17c478bd9Sstevel@tonic-gate /* 27c478bd9Sstevel@tonic-gate * CDDL HEADER START 37c478bd9Sstevel@tonic-gate * 47c478bd9Sstevel@tonic-gate * The contents of this file are subject to the terms of the 500d0963fSdilpreet * Common Development and Distribution License (the "License"). 600d0963fSdilpreet * You may not use this file except in compliance with the License. 77c478bd9Sstevel@tonic-gate * 87c478bd9Sstevel@tonic-gate * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 97c478bd9Sstevel@tonic-gate * or http://www.opensolaris.org/os/licensing. 107c478bd9Sstevel@tonic-gate * See the License for the specific language governing permissions 117c478bd9Sstevel@tonic-gate * and limitations under the License. 127c478bd9Sstevel@tonic-gate * 137c478bd9Sstevel@tonic-gate * When distributing Covered Code, include this CDDL HEADER in each 147c478bd9Sstevel@tonic-gate * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 157c478bd9Sstevel@tonic-gate * If applicable, add the following below this CDDL HEADER, with the 167c478bd9Sstevel@tonic-gate * fields enclosed by brackets "[]" replaced with your own identifying 177c478bd9Sstevel@tonic-gate * information: Portions Copyright [yyyy] [name of copyright owner] 187c478bd9Sstevel@tonic-gate * 197c478bd9Sstevel@tonic-gate * CDDL HEADER END 207c478bd9Sstevel@tonic-gate */ 217c478bd9Sstevel@tonic-gate /* 22b57cd2d3SMark Johnson * Copyright (c) 1992, 2010, Oracle and/or its affiliates. All rights reserved. 237c478bd9Sstevel@tonic-gate */ 24bd155b87SGarrett D'Amore /* 25bd155b87SGarrett D'Amore * Copyright 2011 Nexenta Systems, Inc. All rights reserved. 26bd155b87SGarrett D'Amore */ 277c478bd9Sstevel@tonic-gate 287c478bd9Sstevel@tonic-gate /* 2912f080e7Smrj * x86 root nexus driver 307c478bd9Sstevel@tonic-gate */ 317c478bd9Sstevel@tonic-gate 327c478bd9Sstevel@tonic-gate #include <sys/sysmacros.h> 337c478bd9Sstevel@tonic-gate #include <sys/conf.h> 347c478bd9Sstevel@tonic-gate #include <sys/autoconf.h> 357c478bd9Sstevel@tonic-gate #include <sys/sysmacros.h> 367c478bd9Sstevel@tonic-gate #include <sys/debug.h> 377c478bd9Sstevel@tonic-gate #include <sys/psw.h> 387c478bd9Sstevel@tonic-gate #include <sys/ddidmareq.h> 397c478bd9Sstevel@tonic-gate #include <sys/promif.h> 407c478bd9Sstevel@tonic-gate #include <sys/devops.h> 417c478bd9Sstevel@tonic-gate #include <sys/kmem.h> 427c478bd9Sstevel@tonic-gate #include <sys/cmn_err.h> 437c478bd9Sstevel@tonic-gate #include <vm/seg.h> 447c478bd9Sstevel@tonic-gate #include <vm/seg_kmem.h> 457c478bd9Sstevel@tonic-gate #include <vm/seg_dev.h> 467c478bd9Sstevel@tonic-gate #include <sys/vmem.h> 477c478bd9Sstevel@tonic-gate #include <sys/mman.h> 487c478bd9Sstevel@tonic-gate #include <vm/hat.h> 497c478bd9Sstevel@tonic-gate #include <vm/as.h> 507c478bd9Sstevel@tonic-gate #include <vm/page.h> 517c478bd9Sstevel@tonic-gate #include <sys/avintr.h> 527c478bd9Sstevel@tonic-gate #include <sys/errno.h> 537c478bd9Sstevel@tonic-gate #include <sys/modctl.h> 547c478bd9Sstevel@tonic-gate #include <sys/ddi_impldefs.h> 557c478bd9Sstevel@tonic-gate #include <sys/sunddi.h> 567c478bd9Sstevel@tonic-gate #include <sys/sunndi.h> 577a364d25Sschwartz #include <sys/mach_intr.h> 587c478bd9Sstevel@tonic-gate #include <sys/psm.h> 597c478bd9Sstevel@tonic-gate #include <sys/ontrap.h> 6012f080e7Smrj #include <sys/atomic.h> 6112f080e7Smrj #include <sys/sdt.h> 6212f080e7Smrj #include <sys/rootnex.h> 6312f080e7Smrj #include <vm/hat_i86.h> 6400d0963fSdilpreet #include <sys/ddifm.h> 6536945f79Smrj #include <sys/ddi_isa.h> 667ff178cdSJimmy Vetayases #include <sys/apic.h> 677c478bd9Sstevel@tonic-gate 68843e1988Sjohnlev #ifdef __xpv 69843e1988Sjohnlev #include <sys/bootinfo.h> 70843e1988Sjohnlev #include <sys/hypervisor.h> 71843e1988Sjohnlev #include <sys/bootconf.h> 72843e1988Sjohnlev #include <vm/kboot_mmu.h> 733a634bfcSVikram Hegde #endif 743a634bfcSVikram Hegde 753a634bfcSVikram Hegde #if defined(__amd64) && !defined(__xpv) 763a634bfcSVikram Hegde #include <sys/immu.h> 77843e1988Sjohnlev #endif 78843e1988Sjohnlev 7986c1f4dcSVikram Hegde 8012f080e7Smrj /* 8112f080e7Smrj * enable/disable extra checking of function parameters. Useful for debugging 8212f080e7Smrj * drivers. 8312f080e7Smrj */ 8412f080e7Smrj #ifdef DEBUG 8512f080e7Smrj int rootnex_alloc_check_parms = 1; 8612f080e7Smrj int rootnex_bind_check_parms = 1; 8712f080e7Smrj int rootnex_bind_check_inuse = 1; 8812f080e7Smrj int rootnex_unbind_verify_buffer = 0; 8912f080e7Smrj int rootnex_sync_check_parms = 1; 9012f080e7Smrj #else 9112f080e7Smrj int rootnex_alloc_check_parms = 0; 9212f080e7Smrj int rootnex_bind_check_parms = 0; 9312f080e7Smrj int rootnex_bind_check_inuse = 0; 9412f080e7Smrj int rootnex_unbind_verify_buffer = 0; 9512f080e7Smrj int rootnex_sync_check_parms = 0; 9612f080e7Smrj #endif 977c478bd9Sstevel@tonic-gate 983a634bfcSVikram Hegde boolean_t rootnex_dmar_not_setup; 993a634bfcSVikram Hegde 1007aec1d6eScindi /* Master Abort and Target Abort panic flag */ 1017aec1d6eScindi int rootnex_fm_ma_ta_panic_flag = 0; 1027aec1d6eScindi 10312f080e7Smrj /* Semi-temporary patchables to phase in bug fixes, test drivers, etc. */ 1047c478bd9Sstevel@tonic-gate int rootnex_bind_fail = 1; 1057c478bd9Sstevel@tonic-gate int rootnex_bind_warn = 1; 1067c478bd9Sstevel@tonic-gate uint8_t *rootnex_warn_list; 1077c478bd9Sstevel@tonic-gate /* bitmasks for rootnex_warn_list. Up to 8 different warnings with uint8_t */ 1087c478bd9Sstevel@tonic-gate #define ROOTNEX_BIND_WARNING (0x1 << 0) 1097c478bd9Sstevel@tonic-gate 1107c478bd9Sstevel@tonic-gate /* 11112f080e7Smrj * revert back to old broken behavior of always sync'ing entire copy buffer. 11212f080e7Smrj * This is useful if be have a buggy driver which doesn't correctly pass in 11312f080e7Smrj * the offset and size into ddi_dma_sync(). 1147c478bd9Sstevel@tonic-gate */ 11512f080e7Smrj int rootnex_sync_ignore_params = 0; 1167c478bd9Sstevel@tonic-gate 1177c478bd9Sstevel@tonic-gate /* 11812f080e7Smrj * For the 64-bit kernel, pre-alloc enough cookies for a 256K buffer plus 1 11912f080e7Smrj * page for alignment. For the 32-bit kernel, pre-alloc enough cookies for a 12012f080e7Smrj * 64K buffer plus 1 page for alignment (we have less kernel space in a 32-bit 12112f080e7Smrj * kernel). Allocate enough windows to handle a 256K buffer w/ at least 65 12212f080e7Smrj * sgllen DMA engine, and enough copybuf buffer state pages to handle 2 pages 12312f080e7Smrj * (< 8K). We will still need to allocate the copy buffer during bind though 12412f080e7Smrj * (if we need one). These can only be modified in /etc/system before rootnex 12512f080e7Smrj * attach. 1267c478bd9Sstevel@tonic-gate */ 12712f080e7Smrj #if defined(__amd64) 12812f080e7Smrj int rootnex_prealloc_cookies = 65; 12912f080e7Smrj int rootnex_prealloc_windows = 4; 13012f080e7Smrj int rootnex_prealloc_copybuf = 2; 13112f080e7Smrj #else 13212f080e7Smrj int rootnex_prealloc_cookies = 33; 13312f080e7Smrj int rootnex_prealloc_windows = 4; 13412f080e7Smrj int rootnex_prealloc_copybuf = 2; 13512f080e7Smrj #endif 1367c478bd9Sstevel@tonic-gate 13712f080e7Smrj /* driver global state */ 13812f080e7Smrj static rootnex_state_t *rootnex_state; 13912f080e7Smrj 140ef4ab52fSFrank Van Der Linden #ifdef DEBUG 14112f080e7Smrj /* shortcut to rootnex counters */ 14212f080e7Smrj static uint64_t *rootnex_cnt; 143ef4ab52fSFrank Van Der Linden #endif 1447c478bd9Sstevel@tonic-gate 1457c478bd9Sstevel@tonic-gate /* 14612f080e7Smrj * XXX - does x86 even need these or are they left over from the SPARC days? 1477c478bd9Sstevel@tonic-gate */ 14812f080e7Smrj /* statically defined integer/boolean properties for the root node */ 14912f080e7Smrj static rootnex_intprop_t rootnex_intprp[] = { 15012f080e7Smrj { "PAGESIZE", PAGESIZE }, 15112f080e7Smrj { "MMU_PAGESIZE", MMU_PAGESIZE }, 15212f080e7Smrj { "MMU_PAGEOFFSET", MMU_PAGEOFFSET }, 15312f080e7Smrj { DDI_RELATIVE_ADDRESSING, 1 }, 15412f080e7Smrj }; 15512f080e7Smrj #define NROOT_INTPROPS (sizeof (rootnex_intprp) / sizeof (rootnex_intprop_t)) 1567c478bd9Sstevel@tonic-gate 15750200e77SFrank Van Der Linden /* 15850200e77SFrank Van Der Linden * If we're dom0, we're using a real device so we need to load 15950200e77SFrank Van Der Linden * the cookies with MFNs instead of PFNs. 16050200e77SFrank Van Der Linden */ 161843e1988Sjohnlev #ifdef __xpv 162843e1988Sjohnlev typedef maddr_t rootnex_addr_t; 16350200e77SFrank Van Der Linden #define ROOTNEX_PADDR_TO_RBASE(pa) \ 16450200e77SFrank Van Der Linden (DOMAIN_IS_INITDOMAIN(xen_info) ? pa_to_ma(pa) : (pa)) 165843e1988Sjohnlev #else 166843e1988Sjohnlev typedef paddr_t rootnex_addr_t; 16750200e77SFrank Van Der Linden #define ROOTNEX_PADDR_TO_RBASE(pa) (pa) 168843e1988Sjohnlev #endif 169843e1988Sjohnlev 17020906b23SVikram Hegde #if !defined(__xpv) 1717ff178cdSJimmy Vetayases char _depends_on[] = "misc/iommulib misc/acpica"; 17220906b23SVikram Hegde #endif 1737c478bd9Sstevel@tonic-gate 17412f080e7Smrj static struct cb_ops rootnex_cb_ops = { 17512f080e7Smrj nodev, /* open */ 17612f080e7Smrj nodev, /* close */ 17712f080e7Smrj nodev, /* strategy */ 17812f080e7Smrj nodev, /* print */ 17912f080e7Smrj nodev, /* dump */ 18012f080e7Smrj nodev, /* read */ 18112f080e7Smrj nodev, /* write */ 18212f080e7Smrj nodev, /* ioctl */ 18312f080e7Smrj nodev, /* devmap */ 18412f080e7Smrj nodev, /* mmap */ 18512f080e7Smrj nodev, /* segmap */ 18612f080e7Smrj nochpoll, /* chpoll */ 18712f080e7Smrj ddi_prop_op, /* cb_prop_op */ 18812f080e7Smrj NULL, /* struct streamtab */ 18912f080e7Smrj D_NEW | D_MP | D_HOTPLUG, /* compatibility flags */ 19012f080e7Smrj CB_REV, /* Rev */ 19112f080e7Smrj nodev, /* cb_aread */ 19212f080e7Smrj nodev /* cb_awrite */ 19312f080e7Smrj }; 1947c478bd9Sstevel@tonic-gate 19512f080e7Smrj static int rootnex_map(dev_info_t *dip, dev_info_t *rdip, ddi_map_req_t *mp, 1967c478bd9Sstevel@tonic-gate off_t offset, off_t len, caddr_t *vaddrp); 19712f080e7Smrj static int rootnex_map_fault(dev_info_t *dip, dev_info_t *rdip, 1987c478bd9Sstevel@tonic-gate struct hat *hat, struct seg *seg, caddr_t addr, 1997c478bd9Sstevel@tonic-gate struct devpage *dp, pfn_t pfn, uint_t prot, uint_t lock); 20012f080e7Smrj static int rootnex_dma_map(dev_info_t *dip, dev_info_t *rdip, 2017c478bd9Sstevel@tonic-gate struct ddi_dma_req *dmareq, ddi_dma_handle_t *handlep); 20212f080e7Smrj static int rootnex_dma_allochdl(dev_info_t *dip, dev_info_t *rdip, 20312f080e7Smrj ddi_dma_attr_t *attr, int (*waitfp)(caddr_t), caddr_t arg, 20412f080e7Smrj ddi_dma_handle_t *handlep); 20512f080e7Smrj static int rootnex_dma_freehdl(dev_info_t *dip, dev_info_t *rdip, 20612f080e7Smrj ddi_dma_handle_t handle); 20712f080e7Smrj static int rootnex_dma_bindhdl(dev_info_t *dip, dev_info_t *rdip, 20812f080e7Smrj ddi_dma_handle_t handle, struct ddi_dma_req *dmareq, 20912f080e7Smrj ddi_dma_cookie_t *cookiep, uint_t *ccountp); 21012f080e7Smrj static int rootnex_dma_unbindhdl(dev_info_t *dip, dev_info_t *rdip, 21112f080e7Smrj ddi_dma_handle_t handle); 21212f080e7Smrj static int rootnex_dma_sync(dev_info_t *dip, dev_info_t *rdip, 21312f080e7Smrj ddi_dma_handle_t handle, off_t off, size_t len, uint_t cache_flags); 21412f080e7Smrj static int rootnex_dma_win(dev_info_t *dip, dev_info_t *rdip, 21512f080e7Smrj ddi_dma_handle_t handle, uint_t win, off_t *offp, size_t *lenp, 21612f080e7Smrj ddi_dma_cookie_t *cookiep, uint_t *ccountp); 21712f080e7Smrj static int rootnex_dma_mctl(dev_info_t *dip, dev_info_t *rdip, 2187c478bd9Sstevel@tonic-gate ddi_dma_handle_t handle, enum ddi_dma_ctlops request, 2197c478bd9Sstevel@tonic-gate off_t *offp, size_t *lenp, caddr_t *objp, uint_t cache_flags); 22012f080e7Smrj static int rootnex_ctlops(dev_info_t *dip, dev_info_t *rdip, 22112f080e7Smrj ddi_ctl_enum_t ctlop, void *arg, void *result); 22200d0963fSdilpreet static int rootnex_fm_init(dev_info_t *dip, dev_info_t *tdip, int tcap, 22300d0963fSdilpreet ddi_iblock_cookie_t *ibc); 22412f080e7Smrj static int rootnex_intr_ops(dev_info_t *pdip, dev_info_t *rdip, 22512f080e7Smrj ddi_intr_op_t intr_op, ddi_intr_handle_impl_t *hdlp, void *result); 2267ff178cdSJimmy Vetayases static int rootnex_alloc_intr_fixed(dev_info_t *, ddi_intr_handle_impl_t *, 2277ff178cdSJimmy Vetayases void *); 2287ff178cdSJimmy Vetayases static int rootnex_free_intr_fixed(dev_info_t *, ddi_intr_handle_impl_t *); 2297c478bd9Sstevel@tonic-gate 23020906b23SVikram Hegde static int rootnex_coredma_allochdl(dev_info_t *dip, dev_info_t *rdip, 23120906b23SVikram Hegde ddi_dma_attr_t *attr, int (*waitfp)(caddr_t), caddr_t arg, 23220906b23SVikram Hegde ddi_dma_handle_t *handlep); 23320906b23SVikram Hegde static int rootnex_coredma_freehdl(dev_info_t *dip, dev_info_t *rdip, 23420906b23SVikram Hegde ddi_dma_handle_t handle); 23520906b23SVikram Hegde static int rootnex_coredma_bindhdl(dev_info_t *dip, dev_info_t *rdip, 23620906b23SVikram Hegde ddi_dma_handle_t handle, struct ddi_dma_req *dmareq, 23720906b23SVikram Hegde ddi_dma_cookie_t *cookiep, uint_t *ccountp); 23820906b23SVikram Hegde static int rootnex_coredma_unbindhdl(dev_info_t *dip, dev_info_t *rdip, 23920906b23SVikram Hegde ddi_dma_handle_t handle); 2403a634bfcSVikram Hegde #if defined(__amd64) && !defined(__xpv) 24120906b23SVikram Hegde static void rootnex_coredma_reset_cookies(dev_info_t *dip, 24220906b23SVikram Hegde ddi_dma_handle_t handle); 24320906b23SVikram Hegde static int rootnex_coredma_get_cookies(dev_info_t *dip, ddi_dma_handle_t handle, 24494f1124eSVikram Hegde ddi_dma_cookie_t **cookiepp, uint_t *ccountp); 24594f1124eSVikram Hegde static int rootnex_coredma_set_cookies(dev_info_t *dip, ddi_dma_handle_t handle, 24694f1124eSVikram Hegde ddi_dma_cookie_t *cookiep, uint_t ccount); 24794f1124eSVikram Hegde static int rootnex_coredma_clear_cookies(dev_info_t *dip, 24894f1124eSVikram Hegde ddi_dma_handle_t handle); 24994f1124eSVikram Hegde static int rootnex_coredma_get_sleep_flags(ddi_dma_handle_t handle); 2505dfdb46bSVikram Hegde #endif 25120906b23SVikram Hegde static int rootnex_coredma_sync(dev_info_t *dip, dev_info_t *rdip, 25220906b23SVikram Hegde ddi_dma_handle_t handle, off_t off, size_t len, uint_t cache_flags); 25320906b23SVikram Hegde static int rootnex_coredma_win(dev_info_t *dip, dev_info_t *rdip, 25420906b23SVikram Hegde ddi_dma_handle_t handle, uint_t win, off_t *offp, size_t *lenp, 25520906b23SVikram Hegde ddi_dma_cookie_t *cookiep, uint_t *ccountp); 2567c478bd9Sstevel@tonic-gate 257ee7536e8SFrank Van Der Linden #if defined(__amd64) && !defined(__xpv) 25850200e77SFrank Van Der Linden static int rootnex_coredma_hdl_setprivate(dev_info_t *dip, dev_info_t *rdip, 25950200e77SFrank Van Der Linden ddi_dma_handle_t handle, void *v); 26050200e77SFrank Van Der Linden static void *rootnex_coredma_hdl_getprivate(dev_info_t *dip, dev_info_t *rdip, 26150200e77SFrank Van Der Linden ddi_dma_handle_t handle); 262ee7536e8SFrank Van Der Linden #endif 26350200e77SFrank Van Der Linden 26450200e77SFrank Van Der Linden 2657c478bd9Sstevel@tonic-gate static struct bus_ops rootnex_bus_ops = { 2667c478bd9Sstevel@tonic-gate BUSO_REV, 2677c478bd9Sstevel@tonic-gate rootnex_map, 2687c478bd9Sstevel@tonic-gate NULL, 2697c478bd9Sstevel@tonic-gate NULL, 2707c478bd9Sstevel@tonic-gate NULL, 2717c478bd9Sstevel@tonic-gate rootnex_map_fault, 2727c478bd9Sstevel@tonic-gate rootnex_dma_map, 2737c478bd9Sstevel@tonic-gate rootnex_dma_allochdl, 2747c478bd9Sstevel@tonic-gate rootnex_dma_freehdl, 2757c478bd9Sstevel@tonic-gate rootnex_dma_bindhdl, 2767c478bd9Sstevel@tonic-gate rootnex_dma_unbindhdl, 27712f080e7Smrj rootnex_dma_sync, 2787c478bd9Sstevel@tonic-gate rootnex_dma_win, 2797c478bd9Sstevel@tonic-gate rootnex_dma_mctl, 2807c478bd9Sstevel@tonic-gate rootnex_ctlops, 2817c478bd9Sstevel@tonic-gate ddi_bus_prop_op, 2827c478bd9Sstevel@tonic-gate i_ddi_rootnex_get_eventcookie, 2837c478bd9Sstevel@tonic-gate i_ddi_rootnex_add_eventcall, 2847c478bd9Sstevel@tonic-gate i_ddi_rootnex_remove_eventcall, 2857c478bd9Sstevel@tonic-gate i_ddi_rootnex_post_event, 2867c478bd9Sstevel@tonic-gate 0, /* bus_intr_ctl */ 2877c478bd9Sstevel@tonic-gate 0, /* bus_config */ 2887c478bd9Sstevel@tonic-gate 0, /* bus_unconfig */ 28900d0963fSdilpreet rootnex_fm_init, /* bus_fm_init */ 2907c478bd9Sstevel@tonic-gate NULL, /* bus_fm_fini */ 2917c478bd9Sstevel@tonic-gate NULL, /* bus_fm_access_enter */ 2927c478bd9Sstevel@tonic-gate NULL, /* bus_fm_access_exit */ 2937c478bd9Sstevel@tonic-gate NULL, /* bus_powr */ 2947c478bd9Sstevel@tonic-gate rootnex_intr_ops /* bus_intr_op */ 2957c478bd9Sstevel@tonic-gate }; 2967c478bd9Sstevel@tonic-gate 29712f080e7Smrj static int rootnex_attach(dev_info_t *dip, ddi_attach_cmd_t cmd); 29812f080e7Smrj static int rootnex_detach(dev_info_t *dip, ddi_detach_cmd_t cmd); 2993a634bfcSVikram Hegde static int rootnex_quiesce(dev_info_t *dip); 3007c478bd9Sstevel@tonic-gate 3017c478bd9Sstevel@tonic-gate static struct dev_ops rootnex_ops = { 3027c478bd9Sstevel@tonic-gate DEVO_REV, 30312f080e7Smrj 0, 30412f080e7Smrj ddi_no_info, 3057c478bd9Sstevel@tonic-gate nulldev, 30612f080e7Smrj nulldev, 3077c478bd9Sstevel@tonic-gate rootnex_attach, 30812f080e7Smrj rootnex_detach, 30912f080e7Smrj nulldev, 31012f080e7Smrj &rootnex_cb_ops, 31119397407SSherry Moore &rootnex_bus_ops, 31219397407SSherry Moore NULL, 3133a634bfcSVikram Hegde rootnex_quiesce, /* quiesce */ 3147c478bd9Sstevel@tonic-gate }; 3157c478bd9Sstevel@tonic-gate 31612f080e7Smrj static struct modldrv rootnex_modldrv = { 31712f080e7Smrj &mod_driverops, 318613b2871SRichard Bean "i86pc root nexus", 31912f080e7Smrj &rootnex_ops 3207c478bd9Sstevel@tonic-gate }; 3217c478bd9Sstevel@tonic-gate 32212f080e7Smrj static struct modlinkage rootnex_modlinkage = { 32312f080e7Smrj MODREV_1, 32412f080e7Smrj (void *)&rootnex_modldrv, 32512f080e7Smrj NULL 3267c478bd9Sstevel@tonic-gate }; 3277c478bd9Sstevel@tonic-gate 3283a634bfcSVikram Hegde #if defined(__amd64) && !defined(__xpv) 32920906b23SVikram Hegde static iommulib_nexops_t iommulib_nexops = { 33020906b23SVikram Hegde IOMMU_NEXOPS_VERSION, 33120906b23SVikram Hegde "Rootnex IOMMU ops Vers 1.1", 33220906b23SVikram Hegde NULL, 33320906b23SVikram Hegde rootnex_coredma_allochdl, 33420906b23SVikram Hegde rootnex_coredma_freehdl, 33520906b23SVikram Hegde rootnex_coredma_bindhdl, 33620906b23SVikram Hegde rootnex_coredma_unbindhdl, 33720906b23SVikram Hegde rootnex_coredma_reset_cookies, 33820906b23SVikram Hegde rootnex_coredma_get_cookies, 33994f1124eSVikram Hegde rootnex_coredma_set_cookies, 34094f1124eSVikram Hegde rootnex_coredma_clear_cookies, 34194f1124eSVikram Hegde rootnex_coredma_get_sleep_flags, 34220906b23SVikram Hegde rootnex_coredma_sync, 34320906b23SVikram Hegde rootnex_coredma_win, 344b51bbbf5SVikram Hegde rootnex_dma_map, 34550200e77SFrank Van Der Linden rootnex_dma_mctl, 34650200e77SFrank Van Der Linden rootnex_coredma_hdl_setprivate, 34750200e77SFrank Van Der Linden rootnex_coredma_hdl_getprivate 34820906b23SVikram Hegde }; 3495dfdb46bSVikram Hegde #endif 3507c478bd9Sstevel@tonic-gate 35112f080e7Smrj /* 35212f080e7Smrj * extern hacks 35312f080e7Smrj */ 35412f080e7Smrj extern struct seg_ops segdev_ops; 35512f080e7Smrj extern int ignore_hardware_nodes; /* force flag from ddi_impl.c */ 35612f080e7Smrj #ifdef DDI_MAP_DEBUG 35712f080e7Smrj extern int ddi_map_debug_flag; 35812f080e7Smrj #define ddi_map_debug if (ddi_map_debug_flag) prom_printf 35912f080e7Smrj #endif 36012f080e7Smrj extern void i86_pp_map(page_t *pp, caddr_t kaddr); 36112f080e7Smrj extern void i86_va_map(caddr_t vaddr, struct as *asp, caddr_t kaddr); 36212f080e7Smrj extern int (*psm_intr_ops)(dev_info_t *, ddi_intr_handle_impl_t *, 36312f080e7Smrj psm_intr_op_t, int *); 36412f080e7Smrj extern int impl_ddi_sunbus_initchild(dev_info_t *dip); 36512f080e7Smrj extern void impl_ddi_sunbus_removechild(dev_info_t *dip); 36636945f79Smrj 36712f080e7Smrj /* 36812f080e7Smrj * Use device arena to use for device control register mappings. 36912f080e7Smrj * Various kernel memory walkers (debugger, dtrace) need to know 37012f080e7Smrj * to avoid this address range to prevent undesired device activity. 37112f080e7Smrj */ 37212f080e7Smrj extern void *device_arena_alloc(size_t size, int vm_flag); 37312f080e7Smrj extern void device_arena_free(void * vaddr, size_t size); 37412f080e7Smrj 37512f080e7Smrj 37612f080e7Smrj /* 37712f080e7Smrj * Internal functions 37812f080e7Smrj */ 37912f080e7Smrj static int rootnex_dma_init(); 38012f080e7Smrj static void rootnex_add_props(dev_info_t *); 38112f080e7Smrj static int rootnex_ctl_reportdev(dev_info_t *dip); 38212f080e7Smrj static struct intrspec *rootnex_get_ispec(dev_info_t *rdip, int inum); 38312f080e7Smrj static int rootnex_map_regspec(ddi_map_req_t *mp, caddr_t *vaddrp); 38412f080e7Smrj static int rootnex_unmap_regspec(ddi_map_req_t *mp, caddr_t *vaddrp); 38512f080e7Smrj static int rootnex_map_handle(ddi_map_req_t *mp); 38612f080e7Smrj static void rootnex_clean_dmahdl(ddi_dma_impl_t *hp); 38712f080e7Smrj static int rootnex_valid_alloc_parms(ddi_dma_attr_t *attr, uint_t maxsegsize); 38812f080e7Smrj static int rootnex_valid_bind_parms(ddi_dma_req_t *dmareq, 38912f080e7Smrj ddi_dma_attr_t *attr); 39012f080e7Smrj static void rootnex_get_sgl(ddi_dma_obj_t *dmar_object, ddi_dma_cookie_t *sgl, 39112f080e7Smrj rootnex_sglinfo_t *sglinfo); 39250200e77SFrank Van Der Linden static void rootnex_dvma_get_sgl(ddi_dma_obj_t *dmar_object, 39350200e77SFrank Van Der Linden ddi_dma_cookie_t *sgl, rootnex_sglinfo_t *sglinfo); 39412f080e7Smrj static int rootnex_bind_slowpath(ddi_dma_impl_t *hp, struct ddi_dma_req *dmareq, 39550200e77SFrank Van Der Linden rootnex_dma_t *dma, ddi_dma_attr_t *attr, ddi_dma_obj_t *dmao, int kmflag); 39612f080e7Smrj static int rootnex_setup_copybuf(ddi_dma_impl_t *hp, struct ddi_dma_req *dmareq, 39712f080e7Smrj rootnex_dma_t *dma, ddi_dma_attr_t *attr); 39812f080e7Smrj static void rootnex_teardown_copybuf(rootnex_dma_t *dma); 39912f080e7Smrj static int rootnex_setup_windows(ddi_dma_impl_t *hp, rootnex_dma_t *dma, 40050200e77SFrank Van Der Linden ddi_dma_attr_t *attr, ddi_dma_obj_t *dmao, int kmflag); 40112f080e7Smrj static void rootnex_teardown_windows(rootnex_dma_t *dma); 40212f080e7Smrj static void rootnex_init_win(ddi_dma_impl_t *hp, rootnex_dma_t *dma, 40312f080e7Smrj rootnex_window_t *window, ddi_dma_cookie_t *cookie, off_t cur_offset); 40412f080e7Smrj static void rootnex_setup_cookie(ddi_dma_obj_t *dmar_object, 40512f080e7Smrj rootnex_dma_t *dma, ddi_dma_cookie_t *cookie, off_t cur_offset, 40612f080e7Smrj size_t *copybuf_used, page_t **cur_pp); 40712f080e7Smrj static int rootnex_sgllen_window_boundary(ddi_dma_impl_t *hp, 40812f080e7Smrj rootnex_dma_t *dma, rootnex_window_t **windowp, ddi_dma_cookie_t *cookie, 40912f080e7Smrj ddi_dma_attr_t *attr, off_t cur_offset); 41012f080e7Smrj static int rootnex_copybuf_window_boundary(ddi_dma_impl_t *hp, 41112f080e7Smrj rootnex_dma_t *dma, rootnex_window_t **windowp, 41212f080e7Smrj ddi_dma_cookie_t *cookie, off_t cur_offset, size_t *copybuf_used); 41312f080e7Smrj static int rootnex_maxxfer_window_boundary(ddi_dma_impl_t *hp, 41412f080e7Smrj rootnex_dma_t *dma, rootnex_window_t **windowp, ddi_dma_cookie_t *cookie); 41512f080e7Smrj static int rootnex_valid_sync_parms(ddi_dma_impl_t *hp, rootnex_window_t *win, 41612f080e7Smrj off_t offset, size_t size, uint_t cache_flags); 41712f080e7Smrj static int rootnex_verify_buffer(rootnex_dma_t *dma); 41800d0963fSdilpreet static int rootnex_dma_check(dev_info_t *dip, const void *handle, 41900d0963fSdilpreet const void *comp_addr, const void *not_used); 42007c6692fSMark Johnson static boolean_t rootnex_need_bounce_seg(ddi_dma_obj_t *dmar_object, 42107c6692fSMark Johnson rootnex_sglinfo_t *sglinfo); 42250200e77SFrank Van Der Linden static struct as *rootnex_get_as(ddi_dma_obj_t *dmar_object); 42312f080e7Smrj 42412f080e7Smrj /* 42512f080e7Smrj * _init() 42612f080e7Smrj * 42712f080e7Smrj */ 4287c478bd9Sstevel@tonic-gate int 4297c478bd9Sstevel@tonic-gate _init(void) 4307c478bd9Sstevel@tonic-gate { 43112f080e7Smrj 43212f080e7Smrj rootnex_state = NULL; 43312f080e7Smrj return (mod_install(&rootnex_modlinkage)); 4347c478bd9Sstevel@tonic-gate } 4357c478bd9Sstevel@tonic-gate 43612f080e7Smrj 43712f080e7Smrj /* 43812f080e7Smrj * _info() 43912f080e7Smrj * 44012f080e7Smrj */ 44112f080e7Smrj int 44212f080e7Smrj _info(struct modinfo *modinfop) 44312f080e7Smrj { 44412f080e7Smrj return (mod_info(&rootnex_modlinkage, modinfop)); 44512f080e7Smrj } 44612f080e7Smrj 44712f080e7Smrj 44812f080e7Smrj /* 44912f080e7Smrj * _fini() 45012f080e7Smrj * 45112f080e7Smrj */ 4527c478bd9Sstevel@tonic-gate int 4537c478bd9Sstevel@tonic-gate _fini(void) 4547c478bd9Sstevel@tonic-gate { 4557c478bd9Sstevel@tonic-gate return (EBUSY); 4567c478bd9Sstevel@tonic-gate } 4577c478bd9Sstevel@tonic-gate 45812f080e7Smrj 45912f080e7Smrj /* 46012f080e7Smrj * rootnex_attach() 46112f080e7Smrj * 46212f080e7Smrj */ 46312f080e7Smrj static int 46412f080e7Smrj rootnex_attach(dev_info_t *dip, ddi_attach_cmd_t cmd) 4657c478bd9Sstevel@tonic-gate { 4667aec1d6eScindi int fmcap; 46712f080e7Smrj int e; 46812f080e7Smrj 46912f080e7Smrj switch (cmd) { 47012f080e7Smrj case DDI_ATTACH: 47112f080e7Smrj break; 47212f080e7Smrj case DDI_RESUME: 4733a634bfcSVikram Hegde #if defined(__amd64) && !defined(__xpv) 4743a634bfcSVikram Hegde return (immu_unquiesce()); 4753a634bfcSVikram Hegde #else 47612f080e7Smrj return (DDI_SUCCESS); 4773a634bfcSVikram Hegde #endif 47812f080e7Smrj default: 47912f080e7Smrj return (DDI_FAILURE); 4807c478bd9Sstevel@tonic-gate } 4817c478bd9Sstevel@tonic-gate 4827c478bd9Sstevel@tonic-gate /* 48312f080e7Smrj * We should only have one instance of rootnex. Save it away since we 48412f080e7Smrj * don't have an easy way to get it back later. 4857c478bd9Sstevel@tonic-gate */ 48612f080e7Smrj ASSERT(rootnex_state == NULL); 48712f080e7Smrj rootnex_state = kmem_zalloc(sizeof (rootnex_state_t), KM_SLEEP); 4887c478bd9Sstevel@tonic-gate 48912f080e7Smrj rootnex_state->r_dip = dip; 4907aec1d6eScindi rootnex_state->r_err_ibc = (ddi_iblock_cookie_t)ipltospl(15); 49112f080e7Smrj rootnex_state->r_reserved_msg_printed = B_FALSE; 492ef4ab52fSFrank Van Der Linden #ifdef DEBUG 49312f080e7Smrj rootnex_cnt = &rootnex_state->r_counters[0]; 494ef4ab52fSFrank Van Der Linden #endif 4957c478bd9Sstevel@tonic-gate 4967aec1d6eScindi /* 4977aec1d6eScindi * Set minimum fm capability level for i86pc platforms and then 4987aec1d6eScindi * initialize error handling. Since we're the rootnex, we don't 4997aec1d6eScindi * care what's returned in the fmcap field. 5007aec1d6eScindi */ 50100d0963fSdilpreet ddi_system_fmcap = DDI_FM_EREPORT_CAPABLE | DDI_FM_ERRCB_CAPABLE | 50200d0963fSdilpreet DDI_FM_ACCCHK_CAPABLE | DDI_FM_DMACHK_CAPABLE; 5037aec1d6eScindi fmcap = ddi_system_fmcap; 5047aec1d6eScindi ddi_fm_init(dip, &fmcap, &rootnex_state->r_err_ibc); 5057aec1d6eScindi 50612f080e7Smrj /* initialize DMA related state */ 50712f080e7Smrj e = rootnex_dma_init(); 50812f080e7Smrj if (e != DDI_SUCCESS) { 50912f080e7Smrj kmem_free(rootnex_state, sizeof (rootnex_state_t)); 51012f080e7Smrj return (DDI_FAILURE); 51112f080e7Smrj } 51212f080e7Smrj 51312f080e7Smrj /* Add static root node properties */ 51412f080e7Smrj rootnex_add_props(dip); 51512f080e7Smrj 51612f080e7Smrj /* since we can't call ddi_report_dev() */ 51712f080e7Smrj cmn_err(CE_CONT, "?root nexus = %s\n", ddi_get_name(dip)); 51812f080e7Smrj 51912f080e7Smrj /* Initialize rootnex event handle */ 52012f080e7Smrj i_ddi_rootnex_init_events(dip); 52112f080e7Smrj 5223a634bfcSVikram Hegde #if defined(__amd64) && !defined(__xpv) 52320906b23SVikram Hegde e = iommulib_nexus_register(dip, &iommulib_nexops, 52420906b23SVikram Hegde &rootnex_state->r_iommulib_handle); 52520906b23SVikram Hegde 52620906b23SVikram Hegde ASSERT(e == DDI_SUCCESS); 52720906b23SVikram Hegde #endif 52820906b23SVikram Hegde 52912f080e7Smrj return (DDI_SUCCESS); 53012f080e7Smrj } 53112f080e7Smrj 53212f080e7Smrj 53312f080e7Smrj /* 53412f080e7Smrj * rootnex_detach() 53512f080e7Smrj * 53612f080e7Smrj */ 5377c478bd9Sstevel@tonic-gate /*ARGSUSED*/ 5387c478bd9Sstevel@tonic-gate static int 53912f080e7Smrj rootnex_detach(dev_info_t *dip, ddi_detach_cmd_t cmd) 5407c478bd9Sstevel@tonic-gate { 54112f080e7Smrj switch (cmd) { 54212f080e7Smrj case DDI_SUSPEND: 5433a634bfcSVikram Hegde #if defined(__amd64) && !defined(__xpv) 5443a634bfcSVikram Hegde return (immu_quiesce()); 5453a634bfcSVikram Hegde #else 5463a634bfcSVikram Hegde return (DDI_SUCCESS); 5473a634bfcSVikram Hegde #endif 54812f080e7Smrj default: 54912f080e7Smrj return (DDI_FAILURE); 55012f080e7Smrj } 5513a634bfcSVikram Hegde /*NOTREACHED*/ 5527c478bd9Sstevel@tonic-gate 55312f080e7Smrj } 5547c478bd9Sstevel@tonic-gate 5557c478bd9Sstevel@tonic-gate 55612f080e7Smrj /* 55712f080e7Smrj * rootnex_dma_init() 55812f080e7Smrj * 55912f080e7Smrj */ 56012f080e7Smrj /*ARGSUSED*/ 56112f080e7Smrj static int 56212f080e7Smrj rootnex_dma_init() 56312f080e7Smrj { 56412f080e7Smrj size_t bufsize; 56512f080e7Smrj 56612f080e7Smrj 56712f080e7Smrj /* 56812f080e7Smrj * size of our cookie/window/copybuf state needed in dma bind that we 56912f080e7Smrj * pre-alloc in dma_alloc_handle 57012f080e7Smrj */ 57112f080e7Smrj rootnex_state->r_prealloc_cookies = rootnex_prealloc_cookies; 57212f080e7Smrj rootnex_state->r_prealloc_size = 57312f080e7Smrj (rootnex_state->r_prealloc_cookies * sizeof (ddi_dma_cookie_t)) + 57412f080e7Smrj (rootnex_prealloc_windows * sizeof (rootnex_window_t)) + 57512f080e7Smrj (rootnex_prealloc_copybuf * sizeof (rootnex_pgmap_t)); 57612f080e7Smrj 57712f080e7Smrj /* 57812f080e7Smrj * setup DDI DMA handle kmem cache, align each handle on 64 bytes, 57912f080e7Smrj * allocate 16 extra bytes for struct pointer alignment 58012f080e7Smrj * (p->dmai_private & dma->dp_prealloc_buffer) 58112f080e7Smrj */ 58212f080e7Smrj bufsize = sizeof (ddi_dma_impl_t) + sizeof (rootnex_dma_t) + 58312f080e7Smrj rootnex_state->r_prealloc_size + 0x10; 58412f080e7Smrj rootnex_state->r_dmahdl_cache = kmem_cache_create("rootnex_dmahdl", 58512f080e7Smrj bufsize, 64, NULL, NULL, NULL, NULL, NULL, 0); 58612f080e7Smrj if (rootnex_state->r_dmahdl_cache == NULL) { 58712f080e7Smrj return (DDI_FAILURE); 58812f080e7Smrj } 5897c478bd9Sstevel@tonic-gate 5907c478bd9Sstevel@tonic-gate /* 5917c478bd9Sstevel@tonic-gate * allocate array to track which major numbers we have printed warnings 5927c478bd9Sstevel@tonic-gate * for. 5937c478bd9Sstevel@tonic-gate */ 5947c478bd9Sstevel@tonic-gate rootnex_warn_list = kmem_zalloc(devcnt * sizeof (*rootnex_warn_list), 5957c478bd9Sstevel@tonic-gate KM_SLEEP); 5967c478bd9Sstevel@tonic-gate 5977c478bd9Sstevel@tonic-gate return (DDI_SUCCESS); 5987c478bd9Sstevel@tonic-gate } 5997c478bd9Sstevel@tonic-gate 6007c478bd9Sstevel@tonic-gate 6017c478bd9Sstevel@tonic-gate /* 60212f080e7Smrj * rootnex_add_props() 60312f080e7Smrj * 6047c478bd9Sstevel@tonic-gate */ 6057c478bd9Sstevel@tonic-gate static void 60612f080e7Smrj rootnex_add_props(dev_info_t *dip) 6077c478bd9Sstevel@tonic-gate { 60812f080e7Smrj rootnex_intprop_t *rpp; 6097c478bd9Sstevel@tonic-gate int i; 6107c478bd9Sstevel@tonic-gate 61112f080e7Smrj /* Add static integer/boolean properties to the root node */ 61212f080e7Smrj rpp = rootnex_intprp; 61312f080e7Smrj for (i = 0; i < NROOT_INTPROPS; i++) { 61412f080e7Smrj (void) e_ddi_prop_update_int(DDI_DEV_T_NONE, dip, 61512f080e7Smrj rpp[i].prop_name, rpp[i].prop_value); 61612f080e7Smrj } 6177c478bd9Sstevel@tonic-gate } 6187c478bd9Sstevel@tonic-gate 61912f080e7Smrj 62012f080e7Smrj 6217c478bd9Sstevel@tonic-gate /* 62212f080e7Smrj * ************************* 62312f080e7Smrj * ctlops related routines 62412f080e7Smrj * ************************* 62512f080e7Smrj */ 62612f080e7Smrj 62712f080e7Smrj /* 62812f080e7Smrj * rootnex_ctlops() 6297c478bd9Sstevel@tonic-gate * 6307c478bd9Sstevel@tonic-gate */ 631a195726fSgovinda /*ARGSUSED*/ 6327c478bd9Sstevel@tonic-gate static int 63312f080e7Smrj rootnex_ctlops(dev_info_t *dip, dev_info_t *rdip, ddi_ctl_enum_t ctlop, 63412f080e7Smrj void *arg, void *result) 6357c478bd9Sstevel@tonic-gate { 63612f080e7Smrj int n, *ptr; 63712f080e7Smrj struct ddi_parent_private_data *pdp; 6387c478bd9Sstevel@tonic-gate 63912f080e7Smrj switch (ctlop) { 64012f080e7Smrj case DDI_CTLOPS_DMAPMAPC: 6417c478bd9Sstevel@tonic-gate /* 64212f080e7Smrj * Return 'partial' to indicate that dma mapping 64312f080e7Smrj * has to be done in the main MMU. 6447c478bd9Sstevel@tonic-gate */ 64512f080e7Smrj return (DDI_DMA_PARTIAL); 6467c478bd9Sstevel@tonic-gate 64712f080e7Smrj case DDI_CTLOPS_BTOP: 6487c478bd9Sstevel@tonic-gate /* 64912f080e7Smrj * Convert byte count input to physical page units. 