10616c1c3SMichael Corcoran /* 20616c1c3SMichael Corcoran * CDDL HEADER START 30616c1c3SMichael Corcoran * 40616c1c3SMichael Corcoran * The contents of this file are subject to the terms of the 50616c1c3SMichael Corcoran * Common Development and Distribution License (the "License"). 60616c1c3SMichael Corcoran * You may not use this file except in compliance with the License. 70616c1c3SMichael Corcoran * 80616c1c3SMichael Corcoran * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 90616c1c3SMichael Corcoran * or http://www.opensolaris.org/os/licensing. 100616c1c3SMichael Corcoran * See the License for the specific language governing permissions 110616c1c3SMichael Corcoran * and limitations under the License. 120616c1c3SMichael Corcoran * 130616c1c3SMichael Corcoran * When distributing Covered Code, include this CDDL HEADER in each 140616c1c3SMichael Corcoran * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 150616c1c3SMichael Corcoran * If applicable, add the following below this CDDL HEADER, with the 160616c1c3SMichael Corcoran * fields enclosed by brackets "[]" replaced with your own identifying 170616c1c3SMichael Corcoran * information: Portions Copyright [yyyy] [name of copyright owner] 180616c1c3SMichael Corcoran * 190616c1c3SMichael Corcoran * CDDL HEADER END 200616c1c3SMichael Corcoran */ 210616c1c3SMichael Corcoran /* 22980cf3cfSMichael Corcoran * Copyright 2009 Sun Microsystems, Inc. All rights reserved. 230616c1c3SMichael Corcoran * Use is subject to license terms. 240616c1c3SMichael Corcoran */ 250616c1c3SMichael Corcoran 260616c1c3SMichael Corcoran #include <sys/types.h> 270616c1c3SMichael Corcoran #include <sys/sysmacros.h> 280616c1c3SMichael Corcoran #include <sys/kmem.h> 290616c1c3SMichael Corcoran #include <sys/param.h> 300616c1c3SMichael Corcoran #include <sys/systm.h> 310616c1c3SMichael Corcoran #include <sys/errno.h> 320616c1c3SMichael Corcoran #include <sys/mman.h> 330616c1c3SMichael Corcoran #include <sys/cmn_err.h> 340616c1c3SMichael Corcoran #include <sys/cred.h> 350616c1c3SMichael Corcoran #include <sys/vmsystm.h> 3679b24695SMichael Corcoran #include <sys/machsystm.h> 370616c1c3SMichael Corcoran #include <sys/debug.h> 380616c1c3SMichael Corcoran #include <vm/as.h> 390616c1c3SMichael Corcoran #include <vm/seg.h> 400616c1c3SMichael Corcoran #include <sys/vmparam.h> 410616c1c3SMichael Corcoran #include <sys/vfs.h> 420616c1c3SMichael Corcoran #include <sys/elf.h> 430616c1c3SMichael Corcoran #include <sys/machelf.h> 440616c1c3SMichael Corcoran #include <sys/corectl.h> 450616c1c3SMichael Corcoran #include <sys/exec.h> 460616c1c3SMichael Corcoran #include <sys/exechdr.h> 470616c1c3SMichael Corcoran #include <sys/autoconf.h> 480616c1c3SMichael Corcoran #include <sys/mem.h> 490616c1c3SMichael Corcoran #include <vm/seg_dev.h> 500616c1c3SMichael Corcoran #include <sys/vmparam.h> 510616c1c3SMichael Corcoran #include <sys/mmapobj.h> 520616c1c3SMichael Corcoran #include <sys/atomic.h> 530616c1c3SMichael Corcoran 540616c1c3SMichael Corcoran /* 550616c1c3SMichael Corcoran * Theory statement: 560616c1c3SMichael Corcoran * 570616c1c3SMichael Corcoran * The main driving force behind mmapobj is to interpret and map ELF files 580616c1c3SMichael Corcoran * inside of the kernel instead of having the linker be responsible for this. 590616c1c3SMichael Corcoran * 600616c1c3SMichael Corcoran * mmapobj also supports the AOUT 4.x binary format as well as flat files in 610616c1c3SMichael Corcoran * a read only manner. 620616c1c3SMichael Corcoran * 630616c1c3SMichael Corcoran * When interpreting and mapping an ELF file, mmapobj will map each PT_LOAD 640616c1c3SMichael Corcoran * or PT_SUNWBSS segment according to the ELF standard. Refer to the "Linker 650616c1c3SMichael Corcoran * and Libraries Guide" for more information about the standard and mapping 660616c1c3SMichael Corcoran * rules. 670616c1c3SMichael Corcoran * 680616c1c3SMichael Corcoran * Having mmapobj interpret and map objects will allow the kernel to make the 690616c1c3SMichael Corcoran * best decision for where to place the mappings for said objects. Thus, we 700616c1c3SMichael Corcoran * can make optimizations inside of the kernel for specific platforms or 710616c1c3SMichael Corcoran * cache mapping information to make mapping objects faster. 720616c1c3SMichael Corcoran * 730616c1c3SMichael Corcoran * The lib_va_hash will be one such optimization. For each ELF object that 740616c1c3SMichael Corcoran * mmapobj is asked to interpret, we will attempt to cache the information 750616c1c3SMichael Corcoran * about the PT_LOAD and PT_SUNWBSS sections to speed up future mappings of 760616c1c3SMichael Corcoran * the same objects. We will cache up to LIBVA_CACHED_SEGS (see below) program 770616c1c3SMichael Corcoran * headers which should cover a majority of the libraries out there without 780616c1c3SMichael Corcoran * wasting space. In order to make sure that the cached information is valid, 790616c1c3SMichael Corcoran * we check the passed in vnode's mtime and ctime to make sure the vnode 800616c1c3SMichael Corcoran * has not been modified since the last time we used it. 810616c1c3SMichael Corcoran * 820616c1c3SMichael Corcoran * In addition, the lib_va_hash may contain a preferred starting VA for the 830616c1c3SMichael Corcoran * object which can be useful for platforms which support a shared context. 840616c1c3SMichael Corcoran * This will increase the likelyhood that library text can be shared among 850616c1c3SMichael Corcoran * many different processes. We limit the reserved VA space for 32 bit objects 860616c1c3SMichael Corcoran * in order to minimize fragmenting the processes address space. 870616c1c3SMichael Corcoran * 880616c1c3SMichael Corcoran * In addition to the above, the mmapobj interface allows for padding to be 890616c1c3SMichael Corcoran * requested before the first mapping and after the last mapping created. 900616c1c3SMichael Corcoran * When padding is requested, no additional optimizations will be made for 910616c1c3SMichael Corcoran * that request. 920616c1c3SMichael Corcoran */ 930616c1c3SMichael Corcoran 940616c1c3SMichael Corcoran /* 950616c1c3SMichael Corcoran * Threshold to prevent allocating too much kernel memory to read in the 960616c1c3SMichael Corcoran * program headers for an object. If it requires more than below, 970616c1c3SMichael Corcoran * we will use a KM_NOSLEEP allocation to allocate memory to hold all of the 980616c1c3SMichael Corcoran * program headers which could possibly fail. If less memory than below is 990616c1c3SMichael Corcoran * needed, then we use a KM_SLEEP allocation and are willing to wait for the 1000616c1c3SMichael Corcoran * memory if we need to. 1010616c1c3SMichael Corcoran */ 1020616c1c3SMichael Corcoran size_t mmapobj_alloc_threshold = 65536; 1030616c1c3SMichael Corcoran 1040616c1c3SMichael Corcoran /* Debug stats for test coverage */ 1050616c1c3SMichael Corcoran #ifdef DEBUG 1060616c1c3SMichael Corcoran struct mobj_stats { 1070616c1c3SMichael Corcoran uint_t mobjs_unmap_called; 1080616c1c3SMichael Corcoran uint_t mobjs_remap_devnull; 1090616c1c3SMichael Corcoran uint_t mobjs_lookup_start; 1100616c1c3SMichael Corcoran uint_t mobjs_alloc_start; 1110616c1c3SMichael Corcoran uint_t mobjs_alloc_vmem; 1120616c1c3SMichael Corcoran uint_t mobjs_add_collision; 1130616c1c3SMichael Corcoran uint_t mobjs_get_addr; 1140616c1c3SMichael Corcoran uint_t mobjs_map_flat_no_padding; 1150616c1c3SMichael Corcoran uint_t mobjs_map_flat_padding; 1160616c1c3SMichael Corcoran uint_t mobjs_map_ptload_text; 1170616c1c3SMichael Corcoran uint_t mobjs_map_ptload_initdata; 1180616c1c3SMichael Corcoran uint_t mobjs_map_ptload_preread; 1190616c1c3SMichael Corcoran uint_t mobjs_map_ptload_unaligned_text; 1200616c1c3SMichael Corcoran uint_t mobjs_map_ptload_unaligned_map_fail; 1210616c1c3SMichael Corcoran uint_t mobjs_map_ptload_unaligned_read_fail; 1220616c1c3SMichael Corcoran uint_t mobjs_zfoddiff; 1230616c1c3SMichael Corcoran uint_t mobjs_zfoddiff_nowrite; 1240616c1c3SMichael Corcoran uint_t mobjs_zfodextra; 1250616c1c3SMichael Corcoran uint_t mobjs_ptload_failed; 1260616c1c3SMichael Corcoran uint_t mobjs_map_elf_no_holes; 1270616c1c3SMichael Corcoran uint_t mobjs_unmap_hole; 1280616c1c3SMichael Corcoran uint_t mobjs_nomem_header; 129980cf3cfSMichael Corcoran uint_t mobjs_inval_header; 1300616c1c3SMichael Corcoran uint_t mobjs_overlap_header; 1310616c1c3SMichael Corcoran uint_t mobjs_np2_align; 1320616c1c3SMichael Corcoran uint_t mobjs_np2_align_overflow; 1330616c1c3SMichael Corcoran uint_t mobjs_exec_padding; 1340616c1c3SMichael Corcoran uint_t mobjs_exec_addr_mapped; 1350616c1c3SMichael Corcoran uint_t mobjs_exec_addr_devnull; 1360616c1c3SMichael Corcoran uint_t mobjs_exec_addr_in_use; 1370616c1c3SMichael Corcoran uint_t mobjs_lvp_found; 1380616c1c3SMichael Corcoran uint_t mobjs_no_loadable_yet; 1390616c1c3SMichael Corcoran uint_t mobjs_nothing_to_map; 1400616c1c3SMichael Corcoran uint_t mobjs_e2big; 1410616c1c3SMichael Corcoran uint_t mobjs_dyn_pad_align; 1420616c1c3SMichael Corcoran uint_t mobjs_dyn_pad_noalign; 1430616c1c3SMichael Corcoran uint_t mobjs_alloc_start_fail; 1440616c1c3SMichael Corcoran uint_t mobjs_lvp_nocache; 1450616c1c3SMichael Corcoran uint_t mobjs_extra_padding; 1460616c1c3SMichael Corcoran uint_t mobjs_lvp_not_needed; 1470616c1c3SMichael Corcoran uint_t mobjs_no_mem_map_sz; 1480616c1c3SMichael Corcoran uint_t mobjs_check_exec_failed; 1490616c1c3SMichael Corcoran uint_t mobjs_lvp_used; 1500616c1c3SMichael Corcoran uint_t mobjs_wrong_model; 1510616c1c3SMichael Corcoran uint_t mobjs_noexec_fs; 1520616c1c3SMichael Corcoran uint_t mobjs_e2big_et_rel; 1530616c1c3SMichael Corcoran uint_t mobjs_et_rel_mapped; 1540616c1c3SMichael Corcoran uint_t mobjs_unknown_elf_type; 1550616c1c3SMichael Corcoran uint_t mobjs_phent32_too_small; 1560616c1c3SMichael Corcoran uint_t mobjs_phent64_too_small; 1570616c1c3SMichael Corcoran uint_t mobjs_inval_elf_class; 1580616c1c3SMichael Corcoran uint_t mobjs_too_many_phdrs; 1590616c1c3SMichael Corcoran uint_t mobjs_no_phsize; 1600616c1c3SMichael Corcoran uint_t mobjs_phsize_large; 1610616c1c3SMichael Corcoran uint_t mobjs_phsize_xtralarge; 1620616c1c3SMichael Corcoran uint_t mobjs_fast_wrong_model; 1630616c1c3SMichael Corcoran uint_t mobjs_fast_e2big; 1640616c1c3SMichael Corcoran uint_t mobjs_fast; 1650616c1c3SMichael Corcoran uint_t mobjs_fast_success; 1660616c1c3SMichael Corcoran uint_t mobjs_fast_not_now; 1670616c1c3SMichael Corcoran uint_t mobjs_small_file; 1680616c1c3SMichael Corcoran uint_t mobjs_read_error; 1690616c1c3SMichael Corcoran uint_t mobjs_unsupported; 1700616c1c3SMichael Corcoran uint_t mobjs_flat_e2big; 1710616c1c3SMichael Corcoran uint_t mobjs_phent_align32; 1720616c1c3SMichael Corcoran uint_t mobjs_phent_align64; 1730616c1c3SMichael Corcoran uint_t mobjs_lib_va_find_hit; 1740616c1c3SMichael Corcoran uint_t mobjs_lib_va_find_delay_delete; 1750616c1c3SMichael Corcoran uint_t mobjs_lib_va_find_delete; 1760616c1c3SMichael Corcoran uint_t mobjs_lib_va_add_delay_delete; 1770616c1c3SMichael Corcoran uint_t mobjs_lib_va_add_delete; 17879b24695SMichael Corcoran uint_t mobjs_lib_va_create_failure; 179c1106aa8SMichael Corcoran uint_t mobjs_min_align; 1800616c1c3SMichael Corcoran #if defined(__sparc) 1810616c1c3SMichael Corcoran uint_t mobjs_aout_uzero_fault; 1820616c1c3SMichael Corcoran uint_t mobjs_aout_64bit_try; 1830616c1c3SMichael Corcoran uint_t mobjs_aout_noexec; 1840616c1c3SMichael Corcoran uint_t mobjs_aout_e2big; 1850616c1c3SMichael Corcoran uint_t mobjs_aout_lib; 1860616c1c3SMichael Corcoran uint_t mobjs_aout_fixed; 1870616c1c3SMichael Corcoran uint_t mobjs_aout_zfoddiff; 1880616c1c3SMichael Corcoran uint_t mobjs_aout_map_bss; 1890616c1c3SMichael Corcoran uint_t mobjs_aout_bss_fail; 1900616c1c3SMichael Corcoran uint_t mobjs_aout_nlist; 1910616c1c3SMichael Corcoran uint_t mobjs_aout_addr_in_use; 1920616c1c3SMichael Corcoran #endif 1930616c1c3SMichael Corcoran } mobj_stats; 1940616c1c3SMichael Corcoran 1950616c1c3SMichael Corcoran #define MOBJ_STAT_ADD(stat) ((mobj_stats.mobjs_##stat)++) 1960616c1c3SMichael Corcoran #else 1970616c1c3SMichael Corcoran #define MOBJ_STAT_ADD(stat) 1980616c1c3SMichael Corcoran #endif 1990616c1c3SMichael Corcoran 200*1e1e1eecSMichael Corcoran /* 201*1e1e1eecSMichael Corcoran * Check if addr is at or above the address space reserved for the stack. 