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 5aa042c4bSkchow * Common Development and Distribution License (the "License"). 6aa042c4bSkchow * 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 /* 22ae115bc7Smrj * Copyright 2007 Sun Microsystems, Inc. All rights reserved. 237c478bd9Sstevel@tonic-gate * Use is subject to license terms. 247c478bd9Sstevel@tonic-gate */ 257c478bd9Sstevel@tonic-gate 267c478bd9Sstevel@tonic-gate /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ 277c478bd9Sstevel@tonic-gate /* All Rights Reserved */ 287c478bd9Sstevel@tonic-gate 297c478bd9Sstevel@tonic-gate /* 307c478bd9Sstevel@tonic-gate * Portions of this source code were derived from Berkeley 4.3 BSD 317c478bd9Sstevel@tonic-gate * under license from the Regents of the University of California. 327c478bd9Sstevel@tonic-gate */ 337c478bd9Sstevel@tonic-gate 347c478bd9Sstevel@tonic-gate #pragma ident "%Z%%M% %I% %E% SMI" 357c478bd9Sstevel@tonic-gate 367c478bd9Sstevel@tonic-gate /* 377c478bd9Sstevel@tonic-gate * UNIX machine dependent virtual memory support. 387c478bd9Sstevel@tonic-gate */ 397c478bd9Sstevel@tonic-gate 407c478bd9Sstevel@tonic-gate #include <sys/types.h> 417c478bd9Sstevel@tonic-gate #include <sys/param.h> 427c478bd9Sstevel@tonic-gate #include <sys/systm.h> 437c478bd9Sstevel@tonic-gate #include <sys/user.h> 447c478bd9Sstevel@tonic-gate #include <sys/proc.h> 457c478bd9Sstevel@tonic-gate #include <sys/kmem.h> 467c478bd9Sstevel@tonic-gate #include <sys/vmem.h> 477c478bd9Sstevel@tonic-gate #include <sys/buf.h> 487c478bd9Sstevel@tonic-gate #include <sys/cpuvar.h> 497c478bd9Sstevel@tonic-gate #include <sys/lgrp.h> 507c478bd9Sstevel@tonic-gate #include <sys/disp.h> 517c478bd9Sstevel@tonic-gate #include <sys/vm.h> 527c478bd9Sstevel@tonic-gate #include <sys/mman.h> 537c478bd9Sstevel@tonic-gate #include <sys/vnode.h> 547c478bd9Sstevel@tonic-gate #include <sys/cred.h> 557c478bd9Sstevel@tonic-gate #include <sys/exec.h> 567c478bd9Sstevel@tonic-gate #include <sys/exechdr.h> 577c478bd9Sstevel@tonic-gate #include <sys/debug.h> 58ec25b48fSsusans #include <sys/vmsystm.h> 597c478bd9Sstevel@tonic-gate 607c478bd9Sstevel@tonic-gate #include <vm/hat.h> 617c478bd9Sstevel@tonic-gate #include <vm/as.h> 627c478bd9Sstevel@tonic-gate #include <vm/seg.h> 637c478bd9Sstevel@tonic-gate #include <vm/seg_kp.h> 647c478bd9Sstevel@tonic-gate #include <vm/seg_vn.h> 657c478bd9Sstevel@tonic-gate #include <vm/page.h> 667c478bd9Sstevel@tonic-gate #include <vm/seg_kmem.h> 677c478bd9Sstevel@tonic-gate #include <vm/seg_kpm.h> 687c478bd9Sstevel@tonic-gate #include <vm/vm_dep.h> 697c478bd9Sstevel@tonic-gate 707c478bd9Sstevel@tonic-gate #include <sys/cpu.h> 717c478bd9Sstevel@tonic-gate #include <sys/vm_machparam.h> 727c478bd9Sstevel@tonic-gate #include <sys/memlist.h> 737c478bd9Sstevel@tonic-gate #include <sys/bootconf.h> /* XXX the memlist stuff belongs in memlist_plat.h */ 747c478bd9Sstevel@tonic-gate #include <vm/hat_i86.h> 757c478bd9Sstevel@tonic-gate #include <sys/x86_archext.h> 767c478bd9Sstevel@tonic-gate #include <sys/elf_386.h> 777c478bd9Sstevel@tonic-gate #include <sys/cmn_err.h> 787c478bd9Sstevel@tonic-gate #include <sys/archsystm.h> 797c478bd9Sstevel@tonic-gate #include <sys/machsystm.h> 807c478bd9Sstevel@tonic-gate 817c478bd9Sstevel@tonic-gate #include <sys/vtrace.h> 827c478bd9Sstevel@tonic-gate #include <sys/ddidmareq.h> 837c478bd9Sstevel@tonic-gate #include <sys/promif.h> 847c478bd9Sstevel@tonic-gate #include <sys/memnode.h> 857c478bd9Sstevel@tonic-gate #include <sys/stack.h> 86*843e1988Sjohnlev #include <util/qsort.h> 87*843e1988Sjohnlev #include <sys/taskq.h> 88*843e1988Sjohnlev 89*843e1988Sjohnlev #ifdef __xpv 90*843e1988Sjohnlev 91*843e1988Sjohnlev #include <sys/hypervisor.h> 92*843e1988Sjohnlev #include <sys/xen_mmu.h> 93*843e1988Sjohnlev #include <sys/balloon_impl.h> 94*843e1988Sjohnlev 95*843e1988Sjohnlev /* 96*843e1988Sjohnlev * domain 0 pages usable for DMA are kept pre-allocated and kept in 97*843e1988Sjohnlev * distinct lists, ordered by increasing mfn. 98*843e1988Sjohnlev */ 99*843e1988Sjohnlev static kmutex_t io_pool_lock; 100*843e1988Sjohnlev static page_t *io_pool_4g; /* pool for 32 bit dma limited devices */ 101*843e1988Sjohnlev static page_t *io_pool_16m; /* pool for 24 bit dma limited legacy devices */ 102*843e1988Sjohnlev static long io_pool_cnt; 103*843e1988Sjohnlev static long io_pool_cnt_max = 0; 104*843e1988Sjohnlev #define DEFAULT_IO_POOL_MIN 128 105*843e1988Sjohnlev static long io_pool_cnt_min = DEFAULT_IO_POOL_MIN; 106*843e1988Sjohnlev static long io_pool_cnt_lowater = 0; 107*843e1988Sjohnlev static long io_pool_shrink_attempts; /* how many times did we try to shrink */ 108*843e1988Sjohnlev static long io_pool_shrinks; /* how many times did we really shrink */ 109*843e1988Sjohnlev static long io_pool_grows; /* how many times did we grow */ 110*843e1988Sjohnlev static mfn_t start_mfn = 1; 111*843e1988Sjohnlev static caddr_t io_pool_kva; /* use to alloc pages when needed */ 112*843e1988Sjohnlev 113*843e1988Sjohnlev static int create_contig_pfnlist(uint_t); 114*843e1988Sjohnlev 115*843e1988Sjohnlev /* 116*843e1988Sjohnlev * percentage of phys mem to hold in the i/o pool 117*843e1988Sjohnlev */ 118*843e1988Sjohnlev #define DEFAULT_IO_POOL_PCT 2 119*843e1988Sjohnlev static long io_pool_physmem_pct = DEFAULT_IO_POOL_PCT; 120*843e1988Sjohnlev static void page_io_pool_sub(page_t **, page_t *, page_t *); 121*843e1988Sjohnlev 122*843e1988Sjohnlev #endif /* __xpv */ 1237c478bd9Sstevel@tonic-gate 1245d07b933Sdp uint_t vac_colors = 1; 1257c478bd9Sstevel@tonic-gate 1267c478bd9Sstevel@tonic-gate int largepagesupport = 0; 1277c478bd9Sstevel@tonic-gate extern uint_t page_create_new; 1287c478bd9Sstevel@tonic-gate extern uint_t page_create_exists; 1297c478bd9Sstevel@tonic-gate extern uint_t page_create_putbacks; 1307c478bd9Sstevel@tonic-gate extern uint_t page_create_putbacks; 131ae115bc7Smrj /* 132ae115bc7Smrj * Allow users to disable the kernel's use of SSE. 133ae115bc7Smrj */ 134ae115bc7Smrj extern int use_sse_pagecopy, use_sse_pagezero; 1357c478bd9Sstevel@tonic-gate 136*843e1988Sjohnlev /* 137*843e1988Sjohnlev * combined memory ranges from mnode and memranges[] to manage single 138*843e1988Sjohnlev * mnode/mtype dimension in the page lists. 139*843e1988Sjohnlev */ 140*843e1988Sjohnlev typedef struct { 141*843e1988Sjohnlev pfn_t mnr_pfnlo; 142*843e1988Sjohnlev pfn_t mnr_pfnhi; 143*843e1988Sjohnlev int mnr_mnode; 144*843e1988Sjohnlev int mnr_memrange; /* index into memranges[] */ 145*843e1988Sjohnlev /* maintain page list stats */ 146*843e1988Sjohnlev pgcnt_t mnr_mt_clpgcnt; /* cache list cnt */ 147*843e1988Sjohnlev pgcnt_t mnr_mt_flpgcnt; /* free list cnt - small pages */ 148*843e1988Sjohnlev pgcnt_t mnr_mt_lgpgcnt; /* free list cnt - large pages */ 149*843e1988Sjohnlev #ifdef DEBUG 150*843e1988Sjohnlev struct mnr_mts { /* mnode/mtype szc stats */ 151*843e1988Sjohnlev pgcnt_t mnr_mts_pgcnt; 152*843e1988Sjohnlev int mnr_mts_colors; 153*843e1988Sjohnlev pgcnt_t *mnr_mtsc_pgcnt; 154*843e1988Sjohnlev } *mnr_mts; 155*843e1988Sjohnlev #endif 156*843e1988Sjohnlev } mnoderange_t; 157*843e1988Sjohnlev 158*843e1988Sjohnlev #define MEMRANGEHI(mtype) \ 159*843e1988Sjohnlev ((mtype > 0) ? memranges[mtype - 1] - 1: physmax) 160*843e1988Sjohnlev #define MEMRANGELO(mtype) (memranges[mtype]) 161*843e1988Sjohnlev 162*843e1988Sjohnlev #define MTYPE_FREEMEM(mt) \ 163*843e1988Sjohnlev (mnoderanges[mt].mnr_mt_clpgcnt + \ 164*843e1988Sjohnlev mnoderanges[mt].mnr_mt_flpgcnt + \ 165*843e1988Sjohnlev mnoderanges[mt].mnr_mt_lgpgcnt) 166*843e1988Sjohnlev 167*843e1988Sjohnlev /* 168*843e1988Sjohnlev * As the PC architecture evolved memory up was clumped into several 169*843e1988Sjohnlev * ranges for various historical I/O devices to do DMA. 170*843e1988Sjohnlev * < 16Meg - ISA bus 171*843e1988Sjohnlev * < 2Gig - ??? 172*843e1988Sjohnlev * < 4Gig - PCI bus or drivers that don't understand PAE mode 173*843e1988Sjohnlev * 174*843e1988Sjohnlev * These are listed in reverse order, so that we can skip over unused 175*843e1988Sjohnlev * ranges on machines with small memories. 176*843e1988Sjohnlev * 177*843e1988Sjohnlev * For now under the Hypervisor, we'll only ever have one memrange. 178*843e1988Sjohnlev */ 179*843e1988Sjohnlev #define PFN_4GIG 0x100000 180*843e1988Sjohnlev #define PFN_16MEG 0x1000 181*843e1988Sjohnlev static pfn_t arch_memranges[NUM_MEM_RANGES] = { 182*843e1988Sjohnlev PFN_4GIG, /* pfn range for 4G and above */ 183*843e1988Sjohnlev 0x80000, /* pfn range for 2G-4G */ 184*843e1988Sjohnlev PFN_16MEG, /* pfn range for 16M-2G */ 185*843e1988Sjohnlev 0x00000, /* pfn range for 0-16M */ 186*843e1988Sjohnlev }; 187*843e1988Sjohnlev pfn_t *memranges = &arch_memranges[0]; 188*843e1988Sjohnlev int nranges = NUM_MEM_RANGES; 189*843e1988Sjohnlev 190*843e1988Sjohnlev /* 191*843e1988Sjohnlev * This combines mem_node_config and memranges into one data 192*843e1988Sjohnlev * structure to be used for page list management. 193*843e1988Sjohnlev */ 194*843e1988Sjohnlev mnoderange_t *mnoderanges; 195*843e1988Sjohnlev int mnoderangecnt; 196*843e1988Sjohnlev int mtype4g; 197*843e1988Sjohnlev 198*843e1988Sjohnlev /* 199*843e1988Sjohnlev * 4g memory management variables for systems with more than 4g of memory: 200*843e1988Sjohnlev * 201*843e1988Sjohnlev * physical memory below 4g is required for 32bit dma devices and, currently, 202*843e1988Sjohnlev * for kmem memory. On systems with more than 4g of memory, the pool of memory 203*843e1988Sjohnlev * below 4g can be depleted without any paging activity given that there is 204*843e1988Sjohnlev * likely to be sufficient memory above 4g. 205*843e1988Sjohnlev * 206*843e1988Sjohnlev * physmax4g is set true if the largest pfn is over 4g. The rest of the 207*843e1988Sjohnlev * 4g memory management code is enabled only when physmax4g is true. 208*843e1988Sjohnlev * 209*843e1988Sjohnlev * maxmem4g is the count of the maximum number of pages on the page lists 210*843e1988Sjohnlev * with physical addresses below 4g. It can be a lot less then 4g given that 211*843e1988Sjohnlev * BIOS may reserve large chunks of space below 4g for hot plug pci devices, 212*843e1988Sjohnlev * agp aperture etc. 213*843e1988Sjohnlev * 214*843e1988Sjohnlev * freemem4g maintains the count of the number of available pages on the 215*843e1988Sjohnlev * page lists with physical addresses below 4g. 216*843e1988Sjohnlev * 217*843e1988Sjohnlev * DESFREE4G specifies the desired amount of below 4g memory. It defaults to 218*843e1988Sjohnlev * 6% (desfree4gshift = 4) of maxmem4g. 219*843e1988Sjohnlev * 220*843e1988Sjohnlev * RESTRICT4G_ALLOC returns true if freemem4g falls below DESFREE4G 221*843e1988Sjohnlev * and the amount of physical memory above 4g is greater than freemem4g. 222*843e1988Sjohnlev * In this case, page_get_* routines will restrict below 4g allocations 223*843e1988Sjohnlev * for requests that don't specifically require it. 224*843e1988Sjohnlev */ 225*843e1988Sjohnlev 226*843e1988Sjohnlev #define LOTSFREE4G (maxmem4g >> lotsfree4gshift) 227*843e1988Sjohnlev #define DESFREE4G (maxmem4g >> desfree4gshift) 228*843e1988Sjohnlev 229*843e1988Sjohnlev #define RESTRICT4G_ALLOC \ 230*843e1988Sjohnlev (physmax4g && (freemem4g < DESFREE4G) && ((freemem4g << 1) < freemem)) 2317c478bd9Sstevel@tonic-gate 232*843e1988Sjohnlev static pgcnt_t maxmem4g; 233*843e1988Sjohnlev static pgcnt_t freemem4g; 234*843e1988Sjohnlev static int physmax4g; 235*843e1988Sjohnlev static int desfree4gshift = 4; /* maxmem4g shift to derive DESFREE4G */ 236*843e1988Sjohnlev static int lotsfree4gshift = 3; 237*843e1988Sjohnlev 238*843e1988Sjohnlev /* 239*843e1988Sjohnlev * 16m memory management: 240*843e1988Sjohnlev * 241*843e1988Sjohnlev * reserve some amount of physical memory below 16m for legacy devices. 242*843e1988Sjohnlev * 243*843e1988Sjohnlev * RESTRICT16M_ALLOC returns true if an there are sufficient free pages above 244*843e1988Sjohnlev * 16m or if the 16m pool drops below DESFREE16M. 245*843e1988Sjohnlev * 246*843e1988Sjohnlev * In this case, general page allocations via page_get_{free,cache}list 247*843e1988Sjohnlev * routines will be restricted from allocating from the 16m pool. Allocations 248*843e1988Sjohnlev * that require specific pfn ranges (page_get_anylist) and PG_PANIC allocations 249*843e1988Sjohnlev * are not restricted. 250*843e1988Sjohnlev */ 251*843e1988Sjohnlev 252*843e1988Sjohnlev #define FREEMEM16M MTYPE_FREEMEM(0) 253*843e1988Sjohnlev #define DESFREE16M desfree16m 254*843e1988Sjohnlev #define RESTRICT16M_ALLOC(freemem, pgcnt, flags) \ 255*843e1988Sjohnlev ((freemem != 0) && ((flags & PG_PANIC) == 0) && \ 256*843e1988Sjohnlev ((freemem >= (FREEMEM16M)) || \ 257*843e1988Sjohnlev (FREEMEM16M < (DESFREE16M + pgcnt)))) 258*843e1988Sjohnlev 259*843e1988Sjohnlev static pgcnt_t desfree16m = 0x380; 260*843e1988Sjohnlev 261*843e1988Sjohnlev /* 262*843e1988Sjohnlev * This can be patched via /etc/system to allow old non-PAE aware device 263*843e1988Sjohnlev * drivers to use kmem_alloc'd memory on 32 bit systems with > 4Gig RAM. 264*843e1988Sjohnlev */ 265*843e1988Sjohnlev int restricted_kmemalloc = 0; 26607ad560dSkchow 2677c478bd9Sstevel@tonic-gate #ifdef VM_STATS 2687c478bd9Sstevel@tonic-gate struct { 2697c478bd9Sstevel@tonic-gate ulong_t pga_alloc; 2707c478bd9Sstevel@tonic-gate ulong_t pga_notfullrange; 2717c478bd9Sstevel@tonic-gate ulong_t pga_nulldmaattr; 2727c478bd9Sstevel@tonic-gate ulong_t pga_allocok; 2737c478bd9Sstevel@tonic-gate ulong_t pga_allocfailed; 2747c478bd9Sstevel@tonic-gate ulong_t pgma_alloc; 2757c478bd9Sstevel@tonic-gate ulong_t pgma_allocok; 2767c478bd9Sstevel@tonic-gate ulong_t pgma_allocfailed; 2777c478bd9Sstevel@tonic-gate ulong_t pgma_allocempty; 2787c478bd9Sstevel@tonic-gate } pga_vmstats; 2797c478bd9Sstevel@tonic-gate #endif 2807c478bd9Sstevel@tonic-gate 2817c478bd9Sstevel@tonic-gate uint_t mmu_page_sizes; 2827c478bd9Sstevel@tonic-gate 2837c478bd9Sstevel@tonic-gate /* How many page sizes the users can see */ 2847c478bd9Sstevel@tonic-gate uint_t mmu_exported_page_sizes; 2857c478bd9Sstevel@tonic-gate 286beb1bda0Sdavemq /* 287beb1bda0Sdavemq * Number of pages in 1 GB. Don't enable automatic large pages if we have 288beb1bda0Sdavemq * fewer than this many pages. 289beb1bda0Sdavemq */ 290ec25b48fSsusans pgcnt_t shm_lpg_min_physmem = 1 << (30 - MMU_PAGESHIFT); 291ec25b48fSsusans pgcnt_t privm_lpg_min_physmem = 1 << (30 - MMU_PAGESHIFT); 292ec25b48fSsusans 293ec25b48fSsusans /* 294ec25b48fSsusans * Maximum and default segment size tunables for user private 295ec25b48fSsusans * and shared anon memory, and user text and initialized data. 296ec25b48fSsusans * These can be patched via /etc/system to allow large pages 297ec25b48fSsusans * to be used for mapping application private and shared anon memory. 298ec25b48fSsusans */ 299ec25b48fSsusans size_t mcntl0_lpsize = MMU_PAGESIZE; 300ec25b48fSsusans size_t max_uheap_lpsize = MMU_PAGESIZE; 301ec25b48fSsusans size_t default_uheap_lpsize = MMU_PAGESIZE; 302ec25b48fSsusans size_t max_ustack_lpsize = MMU_PAGESIZE; 303ec25b48fSsusans size_t default_ustack_lpsize = MMU_PAGESIZE; 304ec25b48fSsusans size_t max_privmap_lpsize = MMU_PAGESIZE; 305ec25b48fSsusans size_t max_uidata_lpsize = MMU_PAGESIZE; 306ec25b48fSsusans size_t max_utext_lpsize = MMU_PAGESIZE; 307ec25b48fSsusans size_t max_shm_lpsize = MMU_PAGESIZE; 3087c478bd9Sstevel@tonic-gate 309*843e1988Sjohnlev 310*843e1988Sjohnlev /* 311*843e1988Sjohnlev * initialized by page_coloring_init(). 312*843e1988Sjohnlev */ 313*843e1988Sjohnlev uint_t page_colors; 314*843e1988Sjohnlev uint_t page_colors_mask; 315*843e1988Sjohnlev uint_t page_coloring_shift; 316*843e1988Sjohnlev int cpu_page_colors; 317*843e1988Sjohnlev static uint_t l2_colors; 318*843e1988Sjohnlev 319*843e1988Sjohnlev /* 320*843e1988Sjohnlev * Page freelists and cachelists are dynamically allocated once mnoderangecnt 321*843e1988Sjohnlev * and page_colors are calculated from the l2 cache n-way set size. Within a 322*843e1988Sjohnlev * mnode range, the page freelist and cachelist are hashed into bins based on 323*843e1988Sjohnlev * color. This makes it easier to search for a page within a specific memory 324*843e1988Sjohnlev * range. 325*843e1988Sjohnlev */ 326*843e1988Sjohnlev #define PAGE_COLORS_MIN 16 327*843e1988Sjohnlev 328*843e1988Sjohnlev page_t ****page_freelists; 329*843e1988Sjohnlev page_t ***page_cachelists; 330*843e1988Sjohnlev 331*843e1988Sjohnlev 332*843e1988Sjohnlev /* 333*843e1988Sjohnlev * Used by page layer to know about page sizes 334*843e1988Sjohnlev */ 335*843e1988Sjohnlev hw_pagesize_t hw_page_array[MAX_NUM_LEVEL + 1]; 336*843e1988Sjohnlev 337*843e1988Sjohnlev kmutex_t *fpc_mutex[NPC_MUTEX]; 338*843e1988Sjohnlev kmutex_t *cpc_mutex[NPC_MUTEX]; 339*843e1988Sjohnlev 340*843e1988Sjohnlev /* 341*843e1988Sjohnlev * Only let one thread at a time try to coalesce large pages, to 342*843e1988Sjohnlev * prevent them from working against each other. 343*843e1988Sjohnlev */ 344*843e1988Sjohnlev static kmutex_t contig_lock; 345*843e1988Sjohnlev #define CONTIG_LOCK() mutex_enter(&contig_lock); 346*843e1988Sjohnlev #define CONTIG_UNLOCK() mutex_exit(&contig_lock); 347*843e1988Sjohnlev 348*843e1988Sjohnlev #define PFN_16M (mmu_btop((uint64_t)0x1000000)) 349*843e1988Sjohnlev 3507c478bd9Sstevel@tonic-gate /* 3517c478bd9Sstevel@tonic-gate * Return the optimum page size for a given mapping 3527c478bd9Sstevel@tonic-gate */ 3537c478bd9Sstevel@tonic-gate /*ARGSUSED*/ 3547c478bd9Sstevel@tonic-gate size_t 355ec25b48fSsusans map_pgsz(int maptype, struct proc *p, caddr_t addr, size_t len, int memcntl) 3567c478bd9Sstevel@tonic-gate { 357ec25b48fSsusans level_t l = 0; 358ec25b48fSsusans size_t pgsz = MMU_PAGESIZE; 359ec25b48fSsusans size_t max_lpsize; 360ec25b48fSsusans uint_t mszc; 3617c478bd9Sstevel@tonic-gate 362ec25b48fSsusans ASSERT(maptype != MAPPGSZ_VA); 3637c478bd9Sstevel@tonic-gate 364ec25b48fSsusans if (maptype != MAPPGSZ_ISM && physmem < privm_lpg_min_physmem) { 365ec25b48fSsusans return (MMU_PAGESIZE); 366ec25b48fSsusans } 3677c478bd9Sstevel@tonic-gate 368ec25b48fSsusans switch (maptype) { 3697c478bd9Sstevel@tonic-gate case MAPPGSZ_HEAP: 370ec25b48fSsusans case MAPPGSZ_STK: 371ec25b48fSsusans max_lpsize = memcntl ? mcntl0_lpsize : (maptype == 372ec25b48fSsusans MAPPGSZ_HEAP ? max_uheap_lpsize : max_ustack_lpsize); 373ec25b48fSsusans if (max_lpsize == MMU_PAGESIZE) { 374ec25b48fSsusans return (MMU_PAGESIZE); 375ec25b48fSsusans } 376ec25b48fSsusans if (len == 0) { 377ec25b48fSsusans len = (maptype == MAPPGSZ_HEAP) ? p->p_brkbase + 378ec25b48fSsusans p->p_brksize - p->p_bssbase : p->p_stksize; 379ec25b48fSsusans } 380ec25b48fSsusans len = (maptype == MAPPGSZ_HEAP) ? MAX(len, 381ec25b48fSsusans default_uheap_lpsize) : MAX(len, default_ustack_lpsize); 382ec25b48fSsusans 3837c478bd9Sstevel@tonic-gate /* 3847c478bd9Sstevel@tonic-gate * use the pages size that best fits len 3857c478bd9Sstevel@tonic-gate */ 3867c478bd9Sstevel@tonic-gate for (l = mmu.max_page_level; l > 0; --l) { 387ec25b48fSsusans if (LEVEL_SIZE(l) > max_lpsize || len < LEVEL_SIZE(l)) { 3887c478bd9Sstevel@tonic-gate continue; 389ec25b48fSsusans } else { 390ec25b48fSsusans pgsz = LEVEL_SIZE(l); 391ec25b48fSsusans } 3927c478bd9Sstevel@tonic-gate break; 3937c478bd9Sstevel@tonic-gate } 394ec25b48fSsusans 395ec25b48fSsusans mszc = (maptype == MAPPGSZ_HEAP ? p->p_brkpageszc : 396ec25b48fSsusans p->p_stkpageszc); 397ec25b48fSsusans if (addr == 0 && (pgsz < hw_page_array[mszc].hp_size)) { 398ec25b48fSsusans pgsz = hw_page_array[mszc].hp_size; 399ec25b48fSsusans } 400ec25b48fSsusans return (pgsz); 4017c478bd9Sstevel@tonic-gate 4027c478bd9Sstevel@tonic-gate /* 4037c478bd9Sstevel@tonic-gate * for ISM use the 1st large page size. 4047c478bd9Sstevel@tonic-gate */ 4057c478bd9Sstevel@tonic-gate case MAPPGSZ_ISM: 4067c478bd9Sstevel@tonic-gate if (mmu.max_page_level == 0) 4077c478bd9Sstevel@tonic-gate return (MMU_PAGESIZE); 4087c478bd9Sstevel@tonic-gate return (LEVEL_SIZE(1)); 4097c478bd9Sstevel@tonic-gate } 410ec25b48fSsusans return (pgsz); 4117c478bd9Sstevel@tonic-gate } 4127c478bd9Sstevel@tonic-gate 413ec25b48fSsusans static uint_t 414ec25b48fSsusans map_szcvec(caddr_t addr, size_t size, uintptr_t off, size_t max_lpsize, 415ec25b48fSsusans size_t min_physmem) 4167c478bd9Sstevel@tonic-gate { 417ec25b48fSsusans caddr_t eaddr = addr + size; 418ec25b48fSsusans uint_t szcvec = 0; 419ec25b48fSsusans caddr_t raddr; 420ec25b48fSsusans caddr_t readdr; 4217c478bd9Sstevel@tonic-gate size_t pgsz; 422ec25b48fSsusans int i; 4237c478bd9Sstevel@tonic-gate 424ec25b48fSsusans if (physmem < min_physmem || max_lpsize <= MMU_PAGESIZE) { 4257c478bd9Sstevel@tonic-gate return (0); 4267c478bd9Sstevel@tonic-gate } 427ec25b48fSsusans 428ec25b48fSsusans for (i = mmu_page_sizes - 1; i > 0; i--) { 429ec25b48fSsusans pgsz = page_get_pagesize(i); 430ec25b48fSsusans if (pgsz > max_lpsize) { 431ec25b48fSsusans continue; 432ec25b48fSsusans } 433ec25b48fSsusans raddr = (caddr_t)P2ROUNDUP((uintptr_t)addr, pgsz); 434ec25b48fSsusans readdr = (caddr_t)P2ALIGN((uintptr_t)eaddr, pgsz); 435ec25b48fSsusans if (raddr < addr || raddr >= readdr) { 436ec25b48fSsusans continue; 437ec25b48fSsusans } 438ec25b48fSsusans if (P2PHASE((uintptr_t)addr ^ off, pgsz)) { 439ec25b48fSsusans continue; 440ec25b48fSsusans } 441ec25b48fSsusans /* 442ec25b48fSsusans * Set szcvec to the remaining page sizes. 