65012f080e7Smrj * (byte counts that are not a page-size multiple 65112f080e7Smrj * are rounded down) 6527c478bd9Sstevel@tonic-gate */ 65312f080e7Smrj *(ulong_t *)result = btop(*(ulong_t *)arg); 6547c478bd9Sstevel@tonic-gate return (DDI_SUCCESS); 6557c478bd9Sstevel@tonic-gate 65612f080e7Smrj case DDI_CTLOPS_PTOB: 6577c478bd9Sstevel@tonic-gate /* 65812f080e7Smrj * Convert size in physical pages to bytes 6597c478bd9Sstevel@tonic-gate */ 66012f080e7Smrj *(ulong_t *)result = ptob(*(ulong_t *)arg); 6617c478bd9Sstevel@tonic-gate return (DDI_SUCCESS); 6627c478bd9Sstevel@tonic-gate 66312f080e7Smrj case DDI_CTLOPS_BTOPR: 6647c478bd9Sstevel@tonic-gate /* 66512f080e7Smrj * Convert byte count input to physical page units 66612f080e7Smrj * (byte counts that are not a page-size multiple 66712f080e7Smrj * are rounded up) 6687c478bd9Sstevel@tonic-gate */ 66912f080e7Smrj *(ulong_t *)result = btopr(*(ulong_t *)arg); 67012f080e7Smrj return (DDI_SUCCESS); 67112f080e7Smrj 67212f080e7Smrj case DDI_CTLOPS_INITCHILD: 67312f080e7Smrj return (impl_ddi_sunbus_initchild(arg)); 67412f080e7Smrj 67512f080e7Smrj case DDI_CTLOPS_UNINITCHILD: 67612f080e7Smrj impl_ddi_sunbus_removechild(arg); 67712f080e7Smrj return (DDI_SUCCESS); 67812f080e7Smrj 67912f080e7Smrj case DDI_CTLOPS_REPORTDEV: 68012f080e7Smrj return (rootnex_ctl_reportdev(rdip)); 68112f080e7Smrj 68212f080e7Smrj case DDI_CTLOPS_IOMIN: 6837c478bd9Sstevel@tonic-gate /* 68412f080e7Smrj * Nothing to do here but reflect back.. 6857c478bd9Sstevel@tonic-gate */ 6867c478bd9Sstevel@tonic-gate return (DDI_SUCCESS); 6877c478bd9Sstevel@tonic-gate 68812f080e7Smrj case DDI_CTLOPS_REGSIZE: 68912f080e7Smrj case DDI_CTLOPS_NREGS: 69012f080e7Smrj break; 6917c478bd9Sstevel@tonic-gate 69212f080e7Smrj case DDI_CTLOPS_SIDDEV: 69312f080e7Smrj if (ndi_dev_is_prom_node(rdip)) 6947c478bd9Sstevel@tonic-gate return (DDI_SUCCESS); 69512f080e7Smrj if (ndi_dev_is_persistent_node(rdip)) 69612f080e7Smrj return (DDI_SUCCESS); 6977c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 6987c478bd9Sstevel@tonic-gate 69912f080e7Smrj case DDI_CTLOPS_POWER: 70012f080e7Smrj return ((*pm_platform_power)((power_req_t *)arg)); 70112f080e7Smrj 702a195726fSgovinda case DDI_CTLOPS_RESERVED0: /* Was DDI_CTLOPS_NINTRS, obsolete */ 70312f080e7Smrj case DDI_CTLOPS_RESERVED1: /* Was DDI_CTLOPS_POKE_INIT, obsolete */ 70412f080e7Smrj case DDI_CTLOPS_RESERVED2: /* Was DDI_CTLOPS_POKE_FLUSH, obsolete */ 70512f080e7Smrj case DDI_CTLOPS_RESERVED3: /* Was DDI_CTLOPS_POKE_FINI, obsolete */ 706a195726fSgovinda case DDI_CTLOPS_RESERVED4: /* Was DDI_CTLOPS_INTR_HILEVEL, obsolete */ 707a195726fSgovinda case DDI_CTLOPS_RESERVED5: /* Was DDI_CTLOPS_XLATE_INTRS, obsolete */ 70812f080e7Smrj if (!rootnex_state->r_reserved_msg_printed) { 70912f080e7Smrj rootnex_state->r_reserved_msg_printed = B_TRUE; 71012f080e7Smrj cmn_err(CE_WARN, "Failing ddi_ctlops call(s) for " 71112f080e7Smrj "1 or more reserved/obsolete operations."); 7127c478bd9Sstevel@tonic-gate } 71312f080e7Smrj return (DDI_FAILURE); 7147c478bd9Sstevel@tonic-gate 7157c478bd9Sstevel@tonic-gate default: 7167c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 7177c478bd9Sstevel@tonic-gate } 71812f080e7Smrj /* 71912f080e7Smrj * The rest are for "hardware" properties 72012f080e7Smrj */ 72112f080e7Smrj if ((pdp = ddi_get_parent_data(rdip)) == NULL) 72212f080e7Smrj return (DDI_FAILURE); 7237c478bd9Sstevel@tonic-gate 72412f080e7Smrj if (ctlop == DDI_CTLOPS_NREGS) { 72512f080e7Smrj ptr = (int *)result; 72612f080e7Smrj *ptr = pdp->par_nreg; 72712f080e7Smrj } else { 72812f080e7Smrj off_t *size = (off_t *)result; 7297c478bd9Sstevel@tonic-gate 73012f080e7Smrj ptr = (int *)arg; 73112f080e7Smrj n = *ptr; 73212f080e7Smrj if (n >= pdp->par_nreg) { 73312f080e7Smrj return (DDI_FAILURE); 73412f080e7Smrj } 73512f080e7Smrj *size = (off_t)pdp->par_reg[n].regspec_size; 73612f080e7Smrj } 7377c478bd9Sstevel@tonic-gate return (DDI_SUCCESS); 7387c478bd9Sstevel@tonic-gate } 7397c478bd9Sstevel@tonic-gate 74012f080e7Smrj 74112f080e7Smrj /* 74212f080e7Smrj * rootnex_ctl_reportdev() 74312f080e7Smrj * 74412f080e7Smrj */ 7457c478bd9Sstevel@tonic-gate static int 74612f080e7Smrj rootnex_ctl_reportdev(dev_info_t *dev) 74712f080e7Smrj { 74812f080e7Smrj int i, n, len, f_len = 0; 74912f080e7Smrj char *buf; 75012f080e7Smrj 75112f080e7Smrj buf = kmem_alloc(REPORTDEV_BUFSIZE, KM_SLEEP); 75212f080e7Smrj f_len += snprintf(buf, REPORTDEV_BUFSIZE, 75312f080e7Smrj "%s%d at root", ddi_driver_name(dev), ddi_get_instance(dev)); 75412f080e7Smrj len = strlen(buf); 75512f080e7Smrj 75612f080e7Smrj for (i = 0; i < sparc_pd_getnreg(dev); i++) { 75712f080e7Smrj 75812f080e7Smrj struct regspec *rp = sparc_pd_getreg(dev, i); 75912f080e7Smrj 76012f080e7Smrj if (i == 0) 76112f080e7Smrj f_len += snprintf(buf + len, REPORTDEV_BUFSIZE - len, 76212f080e7Smrj ": "); 76312f080e7Smrj else 76412f080e7Smrj f_len += snprintf(buf + len, REPORTDEV_BUFSIZE - len, 76512f080e7Smrj " and "); 76612f080e7Smrj len = strlen(buf); 76712f080e7Smrj 76812f080e7Smrj switch (rp->regspec_bustype) { 76912f080e7Smrj 77012f080e7Smrj case BTEISA: 77112f080e7Smrj f_len += snprintf(buf + len, REPORTDEV_BUFSIZE - len, 77212f080e7Smrj "%s 0x%x", DEVI_EISA_NEXNAME, rp->regspec_addr); 77312f080e7Smrj break; 77412f080e7Smrj 77512f080e7Smrj case BTISA: 77612f080e7Smrj f_len += snprintf(buf + len, REPORTDEV_BUFSIZE - len, 77712f080e7Smrj "%s 0x%x", DEVI_ISA_NEXNAME, rp->regspec_addr); 77812f080e7Smrj break; 77912f080e7Smrj 78012f080e7Smrj default: 78112f080e7Smrj f_len += snprintf(buf + len, REPORTDEV_BUFSIZE - len, 78212f080e7Smrj "space %x offset %x", 78312f080e7Smrj rp->regspec_bustype, rp->regspec_addr); 78412f080e7Smrj break; 78512f080e7Smrj } 78612f080e7Smrj len = strlen(buf); 78712f080e7Smrj } 78812f080e7Smrj for (i = 0, n = sparc_pd_getnintr(dev); i < n; i++) { 78912f080e7Smrj int pri; 79012f080e7Smrj 79112f080e7Smrj if (i != 0) { 79212f080e7Smrj f_len += snprintf(buf + len, REPORTDEV_BUFSIZE - len, 79312f080e7Smrj ","); 79412f080e7Smrj len = strlen(buf); 79512f080e7Smrj } 79612f080e7Smrj pri = INT_IPL(sparc_pd_getintr(dev, i)->intrspec_pri); 79712f080e7Smrj f_len += snprintf(buf + len, REPORTDEV_BUFSIZE - len, 79812f080e7Smrj " sparc ipl %d", pri); 79912f080e7Smrj len = strlen(buf); 80012f080e7Smrj } 80112f080e7Smrj #ifdef DEBUG 80212f080e7Smrj if (f_len + 1 >= REPORTDEV_BUFSIZE) { 80312f080e7Smrj cmn_err(CE_NOTE, "next message is truncated: " 80412f080e7Smrj "printed length 1024, real length %d", f_len); 80512f080e7Smrj } 80612f080e7Smrj #endif /* DEBUG */ 80712f080e7Smrj cmn_err(CE_CONT, "?%s\n", buf); 80812f080e7Smrj kmem_free(buf, REPORTDEV_BUFSIZE); 80912f080e7Smrj return (DDI_SUCCESS); 81012f080e7Smrj } 81112f080e7Smrj 81212f080e7Smrj 81312f080e7Smrj /* 81412f080e7Smrj * ****************** 81512f080e7Smrj * map related code 81612f080e7Smrj * ****************** 81712f080e7Smrj */ 81812f080e7Smrj 81912f080e7Smrj /* 82012f080e7Smrj * rootnex_map() 82112f080e7Smrj * 82212f080e7Smrj */ 82312f080e7Smrj static int 82412f080e7Smrj rootnex_map(dev_info_t *dip, dev_info_t *rdip, ddi_map_req_t *mp, off_t offset, 82512f080e7Smrj off_t len, caddr_t *vaddrp) 8267c478bd9Sstevel@tonic-gate { 8277c478bd9Sstevel@tonic-gate struct regspec *rp, tmp_reg; 8287c478bd9Sstevel@tonic-gate ddi_map_req_t mr = *mp; /* Get private copy of request */ 8297c478bd9Sstevel@tonic-gate int error; 8307c478bd9Sstevel@tonic-gate 8317c478bd9Sstevel@tonic-gate mp = &mr; 8327c478bd9Sstevel@tonic-gate 8337c478bd9Sstevel@tonic-gate switch (mp->map_op) { 8347c478bd9Sstevel@tonic-gate case DDI_MO_MAP_LOCKED: 8357c478bd9Sstevel@tonic-gate case DDI_MO_UNMAP: 8367c478bd9Sstevel@tonic-gate case DDI_MO_MAP_HANDLE: 8377c478bd9Sstevel@tonic-gate break; 8387c478bd9Sstevel@tonic-gate default: 8397c478bd9Sstevel@tonic-gate #ifdef DDI_MAP_DEBUG 8407c478bd9Sstevel@tonic-gate cmn_err(CE_WARN, "rootnex_map: unimplemented map op %d.", 8417c478bd9Sstevel@tonic-gate mp->map_op); 8427c478bd9Sstevel@tonic-gate #endif /* DDI_MAP_DEBUG */ 8437c478bd9Sstevel@tonic-gate return (DDI_ME_UNIMPLEMENTED); 8447c478bd9Sstevel@tonic-gate } 8457c478bd9Sstevel@tonic-gate 8467c478bd9Sstevel@tonic-gate if (mp->map_flags & DDI_MF_USER_MAPPING) { 8477c478bd9Sstevel@tonic-gate #ifdef DDI_MAP_DEBUG 8487c478bd9Sstevel@tonic-gate cmn_err(CE_WARN, "rootnex_map: unimplemented map type: user."); 8497c478bd9Sstevel@tonic-gate #endif /* DDI_MAP_DEBUG */ 8507c478bd9Sstevel@tonic-gate return (DDI_ME_UNIMPLEMENTED); 8517c478bd9Sstevel@tonic-gate } 8527c478bd9Sstevel@tonic-gate 8537c478bd9Sstevel@tonic-gate /* 8547c478bd9Sstevel@tonic-gate * First, if given an rnumber, convert it to a regspec... 8557c478bd9Sstevel@tonic-gate * (Presumably, this is on behalf of a child of the root node?) 8567c478bd9Sstevel@tonic-gate */ 8577c478bd9Sstevel@tonic-gate 8587c478bd9Sstevel@tonic-gate if (mp->map_type == DDI_MT_RNUMBER) { 8597c478bd9Sstevel@tonic-gate 8607c478bd9Sstevel@tonic-gate int rnumber = mp->map_obj.rnumber; 8617c478bd9Sstevel@tonic-gate #ifdef DDI_MAP_DEBUG 8627c478bd9Sstevel@tonic-gate static char *out_of_range = 8637c478bd9Sstevel@tonic-gate "rootnex_map: Out of range rnumber <%d>, device <%s>"; 8647c478bd9Sstevel@tonic-gate #endif /* DDI_MAP_DEBUG */ 8657c478bd9Sstevel@tonic-gate 8667c478bd9Sstevel@tonic-gate rp = i_ddi_rnumber_to_regspec(rdip, rnumber); 8677c478bd9Sstevel@tonic-gate if (rp == NULL) { 8687c478bd9Sstevel@tonic-gate #ifdef DDI_MAP_DEBUG 8697c478bd9Sstevel@tonic-gate cmn_err(CE_WARN, out_of_range, rnumber, 8707c478bd9Sstevel@tonic-gate ddi_get_name(rdip)); 8717c478bd9Sstevel@tonic-gate #endif /* DDI_MAP_DEBUG */ 8727c478bd9Sstevel@tonic-gate return (DDI_ME_RNUMBER_RANGE); 8737c478bd9Sstevel@tonic-gate } 8747c478bd9Sstevel@tonic-gate 8757c478bd9Sstevel@tonic-gate /* 8767c478bd9Sstevel@tonic-gate * Convert the given ddi_map_req_t from rnumber to regspec... 8777c478bd9Sstevel@tonic-gate */ 8787c478bd9Sstevel@tonic-gate 8797c478bd9Sstevel@tonic-gate mp->map_type = DDI_MT_REGSPEC; 8807c478bd9Sstevel@tonic-gate mp->map_obj.rp = rp; 8817c478bd9Sstevel@tonic-gate } 8827c478bd9Sstevel@tonic-gate 8837c478bd9Sstevel@tonic-gate /* 8847c478bd9Sstevel@tonic-gate * Adjust offset and length correspnding to called values... 8857c478bd9Sstevel@tonic-gate * XXX: A non-zero length means override the one in the regspec 8867c478bd9Sstevel@tonic-gate * XXX: (regardless of what's in the parent's range?) 8877c478bd9Sstevel@tonic-gate */ 8887c478bd9Sstevel@tonic-gate 8897c478bd9Sstevel@tonic-gate tmp_reg = *(mp->map_obj.rp); /* Preserve underlying data */ 8907c478bd9Sstevel@tonic-gate rp = mp->map_obj.rp = &tmp_reg; /* Use tmp_reg in request */ 8917c478bd9Sstevel@tonic-gate 8927c478bd9Sstevel@tonic-gate #ifdef DDI_MAP_DEBUG 893843e1988Sjohnlev cmn_err(CE_CONT, "rootnex: <%s,%s> <0x%x, 0x%x, 0x%d> offset %d len %d " 894843e1988Sjohnlev "handle 0x%x\n", ddi_get_name(dip), ddi_get_name(rdip), 895843e1988Sjohnlev rp->regspec_bustype, rp->regspec_addr, rp->regspec_size, offset, 896843e1988Sjohnlev len, mp->map_handlep); 8977c478bd9Sstevel@tonic-gate #endif /* DDI_MAP_DEBUG */ 8987c478bd9Sstevel@tonic-gate 8997c478bd9Sstevel@tonic-gate /* 9007c478bd9Sstevel@tonic-gate * I/O or memory mapping: 9017c478bd9Sstevel@tonic-gate * 9027c478bd9Sstevel@tonic-gate * <bustype=0, addr=x, len=x>: memory 9037c478bd9Sstevel@tonic-gate * <bustype=1, addr=x, len=x>: i/o 9047c478bd9Sstevel@tonic-gate * <bustype>1, addr=0, len=x>: x86-compatibility i/o 9057c478bd9Sstevel@tonic-gate */ 9067c478bd9Sstevel@tonic-gate 9077c478bd9Sstevel@tonic-gate if (rp->regspec_bustype > 1 && rp->regspec_addr != 0) { 9087c478bd9Sstevel@tonic-gate cmn_err(CE_WARN, "<%s,%s> invalid register spec" 9097c478bd9Sstevel@tonic-gate " <0x%x, 0x%x, 0x%x>", ddi_get_name(dip), 9107c478bd9Sstevel@tonic-gate ddi_get_name(rdip), rp->regspec_bustype, 9117c478bd9Sstevel@tonic-gate rp->regspec_addr, rp->regspec_size); 9127c478bd9Sstevel@tonic-gate return (DDI_ME_INVAL); 9137c478bd9Sstevel@tonic-gate } 9147c478bd9Sstevel@tonic-gate 9157c478bd9Sstevel@tonic-gate if (rp->regspec_bustype > 1 && rp->regspec_addr == 0) { 9167c478bd9Sstevel@tonic-gate /* 9177c478bd9Sstevel@tonic-gate * compatibility i/o mapping 9187c478bd9Sstevel@tonic-gate */ 9197c478bd9Sstevel@tonic-gate rp->regspec_bustype += (uint_t)offset; 9207c478bd9Sstevel@tonic-gate } else { 9217c478bd9Sstevel@tonic-gate /* 9227c478bd9Sstevel@tonic-gate * Normal memory or i/o mapping 9237c478bd9Sstevel@tonic-gate */ 9247c478bd9Sstevel@tonic-gate rp->regspec_addr += (uint_t)offset; 9257c478bd9Sstevel@tonic-gate } 9267c478bd9Sstevel@tonic-gate 9277c478bd9Sstevel@tonic-gate if (len != 0) 9287c478bd9Sstevel@tonic-gate rp->regspec_size = (uint_t)len; 9297c478bd9Sstevel@tonic-gate 9307c478bd9Sstevel@tonic-gate #ifdef DDI_MAP_DEBUG 931843e1988Sjohnlev cmn_err(CE_CONT, " <%s,%s> <0x%x, 0x%x, 0x%d> offset %d " 932843e1988Sjohnlev "len %d handle 0x%x\n", ddi_get_name(dip), ddi_get_name(rdip), 9337c478bd9Sstevel@tonic-gate rp->regspec_bustype, rp->regspec_addr, rp->regspec_size, 9347c478bd9Sstevel@tonic-gate offset, len, mp->map_handlep); 9357c478bd9Sstevel@tonic-gate #endif /* DDI_MAP_DEBUG */ 9367c478bd9Sstevel@tonic-gate 9377c478bd9Sstevel@tonic-gate /* 9387c478bd9Sstevel@tonic-gate * Apply any parent ranges at this level, if applicable. 9397c478bd9Sstevel@tonic-gate * (This is where nexus specific regspec translation takes place. 9407c478bd9Sstevel@tonic-gate * Use of this function is implicit agreement that translation is 9417c478bd9Sstevel@tonic-gate * provided via ddi_apply_range.) 9427c478bd9Sstevel@tonic-gate */ 9437c478bd9Sstevel@tonic-gate 9447c478bd9Sstevel@tonic-gate #ifdef DDI_MAP_DEBUG 9457c478bd9Sstevel@tonic-gate ddi_map_debug("applying range of parent <%s> to child <%s>...\n", 9467c478bd9Sstevel@tonic-gate ddi_get_name(dip), ddi_get_name(rdip)); 9477c478bd9Sstevel@tonic-gate #endif /* DDI_MAP_DEBUG */ 9487c478bd9Sstevel@tonic-gate 9497c478bd9Sstevel@tonic-gate if ((error = i_ddi_apply_range(dip, rdip, mp->map_obj.rp)) != 0) 9507c478bd9Sstevel@tonic-gate return (error); 9517c478bd9Sstevel@tonic-gate 9527c478bd9Sstevel@tonic-gate switch (mp->map_op) { 9537c478bd9Sstevel@tonic-gate case DDI_MO_MAP_LOCKED: 9547c478bd9Sstevel@tonic-gate 9557c478bd9Sstevel@tonic-gate /* 9567c478bd9Sstevel@tonic-gate * Set up the locked down kernel mapping to the regspec... 9577c478bd9Sstevel@tonic-gate */ 9587c478bd9Sstevel@tonic-gate 9597c478bd9Sstevel@tonic-gate return (rootnex_map_regspec(mp, vaddrp)); 9607c478bd9Sstevel@tonic-gate 9617c478bd9Sstevel@tonic-gate case DDI_MO_UNMAP: 9627c478bd9Sstevel@tonic-gate 9637c478bd9Sstevel@tonic-gate /* 9647c478bd9Sstevel@tonic-gate * Release mapping... 9657c478bd9Sstevel@tonic-gate */ 9667c478bd9Sstevel@tonic-gate 9677c478bd9Sstevel@tonic-gate return (rootnex_unmap_regspec(mp, vaddrp)); 9687c478bd9Sstevel@tonic-gate 9697c478bd9Sstevel@tonic-gate case DDI_MO_MAP_HANDLE: 9707c478bd9Sstevel@tonic-gate 9717c478bd9Sstevel@tonic-gate return (rootnex_map_handle(mp)); 9727c478bd9Sstevel@tonic-gate 9737c478bd9Sstevel@tonic-gate default: 9747c478bd9Sstevel@tonic-gate return (DDI_ME_UNIMPLEMENTED); 9757c478bd9Sstevel@tonic-gate } 9767c478bd9Sstevel@tonic-gate } 9777c478bd9Sstevel@tonic-gate 9787c478bd9Sstevel@tonic-gate 9797c478bd9Sstevel@tonic-gate /* 98012f080e7Smrj * rootnex_map_fault() 9817c478bd9Sstevel@tonic-gate * 9827c478bd9Sstevel@tonic-gate * fault in mappings for requestors 9837c478bd9Sstevel@tonic-gate */ 9847c478bd9Sstevel@tonic-gate /*ARGSUSED*/ 9857c478bd9Sstevel@tonic-gate static int 98612f080e7Smrj rootnex_map_fault(dev_info_t *dip, dev_info_t *rdip, struct hat *hat, 98712f080e7Smrj struct seg *seg, caddr_t addr, struct devpage *dp, pfn_t pfn, uint_t prot, 98812f080e7Smrj uint_t lock) 9897c478bd9Sstevel@tonic-gate { 9907c478bd9Sstevel@tonic-gate 9917c478bd9Sstevel@tonic-gate #ifdef DDI_MAP_DEBUG 9927c478bd9Sstevel@tonic-gate ddi_map_debug("rootnex_map_fault: address <%x> pfn <%x>", addr, pfn); 9937c478bd9Sstevel@tonic-gate ddi_map_debug(" Seg <%s>\n", 9947c478bd9Sstevel@tonic-gate seg->s_ops == &segdev_ops ? "segdev" : 9957c478bd9Sstevel@tonic-gate seg == &kvseg ? "segkmem" : "NONE!"); 9967c478bd9Sstevel@tonic-gate #endif /* DDI_MAP_DEBUG */ 9977c478bd9Sstevel@tonic-gate 9987c478bd9Sstevel@tonic-gate /* 9997c478bd9Sstevel@tonic-gate * This is all terribly broken, but it is a start 10007c478bd9Sstevel@tonic-gate * 10017c478bd9Sstevel@tonic-gate * XXX Note that this test means that segdev_ops 10027c478bd9Sstevel@tonic-gate * must be exported from seg_dev.c. 10037c478bd9Sstevel@tonic-gate * XXX What about devices with their own segment drivers? 10047c478bd9Sstevel@tonic-gate */ 10057c478bd9Sstevel@tonic-gate if (seg->s_ops == &segdev_ops) { 1006843e1988Sjohnlev struct segdev_data *sdp = (struct segdev_data *)seg->s_data; 10077c478bd9Sstevel@tonic-gate 10087c478bd9Sstevel@tonic-gate if (hat == NULL) { 10097c478bd9Sstevel@tonic-gate /* 10107c478bd9Sstevel@tonic-gate * This is one plausible interpretation of 10117c478bd9Sstevel@tonic-gate * a null hat i.e. use the first hat on the 10127c478bd9Sstevel@tonic-gate * address space hat list which by convention is 10137c478bd9Sstevel@tonic-gate * the hat of the system MMU. At alternative 10147c478bd9Sstevel@tonic-gate * would be to panic .. this might well be better .. 10157c478bd9Sstevel@tonic-gate */ 10167c478bd9Sstevel@tonic-gate ASSERT(AS_READ_HELD(seg->s_as, &seg->s_as->a_lock)); 10177c478bd9Sstevel@tonic-gate hat = seg->s_as->a_hat; 10187c478bd9Sstevel@tonic-gate cmn_err(CE_NOTE, "rootnex_map_fault: nil hat"); 10197c478bd9Sstevel@tonic-gate } 10207c478bd9Sstevel@tonic-gate hat_devload(hat, addr, MMU_PAGESIZE, pfn, prot | sdp->hat_attr, 10217c478bd9Sstevel@tonic-gate (lock ? HAT_LOAD_LOCK : HAT_LOAD)); 10227c478bd9Sstevel@tonic-gate } else if (seg == &kvseg && dp == NULL) { 10237c478bd9Sstevel@tonic-gate hat_devload(kas.a_hat, addr, MMU_PAGESIZE, pfn, prot, 10247c478bd9Sstevel@tonic-gate HAT_LOAD_LOCK); 10257c478bd9Sstevel@tonic-gate } else 10267c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 10277c478bd9Sstevel@tonic-gate return (DDI_SUCCESS); 10287c478bd9Sstevel@tonic-gate } 10297c478bd9Sstevel@tonic-gate 10307c478bd9Sstevel@tonic-gate 10317c478bd9Sstevel@tonic-gate /* 103212f080e7Smrj * rootnex_map_regspec() 103312f080e7Smrj * we don't support mapping of I/O cards above 4Gb 10347c478bd9Sstevel@tonic-gate */ 10357c478bd9Sstevel@tonic-gate static int 103612f080e7Smrj rootnex_map_regspec(ddi_map_req_t *mp, caddr_t *vaddrp) 10377c478bd9Sstevel@tonic-gate { 1038843e1988Sjohnlev rootnex_addr_t rbase; 103912f080e7Smrj void *cvaddr; 104012f080e7Smrj uint_t npages, pgoffset; 104112f080e7Smrj struct regspec *rp; 104212f080e7Smrj ddi_acc_hdl_t *hp; 104312f080e7Smrj ddi_acc_impl_t *ap; 104412f080e7Smrj uint_t hat_acc_flags; 1045843e1988Sjohnlev paddr_t pbase; 10467c478bd9Sstevel@tonic-gate 104712f080e7Smrj rp = mp->map_obj.rp; 104812f080e7Smrj hp = mp->map_handlep; 104912f080e7Smrj 105012f080e7Smrj #ifdef DDI_MAP_DEBUG 105112f080e7Smrj ddi_map_debug( 105212f080e7Smrj "rootnex_map_regspec: <0x%x 0x%x 0x%x> handle 0x%x\n", 105312f080e7Smrj rp->regspec_bustype, rp->regspec_addr, 105412f080e7Smrj rp->regspec_size, mp->map_handlep); 105512f080e7Smrj #endif /* DDI_MAP_DEBUG */ 10567c478bd9Sstevel@tonic-gate 10577c478bd9Sstevel@tonic-gate /* 105812f080e7Smrj * I/O or memory mapping 105912f080e7Smrj * 106012f080e7Smrj * <bustype=0, addr=x, len=x>: memory 106112f080e7Smrj * <bustype=1, addr=x, len=x>: i/o 106212f080e7Smrj * <bustype>1, addr=0, len=x>: x86-compatibility i/o 10637c478bd9Sstevel@tonic-gate */ 106412f080e7Smrj 106512f080e7Smrj if (rp->regspec_bustype > 1 && rp->regspec_addr != 0) { 106612f080e7Smrj cmn_err(CE_WARN, "rootnex: invalid register spec" 106712f080e7Smrj " <0x%x, 0x%x, 0x%x>", rp->regspec_bustype, 106812f080e7Smrj rp->regspec_addr, rp->regspec_size); 106912f080e7Smrj return (DDI_FAILURE); 10707c478bd9Sstevel@tonic-gate } 107112f080e7Smrj 107212f080e7Smrj if (rp->regspec_bustype != 0) { 10737c478bd9Sstevel@tonic-gate /* 107412f080e7Smrj * I/O space - needs a handle. 10757c478bd9Sstevel@tonic-gate */ 10767c478bd9Sstevel@tonic-gate if (hp == NULL) { 107712f080e7Smrj return (DDI_FAILURE); 10787c478bd9Sstevel@tonic-gate } 107912f080e7Smrj ap = (ddi_acc_impl_t *)hp->ah_platform_private; 108012f080e7Smrj ap->ahi_acc_attr |= DDI_ACCATTR_IO_SPACE; 108112f080e7Smrj impl_acc_hdl_init(hp); 10827c478bd9Sstevel@tonic-gate 108312f080e7Smrj if (mp->map_flags & DDI_MF_DEVICE_MAPPING) { 108412f080e7Smrj #ifdef DDI_MAP_DEBUG 1085843e1988Sjohnlev ddi_map_debug("rootnex_map_regspec: mmap() " 1086843e1988Sjohnlev "to I/O space is not supported.\n"); 108712f080e7Smrj #endif /* DDI_MAP_DEBUG */ 108812f080e7Smrj return (DDI_ME_INVAL); 10897c478bd9Sstevel@tonic-gate } else { 10907c478bd9Sstevel@tonic-gate /* 109112f080e7Smrj * 1275-compliant vs. compatibility i/o mapping 10927c478bd9Sstevel@tonic-gate */ 109312f080e7Smrj *vaddrp = 109412f080e7Smrj (rp->regspec_bustype > 1 && rp->regspec_addr == 0) ? 109512f080e7Smrj ((caddr_t)(uintptr_t)rp->regspec_bustype) : 109612f080e7Smrj ((caddr_t)(uintptr_t)rp->regspec_addr); 1097843e1988Sjohnlev #ifdef __xpv 1098843e1988Sjohnlev if (DOMAIN_IS_INITDOMAIN(xen_info)) { 1099843e1988Sjohnlev hp->ah_pfn = xen_assign_pfn( 1100843e1988Sjohnlev mmu_btop((ulong_t)rp->regspec_addr & 1101843e1988Sjohnlev MMU_PAGEMASK)); 1102843e1988Sjohnlev } else { 1103843e1988Sjohnlev hp->ah_pfn = mmu_btop( 1104843e1988Sjohnlev (ulong_t)rp->regspec_addr & MMU_PAGEMASK); 1105843e1988Sjohnlev } 1106843e1988Sjohnlev #else 110700d0963fSdilpreet hp->ah_pfn = mmu_btop((ulong_t)rp->regspec_addr & 1108843e1988Sjohnlev MMU_PAGEMASK); 1109843e1988Sjohnlev #endif 111000d0963fSdilpreet hp->ah_pnum = mmu_btopr(rp->regspec_size + 111100d0963fSdilpreet (ulong_t)rp->regspec_addr & MMU_PAGEOFFSET); 11127c478bd9Sstevel@tonic-gate } 11137c478bd9Sstevel@tonic-gate 111412f080e7Smrj #ifdef DDI_MAP_DEBUG 111512f080e7Smrj ddi_map_debug( 111612f080e7Smrj "rootnex_map_regspec: \"Mapping\" %d bytes I/O space at 0x%x\n", 111712f080e7Smrj rp->regspec_size, *vaddrp); 111812f080e7Smrj #endif /* DDI_MAP_DEBUG */ 111912f080e7Smrj return (DDI_SUCCESS); 11207c478bd9Sstevel@tonic-gate } 11217c478bd9Sstevel@tonic-gate 11227c478bd9Sstevel@tonic-gate /* 112312f080e7Smrj * Memory space 112412f080e7Smrj */ 112512f080e7Smrj 112612f080e7Smrj if (hp != NULL) { 112712f080e7Smrj /* 112812f080e7Smrj * hat layer ignores 112912f080e7Smrj * hp->ah_acc.devacc_attr_endian_flags. 113012f080e7Smrj */ 113112f080e7Smrj switch (hp->ah_acc.devacc_attr_dataorder) { 113212f080e7Smrj case DDI_STRICTORDER_ACC: 113312f080e7Smrj hat_acc_flags = HAT_STRICTORDER; 113412f080e7Smrj break; 113512f080e7Smrj case DDI_UNORDERED_OK_ACC: 113612f080e7Smrj hat_acc_flags = HAT_UNORDERED_OK; 113712f080e7Smrj break; 113812f080e7Smrj case DDI_MERGING_OK_ACC: 113912f080e7Smrj hat_acc_flags = HAT_MERGING_OK; 114012f080e7Smrj break; 114112f080e7Smrj case DDI_LOADCACHING_OK_ACC: 114212f080e7Smrj hat_acc_flags = HAT_LOADCACHING_OK; 114312f080e7Smrj break; 114412f080e7Smrj case DDI_STORECACHING_OK_ACC: 114512f080e7Smrj hat_acc_flags = HAT_STORECACHING_OK; 114612f080e7Smrj break; 114712f080e7Smrj } 114812f080e7Smrj ap = (ddi_acc_impl_t *)hp->ah_platform_private; 114912f080e7Smrj ap->ahi_acc_attr |= DDI_ACCATTR_CPU_VADDR; 115012f080e7Smrj impl_acc_hdl_init(hp); 115112f080e7Smrj hp->ah_hat_flags = hat_acc_flags; 115212f080e7Smrj } else { 115312f080e7Smrj hat_acc_flags = HAT_STRICTORDER; 115412f080e7Smrj } 115512f080e7Smrj 1156843e1988Sjohnlev rbase = (rootnex_addr_t)(rp->regspec_addr & MMU_PAGEMASK); 1157843e1988Sjohnlev #ifdef __xpv 1158843e1988Sjohnlev /* 1159843e1988Sjohnlev * If we're dom0, we're using a real device so we need to translate 1160843e1988Sjohnlev * the MA to a PA. 1161843e1988Sjohnlev */ 1162843e1988Sjohnlev if (DOMAIN_IS_INITDOMAIN(xen_info)) { 1163843e1988Sjohnlev pbase = pfn_to_pa(xen_assign_pfn(mmu_btop(rbase))); 1164843e1988Sjohnlev } else { 1165843e1988Sjohnlev pbase = rbase; 1166843e1988Sjohnlev } 1167843e1988Sjohnlev #else 1168843e1988Sjohnlev pbase = rbase; 1169843e1988Sjohnlev #endif 1170843e1988Sjohnlev pgoffset = (ulong_t)rp->regspec_addr & MMU_PAGEOFFSET; 117112f080e7Smrj 117212f080e7Smrj if (rp->regspec_size == 0) { 117312f080e7Smrj #ifdef DDI_MAP_DEBUG 117412f080e7Smrj ddi_map_debug("rootnex_map_regspec: zero regspec_size\n"); 117512f080e7Smrj #endif /* DDI_MAP_DEBUG */ 117612f080e7Smrj return (DDI_ME_INVAL); 117712f080e7Smrj } 117812f080e7Smrj 117912f080e7Smrj if (mp->map_flags & DDI_MF_DEVICE_MAPPING) { 1180843e1988Sjohnlev /* extra cast to make gcc happy */ 1181843e1988Sjohnlev *vaddrp = (caddr_t)((uintptr_t)mmu_btop(pbase)); 118212f080e7Smrj } else { 118312f080e7Smrj npages = mmu_btopr(rp->regspec_size + pgoffset); 118412f080e7Smrj 118512f080e7Smrj #ifdef DDI_MAP_DEBUG 1186843e1988Sjohnlev ddi_map_debug("rootnex_map_regspec: Mapping %d pages " 1187843e1988Sjohnlev "physical %llx", npages, pbase); 118812f080e7Smrj #endif /* DDI_MAP_DEBUG */ 118912f080e7Smrj 119012f080e7Smrj cvaddr = device_arena_alloc(ptob(npages), VM_NOSLEEP); 119112f080e7Smrj if (cvaddr == NULL) 119212f080e7Smrj return (DDI_ME_NORESOURCES); 119312f080e7Smrj 119412f080e7Smrj /* 119512f080e7Smrj * Now map in the pages we've allocated... 119612f080e7Smrj */ 1197843e1988Sjohnlev hat_devload(kas.a_hat, cvaddr, mmu_ptob(npages), 1198843e1988Sjohnlev mmu_btop(pbase), mp->map_prot | hat_acc_flags, 1199843e1988Sjohnlev HAT_LOAD_LOCK); 120012f080e7Smrj *vaddrp = (caddr_t)cvaddr + pgoffset; 120100d0963fSdilpreet 120200d0963fSdilpreet /* save away pfn and npages for FMA */ 120300d0963fSdilpreet hp = mp->map_handlep; 120400d0963fSdilpreet if (hp) { 1205843e1988Sjohnlev hp->ah_pfn = mmu_btop(pbase); 120600d0963fSdilpreet hp->ah_pnum = npages; 120700d0963fSdilpreet } 120812f080e7Smrj } 120912f080e7Smrj 121012f080e7Smrj #ifdef DDI_MAP_DEBUG 121112f080e7Smrj ddi_map_debug("at virtual 0x%x\n", *vaddrp); 121212f080e7Smrj #endif /* DDI_MAP_DEBUG */ 121312f080e7Smrj return (DDI_SUCCESS); 121412f080e7Smrj } 121512f080e7Smrj 121612f080e7Smrj 121712f080e7Smrj /* 121812f080e7Smrj * rootnex_unmap_regspec() 12197c478bd9Sstevel@tonic-gate * 12207c478bd9Sstevel@tonic-gate */ 12217c478bd9Sstevel@tonic-gate static int 122212f080e7Smrj rootnex_unmap_regspec(ddi_map_req_t *mp, caddr_t *vaddrp) 12237c478bd9Sstevel@tonic-gate { 122412f080e7Smrj caddr_t addr = (caddr_t)*vaddrp; 122512f080e7Smrj uint_t npages, pgoffset; 122612f080e7Smrj struct regspec *rp; 12277c478bd9Sstevel@tonic-gate 122812f080e7Smrj if (mp->map_flags & DDI_MF_DEVICE_MAPPING) 122912f080e7Smrj return (0); 12307c478bd9Sstevel@tonic-gate 123112f080e7Smrj rp = mp->map_obj.rp; 12327c478bd9Sstevel@tonic-gate 123312f080e7Smrj if (rp->regspec_size == 0) { 123412f080e7Smrj #ifdef DDI_MAP_DEBUG 123512f080e7Smrj ddi_map_debug("rootnex_unmap_regspec: zero regspec_size\n"); 123612f080e7Smrj #endif /* DDI_MAP_DEBUG */ 123712f080e7Smrj return (DDI_ME_INVAL); 12387c478bd9Sstevel@tonic-gate } 12397c478bd9Sstevel@tonic-gate 12407c478bd9Sstevel@tonic-gate /* 124112f080e7Smrj * I/O or memory mapping: 12427c478bd9Sstevel@tonic-gate * 124312f080e7Smrj * <bustype=0, addr=x, len=x>: memory 124412f080e7Smrj * <bustype=1, addr=x, len=x>: i/o 124512f080e7Smrj * <bustype>1, addr=0, len=x>: x86-compatibility i/o 12467c478bd9Sstevel@tonic-gate */ 124712f080e7Smrj if (rp->regspec_bustype != 0) { 12487c478bd9Sstevel@tonic-gate /* 124912f080e7Smrj * This is I/O space, which requires no particular 125012f080e7Smrj * processing on unmap since it isn't mapped in the 125112f080e7Smrj * first place. 12527c478bd9Sstevel@tonic-gate */ 12537c478bd9Sstevel@tonic-gate return (DDI_SUCCESS); 12547c478bd9Sstevel@tonic-gate } 12557c478bd9Sstevel@tonic-gate 12567c478bd9Sstevel@tonic-gate /* 125712f080e7Smrj * Memory space 12587c478bd9Sstevel@tonic-gate */ 125912f080e7Smrj pgoffset = (uintptr_t)addr & MMU_PAGEOFFSET; 126012f080e7Smrj npages = mmu_btopr(rp->regspec_size + pgoffset); 126112f080e7Smrj hat_unload(kas.a_hat, addr - pgoffset, ptob(npages), HAT_UNLOAD_UNLOCK); 126212f080e7Smrj device_arena_free(addr - pgoffset, ptob(npages)); 12637c478bd9Sstevel@tonic-gate 12647c478bd9Sstevel@tonic-gate /* 126512f080e7Smrj * Destroy the pointer - the mapping has logically gone 12667c478bd9Sstevel@tonic-gate */ 126712f080e7Smrj *vaddrp = NULL; 12687c478bd9Sstevel@tonic-gate 12697c478bd9Sstevel@tonic-gate return (DDI_SUCCESS); 12707c478bd9Sstevel@tonic-gate } 12717c478bd9Sstevel@tonic-gate 127212f080e7Smrj 127312f080e7Smrj /* 127412f080e7Smrj * rootnex_map_handle() 127512f080e7Smrj * 127612f080e7Smrj */ 12777c478bd9Sstevel@tonic-gate static int 127812f080e7Smrj rootnex_map_handle(ddi_map_req_t *mp) 12797c478bd9Sstevel@tonic-gate { 1280843e1988Sjohnlev rootnex_addr_t rbase; 128112f080e7Smrj ddi_acc_hdl_t *hp; 128212f080e7Smrj uint_t pgoffset; 128312f080e7Smrj struct regspec *rp; 1284843e1988Sjohnlev paddr_t pbase; 12857c478bd9Sstevel@tonic-gate 128612f080e7Smrj rp = mp->map_obj.rp; 12877c478bd9Sstevel@tonic-gate 128812f080e7Smrj #ifdef DDI_MAP_DEBUG 128912f080e7Smrj ddi_map_debug( 129012f080e7Smrj "rootnex_map_handle: <0x%x 0x%x 0x%x> handle 0x%x\n", 129112f080e7Smrj rp->regspec_bustype, rp->regspec_addr, 129212f080e7Smrj rp->regspec_size, mp->map_handlep); 129312f080e7Smrj #endif /* DDI_MAP_DEBUG */ 12947c478bd9Sstevel@tonic-gate 12957c478bd9Sstevel@tonic-gate /* 129612f080e7Smrj * I/O or memory mapping: 129712f080e7Smrj * 129812f080e7Smrj * <bustype=0, addr=x, len=x>: memory 129912f080e7Smrj * <bustype=1, addr=x, len=x>: i/o 130012f080e7Smrj * <bustype>1, addr=0, len=x>: x86-compatibility i/o 13017c478bd9Sstevel@tonic-gate */ 130212f080e7Smrj if (rp->regspec_bustype != 0) { 130312f080e7Smrj /* 130412f080e7Smrj * This refers to I/O space, and we don't support "mapping" 130512f080e7Smrj * I/O space to a user. 130612f080e7Smrj */ 13077c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 13087c478bd9Sstevel@tonic-gate } 13097c478bd9Sstevel@tonic-gate 13107c478bd9Sstevel@tonic-gate /* 131112f080e7Smrj * Set up the hat_flags for the mapping. 