202*1e1e1eecSMichael Corcoran * The stack is at the top of the address space for all sparc processes 203*1e1e1eecSMichael Corcoran * and 64 bit x86 processes. For 32 bit x86, the stack is not at the top 204*1e1e1eecSMichael Corcoran * of the address space and thus this check wil always return false for 205*1e1e1eecSMichael Corcoran * 32 bit x86 processes. 206*1e1e1eecSMichael Corcoran */ 207*1e1e1eecSMichael Corcoran #if defined(__sparc) 208*1e1e1eecSMichael Corcoran #define OVERLAPS_STACK(addr, p) \ 209*1e1e1eecSMichael Corcoran (addr >= (p->p_usrstack - ((p->p_stk_ctl + PAGEOFFSET) & PAGEMASK))) 210*1e1e1eecSMichael Corcoran #elif defined(__amd64) 211*1e1e1eecSMichael Corcoran #define OVERLAPS_STACK(addr, p) \ 212*1e1e1eecSMichael Corcoran ((p->p_model == DATAMODEL_LP64) && \ 213*1e1e1eecSMichael Corcoran (addr >= (p->p_usrstack - ((p->p_stk_ctl + PAGEOFFSET) & PAGEMASK)))) 214*1e1e1eecSMichael Corcoran #elif defined(__i386) 215*1e1e1eecSMichael Corcoran #define OVERLAPS_STACK(addr, p) 0 216*1e1e1eecSMichael Corcoran #endif 217*1e1e1eecSMichael Corcoran 2180616c1c3SMichael Corcoran /* lv_flags values - bitmap */ 2190616c1c3SMichael Corcoran #define LV_ELF32 0x1 /* 32 bit ELF file */ 2200616c1c3SMichael Corcoran #define LV_ELF64 0x2 /* 64 bit ELF file */ 2210616c1c3SMichael Corcoran #define LV_DEL 0x4 /* delete when lv_refcnt hits zero */ 2220616c1c3SMichael Corcoran 2230616c1c3SMichael Corcoran /* 2240616c1c3SMichael Corcoran * Note: lv_num_segs will denote how many segments this file has and will 2250616c1c3SMichael Corcoran * only be set after the lv_mps array has been filled out. 2260616c1c3SMichael Corcoran * lv_mps can only be valid if lv_num_segs is non-zero. 2270616c1c3SMichael Corcoran */ 2280616c1c3SMichael Corcoran struct lib_va { 2290616c1c3SMichael Corcoran struct lib_va *lv_next; 2300616c1c3SMichael Corcoran caddr_t lv_base_va; /* start va for library */ 2310616c1c3SMichael Corcoran ssize_t lv_len; /* total va span of library */ 2320616c1c3SMichael Corcoran size_t lv_align; /* minimum alignment */ 2330616c1c3SMichael Corcoran uint64_t lv_nodeid; /* filesystem node id */ 2340616c1c3SMichael Corcoran uint64_t lv_fsid; /* filesystem id */ 2350616c1c3SMichael Corcoran timestruc_t lv_ctime; /* last time file was changed */ 2360616c1c3SMichael Corcoran timestruc_t lv_mtime; /* or modified */ 2370616c1c3SMichael Corcoran mmapobj_result_t lv_mps[LIBVA_CACHED_SEGS]; /* cached pheaders */ 2380616c1c3SMichael Corcoran int lv_num_segs; /* # segs for this file */ 2390616c1c3SMichael Corcoran int lv_flags; 2400616c1c3SMichael Corcoran uint_t lv_refcnt; /* number of holds on struct */ 2410616c1c3SMichael Corcoran }; 2420616c1c3SMichael Corcoran 2430616c1c3SMichael Corcoran #define LIB_VA_SIZE 1024 2440616c1c3SMichael Corcoran #define LIB_VA_MASK (LIB_VA_SIZE - 1) 2450616c1c3SMichael Corcoran #define LIB_VA_MUTEX_SHIFT 3 2460616c1c3SMichael Corcoran 2470616c1c3SMichael Corcoran #if (LIB_VA_SIZE & (LIB_VA_SIZE - 1)) 2480616c1c3SMichael Corcoran #error "LIB_VA_SIZE is not a power of 2" 2490616c1c3SMichael Corcoran #endif 2500616c1c3SMichael Corcoran 2510616c1c3SMichael Corcoran static struct lib_va *lib_va_hash[LIB_VA_SIZE]; 2520616c1c3SMichael Corcoran static kmutex_t lib_va_hash_mutex[LIB_VA_SIZE >> LIB_VA_MUTEX_SHIFT]; 2530616c1c3SMichael Corcoran 2540616c1c3SMichael Corcoran #define LIB_VA_HASH_MUTEX(index) \ 2550616c1c3SMichael Corcoran (&lib_va_hash_mutex[index >> LIB_VA_MUTEX_SHIFT]) 2560616c1c3SMichael Corcoran 2570616c1c3SMichael Corcoran #define LIB_VA_HASH(nodeid) \ 2580616c1c3SMichael Corcoran (((nodeid) ^ ((nodeid) << 7) ^ ((nodeid) << 13)) & LIB_VA_MASK) 2590616c1c3SMichael Corcoran 2600616c1c3SMichael Corcoran #define LIB_VA_MATCH_ID(arg1, arg2) \ 2610616c1c3SMichael Corcoran ((arg1)->lv_nodeid == (arg2)->va_nodeid && \ 2620616c1c3SMichael Corcoran (arg1)->lv_fsid == (arg2)->va_fsid) 2630616c1c3SMichael Corcoran 2640616c1c3SMichael Corcoran #define LIB_VA_MATCH_TIME(arg1, arg2) \ 2650616c1c3SMichael Corcoran ((arg1)->lv_ctime.tv_sec == (arg2)->va_ctime.tv_sec && \ 2660616c1c3SMichael Corcoran (arg1)->lv_mtime.tv_sec == (arg2)->va_mtime.tv_sec && \ 2670616c1c3SMichael Corcoran (arg1)->lv_ctime.tv_nsec == (arg2)->va_ctime.tv_nsec && \ 2680616c1c3SMichael Corcoran (arg1)->lv_mtime.tv_nsec == (arg2)->va_mtime.tv_nsec) 2690616c1c3SMichael Corcoran 2700616c1c3SMichael Corcoran #define LIB_VA_MATCH(arg1, arg2) \ 2710616c1c3SMichael Corcoran (LIB_VA_MATCH_ID(arg1, arg2) && LIB_VA_MATCH_TIME(arg1, arg2)) 2720616c1c3SMichael Corcoran 2730616c1c3SMichael Corcoran /* 27479b24695SMichael Corcoran * lib_va will be used for optimized allocation of address ranges for 27579b24695SMichael Corcoran * libraries, such that subsequent mappings of the same library will attempt 27679b24695SMichael Corcoran * to use the same VA as previous mappings of that library. 2770616c1c3SMichael Corcoran * In order to map libraries at the same VA in many processes, we need to carve 2780616c1c3SMichael Corcoran * out our own address space for them which is unique across many processes. 2790616c1c3SMichael Corcoran * We use different arenas for 32 bit and 64 bit libraries. 2800616c1c3SMichael Corcoran * 2810616c1c3SMichael Corcoran * Since the 32 bit address space is relatively small, we limit the number of 2820616c1c3SMichael Corcoran * libraries which try to use consistent virtual addresses to lib_threshold. 2830616c1c3SMichael Corcoran * For 64 bit libraries there is no such limit since the address space is large. 2840616c1c3SMichael Corcoran */ 2850616c1c3SMichael Corcoran static vmem_t *lib_va_32_arena; 2860616c1c3SMichael Corcoran static vmem_t *lib_va_64_arena; 2870616c1c3SMichael Corcoran uint_t lib_threshold = 20; /* modifiable via /etc/system */ 2880616c1c3SMichael Corcoran 28979b24695SMichael Corcoran static kmutex_t lib_va_init_mutex; /* no need to initialize */ 29079b24695SMichael Corcoran 2910616c1c3SMichael Corcoran /* 2920616c1c3SMichael Corcoran * Number of 32 bit and 64 bit libraries in lib_va hash. 2930616c1c3SMichael Corcoran */ 2940616c1c3SMichael Corcoran static uint_t libs_mapped_32 = 0; 2950616c1c3SMichael Corcoran static uint_t libs_mapped_64 = 0; 2960616c1c3SMichael Corcoran 2970616c1c3SMichael Corcoran /* 2980616c1c3SMichael Corcoran * Free up the resources associated with lvp as well as lvp itself. 2990616c1c3SMichael Corcoran * We also decrement the number of libraries mapped via a lib_va 3000616c1c3SMichael Corcoran * cached virtual address. 3010616c1c3SMichael Corcoran */ 3020616c1c3SMichael Corcoran void 3030616c1c3SMichael Corcoran lib_va_free(struct lib_va *lvp) 3040616c1c3SMichael Corcoran { 3050616c1c3SMichael Corcoran int is_64bit = lvp->lv_flags & LV_ELF64; 3060616c1c3SMichael Corcoran ASSERT(lvp->lv_refcnt == 0); 3070616c1c3SMichael Corcoran 3080616c1c3SMichael Corcoran if (lvp->lv_base_va != NULL) { 3090616c1c3SMichael Corcoran vmem_xfree(is_64bit ? lib_va_64_arena : lib_va_32_arena, 3100616c1c3SMichael Corcoran lvp->lv_base_va, lvp->lv_len); 3110616c1c3SMichael Corcoran if (is_64bit) { 3120616c1c3SMichael Corcoran atomic_add_32(&libs_mapped_64, -1); 3130616c1c3SMichael Corcoran } else { 3140616c1c3SMichael Corcoran atomic_add_32(&libs_mapped_32, -1); 3150616c1c3SMichael Corcoran } 3160616c1c3SMichael Corcoran } 3170616c1c3SMichael Corcoran kmem_free(lvp, sizeof (struct lib_va)); 3180616c1c3SMichael Corcoran } 3190616c1c3SMichael Corcoran 3200616c1c3SMichael Corcoran /* 3210616c1c3SMichael Corcoran * See if the file associated with the vap passed in is in the lib_va hash. 3220616c1c3SMichael Corcoran * If it is and the file has not been modified since last use, then 3230616c1c3SMichael Corcoran * return a pointer to that data. Otherwise, return NULL if the file has 3240616c1c3SMichael Corcoran * changed or the file was not found in the hash. 3250616c1c3SMichael Corcoran */ 3260616c1c3SMichael Corcoran static struct lib_va * 3270616c1c3SMichael Corcoran lib_va_find(vattr_t *vap) 3280616c1c3SMichael Corcoran { 3290616c1c3SMichael Corcoran struct lib_va *lvp; 3300616c1c3SMichael Corcoran struct lib_va *del = NULL; 3310616c1c3SMichael Corcoran struct lib_va **tmp; 3320616c1c3SMichael Corcoran uint_t index; 3330616c1c3SMichael Corcoran index = LIB_VA_HASH(vap->va_nodeid); 3340616c1c3SMichael Corcoran 3350616c1c3SMichael Corcoran mutex_enter(LIB_VA_HASH_MUTEX(index)); 3360616c1c3SMichael Corcoran tmp = &lib_va_hash[index]; 3370616c1c3SMichael Corcoran while (*tmp != NULL) { 3380616c1c3SMichael Corcoran lvp = *tmp; 3390616c1c3SMichael Corcoran if (LIB_VA_MATCH_ID(lvp, vap)) { 3400616c1c3SMichael Corcoran if (LIB_VA_MATCH_TIME(lvp, vap)) { 3410616c1c3SMichael Corcoran ASSERT((lvp->lv_flags & LV_DEL) == 0); 3420616c1c3SMichael Corcoran lvp->lv_refcnt++; 3430616c1c3SMichael Corcoran MOBJ_STAT_ADD(lib_va_find_hit); 3440616c1c3SMichael Corcoran } else { 3450616c1c3SMichael Corcoran /* 3460616c1c3SMichael Corcoran * file was updated since last use. 3470616c1c3SMichael Corcoran * need to remove it from list. 3480616c1c3SMichael Corcoran */ 3490616c1c3SMichael Corcoran del = lvp; 3500616c1c3SMichael Corcoran *tmp = del->lv_next; 3510616c1c3SMichael Corcoran del->lv_next = NULL; 3520616c1c3SMichael Corcoran /* 3530616c1c3SMichael Corcoran * If we can't delete it now, mark it for later 3540616c1c3SMichael Corcoran */ 3550616c1c3SMichael Corcoran if (del->lv_refcnt) { 3560616c1c3SMichael Corcoran MOBJ_STAT_ADD(lib_va_find_delay_delete); 3570616c1c3SMichael Corcoran del->lv_flags |= LV_DEL; 3580616c1c3SMichael Corcoran del = NULL; 3590616c1c3SMichael Corcoran } 3600616c1c3SMichael Corcoran lvp = NULL; 3610616c1c3SMichael Corcoran } 3620616c1c3SMichael Corcoran mutex_exit(LIB_VA_HASH_MUTEX(index)); 3630616c1c3SMichael Corcoran if (del) { 3640616c1c3SMichael Corcoran ASSERT(del->lv_refcnt == 0); 3650616c1c3SMichael Corcoran MOBJ_STAT_ADD(lib_va_find_delete); 3660616c1c3SMichael Corcoran lib_va_free(del); 3670616c1c3SMichael Corcoran } 3680616c1c3SMichael Corcoran return (lvp); 3690616c1c3SMichael Corcoran } 3700616c1c3SMichael Corcoran tmp = &lvp->lv_next; 3710616c1c3SMichael Corcoran } 3720616c1c3SMichael Corcoran mutex_exit(LIB_VA_HASH_MUTEX(index)); 3730616c1c3SMichael Corcoran return (NULL); 3740616c1c3SMichael Corcoran } 3750616c1c3SMichael Corcoran 3760616c1c3SMichael Corcoran /* 3770616c1c3SMichael Corcoran * Add a new entry to the lib_va hash. 3780616c1c3SMichael Corcoran * Search the hash while holding the appropriate mutex to make sure that the 3790616c1c3SMichael Corcoran * data is not already in the cache. If we find data that is in the cache 3800616c1c3SMichael Corcoran * already and has not been modified since last use, we return NULL. If it 3810616c1c3SMichael Corcoran * has been modified since last use, we will remove that entry from 3820616c1c3SMichael Corcoran * the hash and it will be deleted once it's reference count reaches zero. 3830616c1c3SMichael Corcoran * If there is no current entry in the hash we will add the new entry and 3840616c1c3SMichael Corcoran * return it to the caller who is responsible for calling lib_va_release to 3850616c1c3SMichael Corcoran * drop their reference count on it. 3860616c1c3SMichael Corcoran * 3870616c1c3SMichael Corcoran * lv_num_segs will be set to zero since the caller needs to add that 3880616c1c3SMichael Corcoran * information to the data structure. 