443ec25b48fSsusans */ 444ec25b48fSsusans szcvec = ((1 << (i + 1)) - 1) & ~1; 445ec25b48fSsusans break; 4467c478bd9Sstevel@tonic-gate } 447ec25b48fSsusans return (szcvec); 4487c478bd9Sstevel@tonic-gate } 4497c478bd9Sstevel@tonic-gate 450ec25b48fSsusans /* 451ec25b48fSsusans * Return a bit vector of large page size codes that 452ec25b48fSsusans * can be used to map [addr, addr + len) region. 453ec25b48fSsusans */ 454ec25b48fSsusans /*ARGSUSED*/ 45507b65a64Saguzovsk uint_t 456ec25b48fSsusans map_pgszcvec(caddr_t addr, size_t size, uintptr_t off, int flags, int type, 457ec25b48fSsusans int memcntl) 45807b65a64Saguzovsk { 459ec25b48fSsusans size_t max_lpsize = mcntl0_lpsize; 46007b65a64Saguzovsk 461ec25b48fSsusans if (mmu.max_page_level == 0) 46207b65a64Saguzovsk return (0); 46307b65a64Saguzovsk 464ec25b48fSsusans if (flags & MAP_TEXT) { 465*843e1988Sjohnlev if (!memcntl) 466*843e1988Sjohnlev max_lpsize = max_utext_lpsize; 467*843e1988Sjohnlev return (map_szcvec(addr, size, off, max_lpsize, 468ec25b48fSsusans shm_lpg_min_physmem)); 469ec25b48fSsusans 470ec25b48fSsusans } else if (flags & MAP_INITDATA) { 471*843e1988Sjohnlev if (!memcntl) 472*843e1988Sjohnlev max_lpsize = max_uidata_lpsize; 473*843e1988Sjohnlev return (map_szcvec(addr, size, off, max_lpsize, 474ec25b48fSsusans privm_lpg_min_physmem)); 475ec25b48fSsusans 476ec25b48fSsusans } else if (type == MAPPGSZC_SHM) { 477*843e1988Sjohnlev if (!memcntl) 478*843e1988Sjohnlev max_lpsize = max_shm_lpsize; 479*843e1988Sjohnlev return (map_szcvec(addr, size, off, max_lpsize, 480ec25b48fSsusans shm_lpg_min_physmem)); 481ec25b48fSsusans 482ec25b48fSsusans } else if (type == MAPPGSZC_HEAP) { 483*843e1988Sjohnlev if (!memcntl) 484*843e1988Sjohnlev max_lpsize = max_uheap_lpsize; 485*843e1988Sjohnlev return (map_szcvec(addr, size, off, max_lpsize, 486ec25b48fSsusans privm_lpg_min_physmem)); 487ec25b48fSsusans 488ec25b48fSsusans } else if (type == MAPPGSZC_STACK) { 489*843e1988Sjohnlev if (!memcntl) 490*843e1988Sjohnlev max_lpsize = max_ustack_lpsize; 491*843e1988Sjohnlev return (map_szcvec(addr, size, off, max_lpsize, 492ec25b48fSsusans privm_lpg_min_physmem)); 493ec25b48fSsusans 494ec25b48fSsusans } else { 495*843e1988Sjohnlev if (!memcntl) 496*843e1988Sjohnlev max_lpsize = max_privmap_lpsize; 497*843e1988Sjohnlev return (map_szcvec(addr, size, off, max_lpsize, 498ec25b48fSsusans privm_lpg_min_physmem)); 49907b65a64Saguzovsk } 50007b65a64Saguzovsk } 50107b65a64Saguzovsk 5027c478bd9Sstevel@tonic-gate /* 5037c478bd9Sstevel@tonic-gate * Handle a pagefault. 5047c478bd9Sstevel@tonic-gate */ 5057c478bd9Sstevel@tonic-gate faultcode_t 5067c478bd9Sstevel@tonic-gate pagefault( 5077c478bd9Sstevel@tonic-gate caddr_t addr, 5087c478bd9Sstevel@tonic-gate enum fault_type type, 5097c478bd9Sstevel@tonic-gate enum seg_rw rw, 5107c478bd9Sstevel@tonic-gate int iskernel) 5117c478bd9Sstevel@tonic-gate { 5127c478bd9Sstevel@tonic-gate struct as *as; 5137c478bd9Sstevel@tonic-gate struct hat *hat; 5147c478bd9Sstevel@tonic-gate struct proc *p; 5157c478bd9Sstevel@tonic-gate kthread_t *t; 5167c478bd9Sstevel@tonic-gate faultcode_t res; 5177c478bd9Sstevel@tonic-gate caddr_t base; 5187c478bd9Sstevel@tonic-gate size_t len; 5197c478bd9Sstevel@tonic-gate int err; 5207c478bd9Sstevel@tonic-gate int mapped_red; 5217c478bd9Sstevel@tonic-gate uintptr_t ea; 5227c478bd9Sstevel@tonic-gate 5237c478bd9Sstevel@tonic-gate ASSERT_STACK_ALIGNED(); 5247c478bd9Sstevel@tonic-gate 5257c478bd9Sstevel@tonic-gate if (INVALID_VADDR(addr)) 5267c478bd9Sstevel@tonic-gate return (FC_NOMAP); 5277c478bd9Sstevel@tonic-gate 5287c478bd9Sstevel@tonic-gate mapped_red = segkp_map_red(); 5297c478bd9Sstevel@tonic-gate 5307c478bd9Sstevel@tonic-gate if (iskernel) { 5317c478bd9Sstevel@tonic-gate as = &kas; 5327c478bd9Sstevel@tonic-gate hat = as->a_hat; 5337c478bd9Sstevel@tonic-gate } else { 5347c478bd9Sstevel@tonic-gate t = curthread; 5357c478bd9Sstevel@tonic-gate p = ttoproc(t); 5367c478bd9Sstevel@tonic-gate as = p->p_as; 5377c478bd9Sstevel@tonic-gate hat = as->a_hat; 5387c478bd9Sstevel@tonic-gate } 5397c478bd9Sstevel@tonic-gate 5407c478bd9Sstevel@tonic-gate /* 5417c478bd9Sstevel@tonic-gate * Dispatch pagefault. 5427c478bd9Sstevel@tonic-gate */ 5437c478bd9Sstevel@tonic-gate res = as_fault(hat, as, addr, 1, type, rw); 5447c478bd9Sstevel@tonic-gate 5457c478bd9Sstevel@tonic-gate /* 5467c478bd9Sstevel@tonic-gate * If this isn't a potential unmapped hole in the user's 5477c478bd9Sstevel@tonic-gate * UNIX data or stack segments, just return status info. 5487c478bd9Sstevel@tonic-gate */ 5497c478bd9Sstevel@tonic-gate if (res != FC_NOMAP || iskernel) 5507c478bd9Sstevel@tonic-gate goto out; 5517c478bd9Sstevel@tonic-gate 5527c478bd9Sstevel@tonic-gate /* 5537c478bd9Sstevel@tonic-gate * Check to see if we happened to faulted on a currently unmapped 5547c478bd9Sstevel@tonic-gate * part of the UNIX data or stack segments. If so, create a zfod 5557c478bd9Sstevel@tonic-gate * mapping there and then try calling the fault routine again. 5567c478bd9Sstevel@tonic-gate */ 5577c478bd9Sstevel@tonic-gate base = p->p_brkbase; 5587c478bd9Sstevel@tonic-gate len = p->p_brksize; 5597c478bd9Sstevel@tonic-gate 5607c478bd9Sstevel@tonic-gate if (addr < base || addr >= base + len) { /* data seg? */ 5617c478bd9Sstevel@tonic-gate base = (caddr_t)p->p_usrstack - p->p_stksize; 5627c478bd9Sstevel@tonic-gate len = p->p_stksize; 5637c478bd9Sstevel@tonic-gate if (addr < base || addr >= p->p_usrstack) { /* stack seg? */ 5647c478bd9Sstevel@tonic-gate /* not in either UNIX data or stack segments */ 5657c478bd9Sstevel@tonic-gate res = FC_NOMAP; 5667c478bd9Sstevel@tonic-gate goto out; 5677c478bd9Sstevel@tonic-gate } 5687c478bd9Sstevel@tonic-gate } 5697c478bd9Sstevel@tonic-gate 5707c478bd9Sstevel@tonic-gate /* 5717c478bd9Sstevel@tonic-gate * the rest of this function implements a 3.X 4.X 5.X compatibility 5727c478bd9Sstevel@tonic-gate * This code is probably not needed anymore 5737c478bd9Sstevel@tonic-gate */ 5747c478bd9Sstevel@tonic-gate if (p->p_model == DATAMODEL_ILP32) { 5757c478bd9Sstevel@tonic-gate 5767c478bd9Sstevel@tonic-gate /* expand the gap to the page boundaries on each side */ 5777c478bd9Sstevel@tonic-gate ea = P2ROUNDUP((uintptr_t)base + len, MMU_PAGESIZE); 5787c478bd9Sstevel@tonic-gate base = (caddr_t)P2ALIGN((uintptr_t)base, MMU_PAGESIZE); 5797c478bd9Sstevel@tonic-gate len = ea - (uintptr_t)base; 5807c478bd9Sstevel@tonic-gate 5817c478bd9Sstevel@tonic-gate as_rangelock(as); 5827c478bd9Sstevel@tonic-gate if (as_gap(as, MMU_PAGESIZE, &base, &len, AH_CONTAIN, addr) == 5837c478bd9Sstevel@tonic-gate 0) { 5847c478bd9Sstevel@tonic-gate err = as_map(as, base, len, segvn_create, zfod_argsp); 5857c478bd9Sstevel@tonic-gate as_rangeunlock(as); 5867c478bd9Sstevel@tonic-gate if (err) { 5877c478bd9Sstevel@tonic-gate res = FC_MAKE_ERR(err); 5887c478bd9Sstevel@tonic-gate goto out; 5897c478bd9Sstevel@tonic-gate } 5907c478bd9Sstevel@tonic-gate } else { 5917c478bd9Sstevel@tonic-gate /* 5927c478bd9Sstevel@tonic-gate * This page is already mapped by another thread after 5937c478bd9Sstevel@tonic-gate * we returned from as_fault() above. We just fall 5947c478bd9Sstevel@tonic-gate * through as_fault() below. 5957c478bd9Sstevel@tonic-gate */ 5967c478bd9Sstevel@tonic-gate as_rangeunlock(as); 5977c478bd9Sstevel@tonic-gate } 5987c478bd9Sstevel@tonic-gate 5997c478bd9Sstevel@tonic-gate res = as_fault(hat, as, addr, 1, F_INVAL, rw); 6007c478bd9Sstevel@tonic-gate } 6017c478bd9Sstevel@tonic-gate 6027c478bd9Sstevel@tonic-gate out: 6037c478bd9Sstevel@tonic-gate if (mapped_red) 6047c478bd9Sstevel@tonic-gate segkp_unmap_red(); 6057c478bd9Sstevel@tonic-gate 6067c478bd9Sstevel@tonic-gate return (res); 6077c478bd9Sstevel@tonic-gate } 6087c478bd9Sstevel@tonic-gate 6097c478bd9Sstevel@tonic-gate void 6107c478bd9Sstevel@tonic-gate map_addr(caddr_t *addrp, size_t len, offset_t off, int vacalign, uint_t flags) 6117c478bd9Sstevel@tonic-gate { 6127c478bd9Sstevel@tonic-gate struct proc *p = curproc; 6137c478bd9Sstevel@tonic-gate caddr_t userlimit = (flags & _MAP_LOW32) ? 6147c478bd9Sstevel@tonic-gate (caddr_t)_userlimit32 : p->p_as->a_userlimit; 6157c478bd9Sstevel@tonic-gate 6167c478bd9Sstevel@tonic-gate map_addr_proc(addrp, len, off, vacalign, userlimit, curproc, flags); 6177c478bd9Sstevel@tonic-gate } 6187c478bd9Sstevel@tonic-gate 6197c478bd9Sstevel@tonic-gate /*ARGSUSED*/ 6207c478bd9Sstevel@tonic-gate int 6217c478bd9Sstevel@tonic-gate map_addr_vacalign_check(caddr_t addr, u_offset_t off) 6227c478bd9Sstevel@tonic-gate { 6237c478bd9Sstevel@tonic-gate return (0); 6247c478bd9Sstevel@tonic-gate } 6257c478bd9Sstevel@tonic-gate 6267c478bd9Sstevel@tonic-gate /* 6277c478bd9Sstevel@tonic-gate * map_addr_proc() is the routine called when the system is to 6287c478bd9Sstevel@tonic-gate * choose an address for the user. We will pick an address 629ae115bc7Smrj * range which is the highest available below userlimit. 6307c478bd9Sstevel@tonic-gate * 6317c478bd9Sstevel@tonic-gate * addrp is a value/result parameter. 6327c478bd9Sstevel@tonic-gate * On input it is a hint from the user to be used in a completely 6337c478bd9Sstevel@tonic-gate * machine dependent fashion. We decide to completely ignore this hint. 6347c478bd9Sstevel@tonic-gate * 6357c478bd9Sstevel@tonic-gate * On output it is NULL if no address can be found in the current 6367c478bd9Sstevel@tonic-gate * processes address space or else an address that is currently 6377c478bd9Sstevel@tonic-gate * not mapped for len bytes with a page of red zone on either side. 6387c478bd9Sstevel@tonic-gate * 6397c478bd9Sstevel@tonic-gate * align is not needed on x86 (it's for viturally addressed caches) 6407c478bd9Sstevel@tonic-gate */ 6417c478bd9Sstevel@tonic-gate /*ARGSUSED*/ 6427c478bd9Sstevel@tonic-gate void 6437c478bd9Sstevel@tonic-gate map_addr_proc( 6447c478bd9Sstevel@tonic-gate caddr_t *addrp, 6457c478bd9Sstevel@tonic-gate size_t len, 6467c478bd9Sstevel@tonic-gate offset_t off, 6477c478bd9Sstevel@tonic-gate int vacalign, 6487c478bd9Sstevel@tonic-gate caddr_t userlimit, 6497c478bd9Sstevel@tonic-gate struct proc *p, 6507c478bd9Sstevel@tonic-gate uint_t flags) 6517c478bd9Sstevel@tonic-gate { 6527c478bd9Sstevel@tonic-gate struct as *as = p->p_as; 6537c478bd9Sstevel@tonic-gate caddr_t addr; 6547c478bd9Sstevel@tonic-gate caddr_t base; 6557c478bd9Sstevel@tonic-gate size_t slen; 6567c478bd9Sstevel@tonic-gate size_t align_amount; 6577c478bd9Sstevel@tonic-gate 6587c478bd9Sstevel@tonic-gate ASSERT32(userlimit == as->a_userlimit); 6597c478bd9Sstevel@tonic-gate 6607c478bd9Sstevel@tonic-gate base = p->p_brkbase; 6617c478bd9Sstevel@tonic-gate #if defined(__amd64) 6627c478bd9Sstevel@tonic-gate /* 6637c478bd9Sstevel@tonic-gate * XX64 Yes, this needs more work. 6647c478bd9Sstevel@tonic-gate */ 6657c478bd9Sstevel@tonic-gate if (p->p_model == DATAMODEL_NATIVE) { 6667c478bd9Sstevel@tonic-gate if (userlimit < as->a_userlimit) { 6677c478bd9Sstevel@tonic-gate /* 6687c478bd9Sstevel@tonic-gate * This happens when a program wants to map 6697c478bd9Sstevel@tonic-gate * something in a range that's accessible to a 6707c478bd9Sstevel@tonic-gate * program in a smaller address space. For example, 6717c478bd9Sstevel@tonic-gate * a 64-bit program calling mmap32(2) to guarantee 6727c478bd9Sstevel@tonic-gate * that the returned address is below 4Gbytes. 6737c478bd9Sstevel@tonic-gate */ 6747c478bd9Sstevel@tonic-gate ASSERT((uintptr_t)userlimit < ADDRESS_C(0xffffffff)); 6757c478bd9Sstevel@tonic-gate 6767c478bd9Sstevel@tonic-gate if (userlimit > base) 6777c478bd9Sstevel@tonic-gate slen = userlimit - base; 6787c478bd9Sstevel@tonic-gate else { 6797c478bd9Sstevel@tonic-gate *addrp = NULL; 6807c478bd9Sstevel@tonic-gate return; 6817c478bd9Sstevel@tonic-gate } 6827c478bd9Sstevel@tonic-gate } else { 6837c478bd9Sstevel@tonic-gate /* 6847c478bd9Sstevel@tonic-gate * XX64 This layout is probably wrong .. but in 6857c478bd9Sstevel@tonic-gate * the event we make the amd64 address space look 6867c478bd9Sstevel@tonic-gate * like sparcv9 i.e. with the stack -above- the 6877c478bd9Sstevel@tonic-gate * heap, this bit of code might even be correct. 6887c478bd9Sstevel@tonic-gate */ 6897c478bd9Sstevel@tonic-gate slen = p->p_usrstack - base - 6907c478bd9Sstevel@tonic-gate (((size_t)rctl_enforced_value( 6917c478bd9Sstevel@tonic-gate rctlproc_legacy[RLIMIT_STACK], 6927c478bd9Sstevel@tonic-gate p->p_rctls, p) + PAGEOFFSET) & PAGEMASK); 6937c478bd9Sstevel@tonic-gate } 6947c478bd9Sstevel@tonic-gate } else 6957c478bd9Sstevel@tonic-gate #endif 6967c478bd9Sstevel@tonic-gate slen = userlimit - base; 6977c478bd9Sstevel@tonic-gate 6987c478bd9Sstevel@tonic-gate len = (len + PAGEOFFSET) & PAGEMASK; 6997c478bd9Sstevel@tonic-gate 7007c478bd9Sstevel@tonic-gate /* 7017c478bd9Sstevel@tonic-gate * Redzone for each side of the request. This is done to leave 7027c478bd9Sstevel@tonic-gate * one page unmapped between segments. This is not required, but 7037c478bd9Sstevel@tonic-gate * it's useful for the user because if their program strays across 7047c478bd9Sstevel@tonic-gate * a segment boundary, it will catch a fault immediately making 7057c478bd9Sstevel@tonic-gate * debugging a little easier. 7067c478bd9Sstevel@tonic-gate */ 7077c478bd9Sstevel@tonic-gate len += 2 * MMU_PAGESIZE; 7087c478bd9Sstevel@tonic-gate 7097c478bd9Sstevel@tonic-gate /* 7107c478bd9Sstevel@tonic-gate * figure out what the alignment should be 7117c478bd9Sstevel@tonic-gate * 7127c478bd9Sstevel@tonic-gate * XX64 -- is there an ELF_AMD64_MAXPGSZ or is it the same???? 7137c478bd9Sstevel@tonic-gate */ 7147c478bd9Sstevel@tonic-gate if (len <= ELF_386_MAXPGSZ) { 7157c478bd9Sstevel@tonic-gate /* 7167c478bd9Sstevel@tonic-gate * Align virtual addresses to ensure that ELF shared libraries 7177c478bd9Sstevel@tonic-gate * are mapped with the appropriate alignment constraints by 7187c478bd9Sstevel@tonic-gate * the run-time linker. 7197c478bd9Sstevel@tonic-gate */ 7207c478bd9Sstevel@tonic-gate align_amount = ELF_386_MAXPGSZ; 7217c478bd9Sstevel@tonic-gate } else { 7227c478bd9Sstevel@tonic-gate int l = mmu.max_page_level; 7237c478bd9Sstevel@tonic-gate 7247c478bd9Sstevel@tonic-gate while (l && len < LEVEL_SIZE(l)) 7257c478bd9Sstevel@tonic-gate --l; 7267c478bd9Sstevel@tonic-gate 7277c478bd9Sstevel@tonic-gate align_amount = LEVEL_SIZE(l); 7287c478bd9Sstevel@tonic-gate } 7297c478bd9Sstevel@tonic-gate 7307c478bd9Sstevel@tonic-gate if ((flags & MAP_ALIGN) && ((uintptr_t)*addrp > align_amount)) 7317c478bd9Sstevel@tonic-gate align_amount = (uintptr_t)*addrp; 7327c478bd9Sstevel@tonic-gate 7337c478bd9Sstevel@tonic-gate len += align_amount; 7347c478bd9Sstevel@tonic-gate 7357c478bd9Sstevel@tonic-gate /* 7367c478bd9Sstevel@tonic-gate * Look for a large enough hole starting below userlimit. 7377c478bd9Sstevel@tonic-gate * After finding it, use the upper part. Addition of PAGESIZE 7387c478bd9Sstevel@tonic-gate * is for the redzone as described above. 7397c478bd9Sstevel@tonic-gate */ 7407c478bd9Sstevel@tonic-gate if (as_gap(as, len, &base, &slen, AH_HI, NULL) == 0) { 7417c478bd9Sstevel@tonic-gate caddr_t as_addr; 7427c478bd9Sstevel@tonic-gate 7437c478bd9Sstevel@tonic-gate addr = base + slen - len + MMU_PAGESIZE; 7447c478bd9Sstevel@tonic-gate as_addr = addr; 7457c478bd9Sstevel@tonic-gate /* 7467c478bd9Sstevel@tonic-gate * Round address DOWN to the alignment amount, 7477c478bd9Sstevel@tonic-gate * add the offset, and if this address is less 7487c478bd9Sstevel@tonic-gate * than the original address, add alignment amount. 7497c478bd9Sstevel@tonic-gate */ 7507c478bd9Sstevel@tonic-gate addr = (caddr_t)((uintptr_t)addr & (~(align_amount - 1))); 7517c478bd9Sstevel@tonic-gate addr += (uintptr_t)(off & (align_amount - 1)); 7527c478bd9Sstevel@tonic-gate if (addr < as_addr) 7537c478bd9Sstevel@tonic-gate addr += align_amount; 7547c478bd9Sstevel@tonic-gate 7557c478bd9Sstevel@tonic-gate ASSERT(addr <= (as_addr + align_amount)); 7567c478bd9Sstevel@tonic-gate ASSERT(((uintptr_t)addr & (align_amount - 1)) == 7577c478bd9Sstevel@tonic-gate ((uintptr_t)(off & (align_amount - 1)))); 7587c478bd9Sstevel@tonic-gate *addrp = addr; 7597c478bd9Sstevel@tonic-gate } else { 7607c478bd9Sstevel@tonic-gate *addrp = NULL; /* no more virtual space */ 7617c478bd9Sstevel@tonic-gate } 7627c478bd9Sstevel@tonic-gate } 7637c478bd9Sstevel@tonic-gate 7647c478bd9Sstevel@tonic-gate /* 7657c478bd9Sstevel@tonic-gate * Determine whether [base, base+len] contains a valid range of 7667c478bd9Sstevel@tonic-gate * addresses at least minlen long. base and len are adjusted if 7677c478bd9Sstevel@tonic-gate * required to provide a valid range. 7687c478bd9Sstevel@tonic-gate */ 7697c478bd9Sstevel@tonic-gate /*ARGSUSED3*/ 7707c478bd9Sstevel@tonic-gate int 7717c478bd9Sstevel@tonic-gate valid_va_range(caddr_t *basep, size_t *lenp, size_t minlen, int dir) 7727c478bd9Sstevel@tonic-gate { 7737c478bd9Sstevel@tonic-gate uintptr_t hi, lo; 7747c478bd9Sstevel@tonic-gate 7757c478bd9Sstevel@tonic-gate lo = (uintptr_t)*basep; 7767c478bd9Sstevel@tonic-gate hi = lo + *lenp; 7777c478bd9Sstevel@tonic-gate 7787c478bd9Sstevel@tonic-gate /* 7797c478bd9Sstevel@tonic-gate * If hi rolled over the top, try cutting back. 7807c478bd9Sstevel@tonic-gate */ 7817c478bd9Sstevel@tonic-gate if (hi < lo) { 7827c478bd9Sstevel@tonic-gate if (0 - lo + hi < minlen) 7837c478bd9Sstevel@tonic-gate return (0); 7847c478bd9Sstevel@tonic-gate if (0 - lo < minlen) 7857c478bd9Sstevel@tonic-gate return (0); 7867c478bd9Sstevel@tonic-gate *lenp = 0 - lo; 7877c478bd9Sstevel@tonic-gate } else if (hi - lo < minlen) { 7887c478bd9Sstevel@tonic-gate return (0); 7897c478bd9Sstevel@tonic-gate } 7907c478bd9Sstevel@tonic-gate #if defined(__amd64) 7917c478bd9Sstevel@tonic-gate /* 7927c478bd9Sstevel@tonic-gate * Deal with a possible hole in the address range between 7937c478bd9Sstevel@tonic-gate * hole_start and hole_end that should never be mapped. 7947c478bd9Sstevel@tonic-gate */ 7957c478bd9Sstevel@tonic-gate if (lo < hole_start) { 7967c478bd9Sstevel@tonic-gate if (hi > hole_start) { 7977c478bd9Sstevel@tonic-gate if (hi < hole_end) { 7987c478bd9Sstevel@tonic-gate hi = hole_start; 7997c478bd9Sstevel@tonic-gate } else { 8007c478bd9Sstevel@tonic-gate /* lo < hole_start && hi >= hole_end */ 8017c478bd9Sstevel@tonic-gate if (dir == AH_LO) { 8027c478bd9Sstevel@tonic-gate /* 8037c478bd9Sstevel@tonic-gate * prefer lowest range 8047c478bd9Sstevel@tonic-gate */ 8057c478bd9Sstevel@tonic-gate if (hole_start - lo >= minlen) 8067c478bd9Sstevel@tonic-gate hi = hole_start; 8077c478bd9Sstevel@tonic-gate else if (hi - hole_end >= minlen) 8087c478bd9Sstevel@tonic-gate lo = hole_end; 8097c478bd9Sstevel@tonic-gate else 8107c478bd9Sstevel@tonic-gate return (0); 8117c478bd9Sstevel@tonic-gate } else { 8127c478bd9Sstevel@tonic-gate /* 8137c478bd9Sstevel@tonic-gate * prefer highest range 8147c478bd9Sstevel@tonic-gate */ 8157c478bd9Sstevel@tonic-gate if (hi - hole_end >= minlen) 8167c478bd9Sstevel@tonic-gate lo = hole_end; 8177c478bd9Sstevel@tonic-gate else if (hole_start - lo >= minlen) 8187c478bd9Sstevel@tonic-gate hi = hole_start; 8197c478bd9Sstevel@tonic-gate else 8207c478bd9Sstevel@tonic-gate return (0); 8217c478bd9Sstevel@tonic-gate } 8227c478bd9Sstevel@tonic-gate } 8237c478bd9Sstevel@tonic-gate } 8247c478bd9Sstevel@tonic-gate } else { 8257c478bd9Sstevel@tonic-gate /* lo >= hole_start */ 8267c478bd9Sstevel@tonic-gate if (hi < hole_end) 8277c478bd9Sstevel@tonic-gate return (0); 8287c478bd9Sstevel@tonic-gate if (lo < hole_end) 8297c478bd9Sstevel@tonic-gate lo = hole_end; 8307c478bd9Sstevel@tonic-gate } 8317c478bd9Sstevel@tonic-gate 8327c478bd9Sstevel@tonic-gate if (hi - lo < minlen) 8337c478bd9Sstevel@tonic-gate return (0); 8347c478bd9Sstevel@tonic-gate 8357c478bd9Sstevel@tonic-gate *basep = (caddr_t)lo; 8367c478bd9Sstevel@tonic-gate *lenp = hi - lo; 8377c478bd9Sstevel@tonic-gate #endif 8387c478bd9Sstevel@tonic-gate return (1); 8397c478bd9Sstevel@tonic-gate } 8407c478bd9Sstevel@tonic-gate 8417c478bd9Sstevel@tonic-gate /* 8427c478bd9Sstevel@tonic-gate * Determine whether [addr, addr+len] are valid user addresses. 8437c478bd9Sstevel@tonic-gate */ 8447c478bd9Sstevel@tonic-gate /*ARGSUSED*/ 8457c478bd9Sstevel@tonic-gate int 8467c478bd9Sstevel@tonic-gate valid_usr_range(caddr_t addr, size_t len, uint_t prot, struct as *as, 8477c478bd9Sstevel@tonic-gate caddr_t userlimit) 8487c478bd9Sstevel@tonic-gate { 8497c478bd9Sstevel@tonic-gate caddr_t eaddr = addr + len; 8507c478bd9Sstevel@tonic-gate 8517c478bd9Sstevel@tonic-gate if (eaddr <= addr || addr >= userlimit || eaddr > userlimit) 8527c478bd9Sstevel@tonic-gate return (RANGE_BADADDR); 8537c478bd9Sstevel@tonic-gate 8547c478bd9Sstevel@tonic-gate #if defined(__amd64) 8557c478bd9Sstevel@tonic-gate /* 8567c478bd9Sstevel@tonic-gate * Check for the VA hole 8577c478bd9Sstevel@tonic-gate */ 8587c478bd9Sstevel@tonic-gate if (eaddr > (caddr_t)hole_start && addr < (caddr_t)hole_end) 8597c478bd9Sstevel@tonic-gate return (RANGE_BADADDR); 8607c478bd9Sstevel@tonic-gate #endif 8617c478bd9Sstevel@tonic-gate 8627c478bd9Sstevel@tonic-gate return (RANGE_OKAY); 8637c478bd9Sstevel@tonic-gate } 8647c478bd9Sstevel@tonic-gate 8657c478bd9Sstevel@tonic-gate /* 8667c478bd9Sstevel@tonic-gate * Return 1 if the page frame is onboard memory, else 0. 