13127c478bd9Sstevel@tonic-gate */ 131312f080e7Smrj hp = mp->map_handlep; 13147c478bd9Sstevel@tonic-gate 131512f080e7Smrj switch (hp->ah_acc.devacc_attr_endian_flags) { 131612f080e7Smrj case DDI_NEVERSWAP_ACC: 131712f080e7Smrj hp->ah_hat_flags = HAT_NEVERSWAP | HAT_STRICTORDER; 13187c478bd9Sstevel@tonic-gate break; 131912f080e7Smrj case DDI_STRUCTURE_LE_ACC: 132012f080e7Smrj hp->ah_hat_flags = HAT_STRUCTURE_LE; 13217c478bd9Sstevel@tonic-gate break; 132212f080e7Smrj case DDI_STRUCTURE_BE_ACC: 13237c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 13247c478bd9Sstevel@tonic-gate default: 132512f080e7Smrj return (DDI_REGS_ACC_CONFLICT); 13267c478bd9Sstevel@tonic-gate } 13277c478bd9Sstevel@tonic-gate 132812f080e7Smrj switch (hp->ah_acc.devacc_attr_dataorder) { 132912f080e7Smrj case DDI_STRICTORDER_ACC: 13307c478bd9Sstevel@tonic-gate break; 133112f080e7Smrj case DDI_UNORDERED_OK_ACC: 133212f080e7Smrj hp->ah_hat_flags |= HAT_UNORDERED_OK; 13337c478bd9Sstevel@tonic-gate break; 133412f080e7Smrj case DDI_MERGING_OK_ACC: 133512f080e7Smrj hp->ah_hat_flags |= HAT_MERGING_OK; 13367c478bd9Sstevel@tonic-gate break; 133712f080e7Smrj case DDI_LOADCACHING_OK_ACC: 133812f080e7Smrj hp->ah_hat_flags |= HAT_LOADCACHING_OK; 133912f080e7Smrj break; 134012f080e7Smrj case DDI_STORECACHING_OK_ACC: 134112f080e7Smrj hp->ah_hat_flags |= HAT_STORECACHING_OK; 134212f080e7Smrj break; 13437c478bd9Sstevel@tonic-gate default: 13447c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 13457c478bd9Sstevel@tonic-gate } 13467c478bd9Sstevel@tonic-gate 1347843e1988Sjohnlev rbase = (rootnex_addr_t)rp->regspec_addr & 1348843e1988Sjohnlev (~(rootnex_addr_t)MMU_PAGEOFFSET); 1349843e1988Sjohnlev pgoffset = (ulong_t)rp->regspec_addr & MMU_PAGEOFFSET; 13507c478bd9Sstevel@tonic-gate 135112f080e7Smrj if (rp->regspec_size == 0) 135212f080e7Smrj return (DDI_ME_INVAL); 13537c478bd9Sstevel@tonic-gate 1354843e1988Sjohnlev #ifdef __xpv 1355843e1988Sjohnlev /* 1356843e1988Sjohnlev * If we're dom0, we're using a real device so we need to translate 1357843e1988Sjohnlev * the MA to a PA. 1358843e1988Sjohnlev */ 1359843e1988Sjohnlev if (DOMAIN_IS_INITDOMAIN(xen_info)) { 1360843e1988Sjohnlev pbase = pfn_to_pa(xen_assign_pfn(mmu_btop(rbase))) | 1361843e1988Sjohnlev (rbase & MMU_PAGEOFFSET); 1362843e1988Sjohnlev } else { 1363843e1988Sjohnlev pbase = rbase; 1364843e1988Sjohnlev } 1365843e1988Sjohnlev #else 1366843e1988Sjohnlev pbase = rbase; 1367843e1988Sjohnlev #endif 1368843e1988Sjohnlev 1369843e1988Sjohnlev hp->ah_pfn = mmu_btop(pbase); 137012f080e7Smrj hp->ah_pnum = mmu_btopr(rp->regspec_size + pgoffset); 13717c478bd9Sstevel@tonic-gate 13727c478bd9Sstevel@tonic-gate return (DDI_SUCCESS); 13737c478bd9Sstevel@tonic-gate } 13747c478bd9Sstevel@tonic-gate 137512f080e7Smrj 137612f080e7Smrj 13777c478bd9Sstevel@tonic-gate /* 137812f080e7Smrj * ************************ 137912f080e7Smrj * interrupt related code 138012f080e7Smrj * ************************ 13817c478bd9Sstevel@tonic-gate */ 13827c478bd9Sstevel@tonic-gate 13837c478bd9Sstevel@tonic-gate /* 138412f080e7Smrj * rootnex_intr_ops() 13857c478bd9Sstevel@tonic-gate * bus_intr_op() function for interrupt support 13867c478bd9Sstevel@tonic-gate */ 13877c478bd9Sstevel@tonic-gate /* ARGSUSED */ 13887c478bd9Sstevel@tonic-gate static int 13897c478bd9Sstevel@tonic-gate rootnex_intr_ops(dev_info_t *pdip, dev_info_t *rdip, ddi_intr_op_t intr_op, 13907c478bd9Sstevel@tonic-gate ddi_intr_handle_impl_t *hdlp, void *result) 13917c478bd9Sstevel@tonic-gate { 13927c478bd9Sstevel@tonic-gate struct intrspec *ispec; 13937c478bd9Sstevel@tonic-gate 13947c478bd9Sstevel@tonic-gate DDI_INTR_NEXDBG((CE_CONT, 13957c478bd9Sstevel@tonic-gate "rootnex_intr_ops: pdip = %p, rdip = %p, intr_op = %x, hdlp = %p\n", 13967c478bd9Sstevel@tonic-gate (void *)pdip, (void *)rdip, intr_op, (void *)hdlp)); 13977c478bd9Sstevel@tonic-gate 13987c478bd9Sstevel@tonic-gate /* Process the interrupt operation */ 13997c478bd9Sstevel@tonic-gate switch (intr_op) { 14007c478bd9Sstevel@tonic-gate case DDI_INTROP_GETCAP: 14017c478bd9Sstevel@tonic-gate /* First check with pcplusmp */ 14027c478bd9Sstevel@tonic-gate if (psm_intr_ops == NULL) 14037c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14047c478bd9Sstevel@tonic-gate 14057c478bd9Sstevel@tonic-gate if ((*psm_intr_ops)(rdip, hdlp, PSM_INTR_OP_GET_CAP, result)) { 14067c478bd9Sstevel@tonic-gate *(int *)result = 0; 14077c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14087c478bd9Sstevel@tonic-gate } 14097c478bd9Sstevel@tonic-gate break; 14107c478bd9Sstevel@tonic-gate case DDI_INTROP_SETCAP: 14117c478bd9Sstevel@tonic-gate if (psm_intr_ops == NULL) 14127c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14137c478bd9Sstevel@tonic-gate 14147c478bd9Sstevel@tonic-gate if ((*psm_intr_ops)(rdip, hdlp, PSM_INTR_OP_SET_CAP, result)) 14157c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14167c478bd9Sstevel@tonic-gate break; 14177c478bd9Sstevel@tonic-gate case DDI_INTROP_ALLOC: 14187ff178cdSJimmy Vetayases ASSERT(hdlp->ih_type == DDI_INTR_TYPE_FIXED); 14197ff178cdSJimmy Vetayases return (rootnex_alloc_intr_fixed(rdip, hdlp, result)); 14207c478bd9Sstevel@tonic-gate case DDI_INTROP_FREE: 14217ff178cdSJimmy Vetayases ASSERT(hdlp->ih_type == DDI_INTR_TYPE_FIXED); 14227ff178cdSJimmy Vetayases return (rootnex_free_intr_fixed(rdip, hdlp)); 14237c478bd9Sstevel@tonic-gate case DDI_INTROP_GETPRI: 14247c478bd9Sstevel@tonic-gate if ((ispec = rootnex_get_ispec(rdip, hdlp->ih_inum)) == NULL) 14257c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14267c478bd9Sstevel@tonic-gate *(int *)result = ispec->intrspec_pri; 14277c478bd9Sstevel@tonic-gate break; 14287c478bd9Sstevel@tonic-gate case DDI_INTROP_SETPRI: 14297c478bd9Sstevel@tonic-gate /* Validate the interrupt priority passed to us */ 14307c478bd9Sstevel@tonic-gate if (*(int *)result > LOCK_LEVEL) 14317c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14327c478bd9Sstevel@tonic-gate 14337c478bd9Sstevel@tonic-gate /* Ensure that PSM is all initialized and ispec is ok */ 14347c478bd9Sstevel@tonic-gate if ((psm_intr_ops == NULL) || 14357c478bd9Sstevel@tonic-gate ((ispec = rootnex_get_ispec(rdip, hdlp->ih_inum)) == NULL)) 14367c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14377c478bd9Sstevel@tonic-gate 14387c478bd9Sstevel@tonic-gate /* Change the priority */ 14397c478bd9Sstevel@tonic-gate if ((*psm_intr_ops)(rdip, hdlp, PSM_INTR_OP_SET_PRI, result) == 14407c478bd9Sstevel@tonic-gate PSM_FAILURE) 14417c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14427c478bd9Sstevel@tonic-gate 14437c478bd9Sstevel@tonic-gate /* update the ispec with the new priority */ 14447c478bd9Sstevel@tonic-gate ispec->intrspec_pri = *(int *)result; 14457c478bd9Sstevel@tonic-gate break; 14467c478bd9Sstevel@tonic-gate case DDI_INTROP_ADDISR: 14477c478bd9Sstevel@tonic-gate if ((ispec = rootnex_get_ispec(rdip, hdlp->ih_inum)) == NULL) 14487c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14497c478bd9Sstevel@tonic-gate ispec->intrspec_func = hdlp->ih_cb_func; 14507c478bd9Sstevel@tonic-gate break; 14517c478bd9Sstevel@tonic-gate case DDI_INTROP_REMISR: 14527c478bd9Sstevel@tonic-gate if ((ispec = rootnex_get_ispec(rdip, hdlp->ih_inum)) == NULL) 14537c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14547c478bd9Sstevel@tonic-gate ispec->intrspec_func = (uint_t (*)()) 0; 14557c478bd9Sstevel@tonic-gate break; 14567c478bd9Sstevel@tonic-gate case DDI_INTROP_ENABLE: 14577c478bd9Sstevel@tonic-gate if ((ispec = rootnex_get_ispec(rdip, hdlp->ih_inum)) == NULL) 14587c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14597c478bd9Sstevel@tonic-gate 14607c478bd9Sstevel@tonic-gate /* Call psmi to translate irq with the dip */ 14617c478bd9Sstevel@tonic-gate if (psm_intr_ops == NULL) 14627c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14637c478bd9Sstevel@tonic-gate 14647a364d25Sschwartz ((ihdl_plat_t *)hdlp->ih_private)->ip_ispecp = ispec; 146586a9c507SGuoli Shu if ((*psm_intr_ops)(rdip, hdlp, PSM_INTR_OP_XLATE_VECTOR, 146686a9c507SGuoli Shu (int *)&hdlp->ih_vector) == PSM_FAILURE) 146786a9c507SGuoli Shu return (DDI_FAILURE); 14687c478bd9Sstevel@tonic-gate 14697c478bd9Sstevel@tonic-gate /* Add the interrupt handler */ 14707c478bd9Sstevel@tonic-gate if (!add_avintr((void *)hdlp, ispec->intrspec_pri, 14717c478bd9Sstevel@tonic-gate hdlp->ih_cb_func, DEVI(rdip)->devi_name, hdlp->ih_vector, 14727a364d25Sschwartz hdlp->ih_cb_arg1, hdlp->ih_cb_arg2, NULL, rdip)) 14737c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14747c478bd9Sstevel@tonic-gate break; 14757c478bd9Sstevel@tonic-gate case DDI_INTROP_DISABLE: 14767c478bd9Sstevel@tonic-gate if ((ispec = rootnex_get_ispec(rdip, hdlp->ih_inum)) == NULL) 14777c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14787c478bd9Sstevel@tonic-gate 14797c478bd9Sstevel@tonic-gate /* Call psm_ops() to translate irq with the dip */ 14807c478bd9Sstevel@tonic-gate if (psm_intr_ops == NULL) 14817c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14827c478bd9Sstevel@tonic-gate 14837a364d25Sschwartz ((ihdl_plat_t *)hdlp->ih_private)->ip_ispecp = ispec; 14847c478bd9Sstevel@tonic-gate (void) (*psm_intr_ops)(rdip, hdlp, 14857c478bd9Sstevel@tonic-gate PSM_INTR_OP_XLATE_VECTOR, (int *)&hdlp->ih_vector); 14867c478bd9Sstevel@tonic-gate 14877c478bd9Sstevel@tonic-gate /* Remove the interrupt handler */ 14887c478bd9Sstevel@tonic-gate rem_avintr((void *)hdlp, ispec->intrspec_pri, 14897c478bd9Sstevel@tonic-gate hdlp->ih_cb_func, hdlp->ih_vector); 14907c478bd9Sstevel@tonic-gate break; 14917c478bd9Sstevel@tonic-gate case DDI_INTROP_SETMASK: 14927c478bd9Sstevel@tonic-gate if (psm_intr_ops == NULL) 14937c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14947c478bd9Sstevel@tonic-gate 14957c478bd9Sstevel@tonic-gate if ((*psm_intr_ops)(rdip, hdlp, PSM_INTR_OP_SET_MASK, NULL)) 14967c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 14977c478bd9Sstevel@tonic-gate break; 14987c478bd9Sstevel@tonic-gate case DDI_INTROP_CLRMASK: 14997c478bd9Sstevel@tonic-gate if (psm_intr_ops == NULL) 15007c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 15017c478bd9Sstevel@tonic-gate 15027c478bd9Sstevel@tonic-gate if ((*psm_intr_ops)(rdip, hdlp, PSM_INTR_OP_CLEAR_MASK, NULL)) 15037c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 15047c478bd9Sstevel@tonic-gate break; 15057c478bd9Sstevel@tonic-gate case DDI_INTROP_GETPENDING: 15067c478bd9Sstevel@tonic-gate if (psm_intr_ops == NULL) 15077c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 15087c478bd9Sstevel@tonic-gate 15097c478bd9Sstevel@tonic-gate if ((*psm_intr_ops)(rdip, hdlp, PSM_INTR_OP_GET_PENDING, 15107c478bd9Sstevel@tonic-gate result)) { 15117c478bd9Sstevel@tonic-gate *(int *)result = 0; 15127c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 15137c478bd9Sstevel@tonic-gate } 15147c478bd9Sstevel@tonic-gate break; 1515a54f81fbSanish case DDI_INTROP_NAVAIL: 15167c478bd9Sstevel@tonic-gate case DDI_INTROP_NINTRS: 1517a54f81fbSanish *(int *)result = i_ddi_get_intx_nintrs(rdip); 1518a54f81fbSanish if (*(int *)result == 0) { 15197c478bd9Sstevel@tonic-gate /* 15207c478bd9Sstevel@tonic-gate * Special case for 'pcic' driver' only. This driver 15217c478bd9Sstevel@tonic-gate * driver is a child of 'isa' and 'rootnex' drivers. 15227c478bd9Sstevel@tonic-gate * 15237c478bd9Sstevel@tonic-gate * See detailed comments on this in the function 15247c478bd9Sstevel@tonic-gate * rootnex_get_ispec(). 15257c478bd9Sstevel@tonic-gate * 15267c478bd9Sstevel@tonic-gate * Children of 'pcic' send 'NINITR' request all the 15277c478bd9Sstevel@tonic-gate * way to rootnex driver. But, the 'pdp->par_nintr' 15287c478bd9Sstevel@tonic-gate * field may not initialized. So, we fake it here 15297c478bd9Sstevel@tonic-gate * to return 1 (a la what PCMCIA nexus does). 15307c478bd9Sstevel@tonic-gate */ 15317c478bd9Sstevel@tonic-gate if (strcmp(ddi_get_name(rdip), "pcic") == 0) 15327c478bd9Sstevel@tonic-gate *(int *)result = 1; 1533a54f81fbSanish else 1534a54f81fbSanish return (DDI_FAILURE); 15357c478bd9Sstevel@tonic-gate } 15367c478bd9Sstevel@tonic-gate break; 15377c478bd9Sstevel@tonic-gate case DDI_INTROP_SUPPORTED_TYPES: 1538a54f81fbSanish *(int *)result = DDI_INTR_TYPE_FIXED; /* Always ... */ 15397c478bd9Sstevel@tonic-gate break; 15407c478bd9Sstevel@tonic-gate default: 15417c478bd9Sstevel@tonic-gate return (DDI_FAILURE); 15427c478bd9Sstevel@tonic-gate } 15437c478bd9Sstevel@tonic-gate 15447c478bd9Sstevel@tonic-gate return (DDI_SUCCESS); 15457c478bd9Sstevel@tonic-gate } 15467c478bd9Sstevel@tonic-gate 15477c478bd9Sstevel@tonic-gate 15487c478bd9Sstevel@tonic-gate /* 154912f080e7Smrj * rootnex_get_ispec() 155012f080e7Smrj * convert an interrupt number to an interrupt specification. 155112f080e7Smrj * The interrupt number determines which interrupt spec will be 155212f080e7Smrj * returned if more than one exists. 155312f080e7Smrj * 155412f080e7Smrj * Look into the parent private data area of the 'rdip' to find out 155512f080e7Smrj * the interrupt specification. First check to make sure there is 155612f080e7Smrj * one that matchs "inumber" and then return a pointer to it. 155712f080e7Smrj * 155812f080e7Smrj * Return NULL if one could not be found. 155912f080e7Smrj * 156012f080e7Smrj * NOTE: This is needed for rootnex_intr_ops() 15617c478bd9Sstevel@tonic-gate */ 156212f080e7Smrj static struct intrspec * 156312f080e7Smrj rootnex_get_ispec(dev_info_t *rdip, int inum) 15647c478bd9Sstevel@tonic-gate { 156512f080e7Smrj struct ddi_parent_private_data *pdp = ddi_get_parent_data(rdip); 15667c478bd9Sstevel@tonic-gate 15677c478bd9Sstevel@tonic-gate /* 156812f080e7Smrj * Special case handling for drivers that provide their own 156912f080e7Smrj * intrspec structures instead of relying on the DDI framework. 157012f080e7Smrj * 157112f080e7Smrj * A broken hardware driver in ON could potentially provide its 157212f080e7Smrj * own intrspec structure, instead of relying on the hardware. 157312f080e7Smrj * If these drivers are children of 'rootnex' then we need to 157412f080e7Smrj * continue to provide backward compatibility to them here. 157512f080e7Smrj * 157612f080e7Smrj * Following check is a special case for 'pcic' driver which 157712f080e7Smrj * was found to have broken hardwre andby provides its own intrspec. 157812f080e7Smrj * 157912f080e7Smrj * Verbatim comments from this driver are shown here: 158012f080e7Smrj * "Don't use the ddi_add_intr since we don't have a 158112f080e7Smrj * default intrspec in all cases." 158212f080e7Smrj * 158312f080e7Smrj * Since an 'ispec' may not be always created for it, 158412f080e7Smrj * check for that and create one if so. 158512f080e7Smrj * 158612f080e7Smrj * NOTE: Currently 'pcic' is the only driver found to do this. 15877c478bd9Sstevel@tonic-gate */ 158812f080e7Smrj if (!pdp->par_intr && strcmp(ddi_get_name(rdip), "pcic") == 0) { 158912f080e7Smrj pdp->par_nintr = 1; 159012f080e7Smrj pdp->par_intr = kmem_zalloc(sizeof (struct intrspec) * 159112f080e7Smrj pdp->par_nintr, KM_SLEEP); 159212f080e7Smrj } 159312f080e7Smrj 159412f080e7Smrj /* Validate the interrupt number */ 159512f080e7Smrj if (inum >= pdp->par_nintr) 159612f080e7Smrj return (NULL); 159712f080e7Smrj 159812f080e7Smrj /* Get the interrupt structure pointer and return that */ 159912f080e7Smrj return ((struct intrspec *)&pdp->par_intr[inum]); 160012f080e7Smrj } 160112f080e7Smrj 16027ff178cdSJimmy Vetayases /* 16037ff178cdSJimmy Vetayases * Allocate interrupt vector for FIXED (legacy) type. 16047ff178cdSJimmy Vetayases */ 16057ff178cdSJimmy Vetayases static int 16067ff178cdSJimmy Vetayases rootnex_alloc_intr_fixed(dev_info_t *rdip, ddi_intr_handle_impl_t *hdlp, 16077ff178cdSJimmy Vetayases void *result) 16087ff178cdSJimmy Vetayases { 16097ff178cdSJimmy Vetayases struct intrspec *ispec; 16107ff178cdSJimmy Vetayases ddi_intr_handle_impl_t info_hdl; 16117ff178cdSJimmy Vetayases int ret; 16127ff178cdSJimmy Vetayases int free_phdl = 0; 16137ff178cdSJimmy Vetayases apic_get_type_t type_info; 16147ff178cdSJimmy Vetayases 16157ff178cdSJimmy Vetayases if (psm_intr_ops == NULL) 16167ff178cdSJimmy Vetayases return (DDI_FAILURE); 16177ff178cdSJimmy Vetayases 16187ff178cdSJimmy Vetayases if ((ispec = rootnex_get_ispec(rdip, hdlp->ih_inum)) == NULL) 16197ff178cdSJimmy Vetayases return (DDI_FAILURE); 16207ff178cdSJimmy Vetayases 16217ff178cdSJimmy Vetayases /* 16227ff178cdSJimmy Vetayases * If the PSM module is "APIX" then pass the request for it 16237ff178cdSJimmy Vetayases * to allocate the vector now. 16247ff178cdSJimmy Vetayases */ 16257ff178cdSJimmy Vetayases bzero(&info_hdl, sizeof (ddi_intr_handle_impl_t)); 16267ff178cdSJimmy Vetayases info_hdl.ih_private = &type_info; 16277ff178cdSJimmy Vetayases if ((*psm_intr_ops)(NULL, &info_hdl, PSM_INTR_OP_APIC_TYPE, NULL) == 16287ff178cdSJimmy Vetayases PSM_SUCCESS && strcmp(type_info.avgi_type, APIC_APIX_NAME) == 0) { 16297ff178cdSJimmy Vetayases if (hdlp->ih_private == NULL) { /* allocate phdl structure */ 16307ff178cdSJimmy Vetayases free_phdl = 1; 16317ff178cdSJimmy Vetayases i_ddi_alloc_intr_phdl(hdlp); 16327ff178cdSJimmy Vetayases } 16337ff178cdSJimmy Vetayases ((ihdl_plat_t *)hdlp->ih_private)->ip_ispecp = ispec; 16347ff178cdSJimmy Vetayases ret = (*psm_intr_ops)(rdip, hdlp, 16357ff178cdSJimmy Vetayases PSM_INTR_OP_ALLOC_VECTORS, result); 16367ff178cdSJimmy Vetayases if (free_phdl) { /* free up the phdl structure */ 16377ff178cdSJimmy Vetayases free_phdl = 0; 16387ff178cdSJimmy Vetayases i_ddi_free_intr_phdl(hdlp); 16397ff178cdSJimmy Vetayases hdlp->ih_private = NULL; 16407ff178cdSJimmy Vetayases } 16417ff178cdSJimmy Vetayases } else { 16427ff178cdSJimmy Vetayases /* 16437ff178cdSJimmy Vetayases * No APIX module; fall back to the old scheme where the 16447ff178cdSJimmy Vetayases * interrupt vector is allocated during ddi_enable_intr() call. 16457ff178cdSJimmy Vetayases */ 16467ff178cdSJimmy Vetayases hdlp->ih_pri = ispec->intrspec_pri; 16477ff178cdSJimmy Vetayases *(int *)result = hdlp->ih_scratch1; 16487ff178cdSJimmy Vetayases ret = DDI_SUCCESS; 16497ff178cdSJimmy Vetayases } 16507ff178cdSJimmy Vetayases 16517ff178cdSJimmy Vetayases return (ret); 16527ff178cdSJimmy Vetayases } 16537ff178cdSJimmy Vetayases 16547ff178cdSJimmy Vetayases /* 16557ff178cdSJimmy Vetayases * Free up interrupt vector for FIXED (legacy) type. 16567ff178cdSJimmy Vetayases */ 16577ff178cdSJimmy Vetayases static int 16587ff178cdSJimmy Vetayases rootnex_free_intr_fixed(dev_info_t *rdip, ddi_intr_handle_impl_t *hdlp) 16597ff178cdSJimmy Vetayases { 16607ff178cdSJimmy Vetayases struct intrspec *ispec; 16617ff178cdSJimmy Vetayases struct ddi_parent_private_data *pdp; 16627ff178cdSJimmy Vetayases ddi_intr_handle_impl_t info_hdl; 16637ff178cdSJimmy Vetayases int ret; 16647ff178cdSJimmy Vetayases apic_get_type_t type_info; 16657ff178cdSJimmy Vetayases 16667ff178cdSJimmy Vetayases if (psm_intr_ops == NULL) 16677ff178cdSJimmy Vetayases return (DDI_FAILURE); 16687ff178cdSJimmy Vetayases 16697ff178cdSJimmy Vetayases /* 16707ff178cdSJimmy Vetayases * If the PSM module is "APIX" then pass the request for it 16717ff178cdSJimmy Vetayases * to free up the vector now. 16727ff178cdSJimmy Vetayases */ 16737ff178cdSJimmy Vetayases bzero(&info_hdl, sizeof (ddi_intr_handle_impl_t)); 16747ff178cdSJimmy Vetayases info_hdl.ih_private = &type_info; 16757ff178cdSJimmy Vetayases if ((*psm_intr_ops)(NULL, &info_hdl, PSM_INTR_OP_APIC_TYPE, NULL) == 16767ff178cdSJimmy Vetayases PSM_SUCCESS && strcmp(type_info.avgi_type, APIC_APIX_NAME) == 0) { 16777ff178cdSJimmy Vetayases if ((ispec = rootnex_get_ispec(rdip, hdlp->ih_inum)) == NULL) 16787ff178cdSJimmy Vetayases return (DDI_FAILURE); 16797ff178cdSJimmy Vetayases ((ihdl_plat_t *)hdlp->ih_private)->ip_ispecp = ispec; 16807ff178cdSJimmy Vetayases ret = (*psm_intr_ops)(rdip, hdlp, 16817ff178cdSJimmy Vetayases PSM_INTR_OP_FREE_VECTORS, NULL); 16827ff178cdSJimmy Vetayases } else { 16837ff178cdSJimmy Vetayases /* 16847ff178cdSJimmy Vetayases * No APIX module; fall back to the old scheme where 16857ff178cdSJimmy Vetayases * the interrupt vector was already freed during 16867ff178cdSJimmy Vetayases * ddi_disable_intr() call. 16877ff178cdSJimmy Vetayases */ 16887ff178cdSJimmy Vetayases ret = DDI_SUCCESS; 16897ff178cdSJimmy Vetayases } 16907ff178cdSJimmy Vetayases 16917ff178cdSJimmy Vetayases pdp = ddi_get_parent_data(rdip); 16927ff178cdSJimmy Vetayases 16937ff178cdSJimmy Vetayases /* 16947ff178cdSJimmy Vetayases * Special case for 'pcic' driver' only. 16957ff178cdSJimmy Vetayases * If an intrspec was created for it, clean it up here 16967ff178cdSJimmy Vetayases * See detailed comments on this in the function 16977ff178cdSJimmy Vetayases * rootnex_get_ispec(). 16987ff178cdSJimmy Vetayases */ 16997ff178cdSJimmy Vetayases if (pdp->par_intr && strcmp(ddi_get_name(rdip), "pcic") == 0) { 17007ff178cdSJimmy Vetayases kmem_free(pdp->par_intr, sizeof (struct intrspec) * 17017ff178cdSJimmy Vetayases pdp->par_nintr); 17027ff178cdSJimmy Vetayases /* 17037ff178cdSJimmy Vetayases * Set it to zero; so that 17047ff178cdSJimmy Vetayases * DDI framework doesn't free it again 17057ff178cdSJimmy Vetayases */ 17067ff178cdSJimmy Vetayases pdp->par_intr = NULL; 17077ff178cdSJimmy Vetayases pdp->par_nintr = 0; 17087ff178cdSJimmy Vetayases } 17097ff178cdSJimmy Vetayases 17107ff178cdSJimmy Vetayases return (ret); 17117ff178cdSJimmy Vetayases } 17127ff178cdSJimmy Vetayases 171312f080e7Smrj 171412f080e7Smrj /* 171512f080e7Smrj * ****************** 171612f080e7Smrj * dma related code 171712f080e7Smrj * ****************** 171812f080e7Smrj */ 171912f080e7Smrj 172012f080e7Smrj /*ARGSUSED*/ 172112f080e7Smrj static int 172220906b23SVikram Hegde rootnex_coredma_allochdl(dev_info_t *dip, dev_info_t *rdip, 172320906b23SVikram Hegde ddi_dma_attr_t *attr, int (*waitfp)(caddr_t), caddr_t arg, 172420906b23SVikram Hegde ddi_dma_handle_t *handlep) 172512f080e7Smrj { 172612f080e7Smrj uint64_t maxsegmentsize_ll; 172712f080e7Smrj uint_t maxsegmentsize; 172812f080e7Smrj ddi_dma_impl_t *hp; 172912f080e7Smrj rootnex_dma_t *dma; 173012f080e7Smrj uint64_t count_max; 173112f080e7Smrj uint64_t seg; 173212f080e7Smrj int kmflag; 173312f080e7Smrj int e; 173412f080e7Smrj 173512f080e7Smrj 173612f080e7Smrj /* convert our sleep flags */ 173712f080e7Smrj if (waitfp == DDI_DMA_SLEEP) { 173812f080e7Smrj kmflag = KM_SLEEP; 173912f080e7Smrj } else { 174012f080e7Smrj kmflag = KM_NOSLEEP; 174112f080e7Smrj } 174212f080e7Smrj 174312f080e7Smrj /* 174412f080e7Smrj * We try to do only one memory allocation here. We'll do a little 174512f080e7Smrj * pointer manipulation later. If the bind ends up taking more than 174612f080e7Smrj * our prealloc's space, we'll have to allocate more memory in the 174712f080e7Smrj * bind operation. Not great, but much better than before and the 174812f080e7Smrj * best we can do with the current bind interfaces. 174912f080e7Smrj */ 175012f080e7Smrj hp = kmem_cache_alloc(rootnex_state->r_dmahdl_cache, kmflag); 175150200e77SFrank Van Der Linden if (hp == NULL) 175212f080e7Smrj return (DDI_DMA_NORESOURCES); 175312f080e7Smrj 175412f080e7Smrj /* Do our pointer manipulation now, align the structures */ 175512f080e7Smrj hp->dmai_private = (void *)(((uintptr_t)hp + 175612f080e7Smrj (uintptr_t)sizeof (ddi_dma_impl_t) + 0x7) & ~0x7); 175712f080e7Smrj dma = (rootnex_dma_t *)hp->dmai_private; 175812f080e7Smrj dma->dp_prealloc_buffer = (uchar_t *)(((uintptr_t)dma + 175912f080e7Smrj sizeof (rootnex_dma_t) + 0x7) & ~0x7); 176012f080e7Smrj 176112f080e7Smrj /* setup the handle */ 176212f080e7Smrj rootnex_clean_dmahdl(hp); 1763567c0b92SStephen Hanson hp->dmai_error.err_fep = NULL; 1764567c0b92SStephen Hanson hp->dmai_error.err_cf = NULL; 176512f080e7Smrj dma->dp_dip = rdip; 176650200e77SFrank Van Der Linden dma->dp_sglinfo.si_flags = attr->dma_attr_flags; 176712f080e7Smrj dma->dp_sglinfo.si_min_addr = attr->dma_attr_addr_lo; 176850200e77SFrank Van Der Linden 176950200e77SFrank Van Der Linden /* 177050200e77SFrank Van Der Linden * The BOUNCE_ON_SEG workaround is not needed when an IOMMU 177150200e77SFrank Van Der Linden * is being used. Set the upper limit to the seg value. 177250200e77SFrank Van Der Linden * There will be enough DVMA space to always get addresses 177350200e77SFrank Van Der Linden * that will match the constraints. 177450200e77SFrank Van Der Linden */ 177550200e77SFrank Van Der Linden if (IOMMU_USED(rdip) && 177650200e77SFrank Van Der Linden (attr->dma_attr_flags & _DDI_DMA_BOUNCE_ON_SEG)) { 177750200e77SFrank Van Der Linden dma->dp_sglinfo.si_max_addr = attr->dma_attr_seg; 177850200e77SFrank Van Der Linden dma->dp_sglinfo.si_flags &= ~_DDI_DMA_BOUNCE_ON_SEG; 177950200e77SFrank Van Der Linden } else 178012f080e7Smrj dma->dp_sglinfo.si_max_addr = attr->dma_attr_addr_hi; 178150200e77SFrank Van Der Linden 178212f080e7Smrj hp->dmai_minxfer = attr->dma_attr_minxfer; 178312f080e7Smrj hp->dmai_burstsizes = attr->dma_attr_burstsizes; 178412f080e7Smrj hp->dmai_rdip = rdip; 178512f080e7Smrj hp->dmai_attr = *attr; 178612f080e7Smrj 178750200e77SFrank Van Der Linden if (attr->dma_attr_seg >= dma->dp_sglinfo.si_max_addr) 178850200e77SFrank Van Der Linden dma->dp_sglinfo.si_cancross = B_FALSE; 178950200e77SFrank Van Der Linden else 179050200e77SFrank Van Der Linden dma->dp_sglinfo.si_cancross = B_TRUE; 179150200e77SFrank Van Der Linden 179212f080e7Smrj /* we don't need to worry about the SPL since we do a tryenter */ 179312f080e7Smrj mutex_init(&dma->dp_mutex, NULL, MUTEX_DRIVER, NULL); 179412f080e7Smrj 179512f080e7Smrj /* 179612f080e7Smrj * Figure out our maximum segment size. If the segment size is greater 179712f080e7Smrj * than 4G, we will limit it to (4G - 1) since the max size of a dma 179812f080e7Smrj * object (ddi_dma_obj_t.dmao_size) is 32 bits. dma_attr_seg and 179912f080e7Smrj * dma_attr_count_max are size-1 type values. 180012f080e7Smrj * 180112f080e7Smrj * Maximum segment size is the largest physically contiguous chunk of 180212f080e7Smrj * memory that we can return from a bind (i.e. the maximum size of a 180312f080e7Smrj * single cookie). 180412f080e7Smrj */ 180512f080e7Smrj 180612f080e7Smrj /* handle the rollover cases */ 180712f080e7Smrj seg = attr->dma_attr_seg + 1; 180812f080e7Smrj if (seg < attr->dma_attr_seg) { 180912f080e7Smrj seg = attr->dma_attr_seg; 181012f080e7Smrj } 181112f080e7Smrj count_max = attr->dma_attr_count_max + 1; 181212f080e7Smrj if (count_max < attr->dma_attr_count_max) { 181312f080e7Smrj count_max = attr->dma_attr_count_max; 181412f080e7Smrj } 181512f080e7Smrj 181612f080e7Smrj /* 181712f080e7Smrj * granularity may or may not be a power of two. If it isn't, we can't 181812f080e7Smrj * use a simple mask. 181912f080e7Smrj */ 182012f080e7Smrj if (attr->dma_attr_granular & (attr->dma_attr_granular - 1)) { 182112f080e7Smrj dma->dp_granularity_power_2 = B_FALSE; 182212f080e7Smrj } else { 182312f080e7Smrj dma->dp_granularity_power_2 = B_TRUE; 182412f080e7Smrj } 182512f080e7Smrj 182612f080e7Smrj /* 182712f080e7Smrj * maxxfer should be a whole multiple of granularity. If we're going to 182812f080e7Smrj * break up a window because we're greater than maxxfer, we might as 182912f080e7Smrj * well make sure it's maxxfer is a whole multiple so we don't have to 183012f080e7Smrj * worry about triming the window later on for this case. 183112f080e7Smrj */ 183212f080e7Smrj if (attr->dma_attr_granular > 1) { 183312f080e7Smrj if (dma->dp_granularity_power_2) { 183412f080e7Smrj dma->dp_maxxfer = attr->dma_attr_maxxfer - 183512f080e7Smrj (attr->dma_attr_maxxfer & 183612f080e7Smrj (attr->dma_attr_granular - 1)); 183712f080e7Smrj } else { 183812f080e7Smrj dma->dp_maxxfer = attr->dma_attr_maxxfer - 183912f080e7Smrj (attr->dma_attr_maxxfer % attr->dma_attr_granular); 184012f080e7Smrj } 184112f080e7Smrj } else { 184212f080e7Smrj dma->dp_maxxfer = attr->dma_attr_maxxfer; 184312f080e7Smrj } 184412f080e7Smrj 184512f080e7Smrj maxsegmentsize_ll = MIN(seg, dma->dp_maxxfer); 184612f080e7Smrj maxsegmentsize_ll = MIN(maxsegmentsize_ll, count_max); 184712f080e7Smrj if (maxsegmentsize_ll == 0 || (maxsegmentsize_ll > 0xFFFFFFFF)) { 184812f080e7Smrj maxsegmentsize = 0xFFFFFFFF; 184912f080e7Smrj } else { 185012f080e7Smrj maxsegmentsize = maxsegmentsize_ll; 185112f080e7Smrj } 185212f080e7Smrj dma->dp_sglinfo.si_max_cookie_size = maxsegmentsize; 185312f080e7Smrj dma->dp_sglinfo.si_segmask = attr->dma_attr_seg; 185412f080e7Smrj 185512f080e7Smrj /* check the ddi_dma_attr arg to make sure it makes a little sense */ 185612f080e7Smrj if (rootnex_alloc_check_parms) { 185712f080e7Smrj e = rootnex_valid_alloc_parms(attr, maxsegmentsize); 185812f080e7Smrj if (e != DDI_SUCCESS) { 1859ef4ab52fSFrank Van Der Linden ROOTNEX_DPROF_INC(&rootnex_cnt[ROOTNEX_CNT_ALLOC_FAIL]); 186012f080e7Smrj (void) rootnex_dma_freehdl(dip, rdip, 186112f080e7Smrj (ddi_dma_handle_t)hp); 186212f080e7Smrj return (e); 186312f080e7Smrj } 186412f080e7Smrj } 186512f080e7Smrj 186612f080e7Smrj *handlep = (ddi_dma_handle_t)hp; 186712f080e7Smrj 18680b7ba611SMark Johnson ROOTNEX_DPROF_INC(&rootnex_cnt[ROOTNEX_CNT_ACTIVE_HDLS]); 18690b7ba611SMark Johnson ROOTNEX_DPROBE1(rootnex__alloc__handle, uint64_t, 187012f080e7Smrj rootnex_cnt[ROOTNEX_CNT_ACTIVE_HDLS]); 187112f080e7Smrj 187212f080e7Smrj return (DDI_SUCCESS); 187312f080e7Smrj } 187412f080e7Smrj 187512f080e7Smrj 187612f080e7Smrj /* 187720906b23SVikram Hegde * rootnex_dma_allochdl() 187820906b23SVikram Hegde * called from ddi_dma_alloc_handle(). 187912f080e7Smrj */ 188020906b23SVikram Hegde static int 188120906b23SVikram Hegde rootnex_dma_allochdl(dev_info_t *dip, dev_info_t *rdip, ddi_dma_attr_t *attr, 188220906b23SVikram Hegde int (*waitfp)(caddr_t), caddr_t arg, ddi_dma_handle_t *handlep) 188320906b23SVikram Hegde { 188450200e77SFrank Van Der Linden int retval = DDI_SUCCESS; 18853a634bfcSVikram Hegde #if defined(__amd64) && !defined(__xpv) 188620906b23SVikram Hegde 188750200e77SFrank Van Der Linden if (IOMMU_UNITIALIZED(rdip)) { 188850200e77SFrank Van Der Linden retval = iommulib_nex_open(dip, rdip); 188920906b23SVikram Hegde 189050200e77SFrank Van Der Linden if (retval != DDI_SUCCESS && retval != DDI_ENOTSUP) 189150200e77SFrank Van Der Linden return (retval); 189220906b23SVikram Hegde } 189320906b23SVikram Hegde 189450200e77SFrank Van Der Linden if (IOMMU_UNUSED(rdip)) { 189550200e77SFrank Van Der Linden retval = rootnex_coredma_allochdl(dip, rdip, attr, waitfp, arg, 189650200e77SFrank Van Der Linden handlep); 189750200e77SFrank Van Der Linden } else { 1898567c0b92SStephen Hanson retval = iommulib_nexdma_allochdl(dip, rdip, attr, 1899567c0b92SStephen Hanson waitfp, arg, handlep); 190050200e77SFrank Van Der Linden } 190120906b23SVikram Hegde #else 1902567c0b92SStephen Hanson retval = rootnex_coredma_allochdl(dip, rdip, attr, waitfp, arg, 1903567c0b92SStephen Hanson handlep); 190420906b23SVikram Hegde #endif 190550200e77SFrank Van Der Linden switch (retval) { 190650200e77SFrank Van Der Linden case DDI_DMA_NORESOURCES: 190750200e77SFrank Van Der Linden if (waitfp != DDI_DMA_DONTWAIT) { 190850200e77SFrank Van Der Linden ddi_set_callback(waitfp, arg, 190950200e77SFrank Van Der Linden &rootnex_state->r_dvma_call_list_id); 191050200e77SFrank Van Der Linden } 191150200e77SFrank Van Der Linden break; 191250200e77SFrank Van Der Linden case DDI_SUCCESS: 1913567c0b92SStephen Hanson ndi_fmc_insert(rdip, DMA_HANDLE, *handlep, NULL); 191450200e77SFrank Van Der Linden break; 191550200e77SFrank Van Der Linden default: 191650200e77SFrank Van Der Linden break; 191750200e77SFrank Van Der Linden } 1918567c0b92SStephen Hanson return (retval); 191920906b23SVikram Hegde } 192020906b23SVikram Hegde 192112f080e7Smrj /*ARGSUSED*/ 192212f080e7Smrj static int 192320906b23SVikram Hegde rootnex_coredma_freehdl(dev_info_t *dip, dev_info_t *rdip, 192420906b23SVikram Hegde ddi_dma_handle_t handle) 192512f080e7Smrj { 192612f080e7Smrj ddi_dma_impl_t *hp; 192712f080e7Smrj rootnex_dma_t *dma; 192812f080e7Smrj 192912f080e7Smrj 193012f080e7Smrj hp = (ddi_dma_impl_t *)handle; 193112f080e7Smrj dma = (rootnex_dma_t *)hp->dmai_private; 193212f080e7Smrj 193312f080e7Smrj /* unbind should have been called first */ 193412f080e7Smrj ASSERT(!dma->dp_inuse); 193512f080e7Smrj 193612f080e7Smrj mutex_destroy(&dma->dp_mutex); 193712f080e7Smrj kmem_cache_free(rootnex_state->r_dmahdl_cache, hp); 193812f080e7Smrj 19390b7ba611SMark Johnson ROOTNEX_DPROF_DEC(&rootnex_cnt[ROOTNEX_CNT_ACTIVE_HDLS]); 19400b7ba611SMark Johnson ROOTNEX_DPROBE1(rootnex__free__handle, uint64_t, 194112f080e7Smrj rootnex_cnt[ROOTNEX_CNT_ACTIVE_HDLS]); 194212f080e7Smrj 194312f080e7Smrj return (DDI_SUCCESS); 194412f080e7Smrj } 194512f080e7Smrj 194612f080e7Smrj /* 194720906b23SVikram Hegde * rootnex_dma_freehdl() 194820906b23SVikram Hegde * called from ddi_dma_free_handle(). 