3890616c1c3SMichael Corcoran */ 3900616c1c3SMichael Corcoran static struct lib_va * 3910616c1c3SMichael Corcoran lib_va_add_hash(caddr_t base_va, ssize_t len, size_t align, vattr_t *vap) 3920616c1c3SMichael Corcoran { 3930616c1c3SMichael Corcoran struct lib_va *lvp; 3940616c1c3SMichael Corcoran uint_t index; 3950616c1c3SMichael Corcoran model_t model; 3960616c1c3SMichael Corcoran struct lib_va **tmp; 3970616c1c3SMichael Corcoran struct lib_va *del = NULL; 3980616c1c3SMichael Corcoran 3990616c1c3SMichael Corcoran model = get_udatamodel(); 4000616c1c3SMichael Corcoran index = LIB_VA_HASH(vap->va_nodeid); 4010616c1c3SMichael Corcoran 4020616c1c3SMichael Corcoran lvp = kmem_alloc(sizeof (struct lib_va), KM_SLEEP); 4030616c1c3SMichael Corcoran 4040616c1c3SMichael Corcoran mutex_enter(LIB_VA_HASH_MUTEX(index)); 4050616c1c3SMichael Corcoran 4060616c1c3SMichael Corcoran /* 4070616c1c3SMichael Corcoran * Make sure not adding same data a second time. 4080616c1c3SMichael Corcoran * The hash chains should be relatively short and adding 4090616c1c3SMichael Corcoran * is a relatively rare event, so it's worth the check. 4100616c1c3SMichael Corcoran */ 4110616c1c3SMichael Corcoran tmp = &lib_va_hash[index]; 4120616c1c3SMichael Corcoran while (*tmp != NULL) { 4130616c1c3SMichael Corcoran if (LIB_VA_MATCH_ID(*tmp, vap)) { 4140616c1c3SMichael Corcoran if (LIB_VA_MATCH_TIME(*tmp, vap)) { 4150616c1c3SMichael Corcoran mutex_exit(LIB_VA_HASH_MUTEX(index)); 4160616c1c3SMichael Corcoran kmem_free(lvp, sizeof (struct lib_va)); 4170616c1c3SMichael Corcoran return (NULL); 4180616c1c3SMichael Corcoran } 4190616c1c3SMichael Corcoran 4200616c1c3SMichael Corcoran /* 4210616c1c3SMichael Corcoran * We have the same nodeid and fsid but the file has 4220616c1c3SMichael Corcoran * been modified since we last saw it. 4230616c1c3SMichael Corcoran * Need to remove the old node and add this new 4240616c1c3SMichael Corcoran * one. 4250616c1c3SMichael Corcoran * Could probably use a callback mechanism to make 4260616c1c3SMichael Corcoran * this cleaner. 4270616c1c3SMichael Corcoran */ 4280616c1c3SMichael Corcoran ASSERT(del == NULL); 4290616c1c3SMichael Corcoran del = *tmp; 4300616c1c3SMichael Corcoran *tmp = del->lv_next; 4310616c1c3SMichael Corcoran del->lv_next = NULL; 4320616c1c3SMichael Corcoran 4330616c1c3SMichael Corcoran /* 4340616c1c3SMichael Corcoran * Check to see if we can free it. If lv_refcnt 4350616c1c3SMichael Corcoran * is greater than zero, than some other thread 4360616c1c3SMichael Corcoran * has a reference to the one we want to delete 4370616c1c3SMichael Corcoran * and we can not delete it. All of this is done 4380616c1c3SMichael Corcoran * under the lib_va_hash_mutex lock so it is atomic. 4390616c1c3SMichael Corcoran */ 4400616c1c3SMichael Corcoran if (del->lv_refcnt) { 4410616c1c3SMichael Corcoran MOBJ_STAT_ADD(lib_va_add_delay_delete); 4420616c1c3SMichael Corcoran del->lv_flags |= LV_DEL; 4430616c1c3SMichael Corcoran del = NULL; 4440616c1c3SMichael Corcoran } 4450616c1c3SMichael Corcoran /* tmp is already advanced */ 4460616c1c3SMichael Corcoran continue; 4470616c1c3SMichael Corcoran } 4480616c1c3SMichael Corcoran tmp = &((*tmp)->lv_next); 4490616c1c3SMichael Corcoran } 4500616c1c3SMichael Corcoran 4510616c1c3SMichael Corcoran lvp->lv_base_va = base_va; 4520616c1c3SMichael Corcoran lvp->lv_len = len; 4530616c1c3SMichael Corcoran lvp->lv_align = align; 4540616c1c3SMichael Corcoran lvp->lv_nodeid = vap->va_nodeid; 4550616c1c3SMichael Corcoran lvp->lv_fsid = vap->va_fsid; 4560616c1c3SMichael Corcoran lvp->lv_ctime.tv_sec = vap->va_ctime.tv_sec; 4570616c1c3SMichael Corcoran lvp->lv_ctime.tv_nsec = vap->va_ctime.tv_nsec; 4580616c1c3SMichael Corcoran lvp->lv_mtime.tv_sec = vap->va_mtime.tv_sec; 4590616c1c3SMichael Corcoran lvp->lv_mtime.tv_nsec = vap->va_mtime.tv_nsec; 4600616c1c3SMichael Corcoran lvp->lv_next = NULL; 4610616c1c3SMichael Corcoran lvp->lv_refcnt = 1; 4620616c1c3SMichael Corcoran 4630616c1c3SMichael Corcoran /* Caller responsible for filling this and lv_mps out */ 4640616c1c3SMichael Corcoran lvp->lv_num_segs = 0; 4650616c1c3SMichael Corcoran 4660616c1c3SMichael Corcoran if (model == DATAMODEL_LP64) { 4670616c1c3SMichael Corcoran lvp->lv_flags = LV_ELF64; 4680616c1c3SMichael Corcoran } else { 4690616c1c3SMichael Corcoran ASSERT(model == DATAMODEL_ILP32); 4700616c1c3SMichael Corcoran lvp->lv_flags = LV_ELF32; 4710616c1c3SMichael Corcoran } 4720616c1c3SMichael Corcoran 4730616c1c3SMichael Corcoran if (base_va != NULL) { 4740616c1c3SMichael Corcoran if (model == DATAMODEL_LP64) { 4750616c1c3SMichael Corcoran atomic_add_32(&libs_mapped_64, 1); 4760616c1c3SMichael Corcoran } else { 4770616c1c3SMichael Corcoran ASSERT(model == DATAMODEL_ILP32); 4780616c1c3SMichael Corcoran atomic_add_32(&libs_mapped_32, 1); 4790616c1c3SMichael Corcoran } 4800616c1c3SMichael Corcoran } 4810616c1c3SMichael Corcoran ASSERT(*tmp == NULL); 4820616c1c3SMichael Corcoran *tmp = lvp; 4830616c1c3SMichael Corcoran mutex_exit(LIB_VA_HASH_MUTEX(index)); 4840616c1c3SMichael Corcoran if (del) { 4850616c1c3SMichael Corcoran ASSERT(del->lv_refcnt == 0); 4860616c1c3SMichael Corcoran MOBJ_STAT_ADD(lib_va_add_delete); 4870616c1c3SMichael Corcoran lib_va_free(del); 4880616c1c3SMichael Corcoran } 4890616c1c3SMichael Corcoran return (lvp); 4900616c1c3SMichael Corcoran } 4910616c1c3SMichael Corcoran 4920616c1c3SMichael Corcoran /* 4930616c1c3SMichael Corcoran * Release the hold on lvp which was acquired by lib_va_find or lib_va_add_hash. 4940616c1c3SMichael Corcoran * In addition, if this is the last hold and lvp is marked for deletion, 4950616c1c3SMichael Corcoran * free up it's reserved address space and free the structure. 4960616c1c3SMichael Corcoran */ 4970616c1c3SMichael Corcoran static void 4980616c1c3SMichael Corcoran lib_va_release(struct lib_va *lvp) 4990616c1c3SMichael Corcoran { 5000616c1c3SMichael Corcoran uint_t index; 5010616c1c3SMichael Corcoran int to_del = 0; 5020616c1c3SMichael Corcoran 5030616c1c3SMichael Corcoran ASSERT(lvp->lv_refcnt > 0); 5040616c1c3SMichael Corcoran 5050616c1c3SMichael Corcoran index = LIB_VA_HASH(lvp->lv_nodeid); 5060616c1c3SMichael Corcoran mutex_enter(LIB_VA_HASH_MUTEX(index)); 5070616c1c3SMichael Corcoran if (--lvp->lv_refcnt == 0 && (lvp->lv_flags & LV_DEL)) { 5080616c1c3SMichael Corcoran to_del = 1; 5090616c1c3SMichael Corcoran } 5100616c1c3SMichael Corcoran mutex_exit(LIB_VA_HASH_MUTEX(index)); 5110616c1c3SMichael Corcoran if (to_del) { 5120616c1c3SMichael Corcoran ASSERT(lvp->lv_next == 0); 5130616c1c3SMichael Corcoran lib_va_free(lvp); 5140616c1c3SMichael Corcoran } 5150616c1c3SMichael Corcoran } 5160616c1c3SMichael Corcoran 5170616c1c3SMichael Corcoran /* 5180616c1c3SMichael Corcoran * Dummy function for mapping through /dev/null 5190616c1c3SMichael Corcoran * Normally I would have used mmmmap in common/io/mem.c 5200616c1c3SMichael Corcoran * but that is a static function, and for /dev/null, it 5210616c1c3SMichael Corcoran * just returns -1. 5220616c1c3SMichael Corcoran */ 5230616c1c3SMichael Corcoran /* ARGSUSED */ 5240616c1c3SMichael Corcoran static int 5250616c1c3SMichael Corcoran mmapobj_dummy(dev_t dev, off_t off, int prot) 5260616c1c3SMichael Corcoran { 5270616c1c3SMichael Corcoran return (-1); 5280616c1c3SMichael Corcoran } 5290616c1c3SMichael Corcoran 5300616c1c3SMichael Corcoran /* 5310616c1c3SMichael Corcoran * Called when an error occurred which requires mmapobj to return failure. 5320616c1c3SMichael Corcoran * All mapped objects will be unmapped and /dev/null mappings will be 5330616c1c3SMichael Corcoran * reclaimed if necessary. 5340616c1c3SMichael Corcoran * num_mapped is the number of elements of mrp which have been mapped, and 5350616c1c3SMichael Corcoran * num_segs is the total number of elements in mrp. 5360616c1c3SMichael Corcoran * For e_type ET_EXEC, we need to unmap all of the elements in mrp since 5370616c1c3SMichael Corcoran * we had already made reservations for them. 5380616c1c3SMichael Corcoran * If num_mapped equals num_segs, then we know that we had fully mapped 5390616c1c3SMichael Corcoran * the file and only need to clean up the segments described. 5400616c1c3SMichael Corcoran * If they are not equal, then for ET_DYN we will unmap the range from the 5410616c1c3SMichael Corcoran * end of the last mapped segment to the end of the last segment in mrp 5420616c1c3SMichael Corcoran * since we would have made a reservation for that memory earlier. 5430616c1c3SMichael Corcoran * If e_type is passed in as zero, num_mapped must equal num_segs. 5440616c1c3SMichael Corcoran */ 5450616c1c3SMichael Corcoran void 5460616c1c3SMichael Corcoran mmapobj_unmap(mmapobj_result_t *mrp, int num_mapped, int num_segs, 5470616c1c3SMichael Corcoran ushort_t e_type) 5480616c1c3SMichael Corcoran { 5490616c1c3SMichael Corcoran int i; 5500616c1c3SMichael Corcoran struct as *as = curproc->p_as; 5510616c1c3SMichael Corcoran caddr_t addr; 5520616c1c3SMichael Corcoran size_t size; 5530616c1c3SMichael Corcoran 5540616c1c3SMichael Corcoran if (e_type == ET_EXEC) { 5550616c1c3SMichael Corcoran num_mapped = num_segs; 5560616c1c3SMichael Corcoran } 5570616c1c3SMichael Corcoran #ifdef DEBUG 5580616c1c3SMichael Corcoran if (e_type == 0) { 5590616c1c3SMichael Corcoran ASSERT(num_mapped == num_segs); 5600616c1c3SMichael Corcoran } 5610616c1c3SMichael Corcoran #endif 5620616c1c3SMichael Corcoran 5630616c1c3SMichael Corcoran MOBJ_STAT_ADD(unmap_called); 5640616c1c3SMichael Corcoran for (i = 0; i < num_mapped; i++) { 5650616c1c3SMichael Corcoran 5660616c1c3SMichael Corcoran /* 5670616c1c3SMichael Corcoran * If we are going to have to create a mapping we need to 5680616c1c3SMichael Corcoran * make sure that no one else will use the address we 5690616c1c3SMichael Corcoran * need to remap between the time it is unmapped and 5700616c1c3SMichael Corcoran * mapped below. 