8677c478bd9Sstevel@tonic-gate */ 8687c478bd9Sstevel@tonic-gate int 8697c478bd9Sstevel@tonic-gate pf_is_memory(pfn_t pf) 8707c478bd9Sstevel@tonic-gate { 871ae115bc7Smrj if (pfn_is_foreign(pf)) 872ae115bc7Smrj return (0); 873ae115bc7Smrj return (address_in_memlist(phys_install, pfn_to_pa(pf), 1)); 8747c478bd9Sstevel@tonic-gate } 8757c478bd9Sstevel@tonic-gate 8767c478bd9Sstevel@tonic-gate /* 8777c478bd9Sstevel@tonic-gate * return the memrange containing pfn 8787c478bd9Sstevel@tonic-gate */ 8797c478bd9Sstevel@tonic-gate int 8807c478bd9Sstevel@tonic-gate memrange_num(pfn_t pfn) 8817c478bd9Sstevel@tonic-gate { 8827c478bd9Sstevel@tonic-gate int n; 8837c478bd9Sstevel@tonic-gate 8847c478bd9Sstevel@tonic-gate for (n = 0; n < nranges - 1; ++n) { 8857c478bd9Sstevel@tonic-gate if (pfn >= memranges[n]) 8867c478bd9Sstevel@tonic-gate break; 8877c478bd9Sstevel@tonic-gate } 8887c478bd9Sstevel@tonic-gate return (n); 8897c478bd9Sstevel@tonic-gate } 8907c478bd9Sstevel@tonic-gate 8917c478bd9Sstevel@tonic-gate /* 8927c478bd9Sstevel@tonic-gate * return the mnoderange containing pfn 8937c478bd9Sstevel@tonic-gate */ 894*843e1988Sjohnlev /*ARGSUSED*/ 8957c478bd9Sstevel@tonic-gate int 8967c478bd9Sstevel@tonic-gate pfn_2_mtype(pfn_t pfn) 8977c478bd9Sstevel@tonic-gate { 898*843e1988Sjohnlev #if defined(__xpv) 899*843e1988Sjohnlev return (0); 900*843e1988Sjohnlev #else 9017c478bd9Sstevel@tonic-gate int n; 9027c478bd9Sstevel@tonic-gate 9037c478bd9Sstevel@tonic-gate for (n = mnoderangecnt - 1; n >= 0; n--) { 9047c478bd9Sstevel@tonic-gate if (pfn >= mnoderanges[n].mnr_pfnlo) { 9057c478bd9Sstevel@tonic-gate break; 9067c478bd9Sstevel@tonic-gate } 9077c478bd9Sstevel@tonic-gate } 9087c478bd9Sstevel@tonic-gate return (n); 909*843e1988Sjohnlev #endif 9107c478bd9Sstevel@tonic-gate } 9117c478bd9Sstevel@tonic-gate 912*843e1988Sjohnlev #if !defined(__xpv) 9137c478bd9Sstevel@tonic-gate /* 9147c478bd9Sstevel@tonic-gate * is_contigpage_free: 9157c478bd9Sstevel@tonic-gate * returns a page list of contiguous pages. It minimally has to return 9167c478bd9Sstevel@tonic-gate * minctg pages. Caller determines minctg based on the scatter-gather 9177c478bd9Sstevel@tonic-gate * list length. 9187c478bd9Sstevel@tonic-gate * 9197c478bd9Sstevel@tonic-gate * pfnp is set to the next page frame to search on return. 9207c478bd9Sstevel@tonic-gate */ 9217c478bd9Sstevel@tonic-gate static page_t * 9227c478bd9Sstevel@tonic-gate is_contigpage_free( 9237c478bd9Sstevel@tonic-gate pfn_t *pfnp, 9247c478bd9Sstevel@tonic-gate pgcnt_t *pgcnt, 9257c478bd9Sstevel@tonic-gate pgcnt_t minctg, 9267c478bd9Sstevel@tonic-gate uint64_t pfnseg, 9277c478bd9Sstevel@tonic-gate int iolock) 9287c478bd9Sstevel@tonic-gate { 9297c478bd9Sstevel@tonic-gate int i = 0; 9307c478bd9Sstevel@tonic-gate pfn_t pfn = *pfnp; 9317c478bd9Sstevel@tonic-gate page_t *pp; 9327c478bd9Sstevel@tonic-gate page_t *plist = NULL; 9337c478bd9Sstevel@tonic-gate 9347c478bd9Sstevel@tonic-gate /* 9357c478bd9Sstevel@tonic-gate * fail if pfn + minctg crosses a segment boundary. 9367c478bd9Sstevel@tonic-gate * Adjust for next starting pfn to begin at segment boundary. 9377c478bd9Sstevel@tonic-gate */ 9387c478bd9Sstevel@tonic-gate 9397c478bd9Sstevel@tonic-gate if (((*pfnp + minctg - 1) & pfnseg) < (*pfnp & pfnseg)) { 9407c478bd9Sstevel@tonic-gate *pfnp = roundup(*pfnp, pfnseg + 1); 9417c478bd9Sstevel@tonic-gate return (NULL); 9427c478bd9Sstevel@tonic-gate } 9437c478bd9Sstevel@tonic-gate 9447c478bd9Sstevel@tonic-gate do { 9457c478bd9Sstevel@tonic-gate retry: 9467c478bd9Sstevel@tonic-gate pp = page_numtopp_nolock(pfn + i); 9477c478bd9Sstevel@tonic-gate if ((pp == NULL) || 9487c478bd9Sstevel@tonic-gate (page_trylock(pp, SE_EXCL) == 0)) { 9497c478bd9Sstevel@tonic-gate (*pfnp)++; 9507c478bd9Sstevel@tonic-gate break; 9517c478bd9Sstevel@tonic-gate } 9527c478bd9Sstevel@tonic-gate if (page_pptonum(pp) != pfn + i) { 9537c478bd9Sstevel@tonic-gate page_unlock(pp); 9547c478bd9Sstevel@tonic-gate goto retry; 9557c478bd9Sstevel@tonic-gate } 9567c478bd9Sstevel@tonic-gate 9577c478bd9Sstevel@tonic-gate if (!(PP_ISFREE(pp))) { 9587c478bd9Sstevel@tonic-gate page_unlock(pp); 9597c478bd9Sstevel@tonic-gate (*pfnp)++; 9607c478bd9Sstevel@tonic-gate break; 9617c478bd9Sstevel@tonic-gate } 9627c478bd9Sstevel@tonic-gate 9637c478bd9Sstevel@tonic-gate if (!PP_ISAGED(pp)) { 9647c478bd9Sstevel@tonic-gate page_list_sub(pp, PG_CACHE_LIST); 9657c478bd9Sstevel@tonic-gate page_hashout(pp, (kmutex_t *)NULL); 9667c478bd9Sstevel@tonic-gate } else { 9677c478bd9Sstevel@tonic-gate page_list_sub(pp, PG_FREE_LIST); 9687c478bd9Sstevel@tonic-gate } 9697c478bd9Sstevel@tonic-gate 9707c478bd9Sstevel@tonic-gate if (iolock) 9717c478bd9Sstevel@tonic-gate page_io_lock(pp); 9727c478bd9Sstevel@tonic-gate page_list_concat(&plist, &pp); 9737c478bd9Sstevel@tonic-gate 9747c478bd9Sstevel@tonic-gate /* 9757c478bd9Sstevel@tonic-gate * exit loop when pgcnt satisfied or segment boundary reached. 9767c478bd9Sstevel@tonic-gate */ 9777c478bd9Sstevel@tonic-gate 9787c478bd9Sstevel@tonic-gate } while ((++i < *pgcnt) && ((pfn + i) & pfnseg)); 9797c478bd9Sstevel@tonic-gate 9807c478bd9Sstevel@tonic-gate *pfnp += i; /* set to next pfn to search */ 9817c478bd9Sstevel@tonic-gate 9827c478bd9Sstevel@tonic-gate if (i >= minctg) { 9837c478bd9Sstevel@tonic-gate *pgcnt -= i; 9847c478bd9Sstevel@tonic-gate return (plist); 9857c478bd9Sstevel@tonic-gate } 9867c478bd9Sstevel@tonic-gate 9877c478bd9Sstevel@tonic-gate /* 9887c478bd9Sstevel@tonic-gate * failure: minctg not satisfied. 9897c478bd9Sstevel@tonic-gate * 9907c478bd9Sstevel@tonic-gate * if next request crosses segment boundary, set next pfn 9917c478bd9Sstevel@tonic-gate * to search from the segment boundary. 9927c478bd9Sstevel@tonic-gate */ 9937c478bd9Sstevel@tonic-gate if (((*pfnp + minctg - 1) & pfnseg) < (*pfnp & pfnseg)) 9947c478bd9Sstevel@tonic-gate *pfnp = roundup(*pfnp, pfnseg + 1); 9957c478bd9Sstevel@tonic-gate 9967c478bd9Sstevel@tonic-gate /* clean up any pages already allocated */ 9977c478bd9Sstevel@tonic-gate 9987c478bd9Sstevel@tonic-gate while (plist) { 9997c478bd9Sstevel@tonic-gate pp = plist; 10007c478bd9Sstevel@tonic-gate page_sub(&plist, pp); 10017c478bd9Sstevel@tonic-gate page_list_add(pp, PG_FREE_LIST | PG_LIST_TAIL); 10027c478bd9Sstevel@tonic-gate if (iolock) 10037c478bd9Sstevel@tonic-gate page_io_unlock(pp); 10047c478bd9Sstevel@tonic-gate page_unlock(pp); 10057c478bd9Sstevel@tonic-gate } 10067c478bd9Sstevel@tonic-gate 10077c478bd9Sstevel@tonic-gate return (NULL); 10087c478bd9Sstevel@tonic-gate } 1009*843e1988Sjohnlev #endif /* !__xpv */ 10107c478bd9Sstevel@tonic-gate 10117c478bd9Sstevel@tonic-gate /* 10127c478bd9Sstevel@tonic-gate * verify that pages being returned from allocator have correct DMA attribute 10137c478bd9Sstevel@tonic-gate */ 10147c478bd9Sstevel@tonic-gate #ifndef DEBUG 10157c478bd9Sstevel@tonic-gate #define check_dma(a, b, c) (0) 10167c478bd9Sstevel@tonic-gate #else 10177c478bd9Sstevel@tonic-gate static void 10187c478bd9Sstevel@tonic-gate check_dma(ddi_dma_attr_t *dma_attr, page_t *pp, int cnt) 10197c478bd9Sstevel@tonic-gate { 10207c478bd9Sstevel@tonic-gate if (dma_attr == NULL) 10217c478bd9Sstevel@tonic-gate return; 10227c478bd9Sstevel@tonic-gate 10237c478bd9Sstevel@tonic-gate while (cnt-- > 0) { 1024ae115bc7Smrj if (pa_to_ma(pfn_to_pa(pp->p_pagenum)) < 10257c478bd9Sstevel@tonic-gate dma_attr->dma_attr_addr_lo) 10267c478bd9Sstevel@tonic-gate panic("PFN (pp=%p) below dma_attr_addr_lo", pp); 1027ae115bc7Smrj if (pa_to_ma(pfn_to_pa(pp->p_pagenum)) >= 10287c478bd9Sstevel@tonic-gate dma_attr->dma_attr_addr_hi) 10297c478bd9Sstevel@tonic-gate panic("PFN (pp=%p) above dma_attr_addr_hi", pp); 10307c478bd9Sstevel@tonic-gate pp = pp->p_next; 10317c478bd9Sstevel@tonic-gate } 10327c478bd9Sstevel@tonic-gate } 10337c478bd9Sstevel@tonic-gate #endif 10347c478bd9Sstevel@tonic-gate 1035*843e1988Sjohnlev #if !defined(__xpv) 10367c478bd9Sstevel@tonic-gate static page_t * 10377c478bd9Sstevel@tonic-gate page_get_contigpage(pgcnt_t *pgcnt, ddi_dma_attr_t *mattr, int iolock) 10387c478bd9Sstevel@tonic-gate { 10397c478bd9Sstevel@tonic-gate pfn_t pfn; 10407c478bd9Sstevel@tonic-gate int sgllen; 10417c478bd9Sstevel@tonic-gate uint64_t pfnseg; 10427c478bd9Sstevel@tonic-gate pgcnt_t minctg; 10437c478bd9Sstevel@tonic-gate page_t *pplist = NULL, *plist; 10447c478bd9Sstevel@tonic-gate uint64_t lo, hi; 10457c478bd9Sstevel@tonic-gate pgcnt_t pfnalign = 0; 10467c478bd9Sstevel@tonic-gate static pfn_t startpfn; 10477c478bd9Sstevel@tonic-gate static pgcnt_t lastctgcnt; 10487c478bd9Sstevel@tonic-gate uintptr_t align; 10497c478bd9Sstevel@tonic-gate 10507c478bd9Sstevel@tonic-gate CONTIG_LOCK(); 10517c478bd9Sstevel@tonic-gate 10527c478bd9Sstevel@tonic-gate if (mattr) { 10537c478bd9Sstevel@tonic-gate lo = mmu_btop((mattr->dma_attr_addr_lo + MMU_PAGEOFFSET)); 10547c478bd9Sstevel@tonic-gate hi = mmu_btop(mattr->dma_attr_addr_hi); 10557c478bd9Sstevel@tonic-gate if (hi >= physmax) 10567c478bd9Sstevel@tonic-gate hi = physmax - 1; 10577c478bd9Sstevel@tonic-gate sgllen = mattr->dma_attr_sgllen; 10587c478bd9Sstevel@tonic-gate pfnseg = mmu_btop(mattr->dma_attr_seg); 10597c478bd9Sstevel@tonic-gate 10607c478bd9Sstevel@tonic-gate align = maxbit(mattr->dma_attr_align, mattr->dma_attr_minxfer); 10617c478bd9Sstevel@tonic-gate if (align > MMU_PAGESIZE) 10627c478bd9Sstevel@tonic-gate pfnalign = mmu_btop(align); 10637c478bd9Sstevel@tonic-gate 10647c478bd9Sstevel@tonic-gate /* 10657c478bd9Sstevel@tonic-gate * in order to satisfy the request, must minimally 10667c478bd9Sstevel@tonic-gate * acquire minctg contiguous pages 10677c478bd9Sstevel@tonic-gate */ 10687c478bd9Sstevel@tonic-gate minctg = howmany(*pgcnt, sgllen); 10697c478bd9Sstevel@tonic-gate 10707c478bd9Sstevel@tonic-gate ASSERT(hi >= lo); 10717c478bd9Sstevel@tonic-gate 10727c478bd9Sstevel@tonic-gate /* 10737c478bd9Sstevel@tonic-gate * start from where last searched if the minctg >= lastctgcnt 10747c478bd9Sstevel@tonic-gate */ 10757c478bd9Sstevel@tonic-gate if (minctg < lastctgcnt || startpfn < lo || startpfn > hi) 10767c478bd9Sstevel@tonic-gate startpfn = lo; 10777c478bd9Sstevel@tonic-gate } else { 10787c478bd9Sstevel@tonic-gate hi = physmax - 1; 10797c478bd9Sstevel@tonic-gate lo = 0; 10807c478bd9Sstevel@tonic-gate sgllen = 1; 10817c478bd9Sstevel@tonic-gate pfnseg = mmu.highest_pfn; 10827c478bd9Sstevel@tonic-gate minctg = *pgcnt; 10837c478bd9Sstevel@tonic-gate 10847c478bd9Sstevel@tonic-gate if (minctg < lastctgcnt) 10857c478bd9Sstevel@tonic-gate startpfn = lo; 10867c478bd9Sstevel@tonic-gate } 10877c478bd9Sstevel@tonic-gate lastctgcnt = minctg; 10887c478bd9Sstevel@tonic-gate 10897c478bd9Sstevel@tonic-gate ASSERT(pfnseg + 1 >= (uint64_t)minctg); 10907c478bd9Sstevel@tonic-gate 10917c478bd9Sstevel@tonic-gate /* conserve 16m memory - start search above 16m when possible */ 10927c478bd9Sstevel@tonic-gate if (hi > PFN_16M && startpfn < PFN_16M) 10937c478bd9Sstevel@tonic-gate startpfn = PFN_16M; 10947c478bd9Sstevel@tonic-gate 10957c478bd9Sstevel@tonic-gate pfn = startpfn; 10967c478bd9Sstevel@tonic-gate if (pfnalign) 10977c478bd9Sstevel@tonic-gate pfn = P2ROUNDUP(pfn, pfnalign); 10987c478bd9Sstevel@tonic-gate 10997c478bd9Sstevel@tonic-gate while (pfn + minctg - 1 <= hi) { 11007c478bd9Sstevel@tonic-gate 11017c478bd9Sstevel@tonic-gate plist = is_contigpage_free(&pfn, pgcnt, minctg, pfnseg, iolock); 11027c478bd9Sstevel@tonic-gate if (plist) { 11037c478bd9Sstevel@tonic-gate page_list_concat(&pplist, &plist); 11047c478bd9Sstevel@tonic-gate sgllen--; 11057c478bd9Sstevel@tonic-gate /* 11067c478bd9Sstevel@tonic-gate * return when contig pages no longer needed 11077c478bd9Sstevel@tonic-gate */ 11087c478bd9Sstevel@tonic-gate if (!*pgcnt || ((*pgcnt <= sgllen) && !pfnalign)) { 11097c478bd9Sstevel@tonic-gate startpfn = pfn; 11107c478bd9Sstevel@tonic-gate CONTIG_UNLOCK(); 11117c478bd9Sstevel@tonic-gate check_dma(mattr, pplist, *pgcnt); 11127c478bd9Sstevel@tonic-gate return (pplist); 11137c478bd9Sstevel@tonic-gate } 11147c478bd9Sstevel@tonic-gate minctg = howmany(*pgcnt, sgllen); 11157c478bd9Sstevel@tonic-gate } 11167c478bd9Sstevel@tonic-gate if (pfnalign) 11177c478bd9Sstevel@tonic-gate pfn = P2ROUNDUP(pfn, pfnalign); 11187c478bd9Sstevel@tonic-gate } 11197c478bd9Sstevel@tonic-gate 11207c478bd9Sstevel@tonic-gate /* cannot find contig pages in specified range */ 11217c478bd9Sstevel@tonic-gate if (startpfn == lo) { 11227c478bd9Sstevel@tonic-gate CONTIG_UNLOCK(); 11237c478bd9Sstevel@tonic-gate return (NULL); 11247c478bd9Sstevel@tonic-gate } 11257c478bd9Sstevel@tonic-gate 11267c478bd9Sstevel@tonic-gate /* did not start with lo previously */ 11277c478bd9Sstevel@tonic-gate pfn = lo; 11287c478bd9Sstevel@tonic-gate if (pfnalign) 11297c478bd9Sstevel@tonic-gate pfn = P2ROUNDUP(pfn, pfnalign); 11307c478bd9Sstevel@tonic-gate 11317c478bd9Sstevel@tonic-gate /* allow search to go above startpfn */ 11327c478bd9Sstevel@tonic-gate while (pfn < startpfn) { 11337c478bd9Sstevel@tonic-gate 11347c478bd9Sstevel@tonic-gate plist = is_contigpage_free(&pfn, pgcnt, minctg, pfnseg, iolock); 11357c478bd9Sstevel@tonic-gate if (plist != NULL) { 11367c478bd9Sstevel@tonic-gate 11377c478bd9Sstevel@tonic-gate page_list_concat(&pplist, &plist); 11387c478bd9Sstevel@tonic-gate sgllen--; 11397c478bd9Sstevel@tonic-gate 11407c478bd9Sstevel@tonic-gate /* 11417c478bd9Sstevel@tonic-gate * return when contig pages no longer needed 11427c478bd9Sstevel@tonic-gate */ 11437c478bd9Sstevel@tonic-gate if (!*pgcnt || ((*pgcnt <= sgllen) && !pfnalign)) { 11447c478bd9Sstevel@tonic-gate startpfn = pfn; 11457c478bd9Sstevel@tonic-gate CONTIG_UNLOCK(); 11467c478bd9Sstevel@tonic-gate check_dma(mattr, pplist, *pgcnt); 11477c478bd9Sstevel@tonic-gate return (pplist); 11487c478bd9Sstevel@tonic-gate } 11497c478bd9Sstevel@tonic-gate minctg = howmany(*pgcnt, sgllen); 11507c478bd9Sstevel@tonic-gate } 11517c478bd9Sstevel@tonic-gate if (pfnalign) 11527c478bd9Sstevel@tonic-gate pfn = P2ROUNDUP(pfn, pfnalign); 11537c478bd9Sstevel@tonic-gate } 11547c478bd9Sstevel@tonic-gate CONTIG_UNLOCK(); 11557c478bd9Sstevel@tonic-gate return (NULL); 11567c478bd9Sstevel@tonic-gate } 1157*843e1988Sjohnlev #endif /* !__xpv */ 11587c478bd9Sstevel@tonic-gate 11597c478bd9Sstevel@tonic-gate /* 11607c478bd9Sstevel@tonic-gate * mnode_range_cnt() calculates the number of memory ranges for mnode and 11617c478bd9Sstevel@tonic-gate * memranges[]. Used to determine the size of page lists and mnoderanges. 11627c478bd9Sstevel@tonic-gate */ 11637c478bd9Sstevel@tonic-gate int 11645d07b933Sdp mnode_range_cnt(int mnode) 11657c478bd9Sstevel@tonic-gate { 1166*843e1988Sjohnlev #if defined(__xpv) 1167*843e1988Sjohnlev ASSERT(mnode == 0); 1168*843e1988Sjohnlev return (1); 1169*843e1988Sjohnlev #else /* __xpv */ 11707c478bd9Sstevel@tonic-gate int mri; 11717c478bd9Sstevel@tonic-gate int mnrcnt = 0; 11727c478bd9Sstevel@tonic-gate 11735d07b933Sdp if (mem_node_config[mnode].exists != 0) { 11747c478bd9Sstevel@tonic-gate mri = nranges - 1; 11757c478bd9Sstevel@tonic-gate 11767c478bd9Sstevel@tonic-gate /* find the memranges index below contained in mnode range */ 11777c478bd9Sstevel@tonic-gate 11787c478bd9Sstevel@tonic-gate while (MEMRANGEHI(mri) < mem_node_config[mnode].physbase) 11797c478bd9Sstevel@tonic-gate mri--; 11807c478bd9Sstevel@tonic-gate 11817c478bd9Sstevel@tonic-gate /* 11827c478bd9Sstevel@tonic-gate * increment mnode range counter when memranges or mnode 11837c478bd9Sstevel@tonic-gate * boundary is reached. 11847c478bd9Sstevel@tonic-gate */ 11857c478bd9Sstevel@tonic-gate while (mri >= 0 && 11867c478bd9Sstevel@tonic-gate mem_node_config[mnode].physmax >= MEMRANGELO(mri)) { 11877c478bd9Sstevel@tonic-gate mnrcnt++; 11887c478bd9Sstevel@tonic-gate if (mem_node_config[mnode].physmax > MEMRANGEHI(mri)) 11897c478bd9Sstevel@tonic-gate mri--; 11907c478bd9Sstevel@tonic-gate else 11917c478bd9Sstevel@tonic-gate break; 11927c478bd9Sstevel@tonic-gate } 11937c478bd9Sstevel@tonic-gate } 11945d07b933Sdp ASSERT(mnrcnt <= MAX_MNODE_MRANGES); 11957c478bd9Sstevel@tonic-gate return (mnrcnt); 1196*843e1988Sjohnlev #endif /* __xpv */ 11977c478bd9Sstevel@tonic-gate } 11987c478bd9Sstevel@tonic-gate 1199*843e1988Sjohnlev /* 1200*843e1988Sjohnlev * mnode_range_setup() initializes mnoderanges. 1201*843e1988Sjohnlev */ 12027c478bd9Sstevel@tonic-gate void 12037c478bd9Sstevel@tonic-gate mnode_range_setup(mnoderange_t *mnoderanges) 12047c478bd9Sstevel@tonic-gate { 12057c478bd9Sstevel@tonic-gate int mnode, mri; 12067c478bd9Sstevel@tonic-gate 12077c478bd9Sstevel@tonic-gate for (mnode = 0; mnode < max_mem_nodes; mnode++) { 12087c478bd9Sstevel@tonic-gate if (mem_node_config[mnode].exists == 0) 12097c478bd9Sstevel@tonic-gate continue; 12107c478bd9Sstevel@tonic-gate 12117c478bd9Sstevel@tonic-gate mri = nranges - 1; 12127c478bd9Sstevel@tonic-gate 12137c478bd9Sstevel@tonic-gate while (MEMRANGEHI(mri) < mem_node_config[mnode].physbase) 12147c478bd9Sstevel@tonic-gate mri--; 12157c478bd9Sstevel@tonic-gate 12167c478bd9Sstevel@tonic-gate while (mri >= 0 && mem_node_config[mnode].physmax >= 12177c478bd9Sstevel@tonic-gate MEMRANGELO(mri)) { 1218*843e1988Sjohnlev mnoderanges->mnr_pfnlo = MAX(MEMRANGELO(mri), 1219*843e1988Sjohnlev mem_node_config[mnode].physbase); 1220*843e1988Sjohnlev mnoderanges->mnr_pfnhi = MIN(MEMRANGEHI(mri), 1221*843e1988Sjohnlev mem_node_config[mnode].physmax); 12227c478bd9Sstevel@tonic-gate mnoderanges->mnr_mnode = mnode; 12237c478bd9Sstevel@tonic-gate mnoderanges->mnr_memrange = mri; 12247c478bd9Sstevel@tonic-gate mnoderanges++; 12257c478bd9Sstevel@tonic-gate if (mem_node_config[mnode].physmax > MEMRANGEHI(mri)) 12267c478bd9Sstevel@tonic-gate mri--; 12277c478bd9Sstevel@tonic-gate else 12287c478bd9Sstevel@tonic-gate break; 12297c478bd9Sstevel@tonic-gate } 12307c478bd9Sstevel@tonic-gate } 12317c478bd9Sstevel@tonic-gate } 12327c478bd9Sstevel@tonic-gate 1233*843e1988Sjohnlev /*ARGSUSED*/ 1234*843e1988Sjohnlev int 1235*843e1988Sjohnlev mtype_init(vnode_t *vp, caddr_t vaddr, uint_t *flags, size_t pgsz) 1236*843e1988Sjohnlev { 1237*843e1988Sjohnlev int mtype = mnoderangecnt - 1; 1238*843e1988Sjohnlev 1239*843e1988Sjohnlev #if !defined(__xpv) 1240*843e1988Sjohnlev #if defined(__i386) 1241*843e1988Sjohnlev /* 1242*843e1988Sjohnlev * set the mtype range 1243*843e1988Sjohnlev * - kmem requests needs to be below 4g if restricted_kmemalloc is set. 1244*843e1988Sjohnlev * - for non kmem requests, set range to above 4g if memory below 4g 1245*843e1988Sjohnlev * runs low. 1246*843e1988Sjohnlev */ 1247*843e1988Sjohnlev if (restricted_kmemalloc && VN_ISKAS(vp) && 1248*843e1988Sjohnlev (caddr_t)(vaddr) >= kernelheap && 1249*843e1988Sjohnlev (caddr_t)(vaddr) < ekernelheap) { 1250*843e1988Sjohnlev ASSERT(physmax4g); 1251*843e1988Sjohnlev mtype = mtype4g; 1252*843e1988Sjohnlev if (RESTRICT16M_ALLOC(freemem4g - btop(pgsz), 1253*843e1988Sjohnlev btop(pgsz), *flags)) { 1254*843e1988Sjohnlev *flags |= PGI_MT_RANGE16M; 1255*843e1988Sjohnlev } else { 1256*843e1988Sjohnlev VM_STAT_ADD(vmm_vmstats.unrestrict16mcnt); 1257*843e1988Sjohnlev VM_STAT_COND_ADD((*flags & PG_PANIC), 1258*843e1988Sjohnlev vmm_vmstats.pgpanicalloc); 1259*843e1988Sjohnlev *flags |= PGI_MT_RANGE0; 1260*843e1988Sjohnlev } 1261*843e1988Sjohnlev return (mtype); 1262*843e1988Sjohnlev } 1263*843e1988Sjohnlev #endif /* __i386 */ 1264*843e1988Sjohnlev 1265*843e1988Sjohnlev if (RESTRICT4G_ALLOC) { 1266*843e1988Sjohnlev VM_STAT_ADD(vmm_vmstats.restrict4gcnt); 1267*843e1988Sjohnlev /* here only for > 4g systems */ 1268*843e1988Sjohnlev *flags |= PGI_MT_RANGE4G; 1269*843e1988Sjohnlev } else if (RESTRICT16M_ALLOC(freemem, btop(pgsz), *flags)) { 1270*843e1988Sjohnlev *flags |= PGI_MT_RANGE16M; 1271*843e1988Sjohnlev } else { 1272*843e1988Sjohnlev VM_STAT_ADD(vmm_vmstats.unrestrict16mcnt); 1273*843e1988Sjohnlev VM_STAT_COND_ADD((*flags & PG_PANIC), vmm_vmstats.pgpanicalloc); 1274*843e1988Sjohnlev *flags |= PGI_MT_RANGE0; 1275*843e1988Sjohnlev } 1276*843e1988Sjohnlev #endif /* !__xpv */ 1277*843e1988Sjohnlev return (mtype); 1278*843e1988Sjohnlev } 1279*843e1988Sjohnlev 1280*843e1988Sjohnlev 1281*843e1988Sjohnlev /* mtype init for page_get_replacement_page */ 1282*843e1988Sjohnlev /*ARGSUSED*/ 1283*843e1988Sjohnlev int 1284*843e1988Sjohnlev mtype_pgr_init(int *flags, page_t *pp, int mnode, pgcnt_t pgcnt) 1285*843e1988Sjohnlev { 1286*843e1988Sjohnlev int mtype = mnoderangecnt - 1; 1287*843e1988Sjohnlev #if !defined(__ixpv) 1288*843e1988Sjohnlev if (RESTRICT16M_ALLOC(freemem, pgcnt, *flags)) { 1289*843e1988Sjohnlev *flags |= PGI_MT_RANGE16M; 1290*843e1988Sjohnlev } else { 1291*843e1988Sjohnlev VM_STAT_ADD(vmm_vmstats.unrestrict16mcnt); 1292*843e1988Sjohnlev *flags |= PGI_MT_RANGE0; 1293*843e1988Sjohnlev } 1294*843e1988Sjohnlev #endif 1295*843e1988Sjohnlev return (mtype); 1296*843e1988Sjohnlev } 1297*843e1988Sjohnlev 12987c478bd9Sstevel@tonic-gate /* 12997c478bd9Sstevel@tonic-gate * Determine if the mnode range specified in mtype contains memory belonging 13007c478bd9Sstevel@tonic-gate * to memory node mnode. If flags & PGI_MT_RANGE is set then mtype contains 130107ad560dSkchow * the range of indices from high pfn to 0, 16m or 4g. 13027c478bd9Sstevel@tonic-gate * 13037c478bd9Sstevel@tonic-gate * Return first mnode range type index found otherwise return -1 if none found. 