194912f080e7Smrj */ 195020906b23SVikram Hegde static int 195120906b23SVikram Hegde rootnex_dma_freehdl(dev_info_t *dip, dev_info_t *rdip, ddi_dma_handle_t handle) 195220906b23SVikram Hegde { 195350200e77SFrank Van Der Linden int ret; 195450200e77SFrank Van Der Linden 1955567c0b92SStephen Hanson ndi_fmc_remove(rdip, DMA_HANDLE, handle); 19563a634bfcSVikram Hegde #if defined(__amd64) && !defined(__xpv) 195750200e77SFrank Van Der Linden if (IOMMU_USED(rdip)) 195850200e77SFrank Van Der Linden ret = iommulib_nexdma_freehdl(dip, rdip, handle); 195950200e77SFrank Van Der Linden else 196020906b23SVikram Hegde #endif 196150200e77SFrank Van Der Linden ret = rootnex_coredma_freehdl(dip, rdip, handle); 196250200e77SFrank Van Der Linden 196350200e77SFrank Van Der Linden if (rootnex_state->r_dvma_call_list_id) 196450200e77SFrank Van Der Linden ddi_run_callback(&rootnex_state->r_dvma_call_list_id); 196550200e77SFrank Van Der Linden 196650200e77SFrank Van Der Linden return (ret); 196720906b23SVikram Hegde } 196820906b23SVikram Hegde 196912f080e7Smrj /*ARGSUSED*/ 197012f080e7Smrj static int 197120906b23SVikram Hegde rootnex_coredma_bindhdl(dev_info_t *dip, dev_info_t *rdip, 197220906b23SVikram Hegde ddi_dma_handle_t handle, struct ddi_dma_req *dmareq, 197320906b23SVikram Hegde ddi_dma_cookie_t *cookiep, uint_t *ccountp) 197412f080e7Smrj { 197512f080e7Smrj rootnex_sglinfo_t *sinfo; 197650200e77SFrank Van Der Linden ddi_dma_obj_t *dmao; 1977ee7536e8SFrank Van Der Linden #if defined(__amd64) && !defined(__xpv) 197850200e77SFrank Van Der Linden struct dvmaseg *dvs; 197950200e77SFrank Van Der Linden ddi_dma_cookie_t *cookie; 1980ee7536e8SFrank Van Der Linden #endif 198112f080e7Smrj ddi_dma_attr_t *attr; 198212f080e7Smrj ddi_dma_impl_t *hp; 198312f080e7Smrj rootnex_dma_t *dma; 198412f080e7Smrj int kmflag; 198512f080e7Smrj int e; 198650200e77SFrank Van Der Linden uint_t ncookies; 198712f080e7Smrj 198812f080e7Smrj hp = (ddi_dma_impl_t *)handle; 198912f080e7Smrj dma = (rootnex_dma_t *)hp->dmai_private; 1990ee7536e8SFrank Van Der Linden dmao = &dma->dp_dma; 199112f080e7Smrj sinfo = &dma->dp_sglinfo; 199212f080e7Smrj attr = &hp->dmai_attr; 199312f080e7Smrj 199496992ee7SEthindra Ramamurthy /* convert the sleep flags */ 199594f1124eSVikram Hegde if (dmareq->dmar_fp == DDI_DMA_SLEEP) { 199696992ee7SEthindra Ramamurthy dma->dp_sleep_flags = kmflag = KM_SLEEP; 199794f1124eSVikram Hegde } else { 199896992ee7SEthindra Ramamurthy dma->dp_sleep_flags = kmflag = KM_NOSLEEP; 199994f1124eSVikram Hegde } 200094f1124eSVikram Hegde 200112f080e7Smrj hp->dmai_rflags = dmareq->dmar_flags & DMP_DDIFLAGS; 200212f080e7Smrj 200312f080e7Smrj /* 200412f080e7Smrj * This is useful for debugging a driver. Not as useful in a production 200512f080e7Smrj * system. The only time this will fail is if you have a driver bug. 200612f080e7Smrj */ 200712f080e7Smrj if (rootnex_bind_check_inuse) { 200812f080e7Smrj /* 200912f080e7Smrj * No one else should ever have this lock unless someone else 201012f080e7Smrj * is trying to use this handle. So contention on the lock 201112f080e7Smrj * is the same as inuse being set. 201212f080e7Smrj */ 201312f080e7Smrj e = mutex_tryenter(&dma->dp_mutex); 201412f080e7Smrj if (e == 0) { 2015ef4ab52fSFrank Van Der Linden ROOTNEX_DPROF_INC(&rootnex_cnt[ROOTNEX_CNT_BIND_FAIL]); 201612f080e7Smrj return (DDI_DMA_INUSE); 201712f080e7Smrj } 201812f080e7Smrj if (dma->dp_inuse) { 201912f080e7Smrj mutex_exit(&dma->dp_mutex); 2020ef4ab52fSFrank Van Der Linden ROOTNEX_DPROF_INC(&rootnex_cnt[ROOTNEX_CNT_BIND_FAIL]); 202112f080e7Smrj return (DDI_DMA_INUSE); 202212f080e7Smrj } 202312f080e7Smrj dma->dp_inuse = B_TRUE; 202412f080e7Smrj mutex_exit(&dma->dp_mutex); 202512f080e7Smrj } 202612f080e7Smrj 202712f080e7Smrj /* check the ddi_dma_attr arg to make sure it makes a little sense */ 202812f080e7Smrj if (rootnex_bind_check_parms) { 202912f080e7Smrj e = rootnex_valid_bind_parms(dmareq, attr); 203012f080e7Smrj if (e != DDI_SUCCESS) { 2031ef4ab52fSFrank Van Der Linden ROOTNEX_DPROF_INC(&rootnex_cnt[ROOTNEX_CNT_BIND_FAIL]); 203212f080e7Smrj rootnex_clean_dmahdl(hp); 203312f080e7Smrj return (e); 203412f080e7Smrj } 203512f080e7Smrj } 203612f080e7Smrj 203712f080e7Smrj /* save away the original bind info */ 203812f080e7Smrj dma->dp_dma = dmareq->dmar_object; 203912f080e7Smrj 20403a634bfcSVikram Hegde #if defined(__amd64) && !defined(__xpv) 204150200e77SFrank Van Der Linden if (IOMMU_USED(rdip)) { 204250200e77SFrank Van Der Linden dmao = &dma->dp_dvma; 204350200e77SFrank Van Der Linden e = iommulib_nexdma_mapobject(dip, rdip, handle, dmareq, dmao); 204486c1f4dcSVikram Hegde switch (e) { 204550200e77SFrank Van Der Linden case DDI_SUCCESS: 204650200e77SFrank Van Der Linden if (sinfo->si_cancross || 204750200e77SFrank Van Der Linden dmao->dmao_obj.dvma_obj.dv_nseg != 1 || 204850200e77SFrank Van Der Linden dmao->dmao_size > sinfo->si_max_cookie_size) { 204950200e77SFrank Van Der Linden dma->dp_dvma_used = B_TRUE; 20503a634bfcSVikram Hegde break; 205150200e77SFrank Van Der Linden } 205250200e77SFrank Van Der Linden sinfo->si_sgl_size = 1; 205350200e77SFrank Van Der Linden hp->dmai_rflags |= DMP_NOSYNC; 205450200e77SFrank Van Der Linden 205550200e77SFrank Van Der Linden dma->dp_dvma_used = B_TRUE; 205650200e77SFrank Van Der Linden dma->dp_need_to_free_cookie = B_FALSE; 205750200e77SFrank Van Der Linden 205850200e77SFrank Van Der Linden dvs = &dmao->dmao_obj.dvma_obj.dv_seg[0]; 205950200e77SFrank Van Der Linden cookie = hp->dmai_cookie = dma->dp_cookies = 206050200e77SFrank Van Der Linden (ddi_dma_cookie_t *)dma->dp_prealloc_buffer; 206150200e77SFrank Van Der Linden cookie->dmac_laddress = dvs->dvs_start + 206250200e77SFrank Van Der Linden dmao->dmao_obj.dvma_obj.dv_off; 206350200e77SFrank Van Der Linden cookie->dmac_size = dvs->dvs_len; 206450200e77SFrank Van Der Linden cookie->dmac_type = 0; 206550200e77SFrank Van Der Linden 206650200e77SFrank Van Der Linden ROOTNEX_DPROBE1(rootnex__bind__dvmafast, dev_info_t *, 206750200e77SFrank Van Der Linden rdip); 206850200e77SFrank Van Der Linden goto fast; 206950200e77SFrank Van Der Linden case DDI_ENOTSUP: 207050200e77SFrank Van Der Linden break; 207186c1f4dcSVikram Hegde default: 207286c1f4dcSVikram Hegde rootnex_clean_dmahdl(hp); 20733a634bfcSVikram Hegde return (e); 207486c1f4dcSVikram Hegde } 207550200e77SFrank Van Der Linden } 207620906b23SVikram Hegde #endif 207786c1f4dcSVikram Hegde 207812f080e7Smrj /* 207950200e77SFrank Van Der Linden * Figure out a rough estimate of what maximum number of pages 208050200e77SFrank Van Der Linden * this buffer could use (a high estimate of course). 208112f080e7Smrj */ 208212f080e7Smrj sinfo->si_max_pages = mmu_btopr(dma->dp_dma.dmao_size) + 1; 208312f080e7Smrj 208450200e77SFrank Van Der Linden if (dma->dp_dvma_used) { 208550200e77SFrank Van Der Linden /* 208650200e77SFrank Van Der Linden * The number of physical pages is the worst case. 208750200e77SFrank Van Der Linden * 208850200e77SFrank Van Der Linden * For DVMA, the worst case is the length divided 208950200e77SFrank Van Der Linden * by the maximum cookie length, plus 1. Add to that 209050200e77SFrank Van Der Linden * the number of segment boundaries potentially crossed, and 209150200e77SFrank Van Der Linden * the additional number of DVMA segments that was returned. 209250200e77SFrank Van Der Linden * 209350200e77SFrank Van Der Linden * In the normal case, for modern devices, si_cancross will 209450200e77SFrank Van Der Linden * be false, and dv_nseg will be 1, and the fast path will 209550200e77SFrank Van Der Linden * have been taken above. 209650200e77SFrank Van Der Linden */ 209750200e77SFrank Van Der Linden ncookies = (dma->dp_dma.dmao_size / sinfo->si_max_cookie_size) 209850200e77SFrank Van Der Linden + 1; 209950200e77SFrank Van Der Linden if (sinfo->si_cancross) 210050200e77SFrank Van Der Linden ncookies += 210150200e77SFrank Van Der Linden (dma->dp_dma.dmao_size / attr->dma_attr_seg) + 1; 210250200e77SFrank Van Der Linden ncookies += (dmao->dmao_obj.dvma_obj.dv_nseg - 1); 210350200e77SFrank Van Der Linden 210450200e77SFrank Van Der Linden sinfo->si_max_pages = MIN(sinfo->si_max_pages, ncookies); 210550200e77SFrank Van Der Linden } 210650200e77SFrank Van Der Linden 210712f080e7Smrj /* 210812f080e7Smrj * We'll use the pre-allocated cookies for any bind that will *always* 210912f080e7Smrj * fit (more important to be consistent, we don't want to create 211012f080e7Smrj * additional degenerate cases). 211112f080e7Smrj */ 211212f080e7Smrj if (sinfo->si_max_pages <= rootnex_state->r_prealloc_cookies) { 211312f080e7Smrj dma->dp_cookies = (ddi_dma_cookie_t *)dma->dp_prealloc_buffer; 211412f080e7Smrj dma->dp_need_to_free_cookie = B_FALSE; 2115ef4ab52fSFrank Van Der Linden ROOTNEX_DPROBE2(rootnex__bind__prealloc, dev_info_t *, rdip, 211612f080e7Smrj uint_t, sinfo->si_max_pages); 211712f080e7Smrj 211812f080e7Smrj /* 211912f080e7Smrj * For anything larger than that, we'll go ahead and allocate the 212012f080e7Smrj * maximum number of pages we expect to see. Hopefuly, we won't be 212112f080e7Smrj * seeing this path in the fast path for high performance devices very 212212f080e7Smrj * frequently. 212312f080e7Smrj * 212412f080e7Smrj * a ddi bind interface that allowed the driver to provide storage to 212512f080e7Smrj * the bind interface would speed this case up. 212612f080e7Smrj */ 212712f080e7Smrj } else { 212812f080e7Smrj /* 212912f080e7Smrj * Save away how much memory we allocated. If we're doing a 213012f080e7Smrj * nosleep, the alloc could fail... 213112f080e7Smrj */ 213212f080e7Smrj dma->dp_cookie_size = sinfo->si_max_pages * 213312f080e7Smrj sizeof (ddi_dma_cookie_t); 213412f080e7Smrj dma->dp_cookies = kmem_alloc(dma->dp_cookie_size, kmflag); 213512f080e7Smrj if (dma->dp_cookies == NULL) { 2136ef4ab52fSFrank Van Der Linden ROOTNEX_DPROF_INC(&rootnex_cnt[ROOTNEX_CNT_BIND_FAIL]); 213712f080e7Smrj rootnex_clean_dmahdl(hp); 213812f080e7Smrj return (DDI_DMA_NORESOURCES); 213912f080e7Smrj } 214012f080e7Smrj dma->dp_need_to_free_cookie = B_TRUE; 2141ef4ab52fSFrank Van Der Linden ROOTNEX_DPROBE2(rootnex__bind__alloc, dev_info_t *, rdip, 2142ef4ab52fSFrank Van Der Linden uint_t, sinfo->si_max_pages); 214312f080e7Smrj } 214412f080e7Smrj hp->dmai_cookie = dma->dp_cookies; 214512f080e7Smrj 214612f080e7Smrj /* 214712f080e7Smrj * Get the real sgl. rootnex_get_sgl will fill in cookie array while 21483a634bfcSVikram Hegde * looking at the constraints in the dma structure. It will then put 21493a634bfcSVikram Hegde * some additional state about the sgl in the dma struct (i.e. is 21503a634bfcSVikram Hegde * the sgl clean, or do we need to do some munging; how many pages 21513a634bfcSVikram Hegde * need to be copied, etc.) 215212f080e7Smrj */ 215350200e77SFrank Van Der Linden if (dma->dp_dvma_used) 215450200e77SFrank Van Der Linden rootnex_dvma_get_sgl(dmao, dma->dp_cookies, &dma->dp_sglinfo); 215550200e77SFrank Van Der Linden else 215650200e77SFrank Van Der Linden rootnex_get_sgl(dmao, dma->dp_cookies, &dma->dp_sglinfo); 215712f080e7Smrj 21583a634bfcSVikram Hegde out: 215986c1f4dcSVikram Hegde ASSERT(sinfo->si_sgl_size <= sinfo->si_max_pages); 216012f080e7Smrj /* if we don't need a copy buffer, we don't need to sync */ 216112f080e7Smrj if (sinfo->si_copybuf_req == 0) { 216212f080e7Smrj hp->dmai_rflags |= DMP_NOSYNC; 216312f080e7Smrj } 216412f080e7Smrj 216512f080e7Smrj /* 216612f080e7Smrj * if we don't need the copybuf and we don't need to do a partial, we 216712f080e7Smrj * hit the fast path. All the high performance devices should be trying 216812f080e7Smrj * to hit this path. To hit this path, a device should be able to reach 216912f080e7Smrj * all of memory, shouldn't try to bind more than it can transfer, and 217012f080e7Smrj * the buffer shouldn't require more cookies than the driver/device can 217112f080e7Smrj * handle [sgllen]). 2172*877f730dSGarrett D'Amore * 2173*877f730dSGarrett D'Amore * Note that negative values of dma_attr_sgllen are supposed 2174*877f730dSGarrett D'Amore * to mean unlimited, but we just cast them to mean a 2175*877f730dSGarrett D'Amore * "ridiculous large limit". This saves some extra checks on 2176*877f730dSGarrett D'Amore * hot paths. 217712f080e7Smrj */ 217812f080e7Smrj if ((sinfo->si_copybuf_req == 0) && 2179*877f730dSGarrett D'Amore (sinfo->si_sgl_size <= (unsigned)attr->dma_attr_sgllen) && 218050200e77SFrank Van Der Linden (dmao->dmao_size < dma->dp_maxxfer)) { 218150200e77SFrank Van Der Linden fast: 218212f080e7Smrj /* 218385c8e0e8Sstephh * If the driver supports FMA, insert the handle in the FMA DMA 218485c8e0e8Sstephh * handle cache. 218585c8e0e8Sstephh */ 2186567c0b92SStephen Hanson if (attr->dma_attr_flags & DDI_DMA_FLAGERR) 218785c8e0e8Sstephh hp->dmai_error.err_cf = rootnex_dma_check; 218885c8e0e8Sstephh 218985c8e0e8Sstephh /* 219012f080e7Smrj * copy out the first cookie and ccountp, set the cookie 219112f080e7Smrj * pointer to the second cookie. The first cookie is passed 219212f080e7Smrj * back on the stack. Additional cookies are accessed via 219312f080e7Smrj * ddi_dma_nextcookie() 219412f080e7Smrj */ 219512f080e7Smrj *cookiep = dma->dp_cookies[0]; 219612f080e7Smrj *ccountp = sinfo->si_sgl_size; 219712f080e7Smrj hp->dmai_cookie++; 219812f080e7Smrj hp->dmai_rflags &= ~DDI_DMA_PARTIAL; 2199ef4ab52fSFrank Van Der Linden ROOTNEX_DPROF_INC(&rootnex_cnt[ROOTNEX_CNT_ACTIVE_BINDS]); 220050200e77SFrank Van Der Linden ROOTNEX_DPROBE4(rootnex__bind__fast, dev_info_t *, rdip, 22013a634bfcSVikram Hegde uint64_t, rootnex_cnt[ROOTNEX_CNT_ACTIVE_BINDS], 220250200e77SFrank Van Der Linden uint_t, dmao->dmao_size, uint_t, *ccountp); 22033a634bfcSVikram Hegde 22043a634bfcSVikram Hegde 220512f080e7Smrj return (DDI_DMA_MAPPED); 220612f080e7Smrj } 220712f080e7Smrj 220812f080e7Smrj /* 220912f080e7Smrj * go to the slow path, we may need to alloc more memory, create 221012f080e7Smrj * multiple windows, and munge up a sgl to make the device happy. 221112f080e7Smrj */ 221250200e77SFrank Van Der Linden 221350200e77SFrank Van Der Linden /* 221450200e77SFrank Van Der Linden * With the IOMMU mapobject method used, we should never hit 221550200e77SFrank Van Der Linden * the slow path. If we do, something is seriously wrong. 221650200e77SFrank Van Der Linden * Clean up and return an error. 221750200e77SFrank Van Der Linden */ 221850200e77SFrank Van Der Linden 22195800d066SAlbert Lee #if defined(__amd64) && !defined(__xpv) 22205800d066SAlbert Lee 222150200e77SFrank Van Der Linden if (dma->dp_dvma_used) { 222250200e77SFrank Van Der Linden (void) iommulib_nexdma_unmapobject(dip, rdip, handle, 222350200e77SFrank Van Der Linden &dma->dp_dvma); 222450200e77SFrank Van Der Linden e = DDI_DMA_NOMAPPING; 222550200e77SFrank Van Der Linden } else { 22265800d066SAlbert Lee #endif 222750200e77SFrank Van Der Linden e = rootnex_bind_slowpath(hp, dmareq, dma, attr, &dma->dp_dma, 222850200e77SFrank Van Der Linden kmflag); 22295800d066SAlbert Lee #if defined(__amd64) && !defined(__xpv) 223050200e77SFrank Van Der Linden } 22315800d066SAlbert Lee #endif 223212f080e7Smrj if ((e != DDI_DMA_MAPPED) && (e != DDI_DMA_PARTIAL_MAP)) { 223312f080e7Smrj if (dma->dp_need_to_free_cookie) { 223412f080e7Smrj kmem_free(dma->dp_cookies, dma->dp_cookie_size); 223512f080e7Smrj } 2236ef4ab52fSFrank Van Der Linden ROOTNEX_DPROF_INC(&rootnex_cnt[ROOTNEX_CNT_BIND_FAIL]); 223712f080e7Smrj rootnex_clean_dmahdl(hp); /* must be after free cookie */ 223812f080e7Smrj return (e); 223912f080e7Smrj } 224012f080e7Smrj 224185c8e0e8Sstephh /* 224285c8e0e8Sstephh * If the driver supports FMA, insert the handle in the FMA DMA handle 224385c8e0e8Sstephh * cache. 224485c8e0e8Sstephh */ 2245567c0b92SStephen Hanson if (attr->dma_attr_flags & DDI_DMA_FLAGERR) 224685c8e0e8Sstephh hp->dmai_error.err_cf = rootnex_dma_check; 224785c8e0e8Sstephh 224812f080e7Smrj /* if the first window uses the copy buffer, sync it for the device */ 224912f080e7Smrj if ((dma->dp_window[dma->dp_current_win].wd_dosync) && 225012f080e7Smrj (hp->dmai_rflags & DDI_DMA_WRITE)) { 225194f1124eSVikram Hegde (void) rootnex_coredma_sync(dip, rdip, handle, 0, 0, 225212f080e7Smrj DDI_DMA_SYNC_FORDEV); 225312f080e7Smrj } 225412f080e7Smrj 225512f080e7Smrj /* 225612f080e7Smrj * copy out the first cookie and ccountp, set the cookie pointer to the 225712f080e7Smrj * second cookie. Make sure the partial flag is set/cleared correctly. 225812f080e7Smrj * If we have a partial map (i.e. multiple windows), the number of 225912f080e7Smrj * cookies we return is the number of cookies in the first window. 226012f080e7Smrj */ 226112f080e7Smrj if (e == DDI_DMA_MAPPED) { 226212f080e7Smrj hp->dmai_rflags &= ~DDI_DMA_PARTIAL; 226312f080e7Smrj *ccountp = sinfo->si_sgl_size; 22643a634bfcSVikram Hegde hp->dmai_nwin = 1; 226512f080e7Smrj } else { 226612f080e7Smrj hp->dmai_rflags |= DDI_DMA_PARTIAL; 226712f080e7Smrj *ccountp = dma->dp_window[dma->dp_current_win].wd_cookie_cnt; 226812f080e7Smrj ASSERT(hp->dmai_nwin <= dma->dp_max_win); 226912f080e7Smrj } 227012f080e7Smrj *cookiep = dma->dp_cookies[0]; 227112f080e7Smrj hp->dmai_cookie++; 227212f080e7Smrj 22730b7ba611SMark Johnson ROOTNEX_DPROF_INC(&rootnex_cnt[ROOTNEX_CNT_ACTIVE_BINDS]); 227450200e77SFrank Van Der Linden ROOTNEX_DPROBE4(rootnex__bind__slow, dev_info_t *, rdip, uint64_t, 227512f080e7Smrj rootnex_cnt[ROOTNEX_CNT_ACTIVE_BINDS], uint_t, 227650200e77SFrank Van Der Linden dmao->dmao_size, uint_t, *ccountp); 227712f080e7Smrj return (e); 227812f080e7Smrj } 227912f080e7Smrj 228012f080e7Smrj /* 228120906b23SVikram Hegde * rootnex_dma_bindhdl() 228220906b23SVikram Hegde * called from ddi_dma_addr_bind_handle() and ddi_dma_buf_bind_handle(). 228312f080e7Smrj */ 228420906b23SVikram Hegde static int 228520906b23SVikram Hegde rootnex_dma_bindhdl(dev_info_t *dip, dev_info_t *rdip, 228620906b23SVikram Hegde ddi_dma_handle_t handle, struct ddi_dma_req *dmareq, 228720906b23SVikram Hegde ddi_dma_cookie_t *cookiep, uint_t *ccountp) 228820906b23SVikram Hegde { 228950200e77SFrank Van Der Linden int ret; 22903a634bfcSVikram Hegde #if defined(__amd64) && !defined(__xpv) 229150200e77SFrank Van Der Linden if (IOMMU_USED(rdip)) 229250200e77SFrank Van Der Linden ret = iommulib_nexdma_bindhdl(dip, rdip, handle, dmareq, 229350200e77SFrank Van Der Linden cookiep, ccountp); 229450200e77SFrank Van Der Linden else 229520906b23SVikram Hegde #endif 229650200e77SFrank Van Der Linden ret = rootnex_coredma_bindhdl(dip, rdip, handle, dmareq, 229750200e77SFrank Van Der Linden cookiep, ccountp); 229850200e77SFrank Van Der Linden 229950200e77SFrank Van Der Linden if (ret == DDI_DMA_NORESOURCES && dmareq->dmar_fp != DDI_DMA_DONTWAIT) { 230050200e77SFrank Van Der Linden ddi_set_callback(dmareq->dmar_fp, dmareq->dmar_arg, 230150200e77SFrank Van Der Linden &rootnex_state->r_dvma_call_list_id); 230250200e77SFrank Van Der Linden } 230350200e77SFrank Van Der Linden 230450200e77SFrank Van Der Linden return (ret); 230520906b23SVikram Hegde } 230620906b23SVikram Hegde 23073a634bfcSVikram Hegde 23083a634bfcSVikram Hegde 230912f080e7Smrj /*ARGSUSED*/ 231012f080e7Smrj static int 231120906b23SVikram Hegde rootnex_coredma_unbindhdl(dev_info_t *dip, dev_info_t *rdip, 231212f080e7Smrj ddi_dma_handle_t handle) 231312f080e7Smrj { 231412f080e7Smrj ddi_dma_impl_t *hp; 231512f080e7Smrj rootnex_dma_t *dma; 231612f080e7Smrj int e; 231712f080e7Smrj 231812f080e7Smrj hp = (ddi_dma_impl_t *)handle; 231912f080e7Smrj dma = (rootnex_dma_t *)hp->dmai_private; 232012f080e7Smrj 232112f080e7Smrj /* make sure the buffer wasn't free'd before calling unbind */ 232212f080e7Smrj if (rootnex_unbind_verify_buffer) { 232312f080e7Smrj e = rootnex_verify_buffer(dma); 232412f080e7Smrj if (e != DDI_SUCCESS) { 232512f080e7Smrj ASSERT(0); 232612f080e7Smrj return (DDI_FAILURE); 232712f080e7Smrj } 232812f080e7Smrj } 232912f080e7Smrj 233012f080e7Smrj /* sync the current window before unbinding the buffer */ 233112f080e7Smrj if (dma->dp_window && dma->dp_window[dma->dp_current_win].wd_dosync && 233212f080e7Smrj (hp->dmai_rflags & DDI_DMA_READ)) { 233394f1124eSVikram Hegde (void) rootnex_coredma_sync(dip, rdip, handle, 0, 0, 233412f080e7Smrj DDI_DMA_SYNC_FORCPU); 233512f080e7Smrj } 233612f080e7Smrj 233712f080e7Smrj /* 233812f080e7Smrj * cleanup and copy buffer or window state. if we didn't use the copy 233912f080e7Smrj * buffer or windows, there won't be much to do :-) 234012f080e7Smrj */ 234112f080e7Smrj rootnex_teardown_copybuf(dma); 234212f080e7Smrj rootnex_teardown_windows(dma); 234312f080e7Smrj 23445800d066SAlbert Lee #if defined(__amd64) && !defined(__xpv) 234550200e77SFrank Van Der Linden if (IOMMU_USED(rdip)) 234650200e77SFrank Van Der Linden (void) iommulib_nexdma_unmapobject(dip, rdip, handle, 234750200e77SFrank Van Der Linden &dma->dp_dvma); 23485800d066SAlbert Lee #endif 234986c1f4dcSVikram Hegde 235086c1f4dcSVikram Hegde /* 235112f080e7Smrj * If we had to allocate space to for the worse case sgl (it didn't 235212f080e7Smrj * fit into our pre-allocate buffer), free that up now 235312f080e7Smrj */ 235412f080e7Smrj if (dma->dp_need_to_free_cookie) { 235512f080e7Smrj kmem_free(dma->dp_cookies, dma->dp_cookie_size); 235612f080e7Smrj } 235712f080e7Smrj 235812f080e7Smrj /* 235912f080e7Smrj * clean up the handle so it's ready for the next bind (i.e. if the 236012f080e7Smrj * handle is reused). 236112f080e7Smrj */ 236212f080e7Smrj rootnex_clean_dmahdl(hp); 2363567c0b92SStephen Hanson hp->dmai_error.err_cf = NULL; 236412f080e7Smrj 23650b7ba611SMark Johnson ROOTNEX_DPROF_DEC(&rootnex_cnt[ROOTNEX_CNT_ACTIVE_BINDS]); 23660b7ba611SMark Johnson ROOTNEX_DPROBE1(rootnex__unbind, uint64_t, 236712f080e7Smrj rootnex_cnt[ROOTNEX_CNT_ACTIVE_BINDS]); 236812f080e7Smrj 236912f080e7Smrj return (DDI_SUCCESS); 237012f080e7Smrj } 237112f080e7Smrj 237220906b23SVikram Hegde /* 237320906b23SVikram Hegde * rootnex_dma_unbindhdl() 237420906b23SVikram Hegde * called from ddi_dma_unbind_handle() 237520906b23SVikram Hegde */ 237620906b23SVikram Hegde /*ARGSUSED*/ 237720906b23SVikram Hegde static int 237820906b23SVikram Hegde rootnex_dma_unbindhdl(dev_info_t *dip, dev_info_t *rdip, 237920906b23SVikram Hegde ddi_dma_handle_t handle) 238020906b23SVikram Hegde { 238150200e77SFrank Van Der Linden int ret; 238250200e77SFrank Van Der Linden 23833a634bfcSVikram Hegde #if defined(__amd64) && !defined(__xpv) 238450200e77SFrank Van Der Linden if (IOMMU_USED(rdip)) 238550200e77SFrank Van Der Linden ret = iommulib_nexdma_unbindhdl(dip, rdip, handle); 238650200e77SFrank Van Der Linden else 238720906b23SVikram Hegde #endif 238850200e77SFrank Van Der Linden ret = rootnex_coredma_unbindhdl(dip, rdip, handle); 238950200e77SFrank Van Der Linden 239050200e77SFrank Van Der Linden if (rootnex_state->r_dvma_call_list_id) 239150200e77SFrank Van Der Linden ddi_run_callback(&rootnex_state->r_dvma_call_list_id); 239250200e77SFrank Van Der Linden 239350200e77SFrank Van Der Linden return (ret); 239420906b23SVikram Hegde } 239520906b23SVikram Hegde 23963a634bfcSVikram Hegde #if defined(__amd64) && !defined(__xpv) 239794f1124eSVikram Hegde 239894f1124eSVikram Hegde static int 239994f1124eSVikram Hegde rootnex_coredma_get_sleep_flags(ddi_dma_handle_t handle) 240094f1124eSVikram Hegde { 240194f1124eSVikram Hegde ddi_dma_impl_t *hp = (ddi_dma_impl_t *)handle; 240294f1124eSVikram Hegde rootnex_dma_t *dma = (rootnex_dma_t *)hp->dmai_private; 240394f1124eSVikram Hegde 240494f1124eSVikram Hegde if (dma->dp_sleep_flags != KM_SLEEP && 240594f1124eSVikram Hegde dma->dp_sleep_flags != KM_NOSLEEP) 240694f1124eSVikram Hegde cmn_err(CE_PANIC, "kmem sleep flags not set in DMA handle"); 240794f1124eSVikram Hegde return (dma->dp_sleep_flags); 240894f1124eSVikram Hegde } 240920906b23SVikram Hegde /*ARGSUSED*/ 241020906b23SVikram Hegde static void 241120906b23SVikram Hegde rootnex_coredma_reset_cookies(dev_info_t *dip, ddi_dma_handle_t handle) 241220906b23SVikram Hegde { 241320906b23SVikram Hegde ddi_dma_impl_t *hp = (ddi_dma_impl_t *)handle; 241420906b23SVikram Hegde rootnex_dma_t *dma = (rootnex_dma_t *)hp->dmai_private; 241594f1124eSVikram Hegde rootnex_window_t *window; 241620906b23SVikram Hegde 241794f1124eSVikram Hegde if (dma->dp_window) { 241894f1124eSVikram Hegde window = &dma->dp_window[dma->dp_current_win]; 241994f1124eSVikram Hegde hp->dmai_cookie = window->wd_first_cookie; 242094f1124eSVikram Hegde } else { 242194f1124eSVikram Hegde hp->dmai_cookie = dma->dp_cookies; 242294f1124eSVikram Hegde } 242320906b23SVikram Hegde hp->dmai_cookie++; 242420906b23SVikram Hegde } 242520906b23SVikram Hegde 242620906b23SVikram Hegde /*ARGSUSED*/ 242720906b23SVikram Hegde static int 242820906b23SVikram Hegde rootnex_coredma_get_cookies(dev_info_t *dip, ddi_dma_handle_t handle, 242994f1124eSVikram Hegde ddi_dma_cookie_t **cookiepp, uint_t *ccountp) 243020906b23SVikram Hegde { 243194f1124eSVikram Hegde int i; 243294f1124eSVikram Hegde int km_flags; 243320906b23SVikram Hegde ddi_dma_impl_t *hp = (ddi_dma_impl_t *)handle; 243420906b23SVikram Hegde rootnex_dma_t *dma = (rootnex_dma_t *)hp->dmai_private; 243594f1124eSVikram Hegde rootnex_window_t *window; 243694f1124eSVikram Hegde ddi_dma_cookie_t *cp; 243794f1124eSVikram Hegde ddi_dma_cookie_t *cookie; 243820906b23SVikram Hegde 243994f1124eSVikram Hegde ASSERT(*cookiepp == NULL); 244094f1124eSVikram Hegde ASSERT(*ccountp == 0); 244120906b23SVikram Hegde 244294f1124eSVikram Hegde if (dma->dp_window) { 244394f1124eSVikram Hegde window = &dma->dp_window[dma->dp_current_win]; 244494f1124eSVikram Hegde cp = window->wd_first_cookie; 244594f1124eSVikram Hegde *ccountp = window->wd_cookie_cnt; 244620906b23SVikram Hegde } else { 244794f1124eSVikram Hegde cp = dma->dp_cookies; 244820906b23SVikram Hegde *ccountp = dma->dp_sglinfo.si_sgl_size; 244920906b23SVikram Hegde } 245020906b23SVikram Hegde 245194f1124eSVikram Hegde km_flags = rootnex_coredma_get_sleep_flags(handle); 245294f1124eSVikram Hegde cookie = kmem_zalloc(sizeof (ddi_dma_cookie_t) * (*ccountp), km_flags); 245394f1124eSVikram Hegde if (cookie == NULL) { 245494f1124eSVikram Hegde return (DDI_DMA_NORESOURCES); 245594f1124eSVikram Hegde } 245694f1124eSVikram Hegde 245794f1124eSVikram Hegde for (i = 0; i < *ccountp; i++) { 245894f1124eSVikram Hegde cookie[i].dmac_notused = cp[i].dmac_notused; 245994f1124eSVikram Hegde cookie[i].dmac_type = cp[i].dmac_type; 246094f1124eSVikram Hegde cookie[i].dmac_address = cp[i].dmac_address; 246194f1124eSVikram Hegde cookie[i].dmac_size = cp[i].dmac_size; 246294f1124eSVikram Hegde } 246394f1124eSVikram Hegde 246494f1124eSVikram Hegde *cookiepp = cookie; 246520906b23SVikram Hegde 246620906b23SVikram Hegde return (DDI_SUCCESS); 246720906b23SVikram Hegde } 246894f1124eSVikram Hegde 246994f1124eSVikram Hegde /*ARGSUSED*/ 247094f1124eSVikram Hegde static int 247194f1124eSVikram Hegde rootnex_coredma_set_cookies(dev_info_t *dip, ddi_dma_handle_t handle, 247294f1124eSVikram Hegde ddi_dma_cookie_t *cookiep, uint_t ccount) 247394f1124eSVikram Hegde { 247494f1124eSVikram Hegde ddi_dma_impl_t *hp = (ddi_dma_impl_t *)handle; 247594f1124eSVikram Hegde rootnex_dma_t *dma = (rootnex_dma_t *)hp->dmai_private; 247694f1124eSVikram Hegde rootnex_window_t *window; 247794f1124eSVikram Hegde ddi_dma_cookie_t *cur_cookiep; 247894f1124eSVikram Hegde 247994f1124eSVikram Hegde ASSERT(cookiep); 248094f1124eSVikram Hegde ASSERT(ccount != 0); 248194f1124eSVikram Hegde ASSERT(dma->dp_need_to_switch_cookies == B_FALSE); 248294f1124eSVikram Hegde 248394f1124eSVikram Hegde if (dma->dp_window) { 248494f1124eSVikram Hegde window = &dma->dp_window[dma->dp_current_win]; 248594f1124eSVikram Hegde dma->dp_saved_cookies = window->wd_first_cookie; 248694f1124eSVikram Hegde window->wd_first_cookie = cookiep; 248794f1124eSVikram Hegde ASSERT(ccount == window->wd_cookie_cnt); 248894f1124eSVikram Hegde cur_cookiep = (hp->dmai_cookie - dma->dp_saved_cookies) 248994f1124eSVikram Hegde + window->wd_first_cookie; 249094f1124eSVikram Hegde } else { 249194f1124eSVikram Hegde dma->dp_saved_cookies = dma->dp_cookies; 249294f1124eSVikram Hegde dma->dp_cookies = cookiep; 249394f1124eSVikram Hegde ASSERT(ccount == dma->dp_sglinfo.si_sgl_size); 249494f1124eSVikram Hegde cur_cookiep = (hp->dmai_cookie - dma->dp_saved_cookies) 249594f1124eSVikram Hegde + dma->dp_cookies; 249694f1124eSVikram Hegde } 249794f1124eSVikram Hegde 249894f1124eSVikram Hegde dma->dp_need_to_switch_cookies = B_TRUE; 249994f1124eSVikram Hegde hp->dmai_cookie = cur_cookiep; 250094f1124eSVikram Hegde 250194f1124eSVikram Hegde return (DDI_SUCCESS); 250294f1124eSVikram Hegde } 250394f1124eSVikram Hegde 250494f1124eSVikram Hegde /*ARGSUSED*/ 250594f1124eSVikram Hegde static int 250694f1124eSVikram Hegde rootnex_coredma_clear_cookies(dev_info_t *dip, ddi_dma_handle_t handle) 250794f1124eSVikram Hegde { 250894f1124eSVikram Hegde ddi_dma_impl_t *hp = (ddi_dma_impl_t *)handle; 250994f1124eSVikram Hegde rootnex_dma_t *dma = (rootnex_dma_t *)hp->dmai_private; 251094f1124eSVikram Hegde rootnex_window_t *window; 251194f1124eSVikram Hegde ddi_dma_cookie_t *cur_cookiep; 251294f1124eSVikram Hegde ddi_dma_cookie_t *cookie_array; 251394f1124eSVikram Hegde uint_t ccount; 251494f1124eSVikram Hegde 251594f1124eSVikram Hegde /* check if cookies have not been switched */ 251694f1124eSVikram Hegde if (dma->dp_need_to_switch_cookies == B_FALSE) 251794f1124eSVikram Hegde return (DDI_SUCCESS); 251894f1124eSVikram Hegde 251994f1124eSVikram Hegde ASSERT(dma->dp_saved_cookies); 252094f1124eSVikram Hegde 252194f1124eSVikram Hegde if (dma->dp_window) { 252294f1124eSVikram Hegde window = &dma->dp_window[dma->dp_current_win]; 252394f1124eSVikram Hegde cookie_array = window->wd_first_cookie; 252494f1124eSVikram Hegde window->wd_first_cookie = dma->dp_saved_cookies; 252594f1124eSVikram Hegde dma->dp_saved_cookies = NULL; 252694f1124eSVikram Hegde ccount = window->wd_cookie_cnt; 252794f1124eSVikram Hegde cur_cookiep = (hp->dmai_cookie - cookie_array) 252894f1124eSVikram Hegde + window->wd_first_cookie; 252994f1124eSVikram Hegde } else { 253094f1124eSVikram Hegde cookie_array = dma->dp_cookies; 253194f1124eSVikram Hegde dma->dp_cookies = dma->dp_saved_cookies; 253294f1124eSVikram Hegde dma->dp_saved_cookies = NULL; 253394f1124eSVikram Hegde ccount = dma->dp_sglinfo.si_sgl_size; 253494f1124eSVikram Hegde cur_cookiep = (hp->dmai_cookie - cookie_array) 253594f1124eSVikram Hegde + dma->dp_cookies; 253694f1124eSVikram Hegde } 253794f1124eSVikram Hegde 253894f1124eSVikram Hegde kmem_free(cookie_array, sizeof (ddi_dma_cookie_t) * ccount); 253994f1124eSVikram Hegde 254094f1124eSVikram Hegde hp->dmai_cookie = cur_cookiep; 254194f1124eSVikram Hegde 254294f1124eSVikram Hegde dma->dp_need_to_switch_cookies = B_FALSE; 254394f1124eSVikram Hegde 254494f1124eSVikram Hegde return (DDI_SUCCESS); 254594f1124eSVikram Hegde } 254694f1124eSVikram Hegde 25475dfdb46bSVikram Hegde #endif 254812f080e7Smrj 254950200e77SFrank Van Der Linden static struct as * 255050200e77SFrank Van Der Linden rootnex_get_as(ddi_dma_obj_t *dmao) 255150200e77SFrank Van Der Linden { 255250200e77SFrank Van Der Linden struct as *asp; 255350200e77SFrank Van Der Linden 255450200e77SFrank Van Der Linden switch (dmao->dmao_type) { 255550200e77SFrank Van Der Linden case DMA_OTYP_VADDR: 255650200e77SFrank Van Der Linden case DMA_OTYP_BUFVADDR: 255750200e77SFrank Van Der Linden asp = dmao->dmao_obj.virt_obj.v_as; 255850200e77SFrank Van Der Linden if (asp == NULL) 255950200e77SFrank Van Der Linden asp = &kas; 256050200e77SFrank Van Der Linden break; 256150200e77SFrank Van Der Linden default: 256250200e77SFrank Van Der Linden asp = NULL; 256350200e77SFrank Van Der Linden break; 256450200e77SFrank Van Der Linden } 256550200e77SFrank Van Der Linden return (asp); 256650200e77SFrank Van Der Linden } 256750200e77SFrank Van Der Linden 256812f080e7Smrj /* 256912f080e7Smrj * rootnex_verify_buffer() 257012f080e7Smrj * verify buffer wasn't free'd 257112f080e7Smrj */ 257212f080e7Smrj static int 257312f080e7Smrj rootnex_verify_buffer(rootnex_dma_t *dma) 257412f080e7Smrj { 257512f080e7Smrj page_t **pplist; 257612f080e7Smrj caddr_t vaddr; 257712f080e7Smrj uint_t pcnt; 257812f080e7Smrj uint_t poff; 257912f080e7Smrj page_t *pp; 258000d0963fSdilpreet char b; 258112f080e7Smrj int i; 258212f080e7Smrj 258312f080e7Smrj /* Figure out how many pages this buffer occupies */ 258412f080e7Smrj if (dma->dp_dma.dmao_type == DMA_OTYP_PAGES) { 258512f080e7Smrj poff = dma->dp_dma.dmao_obj.pp_obj.pp_offset & MMU_PAGEOFFSET; 258612f080e7Smrj } else { 258712f080e7Smrj vaddr = dma->dp_dma.dmao_obj.virt_obj.v_addr; 258812f080e7Smrj poff = (uintptr_t)vaddr & MMU_PAGEOFFSET; 258912f080e7Smrj } 259012f080e7Smrj pcnt = mmu_btopr(dma->dp_dma.dmao_size + poff); 259112f080e7Smrj 259212f080e7Smrj switch (dma->dp_dma.dmao_type) { 259312f080e7Smrj case DMA_OTYP_PAGES: 259412f080e7Smrj /* 259512f080e7Smrj * for a linked list of pp's walk through them to make sure 259612f080e7Smrj * they're locked and not free. 259712f080e7Smrj */ 259812f080e7Smrj pp = dma->dp_dma.dmao_obj.pp_obj.pp_pp; 259912f080e7Smrj for (i = 0; i < pcnt; i++) { 260012f080e7Smrj if (PP_ISFREE(pp) || !PAGE_LOCKED(pp)) { 260112f080e7Smrj return (DDI_FAILURE); 260212f080e7Smrj } 26037c478bd9Sstevel@tonic-gate pp = pp->p_next; 26047c478bd9Sstevel@tonic-gate } 26057c478bd9Sstevel@tonic-gate break; 260612f080e7Smrj 26077c478bd9Sstevel@tonic-gate case DMA_OTYP_VADDR: 26087c478bd9Sstevel@tonic-gate case DMA_OTYP_BUFVADDR: 260912f080e7Smrj pplist = dma->dp_dma.dmao_obj.virt_obj.v_priv; 261012f080e7Smrj /* 261112f080e7Smrj * for an array of pp's walk through them to make sure they're 261212f080e7Smrj * not free. It's possible that they may not be locked. 