5710616c1c3SMichael Corcoran */ 5720616c1c3SMichael Corcoran if (mrp[i].mr_flags & MR_RESV) { 5730616c1c3SMichael Corcoran as_rangelock(as); 5740616c1c3SMichael Corcoran } 5750616c1c3SMichael Corcoran /* Always need to unmap what we mapped */ 5760616c1c3SMichael Corcoran (void) as_unmap(as, mrp[i].mr_addr, mrp[i].mr_msize); 5770616c1c3SMichael Corcoran 5780616c1c3SMichael Corcoran /* Need to reclaim /dev/null reservation from earlier */ 5790616c1c3SMichael Corcoran if (mrp[i].mr_flags & MR_RESV) { 5800616c1c3SMichael Corcoran struct segdev_crargs dev_a; 5810616c1c3SMichael Corcoran 5820616c1c3SMichael Corcoran ASSERT(e_type != ET_DYN); 5830616c1c3SMichael Corcoran /* 5840616c1c3SMichael Corcoran * Use seg_dev segment driver for /dev/null mapping. 5850616c1c3SMichael Corcoran */ 5860616c1c3SMichael Corcoran dev_a.mapfunc = mmapobj_dummy; 5870616c1c3SMichael Corcoran dev_a.dev = makedevice(mm_major, M_NULL); 5880616c1c3SMichael Corcoran dev_a.offset = 0; 5890616c1c3SMichael Corcoran dev_a.type = 0; /* neither PRIVATE nor SHARED */ 5900616c1c3SMichael Corcoran dev_a.prot = dev_a.maxprot = (uchar_t)PROT_NONE; 5910616c1c3SMichael Corcoran dev_a.hat_attr = 0; 5920616c1c3SMichael Corcoran dev_a.hat_flags = 0; 5930616c1c3SMichael Corcoran 5940616c1c3SMichael Corcoran (void) as_map(as, mrp[i].mr_addr, mrp[i].mr_msize, 5950616c1c3SMichael Corcoran segdev_create, &dev_a); 5960616c1c3SMichael Corcoran MOBJ_STAT_ADD(remap_devnull); 5970616c1c3SMichael Corcoran as_rangeunlock(as); 5980616c1c3SMichael Corcoran } 5990616c1c3SMichael Corcoran } 6000616c1c3SMichael Corcoran 6010616c1c3SMichael Corcoran if (num_mapped != num_segs) { 6020616c1c3SMichael Corcoran ASSERT(e_type == ET_DYN); 6030616c1c3SMichael Corcoran /* Need to unmap any reservation made after last mapped seg */ 6040616c1c3SMichael Corcoran if (num_mapped == 0) { 6050616c1c3SMichael Corcoran addr = mrp[0].mr_addr; 6060616c1c3SMichael Corcoran } else { 6070616c1c3SMichael Corcoran addr = mrp[num_mapped - 1].mr_addr + 6080616c1c3SMichael Corcoran mrp[num_mapped - 1].mr_msize; 6090616c1c3SMichael Corcoran } 6100616c1c3SMichael Corcoran size = (size_t)mrp[num_segs - 1].mr_addr + 6110616c1c3SMichael Corcoran mrp[num_segs - 1].mr_msize - (size_t)addr; 6120616c1c3SMichael Corcoran (void) as_unmap(as, addr, size); 6130616c1c3SMichael Corcoran 6140616c1c3SMichael Corcoran /* 6150616c1c3SMichael Corcoran * Now we need to unmap the holes between mapped segs. 6160616c1c3SMichael Corcoran * Note that we have not mapped all of the segments and thus 6170616c1c3SMichael Corcoran * the holes between segments would not have been unmapped 6180616c1c3SMichael Corcoran * yet. If num_mapped == num_segs, then all of the holes 6190616c1c3SMichael Corcoran * between segments would have already been unmapped. 6200616c1c3SMichael Corcoran */ 6210616c1c3SMichael Corcoran 6220616c1c3SMichael Corcoran for (i = 1; i < num_mapped; i++) { 6230616c1c3SMichael Corcoran addr = mrp[i - 1].mr_addr + mrp[i - 1].mr_msize; 6240616c1c3SMichael Corcoran size = mrp[i].mr_addr - addr; 6250616c1c3SMichael Corcoran (void) as_unmap(as, addr, size); 6260616c1c3SMichael Corcoran } 6270616c1c3SMichael Corcoran } 6280616c1c3SMichael Corcoran } 6290616c1c3SMichael Corcoran 6300616c1c3SMichael Corcoran /* 6310616c1c3SMichael Corcoran * We need to add the start address into mrp so that the unmap function 6320616c1c3SMichael Corcoran * has absolute addresses to use. 6330616c1c3SMichael Corcoran */ 6340616c1c3SMichael Corcoran static void 6350616c1c3SMichael Corcoran mmapobj_unmap_exec(mmapobj_result_t *mrp, int num_mapped, caddr_t start_addr) 6360616c1c3SMichael Corcoran { 6370616c1c3SMichael Corcoran int i; 6380616c1c3SMichael Corcoran 6390616c1c3SMichael Corcoran for (i = 0; i < num_mapped; i++) { 6400616c1c3SMichael Corcoran mrp[i].mr_addr += (size_t)start_addr; 6410616c1c3SMichael Corcoran } 6420616c1c3SMichael Corcoran mmapobj_unmap(mrp, num_mapped, num_mapped, ET_EXEC); 6430616c1c3SMichael Corcoran } 6440616c1c3SMichael Corcoran 6450616c1c3SMichael Corcoran static caddr_t 6460616c1c3SMichael Corcoran mmapobj_lookup_start_addr(struct lib_va *lvp) 6470616c1c3SMichael Corcoran { 648*1e1e1eecSMichael Corcoran proc_t *p = curproc; 649*1e1e1eecSMichael Corcoran struct as *as = p->p_as; 6500616c1c3SMichael Corcoran struct segvn_crargs crargs = SEGVN_ZFOD_ARGS(PROT_USER, PROT_ALL); 6510616c1c3SMichael Corcoran int error; 6520616c1c3SMichael Corcoran uint_t ma_flags = _MAP_LOW32; 6530616c1c3SMichael Corcoran caddr_t base = NULL; 6540616c1c3SMichael Corcoran size_t len; 6550616c1c3SMichael Corcoran size_t align; 6560616c1c3SMichael Corcoran 6570616c1c3SMichael Corcoran ASSERT(lvp != NULL); 6580616c1c3SMichael Corcoran MOBJ_STAT_ADD(lookup_start); 6590616c1c3SMichael Corcoran 6600616c1c3SMichael Corcoran as_rangelock(as); 6610616c1c3SMichael Corcoran 6620616c1c3SMichael Corcoran base = lvp->lv_base_va; 6630616c1c3SMichael Corcoran len = lvp->lv_len; 6640616c1c3SMichael Corcoran 6650616c1c3SMichael Corcoran /* 6660616c1c3SMichael Corcoran * If we don't have an expected base address, or the one that we want 667980cf3cfSMichael Corcoran * to use is not available or acceptable, go get an acceptable 668980cf3cfSMichael Corcoran * address range. 6690616c1c3SMichael Corcoran */ 670980cf3cfSMichael Corcoran if (base == NULL || as_gap(as, len, &base, &len, 0, NULL) || 671980cf3cfSMichael Corcoran valid_usr_range(base, len, PROT_ALL, as, as->a_userlimit) != 672*1e1e1eecSMichael Corcoran RANGE_OKAY || OVERLAPS_STACK(base + len, p)) { 6730616c1c3SMichael Corcoran if (lvp->lv_flags & LV_ELF64) { 6740616c1c3SMichael Corcoran ma_flags = 0; 6750616c1c3SMichael Corcoran } 6760616c1c3SMichael Corcoran 6770616c1c3SMichael Corcoran align = lvp->lv_align; 6780616c1c3SMichael Corcoran if (align > 1) { 6790616c1c3SMichael Corcoran ma_flags |= MAP_ALIGN; 6800616c1c3SMichael Corcoran } 6810616c1c3SMichael Corcoran 6820616c1c3SMichael Corcoran base = (caddr_t)align; 6830616c1c3SMichael Corcoran map_addr(&base, len, 0, 1, ma_flags); 6840616c1c3SMichael Corcoran } 6850616c1c3SMichael Corcoran 6860616c1c3SMichael Corcoran /* 6870616c1c3SMichael Corcoran * Need to reserve the address space we're going to use. 6880616c1c3SMichael Corcoran * Don't reserve swap space since we'll be mapping over this. 6890616c1c3SMichael Corcoran */ 6900616c1c3SMichael Corcoran if (base != NULL) { 6910616c1c3SMichael Corcoran crargs.flags |= MAP_NORESERVE; 6920616c1c3SMichael Corcoran error = as_map(as, base, len, segvn_create, &crargs); 6930616c1c3SMichael Corcoran if (error) { 6940616c1c3SMichael Corcoran base = NULL; 6950616c1c3SMichael Corcoran } 6960616c1c3SMichael Corcoran } 6970616c1c3SMichael Corcoran 6980616c1c3SMichael Corcoran as_rangeunlock(as); 6990616c1c3SMichael Corcoran return (base); 7000616c1c3SMichael Corcoran } 7010616c1c3SMichael Corcoran 7020616c1c3SMichael Corcoran /* 7030616c1c3SMichael Corcoran * Get the starting address for a given file to be mapped and return it 7040616c1c3SMichael Corcoran * to the caller. If we're using lib_va and we need to allocate an address, 7050616c1c3SMichael Corcoran * we will attempt to allocate it from the global reserved pool such that the 7060616c1c3SMichael Corcoran * same address can be used in the future for this file. If we can't use the 7070616c1c3SMichael Corcoran * reserved address then we just get one that will fit in our address space. 7080616c1c3SMichael Corcoran * 7090616c1c3SMichael Corcoran * Returns the starting virtual address for the range to be mapped or NULL 7100616c1c3SMichael Corcoran * if an error is encountered. If we successfully insert the requested info 7110616c1c3SMichael Corcoran * into the lib_va hash, then *lvpp will be set to point to this lib_va 7120616c1c3SMichael Corcoran * structure. The structure will have a hold on it and thus lib_va_release 7130616c1c3SMichael Corcoran * needs to be called on it by the caller. This function will not fill out 7140616c1c3SMichael Corcoran * lv_mps or lv_num_segs since it does not have enough information to do so. 7150616c1c3SMichael Corcoran * The caller is responsible for doing this making sure that any modifications 7160616c1c3SMichael Corcoran * to lv_mps are visible before setting lv_num_segs. 7170616c1c3SMichael Corcoran */ 7180616c1c3SMichael Corcoran static caddr_t 7190616c1c3SMichael Corcoran mmapobj_alloc_start_addr(struct lib_va **lvpp, size_t len, int use_lib_va, 7200616c1c3SMichael Corcoran size_t align, vattr_t *vap) 7210616c1c3SMichael Corcoran { 722*1e1e1eecSMichael Corcoran proc_t *p = curproc; 723*1e1e1eecSMichael Corcoran struct as *as = p->p_as; 7240616c1c3SMichael Corcoran struct segvn_crargs crargs = SEGVN_ZFOD_ARGS(PROT_USER, PROT_ALL); 7250616c1c3SMichael Corcoran int error; 7260616c1c3SMichael Corcoran model_t model; 7270616c1c3SMichael Corcoran uint_t ma_flags = _MAP_LOW32; 7280616c1c3SMichael Corcoran caddr_t base = NULL; 7290616c1c3SMichael Corcoran vmem_t *model_vmem; 73079b24695SMichael Corcoran size_t lib_va_start; 73179b24695SMichael Corcoran size_t lib_va_end; 73279b24695SMichael Corcoran size_t lib_va_len; 7330616c1c3SMichael Corcoran 7340616c1c3SMichael Corcoran ASSERT(lvpp != NULL); 7350616c1c3SMichael Corcoran 7360616c1c3SMichael Corcoran MOBJ_STAT_ADD(alloc_start); 7370616c1c3SMichael Corcoran model = get_udatamodel(); 7380616c1c3SMichael Corcoran 7390616c1c3SMichael Corcoran if (model == DATAMODEL_LP64) { 7400616c1c3SMichael Corcoran ma_flags = 0; 7410616c1c3SMichael Corcoran model_vmem = lib_va_64_arena; 7420616c1c3SMichael Corcoran } else { 7430616c1c3SMichael Corcoran ASSERT(model == DATAMODEL_ILP32); 7440616c1c3SMichael Corcoran model_vmem = lib_va_32_arena; 7450616c1c3SMichael Corcoran } 7460616c1c3SMichael Corcoran 7470616c1c3SMichael Corcoran if (align > 1) { 7480616c1c3SMichael Corcoran ma_flags |= MAP_ALIGN; 7490616c1c3SMichael Corcoran } 7500616c1c3SMichael Corcoran if (use_lib_va) { 75179b24695SMichael Corcoran /* 75279b24695SMichael Corcoran * The first time through, we need to setup the lib_va arenas. 75379b24695SMichael Corcoran * We call map_addr to find a suitable range of memory to map 75479b24695SMichael Corcoran * the given library, and we will set the highest address 75579b24695SMichael Corcoran * in our vmem arena to the end of this adddress range. 75679b24695SMichael Corcoran * We allow up to half of the address space to be used 75779b24695SMichael Corcoran * for lib_va addresses but we do not prevent any allocations 75879b24695SMichael Corcoran * in this range from other allocation paths. 