13047c478bd9Sstevel@tonic-gate */ 13057c478bd9Sstevel@tonic-gate int 13067c478bd9Sstevel@tonic-gate mtype_func(int mnode, int mtype, uint_t flags) 13077c478bd9Sstevel@tonic-gate { 13087c478bd9Sstevel@tonic-gate if (flags & PGI_MT_RANGE) { 1309*843e1988Sjohnlev int mtlim = 0; 13107c478bd9Sstevel@tonic-gate 13117c478bd9Sstevel@tonic-gate if (flags & PGI_MT_NEXT) 13127c478bd9Sstevel@tonic-gate mtype--; 1313*843e1988Sjohnlev if (flags & PGI_MT_RANGE4G) 131407ad560dSkchow mtlim = mtype4g + 1; /* exclude 0-4g range */ 131507ad560dSkchow else if (flags & PGI_MT_RANGE16M) 131607ad560dSkchow mtlim = 1; /* exclude 0-16m range */ 13177c478bd9Sstevel@tonic-gate while (mtype >= mtlim) { 13187c478bd9Sstevel@tonic-gate if (mnoderanges[mtype].mnr_mnode == mnode) 13197c478bd9Sstevel@tonic-gate return (mtype); 13207c478bd9Sstevel@tonic-gate mtype--; 13217c478bd9Sstevel@tonic-gate } 1322*843e1988Sjohnlev } else if (mnoderanges[mtype].mnr_mnode == mnode) { 1323*843e1988Sjohnlev return (mtype); 13247c478bd9Sstevel@tonic-gate } 13257c478bd9Sstevel@tonic-gate return (-1); 13267c478bd9Sstevel@tonic-gate } 13277c478bd9Sstevel@tonic-gate 1328e21bae1bSkchow /* 1329e21bae1bSkchow * Update the page list max counts with the pfn range specified by the 1330e21bae1bSkchow * input parameters. Called from add_physmem() when physical memory with 1331e21bae1bSkchow * page_t's are initially added to the page lists. 1332e21bae1bSkchow */ 1333e21bae1bSkchow void 1334e21bae1bSkchow mtype_modify_max(pfn_t startpfn, long cnt) 1335e21bae1bSkchow { 1336e21bae1bSkchow int mtype = 0; 1337e21bae1bSkchow pfn_t endpfn = startpfn + cnt, pfn; 1338e21bae1bSkchow pgcnt_t inc; 1339e21bae1bSkchow 1340e21bae1bSkchow ASSERT(cnt > 0); 1341e21bae1bSkchow 1342*843e1988Sjohnlev if (!physmax4g) 1343*843e1988Sjohnlev return; 1344*843e1988Sjohnlev 1345e21bae1bSkchow for (pfn = startpfn; pfn < endpfn; ) { 1346e21bae1bSkchow if (pfn <= mnoderanges[mtype].mnr_pfnhi) { 1347e21bae1bSkchow if (endpfn < mnoderanges[mtype].mnr_pfnhi) { 1348e21bae1bSkchow inc = endpfn - pfn; 1349e21bae1bSkchow } else { 1350e21bae1bSkchow inc = mnoderanges[mtype].mnr_pfnhi - pfn + 1; 1351e21bae1bSkchow } 1352*843e1988Sjohnlev if (mtype <= mtype4g) 1353e21bae1bSkchow maxmem4g += inc; 1354e21bae1bSkchow pfn += inc; 1355e21bae1bSkchow } 1356e21bae1bSkchow mtype++; 1357e21bae1bSkchow ASSERT(mtype < mnoderangecnt || pfn >= endpfn); 1358e21bae1bSkchow } 1359e21bae1bSkchow } 1360e21bae1bSkchow 1361*843e1988Sjohnlev int 1362*843e1988Sjohnlev mtype_2_mrange(int mtype) 1363*843e1988Sjohnlev { 1364*843e1988Sjohnlev return (mnoderanges[mtype].mnr_memrange); 1365*843e1988Sjohnlev } 1366*843e1988Sjohnlev 1367*843e1988Sjohnlev void 1368*843e1988Sjohnlev mnodetype_2_pfn(int mnode, int mtype, pfn_t *pfnlo, pfn_t *pfnhi) 1369*843e1988Sjohnlev { 1370*843e1988Sjohnlev ASSERT(mnoderanges[mtype].mnr_mnode == mnode); 1371*843e1988Sjohnlev *pfnlo = mnoderanges[mtype].mnr_pfnlo; 1372*843e1988Sjohnlev *pfnhi = mnoderanges[mtype].mnr_pfnhi; 1373*843e1988Sjohnlev } 1374*843e1988Sjohnlev 1375*843e1988Sjohnlev size_t 1376*843e1988Sjohnlev plcnt_sz(size_t ctrs_sz) 1377*843e1988Sjohnlev { 1378*843e1988Sjohnlev #ifdef DEBUG 1379*843e1988Sjohnlev int szc, colors; 1380*843e1988Sjohnlev 1381*843e1988Sjohnlev ctrs_sz += mnoderangecnt * sizeof (struct mnr_mts) * mmu_page_sizes; 1382*843e1988Sjohnlev for (szc = 0; szc < mmu_page_sizes; szc++) { 1383*843e1988Sjohnlev colors = page_get_pagecolors(szc); 1384*843e1988Sjohnlev ctrs_sz += mnoderangecnt * sizeof (pgcnt_t) * colors; 1385*843e1988Sjohnlev } 1386*843e1988Sjohnlev #endif 1387*843e1988Sjohnlev return (ctrs_sz); 1388*843e1988Sjohnlev } 1389*843e1988Sjohnlev 1390*843e1988Sjohnlev caddr_t 1391*843e1988Sjohnlev plcnt_init(caddr_t addr) 1392*843e1988Sjohnlev { 1393*843e1988Sjohnlev #ifdef DEBUG 1394*843e1988Sjohnlev int mt, szc, colors; 1395*843e1988Sjohnlev 1396*843e1988Sjohnlev for (mt = 0; mt < mnoderangecnt; mt++) { 1397*843e1988Sjohnlev mnoderanges[mt].mnr_mts = (struct mnr_mts *)addr; 1398*843e1988Sjohnlev addr += (sizeof (struct mnr_mts) * mmu_page_sizes); 1399*843e1988Sjohnlev for (szc = 0; szc < mmu_page_sizes; szc++) { 1400*843e1988Sjohnlev colors = page_get_pagecolors(szc); 1401*843e1988Sjohnlev mnoderanges[mt].mnr_mts[szc].mnr_mts_colors = colors; 1402*843e1988Sjohnlev mnoderanges[mt].mnr_mts[szc].mnr_mtsc_pgcnt = 1403*843e1988Sjohnlev (pgcnt_t *)addr; 1404*843e1988Sjohnlev addr += (sizeof (pgcnt_t) * colors); 1405*843e1988Sjohnlev } 1406*843e1988Sjohnlev } 1407*843e1988Sjohnlev #endif 1408*843e1988Sjohnlev return (addr); 1409*843e1988Sjohnlev } 1410*843e1988Sjohnlev 1411*843e1988Sjohnlev void 1412*843e1988Sjohnlev plcnt_inc_dec(page_t *pp, int mtype, int szc, long cnt, int flags) 1413*843e1988Sjohnlev { 1414*843e1988Sjohnlev #ifdef DEBUG 1415*843e1988Sjohnlev int bin = PP_2_BIN(pp); 1416*843e1988Sjohnlev 1417*843e1988Sjohnlev atomic_add_long(&mnoderanges[mtype].mnr_mts[szc].mnr_mts_pgcnt, cnt); 1418*843e1988Sjohnlev atomic_add_long(&mnoderanges[mtype].mnr_mts[szc].mnr_mtsc_pgcnt[bin], 1419*843e1988Sjohnlev cnt); 1420*843e1988Sjohnlev #endif 1421*843e1988Sjohnlev ASSERT(mtype == PP_2_MTYPE(pp)); 1422*843e1988Sjohnlev if (physmax4g && mtype <= mtype4g) 1423*843e1988Sjohnlev atomic_add_long(&freemem4g, cnt); 1424*843e1988Sjohnlev if (flags & PG_CACHE_LIST) 1425*843e1988Sjohnlev atomic_add_long(&mnoderanges[mtype].mnr_mt_clpgcnt, cnt); 1426*843e1988Sjohnlev else if (szc) 1427*843e1988Sjohnlev atomic_add_long(&mnoderanges[mtype].mnr_mt_lgpgcnt, cnt); 1428*843e1988Sjohnlev else 1429*843e1988Sjohnlev atomic_add_long(&mnoderanges[mtype].mnr_mt_flpgcnt, cnt); 1430*843e1988Sjohnlev } 1431*843e1988Sjohnlev 1432affbd3ccSkchow /* 1433affbd3ccSkchow * Returns the free page count for mnode 1434affbd3ccSkchow */ 1435affbd3ccSkchow int 1436affbd3ccSkchow mnode_pgcnt(int mnode) 1437affbd3ccSkchow { 1438affbd3ccSkchow int mtype = mnoderangecnt - 1; 1439affbd3ccSkchow int flags = PGI_MT_RANGE0; 1440affbd3ccSkchow pgcnt_t pgcnt = 0; 1441affbd3ccSkchow 1442affbd3ccSkchow mtype = mtype_func(mnode, mtype, flags); 1443affbd3ccSkchow 1444affbd3ccSkchow while (mtype != -1) { 144507ad560dSkchow pgcnt += MTYPE_FREEMEM(mtype); 1446affbd3ccSkchow mtype = mtype_func(mnode, mtype, flags | PGI_MT_NEXT); 1447affbd3ccSkchow } 1448affbd3ccSkchow return (pgcnt); 1449affbd3ccSkchow } 1450affbd3ccSkchow 14517c478bd9Sstevel@tonic-gate /* 14527c478bd9Sstevel@tonic-gate * Initialize page coloring variables based on the l2 cache parameters. 14537c478bd9Sstevel@tonic-gate * Calculate and return memory needed for page coloring data structures. 14547c478bd9Sstevel@tonic-gate */ 14557c478bd9Sstevel@tonic-gate size_t 14567c478bd9Sstevel@tonic-gate page_coloring_init(uint_t l2_sz, int l2_linesz, int l2_assoc) 14577c478bd9Sstevel@tonic-gate { 14587c478bd9Sstevel@tonic-gate size_t colorsz = 0; 14597c478bd9Sstevel@tonic-gate int i; 14607c478bd9Sstevel@tonic-gate int colors; 14617c478bd9Sstevel@tonic-gate 1462*843e1988Sjohnlev #if defined(__xpv) 1463*843e1988Sjohnlev /* 1464*843e1988Sjohnlev * Hypervisor domains currently don't have any concept of NUMA. 1465*843e1988Sjohnlev * Hence we'll act like there is only 1 memrange. 1466*843e1988Sjohnlev */ 1467*843e1988Sjohnlev i = memrange_num(1); 1468*843e1988Sjohnlev #else /* !__xpv */ 14697c478bd9Sstevel@tonic-gate /* 14707c478bd9Sstevel@tonic-gate * Reduce the memory ranges lists if we don't have large amounts 14717c478bd9Sstevel@tonic-gate * of memory. This avoids searching known empty free lists. 14727c478bd9Sstevel@tonic-gate */ 14737c478bd9Sstevel@tonic-gate i = memrange_num(physmax); 14747c478bd9Sstevel@tonic-gate #if defined(__i386) 14757c478bd9Sstevel@tonic-gate if (i > 0) 14767c478bd9Sstevel@tonic-gate restricted_kmemalloc = 0; 14777c478bd9Sstevel@tonic-gate #endif 14787c478bd9Sstevel@tonic-gate /* physmax greater than 4g */ 14797c478bd9Sstevel@tonic-gate if (i == 0) 14807c478bd9Sstevel@tonic-gate physmax4g = 1; 1481*843e1988Sjohnlev #endif /* !__xpv */ 1482*843e1988Sjohnlev memranges += i; 1483*843e1988Sjohnlev nranges -= i; 14847c478bd9Sstevel@tonic-gate 14857c478bd9Sstevel@tonic-gate ASSERT(ISP2(l2_sz)); 14867c478bd9Sstevel@tonic-gate ASSERT(ISP2(l2_linesz)); 14877c478bd9Sstevel@tonic-gate ASSERT(l2_sz > MMU_PAGESIZE); 14887c478bd9Sstevel@tonic-gate 14897c478bd9Sstevel@tonic-gate /* l2_assoc is 0 for fully associative l2 cache */ 14907c478bd9Sstevel@tonic-gate if (l2_assoc) 14917c478bd9Sstevel@tonic-gate l2_colors = MAX(1, l2_sz / (l2_assoc * MMU_PAGESIZE)); 14927c478bd9Sstevel@tonic-gate else 14937c478bd9Sstevel@tonic-gate l2_colors = 1; 14947c478bd9Sstevel@tonic-gate 14957c478bd9Sstevel@tonic-gate /* for scalability, configure at least PAGE_COLORS_MIN color bins */ 14967c478bd9Sstevel@tonic-gate page_colors = MAX(l2_colors, PAGE_COLORS_MIN); 14977c478bd9Sstevel@tonic-gate 14987c478bd9Sstevel@tonic-gate /* 14997c478bd9Sstevel@tonic-gate * cpu_page_colors is non-zero when a page color may be spread across 15007c478bd9Sstevel@tonic-gate * multiple bins. 15017c478bd9Sstevel@tonic-gate */ 15027c478bd9Sstevel@tonic-gate if (l2_colors < page_colors) 15037c478bd9Sstevel@tonic-gate cpu_page_colors = l2_colors; 15047c478bd9Sstevel@tonic-gate 15057c478bd9Sstevel@tonic-gate ASSERT(ISP2(page_colors)); 15067c478bd9Sstevel@tonic-gate 15077c478bd9Sstevel@tonic-gate page_colors_mask = page_colors - 1; 15087c478bd9Sstevel@tonic-gate 15097c478bd9Sstevel@tonic-gate ASSERT(ISP2(CPUSETSIZE())); 15107c478bd9Sstevel@tonic-gate page_coloring_shift = lowbit(CPUSETSIZE()); 15117c478bd9Sstevel@tonic-gate 15125d07b933Sdp /* initialize number of colors per page size */ 15135d07b933Sdp for (i = 0; i <= mmu.max_page_level; i++) { 15145d07b933Sdp hw_page_array[i].hp_size = LEVEL_SIZE(i); 15155d07b933Sdp hw_page_array[i].hp_shift = LEVEL_SHIFT(i); 15165d07b933Sdp hw_page_array[i].hp_pgcnt = LEVEL_SIZE(i) >> LEVEL_SHIFT(0); 15175d07b933Sdp hw_page_array[i].hp_colors = (page_colors_mask >> 15185d07b933Sdp (hw_page_array[i].hp_shift - hw_page_array[0].hp_shift)) 15195d07b933Sdp + 1; 1520932dc8e5Sdp colorequivszc[i] = 0; 15215d07b933Sdp } 15225d07b933Sdp 15235d07b933Sdp /* 15245d07b933Sdp * The value of cpu_page_colors determines if additional color bins 15255d07b933Sdp * need to be checked for a particular color in the page_get routines. 15265d07b933Sdp */ 15275d07b933Sdp if (cpu_page_colors != 0) { 15285d07b933Sdp 15295d07b933Sdp int a = lowbit(page_colors) - lowbit(cpu_page_colors); 15305d07b933Sdp ASSERT(a > 0); 15315d07b933Sdp ASSERT(a < 16); 15325d07b933Sdp 15335d07b933Sdp for (i = 0; i <= mmu.max_page_level; i++) { 15345d07b933Sdp if ((colors = hw_page_array[i].hp_colors) <= 1) { 15355d07b933Sdp colorequivszc[i] = 0; 15365d07b933Sdp continue; 15375d07b933Sdp } 15385d07b933Sdp while ((colors >> a) == 0) 15395d07b933Sdp a--; 15405d07b933Sdp ASSERT(a >= 0); 15415d07b933Sdp 15425d07b933Sdp /* higher 4 bits encodes color equiv mask */ 15435d07b933Sdp colorequivszc[i] = (a << 4); 15445d07b933Sdp } 15455d07b933Sdp } 15465d07b933Sdp 1547*843e1988Sjohnlev /* factor in colorequiv to check additional 'equivalent' bins. */ 1548*843e1988Sjohnlev if (colorequiv > 1) { 1549*843e1988Sjohnlev 1550*843e1988Sjohnlev int a = lowbit(colorequiv) - 1; 1551*843e1988Sjohnlev if (a > 15) 1552*843e1988Sjohnlev a = 15; 1553*843e1988Sjohnlev 1554*843e1988Sjohnlev for (i = 0; i <= mmu.max_page_level; i++) { 1555*843e1988Sjohnlev if ((colors = hw_page_array[i].hp_colors) <= 1) { 1556*843e1988Sjohnlev continue; 1557*843e1988Sjohnlev } 1558*843e1988Sjohnlev while ((colors >> a) == 0) 1559*843e1988Sjohnlev a--; 1560*843e1988Sjohnlev if ((a << 4) > colorequivszc[i]) { 1561*843e1988Sjohnlev colorequivszc[i] = (a << 4); 1562*843e1988Sjohnlev } 1563*843e1988Sjohnlev } 1564*843e1988Sjohnlev } 1565*843e1988Sjohnlev 15667c478bd9Sstevel@tonic-gate /* size for mnoderanges */ 15675d07b933Sdp for (mnoderangecnt = 0, i = 0; i < max_mem_nodes; i++) 15685d07b933Sdp mnoderangecnt += mnode_range_cnt(i); 15697c478bd9Sstevel@tonic-gate colorsz = mnoderangecnt * sizeof (mnoderange_t); 15707c478bd9Sstevel@tonic-gate 15717c478bd9Sstevel@tonic-gate /* size for fpc_mutex and cpc_mutex */ 15727c478bd9Sstevel@tonic-gate colorsz += (2 * max_mem_nodes * sizeof (kmutex_t) * NPC_MUTEX); 15737c478bd9Sstevel@tonic-gate 15747c478bd9Sstevel@tonic-gate /* size of page_freelists */ 15757c478bd9Sstevel@tonic-gate colorsz += mnoderangecnt * sizeof (page_t ***); 15767c478bd9Sstevel@tonic-gate colorsz += mnoderangecnt * mmu_page_sizes * sizeof (page_t **); 15777c478bd9Sstevel@tonic-gate 15787c478bd9Sstevel@tonic-gate for (i = 0; i < mmu_page_sizes; i++) { 15797c478bd9Sstevel@tonic-gate colors = page_get_pagecolors(i); 15807c478bd9Sstevel@tonic-gate colorsz += mnoderangecnt * colors * sizeof (page_t *); 15817c478bd9Sstevel@tonic-gate } 15827c478bd9Sstevel@tonic-gate 15837c478bd9Sstevel@tonic-gate /* size of page_cachelists */ 15847c478bd9Sstevel@tonic-gate colorsz += mnoderangecnt * sizeof (page_t **); 15857c478bd9Sstevel@tonic-gate colorsz += mnoderangecnt * page_colors * sizeof (page_t *); 15867c478bd9Sstevel@tonic-gate 15877c478bd9Sstevel@tonic-gate return (colorsz); 15887c478bd9Sstevel@tonic-gate } 15897c478bd9Sstevel@tonic-gate 15907c478bd9Sstevel@tonic-gate /* 15917c478bd9Sstevel@tonic-gate * Called once at startup to configure page_coloring data structures and 15927c478bd9Sstevel@tonic-gate * does the 1st page_free()/page_freelist_add(). 15937c478bd9Sstevel@tonic-gate */ 15947c478bd9Sstevel@tonic-gate void 15957c478bd9Sstevel@tonic-gate page_coloring_setup(caddr_t pcmemaddr) 15967c478bd9Sstevel@tonic-gate { 15977c478bd9Sstevel@tonic-gate int i; 15987c478bd9Sstevel@tonic-gate int j; 15997c478bd9Sstevel@tonic-gate int k; 16007c478bd9Sstevel@tonic-gate caddr_t addr; 16017c478bd9Sstevel@tonic-gate int colors; 16027c478bd9Sstevel@tonic-gate 16037c478bd9Sstevel@tonic-gate /* 16047c478bd9Sstevel@tonic-gate * do page coloring setup 16057c478bd9Sstevel@tonic-gate */ 16067c478bd9Sstevel@tonic-gate addr = pcmemaddr; 16077c478bd9Sstevel@tonic-gate 16087c478bd9Sstevel@tonic-gate mnoderanges = (mnoderange_t *)addr; 16097c478bd9Sstevel@tonic-gate addr += (mnoderangecnt * sizeof (mnoderange_t)); 16107c478bd9Sstevel@tonic-gate 16117c478bd9Sstevel@tonic-gate mnode_range_setup(mnoderanges); 16127c478bd9Sstevel@tonic-gate 16137c478bd9Sstevel@tonic-gate if (physmax4g) 16147c478bd9Sstevel@tonic-gate mtype4g = pfn_2_mtype(0xfffff); 16157c478bd9Sstevel@tonic-gate 16167c478bd9Sstevel@tonic-gate for (k = 0; k < NPC_MUTEX; k++) { 16177c478bd9Sstevel@tonic-gate fpc_mutex[k] = (kmutex_t *)addr; 16187c478bd9Sstevel@tonic-gate addr += (max_mem_nodes * sizeof (kmutex_t)); 16197c478bd9Sstevel@tonic-gate } 16207c478bd9Sstevel@tonic-gate for (k = 0; k < NPC_MUTEX; k++) { 16217c478bd9Sstevel@tonic-gate cpc_mutex[k] = (kmutex_t *)addr; 16227c478bd9Sstevel@tonic-gate addr += (max_mem_nodes * sizeof (kmutex_t)); 16237c478bd9Sstevel@tonic-gate } 16247c478bd9Sstevel@tonic-gate page_freelists = (page_t ****)addr; 16257c478bd9Sstevel@tonic-gate addr += (mnoderangecnt * sizeof (page_t ***)); 16267c478bd9Sstevel@tonic-gate 16277c478bd9Sstevel@tonic-gate page_cachelists = (page_t ***)addr; 16287c478bd9Sstevel@tonic-gate addr += (mnoderangecnt * sizeof (page_t **)); 16297c478bd9Sstevel@tonic-gate 16307c478bd9Sstevel@tonic-gate for (i = 0; i < mnoderangecnt; i++) { 16317c478bd9Sstevel@tonic-gate page_freelists[i] = (page_t ***)addr; 16327c478bd9Sstevel@tonic-gate addr += (mmu_page_sizes * sizeof (page_t **)); 16337c478bd9Sstevel@tonic-gate 16347c478bd9Sstevel@tonic-gate for (j = 0; j < mmu_page_sizes; j++) { 16357c478bd9Sstevel@tonic-gate colors = page_get_pagecolors(j); 16367c478bd9Sstevel@tonic-gate page_freelists[i][j] = (page_t **)addr; 16377c478bd9Sstevel@tonic-gate addr += (colors * sizeof (page_t *)); 16387c478bd9Sstevel@tonic-gate } 16397c478bd9Sstevel@tonic-gate page_cachelists[i] = (page_t **)addr; 16407c478bd9Sstevel@tonic-gate addr += (page_colors * sizeof (page_t *)); 16417c478bd9Sstevel@tonic-gate } 16427c478bd9Sstevel@tonic-gate } 16437c478bd9Sstevel@tonic-gate 1644*843e1988Sjohnlev #if defined(__xpv) 1645*843e1988Sjohnlev /* 1646*843e1988Sjohnlev * Give back 10% of the io_pool pages to the free list. 1647*843e1988Sjohnlev * Don't shrink the pool below some absolute minimum. 1648*843e1988Sjohnlev */ 1649*843e1988Sjohnlev static void 1650*843e1988Sjohnlev page_io_pool_shrink() 1651*843e1988Sjohnlev { 1652*843e1988Sjohnlev int retcnt; 1653*843e1988Sjohnlev page_t *pp, *pp_first, *pp_last, **curpool; 1654*843e1988Sjohnlev mfn_t mfn; 1655*843e1988Sjohnlev int bothpools = 0; 1656*843e1988Sjohnlev 1657*843e1988Sjohnlev mutex_enter(&io_pool_lock); 1658*843e1988Sjohnlev io_pool_shrink_attempts++; /* should be a kstat? */ 1659*843e1988Sjohnlev retcnt = io_pool_cnt / 10; 1660*843e1988Sjohnlev if (io_pool_cnt - retcnt < io_pool_cnt_min) 1661*843e1988Sjohnlev retcnt = io_pool_cnt - io_pool_cnt_min; 1662*843e1988Sjohnlev if (retcnt <= 0) 1663*843e1988Sjohnlev goto done; 1664*843e1988Sjohnlev io_pool_shrinks++; /* should be a kstat? */ 1665*843e1988Sjohnlev curpool = &io_pool_4g; 1666*843e1988Sjohnlev domore: 1667*843e1988Sjohnlev /* 1668*843e1988Sjohnlev * Loop through taking pages from the end of the list 1669*843e1988Sjohnlev * (highest mfns) till amount to return reached. 1670*843e1988Sjohnlev */ 1671*843e1988Sjohnlev for (pp = *curpool; pp && retcnt > 0; ) { 1672*843e1988Sjohnlev pp_first = pp_last = pp->p_prev; 1673*843e1988Sjohnlev if (pp_first == *curpool) 1674*843e1988Sjohnlev break; 1675*843e1988Sjohnlev retcnt--; 1676*843e1988Sjohnlev io_pool_cnt--; 1677*843e1988Sjohnlev page_io_pool_sub(curpool, pp_first, pp_last); 1678*843e1988Sjohnlev if ((mfn = pfn_to_mfn(pp->p_pagenum)) < start_mfn) 1679*843e1988Sjohnlev start_mfn = mfn; 1680*843e1988Sjohnlev page_free(pp_first, 1); 1681*843e1988Sjohnlev pp = *curpool; 1682*843e1988Sjohnlev } 1683*843e1988Sjohnlev if (retcnt != 0 && !bothpools) { 1684*843e1988Sjohnlev /* 1685*843e1988Sjohnlev * If not enough found in less constrained pool try the 1686*843e1988Sjohnlev * more constrained one. 1687*843e1988Sjohnlev */ 1688*843e1988Sjohnlev curpool = &io_pool_16m; 1689*843e1988Sjohnlev bothpools = 1; 1690*843e1988Sjohnlev goto domore; 1691*843e1988Sjohnlev } 1692*843e1988Sjohnlev done: 1693*843e1988Sjohnlev mutex_exit(&io_pool_lock); 1694*843e1988Sjohnlev } 1695*843e1988Sjohnlev 1696*843e1988Sjohnlev #endif /* __xpv */ 1697*843e1988Sjohnlev 1698*843e1988Sjohnlev uint_t 1699*843e1988Sjohnlev page_create_update_flags_x86(uint_t flags) 1700*843e1988Sjohnlev { 1701*843e1988Sjohnlev #if defined(__xpv) 1702*843e1988Sjohnlev /* 1703*843e1988Sjohnlev * Check this is an urgent allocation and free pages are depleted. 1704*843e1988Sjohnlev */ 1705*843e1988Sjohnlev if (!(flags & PG_WAIT) && freemem < desfree) 1706*843e1988Sjohnlev page_io_pool_shrink(); 1707*843e1988Sjohnlev #else /* !__xpv */ 1708*843e1988Sjohnlev /* 1709*843e1988Sjohnlev * page_create_get_something may call this because 4g memory may be 1710*843e1988Sjohnlev * depleted. Set flags to allow for relocation of base page below 1711*843e1988Sjohnlev * 4g if necessary. 1712*843e1988Sjohnlev */ 1713*843e1988Sjohnlev if (physmax4g) 1714*843e1988Sjohnlev flags |= (PGI_PGCPSZC0 | PGI_PGCPHIPRI); 1715*843e1988Sjohnlev #endif /* __xpv */ 1716*843e1988Sjohnlev return (flags); 1717*843e1988Sjohnlev } 1718*843e1988Sjohnlev 1719*843e1988Sjohnlev /*ARGSUSED*/ 1720*843e1988Sjohnlev int 1721*843e1988Sjohnlev bp_color(struct buf *bp) 17227c478bd9Sstevel@tonic-gate { 17237c478bd9Sstevel@tonic-gate return (0); 17247c478bd9Sstevel@tonic-gate } 17257c478bd9Sstevel@tonic-gate 1726*843e1988Sjohnlev #if defined(__xpv) 1727*843e1988Sjohnlev 17287c478bd9Sstevel@tonic-gate /* 1729*843e1988Sjohnlev * Take pages out of an io_pool 1730*843e1988Sjohnlev */ 1731*843e1988Sjohnlev static void 1732*843e1988Sjohnlev page_io_pool_sub(page_t **poolp, page_t *pp_first, page_t *pp_last) 1733*843e1988Sjohnlev { 1734*843e1988Sjohnlev if (*poolp == pp_first) { 1735*843e1988Sjohnlev *poolp = pp_last->p_next; 1736*843e1988Sjohnlev if (*poolp == pp_first) 1737*843e1988Sjohnlev *poolp = NULL; 1738*843e1988Sjohnlev } 1739*843e1988Sjohnlev pp_first->p_prev->p_next = pp_last->p_next; 1740*843e1988Sjohnlev pp_last->p_next->p_prev = pp_first->p_prev; 1741*843e1988Sjohnlev pp_first->p_prev = pp_last; 1742*843e1988Sjohnlev pp_last->p_next = pp_first; 1743*843e1988Sjohnlev } 1744*843e1988Sjohnlev 1745*843e1988Sjohnlev /* 1746*843e1988Sjohnlev * Put a page on the io_pool list. The list is ordered by increasing MFN. 1747*843e1988Sjohnlev */ 1748*843e1988Sjohnlev static void 1749*843e1988Sjohnlev page_io_pool_add(page_t **poolp, page_t *pp) 1750*843e1988Sjohnlev { 1751*843e1988Sjohnlev page_t *look; 1752*843e1988Sjohnlev mfn_t mfn = mfn_list[pp->p_pagenum]; 1753*843e1988Sjohnlev 1754*843e1988Sjohnlev if (*poolp == NULL) { 1755*843e1988Sjohnlev *poolp = pp; 1756*843e1988Sjohnlev pp->p_next = pp; 1757*843e1988Sjohnlev pp->p_prev = pp; 1758*843e1988Sjohnlev return; 1759*843e1988Sjohnlev } 1760*843e1988Sjohnlev 1761*843e1988Sjohnlev /* 1762*843e1988Sjohnlev * Since we try to take pages from the high end of the pool 1763*843e1988Sjohnlev * chances are good that the pages to be put on the list will 1764*843e1988Sjohnlev * go at or near the end of the list. so start at the end and 1765*843e1988Sjohnlev * work backwards. 