261312f080e7Smrj */ 261412f080e7Smrj if (pplist) { 261512f080e7Smrj for (i = 0; i < pcnt; i++) { 261612f080e7Smrj if (PP_ISFREE(pplist[i])) { 261712f080e7Smrj return (DDI_FAILURE); 261812f080e7Smrj } 261912f080e7Smrj } 262012f080e7Smrj 262112f080e7Smrj /* For a virtual address, try to peek at each page */ 262212f080e7Smrj } else { 262350200e77SFrank Van Der Linden if (rootnex_get_as(&dma->dp_dma) == &kas) { 262412f080e7Smrj for (i = 0; i < pcnt; i++) { 262500d0963fSdilpreet if (ddi_peek8(NULL, vaddr, &b) == 262600d0963fSdilpreet DDI_FAILURE) 262712f080e7Smrj return (DDI_FAILURE); 262800d0963fSdilpreet vaddr += MMU_PAGESIZE; 262912f080e7Smrj } 263012f080e7Smrj } 263112f080e7Smrj } 263212f080e7Smrj break; 263312f080e7Smrj 263412f080e7Smrj default: 263550200e77SFrank Van Der Linden cmn_err(CE_PANIC, "rootnex_verify_buffer: bad DMA object"); 263612f080e7Smrj break; 263712f080e7Smrj } 263812f080e7Smrj 263912f080e7Smrj return (DDI_SUCCESS); 264012f080e7Smrj } 264112f080e7Smrj 264212f080e7Smrj 264312f080e7Smrj /* 264412f080e7Smrj * rootnex_clean_dmahdl() 264512f080e7Smrj * Clean the dma handle. This should be called on a handle alloc and an 264612f080e7Smrj * unbind handle. Set the handle state to the default settings. 264712f080e7Smrj */ 264812f080e7Smrj static void 264912f080e7Smrj rootnex_clean_dmahdl(ddi_dma_impl_t *hp) 265012f080e7Smrj { 265112f080e7Smrj rootnex_dma_t *dma; 265212f080e7Smrj 265312f080e7Smrj 265412f080e7Smrj dma = (rootnex_dma_t *)hp->dmai_private; 265512f080e7Smrj 265612f080e7Smrj hp->dmai_nwin = 0; 265712f080e7Smrj dma->dp_current_cookie = 0; 265812f080e7Smrj dma->dp_copybuf_size = 0; 265912f080e7Smrj dma->dp_window = NULL; 266012f080e7Smrj dma->dp_cbaddr = NULL; 266112f080e7Smrj dma->dp_inuse = B_FALSE; 266250200e77SFrank Van Der Linden dma->dp_dvma_used = B_FALSE; 266312f080e7Smrj dma->dp_need_to_free_cookie = B_FALSE; 266494f1124eSVikram Hegde dma->dp_need_to_switch_cookies = B_FALSE; 266594f1124eSVikram Hegde dma->dp_saved_cookies = NULL; 266694f1124eSVikram Hegde dma->dp_sleep_flags = KM_PANIC; 266712f080e7Smrj dma->dp_need_to_free_window = B_FALSE; 266812f080e7Smrj dma->dp_partial_required = B_FALSE; 266912f080e7Smrj dma->dp_trim_required = B_FALSE; 267012f080e7Smrj dma->dp_sglinfo.si_copybuf_req = 0; 267112f080e7Smrj #if !defined(__amd64) 267212f080e7Smrj dma->dp_cb_remaping = B_FALSE; 267312f080e7Smrj dma->dp_kva = NULL; 267412f080e7Smrj #endif 267512f080e7Smrj 267612f080e7Smrj /* FMA related initialization */ 267712f080e7Smrj hp->dmai_fault = 0; 267812f080e7Smrj hp->dmai_fault_check = NULL; 267912f080e7Smrj hp->dmai_fault_notify = NULL; 268012f080e7Smrj hp->dmai_error.err_ena = 0; 268112f080e7Smrj hp->dmai_error.err_status = DDI_FM_OK; 268212f080e7Smrj hp->dmai_error.err_expected = DDI_FM_ERR_UNEXPECTED; 268312f080e7Smrj hp->dmai_error.err_ontrap = NULL; 268412f080e7Smrj } 268512f080e7Smrj 268612f080e7Smrj 268712f080e7Smrj /* 268812f080e7Smrj * rootnex_valid_alloc_parms() 268912f080e7Smrj * Called in ddi_dma_alloc_handle path to validate its parameters. 269012f080e7Smrj */ 269112f080e7Smrj static int 269212f080e7Smrj rootnex_valid_alloc_parms(ddi_dma_attr_t *attr, uint_t maxsegmentsize) 269312f080e7Smrj { 269412f080e7Smrj if ((attr->dma_attr_seg < MMU_PAGEOFFSET) || 269512f080e7Smrj (attr->dma_attr_count_max < MMU_PAGEOFFSET) || 269612f080e7Smrj (attr->dma_attr_granular > MMU_PAGESIZE) || 269712f080e7Smrj (attr->dma_attr_maxxfer < MMU_PAGESIZE)) { 269812f080e7Smrj return (DDI_DMA_BADATTR); 269912f080e7Smrj } 270012f080e7Smrj 270112f080e7Smrj if (attr->dma_attr_addr_hi <= attr->dma_attr_addr_lo) { 270212f080e7Smrj return (DDI_DMA_BADATTR); 270312f080e7Smrj } 270412f080e7Smrj 270512f080e7Smrj if ((attr->dma_attr_seg & MMU_PAGEOFFSET) != MMU_PAGEOFFSET || 270612f080e7Smrj MMU_PAGESIZE & (attr->dma_attr_granular - 1) || 2707*877f730dSGarrett D'Amore attr->dma_attr_sgllen == 0) { 270812f080e7Smrj return (DDI_DMA_BADATTR); 270912f080e7Smrj } 271012f080e7Smrj 271112f080e7Smrj /* We should be able to DMA into every byte offset in a page */ 271212f080e7Smrj if (maxsegmentsize < MMU_PAGESIZE) { 271312f080e7Smrj return (DDI_DMA_BADATTR); 271412f080e7Smrj } 271512f080e7Smrj 271607c6692fSMark Johnson /* if we're bouncing on seg, seg must be <= addr_hi */ 271707c6692fSMark Johnson if ((attr->dma_attr_flags & _DDI_DMA_BOUNCE_ON_SEG) && 271807c6692fSMark Johnson (attr->dma_attr_seg > attr->dma_attr_addr_hi)) { 271907c6692fSMark Johnson return (DDI_DMA_BADATTR); 272007c6692fSMark Johnson } 272112f080e7Smrj return (DDI_SUCCESS); 272212f080e7Smrj } 272312f080e7Smrj 272412f080e7Smrj /* 272512f080e7Smrj * rootnex_valid_bind_parms() 272612f080e7Smrj * Called in ddi_dma_*_bind_handle path to validate its parameters. 272712f080e7Smrj */ 272812f080e7Smrj /* ARGSUSED */ 272912f080e7Smrj static int 273012f080e7Smrj rootnex_valid_bind_parms(ddi_dma_req_t *dmareq, ddi_dma_attr_t *attr) 273112f080e7Smrj { 273212f080e7Smrj #if !defined(__amd64) 273312f080e7Smrj /* 273412f080e7Smrj * we only support up to a 2G-1 transfer size on 32-bit kernels so 273512f080e7Smrj * we can track the offset for the obsoleted interfaces. 273612f080e7Smrj */ 273712f080e7Smrj if (dmareq->dmar_object.dmao_size > 0x7FFFFFFF) { 273812f080e7Smrj return (DDI_DMA_TOOBIG); 273912f080e7Smrj } 274012f080e7Smrj #endif 274112f080e7Smrj 274212f080e7Smrj return (DDI_SUCCESS); 274312f080e7Smrj } 274412f080e7Smrj 274512f080e7Smrj 274612f080e7Smrj /* 274707c6692fSMark Johnson * rootnex_need_bounce_seg() 274807c6692fSMark Johnson * check to see if the buffer lives on both side of the seg. 274907c6692fSMark Johnson */ 275007c6692fSMark Johnson static boolean_t 275107c6692fSMark Johnson rootnex_need_bounce_seg(ddi_dma_obj_t *dmar_object, rootnex_sglinfo_t *sglinfo) 275207c6692fSMark Johnson { 275307c6692fSMark Johnson ddi_dma_atyp_t buftype; 275407c6692fSMark Johnson rootnex_addr_t raddr; 275507c6692fSMark Johnson boolean_t lower_addr; 275607c6692fSMark Johnson boolean_t upper_addr; 275707c6692fSMark Johnson uint64_t offset; 275807c6692fSMark Johnson page_t **pplist; 275907c6692fSMark Johnson uint64_t paddr; 276007c6692fSMark Johnson uint32_t psize; 276107c6692fSMark Johnson uint32_t size; 276207c6692fSMark Johnson caddr_t vaddr; 276307c6692fSMark Johnson uint_t pcnt; 276407c6692fSMark Johnson page_t *pp; 276507c6692fSMark Johnson 276607c6692fSMark Johnson 276707c6692fSMark Johnson /* shortcuts */ 276807c6692fSMark Johnson pplist = dmar_object->dmao_obj.virt_obj.v_priv; 276907c6692fSMark Johnson vaddr = dmar_object->dmao_obj.virt_obj.v_addr; 277007c6692fSMark Johnson buftype = dmar_object->dmao_type; 277107c6692fSMark Johnson size = dmar_object->dmao_size; 277207c6692fSMark Johnson 277307c6692fSMark Johnson lower_addr = B_FALSE; 277407c6692fSMark Johnson upper_addr = B_FALSE; 277507c6692fSMark Johnson pcnt = 0; 277607c6692fSMark Johnson 277707c6692fSMark Johnson /* 277807c6692fSMark Johnson * Process the first page to handle the initial offset of the buffer. 277907c6692fSMark Johnson * We'll use the base address we get later when we loop through all 278007c6692fSMark Johnson * the pages. 278107c6692fSMark Johnson */ 278207c6692fSMark Johnson if (buftype == DMA_OTYP_PAGES) { 278307c6692fSMark Johnson pp = dmar_object->dmao_obj.pp_obj.pp_pp; 278407c6692fSMark Johnson offset = dmar_object->dmao_obj.pp_obj.pp_offset & 278507c6692fSMark Johnson MMU_PAGEOFFSET; 278607c6692fSMark Johnson paddr = pfn_to_pa(pp->p_pagenum) + offset; 278707c6692fSMark Johnson psize = MIN(size, (MMU_PAGESIZE - offset)); 278807c6692fSMark Johnson pp = pp->p_next; 278907c6692fSMark Johnson sglinfo->si_asp = NULL; 279007c6692fSMark Johnson } else if (pplist != NULL) { 279107c6692fSMark Johnson offset = (uintptr_t)vaddr & MMU_PAGEOFFSET; 279207c6692fSMark Johnson sglinfo->si_asp = dmar_object->dmao_obj.virt_obj.v_as; 279307c6692fSMark Johnson if (sglinfo->si_asp == NULL) { 279407c6692fSMark Johnson sglinfo->si_asp = &kas; 279507c6692fSMark Johnson } 279607c6692fSMark Johnson paddr = pfn_to_pa(pplist[pcnt]->p_pagenum); 279707c6692fSMark Johnson paddr += offset; 279807c6692fSMark Johnson psize = MIN(size, (MMU_PAGESIZE - offset)); 279907c6692fSMark Johnson pcnt++; 280007c6692fSMark Johnson } else { 280107c6692fSMark Johnson offset = (uintptr_t)vaddr & MMU_PAGEOFFSET; 280207c6692fSMark Johnson sglinfo->si_asp = dmar_object->dmao_obj.virt_obj.v_as; 280307c6692fSMark Johnson if (sglinfo->si_asp == NULL) { 280407c6692fSMark Johnson sglinfo->si_asp = &kas; 280507c6692fSMark Johnson } 280607c6692fSMark Johnson paddr = pfn_to_pa(hat_getpfnum(sglinfo->si_asp->a_hat, vaddr)); 280707c6692fSMark Johnson paddr += offset; 280807c6692fSMark Johnson psize = MIN(size, (MMU_PAGESIZE - offset)); 280907c6692fSMark Johnson vaddr += psize; 281007c6692fSMark Johnson } 281107c6692fSMark Johnson 281250200e77SFrank Van Der Linden raddr = ROOTNEX_PADDR_TO_RBASE(paddr); 281307c6692fSMark Johnson 281407c6692fSMark Johnson if ((raddr + psize) > sglinfo->si_segmask) { 281507c6692fSMark Johnson upper_addr = B_TRUE; 281607c6692fSMark Johnson } else { 281707c6692fSMark Johnson lower_addr = B_TRUE; 281807c6692fSMark Johnson } 281907c6692fSMark Johnson size -= psize; 282007c6692fSMark Johnson 282107c6692fSMark Johnson /* 282207c6692fSMark Johnson * Walk through the rest of the pages in the buffer. Track to see 282307c6692fSMark Johnson * if we have pages on both sides of the segment boundary. 282407c6692fSMark Johnson */ 282507c6692fSMark Johnson while (size > 0) { 282607c6692fSMark Johnson /* partial or full page */ 282707c6692fSMark Johnson psize = MIN(size, MMU_PAGESIZE); 282807c6692fSMark Johnson 282907c6692fSMark Johnson if (buftype == DMA_OTYP_PAGES) { 283007c6692fSMark Johnson /* get the paddr from the page_t */ 283107c6692fSMark Johnson ASSERT(!PP_ISFREE(pp) && PAGE_LOCKED(pp)); 283207c6692fSMark Johnson paddr = pfn_to_pa(pp->p_pagenum); 283307c6692fSMark Johnson pp = pp->p_next; 283407c6692fSMark Johnson } else if (pplist != NULL) { 283507c6692fSMark Johnson /* index into the array of page_t's to get the paddr */ 283607c6692fSMark Johnson ASSERT(!PP_ISFREE(pplist[pcnt])); 283707c6692fSMark Johnson paddr = pfn_to_pa(pplist[pcnt]->p_pagenum); 283807c6692fSMark Johnson pcnt++; 283907c6692fSMark Johnson } else { 284007c6692fSMark Johnson /* call into the VM to get the paddr */ 284107c6692fSMark Johnson paddr = pfn_to_pa(hat_getpfnum(sglinfo->si_asp->a_hat, 284207c6692fSMark Johnson vaddr)); 284307c6692fSMark Johnson vaddr += psize; 284407c6692fSMark Johnson } 284507c6692fSMark Johnson 284650200e77SFrank Van Der Linden raddr = ROOTNEX_PADDR_TO_RBASE(paddr); 284707c6692fSMark Johnson 284807c6692fSMark Johnson if ((raddr + psize) > sglinfo->si_segmask) { 284907c6692fSMark Johnson upper_addr = B_TRUE; 285007c6692fSMark Johnson } else { 285107c6692fSMark Johnson lower_addr = B_TRUE; 285207c6692fSMark Johnson } 285307c6692fSMark Johnson /* 285407c6692fSMark Johnson * if the buffer lives both above and below the segment 285507c6692fSMark Johnson * boundary, or the current page is the page immediately 285607c6692fSMark Johnson * after the segment, we will use a copy/bounce buffer for 285707c6692fSMark Johnson * all pages > seg. 285807c6692fSMark Johnson */ 285907c6692fSMark Johnson if ((lower_addr && upper_addr) || 286007c6692fSMark Johnson (raddr == (sglinfo->si_segmask + 1))) { 286107c6692fSMark Johnson return (B_TRUE); 286207c6692fSMark Johnson } 286307c6692fSMark Johnson 286407c6692fSMark Johnson size -= psize; 286507c6692fSMark Johnson } 286607c6692fSMark Johnson 286707c6692fSMark Johnson return (B_FALSE); 286807c6692fSMark Johnson } 286907c6692fSMark Johnson 287007c6692fSMark Johnson /* 287112f080e7Smrj * rootnex_get_sgl() 287212f080e7Smrj * Called in bind fastpath to get the sgl. Most of this will be replaced 287312f080e7Smrj * with a call to the vm layer when vm2.0 comes around... 287412f080e7Smrj */ 287512f080e7Smrj static void 287612f080e7Smrj rootnex_get_sgl(ddi_dma_obj_t *dmar_object, ddi_dma_cookie_t *sgl, 287712f080e7Smrj rootnex_sglinfo_t *sglinfo) 287812f080e7Smrj { 287912f080e7Smrj ddi_dma_atyp_t buftype; 2880843e1988Sjohnlev rootnex_addr_t raddr; 288112f080e7Smrj uint64_t last_page; 288212f080e7Smrj uint64_t offset; 288312f080e7Smrj uint64_t addrhi; 288412f080e7Smrj uint64_t addrlo; 288512f080e7Smrj uint64_t maxseg; 288612f080e7Smrj page_t **pplist; 288712f080e7Smrj uint64_t paddr; 288812f080e7Smrj uint32_t psize; 288912f080e7Smrj uint32_t size; 289012f080e7Smrj caddr_t vaddr; 289112f080e7Smrj uint_t pcnt; 289212f080e7Smrj page_t *pp; 289312f080e7Smrj uint_t cnt; 289412f080e7Smrj 289512f080e7Smrj 289612f080e7Smrj /* shortcuts */ 289712f080e7Smrj pplist = dmar_object->dmao_obj.virt_obj.v_priv; 289812f080e7Smrj vaddr = dmar_object->dmao_obj.virt_obj.v_addr; 289912f080e7Smrj maxseg = sglinfo->si_max_cookie_size; 290012f080e7Smrj buftype = dmar_object->dmao_type; 290112f080e7Smrj addrhi = sglinfo->si_max_addr; 290212f080e7Smrj addrlo = sglinfo->si_min_addr; 290312f080e7Smrj size = dmar_object->dmao_size; 290412f080e7Smrj 290512f080e7Smrj pcnt = 0; 290612f080e7Smrj cnt = 0; 290712f080e7Smrj 290807c6692fSMark Johnson 290907c6692fSMark Johnson /* 291007c6692fSMark Johnson * check to see if we need to use the copy buffer for pages over 291107c6692fSMark Johnson * the segment attr. 291207c6692fSMark Johnson */ 291307c6692fSMark Johnson sglinfo->si_bounce_on_seg = B_FALSE; 291407c6692fSMark Johnson if (sglinfo->si_flags & _DDI_DMA_BOUNCE_ON_SEG) { 291507c6692fSMark Johnson sglinfo->si_bounce_on_seg = rootnex_need_bounce_seg( 291607c6692fSMark Johnson dmar_object, sglinfo); 291707c6692fSMark Johnson } 291807c6692fSMark Johnson 291912f080e7Smrj /* 292012f080e7Smrj * if we were passed down a linked list of pages, i.e. pointer to 292112f080e7Smrj * page_t, use this to get our physical address and buf offset. 292212f080e7Smrj */ 292312f080e7Smrj if (buftype == DMA_OTYP_PAGES) { 292412f080e7Smrj pp = dmar_object->dmao_obj.pp_obj.pp_pp; 292512f080e7Smrj ASSERT(!PP_ISFREE(pp) && PAGE_LOCKED(pp)); 292612f080e7Smrj offset = dmar_object->dmao_obj.pp_obj.pp_offset & 292712f080e7Smrj MMU_PAGEOFFSET; 2928843e1988Sjohnlev paddr = pfn_to_pa(pp->p_pagenum) + offset; 292912f080e7Smrj psize = MIN(size, (MMU_PAGESIZE - offset)); 293012f080e7Smrj pp = pp->p_next; 293112f080e7Smrj sglinfo->si_asp = NULL; 293212f080e7Smrj 293312f080e7Smrj /* 293412f080e7Smrj * We weren't passed down a linked list of pages, but if we were passed 293512f080e7Smrj * down an array of pages, use this to get our physical address and buf 293612f080e7Smrj * offset. 293712f080e7Smrj */ 293812f080e7Smrj } else if (pplist != NULL) { 293912f080e7Smrj ASSERT((buftype == DMA_OTYP_VADDR) || 294012f080e7Smrj (buftype == DMA_OTYP_BUFVADDR)); 294112f080e7Smrj 294212f080e7Smrj offset = (uintptr_t)vaddr & MMU_PAGEOFFSET; 294312f080e7Smrj sglinfo->si_asp = dmar_object->dmao_obj.virt_obj.v_as; 294412f080e7Smrj if (sglinfo->si_asp == NULL) { 294512f080e7Smrj sglinfo->si_asp = &kas; 294612f080e7Smrj } 294712f080e7Smrj 294812f080e7Smrj ASSERT(!PP_ISFREE(pplist[pcnt])); 2949843e1988Sjohnlev paddr = pfn_to_pa(pplist[pcnt]->p_pagenum); 295012f080e7Smrj paddr += offset; 295112f080e7Smrj psize = MIN(size, (MMU_PAGESIZE - offset)); 295212f080e7Smrj pcnt++; 295312f080e7Smrj 295412f080e7Smrj /* 295512f080e7Smrj * All we have is a virtual address, we'll need to call into the VM 295612f080e7Smrj * to get the physical address. 295712f080e7Smrj */ 295812f080e7Smrj } else { 295912f080e7Smrj ASSERT((buftype == DMA_OTYP_VADDR) || 296012f080e7Smrj (buftype == DMA_OTYP_BUFVADDR)); 296112f080e7Smrj 296212f080e7Smrj offset = (uintptr_t)vaddr & MMU_PAGEOFFSET; 296312f080e7Smrj sglinfo->si_asp = dmar_object->dmao_obj.virt_obj.v_as; 296412f080e7Smrj if (sglinfo->si_asp == NULL) { 296512f080e7Smrj sglinfo->si_asp = &kas; 296612f080e7Smrj } 296712f080e7Smrj 2968843e1988Sjohnlev paddr = pfn_to_pa(hat_getpfnum(sglinfo->si_asp->a_hat, vaddr)); 296912f080e7Smrj paddr += offset; 297012f080e7Smrj psize = MIN(size, (MMU_PAGESIZE - offset)); 297112f080e7Smrj vaddr += psize; 297212f080e7Smrj } 297312f080e7Smrj 297450200e77SFrank Van Der Linden raddr = ROOTNEX_PADDR_TO_RBASE(paddr); 2975843e1988Sjohnlev 297612f080e7Smrj /* 297712f080e7Smrj * Setup the first cookie with the physical address of the page and the 297812f080e7Smrj * size of the page (which takes into account the initial offset into 297912f080e7Smrj * the page. 298012f080e7Smrj */ 2981843e1988Sjohnlev sgl[cnt].dmac_laddress = raddr; 298212f080e7Smrj sgl[cnt].dmac_size = psize; 298312f080e7Smrj sgl[cnt].dmac_type = 0; 298412f080e7Smrj 298512f080e7Smrj /* 298612f080e7Smrj * Save away the buffer offset into the page. We'll need this later in 298712f080e7Smrj * the copy buffer code to help figure out the page index within the 298812f080e7Smrj * buffer and the offset into the current page. 298912f080e7Smrj */ 299012f080e7Smrj sglinfo->si_buf_offset = offset; 299112f080e7Smrj 299212f080e7Smrj /* 299307c6692fSMark Johnson * If we are using the copy buffer for anything over the segment 299407c6692fSMark Johnson * boundary, and this page is over the segment boundary. 299507c6692fSMark Johnson * OR 299607c6692fSMark Johnson * if the DMA engine can't reach the physical address. 299712f080e7Smrj */ 299807c6692fSMark Johnson if (((sglinfo->si_bounce_on_seg) && 299907c6692fSMark Johnson ((raddr + psize) > sglinfo->si_segmask)) || 300007c6692fSMark Johnson ((raddr < addrlo) || ((raddr + psize) > addrhi))) { 300107c6692fSMark Johnson /* 300207c6692fSMark Johnson * Increase how much copy buffer we use. We always increase by 300307c6692fSMark Johnson * pagesize so we don't have to worry about converting offsets. 300407c6692fSMark Johnson * Set a flag in the cookies dmac_type to indicate that it uses 300507c6692fSMark Johnson * the copy buffer. If this isn't the last cookie, go to the 300607c6692fSMark Johnson * next cookie (since we separate each page which uses the copy 300707c6692fSMark Johnson * buffer in case the copy buffer is not physically contiguous. 300807c6692fSMark Johnson */ 300912f080e7Smrj sglinfo->si_copybuf_req += MMU_PAGESIZE; 301012f080e7Smrj sgl[cnt].dmac_type = ROOTNEX_USES_COPYBUF; 301112f080e7Smrj if ((cnt + 1) < sglinfo->si_max_pages) { 301212f080e7Smrj cnt++; 301312f080e7Smrj sgl[cnt].dmac_laddress = 0; 301412f080e7Smrj sgl[cnt].dmac_size = 0; 301512f080e7Smrj sgl[cnt].dmac_type = 0; 301612f080e7Smrj } 301712f080e7Smrj } 301812f080e7Smrj 301912f080e7Smrj /* 302012f080e7Smrj * save this page's physical address so we can figure out if the next 302112f080e7Smrj * page is physically contiguous. Keep decrementing size until we are 302212f080e7Smrj * done with the buffer. 302312f080e7Smrj */ 3024843e1988Sjohnlev last_page = raddr & MMU_PAGEMASK; 302512f080e7Smrj size -= psize; 302612f080e7Smrj 302712f080e7Smrj while (size > 0) { 302812f080e7Smrj /* Get the size for this page (i.e. partial or full page) */ 302912f080e7Smrj psize = MIN(size, MMU_PAGESIZE); 303012f080e7Smrj 303112f080e7Smrj if (buftype == DMA_OTYP_PAGES) { 303212f080e7Smrj /* get the paddr from the page_t */ 303312f080e7Smrj ASSERT(!PP_ISFREE(pp) && PAGE_LOCKED(pp)); 3034843e1988Sjohnlev paddr = pfn_to_pa(pp->p_pagenum); 303512f080e7Smrj pp = pp->p_next; 303612f080e7Smrj } else if (pplist != NULL) { 303712f080e7Smrj /* index into the array of page_t's to get the paddr */ 303812f080e7Smrj ASSERT(!PP_ISFREE(pplist[pcnt])); 3039843e1988Sjohnlev paddr = pfn_to_pa(pplist[pcnt]->p_pagenum); 304012f080e7Smrj pcnt++; 304112f080e7Smrj } else { 304212f080e7Smrj /* call into the VM to get the paddr */ 3043843e1988Sjohnlev paddr = pfn_to_pa(hat_getpfnum(sglinfo->si_asp->a_hat, 304412f080e7Smrj vaddr)); 304512f080e7Smrj vaddr += psize; 304612f080e7Smrj } 304712f080e7Smrj 304850200e77SFrank Van Der Linden raddr = ROOTNEX_PADDR_TO_RBASE(paddr); 304907c6692fSMark Johnson 305007c6692fSMark Johnson /* 305107c6692fSMark Johnson * If we are using the copy buffer for anything over the 305207c6692fSMark Johnson * segment boundary, and this page is over the segment 305307c6692fSMark Johnson * boundary. 305407c6692fSMark Johnson * OR 305507c6692fSMark Johnson * if the DMA engine can't reach the physical address. 305607c6692fSMark Johnson */ 305707c6692fSMark Johnson if (((sglinfo->si_bounce_on_seg) && 305807c6692fSMark Johnson ((raddr + psize) > sglinfo->si_segmask)) || 305907c6692fSMark Johnson ((raddr < addrlo) || ((raddr + psize) > addrhi))) { 306007c6692fSMark Johnson 306112f080e7Smrj sglinfo->si_copybuf_req += MMU_PAGESIZE; 306212f080e7Smrj 306312f080e7Smrj /* 306412f080e7Smrj * if there is something in the current cookie, go to 306512f080e7Smrj * the next one. We only want one page in a cookie which 306612f080e7Smrj * uses the copybuf since the copybuf doesn't have to 306712f080e7Smrj * be physically contiguous. 306812f080e7Smrj */ 306912f080e7Smrj if (sgl[cnt].dmac_size != 0) { 307012f080e7Smrj cnt++; 307112f080e7Smrj } 3072843e1988Sjohnlev sgl[cnt].dmac_laddress = raddr; 307312f080e7Smrj sgl[cnt].dmac_size = psize; 307412f080e7Smrj #if defined(__amd64) 307512f080e7Smrj sgl[cnt].dmac_type = ROOTNEX_USES_COPYBUF; 307612f080e7Smrj #else 307712f080e7Smrj /* 307812f080e7Smrj * save the buf offset for 32-bit kernel. used in the 307912f080e7Smrj * obsoleted interfaces. 308012f080e7Smrj */ 308112f080e7Smrj sgl[cnt].dmac_type = ROOTNEX_USES_COPYBUF | 308212f080e7Smrj (dmar_object->dmao_size - size); 308312f080e7Smrj #endif 308412f080e7Smrj /* if this isn't the last cookie, go to the next one */ 308512f080e7Smrj if ((cnt + 1) < sglinfo->si_max_pages) { 308612f080e7Smrj cnt++; 308712f080e7Smrj sgl[cnt].dmac_laddress = 0; 308812f080e7Smrj sgl[cnt].dmac_size = 0; 308912f080e7Smrj sgl[cnt].dmac_type = 0; 309012f080e7Smrj } 309112f080e7Smrj 309212f080e7Smrj /* 309312f080e7Smrj * this page didn't need the copy buffer, if it's not physically 309412f080e7Smrj * contiguous, or it would put us over a segment boundary, or it 309512f080e7Smrj * puts us over the max cookie size, or the current sgl doesn't 309612f080e7Smrj * have anything in it. 309712f080e7Smrj */ 3098843e1988Sjohnlev } else if (((last_page + MMU_PAGESIZE) != raddr) || 3099843e1988Sjohnlev !(raddr & sglinfo->si_segmask) || 310012f080e7Smrj ((sgl[cnt].dmac_size + psize) > maxseg) || 310112f080e7Smrj (sgl[cnt].dmac_size == 0)) { 310212f080e7Smrj /* 310312f080e7Smrj * if we're not already in a new cookie, go to the next 310412f080e7Smrj * cookie. 310512f080e7Smrj */ 310612f080e7Smrj if (sgl[cnt].dmac_size != 0) { 310712f080e7Smrj cnt++; 310812f080e7Smrj } 310912f080e7Smrj 311012f080e7Smrj /* save the cookie information */ 3111843e1988Sjohnlev sgl[cnt].dmac_laddress = raddr; 311212f080e7Smrj sgl[cnt].dmac_size = psize; 311312f080e7Smrj #if defined(__amd64) 311412f080e7Smrj sgl[cnt].dmac_type = 0; 311512f080e7Smrj #else 311612f080e7Smrj /* 311712f080e7Smrj * save the buf offset for 32-bit kernel. used in the 311812f080e7Smrj * obsoleted interfaces. 311912f080e7Smrj */ 312012f080e7Smrj sgl[cnt].dmac_type = dmar_object->dmao_size - size; 312112f080e7Smrj #endif 312212f080e7Smrj 312312f080e7Smrj /* 312412f080e7Smrj * this page didn't need the copy buffer, it is physically 312512f080e7Smrj * contiguous with the last page, and it's <= the max cookie 312612f080e7Smrj * size. 312712f080e7Smrj */ 312812f080e7Smrj } else { 312912f080e7Smrj sgl[cnt].dmac_size += psize; 313012f080e7Smrj 313112f080e7Smrj /* 313212f080e7Smrj * if this exactly == the maximum cookie size, and 313312f080e7Smrj * it isn't the last cookie, go to the next cookie. 313412f080e7Smrj */ 313512f080e7Smrj if (((sgl[cnt].dmac_size + psize) == maxseg) && 313612f080e7Smrj ((cnt + 1) < sglinfo->si_max_pages)) { 313712f080e7Smrj cnt++; 313812f080e7Smrj sgl[cnt].dmac_laddress = 0; 313912f080e7Smrj sgl[cnt].dmac_size = 0; 314012f080e7Smrj sgl[cnt].dmac_type = 0; 314112f080e7Smrj } 314212f080e7Smrj } 314312f080e7Smrj 314412f080e7Smrj /* 314512f080e7Smrj * save this page's physical address so we can figure out if the 314612f080e7Smrj * next page is physically contiguous. Keep decrementing size 314712f080e7Smrj * until we are done with the buffer. 314812f080e7Smrj */ 3149843e1988Sjohnlev last_page = raddr; 315012f080e7Smrj size -= psize; 315112f080e7Smrj } 315212f080e7Smrj 315312f080e7Smrj /* we're done, save away how many cookies the sgl has */ 315412f080e7Smrj if (sgl[cnt].dmac_size == 0) { 315512f080e7Smrj ASSERT(cnt < sglinfo->si_max_pages); 315612f080e7Smrj sglinfo->si_sgl_size = cnt; 315712f080e7Smrj } else { 315812f080e7Smrj sglinfo->si_sgl_size = cnt + 1; 315912f080e7Smrj } 316012f080e7Smrj } 316112f080e7Smrj 316250200e77SFrank Van Der Linden static void 316350200e77SFrank Van Der Linden rootnex_dvma_get_sgl(ddi_dma_obj_t *dmar_object, ddi_dma_cookie_t *sgl, 316450200e77SFrank Van Der Linden rootnex_sglinfo_t *sglinfo) 316550200e77SFrank Van Der Linden { 316650200e77SFrank Van Der Linden uint64_t offset; 316750200e77SFrank Van Der Linden uint64_t maxseg; 316850200e77SFrank Van Der Linden uint64_t dvaddr; 316950200e77SFrank Van Der Linden struct dvmaseg *dvs; 317050200e77SFrank Van Der Linden uint64_t paddr; 317150200e77SFrank Van Der Linden uint32_t psize, ssize; 317250200e77SFrank Van Der Linden uint32_t size; 317350200e77SFrank Van Der Linden uint_t cnt; 317450200e77SFrank Van Der Linden int physcontig; 317550200e77SFrank Van Der Linden 317650200e77SFrank Van Der Linden ASSERT(dmar_object->dmao_type == DMA_OTYP_DVADDR); 317750200e77SFrank Van Der Linden 317850200e77SFrank Van Der Linden /* shortcuts */ 317950200e77SFrank Van Der Linden maxseg = sglinfo->si_max_cookie_size; 318050200e77SFrank Van Der Linden size = dmar_object->dmao_size; 318150200e77SFrank Van Der Linden 318250200e77SFrank Van Der Linden cnt = 0; 318350200e77SFrank Van Der Linden sglinfo->si_bounce_on_seg = B_FALSE; 318450200e77SFrank Van Der Linden 318550200e77SFrank Van Der Linden dvs = dmar_object->dmao_obj.dvma_obj.dv_seg; 318650200e77SFrank Van Der Linden offset = dmar_object->dmao_obj.dvma_obj.dv_off; 318750200e77SFrank Van Der Linden ssize = dvs->dvs_len; 318850200e77SFrank Van Der Linden paddr = dvs->dvs_start; 318950200e77SFrank Van Der Linden paddr += offset; 319050200e77SFrank Van Der Linden psize = MIN(ssize, (maxseg - offset)); 319150200e77SFrank Van Der Linden dvaddr = paddr + psize; 319250200e77SFrank Van Der Linden ssize -= psize; 319350200e77SFrank Van Der Linden 319450200e77SFrank Van Der Linden sgl[cnt].dmac_laddress = paddr; 319550200e77SFrank Van Der Linden sgl[cnt].dmac_size = psize; 319650200e77SFrank Van Der Linden sgl[cnt].dmac_type = 0; 319750200e77SFrank Van Der Linden 319850200e77SFrank Van Der Linden size -= psize; 319950200e77SFrank Van Der Linden while (size > 0) { 320050200e77SFrank Van Der Linden if (ssize == 0) { 320150200e77SFrank Van Der Linden dvs++; 320250200e77SFrank Van Der Linden ssize = dvs->dvs_len; 320350200e77SFrank Van Der Linden dvaddr = dvs->dvs_start; 320450200e77SFrank Van Der Linden physcontig = 0; 320550200e77SFrank Van Der Linden } else 320650200e77SFrank Van Der Linden physcontig = 1; 320750200e77SFrank Van Der Linden 320850200e77SFrank Van Der Linden paddr = dvaddr; 320950200e77SFrank Van Der Linden psize = MIN(ssize, maxseg); 321050200e77SFrank Van Der Linden dvaddr += psize; 321150200e77SFrank Van Der Linden ssize -= psize; 321250200e77SFrank Van Der Linden 321350200e77SFrank Van Der Linden if (!physcontig || !(paddr & sglinfo->si_segmask) || 321450200e77SFrank Van Der Linden ((sgl[cnt].dmac_size + psize) > maxseg) || 321550200e77SFrank Van Der Linden (sgl[cnt].dmac_size == 0)) { 321650200e77SFrank Van Der Linden /* 321750200e77SFrank Van Der Linden * if we're not already in a new cookie, go to the next 321850200e77SFrank Van Der Linden * cookie. 321950200e77SFrank Van Der Linden */ 322050200e77SFrank Van Der Linden if (sgl[cnt].dmac_size != 0) { 322150200e77SFrank Van Der Linden cnt++; 322250200e77SFrank Van Der Linden } 322350200e77SFrank Van Der Linden 322450200e77SFrank Van Der Linden /* save the cookie information */ 322550200e77SFrank Van Der Linden sgl[cnt].dmac_laddress = paddr; 322650200e77SFrank Van Der Linden sgl[cnt].dmac_size = psize; 322750200e77SFrank Van Der Linden sgl[cnt].dmac_type = 0; 322850200e77SFrank Van Der Linden } else { 322950200e77SFrank Van Der Linden sgl[cnt].dmac_size += psize; 323050200e77SFrank Van Der Linden 323150200e77SFrank Van Der Linden /* 323250200e77SFrank Van Der Linden * if this exactly == the maximum cookie size, and 323350200e77SFrank Van Der Linden * it isn't the last cookie, go to the next cookie. 323450200e77SFrank Van Der Linden */ 323550200e77SFrank Van Der Linden if (((sgl[cnt].dmac_size + psize) == maxseg) && 323650200e77SFrank Van Der Linden ((cnt + 1) < sglinfo->si_max_pages)) { 323750200e77SFrank Van Der Linden cnt++; 323850200e77SFrank Van Der Linden sgl[cnt].dmac_laddress = 0; 323950200e77SFrank Van Der Linden sgl[cnt].dmac_size = 0; 324050200e77SFrank Van Der Linden sgl[cnt].dmac_type = 0; 324150200e77SFrank Van Der Linden } 324250200e77SFrank Van Der Linden } 324350200e77SFrank Van Der Linden size -= psize; 324450200e77SFrank Van Der Linden } 324550200e77SFrank Van Der Linden 324650200e77SFrank Van Der Linden /* we're done, save away how many cookies the sgl has */ 324750200e77SFrank Van Der Linden if (sgl[cnt].dmac_size == 0) { 324850200e77SFrank Van Der Linden sglinfo->si_sgl_size = cnt; 324950200e77SFrank Van Der Linden } else { 325050200e77SFrank Van Der Linden sglinfo->si_sgl_size = cnt + 1; 325150200e77SFrank Van Der Linden } 325250200e77SFrank Van Der Linden } 325350200e77SFrank Van Der Linden 325412f080e7Smrj /* 325512f080e7Smrj * rootnex_bind_slowpath() 325612f080e7Smrj * Call in the bind path if the calling driver can't use the sgl without 325712f080e7Smrj * modifying it. We either need to use the copy buffer and/or we will end up 325812f080e7Smrj * with a partial bind. 325912f080e7Smrj */ 326012f080e7Smrj static int 326112f080e7Smrj rootnex_bind_slowpath(ddi_dma_impl_t *hp, struct ddi_dma_req *dmareq, 326250200e77SFrank Van Der Linden rootnex_dma_t *dma, ddi_dma_attr_t *attr, ddi_dma_obj_t *dmao, int kmflag) 326312f080e7Smrj { 326412f080e7Smrj rootnex_sglinfo_t *sinfo; 326512f080e7Smrj rootnex_window_t *window; 326612f080e7Smrj ddi_dma_cookie_t *cookie; 326712f080e7Smrj size_t copybuf_used; 326812f080e7Smrj size_t dmac_size; 326912f080e7Smrj boolean_t partial; 327012f080e7Smrj off_t cur_offset; 327112f080e7Smrj page_t *cur_pp; 327212f080e7Smrj major_t mnum; 327312f080e7Smrj int e; 327412f080e7Smrj int i; 327512f080e7Smrj 327612f080e7Smrj 327712f080e7Smrj sinfo = &dma->dp_sglinfo; 327812f080e7Smrj copybuf_used = 0; 327912f080e7Smrj partial = B_FALSE; 328012f080e7Smrj 328112f080e7Smrj /* 328212f080e7Smrj * If we're using the copybuf, set the copybuf state in dma struct. 