75979b24695SMichael Corcoran */ 76079b24695SMichael Corcoran if (lib_va_64_arena == NULL && model == DATAMODEL_LP64) { 76179b24695SMichael Corcoran mutex_enter(&lib_va_init_mutex); 76279b24695SMichael Corcoran if (lib_va_64_arena == NULL) { 76379b24695SMichael Corcoran base = (caddr_t)align; 76479b24695SMichael Corcoran as_rangelock(as); 76579b24695SMichael Corcoran map_addr(&base, len, 0, 1, ma_flags); 76679b24695SMichael Corcoran as_rangeunlock(as); 76779b24695SMichael Corcoran if (base == NULL) { 76879b24695SMichael Corcoran mutex_exit(&lib_va_init_mutex); 76979b24695SMichael Corcoran MOBJ_STAT_ADD(lib_va_create_failure); 77079b24695SMichael Corcoran goto nolibva; 77179b24695SMichael Corcoran } 77279b24695SMichael Corcoran lib_va_end = (size_t)base + len; 77379b24695SMichael Corcoran lib_va_len = lib_va_end >> 1; 77479b24695SMichael Corcoran lib_va_len = P2ROUNDUP(lib_va_len, PAGESIZE); 77579b24695SMichael Corcoran lib_va_start = lib_va_end - lib_va_len; 77679b24695SMichael Corcoran 77779b24695SMichael Corcoran /* 77879b24695SMichael Corcoran * Need to make sure we avoid the address hole. 77979b24695SMichael Corcoran * We know lib_va_end is valid but we need to 78079b24695SMichael Corcoran * make sure lib_va_start is as well. 78179b24695SMichael Corcoran */ 78279b24695SMichael Corcoran if ((lib_va_end > (size_t)hole_end) && 78379b24695SMichael Corcoran (lib_va_start < (size_t)hole_end)) { 78479b24695SMichael Corcoran lib_va_start = P2ROUNDUP( 78579b24695SMichael Corcoran (size_t)hole_end, PAGESIZE); 78679b24695SMichael Corcoran lib_va_len = lib_va_end - lib_va_start; 78779b24695SMichael Corcoran } 78879b24695SMichael Corcoran lib_va_64_arena = vmem_create("lib_va_64", 78979b24695SMichael Corcoran (void *)lib_va_start, lib_va_len, PAGESIZE, 79079b24695SMichael Corcoran NULL, NULL, NULL, 0, 79179b24695SMichael Corcoran VM_NOSLEEP | VMC_IDENTIFIER); 79279b24695SMichael Corcoran if (lib_va_64_arena == NULL) { 79379b24695SMichael Corcoran mutex_exit(&lib_va_init_mutex); 79479b24695SMichael Corcoran goto nolibva; 79579b24695SMichael Corcoran } 79679b24695SMichael Corcoran } 79779b24695SMichael Corcoran model_vmem = lib_va_64_arena; 79879b24695SMichael Corcoran mutex_exit(&lib_va_init_mutex); 79979b24695SMichael Corcoran } else if (lib_va_32_arena == NULL && 80079b24695SMichael Corcoran model == DATAMODEL_ILP32) { 80179b24695SMichael Corcoran mutex_enter(&lib_va_init_mutex); 80279b24695SMichael Corcoran if (lib_va_32_arena == NULL) { 80379b24695SMichael Corcoran base = (caddr_t)align; 80479b24695SMichael Corcoran as_rangelock(as); 80579b24695SMichael Corcoran map_addr(&base, len, 0, 1, ma_flags); 80679b24695SMichael Corcoran as_rangeunlock(as); 80779b24695SMichael Corcoran if (base == NULL) { 80879b24695SMichael Corcoran mutex_exit(&lib_va_init_mutex); 80979b24695SMichael Corcoran MOBJ_STAT_ADD(lib_va_create_failure); 81079b24695SMichael Corcoran goto nolibva; 81179b24695SMichael Corcoran } 81279b24695SMichael Corcoran lib_va_end = (size_t)base + len; 81379b24695SMichael Corcoran lib_va_len = lib_va_end >> 1; 81479b24695SMichael Corcoran lib_va_len = P2ROUNDUP(lib_va_len, PAGESIZE); 81579b24695SMichael Corcoran lib_va_start = lib_va_end - lib_va_len; 81679b24695SMichael Corcoran lib_va_32_arena = vmem_create("lib_va_32", 81779b24695SMichael Corcoran (void *)lib_va_start, lib_va_len, PAGESIZE, 81879b24695SMichael Corcoran NULL, NULL, NULL, 0, 81979b24695SMichael Corcoran VM_NOSLEEP | VMC_IDENTIFIER); 82079b24695SMichael Corcoran if (lib_va_32_arena == NULL) { 82179b24695SMichael Corcoran mutex_exit(&lib_va_init_mutex); 82279b24695SMichael Corcoran goto nolibva; 82379b24695SMichael Corcoran } 82479b24695SMichael Corcoran } 82579b24695SMichael Corcoran model_vmem = lib_va_32_arena; 82679b24695SMichael Corcoran mutex_exit(&lib_va_init_mutex); 82779b24695SMichael Corcoran } 82879b24695SMichael Corcoran 8290616c1c3SMichael Corcoran if (model == DATAMODEL_LP64 || libs_mapped_32 < lib_threshold) { 8300616c1c3SMichael Corcoran base = vmem_xalloc(model_vmem, len, align, 0, 0, NULL, 8310616c1c3SMichael Corcoran NULL, VM_NOSLEEP | VM_ENDALLOC); 8320616c1c3SMichael Corcoran MOBJ_STAT_ADD(alloc_vmem); 8330616c1c3SMichael Corcoran } 83479b24695SMichael Corcoran 8350616c1c3SMichael Corcoran /* 8360616c1c3SMichael Corcoran * Even if the address fails to fit in our address space, 8370616c1c3SMichael Corcoran * or we can't use a reserved address, 8380616c1c3SMichael Corcoran * we should still save it off in lib_va_hash. 8390616c1c3SMichael Corcoran */ 8400616c1c3SMichael Corcoran *lvpp = lib_va_add_hash(base, len, align, vap); 8410616c1c3SMichael Corcoran 8420616c1c3SMichael Corcoran /* 8430616c1c3SMichael Corcoran * Check for collision on insertion and free up our VA space. 8440616c1c3SMichael Corcoran * This is expected to be rare, so we'll just reset base to 8450616c1c3SMichael Corcoran * NULL instead of looking it up in the lib_va hash. 8460616c1c3SMichael Corcoran */ 8470616c1c3SMichael Corcoran if (*lvpp == NULL) { 8480616c1c3SMichael Corcoran if (base != NULL) { 8490616c1c3SMichael Corcoran vmem_xfree(model_vmem, base, len); 8500616c1c3SMichael Corcoran base = NULL; 8510616c1c3SMichael Corcoran MOBJ_STAT_ADD(add_collision); 8520616c1c3SMichael Corcoran } 8530616c1c3SMichael Corcoran } 8540616c1c3SMichael Corcoran } 8550616c1c3SMichael Corcoran 85679b24695SMichael Corcoran nolibva: 8570616c1c3SMichael Corcoran as_rangelock(as); 8580616c1c3SMichael Corcoran 8590616c1c3SMichael Corcoran /* 8600616c1c3SMichael Corcoran * If we don't have an expected base address, or the one that we want 861980cf3cfSMichael Corcoran * to use is not available or acceptable, go get an acceptable 862980cf3cfSMichael Corcoran * address range. 8630616c1c3SMichael Corcoran */ 864980cf3cfSMichael Corcoran if (base == NULL || as_gap(as, len, &base, &len, 0, NULL) || 865980cf3cfSMichael Corcoran valid_usr_range(base, len, PROT_ALL, as, as->a_userlimit) != 866*1e1e1eecSMichael Corcoran RANGE_OKAY || OVERLAPS_STACK(base + len, p)) { 8670616c1c3SMichael Corcoran MOBJ_STAT_ADD(get_addr); 8680616c1c3SMichael Corcoran base = (caddr_t)align; 8690616c1c3SMichael Corcoran map_addr(&base, len, 0, 1, ma_flags); 8700616c1c3SMichael Corcoran } 8710616c1c3SMichael Corcoran 8720616c1c3SMichael Corcoran /* 8730616c1c3SMichael Corcoran * Need to reserve the address space we're going to use. 8740616c1c3SMichael Corcoran * Don't reserve swap space since we'll be mapping over this. 8750616c1c3SMichael Corcoran */ 8760616c1c3SMichael Corcoran if (base != NULL) { 8770616c1c3SMichael Corcoran /* Don't reserve swap space since we'll be mapping over this */ 8780616c1c3SMichael Corcoran crargs.flags |= MAP_NORESERVE; 8790616c1c3SMichael Corcoran error = as_map(as, base, len, segvn_create, &crargs); 8800616c1c3SMichael Corcoran if (error) { 8810616c1c3SMichael Corcoran base = NULL; 8820616c1c3SMichael Corcoran } 8830616c1c3SMichael Corcoran } 8840616c1c3SMichael Corcoran 8850616c1c3SMichael Corcoran as_rangeunlock(as); 8860616c1c3SMichael Corcoran return (base); 8870616c1c3SMichael Corcoran } 8880616c1c3SMichael Corcoran 8890616c1c3SMichael Corcoran /* 8900616c1c3SMichael Corcoran * Map the file associated with vp into the address space as a single 8910616c1c3SMichael Corcoran * read only private mapping. 8920616c1c3SMichael Corcoran * Returns 0 for success, and non-zero for failure to map the file. 8930616c1c3SMichael Corcoran */ 8940616c1c3SMichael Corcoran static int 8950616c1c3SMichael Corcoran mmapobj_map_flat(vnode_t *vp, mmapobj_result_t *mrp, size_t padding, 8960616c1c3SMichael Corcoran cred_t *fcred) 8970616c1c3SMichael Corcoran { 8980616c1c3SMichael Corcoran int error = 0; 8990616c1c3SMichael Corcoran struct as *as = curproc->p_as; 9000616c1c3SMichael Corcoran caddr_t addr = NULL; 9010616c1c3SMichael Corcoran caddr_t start_addr; 9020616c1c3SMichael Corcoran size_t len; 9030616c1c3SMichael Corcoran size_t pad_len; 9040616c1c3SMichael Corcoran int prot = PROT_USER | PROT_READ; 9050616c1c3SMichael Corcoran uint_t ma_flags = _MAP_LOW32; 9060616c1c3SMichael Corcoran vattr_t vattr; 9070616c1c3SMichael Corcoran struct segvn_crargs crargs = SEGVN_ZFOD_ARGS(PROT_USER, PROT_ALL); 9080616c1c3SMichael Corcoran 9090616c1c3SMichael Corcoran if (get_udatamodel() == DATAMODEL_LP64) { 9100616c1c3SMichael Corcoran ma_flags = 0; 9110616c1c3SMichael Corcoran } 9120616c1c3SMichael Corcoran 9130616c1c3SMichael Corcoran vattr.va_mask = AT_SIZE; 9140616c1c3SMichael Corcoran error = VOP_GETATTR(vp, &vattr, 0, fcred, NULL); 9150616c1c3SMichael Corcoran if (error) { 9160616c1c3SMichael Corcoran return (error); 9170616c1c3SMichael Corcoran } 9180616c1c3SMichael Corcoran 9190616c1c3SMichael Corcoran len = vattr.va_size; 9200616c1c3SMichael Corcoran 9210616c1c3SMichael Corcoran ma_flags |= MAP_PRIVATE; 9220616c1c3SMichael Corcoran if (padding == 0) { 9230616c1c3SMichael Corcoran MOBJ_STAT_ADD(map_flat_no_padding); 9240616c1c3SMichael Corcoran error = VOP_MAP(vp, 0, as, &addr, len, prot, PROT_ALL, 9250616c1c3SMichael Corcoran ma_flags, fcred, NULL); 9260616c1c3SMichael Corcoran if (error == 0) { 9270616c1c3SMichael Corcoran mrp[0].mr_addr = addr; 9280616c1c3SMichael Corcoran mrp[0].mr_msize = len; 9290616c1c3SMichael Corcoran mrp[0].mr_fsize = len; 9300616c1c3SMichael Corcoran mrp[0].mr_offset = 0; 9310616c1c3SMichael Corcoran mrp[0].mr_prot = prot; 9320616c1c3SMichael Corcoran mrp[0].mr_flags = 0; 9330616c1c3SMichael Corcoran } 9340616c1c3SMichael Corcoran return (error); 9350616c1c3SMichael Corcoran } 9360616c1c3SMichael Corcoran 9370616c1c3SMichael Corcoran /* padding was requested so there's more work to be done */ 9380616c1c3SMichael Corcoran MOBJ_STAT_ADD(map_flat_padding); 9390616c1c3SMichael Corcoran 9400616c1c3SMichael Corcoran /* No need to reserve swap space now since it will be reserved later */ 9410616c1c3SMichael Corcoran crargs.flags |= MAP_NORESERVE; 9420616c1c3SMichael Corcoran 9430616c1c3SMichael Corcoran /* Need to setup padding which can only be in PAGESIZE increments. */ 9440616c1c3SMichael Corcoran ASSERT((padding & PAGEOFFSET) == 0); 9450616c1c3SMichael Corcoran pad_len = len + (2 * padding); 9460616c1c3SMichael Corcoran 9470616c1c3SMichael Corcoran as_rangelock(as); 9480616c1c3SMichael Corcoran map_addr(&addr, pad_len, 0, 1, ma_flags); 9490616c1c3SMichael Corcoran error = as_map(as, addr, pad_len, segvn_create, &crargs); 9500616c1c3SMichael Corcoran as_rangeunlock(as); 9510616c1c3SMichael Corcoran if (error) { 9520616c1c3SMichael Corcoran return (error); 9530616c1c3SMichael Corcoran } 9540616c1c3SMichael Corcoran start_addr = addr; 9550616c1c3SMichael Corcoran addr += padding; 9560616c1c3SMichael Corcoran ma_flags |= MAP_FIXED; 9570616c1c3SMichael Corcoran error = VOP_MAP(vp, 0, as, &addr, len, prot, PROT_ALL, ma_flags, 9580616c1c3SMichael Corcoran fcred, NULL); 9590616c1c3SMichael Corcoran if (error == 0) { 9600616c1c3SMichael Corcoran mrp[0].mr_addr = start_addr; 9610616c1c3SMichael Corcoran mrp[0].mr_msize = padding; 9620616c1c3SMichael Corcoran mrp[0].mr_fsize = 0; 9630616c1c3SMichael Corcoran mrp[0].mr_offset = 0; 9640616c1c3SMichael Corcoran mrp[0].mr_prot = 0; 9650616c1c3SMichael Corcoran mrp[0].mr_flags = MR_PADDING; 9660616c1c3SMichael Corcoran 9670616c1c3SMichael Corcoran mrp[1].mr_addr = addr; 9680616c1c3SMichael Corcoran mrp[1].mr_msize = len; 9690616c1c3SMichael Corcoran mrp[1].mr_fsize = len; 9700616c1c3SMichael Corcoran mrp[1].mr_offset = 0; 9710616c1c3SMichael Corcoran mrp[1].mr_prot = prot; 9720616c1c3SMichael Corcoran mrp[1].mr_flags = 0; 9730616c1c3SMichael Corcoran 9740616c1c3SMichael Corcoran mrp[2].mr_addr = addr + P2ROUNDUP(len, PAGESIZE); 9750616c1c3SMichael Corcoran mrp[2].mr_msize = padding; 9760616c1c3SMichael Corcoran mrp[2].mr_fsize = 0; 9770616c1c3SMichael Corcoran mrp[2].mr_offset = 0; 9780616c1c3SMichael Corcoran mrp[2].mr_prot = 0; 9790616c1c3SMichael Corcoran mrp[2].mr_flags = MR_PADDING; 9800616c1c3SMichael Corcoran } else { 9810616c1c3SMichael Corcoran /* Need to cleanup the as_map from earlier */ 9820616c1c3SMichael Corcoran (void) as_unmap(as, start_addr, pad_len); 9830616c1c3SMichael Corcoran } 9840616c1c3SMichael Corcoran return (error); 9850616c1c3SMichael Corcoran } 9860616c1c3SMichael Corcoran 9870616c1c3SMichael Corcoran /* 9880616c1c3SMichael Corcoran * Map a PT_LOAD or PT_SUNWBSS section of an executable file into the user's 9890616c1c3SMichael Corcoran * address space. 