/* * 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 Express PEC implementation: * initialization * Bus error interrupt handler */ #include #include #include #include #include #include /* ldphysio() */ #include #include #include #include #include "px_obj.h" /*LINTLIBRARY*/ extern uint_t px_ranges_phi_mask; static uint_t px_pec_error_intr(caddr_t a); static int px_pec_msg_add_intr(px_t *px_p); static void px_pec_msg_rem_intr(px_t *px_p); int px_pec_attach(px_t *px_p) { px_pec_t *pec_p; int i, len; int nrange = px_p->px_ranges_length / sizeof (px_ranges_t); dev_info_t *dip = px_p->px_dip; px_ranges_t *rangep = px_p->px_ranges_p; int ret; /* * Allocate a state structure for the PEC and cross-link it * to its per px node state structure. */ pec_p = kmem_zalloc(sizeof (px_pec_t), KM_SLEEP); px_p->px_pec_p = pec_p; pec_p->pec_px_p = px_p; len = snprintf(pec_p->pec_nameinst_str, sizeof (pec_p->pec_nameinst_str), "%s%d", NAMEINST(dip)); pec_p->pec_nameaddr_str = pec_p->pec_nameinst_str + ++len; (void) snprintf(pec_p->pec_nameaddr_str, sizeof (pec_p->pec_nameinst_str) - len, "%s@%s", NAMEADDR(dip)); /* * Add interrupt handlers to process correctable/fatal/non fatal * PCIE messages. */ if ((ret = px_pec_msg_add_intr(px_p)) != DDI_SUCCESS) { px_pec_msg_rem_intr(px_p); return (ret); } /* * Get this pec's mem32 and mem64 segments to determine whether * a dma object originates from ths pec. i.e. dev to dev dma */ for (i = 0; i < nrange; i++, rangep++) { uint64_t rng_addr, rng_size, *pfnbp, *pfnlp; uint32_t rng_type = rangep->child_high & PCI_ADDR_MASK; switch (rng_type) { case PCI_ADDR_MEM32: pfnbp = &pec_p->pec_base32_pfn; pfnlp = &pec_p->pec_last32_pfn; break; case PCI_ADDR_MEM64: pfnbp = &pec_p->pec_base64_pfn; pfnlp = &pec_p->pec_last64_pfn; break; case PCI_ADDR_CONFIG: case PCI_ADDR_IO: default: continue; } rng_addr = (uint64_t)(rangep->parent_high & px_ranges_phi_mask) << 32; rng_addr |= (uint64_t)rangep->parent_low; rng_size = (uint64_t)rangep->size_high << 32; rng_size |= (uint64_t)rangep->size_low; *pfnbp = mmu_btop(rng_addr); *pfnlp = mmu_btop(rng_addr + rng_size); } mutex_init(&pec_p->pec_pokefault_mutex, NULL, MUTEX_DRIVER, (void *)px_p->px_fm_ibc); return (DDI_SUCCESS); } void px_pec_detach(px_t *px_p) { dev_info_t *dip = px_p->px_dip; px_pec_t *pec_p = px_p->px_pec_p; /* * Free the pokefault mutex. */ DBG(DBG_DETACH, dip, "px_pec_detach:\n"); mutex_destroy(&pec_p->pec_pokefault_mutex); /* * Remove interrupt handlers to process correctable/fatal/non fatal * PCIE messages. */ px_pec_msg_rem_intr(px_p); /* * Free the pec state structure. */ kmem_free(pec_p, sizeof (px_pec_t)); px_p->px_pec_p = NULL; } /* * pec_msg_add_intr: * * Add interrupt handlers to process correctable/fatal/non fatal * PCIE messages. */ static int px_pec_msg_add_intr(px_t *px_p) { dev_info_t *dip = px_p->px_dip; px_pec_t *pec_p = px_p->px_pec_p; ddi_intr_handle_impl_t hdl; int ret = DDI_SUCCESS; DBG(DBG_MSG, px_p->px_dip, "px_pec_msg_add_intr\n"); /* Initialize handle */ bzero(&hdl, sizeof (ddi_intr_handle_impl_t)); hdl.ih_cb_func = (ddi_intr_handler_t *)px_err_fabric_intr; hdl.ih_ver = DDI_INTR_VERSION; hdl.ih_state = DDI_IHDL_STATE_ALLOC; hdl.ih_dip = dip; /* Add correctable error message handler */ hdl.ih_pri = PX_ERR_LOW_PIL; if ((ret = px_add_msiq_intr(dip, dip, &hdl, MSG_REC, (msgcode_t)PCIE_CORR_MSG, &pec_p->pec_corr_msg_msiq_id)) != DDI_SUCCESS) { DBG(DBG_MSG, px_p->px_dip, "PCIE_CORR_MSG registration failed\n"); return (DDI_FAILURE); } px_lib_msg_setmsiq(dip, PCIE_CORR_MSG, pec_p->pec_corr_msg_msiq_id); px_lib_msg_setvalid(dip, PCIE_CORR_MSG, PCIE_MSG_VALID); if ((ret = px_ib_update_intr_state(px_p, px_p->px_dip, hdl.ih_inum, px_msiqid_to_devino(px_p, pec_p->pec_corr_msg_msiq_id), PX_ERR_LOW_PIL, PX_INTR_STATE_ENABLE, MSG_REC, PCIE_CORR_MSG)) != DDI_SUCCESS) { DBG(DBG_MSG, px_p->px_dip, "PCIE_CORR_MSG update interrupt state failed\n"); return (DDI_FAILURE); } /* Add non-fatal error message handler */ hdl.ih_pri = PX_ERR_PIL; if ((ret = px_add_msiq_intr(dip, dip, &hdl, MSG_REC, (msgcode_t)PCIE_NONFATAL_MSG, &pec_p->pec_non_fatal_msg_msiq_id)) != DDI_SUCCESS) { DBG(DBG_MSG, px_p->px_dip, "PCIE_NONFATAL_MSG registration failed\n"); return (DDI_FAILURE); } px_lib_msg_setmsiq(dip, PCIE_NONFATAL_MSG, pec_p->pec_non_fatal_msg_msiq_id); px_lib_msg_setvalid(dip, PCIE_NONFATAL_MSG, PCIE_MSG_VALID); if ((ret = px_ib_update_intr_state(px_p, px_p->px_dip, hdl.ih_inum, px_msiqid_to_devino(px_p, pec_p->pec_non_fatal_msg_msiq_id), PX_ERR_PIL, PX_INTR_STATE_ENABLE, MSG_REC, PCIE_NONFATAL_MSG)) != DDI_SUCCESS) { DBG(DBG_MSG, px_p->px_dip, "PCIE_NONFATAL_MSG update interrupt state failed\n"); return (DDI_FAILURE); } /* Add fatal error message handler */ hdl.ih_pri = PX_ERR_PIL; if ((ret = px_add_msiq_intr(dip, dip, &hdl, MSG_REC, (msgcode_t)PCIE_FATAL_MSG, &pec_p->pec_fatal_msg_msiq_id)) != DDI_SUCCESS) { DBG(DBG_MSG, px_p->px_dip, "PCIE_FATAL_MSG registration failed\n"); return (DDI_FAILURE); } px_lib_msg_setmsiq(dip, PCIE_FATAL_MSG, pec_p->pec_fatal_msg_msiq_id); px_lib_msg_setvalid(dip, PCIE_FATAL_MSG, PCIE_MSG_VALID); if ((ret = px_ib_update_intr_state(px_p, px_p->px_dip, hdl.ih_inum, px_msiqid_to_devino(px_p, pec_p->pec_fatal_msg_msiq_id), PX_ERR_PIL, PX_INTR_STATE_ENABLE, MSG_REC, PCIE_FATAL_MSG)) != DDI_SUCCESS) { DBG(DBG_MSG, px_p->px_dip, "PCIE_FATAL_MSG update interrupt state failed\n"); return (DDI_FAILURE); } return (ret); } /* * px_pec_msg_rem_intr: * * Remove interrupt handlers to process correctable/fatal/non fatal * PCIE messages. For now, all these PCIe messages are mapped to * same MSIQ. */ static void px_pec_msg_rem_intr(px_t *px_p) { dev_info_t *dip = px_p->px_dip; px_pec_t *pec_p = px_p->px_pec_p; ddi_intr_handle_impl_t hdl; DBG(DBG_MSG, px_p->px_dip, "px_pec_msg_rem_intr: dip 0x%p\n", dip); /* Initialize handle */ bzero(&hdl, sizeof (ddi_intr_handle_impl_t)); hdl.ih_ver = DDI_INTR_VERSION; hdl.ih_state = DDI_IHDL_STATE_ALLOC; hdl.ih_dip = dip; if (pec_p->pec_corr_msg_msiq_id >= 0) { px_lib_msg_setvalid(dip, PCIE_CORR_MSG, PCIE_MSG_INVALID); (void) px_rem_msiq_intr(dip, dip, &hdl, MSG_REC, PCIE_CORR_MSG, pec_p->pec_corr_msg_msiq_id); (void) px_ib_update_intr_state(px_p, px_p->px_dip, hdl.ih_inum, px_msiqid_to_devino(px_p, pec_p->pec_corr_msg_msiq_id), PX_ERR_LOW_PIL, PX_INTR_STATE_DISABLE, MSG_REC, PCIE_CORR_MSG); pec_p->pec_corr_msg_msiq_id = (msiqid_t)-1; } if (pec_p->pec_non_fatal_msg_msiq_id >= 0) { px_lib_msg_setvalid(dip, PCIE_NONFATAL_MSG, PCIE_MSG_INVALID); (void) px_rem_msiq_intr(dip, dip, &hdl, MSG_REC, PCIE_NONFATAL_MSG, pec_p->pec_non_fatal_msg_msiq_id); (void) px_ib_update_intr_state(px_p, px_p->px_dip, hdl.ih_inum, px_msiqid_to_devino(px_p, pec_p->pec_non_fatal_msg_msiq_id), PX_ERR_PIL, PX_INTR_STATE_DISABLE, MSG_REC, PCIE_NONFATAL_MSG); pec_p->pec_non_fatal_msg_msiq_id = (msiqid_t)-1; } if (pec_p->pec_fatal_msg_msiq_id >= 0) { px_lib_msg_setvalid(dip, PCIE_FATAL_MSG, PCIE_MSG_INVALID); (void) px_rem_msiq_intr(dip, dip, &hdl, MSG_REC, PCIE_FATAL_MSG, pec_p->pec_fatal_msg_msiq_id); (void) px_ib_update_intr_state(px_p, px_p->px_dip, hdl.ih_inum, px_msiqid_to_devino(px_p, pec_p->pec_fatal_msg_msiq_id), PX_ERR_PIL, PX_INTR_STATE_DISABLE, MSG_REC, PCIE_FATAL_MSG); pec_p->pec_fatal_msg_msiq_id = (msiqid_t)-1; } }