1766*843e1988Sjohnlev */ 1767*843e1988Sjohnlev look = (*poolp)->p_prev; 1768*843e1988Sjohnlev while (mfn < mfn_list[look->p_pagenum]) { 1769*843e1988Sjohnlev look = look->p_prev; 1770*843e1988Sjohnlev if (look == (*poolp)->p_prev) 1771*843e1988Sjohnlev break; /* backed all the way to front of list */ 1772*843e1988Sjohnlev } 1773*843e1988Sjohnlev 1774*843e1988Sjohnlev /* insert after look */ 1775*843e1988Sjohnlev pp->p_prev = look; 1776*843e1988Sjohnlev pp->p_next = look->p_next; 1777*843e1988Sjohnlev pp->p_next->p_prev = pp; 1778*843e1988Sjohnlev look->p_next = pp; 1779*843e1988Sjohnlev if (mfn < mfn_list[(*poolp)->p_pagenum]) { 1780*843e1988Sjohnlev /* 1781*843e1988Sjohnlev * we inserted a new first list element 1782*843e1988Sjohnlev * adjust pool pointer to newly inserted element 1783*843e1988Sjohnlev */ 1784*843e1988Sjohnlev *poolp = pp; 1785*843e1988Sjohnlev } 1786*843e1988Sjohnlev } 1787*843e1988Sjohnlev 1788*843e1988Sjohnlev /* 1789*843e1988Sjohnlev * Add a page to the io_pool. Setting the force flag will force the page 1790*843e1988Sjohnlev * into the io_pool no matter what. 1791*843e1988Sjohnlev */ 1792*843e1988Sjohnlev static void 1793*843e1988Sjohnlev add_page_to_pool(page_t *pp, int force) 1794*843e1988Sjohnlev { 1795*843e1988Sjohnlev page_t *highest; 1796*843e1988Sjohnlev page_t *freep = NULL; 1797*843e1988Sjohnlev 1798*843e1988Sjohnlev mutex_enter(&io_pool_lock); 1799*843e1988Sjohnlev /* 1800*843e1988Sjohnlev * Always keep the scarce low memory pages 1801*843e1988Sjohnlev */ 1802*843e1988Sjohnlev if (mfn_list[pp->p_pagenum] < PFN_16MEG) { 1803*843e1988Sjohnlev ++io_pool_cnt; 1804*843e1988Sjohnlev page_io_pool_add(&io_pool_16m, pp); 1805*843e1988Sjohnlev goto done; 1806*843e1988Sjohnlev } 1807*843e1988Sjohnlev if (io_pool_cnt < io_pool_cnt_max || force) { 1808*843e1988Sjohnlev ++io_pool_cnt; 1809*843e1988Sjohnlev page_io_pool_add(&io_pool_4g, pp); 1810*843e1988Sjohnlev } else { 1811*843e1988Sjohnlev highest = io_pool_4g->p_prev; 1812*843e1988Sjohnlev if (mfn_list[pp->p_pagenum] < mfn_list[highest->p_pagenum]) { 1813*843e1988Sjohnlev page_io_pool_sub(&io_pool_4g, highest, highest); 1814*843e1988Sjohnlev page_io_pool_add(&io_pool_4g, pp); 1815*843e1988Sjohnlev freep = highest; 1816*843e1988Sjohnlev } else { 1817*843e1988Sjohnlev freep = pp; 1818*843e1988Sjohnlev } 1819*843e1988Sjohnlev } 1820*843e1988Sjohnlev done: 1821*843e1988Sjohnlev mutex_exit(&io_pool_lock); 1822*843e1988Sjohnlev if (freep) 1823*843e1988Sjohnlev page_free(freep, 1); 1824*843e1988Sjohnlev } 1825*843e1988Sjohnlev 1826*843e1988Sjohnlev 1827*843e1988Sjohnlev int contig_pfn_cnt; /* no of pfns in the contig pfn list */ 1828*843e1988Sjohnlev int contig_pfn_max; /* capacity of the contig pfn list */ 1829*843e1988Sjohnlev int next_alloc_pfn; /* next position in list to start a contig search */ 1830*843e1988Sjohnlev int contig_pfnlist_updates; /* pfn list update count */ 1831*843e1988Sjohnlev int contig_pfnlist_locked; /* contig pfn list locked against use */ 1832*843e1988Sjohnlev int contig_pfnlist_builds; /* how many times have we (re)built list */ 1833*843e1988Sjohnlev int contig_pfnlist_buildfailed; /* how many times has list build failed */ 1834*843e1988Sjohnlev int create_contig_pending; /* nonzero means taskq creating contig list */ 1835*843e1988Sjohnlev pfn_t *contig_pfn_list = NULL; /* list of contig pfns in ascending mfn order */ 1836*843e1988Sjohnlev 1837*843e1988Sjohnlev /* 1838*843e1988Sjohnlev * Function to use in sorting a list of pfns by their underlying mfns. 1839*843e1988Sjohnlev */ 1840*843e1988Sjohnlev static int 1841*843e1988Sjohnlev mfn_compare(const void *pfnp1, const void *pfnp2) 1842*843e1988Sjohnlev { 1843*843e1988Sjohnlev mfn_t mfn1 = mfn_list[*(pfn_t *)pfnp1]; 1844*843e1988Sjohnlev mfn_t mfn2 = mfn_list[*(pfn_t *)pfnp2]; 1845*843e1988Sjohnlev 1846*843e1988Sjohnlev if (mfn1 > mfn2) 1847*843e1988Sjohnlev return (1); 1848*843e1988Sjohnlev if (mfn1 < mfn2) 1849*843e1988Sjohnlev return (-1); 1850*843e1988Sjohnlev return (0); 1851*843e1988Sjohnlev } 1852*843e1988Sjohnlev 1853*843e1988Sjohnlev /* 1854*843e1988Sjohnlev * Compact the contig_pfn_list by tossing all the non-contiguous 1855*843e1988Sjohnlev * elements from the list. 1856*843e1988Sjohnlev */ 1857*843e1988Sjohnlev static void 1858*843e1988Sjohnlev compact_contig_pfn_list(void) 1859*843e1988Sjohnlev { 1860*843e1988Sjohnlev pfn_t pfn, lapfn, prev_lapfn; 1861*843e1988Sjohnlev mfn_t mfn; 1862*843e1988Sjohnlev int i, newcnt = 0; 1863*843e1988Sjohnlev 1864*843e1988Sjohnlev prev_lapfn = 0; 1865*843e1988Sjohnlev for (i = 0; i < contig_pfn_cnt - 1; i++) { 1866*843e1988Sjohnlev pfn = contig_pfn_list[i]; 1867*843e1988Sjohnlev lapfn = contig_pfn_list[i + 1]; 1868*843e1988Sjohnlev mfn = mfn_list[pfn]; 1869*843e1988Sjohnlev /* 1870*843e1988Sjohnlev * See if next pfn is for a contig mfn 1871*843e1988Sjohnlev */ 1872*843e1988Sjohnlev if (mfn_list[lapfn] != mfn + 1) 1873*843e1988Sjohnlev continue; 1874*843e1988Sjohnlev /* 1875*843e1988Sjohnlev * pfn and lookahead are both put in list 1876*843e1988Sjohnlev * unless pfn is the previous lookahead. 1877*843e1988Sjohnlev */ 1878*843e1988Sjohnlev if (pfn != prev_lapfn) 1879*843e1988Sjohnlev contig_pfn_list[newcnt++] = pfn; 1880*843e1988Sjohnlev contig_pfn_list[newcnt++] = lapfn; 1881*843e1988Sjohnlev prev_lapfn = lapfn; 1882*843e1988Sjohnlev } 1883*843e1988Sjohnlev for (i = newcnt; i < contig_pfn_cnt; i++) 1884*843e1988Sjohnlev contig_pfn_list[i] = 0; 1885*843e1988Sjohnlev contig_pfn_cnt = newcnt; 1886*843e1988Sjohnlev } 1887*843e1988Sjohnlev 1888*843e1988Sjohnlev /*ARGSUSED*/ 1889*843e1988Sjohnlev static void 1890*843e1988Sjohnlev call_create_contiglist(void *arg) 1891*843e1988Sjohnlev { 1892*843e1988Sjohnlev mutex_enter(&io_pool_lock); 1893*843e1988Sjohnlev (void) create_contig_pfnlist(PG_WAIT); 1894*843e1988Sjohnlev create_contig_pending = 0; 1895*843e1988Sjohnlev mutex_exit(&io_pool_lock); 1896*843e1988Sjohnlev } 1897*843e1988Sjohnlev 1898*843e1988Sjohnlev /* 1899*843e1988Sjohnlev * Create list of freelist pfns that have underlying 1900*843e1988Sjohnlev * contiguous mfns. The list is kept in ascending mfn order. 1901*843e1988Sjohnlev * returns 1 if list created else 0. 1902*843e1988Sjohnlev */ 1903*843e1988Sjohnlev static int 1904*843e1988Sjohnlev create_contig_pfnlist(uint_t flags) 1905*843e1988Sjohnlev { 1906*843e1988Sjohnlev pfn_t pfn; 1907*843e1988Sjohnlev page_t *pp; 1908*843e1988Sjohnlev 1909*843e1988Sjohnlev if (contig_pfn_list != NULL) 1910*843e1988Sjohnlev return (1); 1911*843e1988Sjohnlev ASSERT(!contig_pfnlist_locked); 1912*843e1988Sjohnlev contig_pfn_max = freemem + (freemem / 10); 1913*843e1988Sjohnlev contig_pfn_list = kmem_zalloc(contig_pfn_max * sizeof (pfn_t), 1914*843e1988Sjohnlev (flags & PG_WAIT) ? KM_SLEEP : KM_NOSLEEP); 1915*843e1988Sjohnlev if (contig_pfn_list == NULL) { 1916*843e1988Sjohnlev /* 1917*843e1988Sjohnlev * If we could not create the contig list (because 1918*843e1988Sjohnlev * we could not sleep for memory). Dispatch a taskq that can 1919*843e1988Sjohnlev * sleep to get the memory. 1920*843e1988Sjohnlev */ 1921*843e1988Sjohnlev if (!create_contig_pending) { 1922*843e1988Sjohnlev if (taskq_dispatch(system_taskq, call_create_contiglist, 1923*843e1988Sjohnlev NULL, TQ_NOSLEEP) != NULL) 1924*843e1988Sjohnlev create_contig_pending = 1; 1925*843e1988Sjohnlev } 1926*843e1988Sjohnlev contig_pfnlist_buildfailed++; /* count list build failures */ 1927*843e1988Sjohnlev return (0); 1928*843e1988Sjohnlev } 1929*843e1988Sjohnlev ASSERT(contig_pfn_cnt == 0); 1930*843e1988Sjohnlev for (pfn = 0; pfn < mfn_count; pfn++) { 1931*843e1988Sjohnlev pp = page_numtopp_nolock(pfn); 1932*843e1988Sjohnlev if (pp == NULL || !PP_ISFREE(pp)) 1933*843e1988Sjohnlev continue; 1934*843e1988Sjohnlev contig_pfn_list[contig_pfn_cnt] = pfn; 1935*843e1988Sjohnlev if (++contig_pfn_cnt == contig_pfn_max) 1936*843e1988Sjohnlev break; 1937*843e1988Sjohnlev } 1938*843e1988Sjohnlev qsort(contig_pfn_list, contig_pfn_cnt, sizeof (pfn_t), mfn_compare); 1939*843e1988Sjohnlev compact_contig_pfn_list(); 1940*843e1988Sjohnlev /* 1941*843e1988Sjohnlev * Make sure next search of the newly created contiguous pfn 1942*843e1988Sjohnlev * list starts at the beginning of the list. 1943*843e1988Sjohnlev */ 1944*843e1988Sjohnlev next_alloc_pfn = 0; 1945*843e1988Sjohnlev contig_pfnlist_builds++; /* count list builds */ 1946*843e1988Sjohnlev return (1); 1947*843e1988Sjohnlev } 1948*843e1988Sjohnlev 1949*843e1988Sjohnlev 1950*843e1988Sjohnlev /* 1951*843e1988Sjohnlev * Toss the current contig pfnlist. Someone is about to do a massive 1952*843e1988Sjohnlev * update to pfn<->mfn mappings. So we have them destroy the list and lock 1953*843e1988Sjohnlev * it till they are done with their update. 1954*843e1988Sjohnlev */ 1955*843e1988Sjohnlev void 1956*843e1988Sjohnlev clear_and_lock_contig_pfnlist() 1957*843e1988Sjohnlev { 1958*843e1988Sjohnlev pfn_t *listp = NULL; 1959*843e1988Sjohnlev size_t listsize; 1960*843e1988Sjohnlev 1961*843e1988Sjohnlev mutex_enter(&io_pool_lock); 1962*843e1988Sjohnlev ASSERT(!contig_pfnlist_locked); 1963*843e1988Sjohnlev if (contig_pfn_list != NULL) { 1964*843e1988Sjohnlev listp = contig_pfn_list; 1965*843e1988Sjohnlev listsize = contig_pfn_max * sizeof (pfn_t); 1966*843e1988Sjohnlev contig_pfn_list = NULL; 1967*843e1988Sjohnlev contig_pfn_max = contig_pfn_cnt = 0; 1968*843e1988Sjohnlev } 1969*843e1988Sjohnlev contig_pfnlist_locked = 1; 1970*843e1988Sjohnlev mutex_exit(&io_pool_lock); 1971*843e1988Sjohnlev if (listp != NULL) 1972*843e1988Sjohnlev kmem_free(listp, listsize); 1973*843e1988Sjohnlev } 1974*843e1988Sjohnlev 1975*843e1988Sjohnlev /* 1976*843e1988Sjohnlev * Unlock the contig_pfn_list. The next attempted use of it will cause 1977*843e1988Sjohnlev * it to be re-created. 1978*843e1988Sjohnlev */ 1979*843e1988Sjohnlev void 1980*843e1988Sjohnlev unlock_contig_pfnlist() 1981*843e1988Sjohnlev { 1982*843e1988Sjohnlev mutex_enter(&io_pool_lock); 1983*843e1988Sjohnlev ASSERT(contig_pfnlist_locked); 1984*843e1988Sjohnlev contig_pfnlist_locked = 0; 1985*843e1988Sjohnlev mutex_exit(&io_pool_lock); 1986*843e1988Sjohnlev } 1987*843e1988Sjohnlev 1988*843e1988Sjohnlev /* 1989*843e1988Sjohnlev * Update the contiguous pfn list in response to a pfn <-> mfn reassignment 1990*843e1988Sjohnlev */ 1991*843e1988Sjohnlev void 1992*843e1988Sjohnlev update_contig_pfnlist(pfn_t pfn, mfn_t oldmfn, mfn_t newmfn) 1993*843e1988Sjohnlev { 1994*843e1988Sjohnlev int probe_hi, probe_lo, probe_pos, insert_after, insert_point; 1995*843e1988Sjohnlev pfn_t probe_pfn; 1996*843e1988Sjohnlev mfn_t probe_mfn; 1997*843e1988Sjohnlev 1998*843e1988Sjohnlev if (contig_pfn_list == NULL) 1999*843e1988Sjohnlev return; 2000*843e1988Sjohnlev mutex_enter(&io_pool_lock); 2001*843e1988Sjohnlev contig_pfnlist_updates++; 2002*843e1988Sjohnlev /* 2003*843e1988Sjohnlev * Find the pfn in the current list. Use a binary chop to locate it. 2004*843e1988Sjohnlev */ 2005*843e1988Sjohnlev probe_hi = contig_pfn_cnt - 1; 2006*843e1988Sjohnlev probe_lo = 0; 2007*843e1988Sjohnlev probe_pos = (probe_hi + probe_lo) / 2; 2008*843e1988Sjohnlev while ((probe_pfn = contig_pfn_list[probe_pos]) != pfn) { 2009*843e1988Sjohnlev if (probe_pos == probe_lo) { /* pfn not in list */ 2010*843e1988Sjohnlev probe_pos = -1; 2011*843e1988Sjohnlev break; 2012*843e1988Sjohnlev } 2013*843e1988Sjohnlev if (pfn_to_mfn(probe_pfn) <= oldmfn) 2014*843e1988Sjohnlev probe_lo = probe_pos; 2015*843e1988Sjohnlev else 2016*843e1988Sjohnlev probe_hi = probe_pos; 2017*843e1988Sjohnlev probe_pos = (probe_hi + probe_lo) / 2; 2018*843e1988Sjohnlev } 2019*843e1988Sjohnlev if (probe_pos >= 0) { /* remove pfn fom list */ 2020*843e1988Sjohnlev contig_pfn_cnt--; 2021*843e1988Sjohnlev ovbcopy(&contig_pfn_list[probe_pos + 1], 2022*843e1988Sjohnlev &contig_pfn_list[probe_pos], 2023*843e1988Sjohnlev (contig_pfn_cnt - probe_pos) * sizeof (pfn_t)); 2024*843e1988Sjohnlev } 2025*843e1988Sjohnlev if (newmfn == MFN_INVALID) 2026*843e1988Sjohnlev goto done; 2027*843e1988Sjohnlev /* 2028*843e1988Sjohnlev * Check if new mfn has adjacent mfns in the list 2029*843e1988Sjohnlev */ 2030*843e1988Sjohnlev probe_hi = contig_pfn_cnt - 1; 2031*843e1988Sjohnlev probe_lo = 0; 2032*843e1988Sjohnlev insert_after = -2; 2033*843e1988Sjohnlev do { 2034*843e1988Sjohnlev probe_pos = (probe_hi + probe_lo) / 2; 2035*843e1988Sjohnlev probe_mfn = pfn_to_mfn(contig_pfn_list[probe_pos]); 2036*843e1988Sjohnlev if (newmfn == probe_mfn + 1) 2037*843e1988Sjohnlev insert_after = probe_pos; 2038*843e1988Sjohnlev else if (newmfn == probe_mfn - 1) 2039*843e1988Sjohnlev insert_after = probe_pos - 1; 2040*843e1988Sjohnlev if (probe_pos == probe_lo) 2041*843e1988Sjohnlev break; 2042*843e1988Sjohnlev if (probe_mfn <= newmfn) 2043*843e1988Sjohnlev probe_lo = probe_pos; 2044*843e1988Sjohnlev else 2045*843e1988Sjohnlev probe_hi = probe_pos; 2046*843e1988Sjohnlev } while (insert_after == -2); 2047*843e1988Sjohnlev /* 2048*843e1988Sjohnlev * If there is space in the list and there are adjacent mfns 2049*843e1988Sjohnlev * insert the pfn in to its proper place in the list. 2050*843e1988Sjohnlev */ 2051*843e1988Sjohnlev if (insert_after != -2 && contig_pfn_cnt + 1 <= contig_pfn_max) { 2052*843e1988Sjohnlev insert_point = insert_after + 1; 2053*843e1988Sjohnlev ovbcopy(&contig_pfn_list[insert_point], 2054*843e1988Sjohnlev &contig_pfn_list[insert_point + 1], 2055*843e1988Sjohnlev (contig_pfn_cnt - insert_point) * sizeof (pfn_t)); 2056*843e1988Sjohnlev contig_pfn_list[insert_point] = pfn; 2057*843e1988Sjohnlev contig_pfn_cnt++; 2058*843e1988Sjohnlev } 2059*843e1988Sjohnlev done: 2060*843e1988Sjohnlev mutex_exit(&io_pool_lock); 2061*843e1988Sjohnlev } 2062*843e1988Sjohnlev 2063*843e1988Sjohnlev /* 2064*843e1988Sjohnlev * Called to (re-)populate the io_pool from the free page lists. 2065*843e1988Sjohnlev */ 2066*843e1988Sjohnlev long 2067*843e1988Sjohnlev populate_io_pool(void) 2068*843e1988Sjohnlev { 2069*843e1988Sjohnlev pfn_t pfn; 2070*843e1988Sjohnlev mfn_t mfn, max_mfn; 2071*843e1988Sjohnlev page_t *pp; 2072*843e1988Sjohnlev 2073*843e1988Sjohnlev /* 2074*843e1988Sjohnlev * Figure out the bounds of the pool on first invocation. 2075*843e1988Sjohnlev * We use a percentage of memory for the io pool size. 2076*843e1988Sjohnlev * we allow that to shrink, but not to less than a fixed minimum 2077*843e1988Sjohnlev */ 2078*843e1988Sjohnlev if (io_pool_cnt_max == 0) { 2079*843e1988Sjohnlev io_pool_cnt_max = physmem / (100 / io_pool_physmem_pct); 2080*843e1988Sjohnlev io_pool_cnt_lowater = io_pool_cnt_max; 2081*843e1988Sjohnlev /* 2082*843e1988Sjohnlev * This is the first time in populate_io_pool, grab a va to use 2083*843e1988Sjohnlev * when we need to allocate pages. 2084*843e1988Sjohnlev */ 2085*843e1988Sjohnlev io_pool_kva = vmem_alloc(heap_arena, PAGESIZE, VM_SLEEP); 2086*843e1988Sjohnlev } 2087*843e1988Sjohnlev /* 2088*843e1988Sjohnlev * If we are out of pages in the pool, then grow the size of the pool 2089*843e1988Sjohnlev */ 2090*843e1988Sjohnlev if (io_pool_cnt == 0) 2091*843e1988Sjohnlev io_pool_cnt_max += io_pool_cnt_max / 20; /* grow by 5% */ 2092*843e1988Sjohnlev io_pool_grows++; /* should be a kstat? */ 2093*843e1988Sjohnlev 2094*843e1988Sjohnlev /* 2095*843e1988Sjohnlev * Get highest mfn on this platform, but limit to the 32 bit DMA max. 2096*843e1988Sjohnlev */ 2097*843e1988Sjohnlev (void) mfn_to_pfn(start_mfn); 2098*843e1988Sjohnlev max_mfn = MIN(cached_max_mfn, PFN_4GIG); 2099*843e1988Sjohnlev for (mfn = start_mfn; mfn < max_mfn; start_mfn = ++mfn) { 2100*843e1988Sjohnlev pfn = mfn_to_pfn(mfn); 2101*843e1988Sjohnlev if (pfn & PFN_IS_FOREIGN_MFN) 2102*843e1988Sjohnlev continue; 2103*843e1988Sjohnlev /* 2104*843e1988Sjohnlev * try to allocate it from free pages 2105*843e1988Sjohnlev */ 2106*843e1988Sjohnlev pp = page_numtopp_alloc(pfn); 2107*843e1988Sjohnlev if (pp == NULL) 2108*843e1988Sjohnlev continue; 2109*843e1988Sjohnlev PP_CLRFREE(pp); 2110*843e1988Sjohnlev add_page_to_pool(pp, 1); 2111*843e1988Sjohnlev if (io_pool_cnt >= io_pool_cnt_max) 2112*843e1988Sjohnlev break; 2113*843e1988Sjohnlev } 2114*843e1988Sjohnlev 2115*843e1988Sjohnlev return (io_pool_cnt); 2116*843e1988Sjohnlev } 2117*843e1988Sjohnlev 2118*843e1988Sjohnlev /* 2119*843e1988Sjohnlev * Destroy a page that was being used for DMA I/O. It may or 2120*843e1988Sjohnlev * may not actually go back to the io_pool. 2121*843e1988Sjohnlev */ 2122*843e1988Sjohnlev void 2123*843e1988Sjohnlev page_destroy_io(page_t *pp) 2124*843e1988Sjohnlev { 2125*843e1988Sjohnlev mfn_t mfn = mfn_list[pp->p_pagenum]; 2126*843e1988Sjohnlev 2127*843e1988Sjohnlev /* 2128*843e1988Sjohnlev * When the page was alloc'd a reservation was made, release it now 2129*843e1988Sjohnlev */ 2130*843e1988Sjohnlev page_unresv(1); 2131*843e1988Sjohnlev /* 2132*843e1988Sjohnlev * Unload translations, if any, then hash out the 2133*843e1988Sjohnlev * page to erase its identity. 2134*843e1988Sjohnlev */ 2135*843e1988Sjohnlev (void) hat_pageunload(pp, HAT_FORCE_PGUNLOAD); 2136*843e1988Sjohnlev page_hashout(pp, NULL); 2137*843e1988Sjohnlev 2138*843e1988Sjohnlev /* 2139*843e1988Sjohnlev * If the page came from the free lists, just put it back to them. 2140*843e1988Sjohnlev * DomU pages always go on the free lists as well. 2141*843e1988Sjohnlev */ 2142*843e1988Sjohnlev if (!DOMAIN_IS_INITDOMAIN(xen_info) || mfn >= PFN_4GIG) { 2143*843e1988Sjohnlev page_free(pp, 1); 2144*843e1988Sjohnlev return; 2145*843e1988Sjohnlev } 2146*843e1988Sjohnlev 2147*843e1988Sjohnlev add_page_to_pool(pp, 0); 2148*843e1988Sjohnlev } 2149*843e1988Sjohnlev 2150*843e1988Sjohnlev 2151*843e1988Sjohnlev long contig_searches; /* count of times contig pages requested */ 2152*843e1988Sjohnlev long contig_search_restarts; /* count of contig ranges tried */ 2153*843e1988Sjohnlev long contig_search_failed; /* count of contig alloc failures */ 2154*843e1988Sjohnlev 2155*843e1988Sjohnlev /* 2156*843e1988Sjohnlev * Look thru the contiguous pfns that are not part of the io_pool for 2157*843e1988Sjohnlev * contiguous free pages. Return a list of the found pages or NULL. 2158*843e1988Sjohnlev */ 2159*843e1988Sjohnlev page_t * 2160*843e1988Sjohnlev find_contig_free(uint_t bytes, uint_t flags) 2161*843e1988Sjohnlev { 2162*843e1988Sjohnlev page_t *pp, *plist = NULL; 2163*843e1988Sjohnlev mfn_t mfn, prev_mfn; 2164*843e1988Sjohnlev pfn_t pfn; 2165*843e1988Sjohnlev int pages_needed, pages_requested; 2166*843e1988Sjohnlev int search_start; 2167*843e1988Sjohnlev 2168*843e1988Sjohnlev /* 2169*843e1988Sjohnlev * create the contig pfn list if not already done 2170*843e1988Sjohnlev */ 2171*843e1988Sjohnlev if (contig_pfn_list == NULL) { 2172*843e1988Sjohnlev if (contig_pfnlist_locked) { 2173*843e1988Sjohnlev return (NULL); 2174*843e1988Sjohnlev } else { 2175*843e1988Sjohnlev if (!create_contig_pfnlist(flags)) 2176*843e1988Sjohnlev return (NULL); 2177*843e1988Sjohnlev } 2178*843e1988Sjohnlev } 2179*843e1988Sjohnlev contig_searches++; 2180*843e1988Sjohnlev /* 2181*843e1988Sjohnlev * Search contiguous pfn list for physically contiguous pages not in 2182*843e1988Sjohnlev * the io_pool. Start the search where the last search left off. 2183*843e1988Sjohnlev */ 2184*843e1988Sjohnlev pages_requested = pages_needed = mmu_btop(bytes); 2185*843e1988Sjohnlev search_start = next_alloc_pfn; 2186*843e1988Sjohnlev prev_mfn = 0; 2187*843e1988Sjohnlev while (pages_needed) { 2188*843e1988Sjohnlev pfn = contig_pfn_list[next_alloc_pfn]; 2189*843e1988Sjohnlev mfn = pfn_to_mfn(pfn); 2190*843e1988Sjohnlev if ((prev_mfn == 0 || mfn == prev_mfn + 1) && 2191*843e1988Sjohnlev (pp = page_numtopp_alloc(pfn)) != NULL) { 2192*843e1988Sjohnlev PP_CLRFREE(pp); 2193*843e1988Sjohnlev page_io_pool_add(&plist, pp); 2194*843e1988Sjohnlev pages_needed--; 2195*843e1988Sjohnlev prev_mfn = mfn; 2196*843e1988Sjohnlev } else { 2197*843e1988Sjohnlev contig_search_restarts++; 2198*843e1988Sjohnlev /* 2199*843e1988Sjohnlev * free partial page list 2200*843e1988Sjohnlev */ 2201*843e1988Sjohnlev while (plist != NULL) { 2202*843e1988Sjohnlev pp = plist; 2203*843e1988Sjohnlev page_io_pool_sub(&plist, pp, pp); 2204*843e1988Sjohnlev page_free(pp, 1); 2205*843e1988Sjohnlev } 2206*843e1988Sjohnlev pages_needed = pages_requested; 2207*843e1988Sjohnlev prev_mfn = 0; 2208*843e1988Sjohnlev } 2209*843e1988Sjohnlev if (++next_alloc_pfn == contig_pfn_cnt) 2210*843e1988Sjohnlev next_alloc_pfn = 0; 2211*843e1988Sjohnlev if (next_alloc_pfn == search_start) 2212*843e1988Sjohnlev break; /* all pfns searched */ 2213*843e1988Sjohnlev } 2214*843e1988Sjohnlev if (pages_needed) { 2215*843e1988Sjohnlev contig_search_failed++; 2216*843e1988Sjohnlev /* 2217*843e1988Sjohnlev * Failed to find enough contig pages. 