9900616c1c3SMichael Corcoran * vp - vnode to be mapped in 9910616c1c3SMichael Corcoran * addr - start address 9920616c1c3SMichael Corcoran * len - length of vp to be mapped 9930616c1c3SMichael Corcoran * zfodlen - length of zero filled memory after len above 9940616c1c3SMichael Corcoran * offset - offset into file where mapping should start 9950616c1c3SMichael Corcoran * prot - protections for this mapping 9960616c1c3SMichael Corcoran * fcred - credentials for the file associated with vp at open time. 9970616c1c3SMichael Corcoran */ 9980616c1c3SMichael Corcoran static int 9990616c1c3SMichael Corcoran mmapobj_map_ptload(struct vnode *vp, caddr_t addr, size_t len, size_t zfodlen, 10000616c1c3SMichael Corcoran off_t offset, int prot, cred_t *fcred) 10010616c1c3SMichael Corcoran { 10020616c1c3SMichael Corcoran int error = 0; 10030616c1c3SMichael Corcoran caddr_t zfodbase, oldaddr; 10040616c1c3SMichael Corcoran size_t oldlen; 10050616c1c3SMichael Corcoran size_t end; 10060616c1c3SMichael Corcoran size_t zfoddiff; 10070616c1c3SMichael Corcoran label_t ljb; 10080616c1c3SMichael Corcoran struct as *as = curproc->p_as; 10090616c1c3SMichael Corcoran model_t model; 10100616c1c3SMichael Corcoran int full_page; 10110616c1c3SMichael Corcoran 10120616c1c3SMichael Corcoran /* 10130616c1c3SMichael Corcoran * See if addr and offset are aligned such that we can map in 10140616c1c3SMichael Corcoran * full pages instead of partial pages. 10150616c1c3SMichael Corcoran */ 10160616c1c3SMichael Corcoran full_page = (((uintptr_t)addr & PAGEOFFSET) == 10170616c1c3SMichael Corcoran ((uintptr_t)offset & PAGEOFFSET)); 10180616c1c3SMichael Corcoran 10190616c1c3SMichael Corcoran model = get_udatamodel(); 10200616c1c3SMichael Corcoran 10210616c1c3SMichael Corcoran oldaddr = addr; 10220616c1c3SMichael Corcoran addr = (caddr_t)((uintptr_t)addr & (uintptr_t)PAGEMASK); 10230616c1c3SMichael Corcoran if (len) { 10240616c1c3SMichael Corcoran spgcnt_t availm, npages; 10250616c1c3SMichael Corcoran int preread; 10260616c1c3SMichael Corcoran uint_t mflag = MAP_PRIVATE | MAP_FIXED; 10270616c1c3SMichael Corcoran 10280616c1c3SMichael Corcoran if (model == DATAMODEL_ILP32) { 10290616c1c3SMichael Corcoran mflag |= _MAP_LOW32; 10300616c1c3SMichael Corcoran } 10310616c1c3SMichael Corcoran /* We may need to map in extra bytes */ 10320616c1c3SMichael Corcoran oldlen = len; 10330616c1c3SMichael Corcoran len += ((size_t)oldaddr & PAGEOFFSET); 10340616c1c3SMichael Corcoran 10350616c1c3SMichael Corcoran if (full_page) { 10360616c1c3SMichael Corcoran offset = (off_t)((uintptr_t)offset & PAGEMASK); 10370616c1c3SMichael Corcoran if ((prot & (PROT_WRITE | PROT_EXEC)) == PROT_EXEC) { 10380616c1c3SMichael Corcoran mflag |= MAP_TEXT; 10390616c1c3SMichael Corcoran MOBJ_STAT_ADD(map_ptload_text); 10400616c1c3SMichael Corcoran } else { 10410616c1c3SMichael Corcoran mflag |= MAP_INITDATA; 10420616c1c3SMichael Corcoran MOBJ_STAT_ADD(map_ptload_initdata); 10430616c1c3SMichael Corcoran } 10440616c1c3SMichael Corcoran 10450616c1c3SMichael Corcoran /* 10460616c1c3SMichael Corcoran * maxprot is passed as PROT_ALL so that mdb can 10470616c1c3SMichael Corcoran * write to this segment. 10480616c1c3SMichael Corcoran */ 10490616c1c3SMichael Corcoran if (error = VOP_MAP(vp, (offset_t)offset, as, &addr, 10500616c1c3SMichael Corcoran len, prot, PROT_ALL, mflag, fcred, NULL)) { 10510616c1c3SMichael Corcoran return (error); 10520616c1c3SMichael Corcoran } 10530616c1c3SMichael Corcoran 10540616c1c3SMichael Corcoran /* 10550616c1c3SMichael Corcoran * If the segment can fit and is relatively small, then 10560616c1c3SMichael Corcoran * we prefault the entire segment in. This is based 10570616c1c3SMichael Corcoran * on the model that says the best working set of a 10580616c1c3SMichael Corcoran * small program is all of its pages. 10590616c1c3SMichael Corcoran * We only do this if freemem will not drop below 10600616c1c3SMichael Corcoran * lotsfree since we don't want to induce paging. 10610616c1c3SMichael Corcoran */ 10620616c1c3SMichael Corcoran npages = (spgcnt_t)btopr(len); 10630616c1c3SMichael Corcoran availm = freemem - lotsfree; 10640616c1c3SMichael Corcoran preread = (npages < availm && len < PGTHRESH) ? 1 : 0; 10650616c1c3SMichael Corcoran 10660616c1c3SMichael Corcoran /* 10670616c1c3SMichael Corcoran * If we aren't prefaulting the segment, 10680616c1c3SMichael Corcoran * increment "deficit", if necessary to ensure 10690616c1c3SMichael Corcoran * that pages will become available when this 10700616c1c3SMichael Corcoran * process starts executing. 10710616c1c3SMichael Corcoran */ 10720616c1c3SMichael Corcoran if (preread == 0 && npages > availm && 10730616c1c3SMichael Corcoran deficit < lotsfree) { 10740616c1c3SMichael Corcoran deficit += MIN((pgcnt_t)(npages - availm), 10750616c1c3SMichael Corcoran lotsfree - deficit); 10760616c1c3SMichael Corcoran } 10770616c1c3SMichael Corcoran 10780616c1c3SMichael Corcoran if (preread) { 10790616c1c3SMichael Corcoran (void) as_faulta(as, addr, len); 10800616c1c3SMichael Corcoran MOBJ_STAT_ADD(map_ptload_preread); 10810616c1c3SMichael Corcoran } 10820616c1c3SMichael Corcoran } else { 10830616c1c3SMichael Corcoran /* 10840616c1c3SMichael Corcoran * addr and offset were not aligned such that we could 10850616c1c3SMichael Corcoran * use VOP_MAP, thus we need to as_map the memory we 10860616c1c3SMichael Corcoran * need and then read the data in from disk. 10870616c1c3SMichael Corcoran * This code path is a corner case which should never 10880616c1c3SMichael Corcoran * be taken, but hand crafted binaries could trigger 10890616c1c3SMichael Corcoran * this logic and it needs to work correctly. 10900616c1c3SMichael Corcoran */ 10910616c1c3SMichael Corcoran MOBJ_STAT_ADD(map_ptload_unaligned_text); 10920616c1c3SMichael Corcoran as_rangelock(as); 10930616c1c3SMichael Corcoran (void) as_unmap(as, addr, len); 10940616c1c3SMichael Corcoran 10950616c1c3SMichael Corcoran /* 10960616c1c3SMichael Corcoran * We use zfod_argsp because we need to be able to 10970616c1c3SMichael Corcoran * write to the mapping and then we'll change the 10980616c1c3SMichael Corcoran * protections later if they are incorrect. 10990616c1c3SMichael Corcoran */ 11000616c1c3SMichael Corcoran error = as_map(as, addr, len, segvn_create, zfod_argsp); 11010616c1c3SMichael Corcoran as_rangeunlock(as); 11020616c1c3SMichael Corcoran if (error) { 11030616c1c3SMichael Corcoran MOBJ_STAT_ADD(map_ptload_unaligned_map_fail); 11040616c1c3SMichael Corcoran return (error); 11050616c1c3SMichael Corcoran } 11060616c1c3SMichael Corcoran 11070616c1c3SMichael Corcoran /* Now read in the data from disk */ 11080616c1c3SMichael Corcoran error = vn_rdwr(UIO_READ, vp, oldaddr, oldlen, offset, 11090616c1c3SMichael Corcoran UIO_USERSPACE, 0, (rlim64_t)0, fcred, NULL); 11100616c1c3SMichael Corcoran if (error) { 11110616c1c3SMichael Corcoran MOBJ_STAT_ADD(map_ptload_unaligned_read_fail); 11120616c1c3SMichael Corcoran return (error); 11130616c1c3SMichael Corcoran } 11140616c1c3SMichael Corcoran 11150616c1c3SMichael Corcoran /* 11160616c1c3SMichael Corcoran * Now set protections. 11170616c1c3SMichael Corcoran */ 11180616c1c3SMichael Corcoran if (prot != PROT_ZFOD) { 11190616c1c3SMichael Corcoran (void) as_setprot(as, addr, len, prot); 11200616c1c3SMichael Corcoran } 11210616c1c3SMichael Corcoran } 11220616c1c3SMichael Corcoran } 11230616c1c3SMichael Corcoran 11240616c1c3SMichael Corcoran if (zfodlen) { 11250616c1c3SMichael Corcoran end = (size_t)addr + len; 11260616c1c3SMichael Corcoran zfodbase = (caddr_t)P2ROUNDUP(end, PAGESIZE); 11270616c1c3SMichael Corcoran zfoddiff = (uintptr_t)zfodbase - end; 11280616c1c3SMichael Corcoran if (zfoddiff) { 11290616c1c3SMichael Corcoran MOBJ_STAT_ADD(zfoddiff); 11300616c1c3SMichael Corcoran if ((prot & PROT_WRITE) == 0) { 11310616c1c3SMichael Corcoran (void) as_setprot(as, (caddr_t)end, 11320616c1c3SMichael Corcoran zfoddiff, prot | PROT_WRITE); 11330616c1c3SMichael Corcoran MOBJ_STAT_ADD(zfoddiff_nowrite); 11340616c1c3SMichael Corcoran } 11350616c1c3SMichael Corcoran if (on_fault(&ljb)) { 11360616c1c3SMichael Corcoran no_fault(); 11370616c1c3SMichael Corcoran if ((prot & PROT_WRITE) == 0) { 11380616c1c3SMichael Corcoran (void) as_setprot(as, (caddr_t)end, 11390616c1c3SMichael Corcoran zfoddiff, prot); 11400616c1c3SMichael Corcoran } 11410616c1c3SMichael Corcoran return (EFAULT); 11420616c1c3SMichael Corcoran } 11430616c1c3SMichael Corcoran uzero((void *)end, zfoddiff); 11440616c1c3SMichael Corcoran no_fault(); 11450616c1c3SMichael Corcoran 11460616c1c3SMichael Corcoran /* 11470616c1c3SMichael Corcoran * Remove write protection to return to original state 11480616c1c3SMichael Corcoran */ 11490616c1c3SMichael Corcoran if ((prot & PROT_WRITE) == 0) { 11500616c1c3SMichael Corcoran (void) as_setprot(as, (caddr_t)end, 11510616c1c3SMichael Corcoran zfoddiff, prot); 11520616c1c3SMichael Corcoran } 11530616c1c3SMichael Corcoran } 11540616c1c3SMichael Corcoran if (zfodlen > zfoddiff) { 11550616c1c3SMichael Corcoran struct segvn_crargs crargs = 11560616c1c3SMichael Corcoran SEGVN_ZFOD_ARGS(prot, PROT_ALL); 11570616c1c3SMichael Corcoran 11580616c1c3SMichael Corcoran MOBJ_STAT_ADD(zfodextra); 11590616c1c3SMichael Corcoran zfodlen -= zfoddiff; 11600616c1c3SMichael Corcoran crargs.szc = AS_MAP_NO_LPOOB; 11610616c1c3SMichael Corcoran 11620616c1c3SMichael Corcoran 11630616c1c3SMichael Corcoran as_rangelock(as); 11640616c1c3SMichael Corcoran (void) as_unmap(as, (caddr_t)zfodbase, zfodlen); 11650616c1c3SMichael Corcoran error = as_map(as, (caddr_t)zfodbase, 11660616c1c3SMichael Corcoran zfodlen, segvn_create, &crargs); 11670616c1c3SMichael Corcoran as_rangeunlock(as); 11680616c1c3SMichael Corcoran if (error) { 11690616c1c3SMichael Corcoran return (error); 11700616c1c3SMichael Corcoran } 11710616c1c3SMichael Corcoran } 11720616c1c3SMichael Corcoran } 11730616c1c3SMichael Corcoran return (0); 11740616c1c3SMichael Corcoran } 11750616c1c3SMichael Corcoran 11760616c1c3SMichael Corcoran /* 11770616c1c3SMichael Corcoran * Map the ELF file represented by vp into the users address space. The 11780616c1c3SMichael Corcoran * first mapping will start at start_addr and there will be num_elements 11790616c1c3SMichael Corcoran * mappings. The mappings are described by the data in mrp which may be 11800616c1c3SMichael Corcoran * modified upon returning from this function. 