328312f080e7Smrj * Needs to be first since it sets the copy buffer size. 328412f080e7Smrj */ 328512f080e7Smrj if (sinfo->si_copybuf_req != 0) { 328612f080e7Smrj e = rootnex_setup_copybuf(hp, dmareq, dma, attr); 328712f080e7Smrj if (e != DDI_SUCCESS) { 328812f080e7Smrj return (e); 328912f080e7Smrj } 329012f080e7Smrj } else { 329112f080e7Smrj dma->dp_copybuf_size = 0; 329212f080e7Smrj } 329312f080e7Smrj 329412f080e7Smrj /* 329512f080e7Smrj * Figure out if we need to do a partial mapping. If so, figure out 329612f080e7Smrj * if we need to trim the buffers when we munge the sgl. 329712f080e7Smrj */ 329812f080e7Smrj if ((dma->dp_copybuf_size < sinfo->si_copybuf_req) || 329950200e77SFrank Van Der Linden (dmao->dmao_size > dma->dp_maxxfer) || 3300*877f730dSGarrett D'Amore ((unsigned)attr->dma_attr_sgllen < sinfo->si_sgl_size)) { 330112f080e7Smrj dma->dp_partial_required = B_TRUE; 330212f080e7Smrj if (attr->dma_attr_granular != 1) { 330312f080e7Smrj dma->dp_trim_required = B_TRUE; 330412f080e7Smrj } 330512f080e7Smrj } else { 330612f080e7Smrj dma->dp_partial_required = B_FALSE; 330712f080e7Smrj dma->dp_trim_required = B_FALSE; 330812f080e7Smrj } 330912f080e7Smrj 331012f080e7Smrj /* If we need to do a partial bind, make sure the driver supports it */ 331112f080e7Smrj if (dma->dp_partial_required && 331212f080e7Smrj !(dmareq->dmar_flags & DDI_DMA_PARTIAL)) { 331312f080e7Smrj 331412f080e7Smrj mnum = ddi_driver_major(dma->dp_dip); 331512f080e7Smrj /* 331612f080e7Smrj * patchable which allows us to print one warning per major 331712f080e7Smrj * number. 331812f080e7Smrj */ 331912f080e7Smrj if ((rootnex_bind_warn) && 332012f080e7Smrj ((rootnex_warn_list[mnum] & ROOTNEX_BIND_WARNING) == 0)) { 332112f080e7Smrj rootnex_warn_list[mnum] |= ROOTNEX_BIND_WARNING; 332212f080e7Smrj cmn_err(CE_WARN, "!%s: coding error detected, the " 332312f080e7Smrj "driver is using ddi_dma_attr(9S) incorrectly. " 332412f080e7Smrj "There is a small risk of data corruption in " 332512f080e7Smrj "particular with large I/Os. The driver should be " 332612f080e7Smrj "replaced with a corrected version for proper " 332712f080e7Smrj "system operation. To disable this warning, add " 332812f080e7Smrj "'set rootnex:rootnex_bind_warn=0' to " 332912f080e7Smrj "/etc/system(4).", ddi_driver_name(dma->dp_dip)); 333012f080e7Smrj } 333112f080e7Smrj return (DDI_DMA_TOOBIG); 333212f080e7Smrj } 333312f080e7Smrj 333412f080e7Smrj /* 333512f080e7Smrj * we might need multiple windows, setup state to handle them. In this 333612f080e7Smrj * code path, we will have at least one window. 333712f080e7Smrj */ 333850200e77SFrank Van Der Linden e = rootnex_setup_windows(hp, dma, attr, dmao, kmflag); 333912f080e7Smrj if (e != DDI_SUCCESS) { 334012f080e7Smrj rootnex_teardown_copybuf(dma); 334112f080e7Smrj return (e); 334212f080e7Smrj } 334312f080e7Smrj 334412f080e7Smrj window = &dma->dp_window[0]; 334512f080e7Smrj cookie = &dma->dp_cookies[0]; 334612f080e7Smrj cur_offset = 0; 334712f080e7Smrj rootnex_init_win(hp, dma, window, cookie, cur_offset); 334850200e77SFrank Van Der Linden if (dmao->dmao_type == DMA_OTYP_PAGES) { 334912f080e7Smrj cur_pp = dmareq->dmar_object.dmao_obj.pp_obj.pp_pp; 335012f080e7Smrj } 335112f080e7Smrj 335212f080e7Smrj /* loop though all the cookies we got back from get_sgl() */ 335312f080e7Smrj for (i = 0; i < sinfo->si_sgl_size; i++) { 335412f080e7Smrj /* 335512f080e7Smrj * If we're using the copy buffer, check this cookie and setup 335612f080e7Smrj * its associated copy buffer state. If this cookie uses the 335712f080e7Smrj * copy buffer, make sure we sync this window during dma_sync. 335812f080e7Smrj */ 335912f080e7Smrj if (dma->dp_copybuf_size > 0) { 336050200e77SFrank Van Der Linden rootnex_setup_cookie(dmao, dma, cookie, 336112f080e7Smrj cur_offset, ©buf_used, &cur_pp); 336212f080e7Smrj if (cookie->dmac_type & ROOTNEX_USES_COPYBUF) { 336312f080e7Smrj window->wd_dosync = B_TRUE; 336412f080e7Smrj } 336512f080e7Smrj } 336612f080e7Smrj 336712f080e7Smrj /* 336812f080e7Smrj * save away the cookie size, since it could be modified in 336912f080e7Smrj * the windowing code. 337012f080e7Smrj */ 337112f080e7Smrj dmac_size = cookie->dmac_size; 337212f080e7Smrj 337312f080e7Smrj /* if we went over max copybuf size */ 337412f080e7Smrj if (dma->dp_copybuf_size && 337512f080e7Smrj (copybuf_used > dma->dp_copybuf_size)) { 337612f080e7Smrj partial = B_TRUE; 337712f080e7Smrj e = rootnex_copybuf_window_boundary(hp, dma, &window, 337812f080e7Smrj cookie, cur_offset, ©buf_used); 337912f080e7Smrj if (e != DDI_SUCCESS) { 338012f080e7Smrj rootnex_teardown_copybuf(dma); 338112f080e7Smrj rootnex_teardown_windows(dma); 338212f080e7Smrj return (e); 338312f080e7Smrj } 338412f080e7Smrj 338512f080e7Smrj /* 338612f080e7Smrj * if the coookie uses the copy buffer, make sure the 338712f080e7Smrj * new window we just moved to is set to sync. 338812f080e7Smrj */ 338912f080e7Smrj if (cookie->dmac_type & ROOTNEX_USES_COPYBUF) { 339012f080e7Smrj window->wd_dosync = B_TRUE; 339112f080e7Smrj } 3392ef4ab52fSFrank Van Der Linden ROOTNEX_DPROBE1(rootnex__copybuf__window, dev_info_t *, 339312f080e7Smrj dma->dp_dip); 339412f080e7Smrj 339512f080e7Smrj /* if the cookie cnt == max sgllen, move to the next window */ 3396*877f730dSGarrett D'Amore } else if (window->wd_cookie_cnt >= 3397*877f730dSGarrett D'Amore (unsigned)attr->dma_attr_sgllen) { 339812f080e7Smrj partial = B_TRUE; 339912f080e7Smrj ASSERT(window->wd_cookie_cnt == attr->dma_attr_sgllen); 340012f080e7Smrj e = rootnex_sgllen_window_boundary(hp, dma, &window, 340112f080e7Smrj cookie, attr, cur_offset); 340212f080e7Smrj if (e != DDI_SUCCESS) { 340312f080e7Smrj rootnex_teardown_copybuf(dma); 340412f080e7Smrj rootnex_teardown_windows(dma); 340512f080e7Smrj return (e); 340612f080e7Smrj } 340712f080e7Smrj 340812f080e7Smrj /* 340912f080e7Smrj * if the coookie uses the copy buffer, make sure the 341012f080e7Smrj * new window we just moved to is set to sync. 341112f080e7Smrj */ 341212f080e7Smrj if (cookie->dmac_type & ROOTNEX_USES_COPYBUF) { 341312f080e7Smrj window->wd_dosync = B_TRUE; 341412f080e7Smrj } 3415ef4ab52fSFrank Van Der Linden ROOTNEX_DPROBE1(rootnex__sgllen__window, dev_info_t *, 341612f080e7Smrj dma->dp_dip); 341712f080e7Smrj 341812f080e7Smrj /* else if we will be over maxxfer */ 341912f080e7Smrj } else if ((window->wd_size + dmac_size) > 342012f080e7Smrj dma->dp_maxxfer) { 342112f080e7Smrj partial = B_TRUE; 342212f080e7Smrj e = rootnex_maxxfer_window_boundary(hp, dma, &window, 342312f080e7Smrj cookie); 342412f080e7Smrj if (e != DDI_SUCCESS) { 342512f080e7Smrj rootnex_teardown_copybuf(dma); 342612f080e7Smrj rootnex_teardown_windows(dma); 342712f080e7Smrj return (e); 342812f080e7Smrj } 342912f080e7Smrj 343012f080e7Smrj /* 343112f080e7Smrj * if the coookie uses the copy buffer, make sure the 343212f080e7Smrj * new window we just moved to is set to sync. 343312f080e7Smrj */ 343412f080e7Smrj if (cookie->dmac_type & ROOTNEX_USES_COPYBUF) { 343512f080e7Smrj window->wd_dosync = B_TRUE; 343612f080e7Smrj } 3437ef4ab52fSFrank Van Der Linden ROOTNEX_DPROBE1(rootnex__maxxfer__window, dev_info_t *, 343812f080e7Smrj dma->dp_dip); 343912f080e7Smrj 344012f080e7Smrj /* else this cookie fits in the current window */ 344112f080e7Smrj } else { 344212f080e7Smrj window->wd_cookie_cnt++; 344312f080e7Smrj window->wd_size += dmac_size; 344412f080e7Smrj } 344512f080e7Smrj 344612f080e7Smrj /* track our offset into the buffer, go to the next cookie */ 344750200e77SFrank Van Der Linden ASSERT(dmac_size <= dmao->dmao_size); 344812f080e7Smrj ASSERT(cookie->dmac_size <= dmac_size); 344912f080e7Smrj cur_offset += dmac_size; 345012f080e7Smrj cookie++; 345112f080e7Smrj } 345212f080e7Smrj 345312f080e7Smrj /* if we ended up with a zero sized window in the end, clean it up */ 345412f080e7Smrj if (window->wd_size == 0) { 345512f080e7Smrj hp->dmai_nwin--; 345612f080e7Smrj window--; 345712f080e7Smrj } 345812f080e7Smrj 345912f080e7Smrj ASSERT(window->wd_trim.tr_trim_last == B_FALSE); 346012f080e7Smrj 346112f080e7Smrj if (!partial) { 346212f080e7Smrj return (DDI_DMA_MAPPED); 346312f080e7Smrj } 346412f080e7Smrj 346512f080e7Smrj ASSERT(dma->dp_partial_required); 346612f080e7Smrj return (DDI_DMA_PARTIAL_MAP); 346712f080e7Smrj } 346812f080e7Smrj 346912f080e7Smrj /* 347012f080e7Smrj * rootnex_setup_copybuf() 347112f080e7Smrj * Called in bind slowpath. Figures out if we're going to use the copy 347212f080e7Smrj * buffer, and if we do, sets up the basic state to handle it. 347312f080e7Smrj */ 347412f080e7Smrj static int 347512f080e7Smrj rootnex_setup_copybuf(ddi_dma_impl_t *hp, struct ddi_dma_req *dmareq, 347612f080e7Smrj rootnex_dma_t *dma, ddi_dma_attr_t *attr) 347712f080e7Smrj { 347812f080e7Smrj rootnex_sglinfo_t *sinfo; 347912f080e7Smrj ddi_dma_attr_t lattr; 348012f080e7Smrj size_t max_copybuf; 348112f080e7Smrj int cansleep; 348212f080e7Smrj int e; 348312f080e7Smrj #if !defined(__amd64) 348412f080e7Smrj int vmflag; 348512f080e7Smrj #endif 348612f080e7Smrj 348750200e77SFrank Van Der Linden ASSERT(!dma->dp_dvma_used); 348812f080e7Smrj 348912f080e7Smrj sinfo = &dma->dp_sglinfo; 349012f080e7Smrj 349136945f79Smrj /* read this first so it's consistent through the routine */ 349236945f79Smrj max_copybuf = i_ddi_copybuf_size() & MMU_PAGEMASK; 349312f080e7Smrj 349412f080e7Smrj /* We need to call into the rootnex on ddi_dma_sync() */ 349512f080e7Smrj hp->dmai_rflags &= ~DMP_NOSYNC; 349612f080e7Smrj 349712f080e7Smrj /* make sure the copybuf size <= the max size */ 349812f080e7Smrj dma->dp_copybuf_size = MIN(sinfo->si_copybuf_req, max_copybuf); 349912f080e7Smrj ASSERT((dma->dp_copybuf_size & MMU_PAGEOFFSET) == 0); 350012f080e7Smrj 350112f080e7Smrj #if !defined(__amd64) 350212f080e7Smrj /* 350312f080e7Smrj * if we don't have kva space to copy to/from, allocate the KVA space 350412f080e7Smrj * now. We only do this for the 32-bit kernel. We use seg kpm space for 350512f080e7Smrj * the 64-bit kernel. 350612f080e7Smrj */ 350712f080e7Smrj if ((dmareq->dmar_object.dmao_type == DMA_OTYP_PAGES) || 350812f080e7Smrj (dmareq->dmar_object.dmao_obj.virt_obj.v_as != NULL)) { 350912f080e7Smrj 351012f080e7Smrj /* convert the sleep flags */ 351112f080e7Smrj if (dmareq->dmar_fp == DDI_DMA_SLEEP) { 351212f080e7Smrj vmflag = VM_SLEEP; 351312f080e7Smrj } else { 351412f080e7Smrj vmflag = VM_NOSLEEP; 351512f080e7Smrj } 351612f080e7Smrj 351712f080e7Smrj /* allocate Kernel VA space that we can bcopy to/from */ 351812f080e7Smrj dma->dp_kva = vmem_alloc(heap_arena, dma->dp_copybuf_size, 351912f080e7Smrj vmflag); 352012f080e7Smrj if (dma->dp_kva == NULL) { 352112f080e7Smrj return (DDI_DMA_NORESOURCES); 352212f080e7Smrj } 352312f080e7Smrj } 352412f080e7Smrj #endif 352512f080e7Smrj 352612f080e7Smrj /* convert the sleep flags */ 352712f080e7Smrj if (dmareq->dmar_fp == DDI_DMA_SLEEP) { 352812f080e7Smrj cansleep = 1; 352912f080e7Smrj } else { 353012f080e7Smrj cansleep = 0; 353112f080e7Smrj } 353212f080e7Smrj 353312f080e7Smrj /* 3534d21b39ddSmrj * Allocate the actual copy buffer. This needs to fit within the DMA 3535d21b39ddSmrj * engine limits, so we can't use kmem_alloc... We don't need 3536d21b39ddSmrj * contiguous memory (sgllen) since we will be forcing windows on 3537d21b39ddSmrj * sgllen anyway. 353812f080e7Smrj */ 353912f080e7Smrj lattr = *attr; 354012f080e7Smrj lattr.dma_attr_align = MMU_PAGESIZE; 3541*877f730dSGarrett D'Amore lattr.dma_attr_sgllen = -1; /* no limit */ 354207c6692fSMark Johnson /* 354307c6692fSMark Johnson * if we're using the copy buffer because of seg, use that for our 354407c6692fSMark Johnson * upper address limit. 354507c6692fSMark Johnson */ 354607c6692fSMark Johnson if (sinfo->si_bounce_on_seg) { 354707c6692fSMark Johnson lattr.dma_attr_addr_hi = lattr.dma_attr_seg; 354807c6692fSMark Johnson } 354912f080e7Smrj e = i_ddi_mem_alloc(dma->dp_dip, &lattr, dma->dp_copybuf_size, cansleep, 355012f080e7Smrj 0, NULL, &dma->dp_cbaddr, &dma->dp_cbsize, NULL); 355112f080e7Smrj if (e != DDI_SUCCESS) { 355212f080e7Smrj #if !defined(__amd64) 355312f080e7Smrj if (dma->dp_kva != NULL) { 355412f080e7Smrj vmem_free(heap_arena, dma->dp_kva, 355512f080e7Smrj dma->dp_copybuf_size); 355612f080e7Smrj } 355712f080e7Smrj #endif 355812f080e7Smrj return (DDI_DMA_NORESOURCES); 355912f080e7Smrj } 356012f080e7Smrj 3561ef4ab52fSFrank Van Der Linden ROOTNEX_DPROBE2(rootnex__alloc__copybuf, dev_info_t *, dma->dp_dip, 356212f080e7Smrj size_t, dma->dp_copybuf_size); 356312f080e7Smrj 356412f080e7Smrj return (DDI_SUCCESS); 356512f080e7Smrj } 356612f080e7Smrj 356712f080e7Smrj 356812f080e7Smrj /* 356912f080e7Smrj * rootnex_setup_windows() 357012f080e7Smrj * Called in bind slowpath to setup the window state. We always have windows 357112f080e7Smrj * in the slowpath. Even if the window count = 1. 357212f080e7Smrj */ 357312f080e7Smrj static int 357412f080e7Smrj rootnex_setup_windows(ddi_dma_impl_t *hp, rootnex_dma_t *dma, 357550200e77SFrank Van Der Linden ddi_dma_attr_t *attr, ddi_dma_obj_t *dmao, int kmflag) 357612f080e7Smrj { 357712f080e7Smrj rootnex_window_t *windowp; 357812f080e7Smrj rootnex_sglinfo_t *sinfo; 357912f080e7Smrj size_t copy_state_size; 358012f080e7Smrj size_t win_state_size; 358112f080e7Smrj size_t state_available; 358212f080e7Smrj size_t space_needed; 358312f080e7Smrj uint_t copybuf_win; 358412f080e7Smrj uint_t maxxfer_win; 358512f080e7Smrj size_t space_used; 358612f080e7Smrj uint_t sglwin; 358712f080e7Smrj 358812f080e7Smrj 358912f080e7Smrj sinfo = &dma->dp_sglinfo; 359012f080e7Smrj 359112f080e7Smrj dma->dp_current_win = 0; 359212f080e7Smrj hp->dmai_nwin = 0; 359312f080e7Smrj 359412f080e7Smrj /* If we don't need to do a partial, we only have one window */ 359512f080e7Smrj if (!dma->dp_partial_required) { 359612f080e7Smrj dma->dp_max_win = 1; 359712f080e7Smrj 359812f080e7Smrj /* 359912f080e7Smrj * we need multiple windows, need to figure out the worse case number 360012f080e7Smrj * of windows. 360112f080e7Smrj */ 36027c478bd9Sstevel@tonic-gate } else { 36037c478bd9Sstevel@tonic-gate /* 360412f080e7Smrj * if we need windows because we need more copy buffer that 360512f080e7Smrj * we allow, the worse case number of windows we could need 360612f080e7Smrj * here would be (copybuf space required / copybuf space that 360712f080e7Smrj * we have) plus one for remainder, and plus 2 to handle the 360812f080e7Smrj * extra pages on the trim for the first and last pages of the 360912f080e7Smrj * buffer (a page is the minimum window size so under the right 361012f080e7Smrj * attr settings, you could have a window for each page). 361112f080e7Smrj * The last page will only be hit here if the size is not a 361212f080e7Smrj * multiple of the granularity (which theoretically shouldn't 361312f080e7Smrj * be the case but never has been enforced, so we could have 361412f080e7Smrj * broken things without it). 36157c478bd9Sstevel@tonic-gate */ 361612f080e7Smrj if (sinfo->si_copybuf_req > dma->dp_copybuf_size) { 361712f080e7Smrj ASSERT(dma->dp_copybuf_size > 0); 361812f080e7Smrj copybuf_win = (sinfo->si_copybuf_req / 361912f080e7Smrj dma->dp_copybuf_size) + 1 + 2; 36207c478bd9Sstevel@tonic-gate } else { 362112f080e7Smrj copybuf_win = 0; 36227c478bd9Sstevel@tonic-gate } 362312f080e7Smrj 362412f080e7Smrj /* 362512f080e7Smrj * if we need windows because we have more cookies than the H/W 362612f080e7Smrj * can handle, the number of windows we would need here would 3627b57cd2d3SMark Johnson * be (cookie count / cookies count H/W supports minus 1[for 3628b57cd2d3SMark Johnson * trim]) plus one for remainder. 362912f080e7Smrj */ 3630*877f730dSGarrett D'Amore if ((unsigned)attr->dma_attr_sgllen < sinfo->si_sgl_size) { 3631b57cd2d3SMark Johnson sglwin = (sinfo->si_sgl_size / 3632b57cd2d3SMark Johnson (attr->dma_attr_sgllen - 1)) + 1; 36337c478bd9Sstevel@tonic-gate } else { 363412f080e7Smrj sglwin = 0; 36357c478bd9Sstevel@tonic-gate } 363612f080e7Smrj 363712f080e7Smrj /* 363812f080e7Smrj * if we need windows because we're binding more memory than the 363912f080e7Smrj * H/W can transfer at once, the number of windows we would need 364012f080e7Smrj * here would be (xfer count / max xfer H/W supports) plus one 364112f080e7Smrj * for remainder, and plus 2 to handle the extra pages on the 364212f080e7Smrj * trim (see above comment about trim) 364312f080e7Smrj */ 364450200e77SFrank Van Der Linden if (dmao->dmao_size > dma->dp_maxxfer) { 364550200e77SFrank Van Der Linden maxxfer_win = (dmao->dmao_size / 364612f080e7Smrj dma->dp_maxxfer) + 1 + 2; 364712f080e7Smrj } else { 364812f080e7Smrj maxxfer_win = 0; 36497c478bd9Sstevel@tonic-gate } 365012f080e7Smrj dma->dp_max_win = copybuf_win + sglwin + maxxfer_win; 365112f080e7Smrj ASSERT(dma->dp_max_win > 0); 365212f080e7Smrj } 365312f080e7Smrj win_state_size = dma->dp_max_win * sizeof (rootnex_window_t); 365412f080e7Smrj 365512f080e7Smrj /* 365612f080e7Smrj * Get space for window and potential copy buffer state. Before we 365712f080e7Smrj * go and allocate memory, see if we can get away with using what's 365812f080e7Smrj * left in the pre-allocted state or the dynamically allocated sgl. 365912f080e7Smrj */ 366012f080e7Smrj space_used = (uintptr_t)(sinfo->si_sgl_size * 366112f080e7Smrj sizeof (ddi_dma_cookie_t)); 366212f080e7Smrj 366312f080e7Smrj /* if we dynamically allocated space for the cookies */ 366412f080e7Smrj if (dma->dp_need_to_free_cookie) { 366512f080e7Smrj /* if we have more space in the pre-allocted buffer, use it */ 366612f080e7Smrj ASSERT(space_used <= dma->dp_cookie_size); 366712f080e7Smrj if ((dma->dp_cookie_size - space_used) <= 366812f080e7Smrj rootnex_state->r_prealloc_size) { 366912f080e7Smrj state_available = rootnex_state->r_prealloc_size; 367012f080e7Smrj windowp = (rootnex_window_t *)dma->dp_prealloc_buffer; 367112f080e7Smrj 367212f080e7Smrj /* 367312f080e7Smrj * else, we have more free space in the dynamically allocated 367412f080e7Smrj * buffer, i.e. the buffer wasn't worse case fragmented so we 367512f080e7Smrj * didn't need a lot of cookies. 367612f080e7Smrj */ 367712f080e7Smrj } else { 367812f080e7Smrj state_available = dma->dp_cookie_size - space_used; 367912f080e7Smrj windowp = (rootnex_window_t *) 368012f080e7Smrj &dma->dp_cookies[sinfo->si_sgl_size]; 368112f080e7Smrj } 368212f080e7Smrj 368312f080e7Smrj /* we used the pre-alloced buffer */ 368412f080e7Smrj } else { 368512f080e7Smrj ASSERT(space_used <= rootnex_state->r_prealloc_size); 368612f080e7Smrj state_available = rootnex_state->r_prealloc_size - space_used; 368712f080e7Smrj windowp = (rootnex_window_t *) 368812f080e7Smrj &dma->dp_cookies[sinfo->si_sgl_size]; 368912f080e7Smrj } 369012f080e7Smrj 369112f080e7Smrj /* 369212f080e7Smrj * figure out how much state we need to track the copy buffer. Add an 369312f080e7Smrj * addition 8 bytes for pointer alignemnt later. 369412f080e7Smrj */ 369512f080e7Smrj if (dma->dp_copybuf_size > 0) { 369612f080e7Smrj copy_state_size = sinfo->si_max_pages * 369712f080e7Smrj sizeof (rootnex_pgmap_t); 369812f080e7Smrj } else { 369912f080e7Smrj copy_state_size = 0; 370012f080e7Smrj } 370112f080e7Smrj /* add an additional 8 bytes for pointer alignment */ 370212f080e7Smrj space_needed = win_state_size + copy_state_size + 0x8; 370312f080e7Smrj 370412f080e7Smrj /* if we have enough space already, use it */ 370512f080e7Smrj if (state_available >= space_needed) { 370612f080e7Smrj dma->dp_window = windowp; 370712f080e7Smrj dma->dp_need_to_free_window = B_FALSE; 370812f080e7Smrj 370912f080e7Smrj /* not enough space, need to allocate more. */ 371012f080e7Smrj } else { 371112f080e7Smrj dma->dp_window = kmem_alloc(space_needed, kmflag); 371212f080e7Smrj if (dma->dp_window == NULL) { 371312f080e7Smrj return (DDI_DMA_NORESOURCES); 371412f080e7Smrj } 371512f080e7Smrj dma->dp_need_to_free_window = B_TRUE; 371612f080e7Smrj dma->dp_window_size = space_needed; 3717ef4ab52fSFrank Van Der Linden ROOTNEX_DPROBE2(rootnex__bind__sp__alloc, dev_info_t *, 371812f080e7Smrj dma->dp_dip, size_t, space_needed); 371912f080e7Smrj } 372012f080e7Smrj 372112f080e7Smrj /* 372212f080e7Smrj * we allocate copy buffer state and window state at the same time. 372312f080e7Smrj * setup our copy buffer state pointers. Make sure it's aligned. 372412f080e7Smrj */ 372512f080e7Smrj if (dma->dp_copybuf_size > 0) { 372612f080e7Smrj dma->dp_pgmap = (rootnex_pgmap_t *)(((uintptr_t) 372712f080e7Smrj &dma->dp_window[dma->dp_max_win] + 0x7) & ~0x7); 372812f080e7Smrj 372912f080e7Smrj #if !defined(__amd64) 373012f080e7Smrj /* 373112f080e7Smrj * make sure all pm_mapped, pm_vaddr, and pm_pp are set to 373212f080e7Smrj * false/NULL. Should be quicker to bzero vs loop and set. 373312f080e7Smrj */ 373412f080e7Smrj bzero(dma->dp_pgmap, copy_state_size); 373512f080e7Smrj #endif 373612f080e7Smrj } else { 373712f080e7Smrj dma->dp_pgmap = NULL; 373812f080e7Smrj } 373912f080e7Smrj 374012f080e7Smrj return (DDI_SUCCESS); 374112f080e7Smrj } 374212f080e7Smrj 374312f080e7Smrj 374412f080e7Smrj /* 374512f080e7Smrj * rootnex_teardown_copybuf() 374612f080e7Smrj * cleans up after rootnex_setup_copybuf() 374712f080e7Smrj */ 374812f080e7Smrj static void 374912f080e7Smrj rootnex_teardown_copybuf(rootnex_dma_t *dma) 375012f080e7Smrj { 375112f080e7Smrj #if !defined(__amd64) 375212f080e7Smrj int i; 375312f080e7Smrj 375412f080e7Smrj /* 375512f080e7Smrj * if we allocated kernel heap VMEM space, go through all the pages and 375612f080e7Smrj * map out any of the ones that we're mapped into the kernel heap VMEM 375712f080e7Smrj * arena. Then free the VMEM space. 375812f080e7Smrj */ 375912f080e7Smrj if (dma->dp_kva != NULL) { 376012f080e7Smrj for (i = 0; i < dma->dp_sglinfo.si_max_pages; i++) { 376112f080e7Smrj if (dma->dp_pgmap[i].pm_mapped) { 376212f080e7Smrj hat_unload(kas.a_hat, dma->dp_pgmap[i].pm_kaddr, 376312f080e7Smrj MMU_PAGESIZE, HAT_UNLOAD); 376412f080e7Smrj dma->dp_pgmap[i].pm_mapped = B_FALSE; 376512f080e7Smrj } 376612f080e7Smrj } 376712f080e7Smrj 376812f080e7Smrj vmem_free(heap_arena, dma->dp_kva, dma->dp_copybuf_size); 376912f080e7Smrj } 377012f080e7Smrj 377112f080e7Smrj #endif 377212f080e7Smrj 377312f080e7Smrj /* if we allocated a copy buffer, free it */ 377412f080e7Smrj if (dma->dp_cbaddr != NULL) { 37757b93957cSeota i_ddi_mem_free(dma->dp_cbaddr, NULL); 377612f080e7Smrj } 377712f080e7Smrj } 377812f080e7Smrj 377912f080e7Smrj 378012f080e7Smrj /* 378112f080e7Smrj * rootnex_teardown_windows() 378212f080e7Smrj * cleans up after rootnex_setup_windows() 378312f080e7Smrj */ 378412f080e7Smrj static void 378512f080e7Smrj rootnex_teardown_windows(rootnex_dma_t *dma) 378612f080e7Smrj { 378712f080e7Smrj /* 378812f080e7Smrj * if we had to allocate window state on the last bind (because we 378912f080e7Smrj * didn't have enough pre-allocated space in the handle), free it. 379012f080e7Smrj */ 379112f080e7Smrj if (dma->dp_need_to_free_window) { 379212f080e7Smrj kmem_free(dma->dp_window, dma->dp_window_size); 379312f080e7Smrj } 379412f080e7Smrj } 379512f080e7Smrj 379612f080e7Smrj 379712f080e7Smrj /* 379812f080e7Smrj * rootnex_init_win() 379912f080e7Smrj * Called in bind slow path during creation of a new window. Initializes 380012f080e7Smrj * window state to default values. 380112f080e7Smrj */ 380212f080e7Smrj /*ARGSUSED*/ 380312f080e7Smrj static void 380412f080e7Smrj rootnex_init_win(ddi_dma_impl_t *hp, rootnex_dma_t *dma, 380512f080e7Smrj rootnex_window_t *window, ddi_dma_cookie_t *cookie, off_t cur_offset) 380612f080e7Smrj { 380712f080e7Smrj hp->dmai_nwin++; 380812f080e7Smrj window->wd_dosync = B_FALSE; 380912f080e7Smrj window->wd_offset = cur_offset; 381012f080e7Smrj window->wd_size = 0; 381112f080e7Smrj window->wd_first_cookie = cookie; 381212f080e7Smrj window->wd_cookie_cnt = 0; 381312f080e7Smrj window->wd_trim.tr_trim_first = B_FALSE; 381412f080e7Smrj window->wd_trim.tr_trim_last = B_FALSE; 381512f080e7Smrj window->wd_trim.tr_first_copybuf_win = B_FALSE; 381612f080e7Smrj window->wd_trim.tr_last_copybuf_win = B_FALSE; 381712f080e7Smrj #if !defined(__amd64) 381812f080e7Smrj window->wd_remap_copybuf = dma->dp_cb_remaping; 381912f080e7Smrj #endif 382012f080e7Smrj } 382112f080e7Smrj 382212f080e7Smrj 382312f080e7Smrj /* 382412f080e7Smrj * rootnex_setup_cookie() 382512f080e7Smrj * Called in the bind slow path when the sgl uses the copy buffer. If any of 382612f080e7Smrj * the sgl uses the copy buffer, we need to go through each cookie, figure 382712f080e7Smrj * out if it uses the copy buffer, and if it does, save away everything we'll 382812f080e7Smrj * need during sync. 382912f080e7Smrj */ 383012f080e7Smrj static void 383112f080e7Smrj rootnex_setup_cookie(ddi_dma_obj_t *dmar_object, rootnex_dma_t *dma, 383212f080e7Smrj ddi_dma_cookie_t *cookie, off_t cur_offset, size_t *copybuf_used, 383312f080e7Smrj page_t **cur_pp) 383412f080e7Smrj { 383512f080e7Smrj boolean_t copybuf_sz_power_2; 383612f080e7Smrj rootnex_sglinfo_t *sinfo; 3837843e1988Sjohnlev paddr_t paddr; 383812f080e7Smrj uint_t pidx; 383912f080e7Smrj uint_t pcnt; 384012f080e7Smrj off_t poff; 384112f080e7Smrj #if defined(__amd64) 384212f080e7Smrj pfn_t pfn; 384312f080e7Smrj #else 384412f080e7Smrj page_t **pplist; 384512f080e7Smrj #endif 384612f080e7Smrj 384750200e77SFrank Van Der Linden ASSERT(dmar_object->dmao_type != DMA_OTYP_DVADDR); 384850200e77SFrank Van Der Linden 384912f080e7Smrj sinfo = &dma->dp_sglinfo; 385012f080e7Smrj 385112f080e7Smrj /* 385212f080e7Smrj * Calculate the page index relative to the start of the buffer. The 385312f080e7Smrj * index to the current page for our buffer is the offset into the 385412f080e7Smrj * first page of the buffer plus our current offset into the buffer 385512f080e7Smrj * itself, shifted of course... 385612f080e7Smrj */ 385712f080e7Smrj pidx = (sinfo->si_buf_offset + cur_offset) >> MMU_PAGESHIFT; 385812f080e7Smrj ASSERT(pidx < sinfo->si_max_pages); 385912f080e7Smrj 386012f080e7Smrj /* if this cookie uses the copy buffer */ 386112f080e7Smrj if (cookie->dmac_type & ROOTNEX_USES_COPYBUF) { 386212f080e7Smrj /* 386312f080e7Smrj * NOTE: we know that since this cookie uses the copy buffer, it 386412f080e7Smrj * is <= MMU_PAGESIZE. 386512f080e7Smrj */ 386612f080e7Smrj 386712f080e7Smrj /* 386812f080e7Smrj * get the offset into the page. For the 64-bit kernel, get the 386912f080e7Smrj * pfn which we'll use with seg kpm. 387012f080e7Smrj */ 3871843e1988Sjohnlev poff = cookie->dmac_laddress & MMU_PAGEOFFSET; 387212f080e7Smrj #if defined(__amd64) 3873843e1988Sjohnlev /* mfn_to_pfn() is a NOP on i86pc */ 3874843e1988Sjohnlev pfn = mfn_to_pfn(cookie->dmac_laddress >> MMU_PAGESHIFT); 3875843e1988Sjohnlev #endif /* __amd64 */ 387612f080e7Smrj 387712f080e7Smrj /* figure out if the copybuf size is a power of 2 */ 387812f080e7Smrj if (dma->dp_copybuf_size & (dma->dp_copybuf_size - 1)) { 387912f080e7Smrj copybuf_sz_power_2 = B_FALSE; 388012f080e7Smrj } else { 388112f080e7Smrj copybuf_sz_power_2 = B_TRUE; 388212f080e7Smrj } 388312f080e7Smrj 388412f080e7Smrj /* This page uses the copy buffer */ 388512f080e7Smrj dma->dp_pgmap[pidx].pm_uses_copybuf = B_TRUE; 388612f080e7Smrj 388712f080e7Smrj /* 388812f080e7Smrj * save the copy buffer KVA that we'll use with this page. 388912f080e7Smrj * if we still fit within the copybuf, it's a simple add. 389012f080e7Smrj * otherwise, we need to wrap over using & or % accordingly. 389112f080e7Smrj */ 389212f080e7Smrj if ((*copybuf_used + MMU_PAGESIZE) <= dma->dp_copybuf_size) { 389312f080e7Smrj dma->dp_pgmap[pidx].pm_cbaddr = dma->dp_cbaddr + 389412f080e7Smrj *copybuf_used; 389512f080e7Smrj } else { 389612f080e7Smrj if (copybuf_sz_power_2) { 389712f080e7Smrj dma->dp_pgmap[pidx].pm_cbaddr = (caddr_t)( 389812f080e7Smrj (uintptr_t)dma->dp_cbaddr + 389912f080e7Smrj (*copybuf_used & 390012f080e7Smrj (dma->dp_copybuf_size - 1))); 390112f080e7Smrj } else { 390212f080e7Smrj dma->dp_pgmap[pidx].pm_cbaddr = (caddr_t)( 390312f080e7Smrj (uintptr_t)dma->dp_cbaddr + 390412f080e7Smrj (*copybuf_used % dma->dp_copybuf_size)); 390512f080e7Smrj } 390612f080e7Smrj } 390712f080e7Smrj 390812f080e7Smrj /* 390912f080e7Smrj * over write the cookie physical address with the address of 391012f080e7Smrj * the physical address of the copy buffer page that we will 391112f080e7Smrj * use. 391212f080e7Smrj */ 3913843e1988Sjohnlev paddr = pfn_to_pa(hat_getpfnum(kas.a_hat, 391412f080e7Smrj dma->dp_pgmap[pidx].pm_cbaddr)) + poff; 391512f080e7Smrj 391650200e77SFrank Van Der Linden cookie->dmac_laddress = ROOTNEX_PADDR_TO_RBASE(paddr); 3917843e1988Sjohnlev 391812f080e7Smrj /* if we have a kernel VA, it's easy, just save that address */ 391912f080e7Smrj if ((dmar_object->dmao_type != DMA_OTYP_PAGES) && 392012f080e7Smrj (sinfo->si_asp == &kas)) { 392112f080e7Smrj /* 392212f080e7Smrj * save away the page aligned virtual address of the 392312f080e7Smrj * driver buffer. Offsets are handled in the sync code. 392412f080e7Smrj */ 392512f080e7Smrj dma->dp_pgmap[pidx].pm_kaddr = (caddr_t)(((uintptr_t) 392612f080e7Smrj dmar_object->dmao_obj.virt_obj.v_addr + cur_offset) 392712f080e7Smrj & MMU_PAGEMASK); 392812f080e7Smrj #if !defined(__amd64) 392912f080e7Smrj /* 393012f080e7Smrj * we didn't need to, and will never need to map this 393112f080e7Smrj * page. 393212f080e7Smrj */ 393312f080e7Smrj dma->dp_pgmap[pidx].pm_mapped = B_FALSE; 393412f080e7Smrj #endif 393512f080e7Smrj 393612f080e7Smrj /* we don't have a kernel VA. We need one for the bcopy. */ 393712f080e7Smrj } else { 393812f080e7Smrj #if defined(__amd64) 393912f080e7Smrj /* 394012f080e7Smrj * for the 64-bit kernel, it's easy. We use seg kpm to 394112f080e7Smrj * get a Kernel VA for the corresponding pfn. 394212f080e7Smrj */ 394312f080e7Smrj dma->dp_pgmap[pidx].pm_kaddr = hat_kpm_pfn2va(pfn); 394412f080e7Smrj #else 394512f080e7Smrj /* 394612f080e7Smrj * for the 32-bit kernel, this is a pain. First we'll 394712f080e7Smrj * save away the page_t or user VA for this page. This 394812f080e7Smrj * is needed in rootnex_dma_win() when we switch to a 394912f080e7Smrj * new window which requires us to re-map the copy 395012f080e7Smrj * buffer. 395112f080e7Smrj */ 395212f080e7Smrj pplist = dmar_object->dmao_obj.virt_obj.v_priv; 395312f080e7Smrj if (dmar_object->dmao_type == DMA_OTYP_PAGES) { 395412f080e7Smrj dma->dp_pgmap[pidx].pm_pp = *cur_pp; 395512f080e7Smrj dma->dp_pgmap[pidx].pm_vaddr = NULL; 395612f080e7Smrj } else if (pplist != NULL) { 395712f080e7Smrj dma->dp_pgmap[pidx].pm_pp = pplist[pidx]; 395812f080e7Smrj dma->dp_pgmap[pidx].pm_vaddr = NULL; 395912f080e7Smrj } else { 396012f080e7Smrj dma->dp_pgmap[pidx].pm_pp = NULL; 396112f080e7Smrj dma->dp_pgmap[pidx].pm_vaddr = (caddr_t) 396212f080e7Smrj (((uintptr_t) 396312f080e7Smrj dmar_object->dmao_obj.virt_obj.v_addr + 396412f080e7Smrj cur_offset) & MMU_PAGEMASK); 396512f080e7Smrj } 396612f080e7Smrj 396712f080e7Smrj /* 396812f080e7Smrj * save away the page aligned virtual address which was 396912f080e7Smrj * allocated from the kernel heap arena (taking into 397012f080e7Smrj * account if we need more copy buffer than we alloced 397112f080e7Smrj * and use multiple windows to handle this, i.e. &,%). 397212f080e7Smrj * NOTE: there isn't and physical memory backing up this 397312f080e7Smrj * virtual address space currently. 