2218*843e1988Sjohnlev * free partial page list 2219*843e1988Sjohnlev */ 2220*843e1988Sjohnlev while (plist != NULL) { 2221*843e1988Sjohnlev pp = plist; 2222*843e1988Sjohnlev page_io_pool_sub(&plist, pp, pp); 2223*843e1988Sjohnlev page_free(pp, 1); 2224*843e1988Sjohnlev } 2225*843e1988Sjohnlev } 2226*843e1988Sjohnlev return (plist); 2227*843e1988Sjohnlev } 2228*843e1988Sjohnlev 2229*843e1988Sjohnlev /* 2230*843e1988Sjohnlev * Allocator for domain 0 I/O pages. We match the required 2231*843e1988Sjohnlev * DMA attributes and contiguity constraints. 22327c478bd9Sstevel@tonic-gate */ 2233*843e1988Sjohnlev /*ARGSUSED*/ 22347c478bd9Sstevel@tonic-gate page_t * 2235*843e1988Sjohnlev page_create_io( 2236*843e1988Sjohnlev struct vnode *vp, 2237*843e1988Sjohnlev u_offset_t off, 2238*843e1988Sjohnlev uint_t bytes, 2239*843e1988Sjohnlev uint_t flags, 2240*843e1988Sjohnlev struct as *as, 2241*843e1988Sjohnlev caddr_t vaddr, 2242*843e1988Sjohnlev ddi_dma_attr_t *mattr) 2243*843e1988Sjohnlev { 2244*843e1988Sjohnlev mfn_t max_mfn = HYPERVISOR_memory_op(XENMEM_maximum_ram_page, NULL); 2245*843e1988Sjohnlev page_t *pp_first; /* list to return */ 2246*843e1988Sjohnlev page_t *pp_last; /* last in list to return */ 2247*843e1988Sjohnlev page_t *pp, **poolp, **pplist = NULL, *expp; 2248*843e1988Sjohnlev int i, extpages = 0, npages = 0, contig, anyaddr, extra; 2249*843e1988Sjohnlev mfn_t lo_mfn; 2250*843e1988Sjohnlev mfn_t hi_mfn; 2251*843e1988Sjohnlev mfn_t mfn, tmfn; 2252*843e1988Sjohnlev mfn_t *mfnlist = 0; 2253*843e1988Sjohnlev pgcnt_t pfnalign = 0; 2254*843e1988Sjohnlev int align, order, nbits, extents; 2255*843e1988Sjohnlev uint64_t pfnseg; 2256*843e1988Sjohnlev int attempt = 0, is_domu = 0; 2257*843e1988Sjohnlev int asked_hypervisor = 0; 2258*843e1988Sjohnlev uint_t kflags; 2259*843e1988Sjohnlev 2260*843e1988Sjohnlev ASSERT(mattr != NULL); 2261*843e1988Sjohnlev lo_mfn = mmu_btop(mattr->dma_attr_addr_lo); 2262*843e1988Sjohnlev hi_mfn = mmu_btop(mattr->dma_attr_addr_hi); 2263*843e1988Sjohnlev align = maxbit(mattr->dma_attr_align, mattr->dma_attr_minxfer); 2264*843e1988Sjohnlev if (align > MMU_PAGESIZE) 2265*843e1988Sjohnlev pfnalign = mmu_btop(align); 2266*843e1988Sjohnlev pfnseg = mmu_btop(mattr->dma_attr_seg); 2267*843e1988Sjohnlev 2268*843e1988Sjohnlev /* 2269*843e1988Sjohnlev * Clear the contig flag if only one page is needed. 2270*843e1988Sjohnlev */ 2271*843e1988Sjohnlev contig = (flags & PG_PHYSCONTIG); 2272*843e1988Sjohnlev flags &= ~PG_PHYSCONTIG; 2273*843e1988Sjohnlev bytes = P2ROUNDUP(bytes, MMU_PAGESIZE); 2274*843e1988Sjohnlev if (bytes == MMU_PAGESIZE) 2275*843e1988Sjohnlev contig = 0; 2276*843e1988Sjohnlev 2277*843e1988Sjohnlev /* 2278*843e1988Sjohnlev * Check if any old page in the system is fine. 2279*843e1988Sjohnlev * DomU should always go down this path. 2280*843e1988Sjohnlev */ 2281*843e1988Sjohnlev is_domu = !DOMAIN_IS_INITDOMAIN(xen_info); 2282*843e1988Sjohnlev anyaddr = lo_mfn == 0 && hi_mfn >= max_mfn && !pfnalign; 2283*843e1988Sjohnlev if ((!contig && anyaddr) || is_domu) { 2284*843e1988Sjohnlev pp = page_create_va(vp, off, bytes, flags, &kvseg, vaddr); 2285*843e1988Sjohnlev if (pp) 2286*843e1988Sjohnlev return (pp); 2287*843e1988Sjohnlev else if (is_domu) 2288*843e1988Sjohnlev return (NULL); /* no memory available */ 2289*843e1988Sjohnlev } 2290*843e1988Sjohnlev /* 2291*843e1988Sjohnlev * DomU should never reach here 2292*843e1988Sjohnlev */ 2293*843e1988Sjohnlev try_again: 2294*843e1988Sjohnlev /* 2295*843e1988Sjohnlev * We could just want unconstrained but contig pages. 2296*843e1988Sjohnlev */ 2297*843e1988Sjohnlev if (anyaddr && contig && pfnseg >= max_mfn) { 2298*843e1988Sjohnlev /* 2299*843e1988Sjohnlev * Look for free contig pages to satisfy the request. 2300*843e1988Sjohnlev */ 2301*843e1988Sjohnlev mutex_enter(&io_pool_lock); 2302*843e1988Sjohnlev pp_first = find_contig_free(bytes, flags); 2303*843e1988Sjohnlev mutex_exit(&io_pool_lock); 2304*843e1988Sjohnlev if (pp_first != NULL) 2305*843e1988Sjohnlev goto done; 2306*843e1988Sjohnlev } 2307*843e1988Sjohnlev /* 2308*843e1988Sjohnlev * See if we want pages for a legacy device 2309*843e1988Sjohnlev */ 2310*843e1988Sjohnlev if (hi_mfn < PFN_16MEG) 2311*843e1988Sjohnlev poolp = &io_pool_16m; 2312*843e1988Sjohnlev else 2313*843e1988Sjohnlev poolp = &io_pool_4g; 2314*843e1988Sjohnlev try_smaller: 2315*843e1988Sjohnlev /* 2316*843e1988Sjohnlev * Take pages from I/O pool. We'll use pages from the highest MFN 2317*843e1988Sjohnlev * range possible. 2318*843e1988Sjohnlev */ 2319*843e1988Sjohnlev pp_first = pp_last = NULL; 2320*843e1988Sjohnlev npages = mmu_btop(bytes); 2321*843e1988Sjohnlev mutex_enter(&io_pool_lock); 2322*843e1988Sjohnlev for (pp = *poolp; pp && npages > 0; ) { 2323*843e1988Sjohnlev pp = pp->p_prev; 2324*843e1988Sjohnlev 2325*843e1988Sjohnlev /* 2326*843e1988Sjohnlev * skip pages above allowable range 2327*843e1988Sjohnlev */ 2328*843e1988Sjohnlev mfn = mfn_list[pp->p_pagenum]; 2329*843e1988Sjohnlev if (hi_mfn < mfn) 2330*843e1988Sjohnlev goto skip; 2331*843e1988Sjohnlev 2332*843e1988Sjohnlev /* 2333*843e1988Sjohnlev * stop at pages below allowable range 2334*843e1988Sjohnlev */ 2335*843e1988Sjohnlev if (lo_mfn > mfn) 2336*843e1988Sjohnlev break; 2337*843e1988Sjohnlev restart: 2338*843e1988Sjohnlev if (pp_last == NULL) { 2339*843e1988Sjohnlev /* 2340*843e1988Sjohnlev * Check alignment 2341*843e1988Sjohnlev */ 2342*843e1988Sjohnlev tmfn = mfn - (npages - 1); 2343*843e1988Sjohnlev if (pfnalign) { 2344*843e1988Sjohnlev if (tmfn != P2ROUNDUP(tmfn, pfnalign)) 2345*843e1988Sjohnlev goto skip; /* not properly aligned */ 2346*843e1988Sjohnlev } 2347*843e1988Sjohnlev /* 2348*843e1988Sjohnlev * Check segment 2349*843e1988Sjohnlev */ 2350*843e1988Sjohnlev if ((mfn & pfnseg) < (tmfn & pfnseg)) 2351*843e1988Sjohnlev goto skip; /* crosses segment boundary */ 2352*843e1988Sjohnlev /* 2353*843e1988Sjohnlev * Start building page list 2354*843e1988Sjohnlev */ 2355*843e1988Sjohnlev pp_first = pp_last = pp; 2356*843e1988Sjohnlev npages--; 2357*843e1988Sjohnlev } else { 2358*843e1988Sjohnlev /* 2359*843e1988Sjohnlev * check physical contiguity if required 2360*843e1988Sjohnlev */ 2361*843e1988Sjohnlev if (contig && 2362*843e1988Sjohnlev mfn_list[pp_first->p_pagenum] != mfn + 1) { 2363*843e1988Sjohnlev /* 2364*843e1988Sjohnlev * not a contiguous page, restart list. 2365*843e1988Sjohnlev */ 2366*843e1988Sjohnlev pp_last = NULL; 2367*843e1988Sjohnlev npages = mmu_btop(bytes); 2368*843e1988Sjohnlev goto restart; 2369*843e1988Sjohnlev } else { /* add page to list */ 2370*843e1988Sjohnlev pp_first = pp; 2371*843e1988Sjohnlev --npages; 2372*843e1988Sjohnlev } 2373*843e1988Sjohnlev } 2374*843e1988Sjohnlev skip: 2375*843e1988Sjohnlev if (pp == *poolp) 2376*843e1988Sjohnlev break; 2377*843e1988Sjohnlev } 2378*843e1988Sjohnlev 2379*843e1988Sjohnlev /* 2380*843e1988Sjohnlev * If we didn't find memory. Try the more constrained pool, then 2381*843e1988Sjohnlev * sweep free pages into the DMA pool and try again. If we fail 2382*843e1988Sjohnlev * repeatedly, ask the Hypervisor for help. 2383*843e1988Sjohnlev */ 2384*843e1988Sjohnlev if (npages != 0) { 2385*843e1988Sjohnlev mutex_exit(&io_pool_lock); 2386*843e1988Sjohnlev /* 2387*843e1988Sjohnlev * If we were looking in the less constrained pool and didn't 2388*843e1988Sjohnlev * find pages, try the more constrained pool. 2389*843e1988Sjohnlev */ 2390*843e1988Sjohnlev if (poolp == &io_pool_4g) { 2391*843e1988Sjohnlev poolp = &io_pool_16m; 2392*843e1988Sjohnlev goto try_smaller; 2393*843e1988Sjohnlev } 2394*843e1988Sjohnlev kmem_reap(); 2395*843e1988Sjohnlev if (++attempt < 4) { 2396*843e1988Sjohnlev /* 2397*843e1988Sjohnlev * Grab some more io_pool pages 2398*843e1988Sjohnlev */ 2399*843e1988Sjohnlev (void) populate_io_pool(); 2400*843e1988Sjohnlev goto try_again; 2401*843e1988Sjohnlev } 2402*843e1988Sjohnlev 2403*843e1988Sjohnlev if (asked_hypervisor++) 2404*843e1988Sjohnlev return (NULL); /* really out of luck */ 2405*843e1988Sjohnlev /* 2406*843e1988Sjohnlev * Hypervisor exchange doesn't handle segment or alignment 2407*843e1988Sjohnlev * constraints 2408*843e1988Sjohnlev */ 2409*843e1988Sjohnlev if (mattr->dma_attr_seg < mattr->dma_attr_addr_hi || pfnalign) 2410*843e1988Sjohnlev return (NULL); 2411*843e1988Sjohnlev /* 2412*843e1988Sjohnlev * Try exchanging pages with the hypervisor. 2413*843e1988Sjohnlev */ 2414*843e1988Sjohnlev npages = mmu_btop(bytes); 2415*843e1988Sjohnlev kflags = flags & PG_WAIT ? KM_SLEEP : KM_NOSLEEP; 2416*843e1988Sjohnlev /* 2417*843e1988Sjohnlev * Hypervisor will allocate extents, if we want contig pages 2418*843e1988Sjohnlev * extent must be >= npages 2419*843e1988Sjohnlev */ 2420*843e1988Sjohnlev if (contig) { 2421*843e1988Sjohnlev order = highbit(npages) - 1; 2422*843e1988Sjohnlev if (npages & ((1 << order) - 1)) 2423*843e1988Sjohnlev order++; 2424*843e1988Sjohnlev extpages = 1 << order; 2425*843e1988Sjohnlev } else { 2426*843e1988Sjohnlev order = 0; 2427*843e1988Sjohnlev extpages = npages; 2428*843e1988Sjohnlev } 2429*843e1988Sjohnlev if (extpages > npages) { 2430*843e1988Sjohnlev extra = extpages - npages; 2431*843e1988Sjohnlev if (!page_resv(extra, kflags)) 2432*843e1988Sjohnlev return (NULL); 2433*843e1988Sjohnlev } 2434*843e1988Sjohnlev pplist = kmem_alloc(extpages * sizeof (page_t *), kflags); 2435*843e1988Sjohnlev if (pplist == NULL) 2436*843e1988Sjohnlev goto fail; 2437*843e1988Sjohnlev mfnlist = kmem_alloc(extpages * sizeof (mfn_t), kflags); 2438*843e1988Sjohnlev if (mfnlist == NULL) 2439*843e1988Sjohnlev goto fail; 2440*843e1988Sjohnlev pp = page_create_va(vp, off, npages * PAGESIZE, flags, 2441*843e1988Sjohnlev &kvseg, vaddr); 2442*843e1988Sjohnlev if (pp == NULL) 2443*843e1988Sjohnlev goto fail; 2444*843e1988Sjohnlev pp_first = pp; 2445*843e1988Sjohnlev if (extpages > npages) { 2446*843e1988Sjohnlev /* 2447*843e1988Sjohnlev * fill out the rest of extent pages to swap with the 2448*843e1988Sjohnlev * hypervisor 2449*843e1988Sjohnlev */ 2450*843e1988Sjohnlev for (i = 0; i < extra; i++) { 2451*843e1988Sjohnlev expp = page_create_va(vp, 2452*843e1988Sjohnlev (u_offset_t)(uintptr_t)io_pool_kva, 2453*843e1988Sjohnlev PAGESIZE, flags, &kvseg, io_pool_kva); 2454*843e1988Sjohnlev if (expp == NULL) 2455*843e1988Sjohnlev goto balloon_fail; 2456*843e1988Sjohnlev (void) hat_pageunload(expp, HAT_FORCE_PGUNLOAD); 2457*843e1988Sjohnlev page_io_unlock(expp); 2458*843e1988Sjohnlev page_hashout(expp, NULL); 2459*843e1988Sjohnlev page_io_lock(expp); 2460*843e1988Sjohnlev /* 2461*843e1988Sjohnlev * add page to end of list 2462*843e1988Sjohnlev */ 2463*843e1988Sjohnlev expp->p_prev = pp_first->p_prev; 2464*843e1988Sjohnlev expp->p_next = pp_first; 2465*843e1988Sjohnlev expp->p_prev->p_next = expp; 2466*843e1988Sjohnlev pp_first->p_prev = expp; 2467*843e1988Sjohnlev } 2468*843e1988Sjohnlev 2469*843e1988Sjohnlev } 2470*843e1988Sjohnlev for (i = 0; i < extpages; i++) { 2471*843e1988Sjohnlev pplist[i] = pp; 2472*843e1988Sjohnlev pp = pp->p_next; 2473*843e1988Sjohnlev } 2474*843e1988Sjohnlev nbits = highbit(mattr->dma_attr_addr_hi); 2475*843e1988Sjohnlev extents = contig ? 1 : npages; 2476*843e1988Sjohnlev if (balloon_replace_pages(extents, pplist, nbits, order, 2477*843e1988Sjohnlev mfnlist) != extents) 2478*843e1988Sjohnlev goto balloon_fail; 2479*843e1988Sjohnlev 2480*843e1988Sjohnlev kmem_free(pplist, extpages * sizeof (page_t *)); 2481*843e1988Sjohnlev kmem_free(mfnlist, extpages * sizeof (mfn_t)); 2482*843e1988Sjohnlev /* 2483*843e1988Sjohnlev * Return any excess pages to free list 2484*843e1988Sjohnlev */ 2485*843e1988Sjohnlev if (extpages > npages) { 2486*843e1988Sjohnlev for (i = 0; i < extra; i++) { 2487*843e1988Sjohnlev pp = pp_first->p_prev; 2488*843e1988Sjohnlev page_sub(&pp_first, pp); 2489*843e1988Sjohnlev page_io_unlock(pp); 2490*843e1988Sjohnlev page_unresv(1); 2491*843e1988Sjohnlev page_free(pp, 1); 2492*843e1988Sjohnlev } 2493*843e1988Sjohnlev } 2494*843e1988Sjohnlev check_dma(mattr, pp_first, mmu_btop(bytes)); 2495*843e1988Sjohnlev return (pp_first); 2496*843e1988Sjohnlev } 2497*843e1988Sjohnlev 2498*843e1988Sjohnlev /* 2499*843e1988Sjohnlev * Found the pages, now snip them from the list 2500*843e1988Sjohnlev */ 2501*843e1988Sjohnlev page_io_pool_sub(poolp, pp_first, pp_last); 2502*843e1988Sjohnlev io_pool_cnt -= mmu_btop(bytes); 2503*843e1988Sjohnlev if (io_pool_cnt < io_pool_cnt_lowater) 2504*843e1988Sjohnlev io_pool_cnt_lowater = io_pool_cnt; /* io pool low water mark */ 2505*843e1988Sjohnlev mutex_exit(&io_pool_lock); 2506*843e1988Sjohnlev done: 2507*843e1988Sjohnlev check_dma(mattr, pp_first, mmu_btop(bytes)); 2508*843e1988Sjohnlev pp = pp_first; 2509*843e1988Sjohnlev do { 2510*843e1988Sjohnlev if (!page_hashin(pp, vp, off, NULL)) { 2511*843e1988Sjohnlev panic("pg_create_io: hashin failed pp %p, vp %p," 2512*843e1988Sjohnlev " off %llx", 2513*843e1988Sjohnlev (void *)pp, (void *)vp, off); 2514*843e1988Sjohnlev } 2515*843e1988Sjohnlev off += MMU_PAGESIZE; 2516*843e1988Sjohnlev PP_CLRFREE(pp); 2517*843e1988Sjohnlev PP_CLRAGED(pp); 2518*843e1988Sjohnlev page_set_props(pp, P_REF); 2519*843e1988Sjohnlev page_io_lock(pp); 2520*843e1988Sjohnlev pp = pp->p_next; 2521*843e1988Sjohnlev } while (pp != pp_first); 2522*843e1988Sjohnlev return (pp_first); 2523*843e1988Sjohnlev balloon_fail: 2524*843e1988Sjohnlev /* 2525*843e1988Sjohnlev * Return pages to free list and return failure 2526*843e1988Sjohnlev */ 2527*843e1988Sjohnlev while (pp_first != NULL) { 2528*843e1988Sjohnlev pp = pp_first; 2529*843e1988Sjohnlev page_sub(&pp_first, pp); 2530*843e1988Sjohnlev page_io_unlock(pp); 2531*843e1988Sjohnlev if (pp->p_vnode != NULL) 2532*843e1988Sjohnlev page_hashout(pp, NULL); 2533*843e1988Sjohnlev page_free(pp, 1); 2534*843e1988Sjohnlev } 2535*843e1988Sjohnlev fail: 2536*843e1988Sjohnlev if (pplist) 2537*843e1988Sjohnlev kmem_free(pplist, extpages * sizeof (page_t *)); 2538*843e1988Sjohnlev if (mfnlist) 2539*843e1988Sjohnlev kmem_free(mfnlist, extpages * sizeof (mfn_t)); 2540*843e1988Sjohnlev page_unresv(extpages - npages); 2541*843e1988Sjohnlev return (NULL); 2542*843e1988Sjohnlev } 2543*843e1988Sjohnlev 2544*843e1988Sjohnlev /* 2545*843e1988Sjohnlev * Lock and return the page with the highest mfn that we can find. last_mfn 2546*843e1988Sjohnlev * holds the last one found, so the next search can start from there. We 2547*843e1988Sjohnlev * also keep a counter so that we don't loop forever if the machine has no 2548*843e1988Sjohnlev * free pages. 2549*843e1988Sjohnlev * 2550*843e1988Sjohnlev * This is called from the balloon thread to find pages to give away. new_high 2551*843e1988Sjohnlev * is used when new mfn's have been added to the system - we will reset our 2552*843e1988Sjohnlev * search if the new mfn's are higher than our current search position. 2553*843e1988Sjohnlev */ 2554*843e1988Sjohnlev page_t * 2555*843e1988Sjohnlev page_get_high_mfn(mfn_t new_high) 2556*843e1988Sjohnlev { 2557*843e1988Sjohnlev static mfn_t last_mfn = 0; 2558*843e1988Sjohnlev pfn_t pfn; 2559*843e1988Sjohnlev page_t *pp; 2560*843e1988Sjohnlev ulong_t loop_count = 0; 2561*843e1988Sjohnlev 2562*843e1988Sjohnlev if (new_high > last_mfn) 2563*843e1988Sjohnlev last_mfn = new_high; 2564*843e1988Sjohnlev 2565*843e1988Sjohnlev for (; loop_count < mfn_count; loop_count++, last_mfn--) { 2566*843e1988Sjohnlev if (last_mfn == 0) { 2567*843e1988Sjohnlev last_mfn = cached_max_mfn; 2568*843e1988Sjohnlev } 2569*843e1988Sjohnlev 2570*843e1988Sjohnlev pfn = mfn_to_pfn(last_mfn); 2571*843e1988Sjohnlev if (pfn & PFN_IS_FOREIGN_MFN) 2572*843e1988Sjohnlev continue; 2573*843e1988Sjohnlev 2574*843e1988Sjohnlev /* See if the page is free. If so, lock it. */ 2575*843e1988Sjohnlev pp = page_numtopp_alloc(pfn); 2576*843e1988Sjohnlev if (pp == NULL) 2577*843e1988Sjohnlev continue; 2578*843e1988Sjohnlev PP_CLRFREE(pp); 2579*843e1988Sjohnlev 2580*843e1988Sjohnlev ASSERT(PAGE_EXCL(pp)); 2581*843e1988Sjohnlev ASSERT(pp->p_vnode == NULL); 2582*843e1988Sjohnlev ASSERT(!hat_page_is_mapped(pp)); 2583*843e1988Sjohnlev last_mfn--; 2584*843e1988Sjohnlev return (pp); 2585*843e1988Sjohnlev } 2586*843e1988Sjohnlev return (NULL); 2587*843e1988Sjohnlev } 2588*843e1988Sjohnlev 2589*843e1988Sjohnlev #else /* !__xpv */ 2590*843e1988Sjohnlev 2591*843e1988Sjohnlev /* 2592*843e1988Sjohnlev * get a page from any list with the given mnode 2593*843e1988Sjohnlev */ 2594*843e1988Sjohnlev static page_t * 25957c478bd9Sstevel@tonic-gate page_get_mnode_anylist(ulong_t origbin, uchar_t szc, uint_t flags, 25967c478bd9Sstevel@tonic-gate int mnode, int mtype, ddi_dma_attr_t *dma_attr) 25977c478bd9Sstevel@tonic-gate { 25985d07b933Sdp kmutex_t *pcm; 25995d07b933Sdp int i; 26005d07b933Sdp page_t *pp; 26015d07b933Sdp page_t *first_pp; 26025d07b933Sdp uint64_t pgaddr; 26035d07b933Sdp ulong_t bin; 26045d07b933Sdp int mtypestart; 26055d07b933Sdp int plw_initialized; 26065d07b933Sdp page_list_walker_t plw; 26077c478bd9Sstevel@tonic-gate 26087c478bd9Sstevel@tonic-gate VM_STAT_ADD(pga_vmstats.pgma_alloc); 26097c478bd9Sstevel@tonic-gate 26107c478bd9Sstevel@tonic-gate ASSERT((flags & PG_MATCH_COLOR) == 0); 26117c478bd9Sstevel@tonic-gate ASSERT(szc == 0); 26127c478bd9Sstevel@tonic-gate ASSERT(dma_attr != NULL); 26137c478bd9Sstevel@tonic-gate 26147c478bd9Sstevel@tonic-gate MTYPE_START(mnode, mtype, flags); 26157c478bd9Sstevel@tonic-gate if (mtype < 0) { 26167c478bd9Sstevel@tonic-gate VM_STAT_ADD(pga_vmstats.pgma_allocempty); 26177c478bd9Sstevel@tonic-gate return (NULL); 26187c478bd9Sstevel@tonic-gate } 26197c478bd9Sstevel@tonic-gate 26207c478bd9Sstevel@tonic-gate mtypestart = mtype; 26217c478bd9Sstevel@tonic-gate 26227c478bd9Sstevel@tonic-gate bin = origbin; 26237c478bd9Sstevel@tonic-gate 26247c478bd9Sstevel@tonic-gate /* 26257c478bd9Sstevel@tonic-gate * check up to page_colors + 1 bins - origbin may be checked twice 26267c478bd9Sstevel@tonic-gate * because of BIN_STEP skip 26277c478bd9Sstevel@tonic-gate */ 26287c478bd9Sstevel@tonic-gate do { 26295d07b933Sdp plw_initialized = 0; 26305d07b933Sdp 26315d07b933Sdp for (plw.plw_count = 0; 26325d07b933Sdp plw.plw_count < page_colors; plw.plw_count++) { 26335d07b933Sdp 26347c478bd9Sstevel@tonic-gate if (PAGE_FREELISTS(mnode, szc, bin, mtype) == NULL) 26357c478bd9Sstevel@tonic-gate goto nextfreebin; 26367c478bd9Sstevel@tonic-gate 26377c478bd9Sstevel@tonic-gate pcm = PC_BIN_MUTEX(mnode, bin, PG_FREE_LIST); 26387c478bd9Sstevel@tonic-gate mutex_enter(pcm); 26397c478bd9Sstevel@tonic-gate pp = PAGE_FREELISTS(mnode, szc, bin, mtype); 26407c478bd9Sstevel@tonic-gate first_pp = pp; 26417c478bd9Sstevel@tonic-gate while (pp != NULL) { 26427c478bd9Sstevel@tonic-gate if (page_trylock(pp, SE_EXCL) == 0) { 26437c478bd9Sstevel@tonic-gate pp = pp->p_next; 26447c478bd9Sstevel@tonic-gate if (pp == first_pp) { 26457c478bd9Sstevel@tonic-gate pp = NULL; 26467c478bd9Sstevel@tonic-gate } 26477c478bd9Sstevel@tonic-gate continue; 26487c478bd9Sstevel@tonic-gate } 26497c478bd9Sstevel@tonic-gate 26507c478bd9Sstevel@tonic-gate ASSERT(PP_ISFREE(pp)); 26517c478bd9Sstevel@tonic-gate ASSERT(PP_ISAGED(pp)); 26527c478bd9Sstevel@tonic-gate ASSERT(pp->p_vnode == NULL); 26537c478bd9Sstevel@tonic-gate ASSERT(pp->p_hash == NULL); 26547c478bd9Sstevel@tonic-gate ASSERT(pp->p_offset == (u_offset_t)-1); 26557c478bd9Sstevel@tonic-gate ASSERT(pp->p_szc == szc); 26567c478bd9Sstevel@tonic-gate ASSERT(PFN_2_MEM_NODE(pp->p_pagenum) == mnode); 26577c478bd9Sstevel@tonic-gate /* check if page within DMA attributes */ 2658ae115bc7Smrj pgaddr = pa_to_ma(pfn_to_pa(pp->p_pagenum)); 26597c478bd9Sstevel@tonic-gate if ((pgaddr >= dma_attr->dma_attr_addr_lo) && 26607c478bd9Sstevel@tonic-gate (pgaddr + MMU_PAGESIZE - 1 <= 26617c478bd9Sstevel@tonic-gate dma_attr->dma_attr_addr_hi)) { 26627c478bd9Sstevel@tonic-gate break; 26637c478bd9Sstevel@tonic-gate } 26647c478bd9Sstevel@tonic-gate 26657c478bd9Sstevel@tonic-gate /* continue looking */ 26667c478bd9Sstevel@tonic-gate page_unlock(pp); 26677c478bd9Sstevel@tonic-gate pp = pp->p_next; 26687c478bd9Sstevel@tonic-gate if (pp == first_pp) 26697c478bd9Sstevel@tonic-gate pp = NULL; 26707c478bd9Sstevel@tonic-gate 26717c478bd9Sstevel@tonic-gate } 26727c478bd9Sstevel@tonic-gate if (pp != NULL) { 26737c478bd9Sstevel@tonic-gate ASSERT(mtype == PP_2_MTYPE(pp)); 26747c478bd9Sstevel@tonic-gate ASSERT(pp->p_szc == 0); 26757c478bd9Sstevel@tonic-gate 26767c478bd9Sstevel@tonic-gate /* found a page with specified DMA attributes */ 26777c478bd9Sstevel@tonic-gate page_sub(&PAGE_FREELISTS(mnode, szc, bin, 