11810616c1c3SMichael Corcoran * Returns 0 for success or errno for failure. 11820616c1c3SMichael Corcoran */ 11830616c1c3SMichael Corcoran static int 11840616c1c3SMichael Corcoran mmapobj_map_elf(struct vnode *vp, caddr_t start_addr, mmapobj_result_t *mrp, 11850616c1c3SMichael Corcoran int num_elements, cred_t *fcred, ushort_t e_type) 11860616c1c3SMichael Corcoran { 11870616c1c3SMichael Corcoran int i; 11880616c1c3SMichael Corcoran int ret; 11890616c1c3SMichael Corcoran caddr_t lo; 11900616c1c3SMichael Corcoran caddr_t hi; 11910616c1c3SMichael Corcoran struct as *as = curproc->p_as; 11920616c1c3SMichael Corcoran 11930616c1c3SMichael Corcoran for (i = 0; i < num_elements; i++) { 11940616c1c3SMichael Corcoran caddr_t addr; 11950616c1c3SMichael Corcoran size_t p_memsz; 11960616c1c3SMichael Corcoran size_t p_filesz; 11970616c1c3SMichael Corcoran size_t zfodlen; 11980616c1c3SMichael Corcoran offset_t p_offset; 11990616c1c3SMichael Corcoran size_t dif; 12000616c1c3SMichael Corcoran int prot; 12010616c1c3SMichael Corcoran 12020616c1c3SMichael Corcoran /* Always need to adjust mr_addr */ 12030616c1c3SMichael Corcoran addr = start_addr + (size_t)(mrp[i].mr_addr); 12040616c1c3SMichael Corcoran mrp[i].mr_addr = 12050616c1c3SMichael Corcoran (caddr_t)((uintptr_t)addr & (uintptr_t)PAGEMASK); 12060616c1c3SMichael Corcoran 12070616c1c3SMichael Corcoran /* Padding has already been mapped */ 12080616c1c3SMichael Corcoran if (MR_GET_TYPE(mrp[i].mr_flags) == MR_PADDING) { 12090616c1c3SMichael Corcoran continue; 12100616c1c3SMichael Corcoran } 12110616c1c3SMichael Corcoran p_memsz = mrp[i].mr_msize; 12120616c1c3SMichael Corcoran p_filesz = mrp[i].mr_fsize; 12130616c1c3SMichael Corcoran zfodlen = p_memsz - p_filesz; 12140616c1c3SMichael Corcoran p_offset = mrp[i].mr_offset; 12150616c1c3SMichael Corcoran dif = (uintptr_t)(addr) & PAGEOFFSET; 12160616c1c3SMichael Corcoran prot = mrp[i].mr_prot | PROT_USER; 12170616c1c3SMichael Corcoran ret = mmapobj_map_ptload(vp, addr, p_filesz, zfodlen, 12180616c1c3SMichael Corcoran p_offset, prot, fcred); 12190616c1c3SMichael Corcoran if (ret != 0) { 12200616c1c3SMichael Corcoran MOBJ_STAT_ADD(ptload_failed); 12210616c1c3SMichael Corcoran mmapobj_unmap(mrp, i, num_elements, e_type); 12220616c1c3SMichael Corcoran return (ret); 12230616c1c3SMichael Corcoran } 12240616c1c3SMichael Corcoran 12250616c1c3SMichael Corcoran /* Need to cleanup mrp to reflect the actual values used */ 12260616c1c3SMichael Corcoran mrp[i].mr_msize += dif; 12270616c1c3SMichael Corcoran mrp[i].mr_offset = (size_t)addr & PAGEOFFSET; 12280616c1c3SMichael Corcoran } 12290616c1c3SMichael Corcoran 12300616c1c3SMichael Corcoran /* Also need to unmap any holes created above */ 12310616c1c3SMichael Corcoran if (num_elements == 1) { 12320616c1c3SMichael Corcoran MOBJ_STAT_ADD(map_elf_no_holes); 12330616c1c3SMichael Corcoran return (0); 12340616c1c3SMichael Corcoran } 12350616c1c3SMichael Corcoran if (e_type == ET_EXEC) { 12360616c1c3SMichael Corcoran return (0); 12370616c1c3SMichael Corcoran } 12380616c1c3SMichael Corcoran 12390616c1c3SMichael Corcoran as_rangelock(as); 12400616c1c3SMichael Corcoran lo = start_addr; 12410616c1c3SMichael Corcoran hi = mrp[0].mr_addr; 12420616c1c3SMichael Corcoran 12430616c1c3SMichael Corcoran /* Remove holes made by the rest of the segments */ 12440616c1c3SMichael Corcoran for (i = 0; i < num_elements - 1; i++) { 12450616c1c3SMichael Corcoran lo = (caddr_t)P2ROUNDUP((size_t)(mrp[i].mr_addr) + 12460616c1c3SMichael Corcoran mrp[i].mr_msize, PAGESIZE); 12470616c1c3SMichael Corcoran hi = mrp[i + 1].mr_addr; 12480616c1c3SMichael Corcoran if (lo < hi) { 12490616c1c3SMichael Corcoran /* 12500616c1c3SMichael Corcoran * If as_unmap fails we just use up a bit of extra 12510616c1c3SMichael Corcoran * space 12520616c1c3SMichael Corcoran */ 12530616c1c3SMichael Corcoran (void) as_unmap(as, (caddr_t)lo, 12540616c1c3SMichael Corcoran (size_t)hi - (size_t)lo); 12550616c1c3SMichael Corcoran MOBJ_STAT_ADD(unmap_hole); 12560616c1c3SMichael Corcoran } 12570616c1c3SMichael Corcoran } 12580616c1c3SMichael Corcoran as_rangeunlock(as); 12590616c1c3SMichael Corcoran 12600616c1c3SMichael Corcoran return (0); 12610616c1c3SMichael Corcoran } 12620616c1c3SMichael Corcoran 12630616c1c3SMichael Corcoran /* Ugly hack to get STRUCT_* macros to work below */ 12640616c1c3SMichael Corcoran struct myphdr { 12650616c1c3SMichael Corcoran Phdr x; /* native version */ 12660616c1c3SMichael Corcoran }; 12670616c1c3SMichael Corcoran 12680616c1c3SMichael Corcoran struct myphdr32 { 12690616c1c3SMichael Corcoran Elf32_Phdr x; 12700616c1c3SMichael Corcoran }; 12710616c1c3SMichael Corcoran 12720616c1c3SMichael Corcoran /* 12730616c1c3SMichael Corcoran * Calculate and return the number of loadable segments in the ELF Phdr 12740616c1c3SMichael Corcoran * represented by phdrbase as well as the len of the total mapping and 12750616c1c3SMichael Corcoran * the max alignment that is needed for a given segment. On success, 12760616c1c3SMichael Corcoran * 0 is returned, and *len, *loadable and *align have been filled out. 12770616c1c3SMichael Corcoran * On failure, errno will be returned, which in this case is ENOTSUP 12780616c1c3SMichael Corcoran * if we were passed an ELF file with overlapping segments. 12790616c1c3SMichael Corcoran */ 12800616c1c3SMichael Corcoran static int 12810616c1c3SMichael Corcoran calc_loadable(Ehdr *ehdrp, caddr_t phdrbase, int nphdrs, size_t *len, 12820616c1c3SMichael Corcoran int *loadable, size_t *align) 12830616c1c3SMichael Corcoran { 12840616c1c3SMichael Corcoran int i; 12850616c1c3SMichael Corcoran int hsize; 12860616c1c3SMichael Corcoran model_t model; 1287980cf3cfSMichael Corcoran ushort_t e_type = ehdrp->e_type; /* same offset 32 and 64 bit */ 12880616c1c3SMichael Corcoran uint_t p_type; 12890616c1c3SMichael Corcoran offset_t p_offset; 12900616c1c3SMichael Corcoran size_t p_memsz; 12910616c1c3SMichael Corcoran size_t p_align; 12920616c1c3SMichael Corcoran caddr_t vaddr; 12930616c1c3SMichael Corcoran int num_segs = 0; 12940616c1c3SMichael Corcoran caddr_t start_addr = NULL; 12950616c1c3SMichael Corcoran caddr_t p_end = NULL; 12960616c1c3SMichael Corcoran size_t max_align = 0; 1297c1106aa8SMichael Corcoran size_t min_align = PAGESIZE; /* needed for vmem_xalloc */ 12980616c1c3SMichael Corcoran STRUCT_HANDLE(myphdr, mph); 12990616c1c3SMichael Corcoran #if defined(__sparc) 13000616c1c3SMichael Corcoran extern int vac_size; 1301c1106aa8SMichael Corcoran 1302c1106aa8SMichael Corcoran /* 1303c1106aa8SMichael Corcoran * Want to prevent aliasing by making the start address at least be 1304c1106aa8SMichael Corcoran * aligned to vac_size. 1305c1106aa8SMichael Corcoran */ 1306c1106aa8SMichael Corcoran min_align = MAX(PAGESIZE, vac_size); 13070616c1c3SMichael Corcoran #endif 13080616c1c3SMichael Corcoran 13090616c1c3SMichael Corcoran model = get_udatamodel(); 13100616c1c3SMichael Corcoran STRUCT_SET_HANDLE(mph, model, (struct myphdr *)phdrbase); 13110616c1c3SMichael Corcoran 13120616c1c3SMichael Corcoran /* hsize alignment should have been checked before calling this func */ 13130616c1c3SMichael Corcoran if (model == DATAMODEL_LP64) { 13140616c1c3SMichael Corcoran hsize = ehdrp->e_phentsize; 13150616c1c3SMichael Corcoran if (hsize & 7) { 13160616c1c3SMichael Corcoran return (ENOTSUP); 13170616c1c3SMichael Corcoran } 13180616c1c3SMichael Corcoran } else { 13190616c1c3SMichael Corcoran ASSERT(model == DATAMODEL_ILP32); 13200616c1c3SMichael Corcoran hsize = ((Elf32_Ehdr *)ehdrp)->e_phentsize; 13210616c1c3SMichael Corcoran if (hsize & 3) { 13220616c1c3SMichael Corcoran return (ENOTSUP); 13230616c1c3SMichael Corcoran } 13240616c1c3SMichael Corcoran } 13250616c1c3SMichael Corcoran 13260616c1c3SMichael Corcoran /* 13270616c1c3SMichael Corcoran * Determine the span of all loadable segments and calculate the 13280616c1c3SMichael Corcoran * number of loadable segments. 13290616c1c3SMichael Corcoran */ 13300616c1c3SMichael Corcoran for (i = 0; i < nphdrs; i++) { 13310616c1c3SMichael Corcoran p_type = STRUCT_FGET(mph, x.p_type); 13320616c1c3SMichael Corcoran if (p_type == PT_LOAD || p_type == PT_SUNWBSS) { 13330616c1c3SMichael Corcoran vaddr = (caddr_t)(uintptr_t)STRUCT_FGET(mph, x.p_vaddr); 13340616c1c3SMichael Corcoran p_memsz = STRUCT_FGET(mph, x.p_memsz); 13350616c1c3SMichael Corcoran 13360616c1c3SMichael Corcoran /* 13370616c1c3SMichael Corcoran * Skip this header if it requests no memory to be 13380616c1c3SMichael Corcoran * mapped. 13390616c1c3SMichael Corcoran */ 13400616c1c3SMichael Corcoran if (p_memsz == 0) { 13410616c1c3SMichael Corcoran STRUCT_SET_HANDLE(mph, model, 13420616c1c3SMichael Corcoran (struct myphdr *)((size_t)STRUCT_BUF(mph) + 13430616c1c3SMichael Corcoran hsize)); 13440616c1c3SMichael Corcoran MOBJ_STAT_ADD(nomem_header); 13450616c1c3SMichael Corcoran continue; 13460616c1c3SMichael Corcoran } 13470616c1c3SMichael Corcoran if (num_segs++ == 0) { 1348980cf3cfSMichael Corcoran /* 1349980cf3cfSMichael Corcoran * The p_vaddr of the first PT_LOAD segment 1350980cf3cfSMichael Corcoran * must either be NULL or within the first 1351980cf3cfSMichael Corcoran * page in order to be interpreted. 1352980cf3cfSMichael Corcoran * Otherwise, its an invalid file. 1353980cf3cfSMichael Corcoran */ 1354980cf3cfSMichael Corcoran if (e_type == ET_DYN && 1355980cf3cfSMichael Corcoran ((caddr_t)((uintptr_t)vaddr & 1356980cf3cfSMichael Corcoran (uintptr_t)PAGEMASK) != NULL)) { 1357980cf3cfSMichael Corcoran MOBJ_STAT_ADD(inval_header); 1358980cf3cfSMichael Corcoran return (ENOTSUP); 1359980cf3cfSMichael Corcoran } 13600616c1c3SMichael Corcoran start_addr = vaddr; 13610616c1c3SMichael Corcoran /* 13620616c1c3SMichael Corcoran * For the first segment, we need to map from 13630616c1c3SMichael Corcoran * the beginning of the file, so we will 13640616c1c3SMichael Corcoran * adjust the size of the mapping to include 13650616c1c3SMichael Corcoran * this memory. 13660616c1c3SMichael Corcoran */ 13670616c1c3SMichael Corcoran p_offset = STRUCT_FGET(mph, x.p_offset); 13680616c1c3SMichael Corcoran } else { 13690616c1c3SMichael Corcoran p_offset = 0; 13700616c1c3SMichael Corcoran } 13710616c1c3SMichael Corcoran /* 13720616c1c3SMichael Corcoran * Check to make sure that this mapping wouldn't 13730616c1c3SMichael Corcoran * overlap a previous mapping. 