397412f080e7Smrj */ 397512f080e7Smrj if ((*copybuf_used + MMU_PAGESIZE) <= 397612f080e7Smrj dma->dp_copybuf_size) { 397712f080e7Smrj dma->dp_pgmap[pidx].pm_kaddr = (caddr_t) 397812f080e7Smrj (((uintptr_t)dma->dp_kva + *copybuf_used) & 397912f080e7Smrj MMU_PAGEMASK); 398012f080e7Smrj } else { 398112f080e7Smrj if (copybuf_sz_power_2) { 398212f080e7Smrj dma->dp_pgmap[pidx].pm_kaddr = (caddr_t) 398312f080e7Smrj (((uintptr_t)dma->dp_kva + 398412f080e7Smrj (*copybuf_used & 398512f080e7Smrj (dma->dp_copybuf_size - 1))) & 398612f080e7Smrj MMU_PAGEMASK); 398712f080e7Smrj } else { 398812f080e7Smrj dma->dp_pgmap[pidx].pm_kaddr = (caddr_t) 398912f080e7Smrj (((uintptr_t)dma->dp_kva + 399012f080e7Smrj (*copybuf_used % 399112f080e7Smrj dma->dp_copybuf_size)) & 399212f080e7Smrj MMU_PAGEMASK); 399312f080e7Smrj } 399412f080e7Smrj } 399512f080e7Smrj 399612f080e7Smrj /* 399712f080e7Smrj * if we haven't used up the available copy buffer yet, 399812f080e7Smrj * map the kva to the physical page. 399912f080e7Smrj */ 400012f080e7Smrj if (!dma->dp_cb_remaping && ((*copybuf_used + 400112f080e7Smrj MMU_PAGESIZE) <= dma->dp_copybuf_size)) { 400212f080e7Smrj dma->dp_pgmap[pidx].pm_mapped = B_TRUE; 400312f080e7Smrj if (dma->dp_pgmap[pidx].pm_pp != NULL) { 400412f080e7Smrj i86_pp_map(dma->dp_pgmap[pidx].pm_pp, 400512f080e7Smrj dma->dp_pgmap[pidx].pm_kaddr); 400612f080e7Smrj } else { 400712f080e7Smrj i86_va_map(dma->dp_pgmap[pidx].pm_vaddr, 400812f080e7Smrj sinfo->si_asp, 400912f080e7Smrj dma->dp_pgmap[pidx].pm_kaddr); 401012f080e7Smrj } 401112f080e7Smrj 401212f080e7Smrj /* 401312f080e7Smrj * we've used up the available copy buffer, this page 401412f080e7Smrj * will have to be mapped during rootnex_dma_win() when 401512f080e7Smrj * we switch to a new window which requires a re-map 401612f080e7Smrj * the copy buffer. (32-bit kernel only) 401712f080e7Smrj */ 401812f080e7Smrj } else { 401912f080e7Smrj dma->dp_pgmap[pidx].pm_mapped = B_FALSE; 402012f080e7Smrj } 402112f080e7Smrj #endif 402212f080e7Smrj /* go to the next page_t */ 402312f080e7Smrj if (dmar_object->dmao_type == DMA_OTYP_PAGES) { 402412f080e7Smrj *cur_pp = (*cur_pp)->p_next; 402512f080e7Smrj } 402612f080e7Smrj } 402712f080e7Smrj 402812f080e7Smrj /* add to the copy buffer count */ 402912f080e7Smrj *copybuf_used += MMU_PAGESIZE; 403012f080e7Smrj 403112f080e7Smrj /* 403212f080e7Smrj * This cookie doesn't use the copy buffer. Walk through the pages this 403312f080e7Smrj * cookie occupies to reflect this. 403412f080e7Smrj */ 403512f080e7Smrj } else { 403612f080e7Smrj /* 403712f080e7Smrj * figure out how many pages the cookie occupies. We need to 403812f080e7Smrj * use the original page offset of the buffer and the cookies 403912f080e7Smrj * offset in the buffer to do this. 404012f080e7Smrj */ 404112f080e7Smrj poff = (sinfo->si_buf_offset + cur_offset) & MMU_PAGEOFFSET; 404212f080e7Smrj pcnt = mmu_btopr(cookie->dmac_size + poff); 404312f080e7Smrj 404412f080e7Smrj while (pcnt > 0) { 404512f080e7Smrj #if !defined(__amd64) 404612f080e7Smrj /* 404712f080e7Smrj * the 32-bit kernel doesn't have seg kpm, so we need 404812f080e7Smrj * to map in the driver buffer (if it didn't come down 404912f080e7Smrj * with a kernel VA) on the fly. Since this page doesn't 405012f080e7Smrj * use the copy buffer, it's not, or will it ever, have 405112f080e7Smrj * to be mapped in. 405212f080e7Smrj */ 405312f080e7Smrj dma->dp_pgmap[pidx].pm_mapped = B_FALSE; 405412f080e7Smrj #endif 405512f080e7Smrj dma->dp_pgmap[pidx].pm_uses_copybuf = B_FALSE; 405612f080e7Smrj 405712f080e7Smrj /* 405812f080e7Smrj * we need to update pidx and cur_pp or we'll loose 405912f080e7Smrj * track of where we are. 406012f080e7Smrj */ 406112f080e7Smrj if (dmar_object->dmao_type == DMA_OTYP_PAGES) { 406212f080e7Smrj *cur_pp = (*cur_pp)->p_next; 406312f080e7Smrj } 406412f080e7Smrj pidx++; 406512f080e7Smrj pcnt--; 406612f080e7Smrj } 406712f080e7Smrj } 406812f080e7Smrj } 406912f080e7Smrj 407012f080e7Smrj 407112f080e7Smrj /* 407212f080e7Smrj * rootnex_sgllen_window_boundary() 407312f080e7Smrj * Called in the bind slow path when the next cookie causes us to exceed (in 407412f080e7Smrj * this case == since we start at 0 and sgllen starts at 1) the maximum sgl 407512f080e7Smrj * length supported by the DMA H/W. 407612f080e7Smrj */ 407712f080e7Smrj static int 407812f080e7Smrj rootnex_sgllen_window_boundary(ddi_dma_impl_t *hp, rootnex_dma_t *dma, 407912f080e7Smrj rootnex_window_t **windowp, ddi_dma_cookie_t *cookie, ddi_dma_attr_t *attr, 408012f080e7Smrj off_t cur_offset) 408112f080e7Smrj { 408212f080e7Smrj off_t new_offset; 408312f080e7Smrj size_t trim_sz; 408412f080e7Smrj off_t coffset; 408512f080e7Smrj 408612f080e7Smrj 408712f080e7Smrj /* 408812f080e7Smrj * if we know we'll never have to trim, it's pretty easy. Just move to 408912f080e7Smrj * the next window and init it. We're done. 409012f080e7Smrj */ 409112f080e7Smrj if (!dma->dp_trim_required) { 409212f080e7Smrj (*windowp)++; 409312f080e7Smrj rootnex_init_win(hp, dma, *windowp, cookie, cur_offset); 409412f080e7Smrj (*windowp)->wd_cookie_cnt++; 409512f080e7Smrj (*windowp)->wd_size = cookie->dmac_size; 409612f080e7Smrj return (DDI_SUCCESS); 409712f080e7Smrj } 409812f080e7Smrj 409912f080e7Smrj /* figure out how much we need to trim from the window */ 410012f080e7Smrj ASSERT(attr->dma_attr_granular != 0); 410112f080e7Smrj if (dma->dp_granularity_power_2) { 410212f080e7Smrj trim_sz = (*windowp)->wd_size & (attr->dma_attr_granular - 1); 410312f080e7Smrj } else { 410412f080e7Smrj trim_sz = (*windowp)->wd_size % attr->dma_attr_granular; 410512f080e7Smrj } 410612f080e7Smrj 410712f080e7Smrj /* The window's a whole multiple of granularity. We're done */ 410812f080e7Smrj if (trim_sz == 0) { 410912f080e7Smrj (*windowp)++; 411012f080e7Smrj rootnex_init_win(hp, dma, *windowp, cookie, cur_offset); 411112f080e7Smrj (*windowp)->wd_cookie_cnt++; 411212f080e7Smrj (*windowp)->wd_size = cookie->dmac_size; 411312f080e7Smrj return (DDI_SUCCESS); 411412f080e7Smrj } 411512f080e7Smrj 411612f080e7Smrj /* 411712f080e7Smrj * The window's not a whole multiple of granularity, since we know this 411812f080e7Smrj * is due to the sgllen, we need to go back to the last cookie and trim 411912f080e7Smrj * that one, add the left over part of the old cookie into the new 412012f080e7Smrj * window, and then add in the new cookie into the new window. 412112f080e7Smrj */ 412212f080e7Smrj 412312f080e7Smrj /* 412412f080e7Smrj * make sure the driver isn't making us do something bad... Trimming and 412512f080e7Smrj * sgllen == 1 don't go together. 412612f080e7Smrj */ 412712f080e7Smrj if (attr->dma_attr_sgllen == 1) { 412812f080e7Smrj return (DDI_DMA_NOMAPPING); 412912f080e7Smrj } 413012f080e7Smrj 413112f080e7Smrj /* 413212f080e7Smrj * first, setup the current window to account for the trim. Need to go 413312f080e7Smrj * back to the last cookie for this. 413412f080e7Smrj */ 413512f080e7Smrj cookie--; 413612f080e7Smrj (*windowp)->wd_trim.tr_trim_last = B_TRUE; 413712f080e7Smrj (*windowp)->wd_trim.tr_last_cookie = cookie; 4138843e1988Sjohnlev (*windowp)->wd_trim.tr_last_paddr = cookie->dmac_laddress; 413912f080e7Smrj ASSERT(cookie->dmac_size > trim_sz); 414012f080e7Smrj (*windowp)->wd_trim.tr_last_size = cookie->dmac_size - trim_sz; 414112f080e7Smrj (*windowp)->wd_size -= trim_sz; 414212f080e7Smrj 414312f080e7Smrj /* save the buffer offsets for the next window */ 414412f080e7Smrj coffset = cookie->dmac_size - trim_sz; 414512f080e7Smrj new_offset = (*windowp)->wd_offset + (*windowp)->wd_size; 414612f080e7Smrj 414712f080e7Smrj /* 414812f080e7Smrj * set this now in case this is the first window. all other cases are 414912f080e7Smrj * set in dma_win() 415012f080e7Smrj */ 415112f080e7Smrj cookie->dmac_size = (*windowp)->wd_trim.tr_last_size; 415212f080e7Smrj 415312f080e7Smrj /* 415412f080e7Smrj * initialize the next window using what's left over in the previous 415512f080e7Smrj * cookie. 415612f080e7Smrj */ 415712f080e7Smrj (*windowp)++; 415812f080e7Smrj rootnex_init_win(hp, dma, *windowp, cookie, new_offset); 415912f080e7Smrj (*windowp)->wd_cookie_cnt++; 416012f080e7Smrj (*windowp)->wd_trim.tr_trim_first = B_TRUE; 4161843e1988Sjohnlev (*windowp)->wd_trim.tr_first_paddr = cookie->dmac_laddress + coffset; 416212f080e7Smrj (*windowp)->wd_trim.tr_first_size = trim_sz; 416312f080e7Smrj if (cookie->dmac_type & ROOTNEX_USES_COPYBUF) { 416412f080e7Smrj (*windowp)->wd_dosync = B_TRUE; 416512f080e7Smrj } 416612f080e7Smrj 416712f080e7Smrj /* 416812f080e7Smrj * now go back to the current cookie and add it to the new window. set 416912f080e7Smrj * the new window size to the what was left over from the previous 417012f080e7Smrj * cookie and what's in the current cookie. 417112f080e7Smrj */ 417212f080e7Smrj cookie++; 417312f080e7Smrj (*windowp)->wd_cookie_cnt++; 417412f080e7Smrj (*windowp)->wd_size = trim_sz + cookie->dmac_size; 417512f080e7Smrj 417612f080e7Smrj /* 417712f080e7Smrj * trim plus the next cookie could put us over maxxfer (a cookie can be 417812f080e7Smrj * a max size of maxxfer). Handle that case. 417912f080e7Smrj */ 418012f080e7Smrj if ((*windowp)->wd_size > dma->dp_maxxfer) { 418112f080e7Smrj /* 418212f080e7Smrj * maxxfer is already a whole multiple of granularity, and this 418312f080e7Smrj * trim will be <= the previous trim (since a cookie can't be 418412f080e7Smrj * larger than maxxfer). Make things simple here. 418512f080e7Smrj */ 418612f080e7Smrj trim_sz = (*windowp)->wd_size - dma->dp_maxxfer; 418712f080e7Smrj (*windowp)->wd_trim.tr_trim_last = B_TRUE; 418812f080e7Smrj (*windowp)->wd_trim.tr_last_cookie = cookie; 4189843e1988Sjohnlev (*windowp)->wd_trim.tr_last_paddr = cookie->dmac_laddress; 419012f080e7Smrj (*windowp)->wd_trim.tr_last_size = cookie->dmac_size - trim_sz; 419112f080e7Smrj (*windowp)->wd_size -= trim_sz; 419212f080e7Smrj ASSERT((*windowp)->wd_size == dma->dp_maxxfer); 419312f080e7Smrj 419412f080e7Smrj /* save the buffer offsets for the next window */ 419512f080e7Smrj coffset = cookie->dmac_size - trim_sz; 419612f080e7Smrj new_offset = (*windowp)->wd_offset + (*windowp)->wd_size; 419712f080e7Smrj 419812f080e7Smrj /* setup the next window */ 419912f080e7Smrj (*windowp)++; 420012f080e7Smrj rootnex_init_win(hp, dma, *windowp, cookie, new_offset); 420112f080e7Smrj (*windowp)->wd_cookie_cnt++; 420212f080e7Smrj (*windowp)->wd_trim.tr_trim_first = B_TRUE; 4203843e1988Sjohnlev (*windowp)->wd_trim.tr_first_paddr = cookie->dmac_laddress + 420412f080e7Smrj coffset; 420512f080e7Smrj (*windowp)->wd_trim.tr_first_size = trim_sz; 420612f080e7Smrj } 420712f080e7Smrj 420812f080e7Smrj return (DDI_SUCCESS); 420912f080e7Smrj } 421012f080e7Smrj 421112f080e7Smrj 421212f080e7Smrj /* 421312f080e7Smrj * rootnex_copybuf_window_boundary() 421412f080e7Smrj * Called in bind slowpath when we get to a window boundary because we used 421512f080e7Smrj * up all the copy buffer that we have. 421612f080e7Smrj */ 421712f080e7Smrj static int 421812f080e7Smrj rootnex_copybuf_window_boundary(ddi_dma_impl_t *hp, rootnex_dma_t *dma, 421912f080e7Smrj rootnex_window_t **windowp, ddi_dma_cookie_t *cookie, off_t cur_offset, 422012f080e7Smrj size_t *copybuf_used) 422112f080e7Smrj { 422212f080e7Smrj rootnex_sglinfo_t *sinfo; 422312f080e7Smrj off_t new_offset; 422412f080e7Smrj size_t trim_sz; 4225843e1988Sjohnlev paddr_t paddr; 422612f080e7Smrj off_t coffset; 422712f080e7Smrj uint_t pidx; 422812f080e7Smrj off_t poff; 422912f080e7Smrj 423012f080e7Smrj 423112f080e7Smrj sinfo = &dma->dp_sglinfo; 423212f080e7Smrj 423312f080e7Smrj /* 423412f080e7Smrj * the copy buffer should be a whole multiple of page size. We know that 423512f080e7Smrj * this cookie is <= MMU_PAGESIZE. 423612f080e7Smrj */ 423712f080e7Smrj ASSERT(cookie->dmac_size <= MMU_PAGESIZE); 423812f080e7Smrj 423912f080e7Smrj /* 424012f080e7Smrj * from now on, all new windows in this bind need to be re-mapped during 424112f080e7Smrj * ddi_dma_getwin() (32-bit kernel only). i.e. we ran out out copybuf 424212f080e7Smrj * space... 424312f080e7Smrj */ 424412f080e7Smrj #if !defined(__amd64) 424512f080e7Smrj dma->dp_cb_remaping = B_TRUE; 424612f080e7Smrj #endif 424712f080e7Smrj 424812f080e7Smrj /* reset copybuf used */ 424912f080e7Smrj *copybuf_used = 0; 425012f080e7Smrj 425112f080e7Smrj /* 425212f080e7Smrj * if we don't have to trim (since granularity is set to 1), go to the 425312f080e7Smrj * next window and add the current cookie to it. We know the current 425412f080e7Smrj * cookie uses the copy buffer since we're in this code path. 425512f080e7Smrj */ 425612f080e7Smrj if (!dma->dp_trim_required) { 425712f080e7Smrj (*windowp)++; 425812f080e7Smrj rootnex_init_win(hp, dma, *windowp, cookie, cur_offset); 425912f080e7Smrj 426012f080e7Smrj /* Add this cookie to the new window */ 426112f080e7Smrj (*windowp)->wd_cookie_cnt++; 426212f080e7Smrj (*windowp)->wd_size += cookie->dmac_size; 426312f080e7Smrj *copybuf_used += MMU_PAGESIZE; 426412f080e7Smrj return (DDI_SUCCESS); 426512f080e7Smrj } 426612f080e7Smrj 426712f080e7Smrj /* 426812f080e7Smrj * *** may need to trim, figure it out. 426912f080e7Smrj */ 427012f080e7Smrj 427112f080e7Smrj /* figure out how much we need to trim from the window */ 427212f080e7Smrj if (dma->dp_granularity_power_2) { 427312f080e7Smrj trim_sz = (*windowp)->wd_size & 427412f080e7Smrj (hp->dmai_attr.dma_attr_granular - 1); 427512f080e7Smrj } else { 427612f080e7Smrj trim_sz = (*windowp)->wd_size % hp->dmai_attr.dma_attr_granular; 427712f080e7Smrj } 427812f080e7Smrj 427912f080e7Smrj /* 428012f080e7Smrj * if the window's a whole multiple of granularity, go to the next 428112f080e7Smrj * window, init it, then add in the current cookie. We know the current 428212f080e7Smrj * cookie uses the copy buffer since we're in this code path. 428312f080e7Smrj */ 428412f080e7Smrj if (trim_sz == 0) { 428512f080e7Smrj (*windowp)++; 428612f080e7Smrj rootnex_init_win(hp, dma, *windowp, cookie, cur_offset); 428712f080e7Smrj 428812f080e7Smrj /* Add this cookie to the new window */ 428912f080e7Smrj (*windowp)->wd_cookie_cnt++; 429012f080e7Smrj (*windowp)->wd_size += cookie->dmac_size; 429112f080e7Smrj *copybuf_used += MMU_PAGESIZE; 429212f080e7Smrj return (DDI_SUCCESS); 429312f080e7Smrj } 429412f080e7Smrj 429512f080e7Smrj /* 429612f080e7Smrj * *** We figured it out, we definitly need to trim 429712f080e7Smrj */ 429812f080e7Smrj 429912f080e7Smrj /* 430012f080e7Smrj * make sure the driver isn't making us do something bad... 430112f080e7Smrj * Trimming and sgllen == 1 don't go together. 430212f080e7Smrj */ 430312f080e7Smrj if (hp->dmai_attr.dma_attr_sgllen == 1) { 430412f080e7Smrj return (DDI_DMA_NOMAPPING); 430512f080e7Smrj } 430612f080e7Smrj 430712f080e7Smrj /* 430812f080e7Smrj * first, setup the current window to account for the trim. Need to go 430912f080e7Smrj * back to the last cookie for this. Some of the last cookie will be in 431012f080e7Smrj * the current window, and some of the last cookie will be in the new 431112f080e7Smrj * window. All of the current cookie will be in the new window. 431212f080e7Smrj */ 431312f080e7Smrj cookie--; 431412f080e7Smrj (*windowp)->wd_trim.tr_trim_last = B_TRUE; 431512f080e7Smrj (*windowp)->wd_trim.tr_last_cookie = cookie; 4316843e1988Sjohnlev (*windowp)->wd_trim.tr_last_paddr = cookie->dmac_laddress; 431712f080e7Smrj ASSERT(cookie->dmac_size > trim_sz); 431812f080e7Smrj (*windowp)->wd_trim.tr_last_size = cookie->dmac_size - trim_sz; 431912f080e7Smrj (*windowp)->wd_size -= trim_sz; 432012f080e7Smrj 432112f080e7Smrj /* 432212f080e7Smrj * we're trimming the last cookie (not the current cookie). So that 432312f080e7Smrj * last cookie may have or may not have been using the copy buffer ( 432412f080e7Smrj * we know the cookie passed in uses the copy buffer since we're in 432512f080e7Smrj * this code path). 432612f080e7Smrj * 432712f080e7Smrj * If the last cookie doesn't use the copy buffer, nothing special to 432812f080e7Smrj * do. However, if it does uses the copy buffer, it will be both the 432912f080e7Smrj * last page in the current window and the first page in the next 433012f080e7Smrj * window. Since we are reusing the copy buffer (and KVA space on the 433112f080e7Smrj * 32-bit kernel), this page will use the end of the copy buffer in the 433212f080e7Smrj * current window, and the start of the copy buffer in the next window. 433312f080e7Smrj * Track that info... The cookie physical address was already set to 433412f080e7Smrj * the copy buffer physical address in setup_cookie.. 433512f080e7Smrj */ 433612f080e7Smrj if (cookie->dmac_type & ROOTNEX_USES_COPYBUF) { 433712f080e7Smrj pidx = (sinfo->si_buf_offset + (*windowp)->wd_offset + 433812f080e7Smrj (*windowp)->wd_size) >> MMU_PAGESHIFT; 433912f080e7Smrj (*windowp)->wd_trim.tr_last_copybuf_win = B_TRUE; 434012f080e7Smrj (*windowp)->wd_trim.tr_last_pidx = pidx; 434112f080e7Smrj (*windowp)->wd_trim.tr_last_cbaddr = 434212f080e7Smrj dma->dp_pgmap[pidx].pm_cbaddr; 434312f080e7Smrj #if !defined(__amd64) 434412f080e7Smrj (*windowp)->wd_trim.tr_last_kaddr = 434512f080e7Smrj dma->dp_pgmap[pidx].pm_kaddr; 434612f080e7Smrj #endif 434712f080e7Smrj } 434812f080e7Smrj 434912f080e7Smrj /* save the buffer offsets for the next window */ 435012f080e7Smrj coffset = cookie->dmac_size - trim_sz; 435112f080e7Smrj new_offset = (*windowp)->wd_offset + (*windowp)->wd_size; 435212f080e7Smrj 435312f080e7Smrj /* 435412f080e7Smrj * set this now in case this is the first window. all other cases are 435512f080e7Smrj * set in dma_win() 435612f080e7Smrj */ 435712f080e7Smrj cookie->dmac_size = (*windowp)->wd_trim.tr_last_size; 435812f080e7Smrj 435912f080e7Smrj /* 436012f080e7Smrj * initialize the next window using what's left over in the previous 436112f080e7Smrj * cookie. 436212f080e7Smrj */ 436312f080e7Smrj (*windowp)++; 436412f080e7Smrj rootnex_init_win(hp, dma, *windowp, cookie, new_offset); 436512f080e7Smrj (*windowp)->wd_cookie_cnt++; 436612f080e7Smrj (*windowp)->wd_trim.tr_trim_first = B_TRUE; 4367843e1988Sjohnlev (*windowp)->wd_trim.tr_first_paddr = cookie->dmac_laddress + coffset; 436812f080e7Smrj (*windowp)->wd_trim.tr_first_size = trim_sz; 436912f080e7Smrj 437012f080e7Smrj /* 437112f080e7Smrj * again, we're tracking if the last cookie uses the copy buffer. 437212f080e7Smrj * read the comment above for more info on why we need to track 437312f080e7Smrj * additional state. 437412f080e7Smrj * 437512f080e7Smrj * For the first cookie in the new window, we need reset the physical 437612f080e7Smrj * address to DMA into to the start of the copy buffer plus any 437712f080e7Smrj * initial page offset which may be present. 437812f080e7Smrj */ 437912f080e7Smrj if (cookie->dmac_type & ROOTNEX_USES_COPYBUF) { 438012f080e7Smrj (*windowp)->wd_dosync = B_TRUE; 438112f080e7Smrj (*windowp)->wd_trim.tr_first_copybuf_win = B_TRUE; 438212f080e7Smrj (*windowp)->wd_trim.tr_first_pidx = pidx; 438312f080e7Smrj (*windowp)->wd_trim.tr_first_cbaddr = dma->dp_cbaddr; 438412f080e7Smrj poff = (*windowp)->wd_trim.tr_first_paddr & MMU_PAGEOFFSET; 4385843e1988Sjohnlev 4386843e1988Sjohnlev paddr = pfn_to_pa(hat_getpfnum(kas.a_hat, dma->dp_cbaddr)) + 4387843e1988Sjohnlev poff; 4388843e1988Sjohnlev (*windowp)->wd_trim.tr_first_paddr = 438950200e77SFrank Van Der Linden ROOTNEX_PADDR_TO_RBASE(paddr); 4390843e1988Sjohnlev 439112f080e7Smrj #if !defined(__amd64) 439212f080e7Smrj (*windowp)->wd_trim.tr_first_kaddr = dma->dp_kva; 439312f080e7Smrj #endif 439412f080e7Smrj /* account for the cookie copybuf usage in the new window */ 439512f080e7Smrj *copybuf_used += MMU_PAGESIZE; 439612f080e7Smrj 439712f080e7Smrj /* 439812f080e7Smrj * every piece of code has to have a hack, and here is this 439912f080e7Smrj * ones :-) 440012f080e7Smrj * 440112f080e7Smrj * There is a complex interaction between setup_cookie and the 440212f080e7Smrj * copybuf window boundary. The complexity had to be in either 440312f080e7Smrj * the maxxfer window, or the copybuf window, and I chose the 440412f080e7Smrj * copybuf code. 440512f080e7Smrj * 440612f080e7Smrj * So in this code path, we have taken the last cookie, 440712f080e7Smrj * virtually broken it in half due to the trim, and it happens 440812f080e7Smrj * to use the copybuf which further complicates life. At the 440912f080e7Smrj * same time, we have already setup the current cookie, which 441012f080e7Smrj * is now wrong. More background info: the current cookie uses 441112f080e7Smrj * the copybuf, so it is only a page long max. So we need to 441212f080e7Smrj * fix the current cookies copy buffer address, physical 441312f080e7Smrj * address, and kva for the 32-bit kernel. We due this by 441412f080e7Smrj * bumping them by page size (of course, we can't due this on 441512f080e7Smrj * the physical address since the copy buffer may not be 441612f080e7Smrj * physically contiguous). 441712f080e7Smrj */ 441812f080e7Smrj cookie++; 441912f080e7Smrj dma->dp_pgmap[pidx + 1].pm_cbaddr += MMU_PAGESIZE; 4420843e1988Sjohnlev poff = cookie->dmac_laddress & MMU_PAGEOFFSET; 4421843e1988Sjohnlev 4422843e1988Sjohnlev paddr = pfn_to_pa(hat_getpfnum(kas.a_hat, 442312f080e7Smrj dma->dp_pgmap[pidx + 1].pm_cbaddr)) + poff; 442450200e77SFrank Van Der Linden cookie->dmac_laddress = ROOTNEX_PADDR_TO_RBASE(paddr); 4425843e1988Sjohnlev 442612f080e7Smrj #if !defined(__amd64) 442712f080e7Smrj ASSERT(dma->dp_pgmap[pidx + 1].pm_mapped == B_FALSE); 442812f080e7Smrj dma->dp_pgmap[pidx + 1].pm_kaddr += MMU_PAGESIZE; 442912f080e7Smrj #endif 443012f080e7Smrj } else { 443112f080e7Smrj /* go back to the current cookie */ 443212f080e7Smrj cookie++; 443312f080e7Smrj } 443412f080e7Smrj 443512f080e7Smrj /* 443612f080e7Smrj * add the current cookie to the new window. set the new window size to 443712f080e7Smrj * the what was left over from the previous cookie and what's in the 443812f080e7Smrj * current cookie. 443912f080e7Smrj */ 444012f080e7Smrj (*windowp)->wd_cookie_cnt++; 444112f080e7Smrj (*windowp)->wd_size = trim_sz + cookie->dmac_size; 444212f080e7Smrj ASSERT((*windowp)->wd_size < dma->dp_maxxfer); 444312f080e7Smrj 444412f080e7Smrj /* 444512f080e7Smrj * we know that the cookie passed in always uses the copy buffer. We 444612f080e7Smrj * wouldn't be here if it didn't. 444712f080e7Smrj */ 444812f080e7Smrj *copybuf_used += MMU_PAGESIZE; 444912f080e7Smrj 445012f080e7Smrj return (DDI_SUCCESS); 445112f080e7Smrj } 445212f080e7Smrj 445312f080e7Smrj 445412f080e7Smrj /* 445512f080e7Smrj * rootnex_maxxfer_window_boundary() 445612f080e7Smrj * Called in bind slowpath when we get to a window boundary because we will 445712f080e7Smrj * go over maxxfer. 445812f080e7Smrj */ 445912f080e7Smrj static int 446012f080e7Smrj rootnex_maxxfer_window_boundary(ddi_dma_impl_t *hp, rootnex_dma_t *dma, 446112f080e7Smrj rootnex_window_t **windowp, ddi_dma_cookie_t *cookie) 446212f080e7Smrj { 446312f080e7Smrj size_t dmac_size; 446412f080e7Smrj off_t new_offset; 446512f080e7Smrj size_t trim_sz; 446612f080e7Smrj off_t coffset; 446712f080e7Smrj 446812f080e7Smrj 446912f080e7Smrj /* 447012f080e7Smrj * calculate how much we have to trim off of the current cookie to equal 447112f080e7Smrj * maxxfer. We don't have to account for granularity here since our 447212f080e7Smrj * maxxfer already takes that into account. 447312f080e7Smrj */ 447412f080e7Smrj trim_sz = ((*windowp)->wd_size + cookie->dmac_size) - dma->dp_maxxfer; 447512f080e7Smrj ASSERT(trim_sz <= cookie->dmac_size); 447612f080e7Smrj ASSERT(trim_sz <= dma->dp_maxxfer); 447712f080e7Smrj 447812f080e7Smrj /* save cookie size since we need it later and we might change it */ 447912f080e7Smrj dmac_size = cookie->dmac_size; 448012f080e7Smrj 448112f080e7Smrj /* 448212f080e7Smrj * if we're not trimming the entire cookie, setup the current window to 448312f080e7Smrj * account for the trim. 448412f080e7Smrj */ 448512f080e7Smrj if (trim_sz < cookie->dmac_size) { 448612f080e7Smrj (*windowp)->wd_cookie_cnt++; 448712f080e7Smrj (*windowp)->wd_trim.tr_trim_last = B_TRUE; 448812f080e7Smrj (*windowp)->wd_trim.tr_last_cookie = cookie; 4489843e1988Sjohnlev (*windowp)->wd_trim.tr_last_paddr = cookie->dmac_laddress; 449012f080e7Smrj (*windowp)->wd_trim.tr_last_size = cookie->dmac_size - trim_sz; 449112f080e7Smrj (*windowp)->wd_size = dma->dp_maxxfer; 449212f080e7Smrj 449312f080e7Smrj /* 449412f080e7Smrj * set the adjusted cookie size now in case this is the first 449512f080e7Smrj * window. All other windows are taken care of in get win 449612f080e7Smrj */ 449712f080e7Smrj cookie->dmac_size = (*windowp)->wd_trim.tr_last_size; 449812f080e7Smrj } 449912f080e7Smrj 450012f080e7Smrj /* 450112f080e7Smrj * coffset is the current offset within the cookie, new_offset is the 450212f080e7Smrj * current offset with the entire buffer. 450312f080e7Smrj */ 450412f080e7Smrj coffset = dmac_size - trim_sz; 450512f080e7Smrj new_offset = (*windowp)->wd_offset + (*windowp)->wd_size; 450612f080e7Smrj 450712f080e7Smrj /* initialize the next window */ 450812f080e7Smrj (*windowp)++; 450912f080e7Smrj rootnex_init_win(hp, dma, *windowp, cookie, new_offset); 451012f080e7Smrj (*windowp)->wd_cookie_cnt++; 451112f080e7Smrj (*windowp)->wd_size = trim_sz; 451212f080e7Smrj if (trim_sz < dmac_size) { 451312f080e7Smrj (*windowp)->wd_trim.tr_trim_first = B_TRUE; 4514843e1988Sjohnlev (*windowp)->wd_trim.tr_first_paddr = cookie->dmac_laddress + 451512f080e7Smrj coffset; 451612f080e7Smrj (*windowp)->wd_trim.tr_first_size = trim_sz; 451712f080e7Smrj } 451812f080e7Smrj 451912f080e7Smrj return (DDI_SUCCESS); 452012f080e7Smrj } 452112f080e7Smrj 452212f080e7Smrj 452312f080e7Smrj /*ARGSUSED*/ 452412f080e7Smrj static int 452520906b23SVikram Hegde rootnex_coredma_sync(dev_info_t *dip, dev_info_t *rdip, ddi_dma_handle_t handle, 452612f080e7Smrj off_t off, size_t len, uint_t cache_flags) 452712f080e7Smrj { 452812f080e7Smrj rootnex_sglinfo_t *sinfo; 452912f080e7Smrj rootnex_pgmap_t *cbpage; 453012f080e7Smrj rootnex_window_t *win; 453112f080e7Smrj ddi_dma_impl_t *hp; 453212f080e7Smrj rootnex_dma_t *dma; 453312f080e7Smrj caddr_t fromaddr; 453412f080e7Smrj caddr_t toaddr; 453512f080e7Smrj uint_t psize; 453612f080e7Smrj off_t offset; 453712f080e7Smrj uint_t pidx; 453812f080e7Smrj size_t size; 453912f080e7Smrj off_t poff; 454012f080e7Smrj int e; 454112f080e7Smrj 454212f080e7Smrj 454312f080e7Smrj hp = (ddi_dma_impl_t *)handle; 454412f080e7Smrj dma = (rootnex_dma_t *)hp->dmai_private; 454512f080e7Smrj sinfo = &dma->dp_sglinfo; 454612f080e7Smrj 454712f080e7Smrj /* 454812f080e7Smrj * if we don't have any windows, we don't need to sync. A copybuf 454912f080e7Smrj * will cause us to have at least one window. 455012f080e7Smrj */ 455112f080e7Smrj if (dma->dp_window == NULL) { 455212f080e7Smrj return (DDI_SUCCESS); 455312f080e7Smrj } 455412f080e7Smrj 455512f080e7Smrj /* This window may not need to be sync'd */ 455612f080e7Smrj win = &dma->dp_window[dma->dp_current_win]; 455712f080e7Smrj if (!win->wd_dosync) { 455812f080e7Smrj return (DDI_SUCCESS); 455912f080e7Smrj } 456012f080e7Smrj 456112f080e7Smrj /* handle off and len special cases */ 456212f080e7Smrj if ((off == 0) || (rootnex_sync_ignore_params)) { 456312f080e7Smrj offset = win->wd_offset; 456412f080e7Smrj } else { 456512f080e7Smrj offset = off; 456612f080e7Smrj } 456712f080e7Smrj if ((len == 0) || (rootnex_sync_ignore_params)) { 456812f080e7Smrj size = win->wd_size; 456912f080e7Smrj } else { 457012f080e7Smrj size = len; 457112f080e7Smrj } 457212f080e7Smrj 457312f080e7Smrj /* check the sync args to make sure they make a little sense */ 457412f080e7Smrj if (rootnex_sync_check_parms) { 457512f080e7Smrj e = rootnex_valid_sync_parms(hp, win, offset, size, 457612f080e7Smrj cache_flags); 457712f080e7Smrj if (e != DDI_SUCCESS) { 4578ef4ab52fSFrank Van Der Linden ROOTNEX_DPROF_INC(&rootnex_cnt[ROOTNEX_CNT_SYNC_FAIL]); 457912f080e7Smrj return (DDI_FAILURE); 458012f080e7Smrj } 458112f080e7Smrj } 458212f080e7Smrj 458312f080e7Smrj /* 458412f080e7Smrj * special case the first page to handle the offset into the page. The 458512f080e7Smrj * offset to the current page for our buffer is the offset into the 458612f080e7Smrj * first page of the buffer plus our current offset into the buffer 458712f080e7Smrj * itself, masked of course. 458812f080e7Smrj */ 458912f080e7Smrj poff = (sinfo->si_buf_offset + offset) & MMU_PAGEOFFSET; 459012f080e7Smrj psize = MIN((MMU_PAGESIZE - poff), size); 459112f080e7Smrj 459212f080e7Smrj /* go through all the pages that we want to sync */ 459312f080e7Smrj while (size > 0) { 459412f080e7Smrj /* 459512f080e7Smrj * Calculate the page index relative to the start of the buffer. 459612f080e7Smrj * The index to the current page for our buffer is the offset 459712f080e7Smrj * into the first page of the buffer plus our current offset 459812f080e7Smrj * into the buffer itself, shifted of course... 459912f080e7Smrj */ 460012f080e7Smrj pidx = (sinfo->si_buf_offset + offset) >> MMU_PAGESHIFT; 460112f080e7Smrj ASSERT(pidx < sinfo->si_max_pages); 460212f080e7Smrj 460312f080e7Smrj /* 460412f080e7Smrj * if this page uses the copy buffer, we need to sync it, 460512f080e7Smrj * otherwise, go on to the next page. 460612f080e7Smrj */ 460712f080e7Smrj cbpage = &dma->dp_pgmap[pidx]; 460812f080e7Smrj ASSERT((cbpage->pm_uses_copybuf == B_TRUE) || 460912f080e7Smrj (cbpage->pm_uses_copybuf == B_FALSE)); 461012f080e7Smrj if (cbpage->pm_uses_copybuf) { 461112f080e7Smrj /* cbaddr and kaddr should be page aligned */ 461212f080e7Smrj ASSERT(((uintptr_t)cbpage->pm_cbaddr & 461312f080e7Smrj MMU_PAGEOFFSET) == 0); 461412f080e7Smrj ASSERT(((uintptr_t)cbpage->pm_kaddr & 461512f080e7Smrj MMU_PAGEOFFSET) == 0); 461612f080e7Smrj 461712f080e7Smrj /* 461812f080e7Smrj * if we're copying for the device, we are going to 461912f080e7Smrj * copy from the drivers buffer and to the rootnex 462012f080e7Smrj * allocated copy buffer. 462112f080e7Smrj */ 462212f080e7Smrj if (cache_flags == DDI_DMA_SYNC_FORDEV) { 462312f080e7Smrj fromaddr = cbpage->pm_kaddr + poff; 462412f080e7Smrj toaddr = cbpage->pm_cbaddr + poff; 4625ef4ab52fSFrank Van Der Linden ROOTNEX_DPROBE2(rootnex__sync__dev, 462612f080e7Smrj dev_info_t *, dma->dp_dip, size_t, psize); 462712f080e7Smrj 462812f080e7Smrj /* 462912f080e7Smrj * if we're copying for the cpu/kernel, we are going to 463012f080e7Smrj * copy from the rootnex allocated copy buffer to the 463112f080e7Smrj * drivers buffer. 463212f080e7Smrj */ 463312f080e7Smrj } else { 463412f080e7Smrj fromaddr = cbpage->pm_cbaddr + poff; 463512f080e7Smrj toaddr = cbpage->pm_kaddr + poff; 4636ef4ab52fSFrank Van Der Linden ROOTNEX_DPROBE2(rootnex__sync__cpu, 463712f080e7Smrj dev_info_t *, dma->dp_dip, size_t, psize); 463812f080e7Smrj } 463912f080e7Smrj 464012f080e7Smrj bcopy(fromaddr, toaddr, psize); 464112f080e7Smrj } 464212f080e7Smrj 464312f080e7Smrj /* 464412f080e7Smrj * decrement size until we're done, update our offset into the 464512f080e7Smrj * buffer, and get the next page size. 464612f080e7Smrj */ 464712f080e7Smrj size -= psize; 464812f080e7Smrj offset += psize; 464912f080e7Smrj psize = MIN(MMU_PAGESIZE, size); 465012f080e7Smrj 465112f080e7Smrj /* page offset is zero for the rest of this loop */ 465212f080e7Smrj poff = 0; 465312f080e7Smrj } 465412f080e7Smrj 465512f080e7Smrj return (DDI_SUCCESS); 465612f080e7Smrj } 465712f080e7Smrj 465820906b23SVikram Hegde /* 465920906b23SVikram Hegde * rootnex_dma_sync() 466020906b23SVikram Hegde * called from ddi_dma_sync() if DMP_NOSYNC is not set in hp->dmai_rflags. 466120906b23SVikram Hegde * We set DMP_NOSYNC if we're not using the copy buffer. If DMP_NOSYNC 466220906b23SVikram Hegde * is set, ddi_dma_sync() returns immediately passing back success. 466320906b23SVikram Hegde */ 466420906b23SVikram Hegde /*ARGSUSED*/ 466520906b23SVikram Hegde static int 466620906b23SVikram Hegde rootnex_dma_sync(dev_info_t *dip, dev_info_t *rdip, ddi_dma_handle_t handle, 466720906b23SVikram Hegde off_t off, size_t len, uint_t cache_flags) 466820906b23SVikram Hegde { 46693a634bfcSVikram Hegde #if defined(__amd64) && !defined(__xpv) 4670b51bbbf5SVikram Hegde if (IOMMU_USED(rdip)) { 467120906b23SVikram Hegde return (iommulib_nexdma_sync(dip, rdip, handle, off, len, 467220906b23SVikram Hegde cache_flags)); 467320906b23SVikram Hegde } 467420906b23SVikram Hegde #endif 467520906b23SVikram Hegde return (rootnex_coredma_sync(dip, rdip, handle, off, len, 467620906b23SVikram Hegde cache_flags)); 467720906b23SVikram Hegde } 467812f080e7Smrj 467912f080e7Smrj /* 468012f080e7Smrj * rootnex_valid_sync_parms() 468112f080e7Smrj * checks the parameters passed to sync to verify they are correct. 468212f080e7Smrj */ 468312f080e7Smrj static int 468412f080e7Smrj rootnex_valid_sync_parms(ddi_dma_impl_t *hp, rootnex_window_t *win, 468512f080e7Smrj off_t offset, size_t size, uint_t cache_flags) 468612f080e7Smrj { 468712f080e7Smrj off_t woffset; 468812f080e7Smrj 468912f080e7Smrj 469012f080e7Smrj /* 469112f080e7Smrj * the first part of the test to make sure the offset passed in is 469212f080e7Smrj * within the window. 469312f080e7Smrj */ 469412f080e7Smrj if (offset < win->wd_offset) { 469512f080e7Smrj return (DDI_FAILURE); 469612f080e7Smrj } 469712f080e7Smrj 469812f080e7Smrj /* 469912f080e7Smrj * second and last part of the test to make sure the offset and length 470012f080e7Smrj * passed in is within the window. 