26787c478bd9Sstevel@tonic-gate mtype), pp); 2679affbd3ccSkchow page_ctr_sub(mnode, mtype, pp, PG_FREE_LIST); 26807c478bd9Sstevel@tonic-gate 26817c478bd9Sstevel@tonic-gate if ((PP_ISFREE(pp) == 0) || 26827c478bd9Sstevel@tonic-gate (PP_ISAGED(pp) == 0)) { 26837c478bd9Sstevel@tonic-gate cmn_err(CE_PANIC, "page %p is not free", 26847c478bd9Sstevel@tonic-gate (void *)pp); 26857c478bd9Sstevel@tonic-gate } 26867c478bd9Sstevel@tonic-gate 26877c478bd9Sstevel@tonic-gate mutex_exit(pcm); 26887c478bd9Sstevel@tonic-gate check_dma(dma_attr, pp, 1); 26897c478bd9Sstevel@tonic-gate VM_STAT_ADD(pga_vmstats.pgma_allocok); 26907c478bd9Sstevel@tonic-gate return (pp); 26917c478bd9Sstevel@tonic-gate } 26927c478bd9Sstevel@tonic-gate mutex_exit(pcm); 26937c478bd9Sstevel@tonic-gate nextfreebin: 26945d07b933Sdp if (plw_initialized == 0) { 26955d07b933Sdp page_list_walk_init(szc, 0, bin, 1, 0, &plw); 26965d07b933Sdp ASSERT(plw.plw_ceq_dif == page_colors); 26975d07b933Sdp plw_initialized = 1; 26985d07b933Sdp } 26997c478bd9Sstevel@tonic-gate 27005d07b933Sdp if (plw.plw_do_split) { 27015d07b933Sdp pp = page_freelist_split(szc, bin, mnode, 27025d07b933Sdp mtype, 27035d07b933Sdp mmu_btop(dma_attr->dma_attr_addr_hi + 1), 27045d07b933Sdp &plw); 27055d07b933Sdp if (pp != NULL) 27065d07b933Sdp return (pp); 27075d07b933Sdp } 27085d07b933Sdp 27095d07b933Sdp bin = page_list_walk_next_bin(szc, bin, &plw); 27107c478bd9Sstevel@tonic-gate } 27115d07b933Sdp 2712affbd3ccSkchow MTYPE_NEXT(mnode, mtype, flags); 2713affbd3ccSkchow } while (mtype >= 0); 27147c478bd9Sstevel@tonic-gate 27157c478bd9Sstevel@tonic-gate /* failed to find a page in the freelist; try it in the cachelist */ 27167c478bd9Sstevel@tonic-gate 27177c478bd9Sstevel@tonic-gate /* reset mtype start for cachelist search */ 27187c478bd9Sstevel@tonic-gate mtype = mtypestart; 27197c478bd9Sstevel@tonic-gate ASSERT(mtype >= 0); 27207c478bd9Sstevel@tonic-gate 27217c478bd9Sstevel@tonic-gate /* start with the bin of matching color */ 27227c478bd9Sstevel@tonic-gate bin = origbin; 27237c478bd9Sstevel@tonic-gate 27247c478bd9Sstevel@tonic-gate do { 27257c478bd9Sstevel@tonic-gate for (i = 0; i <= page_colors; i++) { 27267c478bd9Sstevel@tonic-gate if (PAGE_CACHELISTS(mnode, bin, mtype) == NULL) 27277c478bd9Sstevel@tonic-gate goto nextcachebin; 27287c478bd9Sstevel@tonic-gate pcm = PC_BIN_MUTEX(mnode, bin, PG_CACHE_LIST); 27297c478bd9Sstevel@tonic-gate mutex_enter(pcm); 27307c478bd9Sstevel@tonic-gate pp = PAGE_CACHELISTS(mnode, bin, mtype); 27317c478bd9Sstevel@tonic-gate first_pp = pp; 27327c478bd9Sstevel@tonic-gate while (pp != NULL) { 27337c478bd9Sstevel@tonic-gate if (page_trylock(pp, SE_EXCL) == 0) { 27347c478bd9Sstevel@tonic-gate pp = pp->p_next; 27357c478bd9Sstevel@tonic-gate if (pp == first_pp) 27367c478bd9Sstevel@tonic-gate break; 27377c478bd9Sstevel@tonic-gate continue; 27387c478bd9Sstevel@tonic-gate } 27397c478bd9Sstevel@tonic-gate ASSERT(pp->p_vnode); 27407c478bd9Sstevel@tonic-gate ASSERT(PP_ISAGED(pp) == 0); 27417c478bd9Sstevel@tonic-gate ASSERT(pp->p_szc == 0); 27427c478bd9Sstevel@tonic-gate ASSERT(PFN_2_MEM_NODE(pp->p_pagenum) == mnode); 27437c478bd9Sstevel@tonic-gate 27447c478bd9Sstevel@tonic-gate /* check if page within DMA attributes */ 27457c478bd9Sstevel@tonic-gate 2746ae115bc7Smrj pgaddr = pa_to_ma(pfn_to_pa(pp->p_pagenum)); 27477c478bd9Sstevel@tonic-gate if ((pgaddr >= dma_attr->dma_attr_addr_lo) && 27487c478bd9Sstevel@tonic-gate (pgaddr + MMU_PAGESIZE - 1 <= 27497c478bd9Sstevel@tonic-gate dma_attr->dma_attr_addr_hi)) { 27507c478bd9Sstevel@tonic-gate break; 27517c478bd9Sstevel@tonic-gate } 27527c478bd9Sstevel@tonic-gate 27537c478bd9Sstevel@tonic-gate /* continue looking */ 27547c478bd9Sstevel@tonic-gate page_unlock(pp); 27557c478bd9Sstevel@tonic-gate pp = pp->p_next; 27567c478bd9Sstevel@tonic-gate if (pp == first_pp) 27577c478bd9Sstevel@tonic-gate pp = NULL; 27587c478bd9Sstevel@tonic-gate } 27597c478bd9Sstevel@tonic-gate 27607c478bd9Sstevel@tonic-gate if (pp != NULL) { 27617c478bd9Sstevel@tonic-gate ASSERT(mtype == PP_2_MTYPE(pp)); 27627c478bd9Sstevel@tonic-gate ASSERT(pp->p_szc == 0); 27637c478bd9Sstevel@tonic-gate 27647c478bd9Sstevel@tonic-gate /* found a page with specified DMA attributes */ 27657c478bd9Sstevel@tonic-gate page_sub(&PAGE_CACHELISTS(mnode, bin, 27667c478bd9Sstevel@tonic-gate mtype), pp); 2767affbd3ccSkchow page_ctr_sub(mnode, mtype, pp, PG_CACHE_LIST); 27687c478bd9Sstevel@tonic-gate 27697c478bd9Sstevel@tonic-gate mutex_exit(pcm); 27707c478bd9Sstevel@tonic-gate ASSERT(pp->p_vnode); 27717c478bd9Sstevel@tonic-gate ASSERT(PP_ISAGED(pp) == 0); 27727c478bd9Sstevel@tonic-gate check_dma(dma_attr, pp, 1); 27737c478bd9Sstevel@tonic-gate VM_STAT_ADD(pga_vmstats.pgma_allocok); 27747c478bd9Sstevel@tonic-gate return (pp); 27757c478bd9Sstevel@tonic-gate } 27767c478bd9Sstevel@tonic-gate mutex_exit(pcm); 27777c478bd9Sstevel@tonic-gate nextcachebin: 27787c478bd9Sstevel@tonic-gate bin += (i == 0) ? BIN_STEP : 1; 27797c478bd9Sstevel@tonic-gate bin &= page_colors_mask; 27807c478bd9Sstevel@tonic-gate } 2781affbd3ccSkchow MTYPE_NEXT(mnode, mtype, flags); 2782affbd3ccSkchow } while (mtype >= 0); 27837c478bd9Sstevel@tonic-gate 27847c478bd9Sstevel@tonic-gate VM_STAT_ADD(pga_vmstats.pgma_allocfailed); 27857c478bd9Sstevel@tonic-gate return (NULL); 27867c478bd9Sstevel@tonic-gate } 27877c478bd9Sstevel@tonic-gate 27887c478bd9Sstevel@tonic-gate /* 27897c478bd9Sstevel@tonic-gate * This function is similar to page_get_freelist()/page_get_cachelist() 27907c478bd9Sstevel@tonic-gate * but it searches both the lists to find a page with the specified 27917c478bd9Sstevel@tonic-gate * color (or no color) and DMA attributes. The search is done in the 27927c478bd9Sstevel@tonic-gate * freelist first and then in the cache list within the highest memory 27937c478bd9Sstevel@tonic-gate * range (based on DMA attributes) before searching in the lower 27947c478bd9Sstevel@tonic-gate * memory ranges. 27957c478bd9Sstevel@tonic-gate * 27967c478bd9Sstevel@tonic-gate * Note: This function is called only by page_create_io(). 27977c478bd9Sstevel@tonic-gate */ 27987c478bd9Sstevel@tonic-gate /*ARGSUSED*/ 2799*843e1988Sjohnlev static page_t * 28007c478bd9Sstevel@tonic-gate page_get_anylist(struct vnode *vp, u_offset_t off, struct as *as, caddr_t vaddr, 28017c478bd9Sstevel@tonic-gate size_t size, uint_t flags, ddi_dma_attr_t *dma_attr, lgrp_t *lgrp) 28027c478bd9Sstevel@tonic-gate { 28037c478bd9Sstevel@tonic-gate uint_t bin; 28047c478bd9Sstevel@tonic-gate int mtype; 28057c478bd9Sstevel@tonic-gate page_t *pp; 28067c478bd9Sstevel@tonic-gate int n; 28077c478bd9Sstevel@tonic-gate int m; 28087c478bd9Sstevel@tonic-gate int szc; 28097c478bd9Sstevel@tonic-gate int fullrange; 28107c478bd9Sstevel@tonic-gate int mnode; 28117c478bd9Sstevel@tonic-gate int local_failed_stat = 0; 28127c478bd9Sstevel@tonic-gate lgrp_mnode_cookie_t lgrp_cookie; 28137c478bd9Sstevel@tonic-gate 28147c478bd9Sstevel@tonic-gate VM_STAT_ADD(pga_vmstats.pga_alloc); 28157c478bd9Sstevel@tonic-gate 28167c478bd9Sstevel@tonic-gate /* only base pagesize currently supported */ 28177c478bd9Sstevel@tonic-gate if (size != MMU_PAGESIZE) 28187c478bd9Sstevel@tonic-gate return (NULL); 28197c478bd9Sstevel@tonic-gate 28207c478bd9Sstevel@tonic-gate /* 28217c478bd9Sstevel@tonic-gate * If we're passed a specific lgroup, we use it. Otherwise, 28227c478bd9Sstevel@tonic-gate * assume first-touch placement is desired. 28237c478bd9Sstevel@tonic-gate */ 28247c478bd9Sstevel@tonic-gate if (!LGRP_EXISTS(lgrp)) 28257c478bd9Sstevel@tonic-gate lgrp = lgrp_home_lgrp(); 28267c478bd9Sstevel@tonic-gate 28277c478bd9Sstevel@tonic-gate /* LINTED */ 28285d07b933Sdp AS_2_BIN(as, seg, vp, vaddr, bin, 0); 28297c478bd9Sstevel@tonic-gate 28307c478bd9Sstevel@tonic-gate /* 28317c478bd9Sstevel@tonic-gate * Only hold one freelist or cachelist lock at a time, that way we 28327c478bd9Sstevel@tonic-gate * can start anywhere and not have to worry about lock 28337c478bd9Sstevel@tonic-gate * ordering. 28347c478bd9Sstevel@tonic-gate */ 28357c478bd9Sstevel@tonic-gate if (dma_attr == NULL) { 28367c478bd9Sstevel@tonic-gate n = 0; 28377c478bd9Sstevel@tonic-gate m = mnoderangecnt - 1; 28387c478bd9Sstevel@tonic-gate fullrange = 1; 28397c478bd9Sstevel@tonic-gate VM_STAT_ADD(pga_vmstats.pga_nulldmaattr); 28407c478bd9Sstevel@tonic-gate } else { 28417c478bd9Sstevel@tonic-gate pfn_t pfnlo = mmu_btop(dma_attr->dma_attr_addr_lo); 28427c478bd9Sstevel@tonic-gate pfn_t pfnhi = mmu_btop(dma_attr->dma_attr_addr_hi); 28437c478bd9Sstevel@tonic-gate 28447c478bd9Sstevel@tonic-gate /* 28457c478bd9Sstevel@tonic-gate * We can guarantee alignment only for page boundary. 28467c478bd9Sstevel@tonic-gate */ 28477c478bd9Sstevel@tonic-gate if (dma_attr->dma_attr_align > MMU_PAGESIZE) 28487c478bd9Sstevel@tonic-gate return (NULL); 28497c478bd9Sstevel@tonic-gate 28507c478bd9Sstevel@tonic-gate n = pfn_2_mtype(pfnlo); 28517c478bd9Sstevel@tonic-gate m = pfn_2_mtype(pfnhi); 28527c478bd9Sstevel@tonic-gate 28537c478bd9Sstevel@tonic-gate fullrange = ((pfnlo == mnoderanges[n].mnr_pfnlo) && 28547c478bd9Sstevel@tonic-gate (pfnhi >= mnoderanges[m].mnr_pfnhi)); 28557c478bd9Sstevel@tonic-gate } 28567c478bd9Sstevel@tonic-gate VM_STAT_COND_ADD(fullrange == 0, pga_vmstats.pga_notfullrange); 28577c478bd9Sstevel@tonic-gate 28587c478bd9Sstevel@tonic-gate if (n > m) 28597c478bd9Sstevel@tonic-gate return (NULL); 28607c478bd9Sstevel@tonic-gate 28617c478bd9Sstevel@tonic-gate szc = 0; 28627c478bd9Sstevel@tonic-gate 28637c478bd9Sstevel@tonic-gate /* cylcing thru mtype handled by RANGE0 if n == 0 */ 28647c478bd9Sstevel@tonic-gate if (n == 0) { 28657c478bd9Sstevel@tonic-gate flags |= PGI_MT_RANGE0; 28667c478bd9Sstevel@tonic-gate n = m; 28677c478bd9Sstevel@tonic-gate } 28687c478bd9Sstevel@tonic-gate 28697c478bd9Sstevel@tonic-gate /* 28707c478bd9Sstevel@tonic-gate * Try local memory node first, but try remote if we can't 28717c478bd9Sstevel@tonic-gate * get a page of the right color. 28727c478bd9Sstevel@tonic-gate */ 28737c478bd9Sstevel@tonic-gate LGRP_MNODE_COOKIE_INIT(lgrp_cookie, lgrp, LGRP_SRCH_HIER); 28747c478bd9Sstevel@tonic-gate while ((mnode = lgrp_memnode_choose(&lgrp_cookie)) >= 0) { 28757c478bd9Sstevel@tonic-gate /* 28767c478bd9Sstevel@tonic-gate * allocate pages from high pfn to low. 28777c478bd9Sstevel@tonic-gate */ 28787c478bd9Sstevel@tonic-gate for (mtype = m; mtype >= n; mtype--) { 28797c478bd9Sstevel@tonic-gate if (fullrange != 0) { 28807c478bd9Sstevel@tonic-gate pp = page_get_mnode_freelist(mnode, 28817c478bd9Sstevel@tonic-gate bin, mtype, szc, flags); 28827c478bd9Sstevel@tonic-gate if (pp == NULL) { 28837c478bd9Sstevel@tonic-gate pp = page_get_mnode_cachelist( 2884*843e1988Sjohnlev bin, flags, mnode, mtype); 28857c478bd9Sstevel@tonic-gate } 28867c478bd9Sstevel@tonic-gate } else { 28877c478bd9Sstevel@tonic-gate pp = page_get_mnode_anylist(bin, szc, 28887c478bd9Sstevel@tonic-gate flags, mnode, mtype, dma_attr); 28897c478bd9Sstevel@tonic-gate } 28907c478bd9Sstevel@tonic-gate if (pp != NULL) { 28917c478bd9Sstevel@tonic-gate VM_STAT_ADD(pga_vmstats.pga_allocok); 28927c478bd9Sstevel@tonic-gate check_dma(dma_attr, pp, 1); 28937c478bd9Sstevel@tonic-gate return (pp); 28947c478bd9Sstevel@tonic-gate } 28957c478bd9Sstevel@tonic-gate } 28967c478bd9Sstevel@tonic-gate if (!local_failed_stat) { 28977c478bd9Sstevel@tonic-gate lgrp_stat_add(lgrp->lgrp_id, LGRP_NUM_ALLOC_FAIL, 1); 28987c478bd9Sstevel@tonic-gate local_failed_stat = 1; 28997c478bd9Sstevel@tonic-gate } 29007c478bd9Sstevel@tonic-gate } 29017c478bd9Sstevel@tonic-gate VM_STAT_ADD(pga_vmstats.pga_allocfailed); 29027c478bd9Sstevel@tonic-gate 29037c478bd9Sstevel@tonic-gate return (NULL); 29047c478bd9Sstevel@tonic-gate } 29057c478bd9Sstevel@tonic-gate 29067c478bd9Sstevel@tonic-gate /* 29077c478bd9Sstevel@tonic-gate * page_create_io() 29087c478bd9Sstevel@tonic-gate * 29097c478bd9Sstevel@tonic-gate * This function is a copy of page_create_va() with an additional 29107c478bd9Sstevel@tonic-gate * argument 'mattr' that specifies DMA memory requirements to 29117c478bd9Sstevel@tonic-gate * the page list functions. This function is used by the segkmem 29127c478bd9Sstevel@tonic-gate * allocator so it is only to create new pages (i.e PG_EXCL is 29137c478bd9Sstevel@tonic-gate * set). 29147c478bd9Sstevel@tonic-gate * 29157c478bd9Sstevel@tonic-gate * Note: This interface is currently used by x86 PSM only and is 29167c478bd9Sstevel@tonic-gate * not fully specified so the commitment level is only for 29177c478bd9Sstevel@tonic-gate * private interface specific to x86. This interface uses PSM 29187c478bd9Sstevel@tonic-gate * specific page_get_anylist() interface. 29197c478bd9Sstevel@tonic-gate */ 29207c478bd9Sstevel@tonic-gate 29217c478bd9Sstevel@tonic-gate #define PAGE_HASH_SEARCH(index, pp, vp, off) { \ 29227c478bd9Sstevel@tonic-gate for ((pp) = page_hash[(index)]; (pp); (pp) = (pp)->p_hash) { \ 29237c478bd9Sstevel@tonic-gate if ((pp)->p_vnode == (vp) && (pp)->p_offset == (off)) \ 29247c478bd9Sstevel@tonic-gate break; \ 29257c478bd9Sstevel@tonic-gate } \ 29267c478bd9Sstevel@tonic-gate } 29277c478bd9Sstevel@tonic-gate 29287c478bd9Sstevel@tonic-gate 29297c478bd9Sstevel@tonic-gate page_t * 29307c478bd9Sstevel@tonic-gate page_create_io( 29317c478bd9Sstevel@tonic-gate struct vnode *vp, 29327c478bd9Sstevel@tonic-gate u_offset_t off, 29337c478bd9Sstevel@tonic-gate uint_t bytes, 29347c478bd9Sstevel@tonic-gate uint_t flags, 29357c478bd9Sstevel@tonic-gate struct as *as, 29367c478bd9Sstevel@tonic-gate caddr_t vaddr, 29377c478bd9Sstevel@tonic-gate ddi_dma_attr_t *mattr) /* DMA memory attributes if any */ 29387c478bd9Sstevel@tonic-gate { 29397c478bd9Sstevel@tonic-gate page_t *plist = NULL; 29407c478bd9Sstevel@tonic-gate uint_t plist_len = 0; 29417c478bd9Sstevel@tonic-gate pgcnt_t npages; 29427c478bd9Sstevel@tonic-gate page_t *npp = NULL; 29437c478bd9Sstevel@tonic-gate uint_t pages_req; 29447c478bd9Sstevel@tonic-gate page_t *pp; 29457c478bd9Sstevel@tonic-gate kmutex_t *phm = NULL; 29467c478bd9Sstevel@tonic-gate uint_t index; 29477c478bd9Sstevel@tonic-gate 29487c478bd9Sstevel@tonic-gate TRACE_4(TR_FAC_VM, TR_PAGE_CREATE_START, 2949*843e1988Sjohnlev "page_create_start:vp %p off %llx bytes %u flags %x", 2950*843e1988Sjohnlev vp, off, bytes, flags); 29517c478bd9Sstevel@tonic-gate 29527c478bd9Sstevel@tonic-gate ASSERT((flags & ~(PG_EXCL | PG_WAIT | PG_PHYSCONTIG)) == 0); 29537c478bd9Sstevel@tonic-gate 29547c478bd9Sstevel@tonic-gate pages_req = npages = mmu_btopr(bytes); 29557c478bd9Sstevel@tonic-gate 29567c478bd9Sstevel@tonic-gate /* 29577c478bd9Sstevel@tonic-gate * Do the freemem and pcf accounting. 29587c478bd9Sstevel@tonic-gate */ 29597c478bd9Sstevel@tonic-gate if (!page_create_wait(npages, flags)) { 29607c478bd9Sstevel@tonic-gate return (NULL); 29617c478bd9Sstevel@tonic-gate } 29627c478bd9Sstevel@tonic-gate 29637c478bd9Sstevel@tonic-gate TRACE_2(TR_FAC_VM, TR_PAGE_CREATE_SUCCESS, 2964*843e1988Sjohnlev "page_create_success:vp %p off %llx", vp, off); 29657c478bd9Sstevel@tonic-gate 29667c478bd9Sstevel@tonic-gate /* 29677c478bd9Sstevel@tonic-gate * If satisfying this request has left us with too little 29687c478bd9Sstevel@tonic-gate * memory, start the wheels turning to get some back. The 29697c478bd9Sstevel@tonic-gate * first clause of the test prevents waking up the pageout 29707c478bd9Sstevel@tonic-gate * daemon in situations where it would decide that there's 29717c478bd9Sstevel@tonic-gate * nothing to do. 29727c478bd9Sstevel@tonic-gate */ 29737c478bd9Sstevel@tonic-gate if (nscan < desscan && freemem < minfree) { 29747c478bd9Sstevel@tonic-gate TRACE_1(TR_FAC_VM, TR_PAGEOUT_CV_SIGNAL, 2975*843e1988Sjohnlev "pageout_cv_signal:freemem %ld", freemem); 29767c478bd9Sstevel@tonic-gate cv_signal(&proc_pageout->p_cv); 29777c478bd9Sstevel@tonic-gate } 29787c478bd9Sstevel@tonic-gate 29797c478bd9Sstevel@tonic-gate if (flags & PG_PHYSCONTIG) { 29807c478bd9Sstevel@tonic-gate 29817c478bd9Sstevel@tonic-gate plist = page_get_contigpage(&npages, mattr, 1); 29827c478bd9Sstevel@tonic-gate if (plist == NULL) { 29837c478bd9Sstevel@tonic-gate page_create_putback(npages); 29847c478bd9Sstevel@tonic-gate return (NULL); 29857c478bd9Sstevel@tonic-gate } 29867c478bd9Sstevel@tonic-gate 29877c478bd9Sstevel@tonic-gate pp = plist; 29887c478bd9Sstevel@tonic-gate 29897c478bd9Sstevel@tonic-gate do { 29907c478bd9Sstevel@tonic-gate if (!page_hashin(pp, vp, off, NULL)) { 29917c478bd9Sstevel@tonic-gate panic("pg_creat_io: hashin failed %p %p %llx", 29927c478bd9Sstevel@tonic-gate (void *)pp, (void *)vp, off); 29937c478bd9Sstevel@tonic-gate } 29947c478bd9Sstevel@tonic-gate VM_STAT_ADD(page_create_new); 29957c478bd9Sstevel@tonic-gate off += MMU_PAGESIZE; 29967c478bd9Sstevel@tonic-gate PP_CLRFREE(pp); 29977c478bd9Sstevel@tonic-gate PP_CLRAGED(pp); 29987c478bd9Sstevel@tonic-gate page_set_props(pp, P_REF); 29997c478bd9Sstevel@tonic-gate pp = pp->p_next; 30007c478bd9Sstevel@tonic-gate } while (pp != plist); 30017c478bd9Sstevel@tonic-gate 30027c478bd9Sstevel@tonic-gate if (!npages) { 30037c478bd9Sstevel@tonic-gate check_dma(mattr, plist, pages_req); 30047c478bd9Sstevel@tonic-gate return (plist); 30057c478bd9Sstevel@tonic-gate } else { 30067c478bd9Sstevel@tonic-gate vaddr += (pages_req - npages) << MMU_PAGESHIFT; 30077c478bd9Sstevel@tonic-gate } 30087c478bd9Sstevel@tonic-gate 30097c478bd9Sstevel@tonic-gate /* 30107c478bd9Sstevel@tonic-gate * fall-thru: 30117c478bd9Sstevel@tonic-gate * 30127c478bd9Sstevel@tonic-gate * page_get_contigpage returns when npages <= sgllen. 30137c478bd9Sstevel@tonic-gate * Grab the rest of the non-contig pages below from anylist. 30147c478bd9Sstevel@tonic-gate */ 30157c478bd9Sstevel@tonic-gate } 30167c478bd9Sstevel@tonic-gate 30177c478bd9Sstevel@tonic-gate /* 30187c478bd9Sstevel@tonic-gate * Loop around collecting the requested number of pages. 30197c478bd9Sstevel@tonic-gate * Most of the time, we have to `create' a new page. With 30207c478bd9Sstevel@tonic-gate * this in mind, pull the page off the free list before 30217c478bd9Sstevel@tonic-gate * getting the hash lock. This will minimize the hash 30227c478bd9Sstevel@tonic-gate * lock hold time, nesting, and the like. If it turns 30237c478bd9Sstevel@tonic-gate * out we don't need the page, we put it back at the end. 30247c478bd9Sstevel@tonic-gate */ 30257c478bd9Sstevel@tonic-gate while (npages--) { 30267c478bd9Sstevel@tonic-gate phm = NULL; 30277c478bd9Sstevel@tonic-gate 30287c478bd9Sstevel@tonic-gate index = PAGE_HASH_FUNC(vp, off); 30297c478bd9Sstevel@tonic-gate top: 30307c478bd9Sstevel@tonic-gate ASSERT(phm == NULL); 30317c478bd9Sstevel@tonic-gate ASSERT(index == PAGE_HASH_FUNC(vp, off)); 30327c478bd9Sstevel@tonic-gate ASSERT(MUTEX_NOT_HELD(page_vnode_mutex(vp))); 30337c478bd9Sstevel@tonic-gate 30347c478bd9Sstevel@tonic-gate if (npp == NULL) { 30357c478bd9Sstevel@tonic-gate /* 30367c478bd9Sstevel@tonic-gate * Try to get the page of any color either from 30377c478bd9Sstevel@tonic-gate * the freelist or from the cache list. 30387c478bd9Sstevel@tonic-gate */ 30397c478bd9Sstevel@tonic-gate npp = page_get_anylist(vp, off, as, vaddr, MMU_PAGESIZE, 30407c478bd9Sstevel@tonic-gate flags & ~PG_MATCH_COLOR, mattr, NULL); 30417c478bd9Sstevel@tonic-gate if (npp == NULL) { 30427c478bd9Sstevel@tonic-gate if (mattr == NULL) { 30437c478bd9Sstevel@tonic-gate /* 30447c478bd9Sstevel@tonic-gate * Not looking for a special page; 30457c478bd9Sstevel@tonic-gate * panic! 30467c478bd9Sstevel@tonic-gate */ 30477c478bd9Sstevel@tonic-gate panic("no page found %d", (int)npages); 30487c478bd9Sstevel@tonic-gate } 30497c478bd9Sstevel@tonic-gate /* 30507c478bd9Sstevel@tonic-gate * No page found! This can happen 30517c478bd9Sstevel@tonic-gate * if we are looking for a page 30527c478bd9Sstevel@tonic-gate * within a specific memory range 30537c478bd9Sstevel@tonic-gate * for DMA purposes. If PG_WAIT is 30547c478bd9Sstevel@tonic-gate * specified then we wait for a 30557c478bd9Sstevel@tonic-gate * while and then try again. The 30567c478bd9Sstevel@tonic-gate * wait could be forever if we 30577c478bd9Sstevel@tonic-gate * don't get the page(s) we need. 30587c478bd9Sstevel@tonic-gate * 30597c478bd9Sstevel@tonic-gate * Note: XXX We really need a mechanism 30607c478bd9Sstevel@tonic-gate * to wait for pages in the desired 30617c478bd9Sstevel@tonic-gate * range. For now, we wait for any 30627c478bd9Sstevel@tonic-gate * pages and see if we can use it. 30637c478bd9Sstevel@tonic-gate */ 30647c478bd9Sstevel@tonic-gate 30657c478bd9Sstevel@tonic-gate if ((mattr != NULL) && (flags & PG_WAIT)) { 30667c478bd9Sstevel@tonic-gate delay(10); 30677c478bd9Sstevel@tonic-gate goto top; 30687c478bd9Sstevel@tonic-gate } 30697c478bd9Sstevel@tonic-gate goto fail; /* undo accounting stuff */ 30707c478bd9Sstevel@tonic-gate } 30717c478bd9Sstevel@tonic-gate 30727c478bd9Sstevel@tonic-gate if (PP_ISAGED(npp) == 0) { 30737c478bd9Sstevel@tonic-gate /* 30747c478bd9Sstevel@tonic-gate * Since this page came from the 30757c478bd9Sstevel@tonic-gate * cachelist, we must destroy the 30767c478bd9Sstevel@tonic-gate * old vnode association. 