEP, "interrupt-priorities", (caddr_t)pci_pil, sizeof (pci_pil)); } pbm_configure(pbm_p); /* * Determine if we need to apply the Sun Fire 15k AXQ/PIO * workaround. */ pci_axq_pio_limit(pbm_p); } int pbm_register_intr(pbm_t *pbm_p) { pci_t *pci_p = pbm_p->pbm_pci_p; uint32_t mondo; int r = DDI_SUCCESS; ib_nintr_clear(pci_p->pci_ib_p, pci_p->pci_inos[CBNINTR_PBM]); /* * Install the PCI error interrupt handler. */ mondo = IB_INO_TO_MONDO(pci_p->pci_ib_p, pci_p->pci_inos[CBNINTR_PBM]); mondo = CB_MONDO_TO_XMONDO(pci_p->pci_cb_p, mondo); VERIFY(add_ivintr(mondo, pci_pil[CBNINTR_PBM], pbm_error_intr, (caddr_t)pci_p, NULL) == 0); pbm_p->pbm_iblock_cookie = (void *)(uintptr_t)pci_pil[CBNINTR_PBM]; /* * Create the pokefault mutex at the PIL below the error interrupt. */ mutex_init(&pbm_p->pbm_pokefault_mutex, NULL, MUTEX_DRIVER, (void *)(uintptr_t)ipltospl(spltoipl( (int)(uintptr_t)pbm_p->pbm_iblock_cookie) - 1)); if (!r) r = pci_pbm_add_intr(pci_p); return (PCI_ATTACH_RETCODE(PCI_PBM_OBJ, PCI_OBJ_INTR_ADD, r)); } void pbm_destroy(pci_t *pci_p) { pbm_t *pbm_p = pci_p->pci_pbm_p; ib_t *ib_p = pci_p->pci_ib_p; uint32_t mondo; DEBUG0(DBG_DETACH, pci_p->pci_dip, "pbm_destroy:\n"); mondo = IB_INO_TO_MONDO(pci_p->pci_ib_p, pci_p->pci_inos[CBNINTR_PBM]); mondo = CB_MONDO_TO_XMONDO(pci_p->pci_cb_p, mondo); /* * Free the pokefault mutex. */ mutex_destroy(&pbm_p->pbm_pokefault_mutex); /* * Remove the error interrupt and consistent dma sync handler. */ intr_dist_rem(pbm_intr_dist, pbm_p); pci_pbm_rem_intr(pci_p); ib_intr_disable(ib_p, pci_p->pci_inos[CBNINTR_PBM], IB_INTR_WAIT); rem_ivintr(mondo, NULL); /* * Remove the error disable function. */ bus_func_unregister(BF_TYPE_ERRDIS, (busfunc_t)pbm_disable_pci_errors, pbm_p); pci_pbm_teardown(pbm_p); /* * Free the pbm state structure. */ kmem_free(pbm_p, sizeof (pbm_t)); pci_p->pci_pbm_p = NULL; } static uint_t pbm_error_intr(caddr_t a) { pci_t *pci_p = (pci_t *)a; pbm_t *pbm_p = pci_p->pci_pbm_p; ddi_fm_error_t derr; int err = DDI_FM_OK; on_trap_data_t *otp = pbm_p->pbm_ontrap_data; bzero(&derr, sizeof (ddi_fm_error_t)); derr.fme_version = DDI_FME_VERSION; mutex_enter(&pci_p->pci_common_p->pci_fm_mutex); if (pbm_p->pbm_excl_handle != NULL) { /* * cautious write protection, protected from all errors. */ ASSERT(MUTEX_HELD(&pbm_p->pbm_pokefault_mutex)); ddi_fm_acc_err_get(pbm_p->pbm_excl_handle, &derr, DDI_FME_VERSION); ASSERT(derr.fme_flag == DDI_FM_ERR_EXPECTED); derr.fme_acc_handle = pbm_p->pbm_excl_handle; err = pci_pbm_err_handler(pci_p->pci_dip, &derr, (void *)pci_p, PCI_INTR_CALL); } else if ((otp != NULL) && (otp->ot_prot & OT_DATA_ACCESS)) { /* * ddi_poke protection, check nexus and children for * expected errors. */ otp->ot_trap |= OT_DATA_ACCESS; membar_sync(); derr.fme_flag = DDI_FM_ERR_POKE; err = pci_pbm_err_handler(pci_p->pci_dip, &derr, (void *)pci_p, PCI_INTR_CALL); } else if (pci_check_error(pci_p) != 0) { /* * unprotected error, check for all errors. */ if (pci_errtrig_pa) (void) ldphysio(pci_errtrig_pa); derr.fme_flag = DDI_FM_ERR_UNEXPECTED; err = pci_pbm_err_handler(pci_p->pci_dip, &derr, (void *)pci_p, PCI_INTR_CALL); } if (err == DDI_FM_FATAL) { if (pci_panic_on_fatal_errors) { mutex_exit(&pci_p->pci_common_p->pci_fm_mutex); fm_panic("%s-%d: Fatal PCI bus error(s)\n", ddi_driver_name(pci_p->pci_dip), ddi_get_instance(pci_p->pci_dip)); } } mutex_exit(&pci_p->pci_common_p->pci_fm_mutex); ib_nintr_clear(pci_p->pci_ib_p, pci_p->pci_inos[CBNINTR_PBM]); return (DDI_INTR_CLAIMED); } void pbm_suspend(pbm_t *pbm_p) { pci_t *pci_p = pbm_p->pbm_pci_p; ib_ino_t ino = pci_p->pci_inos[CBNINTR_PBM]; pbm_p->pbm_imr_save = *ib_intr_map_reg_addr(pci_p->pci_ib_p, ino); pci_pbm_suspend(pci_p); } void pbm_resume(pbm_t *pbm_p) { pci_t *pci_p = pbm_p->pbm_pci_p; ib_ino_t ino = pci_p->pci_inos[CBNINTR_PBM]; ib_nintr_clear(pci_p->pci_ib_p, ino); *ib_intr_map_reg_addr(pci_p->pci_ib_p, ino) = pbm_p->pbm_imr_save; pci_pbm_resume(pci_p); } void pbm_intr_dist(void *arg) { pbm_t *pbm_p = (pbm_t *)arg; pci_t *pci_p = pbm_p->pbm_pci_p; ib_t *ib_p = pci_p->pci_ib_p; ib_ino_t ino = IB_MONDO_TO_INO(pci_p->pci_inos[CBNINTR_PBM]); mutex_enter(&ib_p->ib_intr_lock); ib_intr_dist_nintr(ib_p, ino, ib_intr_map_reg_addr(ib_p, ino)); pci_pbm_intr_dist(pbm_p); mutex_exit(&ib_p->ib_intr_lock); } /* * Function used to log PBM AFSR register bits and to lookup and fault * handle associated with PBM AFAR register. Called by pci_pbm_err_handler with * pci_fm_mutex held. */ int pbm_afsr_report(dev_info_t *dip, uint64_t fme_ena, pbm_errstate_t *pbm_err_p) { int fatal = 0; int ret = 0; pci_t *pci_p = get_pci_soft_state(ddi_get_instance(dip)); pci_common_t *cmn_p = pci_p->pci_common_p; ASSERT(MUTEX_HELD(&cmn_p->pci_fm_mutex)); pbm_err_p->pbm_pri = PBM_PRIMARY; (void) pci_pbm_classify(pbm_err_p); pci_format_addr(dip, &pbm_err_p->pbm_pci.pci_pa, pbm_err_p->pbm_afsr); if (pbm_err_p->pbm_log == FM_LOG_PBM) pbm_ereport_post(dip, fme_ena, pbm_err_p); /* * Lookup and fault errant handle */ if (((ret = ndi_fmc_error(dip, NULL, ACC_HANDLE, fme_ena, (void *)&pbm_err_p->pbm_pci.pci_pa)) == DDI_FM_FATAL) || (ret == DDI_FM_UNKNOWN)) fatal++; /* * queue target ereport if appropriate */ if (pbm_err_p->pbm_terr_class) pci_target_enqueue(fme_ena, pbm_err_p->pbm_terr_class, (pbm_err_p->pbm_log == FM_LOG_PCI) ? "pci" : pbm_err_p->pbm_bridge_type, pbm_err_p->pbm_pci.pci_pa); /* * We are currently not dealing with the multiple error * case, for any secondary errors we will panic. */ pbm_err_p->pbm_pri = PBM_SECONDARY; if (pci_pbm_classify(pbm_err_p)) { fatal++; if (pbm_err_p->pbm_log == FM_LOG_PBM) pbm_ereport_post(dip, fme_ena, pbm_err_p); } if (fatal) return (DDI_FM_FATAL); return (DDI_FM_NONFATAL); }