470112f080e7Smrj */ 470212f080e7Smrj woffset = offset - win->wd_offset; 470312f080e7Smrj if ((woffset + size) > win->wd_size) { 470412f080e7Smrj return (DDI_FAILURE); 470512f080e7Smrj } 470612f080e7Smrj 470712f080e7Smrj /* 470812f080e7Smrj * if we are sync'ing for the device, the DDI_DMA_WRITE flag should 470912f080e7Smrj * be set too. 471012f080e7Smrj */ 471112f080e7Smrj if ((cache_flags == DDI_DMA_SYNC_FORDEV) && 471212f080e7Smrj (hp->dmai_rflags & DDI_DMA_WRITE)) { 471312f080e7Smrj return (DDI_SUCCESS); 471412f080e7Smrj } 471512f080e7Smrj 471612f080e7Smrj /* 471712f080e7Smrj * at this point, either DDI_DMA_SYNC_FORCPU or DDI_DMA_SYNC_FORKERNEL 471812f080e7Smrj * should be set. Also DDI_DMA_READ should be set in the flags. 471912f080e7Smrj */ 472012f080e7Smrj if (((cache_flags == DDI_DMA_SYNC_FORCPU) || 472112f080e7Smrj (cache_flags == DDI_DMA_SYNC_FORKERNEL)) && 472212f080e7Smrj (hp->dmai_rflags & DDI_DMA_READ)) { 472312f080e7Smrj return (DDI_SUCCESS); 472412f080e7Smrj } 472512f080e7Smrj 472612f080e7Smrj return (DDI_FAILURE); 472712f080e7Smrj } 472812f080e7Smrj 472912f080e7Smrj 473012f080e7Smrj /*ARGSUSED*/ 473112f080e7Smrj static int 473220906b23SVikram Hegde rootnex_coredma_win(dev_info_t *dip, dev_info_t *rdip, ddi_dma_handle_t handle, 473312f080e7Smrj uint_t win, off_t *offp, size_t *lenp, ddi_dma_cookie_t *cookiep, 473412f080e7Smrj uint_t *ccountp) 473512f080e7Smrj { 473612f080e7Smrj rootnex_window_t *window; 473712f080e7Smrj rootnex_trim_t *trim; 473812f080e7Smrj ddi_dma_impl_t *hp; 473912f080e7Smrj rootnex_dma_t *dma; 474050200e77SFrank Van Der Linden ddi_dma_obj_t *dmao; 474112f080e7Smrj #if !defined(__amd64) 474212f080e7Smrj rootnex_sglinfo_t *sinfo; 474312f080e7Smrj rootnex_pgmap_t *pmap; 474412f080e7Smrj uint_t pidx; 474512f080e7Smrj uint_t pcnt; 474612f080e7Smrj off_t poff; 474712f080e7Smrj int i; 474812f080e7Smrj #endif 474912f080e7Smrj 475012f080e7Smrj 475112f080e7Smrj hp = (ddi_dma_impl_t *)handle; 475212f080e7Smrj dma = (rootnex_dma_t *)hp->dmai_private; 475312f080e7Smrj #if !defined(__amd64) 475412f080e7Smrj sinfo = &dma->dp_sglinfo; 475512f080e7Smrj #endif 475612f080e7Smrj 475712f080e7Smrj /* If we try and get a window which doesn't exist, return failure */ 475812f080e7Smrj if (win >= hp->dmai_nwin) { 4759ef4ab52fSFrank Van Der Linden ROOTNEX_DPROF_INC(&rootnex_cnt[ROOTNEX_CNT_GETWIN_FAIL]); 476012f080e7Smrj return (DDI_FAILURE); 476112f080e7Smrj } 476212f080e7Smrj 4763bd155b87SGarrett D'Amore dmao = dma->dp_dvma_used ? &dma->dp_dvma : &dma->dp_dma; 476450200e77SFrank Van Der Linden 476512f080e7Smrj /* 476612f080e7Smrj * if we don't have any windows, and they're asking for the first 476712f080e7Smrj * window, setup the cookie pointer to the first cookie in the bind. 476812f080e7Smrj * setup our return values, then increment the cookie since we return 476912f080e7Smrj * the first cookie on the stack. 477012f080e7Smrj */ 477112f080e7Smrj if (dma->dp_window == NULL) { 477212f080e7Smrj if (win != 0) { 4773ef4ab52fSFrank Van Der Linden ROOTNEX_DPROF_INC( 4774ef4ab52fSFrank Van Der Linden &rootnex_cnt[ROOTNEX_CNT_GETWIN_FAIL]); 477512f080e7Smrj return (DDI_FAILURE); 477612f080e7Smrj } 477712f080e7Smrj hp->dmai_cookie = dma->dp_cookies; 477812f080e7Smrj *offp = 0; 477950200e77SFrank Van Der Linden *lenp = dmao->dmao_size; 478012f080e7Smrj *ccountp = dma->dp_sglinfo.si_sgl_size; 478112f080e7Smrj *cookiep = hp->dmai_cookie[0]; 478212f080e7Smrj hp->dmai_cookie++; 478312f080e7Smrj return (DDI_SUCCESS); 478412f080e7Smrj } 478512f080e7Smrj 478612f080e7Smrj /* sync the old window before moving on to the new one */ 478712f080e7Smrj window = &dma->dp_window[dma->dp_current_win]; 478812f080e7Smrj if ((window->wd_dosync) && (hp->dmai_rflags & DDI_DMA_READ)) { 478994f1124eSVikram Hegde (void) rootnex_coredma_sync(dip, rdip, handle, 0, 0, 479012f080e7Smrj DDI_DMA_SYNC_FORCPU); 479112f080e7Smrj } 479212f080e7Smrj 479312f080e7Smrj #if !defined(__amd64) 479412f080e7Smrj /* 479512f080e7Smrj * before we move to the next window, if we need to re-map, unmap all 479612f080e7Smrj * the pages in this window. 479712f080e7Smrj */ 479812f080e7Smrj if (dma->dp_cb_remaping) { 479912f080e7Smrj /* 480012f080e7Smrj * If we switch to this window again, we'll need to map in 480112f080e7Smrj * on the fly next time. 480212f080e7Smrj */ 480312f080e7Smrj window->wd_remap_copybuf = B_TRUE; 480412f080e7Smrj 480512f080e7Smrj /* 480612f080e7Smrj * calculate the page index into the buffer where this window 480712f080e7Smrj * starts, and the number of pages this window takes up. 480812f080e7Smrj */ 480912f080e7Smrj pidx = (sinfo->si_buf_offset + window->wd_offset) >> 481012f080e7Smrj MMU_PAGESHIFT; 481112f080e7Smrj poff = (sinfo->si_buf_offset + window->wd_offset) & 481212f080e7Smrj MMU_PAGEOFFSET; 481312f080e7Smrj pcnt = mmu_btopr(window->wd_size + poff); 481412f080e7Smrj ASSERT((pidx + pcnt) <= sinfo->si_max_pages); 481512f080e7Smrj 481612f080e7Smrj /* unmap pages which are currently mapped in this window */ 481712f080e7Smrj for (i = 0; i < pcnt; i++) { 481812f080e7Smrj if (dma->dp_pgmap[pidx].pm_mapped) { 481912f080e7Smrj hat_unload(kas.a_hat, 482012f080e7Smrj dma->dp_pgmap[pidx].pm_kaddr, MMU_PAGESIZE, 482112f080e7Smrj HAT_UNLOAD); 482212f080e7Smrj dma->dp_pgmap[pidx].pm_mapped = B_FALSE; 482312f080e7Smrj } 482412f080e7Smrj pidx++; 482512f080e7Smrj } 482612f080e7Smrj } 482712f080e7Smrj #endif 482812f080e7Smrj 482912f080e7Smrj /* 483012f080e7Smrj * Move to the new window. 483112f080e7Smrj * NOTE: current_win must be set for sync to work right 483212f080e7Smrj */ 483312f080e7Smrj dma->dp_current_win = win; 483412f080e7Smrj window = &dma->dp_window[win]; 483512f080e7Smrj 483612f080e7Smrj /* if needed, adjust the first and/or last cookies for trim */ 483712f080e7Smrj trim = &window->wd_trim; 483812f080e7Smrj if (trim->tr_trim_first) { 4839843e1988Sjohnlev window->wd_first_cookie->dmac_laddress = trim->tr_first_paddr; 484012f080e7Smrj window->wd_first_cookie->dmac_size = trim->tr_first_size; 484112f080e7Smrj #if !defined(__amd64) 484212f080e7Smrj window->wd_first_cookie->dmac_type = 484312f080e7Smrj (window->wd_first_cookie->dmac_type & 484412f080e7Smrj ROOTNEX_USES_COPYBUF) + window->wd_offset; 484512f080e7Smrj #endif 484612f080e7Smrj if (trim->tr_first_copybuf_win) { 484712f080e7Smrj dma->dp_pgmap[trim->tr_first_pidx].pm_cbaddr = 484812f080e7Smrj trim->tr_first_cbaddr; 484912f080e7Smrj #if !defined(__amd64) 485012f080e7Smrj dma->dp_pgmap[trim->tr_first_pidx].pm_kaddr = 485112f080e7Smrj trim->tr_first_kaddr; 485212f080e7Smrj #endif 485312f080e7Smrj } 485412f080e7Smrj } 485512f080e7Smrj if (trim->tr_trim_last) { 4856843e1988Sjohnlev trim->tr_last_cookie->dmac_laddress = trim->tr_last_paddr; 485712f080e7Smrj trim->tr_last_cookie->dmac_size = trim->tr_last_size; 485812f080e7Smrj if (trim->tr_last_copybuf_win) { 485912f080e7Smrj dma->dp_pgmap[trim->tr_last_pidx].pm_cbaddr = 486012f080e7Smrj trim->tr_last_cbaddr; 486112f080e7Smrj #if !defined(__amd64) 486212f080e7Smrj dma->dp_pgmap[trim->tr_last_pidx].pm_kaddr = 486312f080e7Smrj trim->tr_last_kaddr; 486412f080e7Smrj #endif 486512f080e7Smrj } 486612f080e7Smrj } 486712f080e7Smrj 486812f080e7Smrj /* 486912f080e7Smrj * setup the cookie pointer to the first cookie in the window. setup 487012f080e7Smrj * our return values, then increment the cookie since we return the 487112f080e7Smrj * first cookie on the stack. 487212f080e7Smrj */ 487312f080e7Smrj hp->dmai_cookie = window->wd_first_cookie; 487412f080e7Smrj *offp = window->wd_offset; 487512f080e7Smrj *lenp = window->wd_size; 487612f080e7Smrj *ccountp = window->wd_cookie_cnt; 487712f080e7Smrj *cookiep = hp->dmai_cookie[0]; 487812f080e7Smrj hp->dmai_cookie++; 487912f080e7Smrj 488012f080e7Smrj #if !defined(__amd64) 488112f080e7Smrj /* re-map copybuf if required for this window */ 488212f080e7Smrj if (dma->dp_cb_remaping) { 488312f080e7Smrj /* 488412f080e7Smrj * calculate the page index into the buffer where this 488512f080e7Smrj * window starts. 488612f080e7Smrj */ 488712f080e7Smrj pidx = (sinfo->si_buf_offset + window->wd_offset) >> 488812f080e7Smrj MMU_PAGESHIFT; 488912f080e7Smrj ASSERT(pidx < sinfo->si_max_pages); 489012f080e7Smrj 489112f080e7Smrj /* 489212f080e7Smrj * the first page can get unmapped if it's shared with the 489312f080e7Smrj * previous window. Even if the rest of this window is already 489412f080e7Smrj * mapped in, we need to still check this one. 489512f080e7Smrj */ 489612f080e7Smrj pmap = &dma->dp_pgmap[pidx]; 489712f080e7Smrj if ((pmap->pm_uses_copybuf) && (pmap->pm_mapped == B_FALSE)) { 489812f080e7Smrj if (pmap->pm_pp != NULL) { 489912f080e7Smrj pmap->pm_mapped = B_TRUE; 490012f080e7Smrj i86_pp_map(pmap->pm_pp, pmap->pm_kaddr); 490112f080e7Smrj } else if (pmap->pm_vaddr != NULL) { 490212f080e7Smrj pmap->pm_mapped = B_TRUE; 490312f080e7Smrj i86_va_map(pmap->pm_vaddr, sinfo->si_asp, 490412f080e7Smrj pmap->pm_kaddr); 490512f080e7Smrj } 490612f080e7Smrj } 490712f080e7Smrj pidx++; 490812f080e7Smrj 490912f080e7Smrj /* map in the rest of the pages if required */ 491012f080e7Smrj if (window->wd_remap_copybuf) { 491112f080e7Smrj window->wd_remap_copybuf = B_FALSE; 491212f080e7Smrj 491312f080e7Smrj /* figure out many pages this window takes up */ 491412f080e7Smrj poff = (sinfo->si_buf_offset + window->wd_offset) & 491512f080e7Smrj MMU_PAGEOFFSET; 491612f080e7Smrj pcnt = mmu_btopr(window->wd_size + poff); 491712f080e7Smrj ASSERT(((pidx - 1) + pcnt) <= sinfo->si_max_pages); 491812f080e7Smrj 491912f080e7Smrj /* map pages which require it */ 492012f080e7Smrj for (i = 1; i < pcnt; i++) { 492112f080e7Smrj pmap = &dma->dp_pgmap[pidx]; 492212f080e7Smrj if (pmap->pm_uses_copybuf) { 492312f080e7Smrj ASSERT(pmap->pm_mapped == B_FALSE); 492412f080e7Smrj if (pmap->pm_pp != NULL) { 492512f080e7Smrj pmap->pm_mapped = B_TRUE; 492612f080e7Smrj i86_pp_map(pmap->pm_pp, 492712f080e7Smrj pmap->pm_kaddr); 492812f080e7Smrj } else if (pmap->pm_vaddr != NULL) { 492912f080e7Smrj pmap->pm_mapped = B_TRUE; 493012f080e7Smrj i86_va_map(pmap->pm_vaddr, 493112f080e7Smrj sinfo->si_asp, 493212f080e7Smrj pmap->pm_kaddr); 493312f080e7Smrj } 493412f080e7Smrj } 493512f080e7Smrj pidx++; 493612f080e7Smrj } 493712f080e7Smrj } 493812f080e7Smrj } 493912f080e7Smrj #endif 494012f080e7Smrj 494112f080e7Smrj /* if the new window uses the copy buffer, sync it for the device */ 494212f080e7Smrj if ((window->wd_dosync) && (hp->dmai_rflags & DDI_DMA_WRITE)) { 494394f1124eSVikram Hegde (void) rootnex_coredma_sync(dip, rdip, handle, 0, 0, 494412f080e7Smrj DDI_DMA_SYNC_FORDEV); 494512f080e7Smrj } 494612f080e7Smrj 494712f080e7Smrj return (DDI_SUCCESS); 494812f080e7Smrj } 494912f080e7Smrj 495020906b23SVikram Hegde /* 495120906b23SVikram Hegde * rootnex_dma_win() 495220906b23SVikram Hegde * called from ddi_dma_getwin() 495320906b23SVikram Hegde */ 495420906b23SVikram Hegde /*ARGSUSED*/ 495520906b23SVikram Hegde static int 495620906b23SVikram Hegde rootnex_dma_win(dev_info_t *dip, dev_info_t *rdip, ddi_dma_handle_t handle, 495720906b23SVikram Hegde uint_t win, off_t *offp, size_t *lenp, ddi_dma_cookie_t *cookiep, 495820906b23SVikram Hegde uint_t *ccountp) 495920906b23SVikram Hegde { 49603a634bfcSVikram Hegde #if defined(__amd64) && !defined(__xpv) 4961b51bbbf5SVikram Hegde if (IOMMU_USED(rdip)) { 496220906b23SVikram Hegde return (iommulib_nexdma_win(dip, rdip, handle, win, offp, lenp, 496320906b23SVikram Hegde cookiep, ccountp)); 496420906b23SVikram Hegde } 496520906b23SVikram Hegde #endif 496612f080e7Smrj 496720906b23SVikram Hegde return (rootnex_coredma_win(dip, rdip, handle, win, offp, lenp, 496820906b23SVikram Hegde cookiep, ccountp)); 496920906b23SVikram Hegde } 497012f080e7Smrj 4971ee7536e8SFrank Van Der Linden #if defined(__amd64) && !defined(__xpv) 497250200e77SFrank Van Der Linden /*ARGSUSED*/ 497350200e77SFrank Van Der Linden static int 497450200e77SFrank Van Der Linden rootnex_coredma_hdl_setprivate(dev_info_t *dip, dev_info_t *rdip, 497550200e77SFrank Van Der Linden ddi_dma_handle_t handle, void *v) 497650200e77SFrank Van Der Linden { 497750200e77SFrank Van Der Linden ddi_dma_impl_t *hp; 497850200e77SFrank Van Der Linden rootnex_dma_t *dma; 497950200e77SFrank Van Der Linden 498050200e77SFrank Van Der Linden hp = (ddi_dma_impl_t *)handle; 498150200e77SFrank Van Der Linden dma = (rootnex_dma_t *)hp->dmai_private; 498250200e77SFrank Van Der Linden dma->dp_iommu_private = v; 498350200e77SFrank Van Der Linden 498450200e77SFrank Van Der Linden return (DDI_SUCCESS); 498550200e77SFrank Van Der Linden } 498650200e77SFrank Van Der Linden 498750200e77SFrank Van Der Linden /*ARGSUSED*/ 498850200e77SFrank Van Der Linden static void * 498950200e77SFrank Van Der Linden rootnex_coredma_hdl_getprivate(dev_info_t *dip, dev_info_t *rdip, 499050200e77SFrank Van Der Linden ddi_dma_handle_t handle) 499150200e77SFrank Van Der Linden { 499250200e77SFrank Van Der Linden ddi_dma_impl_t *hp; 499350200e77SFrank Van Der Linden rootnex_dma_t *dma; 499450200e77SFrank Van Der Linden 499550200e77SFrank Van Der Linden hp = (ddi_dma_impl_t *)handle; 499650200e77SFrank Van Der Linden dma = (rootnex_dma_t *)hp->dmai_private; 499750200e77SFrank Van Der Linden 499850200e77SFrank Van Der Linden return (dma->dp_iommu_private); 499950200e77SFrank Van Der Linden } 5000ee7536e8SFrank Van Der Linden #endif 500150200e77SFrank Van Der Linden 500212f080e7Smrj /* 500312f080e7Smrj * ************************ 500412f080e7Smrj * obsoleted dma routines 500512f080e7Smrj * ************************ 500612f080e7Smrj */ 500712f080e7Smrj 5008b51bbbf5SVikram Hegde /* 5009b51bbbf5SVikram Hegde * rootnex_dma_map() 5010b51bbbf5SVikram Hegde * called from ddi_dma_setup() 5011b51bbbf5SVikram Hegde * NO IOMMU in 32 bit mode. The below routines doesn't work in 64 bit mode. 5012b51bbbf5SVikram Hegde */ 501312f080e7Smrj /* ARGSUSED */ 501412f080e7Smrj static int 5015b51bbbf5SVikram Hegde rootnex_dma_map(dev_info_t *dip, dev_info_t *rdip, 501620906b23SVikram Hegde struct ddi_dma_req *dmareq, ddi_dma_handle_t *handlep) 501712f080e7Smrj { 501812f080e7Smrj #if defined(__amd64) 501912f080e7Smrj /* 502012f080e7Smrj * this interface is not supported in 64-bit x86 kernel. See comment in 502112f080e7Smrj * rootnex_dma_mctl() 502212f080e7Smrj */ 502312f080e7Smrj return (DDI_DMA_NORESOURCES); 502412f080e7Smrj 502512f080e7Smrj #else /* 32-bit x86 kernel */ 502612f080e7Smrj ddi_dma_handle_t *lhandlep; 502712f080e7Smrj ddi_dma_handle_t lhandle; 502812f080e7Smrj ddi_dma_cookie_t cookie; 502912f080e7Smrj ddi_dma_attr_t dma_attr; 503012f080e7Smrj ddi_dma_lim_t *dma_lim; 503112f080e7Smrj uint_t ccnt; 503212f080e7Smrj int e; 503312f080e7Smrj 503412f080e7Smrj 503512f080e7Smrj /* 503612f080e7Smrj * if the driver is just testing to see if it's possible to do the bind, 503712f080e7Smrj * we'll use local state. Otherwise, use the handle pointer passed in. 503812f080e7Smrj */ 503912f080e7Smrj if (handlep == NULL) { 504012f080e7Smrj lhandlep = &lhandle; 504112f080e7Smrj } else { 504212f080e7Smrj lhandlep = handlep; 504312f080e7Smrj } 504412f080e7Smrj 504512f080e7Smrj /* convert the limit structure to a dma_attr one */ 504612f080e7Smrj dma_lim = dmareq->dmar_limits; 504712f080e7Smrj dma_attr.dma_attr_version = DMA_ATTR_V0; 504812f080e7Smrj dma_attr.dma_attr_addr_lo = dma_lim->dlim_addr_lo; 504912f080e7Smrj dma_attr.dma_attr_addr_hi = dma_lim->dlim_addr_hi; 505012f080e7Smrj dma_attr.dma_attr_minxfer = dma_lim->dlim_minxfer; 505112f080e7Smrj dma_attr.dma_attr_seg = dma_lim->dlim_adreg_max; 505212f080e7Smrj dma_attr.dma_attr_count_max = dma_lim->dlim_ctreg_max; 505312f080e7Smrj dma_attr.dma_attr_granular = dma_lim->dlim_granular; 505412f080e7Smrj dma_attr.dma_attr_sgllen = dma_lim->dlim_sgllen; 505512f080e7Smrj dma_attr.dma_attr_maxxfer = dma_lim->dlim_reqsize; 505612f080e7Smrj dma_attr.dma_attr_burstsizes = dma_lim->dlim_burstsizes; 505712f080e7Smrj dma_attr.dma_attr_align = MMU_PAGESIZE; 505812f080e7Smrj dma_attr.dma_attr_flags = 0; 505912f080e7Smrj 506012f080e7Smrj e = rootnex_dma_allochdl(dip, rdip, &dma_attr, dmareq->dmar_fp, 506112f080e7Smrj dmareq->dmar_arg, lhandlep); 506212f080e7Smrj if (e != DDI_SUCCESS) { 506312f080e7Smrj return (e); 506412f080e7Smrj } 506512f080e7Smrj 506612f080e7Smrj e = rootnex_dma_bindhdl(dip, rdip, *lhandlep, dmareq, &cookie, &ccnt); 506712f080e7Smrj if ((e != DDI_DMA_MAPPED) && (e != DDI_DMA_PARTIAL_MAP)) { 506812f080e7Smrj (void) rootnex_dma_freehdl(dip, rdip, *lhandlep); 506912f080e7Smrj return (e); 507012f080e7Smrj } 507112f080e7Smrj 507212f080e7Smrj /* 507312f080e7Smrj * if the driver is just testing to see if it's possible to do the bind, 507412f080e7Smrj * free up the local state and return the result. 507512f080e7Smrj */ 507612f080e7Smrj if (handlep == NULL) { 507712f080e7Smrj (void) rootnex_dma_unbindhdl(dip, rdip, *lhandlep); 507812f080e7Smrj (void) rootnex_dma_freehdl(dip, rdip, *lhandlep); 507912f080e7Smrj if (e == DDI_DMA_MAPPED) { 508012f080e7Smrj return (DDI_DMA_MAPOK); 508112f080e7Smrj } else { 508212f080e7Smrj return (DDI_DMA_NOMAPPING); 508312f080e7Smrj } 508412f080e7Smrj } 508512f080e7Smrj 508612f080e7Smrj return (e); 508712f080e7Smrj #endif /* defined(__amd64) */ 508812f080e7Smrj } 508912f080e7Smrj 509020906b23SVikram Hegde /* 509112f080e7Smrj * rootnex_dma_mctl() 509212f080e7Smrj * 5093b51bbbf5SVikram Hegde * No IOMMU in 32 bit mode. The below routine doesn't work in 64 bit mode. 509412f080e7Smrj */ 509512f080e7Smrj /* ARGSUSED */ 509612f080e7Smrj static int 5097b51bbbf5SVikram Hegde rootnex_dma_mctl(dev_info_t *dip, dev_info_t *rdip, ddi_dma_handle_t handle, 509812f080e7Smrj enum ddi_dma_ctlops request, off_t *offp, size_t *lenp, caddr_t *objpp, 509912f080e7Smrj uint_t cache_flags) 510012f080e7Smrj { 510112f080e7Smrj #if defined(__amd64) 510212f080e7Smrj /* 510312f080e7Smrj * DDI_DMA_SMEM_ALLOC & DDI_DMA_IOPB_ALLOC we're changed to have a 510412f080e7Smrj * common implementation in genunix, so they no longer have x86 510512f080e7Smrj * specific functionality which called into dma_ctl. 510612f080e7Smrj * 510712f080e7Smrj * The rest of the obsoleted interfaces were never supported in the 510812f080e7Smrj * 64-bit x86 kernel. For s10, the obsoleted DDI_DMA_SEGTOC interface 510912f080e7Smrj * was not ported to the x86 64-bit kernel do to serious x86 rootnex 511012f080e7Smrj * implementation issues. 511112f080e7Smrj * 511212f080e7Smrj * If you can't use DDI_DMA_SEGTOC; DDI_DMA_NEXTSEG, DDI_DMA_FREE, and 511312f080e7Smrj * DDI_DMA_NEXTWIN are useless since you can get to the cookie, so we 511412f080e7Smrj * reflect that now too... 511512f080e7Smrj * 511612f080e7Smrj * Even though we fixed the pointer problem in DDI_DMA_SEGTOC, we are 511712f080e7Smrj * not going to put this functionality into the 64-bit x86 kernel now. 511812f080e7Smrj * It wasn't ported to the 64-bit kernel for s10, no reason to change 511912f080e7Smrj * that in a future release. 512012f080e7Smrj */ 512112f080e7Smrj return (DDI_FAILURE); 512212f080e7Smrj 512312f080e7Smrj #else /* 32-bit x86 kernel */ 512412f080e7Smrj ddi_dma_cookie_t lcookie; 512512f080e7Smrj ddi_dma_cookie_t *cookie; 512612f080e7Smrj rootnex_window_t *window; 512712f080e7Smrj ddi_dma_impl_t *hp; 512812f080e7Smrj rootnex_dma_t *dma; 512912f080e7Smrj uint_t nwin; 513012f080e7Smrj uint_t ccnt; 513112f080e7Smrj size_t len; 513212f080e7Smrj off_t off; 513312f080e7Smrj int e; 513412f080e7Smrj 513512f080e7Smrj 513612f080e7Smrj /* 513712f080e7Smrj * DDI_DMA_SEGTOC, DDI_DMA_NEXTSEG, and DDI_DMA_NEXTWIN are a little 513812f080e7Smrj * hacky since were optimizing for the current interfaces and so we can 513912f080e7Smrj * cleanup the mess in genunix. Hopefully we will remove the this 514012f080e7Smrj * obsoleted routines someday soon. 514112f080e7Smrj */ 514212f080e7Smrj 514312f080e7Smrj switch (request) { 514412f080e7Smrj 514512f080e7Smrj case DDI_DMA_SEGTOC: /* ddi_dma_segtocookie() */ 514612f080e7Smrj hp = (ddi_dma_impl_t *)handle; 514712f080e7Smrj cookie = (ddi_dma_cookie_t *)objpp; 514812f080e7Smrj 514912f080e7Smrj /* 515012f080e7Smrj * convert segment to cookie. We don't distinguish between the 515112f080e7Smrj * two :-) 515212f080e7Smrj */ 515312f080e7Smrj *cookie = *hp->dmai_cookie; 515412f080e7Smrj *lenp = cookie->dmac_size; 515512f080e7Smrj *offp = cookie->dmac_type & ~ROOTNEX_USES_COPYBUF; 515612f080e7Smrj return (DDI_SUCCESS); 515712f080e7Smrj 515812f080e7Smrj case DDI_DMA_NEXTSEG: /* ddi_dma_nextseg() */ 515912f080e7Smrj hp = (ddi_dma_impl_t *)handle; 516012f080e7Smrj dma = (rootnex_dma_t *)hp->dmai_private; 516112f080e7Smrj 516212f080e7Smrj if ((*lenp != NULL) && ((uintptr_t)*lenp != (uintptr_t)hp)) { 516312f080e7Smrj return (DDI_DMA_STALE); 516412f080e7Smrj } 516512f080e7Smrj 516612f080e7Smrj /* handle the case where we don't have any windows */ 516712f080e7Smrj if (dma->dp_window == NULL) { 516812f080e7Smrj /* 516912f080e7Smrj * if seg == NULL, and we don't have any windows, 517012f080e7Smrj * return the first cookie in the sgl. 517112f080e7Smrj */ 517212f080e7Smrj if (*lenp == NULL) { 517312f080e7Smrj dma->dp_current_cookie = 0; 517412f080e7Smrj hp->dmai_cookie = dma->dp_cookies; 517512f080e7Smrj *objpp = (caddr_t)handle; 517612f080e7Smrj return (DDI_SUCCESS); 517712f080e7Smrj 517812f080e7Smrj /* if we have more cookies, go to the next cookie */ 517912f080e7Smrj } else { 518012f080e7Smrj if ((dma->dp_current_cookie + 1) >= 518112f080e7Smrj dma->dp_sglinfo.si_sgl_size) { 518212f080e7Smrj return (DDI_DMA_DONE); 518312f080e7Smrj } 518412f080e7Smrj dma->dp_current_cookie++; 518512f080e7Smrj hp->dmai_cookie++; 518612f080e7Smrj return (DDI_SUCCESS); 518712f080e7Smrj } 518812f080e7Smrj } 518912f080e7Smrj 519012f080e7Smrj /* We have one or more windows */ 519112f080e7Smrj window = &dma->dp_window[dma->dp_current_win]; 519212f080e7Smrj 519312f080e7Smrj /* 519412f080e7Smrj * if seg == NULL, return the first cookie in the current 519512f080e7Smrj * window 519612f080e7Smrj */ 519712f080e7Smrj if (*lenp == NULL) { 519812f080e7Smrj dma->dp_current_cookie = 0; 5199cf4e9a1dSmrj hp->dmai_cookie = window->wd_first_cookie; 520012f080e7Smrj 520112f080e7Smrj /* 520212f080e7Smrj * go to the next cookie in the window then see if we done with 520312f080e7Smrj * this window. 520412f080e7Smrj */ 520512f080e7Smrj } else { 520612f080e7Smrj if ((dma->dp_current_cookie + 1) >= 520712f080e7Smrj window->wd_cookie_cnt) { 520812f080e7Smrj return (DDI_DMA_DONE); 520912f080e7Smrj } 521012f080e7Smrj dma->dp_current_cookie++; 521112f080e7Smrj hp->dmai_cookie++; 521212f080e7Smrj } 521312f080e7Smrj *objpp = (caddr_t)handle; 521412f080e7Smrj return (DDI_SUCCESS); 521512f080e7Smrj 521612f080e7Smrj case DDI_DMA_NEXTWIN: /* ddi_dma_nextwin() */ 521712f080e7Smrj hp = (ddi_dma_impl_t *)handle; 521812f080e7Smrj dma = (rootnex_dma_t *)hp->dmai_private; 521912f080e7Smrj 522012f080e7Smrj if ((*offp != NULL) && ((uintptr_t)*offp != (uintptr_t)hp)) { 522112f080e7Smrj return (DDI_DMA_STALE); 522212f080e7Smrj } 522312f080e7Smrj 522412f080e7Smrj /* if win == NULL, return the first window in the bind */ 522512f080e7Smrj if (*offp == NULL) { 522612f080e7Smrj nwin = 0; 522712f080e7Smrj 522812f080e7Smrj /* 522912f080e7Smrj * else, go to the next window then see if we're done with all 523012f080e7Smrj * the windows. 523112f080e7Smrj */ 523212f080e7Smrj } else { 523312f080e7Smrj nwin = dma->dp_current_win + 1; 523412f080e7Smrj if (nwin >= hp->dmai_nwin) { 523512f080e7Smrj return (DDI_DMA_DONE); 523612f080e7Smrj } 523712f080e7Smrj } 523812f080e7Smrj 523912f080e7Smrj /* switch to the next window */ 524012f080e7Smrj e = rootnex_dma_win(dip, rdip, handle, nwin, &off, &len, 524112f080e7Smrj &lcookie, &ccnt); 524212f080e7Smrj ASSERT(e == DDI_SUCCESS); 524312f080e7Smrj if (e != DDI_SUCCESS) { 524412f080e7Smrj return (DDI_DMA_STALE); 524512f080e7Smrj } 524612f080e7Smrj 524712f080e7Smrj /* reset the cookie back to the first cookie in the window */ 524812f080e7Smrj if (dma->dp_window != NULL) { 524912f080e7Smrj window = &dma->dp_window[dma->dp_current_win]; 525012f080e7Smrj hp->dmai_cookie = window->wd_first_cookie; 525112f080e7Smrj } else { 525212f080e7Smrj hp->dmai_cookie = dma->dp_cookies; 525312f080e7Smrj } 525412f080e7Smrj 525512f080e7Smrj *objpp = (caddr_t)handle; 525612f080e7Smrj return (DDI_SUCCESS); 525712f080e7Smrj 525812f080e7Smrj case DDI_DMA_FREE: /* ddi_dma_free() */ 525912f080e7Smrj (void) rootnex_dma_unbindhdl(dip, rdip, handle); 526012f080e7Smrj (void) rootnex_dma_freehdl(dip, rdip, handle); 526112f080e7Smrj if (rootnex_state->r_dvma_call_list_id) { 526212f080e7Smrj ddi_run_callback(&rootnex_state->r_dvma_call_list_id); 526312f080e7Smrj } 526412f080e7Smrj return (DDI_SUCCESS); 526512f080e7Smrj 526612f080e7Smrj case DDI_DMA_IOPB_ALLOC: /* get contiguous DMA-able memory */ 526712f080e7Smrj case DDI_DMA_SMEM_ALLOC: /* get contiguous DMA-able memory */ 526812f080e7Smrj /* should never get here, handled in genunix */ 526912f080e7Smrj ASSERT(0); 527012f080e7Smrj return (DDI_FAILURE); 527112f080e7Smrj 527212f080e7Smrj case DDI_DMA_KVADDR: 527312f080e7Smrj case DDI_DMA_GETERR: 527412f080e7Smrj case DDI_DMA_COFF: 527512f080e7Smrj return (DDI_FAILURE); 527612f080e7Smrj } 527712f080e7Smrj 527812f080e7Smrj return (DDI_FAILURE); 527912f080e7Smrj #endif /* defined(__amd64) */ 52807c478bd9Sstevel@tonic-gate } 52817aec1d6eScindi 528220906b23SVikram Hegde /* 528300d0963fSdilpreet * ********* 528400d0963fSdilpreet * FMA Code 528500d0963fSdilpreet * ********* 528600d0963fSdilpreet */ 528700d0963fSdilpreet 528800d0963fSdilpreet /* 528900d0963fSdilpreet * rootnex_fm_init() 529000d0963fSdilpreet * FMA init busop 529100d0963fSdilpreet */ 52927aec1d6eScindi /* ARGSUSED */ 52937aec1d6eScindi static int 529400d0963fSdilpreet rootnex_fm_init(dev_info_t *dip, dev_info_t *tdip, int tcap, 529500d0963fSdilpreet ddi_iblock_cookie_t *ibc) 52967aec1d6eScindi { 529700d0963fSdilpreet *ibc = rootnex_state->r_err_ibc; 529800d0963fSdilpreet 529900d0963fSdilpreet return (ddi_system_fmcap); 530000d0963fSdilpreet } 530100d0963fSdilpreet 530200d0963fSdilpreet /* 530300d0963fSdilpreet * rootnex_dma_check() 530400d0963fSdilpreet * Function called after a dma fault occurred to find out whether the 530500d0963fSdilpreet * fault address is associated with a driver that is able to handle faults 530600d0963fSdilpreet * and recover from faults. 530700d0963fSdilpreet */ 530800d0963fSdilpreet /* ARGSUSED */ 530900d0963fSdilpreet static int 531000d0963fSdilpreet rootnex_dma_check(dev_info_t *dip, const void *handle, const void *addr, 531100d0963fSdilpreet const void *not_used) 531200d0963fSdilpreet { 531300d0963fSdilpreet rootnex_window_t *window; 531400d0963fSdilpreet uint64_t start_addr; 531500d0963fSdilpreet uint64_t fault_addr; 531600d0963fSdilpreet ddi_dma_impl_t *hp; 531700d0963fSdilpreet rootnex_dma_t *dma; 531800d0963fSdilpreet uint64_t end_addr; 531900d0963fSdilpreet size_t csize; 532000d0963fSdilpreet int i; 532100d0963fSdilpreet int j; 532200d0963fSdilpreet 532300d0963fSdilpreet 532400d0963fSdilpreet /* The driver has to set DDI_DMA_FLAGERR to recover from dma faults */ 532500d0963fSdilpreet hp = (ddi_dma_impl_t *)handle; 532600d0963fSdilpreet ASSERT(hp); 532700d0963fSdilpreet 532800d0963fSdilpreet dma = (rootnex_dma_t *)hp->dmai_private; 532900d0963fSdilpreet 533000d0963fSdilpreet /* Get the address that we need to search for */ 533100d0963fSdilpreet fault_addr = *(uint64_t *)addr; 533200d0963fSdilpreet 533300d0963fSdilpreet /* 533400d0963fSdilpreet * if we don't have any windows, we can just walk through all the 533500d0963fSdilpreet * cookies. 533600d0963fSdilpreet */ 533700d0963fSdilpreet if (dma->dp_window == NULL) { 533800d0963fSdilpreet /* for each cookie */ 533900d0963fSdilpreet for (i = 0; i < dma->dp_sglinfo.si_sgl_size; i++) { 534000d0963fSdilpreet /* 534100d0963fSdilpreet * if the faulted address is within the physical address 534200d0963fSdilpreet * range of the cookie, return DDI_FM_NONFATAL. 534300d0963fSdilpreet */ 534400d0963fSdilpreet if ((fault_addr >= dma->dp_cookies[i].dmac_laddress) && 534500d0963fSdilpreet (fault_addr <= (dma->dp_cookies[i].dmac_laddress + 534600d0963fSdilpreet dma->dp_cookies[i].dmac_size))) { 534700d0963fSdilpreet return (DDI_FM_NONFATAL); 534800d0963fSdilpreet } 534900d0963fSdilpreet } 535000d0963fSdilpreet 535100d0963fSdilpreet /* fault_addr not within this DMA handle */ 535200d0963fSdilpreet return (DDI_FM_UNKNOWN); 535300d0963fSdilpreet } 535400d0963fSdilpreet 535500d0963fSdilpreet /* we have mutiple windows, walk through each window */ 535600d0963fSdilpreet for (i = 0; i < hp->dmai_nwin; i++) { 535700d0963fSdilpreet window = &dma->dp_window[i]; 535800d0963fSdilpreet 535900d0963fSdilpreet /* Go through all the cookies in the window */ 536000d0963fSdilpreet for (j = 0; j < window->wd_cookie_cnt; j++) { 536100d0963fSdilpreet 536200d0963fSdilpreet start_addr = window->wd_first_cookie[j].dmac_laddress; 536300d0963fSdilpreet csize = window->wd_first_cookie[j].dmac_size; 536400d0963fSdilpreet 536500d0963fSdilpreet /* 536600d0963fSdilpreet * if we are trimming the first cookie in the window, 536700d0963fSdilpreet * and this is the first cookie, adjust the start 536800d0963fSdilpreet * address and size of the cookie to account for the 536900d0963fSdilpreet * trim. 537000d0963fSdilpreet */ 537100d0963fSdilpreet if (window->wd_trim.tr_trim_first && (j == 0)) { 537200d0963fSdilpreet start_addr = window->wd_trim.tr_first_paddr; 537300d0963fSdilpreet csize = window->wd_trim.tr_first_size; 537400d0963fSdilpreet } 537500d0963fSdilpreet 537600d0963fSdilpreet /* 537700d0963fSdilpreet * if we are trimming the last cookie in the window, 537800d0963fSdilpreet * and this is the last cookie, adjust the start 537900d0963fSdilpreet * address and size of the cookie to account for the 538000d0963fSdilpreet * trim. 538100d0963fSdilpreet */ 538200d0963fSdilpreet if (window->wd_trim.tr_trim_last && 538300d0963fSdilpreet (j == (window->wd_cookie_cnt - 1))) { 538400d0963fSdilpreet start_addr = window->wd_trim.tr_last_paddr; 538500d0963fSdilpreet csize = window->wd_trim.tr_last_size; 538600d0963fSdilpreet } 538700d0963fSdilpreet 538800d0963fSdilpreet end_addr = start_addr + csize; 538900d0963fSdilpreet 539000d0963fSdilpreet /* 53913a634bfcSVikram Hegde * if the faulted address is within the physical 53923a634bfcSVikram Hegde * address of the cookie, return DDI_FM_NONFATAL. 539300d0963fSdilpreet */ 539400d0963fSdilpreet if ((fault_addr >= start_addr) && 539500d0963fSdilpreet (fault_addr <= end_addr)) { 539600d0963fSdilpreet return (DDI_FM_NONFATAL); 539700d0963fSdilpreet } 539800d0963fSdilpreet } 539900d0963fSdilpreet } 540000d0963fSdilpreet 540100d0963fSdilpreet /* fault_addr not within this DMA handle */ 540200d0963fSdilpreet return (DDI_FM_UNKNOWN); 54037aec1d6eScindi } 54043a634bfcSVikram Hegde 54053a634bfcSVikram Hegde /*ARGSUSED*/ 54063a634bfcSVikram Hegde static int 54073a634bfcSVikram Hegde rootnex_quiesce(dev_info_t *dip) 54083a634bfcSVikram Hegde { 54093a634bfcSVikram Hegde #if defined(__amd64) && !defined(__xpv) 54103a634bfcSVikram Hegde return (immu_quiesce()); 54113a634bfcSVikram Hegde #else 54123a634bfcSVikram Hegde return (DDI_SUCCESS); 54133a634bfcSVikram Hegde #endif 54143a634bfcSVikram Hegde } 54153a634bfcSVikram Hegde 54163a634bfcSVikram Hegde #if defined(__xpv) 54173a634bfcSVikram Hegde void 54183a634bfcSVikram Hegde immu_init(void) 54193a634bfcSVikram Hegde { 54203a634bfcSVikram Hegde ; 54213a634bfcSVikram Hegde } 54223a634bfcSVikram Hegde 54233a634bfcSVikram Hegde void 54243a634bfcSVikram Hegde immu_startup(void) 54253a634bfcSVikram Hegde { 54263a634bfcSVikram Hegde ; 54273a634bfcSVikram Hegde } 54283a634bfcSVikram Hegde /*ARGSUSED*/ 54293a634bfcSVikram Hegde void 54303a634bfcSVikram Hegde immu_physmem_update(uint64_t addr, uint64_t size) 54313a634bfcSVikram Hegde { 54323a634bfcSVikram Hegde ; 54333a634bfcSVikram Hegde } 54343a634bfcSVikram Hegde #endif 5435