30777c478bd9Sstevel@tonic-gate */ 30787c478bd9Sstevel@tonic-gate page_hashout(npp, (kmutex_t *)NULL); 30797c478bd9Sstevel@tonic-gate } 30807c478bd9Sstevel@tonic-gate } 30817c478bd9Sstevel@tonic-gate 30827c478bd9Sstevel@tonic-gate /* 30837c478bd9Sstevel@tonic-gate * We own this page! 30847c478bd9Sstevel@tonic-gate */ 30857c478bd9Sstevel@tonic-gate ASSERT(PAGE_EXCL(npp)); 30867c478bd9Sstevel@tonic-gate ASSERT(npp->p_vnode == NULL); 30877c478bd9Sstevel@tonic-gate ASSERT(!hat_page_is_mapped(npp)); 30887c478bd9Sstevel@tonic-gate PP_CLRFREE(npp); 30897c478bd9Sstevel@tonic-gate PP_CLRAGED(npp); 30907c478bd9Sstevel@tonic-gate 30917c478bd9Sstevel@tonic-gate /* 30927c478bd9Sstevel@tonic-gate * Here we have a page in our hot little mits and are 30937c478bd9Sstevel@tonic-gate * just waiting to stuff it on the appropriate lists. 30947c478bd9Sstevel@tonic-gate * Get the mutex and check to see if it really does 30957c478bd9Sstevel@tonic-gate * not exist. 30967c478bd9Sstevel@tonic-gate */ 30977c478bd9Sstevel@tonic-gate phm = PAGE_HASH_MUTEX(index); 30987c478bd9Sstevel@tonic-gate mutex_enter(phm); 30997c478bd9Sstevel@tonic-gate PAGE_HASH_SEARCH(index, pp, vp, off); 31007c478bd9Sstevel@tonic-gate if (pp == NULL) { 31017c478bd9Sstevel@tonic-gate VM_STAT_ADD(page_create_new); 31027c478bd9Sstevel@tonic-gate pp = npp; 31037c478bd9Sstevel@tonic-gate npp = NULL; 31047c478bd9Sstevel@tonic-gate if (!page_hashin(pp, vp, off, phm)) { 31057c478bd9Sstevel@tonic-gate /* 31067c478bd9Sstevel@tonic-gate * Since we hold the page hash mutex and 31077c478bd9Sstevel@tonic-gate * just searched for this page, page_hashin 31087c478bd9Sstevel@tonic-gate * had better not fail. If it does, that 31097c478bd9Sstevel@tonic-gate * means somethread did not follow the 31107c478bd9Sstevel@tonic-gate * page hash mutex rules. Panic now and 31117c478bd9Sstevel@tonic-gate * get it over with. As usual, go down 31127c478bd9Sstevel@tonic-gate * holding all the locks. 31137c478bd9Sstevel@tonic-gate */ 31147c478bd9Sstevel@tonic-gate ASSERT(MUTEX_HELD(phm)); 31157c478bd9Sstevel@tonic-gate panic("page_create: hashin fail %p %p %llx %p", 31167c478bd9Sstevel@tonic-gate (void *)pp, (void *)vp, off, (void *)phm); 31177c478bd9Sstevel@tonic-gate 31187c478bd9Sstevel@tonic-gate } 31197c478bd9Sstevel@tonic-gate ASSERT(MUTEX_HELD(phm)); 31207c478bd9Sstevel@tonic-gate mutex_exit(phm); 31217c478bd9Sstevel@tonic-gate phm = NULL; 31227c478bd9Sstevel@tonic-gate 31237c478bd9Sstevel@tonic-gate /* 31247c478bd9Sstevel@tonic-gate * Hat layer locking need not be done to set 31257c478bd9Sstevel@tonic-gate * the following bits since the page is not hashed 31267c478bd9Sstevel@tonic-gate * and was on the free list (i.e., had no mappings). 31277c478bd9Sstevel@tonic-gate * 31287c478bd9Sstevel@tonic-gate * Set the reference bit to protect 31297c478bd9Sstevel@tonic-gate * against immediate pageout 31307c478bd9Sstevel@tonic-gate * 31317c478bd9Sstevel@tonic-gate * XXXmh modify freelist code to set reference 31327c478bd9Sstevel@tonic-gate * bit so we don't have to do it here. 31337c478bd9Sstevel@tonic-gate */ 31347c478bd9Sstevel@tonic-gate page_set_props(pp, P_REF); 31357c478bd9Sstevel@tonic-gate } else { 31367c478bd9Sstevel@tonic-gate ASSERT(MUTEX_HELD(phm)); 31377c478bd9Sstevel@tonic-gate mutex_exit(phm); 31387c478bd9Sstevel@tonic-gate phm = NULL; 31397c478bd9Sstevel@tonic-gate /* 31407c478bd9Sstevel@tonic-gate * NOTE: This should not happen for pages associated 31417c478bd9Sstevel@tonic-gate * with kernel vnode 'kvp'. 31427c478bd9Sstevel@tonic-gate */ 31437c478bd9Sstevel@tonic-gate /* XX64 - to debug why this happens! */ 3144ad23a2dbSjohansen ASSERT(!VN_ISKAS(vp)); 3145ad23a2dbSjohansen if (VN_ISKAS(vp)) 31467c478bd9Sstevel@tonic-gate cmn_err(CE_NOTE, 31477c478bd9Sstevel@tonic-gate "page_create: page not expected " 31487c478bd9Sstevel@tonic-gate "in hash list for kernel vnode - pp 0x%p", 31497c478bd9Sstevel@tonic-gate (void *)pp); 31507c478bd9Sstevel@tonic-gate VM_STAT_ADD(page_create_exists); 31517c478bd9Sstevel@tonic-gate goto fail; 31527c478bd9Sstevel@tonic-gate } 31537c478bd9Sstevel@tonic-gate 31547c478bd9Sstevel@tonic-gate /* 31557c478bd9Sstevel@tonic-gate * Got a page! It is locked. Acquire the i/o 31567c478bd9Sstevel@tonic-gate * lock since we are going to use the p_next and 31577c478bd9Sstevel@tonic-gate * p_prev fields to link the requested pages together. 31587c478bd9Sstevel@tonic-gate */ 31597c478bd9Sstevel@tonic-gate page_io_lock(pp); 31607c478bd9Sstevel@tonic-gate page_add(&plist, pp); 31617c478bd9Sstevel@tonic-gate plist = plist->p_next; 31627c478bd9Sstevel@tonic-gate off += MMU_PAGESIZE; 31637c478bd9Sstevel@tonic-gate vaddr += MMU_PAGESIZE; 31647c478bd9Sstevel@tonic-gate } 31657c478bd9Sstevel@tonic-gate 31667c478bd9Sstevel@tonic-gate check_dma(mattr, plist, pages_req); 31677c478bd9Sstevel@tonic-gate return (plist); 31687c478bd9Sstevel@tonic-gate 31697c478bd9Sstevel@tonic-gate fail: 31707c478bd9Sstevel@tonic-gate if (npp != NULL) { 31717c478bd9Sstevel@tonic-gate /* 31727c478bd9Sstevel@tonic-gate * Did not need this page after all. 31737c478bd9Sstevel@tonic-gate * Put it back on the free list. 31747c478bd9Sstevel@tonic-gate */ 31757c478bd9Sstevel@tonic-gate VM_STAT_ADD(page_create_putbacks); 31767c478bd9Sstevel@tonic-gate PP_SETFREE(npp); 31777c478bd9Sstevel@tonic-gate PP_SETAGED(npp); 31787c478bd9Sstevel@tonic-gate npp->p_offset = (u_offset_t)-1; 31797c478bd9Sstevel@tonic-gate page_list_add(npp, PG_FREE_LIST | PG_LIST_TAIL); 31807c478bd9Sstevel@tonic-gate page_unlock(npp); 31817c478bd9Sstevel@tonic-gate } 31827c478bd9Sstevel@tonic-gate 31837c478bd9Sstevel@tonic-gate /* 31847c478bd9Sstevel@tonic-gate * Give up the pages we already got. 31857c478bd9Sstevel@tonic-gate */ 31867c478bd9Sstevel@tonic-gate while (plist != NULL) { 31877c478bd9Sstevel@tonic-gate pp = plist; 31887c478bd9Sstevel@tonic-gate page_sub(&plist, pp); 31897c478bd9Sstevel@tonic-gate page_io_unlock(pp); 31907c478bd9Sstevel@tonic-gate plist_len++; 31917c478bd9Sstevel@tonic-gate /*LINTED: constant in conditional ctx*/ 31927c478bd9Sstevel@tonic-gate VN_DISPOSE(pp, B_INVAL, 0, kcred); 31937c478bd9Sstevel@tonic-gate } 31947c478bd9Sstevel@tonic-gate 31957c478bd9Sstevel@tonic-gate /* 31967c478bd9Sstevel@tonic-gate * VN_DISPOSE does freemem accounting for the pages in plist 31977c478bd9Sstevel@tonic-gate * by calling page_free. So, we need to undo the pcf accounting 31987c478bd9Sstevel@tonic-gate * for only the remaining pages. 31997c478bd9Sstevel@tonic-gate */ 32007c478bd9Sstevel@tonic-gate VM_STAT_ADD(page_create_putbacks); 32017c478bd9Sstevel@tonic-gate page_create_putback(pages_req - plist_len); 32027c478bd9Sstevel@tonic-gate 32037c478bd9Sstevel@tonic-gate return (NULL); 32047c478bd9Sstevel@tonic-gate } 3205*843e1988Sjohnlev #endif /* !__xpv */ 32067c478bd9Sstevel@tonic-gate 32077c478bd9Sstevel@tonic-gate 32087c478bd9Sstevel@tonic-gate /* 32097c478bd9Sstevel@tonic-gate * Copy the data from the physical page represented by "frompp" to 32107c478bd9Sstevel@tonic-gate * that represented by "topp". ppcopy uses CPU->cpu_caddr1 and 32117c478bd9Sstevel@tonic-gate * CPU->cpu_caddr2. It assumes that no one uses either map at interrupt 32127c478bd9Sstevel@tonic-gate * level and no one sleeps with an active mapping there. 32137c478bd9Sstevel@tonic-gate * 32147c478bd9Sstevel@tonic-gate * Note that the ref/mod bits in the page_t's are not affected by 32157c478bd9Sstevel@tonic-gate * this operation, hence it is up to the caller to update them appropriately. 32167c478bd9Sstevel@tonic-gate */ 32178b464eb8Smec int 32187c478bd9Sstevel@tonic-gate ppcopy(page_t *frompp, page_t *topp) 32197c478bd9Sstevel@tonic-gate { 32207c478bd9Sstevel@tonic-gate caddr_t pp_addr1; 32217c478bd9Sstevel@tonic-gate caddr_t pp_addr2; 3222ae115bc7Smrj hat_mempte_t pte1; 3223ae115bc7Smrj hat_mempte_t pte2; 32247c478bd9Sstevel@tonic-gate kmutex_t *ppaddr_mutex; 32258b464eb8Smec label_t ljb; 32268b464eb8Smec int ret = 1; 32277c478bd9Sstevel@tonic-gate 32287c478bd9Sstevel@tonic-gate ASSERT_STACK_ALIGNED(); 32297c478bd9Sstevel@tonic-gate ASSERT(PAGE_LOCKED(frompp)); 32307c478bd9Sstevel@tonic-gate ASSERT(PAGE_LOCKED(topp)); 32317c478bd9Sstevel@tonic-gate 32327c478bd9Sstevel@tonic-gate if (kpm_enable) { 32337c478bd9Sstevel@tonic-gate pp_addr1 = hat_kpm_page2va(frompp, 0); 32347c478bd9Sstevel@tonic-gate pp_addr2 = hat_kpm_page2va(topp, 0); 32357c478bd9Sstevel@tonic-gate kpreempt_disable(); 32367c478bd9Sstevel@tonic-gate } else { 32377c478bd9Sstevel@tonic-gate /* 32387c478bd9Sstevel@tonic-gate * disable pre-emption so that CPU can't change 32397c478bd9Sstevel@tonic-gate */ 32407c478bd9Sstevel@tonic-gate kpreempt_disable(); 32417c478bd9Sstevel@tonic-gate 32427c478bd9Sstevel@tonic-gate pp_addr1 = CPU->cpu_caddr1; 32437c478bd9Sstevel@tonic-gate pp_addr2 = CPU->cpu_caddr2; 3244ae115bc7Smrj pte1 = CPU->cpu_caddr1pte; 3245ae115bc7Smrj pte2 = CPU->cpu_caddr2pte; 32467c478bd9Sstevel@tonic-gate 32477c478bd9Sstevel@tonic-gate ppaddr_mutex = &CPU->cpu_ppaddr_mutex; 32487c478bd9Sstevel@tonic-gate mutex_enter(ppaddr_mutex); 32497c478bd9Sstevel@tonic-gate 32507c478bd9Sstevel@tonic-gate hat_mempte_remap(page_pptonum(frompp), pp_addr1, pte1, 32517c478bd9Sstevel@tonic-gate PROT_READ | HAT_STORECACHING_OK, HAT_LOAD_NOCONSIST); 32527c478bd9Sstevel@tonic-gate hat_mempte_remap(page_pptonum(topp), pp_addr2, pte2, 32537c478bd9Sstevel@tonic-gate PROT_READ | PROT_WRITE | HAT_STORECACHING_OK, 32547c478bd9Sstevel@tonic-gate HAT_LOAD_NOCONSIST); 32557c478bd9Sstevel@tonic-gate } 32567c478bd9Sstevel@tonic-gate 32578b464eb8Smec if (on_fault(&ljb)) { 32588b464eb8Smec ret = 0; 32598b464eb8Smec goto faulted; 32608b464eb8Smec } 32617c478bd9Sstevel@tonic-gate if (use_sse_pagecopy) 3262*843e1988Sjohnlev #ifdef __xpv 3263*843e1988Sjohnlev page_copy_no_xmm(pp_addr2, pp_addr1); 3264*843e1988Sjohnlev #else 32657c478bd9Sstevel@tonic-gate hwblkpagecopy(pp_addr1, pp_addr2); 3266*843e1988Sjohnlev #endif 32677c478bd9Sstevel@tonic-gate else 32687c478bd9Sstevel@tonic-gate bcopy(pp_addr1, pp_addr2, PAGESIZE); 32697c478bd9Sstevel@tonic-gate 32708b464eb8Smec no_fault(); 32718b464eb8Smec faulted: 3272ae115bc7Smrj if (!kpm_enable) { 3273*843e1988Sjohnlev #ifdef __xpv 3274*843e1988Sjohnlev /* 3275*843e1988Sjohnlev * The target page might get used for a page table before any 3276*843e1988Sjohnlev * intervening change to the non-kpm mapping, so blow it away. 3277*843e1988Sjohnlev */ 3278*843e1988Sjohnlev if (HYPERVISOR_update_va_mapping((uintptr_t)pp_addr2, 0, 3279*843e1988Sjohnlev UVMF_INVLPG | UVMF_LOCAL) < 0) 3280*843e1988Sjohnlev panic("HYPERVISOR_update_va_mapping() failed"); 3281*843e1988Sjohnlev #endif 32827c478bd9Sstevel@tonic-gate mutex_exit(ppaddr_mutex); 3283ae115bc7Smrj } 32847c478bd9Sstevel@tonic-gate kpreempt_enable(); 32858b464eb8Smec return (ret); 32867c478bd9Sstevel@tonic-gate } 32877c478bd9Sstevel@tonic-gate 32887c478bd9Sstevel@tonic-gate /* 32897c478bd9Sstevel@tonic-gate * Zero the physical page from off to off + len given by `pp' 32907c478bd9Sstevel@tonic-gate * without changing the reference and modified bits of page. 32917c478bd9Sstevel@tonic-gate * 32927c478bd9Sstevel@tonic-gate * We use this using CPU private page address #2, see ppcopy() for more info. 32937c478bd9Sstevel@tonic-gate * pagezero() must not be called at interrupt level. 32947c478bd9Sstevel@tonic-gate */ 32957c478bd9Sstevel@tonic-gate void 32967c478bd9Sstevel@tonic-gate pagezero(page_t *pp, uint_t off, uint_t len) 32977c478bd9Sstevel@tonic-gate { 32987c478bd9Sstevel@tonic-gate caddr_t pp_addr2; 3299ae115bc7Smrj hat_mempte_t pte2; 33007c478bd9Sstevel@tonic-gate kmutex_t *ppaddr_mutex; 33017c478bd9Sstevel@tonic-gate 33027c478bd9Sstevel@tonic-gate ASSERT_STACK_ALIGNED(); 33037c478bd9Sstevel@tonic-gate ASSERT(len <= MMU_PAGESIZE); 33047c478bd9Sstevel@tonic-gate ASSERT(off <= MMU_PAGESIZE); 33057c478bd9Sstevel@tonic-gate ASSERT(off + len <= MMU_PAGESIZE); 33067c478bd9Sstevel@tonic-gate ASSERT(PAGE_LOCKED(pp)); 33077c478bd9Sstevel@tonic-gate 33087c478bd9Sstevel@tonic-gate if (kpm_enable) { 33097c478bd9Sstevel@tonic-gate pp_addr2 = hat_kpm_page2va(pp, 0); 33107c478bd9Sstevel@tonic-gate kpreempt_disable(); 33117c478bd9Sstevel@tonic-gate } else { 33127c478bd9Sstevel@tonic-gate kpreempt_disable(); 33137c478bd9Sstevel@tonic-gate 33147c478bd9Sstevel@tonic-gate pp_addr2 = CPU->cpu_caddr2; 3315ae115bc7Smrj pte2 = CPU->cpu_caddr2pte; 33167c478bd9Sstevel@tonic-gate 33177c478bd9Sstevel@tonic-gate ppaddr_mutex = &CPU->cpu_ppaddr_mutex; 33187c478bd9Sstevel@tonic-gate mutex_enter(ppaddr_mutex); 33197c478bd9Sstevel@tonic-gate 33207c478bd9Sstevel@tonic-gate hat_mempte_remap(page_pptonum(pp), pp_addr2, pte2, 33217c478bd9Sstevel@tonic-gate PROT_READ | PROT_WRITE | HAT_STORECACHING_OK, 33227c478bd9Sstevel@tonic-gate HAT_LOAD_NOCONSIST); 33237c478bd9Sstevel@tonic-gate } 33247c478bd9Sstevel@tonic-gate 3325ae115bc7Smrj if (use_sse_pagezero) { 3326*843e1988Sjohnlev #ifdef __xpv 3327*843e1988Sjohnlev uint_t rem; 3328*843e1988Sjohnlev 3329*843e1988Sjohnlev /* 3330*843e1988Sjohnlev * zero a byte at a time until properly aligned for 3331*843e1988Sjohnlev * block_zero_no_xmm(). 3332*843e1988Sjohnlev */ 3333*843e1988Sjohnlev while (!P2NPHASE(off, ((uint_t)BLOCKZEROALIGN)) && len-- > 0) 3334*843e1988Sjohnlev pp_addr2[off++] = 0; 3335*843e1988Sjohnlev 3336*843e1988Sjohnlev /* 3337*843e1988Sjohnlev * Now use faster block_zero_no_xmm() for any range 3338*843e1988Sjohnlev * that is properly aligned and sized. 3339*843e1988Sjohnlev */ 3340*843e1988Sjohnlev rem = P2PHASE(len, ((uint_t)BLOCKZEROALIGN)); 3341*843e1988Sjohnlev len -= rem; 3342*843e1988Sjohnlev if (len != 0) { 3343*843e1988Sjohnlev block_zero_no_xmm(pp_addr2 + off, len); 3344*843e1988Sjohnlev off += len; 3345*843e1988Sjohnlev } 3346*843e1988Sjohnlev 3347*843e1988Sjohnlev /* 3348*843e1988Sjohnlev * zero remainder with byte stores. 3349*843e1988Sjohnlev */ 3350*843e1988Sjohnlev while (rem-- > 0) 3351*843e1988Sjohnlev pp_addr2[off++] = 0; 3352*843e1988Sjohnlev #else 33537c478bd9Sstevel@tonic-gate hwblkclr(pp_addr2 + off, len); 3354*843e1988Sjohnlev #endif 3355ae115bc7Smrj } else { 33567c478bd9Sstevel@tonic-gate bzero(pp_addr2 + off, len); 3357ae115bc7Smrj } 33587c478bd9Sstevel@tonic-gate 3359*843e1988Sjohnlev #ifdef __xpv 3360*843e1988Sjohnlev /* 3361*843e1988Sjohnlev * On the hypervisor this page might get used for a page table before 3362*843e1988Sjohnlev * any intervening change to this mapping, so blow it away. 3363*843e1988Sjohnlev */ 3364*843e1988Sjohnlev if (!kpm_enable && HYPERVISOR_update_va_mapping((uintptr_t)pp_addr2, 0, 3365*843e1988Sjohnlev UVMF_INVLPG) < 0) 3366*843e1988Sjohnlev panic("HYPERVISOR_update_va_mapping() failed"); 3367*843e1988Sjohnlev #endif 3368*843e1988Sjohnlev 33697c478bd9Sstevel@tonic-gate if (!kpm_enable) 33707c478bd9Sstevel@tonic-gate mutex_exit(ppaddr_mutex); 33717c478bd9Sstevel@tonic-gate kpreempt_enable(); 33727c478bd9Sstevel@tonic-gate } 33737c478bd9Sstevel@tonic-gate 33747c478bd9Sstevel@tonic-gate /* 33757c478bd9Sstevel@tonic-gate * Platform-dependent page scrub call. 33767c478bd9Sstevel@tonic-gate */ 33777c478bd9Sstevel@tonic-gate void 33787c478bd9Sstevel@tonic-gate pagescrub(page_t *pp, uint_t off, uint_t len) 33797c478bd9Sstevel@tonic-gate { 33807c478bd9Sstevel@tonic-gate /* 33817c478bd9Sstevel@tonic-gate * For now, we rely on the fact that pagezero() will 33827c478bd9Sstevel@tonic-gate * always clear UEs. 33837c478bd9Sstevel@tonic-gate */ 33847c478bd9Sstevel@tonic-gate pagezero(pp, off, len); 33857c478bd9Sstevel@tonic-gate } 33867c478bd9Sstevel@tonic-gate 33877c478bd9Sstevel@tonic-gate /* 33887c478bd9Sstevel@tonic-gate * set up two private addresses for use on a given CPU for use in ppcopy() 33897c478bd9Sstevel@tonic-gate */ 33907c478bd9Sstevel@tonic-gate void 33917c478bd9Sstevel@tonic-gate setup_vaddr_for_ppcopy(struct cpu *cpup) 33927c478bd9Sstevel@tonic-gate { 33937c478bd9Sstevel@tonic-gate void *addr; 3394ae115bc7Smrj hat_mempte_t pte_pa; 33957c478bd9Sstevel@tonic-gate 33967c478bd9Sstevel@tonic-gate addr = vmem_alloc(heap_arena, mmu_ptob(1), VM_SLEEP); 3397ae115bc7Smrj pte_pa = hat_mempte_setup(addr); 33987c478bd9Sstevel@tonic-gate cpup->cpu_caddr1 = addr; 3399ae115bc7Smrj cpup->cpu_caddr1pte = pte_pa; 34007c478bd9Sstevel@tonic-gate 34017c478bd9Sstevel@tonic-gate addr = vmem_alloc(heap_arena, mmu_ptob(1), VM_SLEEP); 3402ae115bc7Smrj pte_pa = hat_mempte_setup(addr); 34037c478bd9Sstevel@tonic-gate cpup->cpu_caddr2 = addr; 3404ae115bc7Smrj cpup->cpu_caddr2pte = pte_pa; 34057c478bd9Sstevel@tonic-gate 34067c478bd9Sstevel@tonic-gate mutex_init(&cpup->cpu_ppaddr_mutex, NULL, MUTEX_DEFAULT, NULL); 34077c478bd9Sstevel@tonic-gate } 34087c478bd9Sstevel@tonic-gate 3409ae115bc7Smrj /* 3410ae115bc7Smrj * Undo setup_vaddr_for_ppcopy 3411ae115bc7Smrj */ 3412ae115bc7Smrj void 3413ae115bc7Smrj teardown_vaddr_for_ppcopy(struct cpu *cpup) 3414ae115bc7Smrj { 3415ae115bc7Smrj mutex_destroy(&cpup->cpu_ppaddr_mutex); 3416ae115bc7Smrj 3417ae115bc7Smrj hat_mempte_release(cpup->cpu_caddr2, cpup->cpu_caddr2pte); 3418ae115bc7Smrj cpup->cpu_caddr2pte = 0; 3419ae115bc7Smrj vmem_free(heap_arena, cpup->cpu_caddr2, mmu_ptob(1)); 3420ae115bc7Smrj cpup->cpu_caddr2 = 0; 3421ae115bc7Smrj 3422ae115bc7Smrj hat_mempte_release(cpup->cpu_caddr1, cpup->cpu_caddr1pte); 3423ae115bc7Smrj cpup->cpu_caddr1pte = 0; 3424ae115bc7Smrj vmem_free(heap_arena, cpup->cpu_caddr1, mmu_ptob(1)); 3425ae115bc7Smrj cpup->cpu_caddr1 = 0; 3426ae115bc7Smrj } 34277c478bd9Sstevel@tonic-gate 34287c478bd9Sstevel@tonic-gate /* 34297c478bd9Sstevel@tonic-gate * Create the pageout scanner thread. The thread has to 34307c478bd9Sstevel@tonic-gate * start at procedure with process pp and priority pri. 34317c478bd9Sstevel@tonic-gate */ 34327c478bd9Sstevel@tonic-gate void 34337c478bd9Sstevel@tonic-gate pageout_init(void (*procedure)(), proc_t *pp, pri_t pri) 34347c478bd9Sstevel@tonic-gate { 34357c478bd9Sstevel@tonic-gate (void) thread_create(NULL, 0, procedure, NULL, 0, pp, TS_RUN, pri); 34367c478bd9Sstevel@tonic-gate } 34377c478bd9Sstevel@tonic-gate 34387c478bd9Sstevel@tonic-gate /* 34397c478bd9Sstevel@tonic-gate * Function for flushing D-cache when performing module relocations 34407c478bd9Sstevel@tonic-gate * to an alternate mapping. Unnecessary on Intel / AMD platforms. 34417c478bd9Sstevel@tonic-gate */ 34427c478bd9Sstevel@tonic-gate void 34437c478bd9Sstevel@tonic-gate dcache_flushall() 34447c478bd9Sstevel@tonic-gate {} 3445102033aaSdp 3446102033aaSdp size_t 3447102033aaSdp exec_get_spslew(void) 3448102033aaSdp { 3449102033aaSdp return (0); 3450102033aaSdp } 3451ae115bc7Smrj 3452ae115bc7Smrj /* 3453ae115bc7Smrj * Allocate a memory page. The argument 'seed' can be any pseudo-random 3454ae115bc7Smrj * number to vary where the pages come from. This is quite a hacked up 3455ae115bc7Smrj * method -- it works for now, but really needs to be fixed up a bit. 3456ae115bc7Smrj * 3457ae115bc7Smrj * We currently use page_create_va() on the kvp with fake offsets, 3458ae115bc7Smrj * segments and virt address. This is pretty bogus, but was copied from the 3459ae115bc7Smrj * old hat_i86.c code. A better approach would be to specify either mnode 3460ae115bc7Smrj * random or mnode local and takes a page from whatever color has the MOST 3461ae115bc7Smrj * available - this would have a minimal impact on page coloring. 3462ae115bc7Smrj */ 3463ae115bc7Smrj page_t * 3464ae115bc7Smrj page_get_physical(uintptr_t seed) 3465ae115bc7Smrj { 3466ae115bc7Smrj page_t *pp; 3467ae115bc7Smrj u_offset_t offset; 3468ae115bc7Smrj static struct seg tmpseg; 3469ae115bc7Smrj static uintptr_t ctr = 0; 3470ae115bc7Smrj 3471ae115bc7Smrj /* 3472ae115bc7Smrj * This code is gross, we really need a simpler page allocator. 3473ae115bc7Smrj * 3474ae115bc7Smrj * We need assign an offset for the page to call page_create_va(). 3475ae115bc7Smrj * To avoid conflicts with other pages, we get creative with the offset. 3476ae115bc7Smrj * For 32 bits, we pick an offset > 4Gig 3477ae115bc7Smrj * For 64 bits, pick an offset somewhere in the VA hole. 3478ae115bc7Smrj */ 3479ae115bc7Smrj offset = seed; 3480ae115bc7Smrj if (offset > kernelbase) 3481ae115bc7Smrj offset -= kernelbase; 3482ae115bc7Smrj offset <<= MMU_PAGESHIFT; 3483ae115bc7Smrj #if defined(__amd64) 3484ae115bc7Smrj offset += mmu.hole_start; /* something in VA hole */ 3485ae115bc7Smrj #else 3486ae115bc7Smrj offset += 1ULL << 40; /* something > 4 Gig */ 3487ae115bc7Smrj #endif 3488ae115bc7Smrj 3489ae115bc7Smrj if (page_resv(1, KM_NOSLEEP) == 0) 3490ae115bc7Smrj return (NULL); 3491ae115bc7Smrj 3492ae115bc7Smrj #ifdef DEBUG 3493ae115bc7Smrj pp = page_exists(&kvp, offset); 3494ae115bc7Smrj if (pp != NULL) 3495ae115bc7Smrj panic("page already exists %p", pp); 3496ae115bc7Smrj #endif 3497ae115bc7Smrj 3498*843e1988Sjohnlev pp = page_create_va(&kvp, offset, MMU_PAGESIZE, PG_EXCL, 3499ae115bc7Smrj &tmpseg, (caddr_t)(ctr += MMU_PAGESIZE)); /* changing VA usage */ 3500ae115bc7Smrj if (pp == NULL) 3501ae115bc7Smrj return (NULL); 3502ae115bc7Smrj page_io_unlock(pp); 3503ae115bc7Smrj page_hashout(pp, NULL); 3504ae115bc7Smrj return (pp); 3505ae115bc7Smrj } 3506