13740616c1c3SMichael Corcoran */ 13750616c1c3SMichael Corcoran if (vaddr < p_end) { 13760616c1c3SMichael Corcoran MOBJ_STAT_ADD(overlap_header); 13770616c1c3SMichael Corcoran return (ENOTSUP); 13780616c1c3SMichael Corcoran } 13790616c1c3SMichael Corcoran 13800616c1c3SMichael Corcoran p_end = vaddr + p_memsz + p_offset; 13810616c1c3SMichael Corcoran p_end = (caddr_t)P2ROUNDUP((size_t)p_end, PAGESIZE); 13820616c1c3SMichael Corcoran 13830616c1c3SMichael Corcoran p_align = STRUCT_FGET(mph, x.p_align); 13840616c1c3SMichael Corcoran if (p_align > 1 && p_align > max_align) { 13850616c1c3SMichael Corcoran max_align = p_align; 1386c1106aa8SMichael Corcoran if (max_align < min_align) { 1387c1106aa8SMichael Corcoran max_align = min_align; 1388c1106aa8SMichael Corcoran MOBJ_STAT_ADD(min_align); 13890616c1c3SMichael Corcoran } 13900616c1c3SMichael Corcoran } 13910616c1c3SMichael Corcoran } 13920616c1c3SMichael Corcoran STRUCT_SET_HANDLE(mph, model, 13930616c1c3SMichael Corcoran (struct myphdr *)((size_t)STRUCT_BUF(mph) + hsize)); 13940616c1c3SMichael Corcoran } 13950616c1c3SMichael Corcoran 13960616c1c3SMichael Corcoran /* 13970616c1c3SMichael Corcoran * The alignment should be a power of 2, if it isn't we forgive it 13980616c1c3SMichael Corcoran * and round up. On overflow, we'll set the alignment to max_align 13990616c1c3SMichael Corcoran * rounded down to the nearest power of 2. 14000616c1c3SMichael Corcoran */ 14010616c1c3SMichael Corcoran if (max_align > 0 && !ISP2(max_align)) { 14020616c1c3SMichael Corcoran MOBJ_STAT_ADD(np2_align); 14030616c1c3SMichael Corcoran *align = 2 * (1L << (highbit(max_align) - 1)); 14040616c1c3SMichael Corcoran if (*align < max_align || 14050616c1c3SMichael Corcoran (*align > UINT_MAX && model == DATAMODEL_ILP32)) { 14060616c1c3SMichael Corcoran MOBJ_STAT_ADD(np2_align_overflow); 14070616c1c3SMichael Corcoran *align = 1L << (highbit(max_align) - 1); 14080616c1c3SMichael Corcoran } 14090616c1c3SMichael Corcoran } else { 14100616c1c3SMichael Corcoran *align = max_align; 14110616c1c3SMichael Corcoran } 14120616c1c3SMichael Corcoran 1413c1106aa8SMichael Corcoran ASSERT(*align >= PAGESIZE || *align == 0); 1414c1106aa8SMichael Corcoran 14150616c1c3SMichael Corcoran *loadable = num_segs; 14160616c1c3SMichael Corcoran *len = p_end - start_addr; 14170616c1c3SMichael Corcoran return (0); 14180616c1c3SMichael Corcoran } 14190616c1c3SMichael Corcoran 14200616c1c3SMichael Corcoran /* 14210616c1c3SMichael Corcoran * Check the address space to see if the virtual addresses to be used are 14220616c1c3SMichael Corcoran * available. If they are not, return errno for failure. On success, 0 14230616c1c3SMichael Corcoran * will be returned, and the virtual addresses for each mmapobj_result_t 14240616c1c3SMichael Corcoran * will be reserved. Note that a reservation could have earlier been made 14250616c1c3SMichael Corcoran * for a given segment via a /dev/null mapping. If that is the case, then 14260616c1c3SMichael Corcoran * we can use that VA space for our mappings. 14270616c1c3SMichael Corcoran * Note: this function will only be used for ET_EXEC binaries. 14280616c1c3SMichael Corcoran */ 14290616c1c3SMichael Corcoran int 14300616c1c3SMichael Corcoran check_exec_addrs(int loadable, mmapobj_result_t *mrp, caddr_t start_addr) 14310616c1c3SMichael Corcoran { 14320616c1c3SMichael Corcoran int i; 14330616c1c3SMichael Corcoran struct as *as = curproc->p_as; 14340616c1c3SMichael Corcoran struct segvn_crargs crargs = SEGVN_ZFOD_ARGS(PROT_ZFOD, PROT_ALL); 14350616c1c3SMichael Corcoran int ret; 14360616c1c3SMichael Corcoran caddr_t myaddr; 14370616c1c3SMichael Corcoran size_t mylen; 14380616c1c3SMichael Corcoran struct seg *seg; 14390616c1c3SMichael Corcoran 14400616c1c3SMichael Corcoran /* No need to reserve swap space now since it will be reserved later */ 14410616c1c3SMichael Corcoran crargs.flags |= MAP_NORESERVE; 14420616c1c3SMichael Corcoran as_rangelock(as); 14430616c1c3SMichael Corcoran for (i = 0; i < loadable; i++) { 14440616c1c3SMichael Corcoran 14450616c1c3SMichael Corcoran myaddr = start_addr + (size_t)mrp[i].mr_addr; 14460616c1c3SMichael Corcoran mylen = mrp[i].mr_msize; 14470616c1c3SMichael Corcoran 14480616c1c3SMichael Corcoran /* See if there is a hole in the as for this range */ 14490616c1c3SMichael Corcoran if (as_gap(as, mylen, &myaddr, &mylen, 0, NULL) == 0) { 14500616c1c3SMichael Corcoran ASSERT(myaddr == start_addr + (size_t)mrp[i].mr_addr); 14510616c1c3SMichael Corcoran ASSERT(mylen == mrp[i].mr_msize); 14520616c1c3SMichael Corcoran 14530616c1c3SMichael Corcoran #ifdef DEBUG 14540616c1c3SMichael Corcoran if (MR_GET_TYPE(mrp[i].mr_flags) == MR_PADDING) { 14550616c1c3SMichael Corcoran MOBJ_STAT_ADD(exec_padding); 14560616c1c3SMichael Corcoran } 14570616c1c3SMichael Corcoran #endif 14580616c1c3SMichael Corcoran ret = as_map(as, myaddr, mylen, segvn_create, &crargs); 14590616c1c3SMichael Corcoran if (ret) { 14600616c1c3SMichael Corcoran as_rangeunlock(as); 14610616c1c3SMichael Corcoran mmapobj_unmap_exec(mrp, i, start_addr); 14620616c1c3SMichael Corcoran return (ret); 14630616c1c3SMichael Corcoran } 14640616c1c3SMichael Corcoran } else { 14650616c1c3SMichael Corcoran /* 14660616c1c3SMichael Corcoran * There is a mapping that exists in the range 14670616c1c3SMichael Corcoran * so check to see if it was a "reservation" 14680616c1c3SMichael Corcoran * from /dev/null. The mapping is from 14690616c1c3SMichael Corcoran * /dev/null if the mapping comes from 14700616c1c3SMichael Corcoran * segdev and the type is neither MAP_SHARED 14710616c1c3SMichael Corcoran * nor MAP_PRIVATE. 14720616c1c3SMichael Corcoran */ 14730616c1c3SMichael Corcoran AS_LOCK_ENTER(as, &as->a_lock, RW_READER); 14740616c1c3SMichael Corcoran seg = as_findseg(as, myaddr, 0); 14750616c1c3SMichael Corcoran MOBJ_STAT_ADD(exec_addr_mapped); 14760616c1c3SMichael Corcoran if (seg && seg->s_ops == &segdev_ops && 14770616c1c3SMichael Corcoran ((SEGOP_GETTYPE(seg, myaddr) & 14780616c1c3SMichael Corcoran (MAP_SHARED | MAP_PRIVATE)) == 0) && 14790616c1c3SMichael Corcoran myaddr >= seg->s_base && 14800616c1c3SMichael Corcoran myaddr + mylen <= 14810616c1c3SMichael Corcoran seg->s_base + seg->s_size) { 14820616c1c3SMichael Corcoran MOBJ_STAT_ADD(exec_addr_devnull); 14830616c1c3SMichael Corcoran AS_LOCK_EXIT(as, &as->a_lock); 14840616c1c3SMichael Corcoran (void) as_unmap(as, myaddr, mylen); 14850616c1c3SMichael Corcoran ret = as_map(as, myaddr, mylen, segvn_create, 14860616c1c3SMichael Corcoran &crargs); 14870616c1c3SMichael Corcoran mrp[i].mr_flags |= MR_RESV; 14880616c1c3SMichael Corcoran if (ret) { 14890616c1c3SMichael Corcoran as_rangeunlock(as); 14900616c1c3SMichael Corcoran /* Need to remap what we unmapped */ 14910616c1c3SMichael Corcoran mmapobj_unmap_exec(mrp, i + 1, 14920616c1c3SMichael Corcoran start_addr); 14930616c1c3SMichael Corcoran return (ret); 14940616c1c3SMichael Corcoran } 14950616c1c3SMichael Corcoran } else { 14960616c1c3SMichael Corcoran AS_LOCK_EXIT(as, &as->a_lock); 14970616c1c3SMichael Corcoran as_rangeunlock(as); 14980616c1c3SMichael Corcoran mmapobj_unmap_exec(mrp, i, start_addr); 14990616c1c3SMichael Corcoran MOBJ_STAT_ADD(exec_addr_in_use); 15000616c1c3SMichael Corcoran return (EADDRINUSE); 15010616c1c3SMichael Corcoran } 15020616c1c3SMichael Corcoran } 15030616c1c3SMichael Corcoran } 15040616c1c3SMichael Corcoran as_rangeunlock(as); 15050616c1c3SMichael Corcoran return (0); 15060616c1c3SMichael Corcoran } 15070616c1c3SMichael Corcoran 15080616c1c3SMichael Corcoran /* 15090616c1c3SMichael Corcoran * Walk through the ELF program headers and extract all useful information 15100616c1c3SMichael Corcoran * for PT_LOAD and PT_SUNWBSS segments into mrp. 15110616c1c3SMichael Corcoran * Return 0 on success or error on failure. 15120616c1c3SMichael Corcoran */ 15130616c1c3SMichael Corcoran static int 15140616c1c3SMichael Corcoran process_phdr(Ehdr *ehdrp, caddr_t phdrbase, int nphdrs, mmapobj_result_t *mrp, 15150616c1c3SMichael Corcoran vnode_t *vp, uint_t *num_mapped, size_t padding, cred_t *fcred) 15160616c1c3SMichael Corcoran { 15170616c1c3SMichael Corcoran int i; 15180616c1c3SMichael Corcoran caddr_t start_addr = NULL; 15190616c1c3SMichael Corcoran caddr_t vaddr; 15200616c1c3SMichael Corcoran size_t len = 0; 15210616c1c3SMichael Corcoran size_t lib_len = 0; 15220616c1c3SMichael Corcoran int ret; 15230616c1c3SMichael Corcoran int prot; 15240616c1c3SMichael Corcoran struct lib_va *lvp = NULL; 15250616c1c3SMichael Corcoran vattr_t vattr; 15260616c1c3SMichael Corcoran struct as *as = curproc->p_as; 15270616c1c3SMichael Corcoran int error; 15280616c1c3SMichael Corcoran int loadable = 0; 15290616c1c3SMichael Corcoran int current = 0; 15300616c1c3SMichael Corcoran int use_lib_va = 1; 15310616c1c3SMichael Corcoran size_t align = 0; 15320616c1c3SMichael Corcoran size_t add_pad = 0; 15330616c1c3SMichael Corcoran int hdr_seen = 0; 15340616c1c3SMichael Corcoran ushort_t e_type = ehdrp->e_type; /* same offset 32 and 64 bit */ 15350616c1c3SMichael Corcoran uint_t p_type; 15360616c1c3SMichael Corcoran offset_t p_offset; 15370616c1c3SMichael Corcoran size_t p_memsz; 15380616c1c3SMichael Corcoran size_t p_filesz; 15390616c1c3SMichael Corcoran uint_t p_flags; 15400616c1c3SMichael Corcoran int hsize; 15410616c1c3SMichael Corcoran model_t model; 15420616c1c3SMichael Corcoran STRUCT_HANDLE(myphdr, mph); 15430616c1c3SMichael Corcoran 15440616c1c3SMichael Corcoran model = get_udatamodel(); 15450616c1c3SMichael Corcoran STRUCT_SET_HANDLE(mph, model, (struct myphdr *)phdrbase); 15460616c1c3SMichael Corcoran 15470616c1c3SMichael Corcoran /* 15480616c1c3SMichael Corcoran * Need to make sure that hsize is aligned properly. 15490616c1c3SMichael Corcoran * For 32bit processes, 4 byte alignment is required. 15500616c1c3SMichael Corcoran * For 64bit processes, 8 byte alignment is required. 15510616c1c3SMichael Corcoran * If the alignment isn't correct, we need to return failure 15520616c1c3SMichael Corcoran * since it could cause an alignment error panic while walking 15530616c1c3SMichael Corcoran * the phdr array. 15540616c1c3SMichael Corcoran */ 15550616c1c3SMichael Corcoran if (model == DATAMODEL_LP64) { 15560616c1c3SMichael Corcoran hsize = ehdrp->e_phentsize; 15570616c1c3SMichael Corcoran if (hsize & 7) { 15580616c1c3SMichael Corcoran MOBJ_STAT_ADD(phent_align64); 15590616c1c3SMichael Corcoran return (ENOTSUP); 15600616c1c3SMichael Corcoran } 15610616c1c3SMichael Corcoran } else { 15620616c1c3SMichael Corcoran ASSERT(model == DATAMODEL_ILP32); 15630616c1c3SMichael Corcoran hsize = ((Elf32_Ehdr *)ehdrp)->e_phentsize; 15640616c1c3SMichael Corcoran if (hsize & 3) { 15650616c1c3SMichael Corcoran MOBJ_STAT_ADD(phent_align32); 15660616c1c3SMichael Corcoran return (ENOTSUP); 15670616c1c3SMichael Corcoran } 15680616c1c3SMichael Corcoran } 15690616c1c3SMichael Corcoran 15700616c1c3SMichael Corcoran if (padding != 0) { 15710616c1c3SMichael Corcoran use_lib_va = 0; 15720616c1c3SMichael Corcoran } 15730616c1c3SMichael Corcoran if (e_type == ET_DYN) { 15740616c1c3SMichael Corcoran vattr.va_mask = AT_FSID | AT_NODEID | AT_CTIME | AT_MTIME; 15750616c1c3SMichael Corcoran error = VOP_GETATTR(vp, &vattr, 0, fcred, NULL); 15760616c1c3SMichael Corcoran if (error) { 15770616c1c3SMichael Corcoran return (error); 15780616c1c3SMichael Corcoran } 15790616c1c3SMichael Corcoran /* Check to see if we already have a description for this lib */ 15800616c1c3SMichael Corcoran lvp = lib_va_find(&vattr); 15810616c1c3SMichael Corcoran 15820616c1c3SMichael Corcoran if (lvp != NULL) { 15830616c1c3SMichael Corcoran MOBJ_STAT_ADD(lvp_found); 15840616c1c3SMichael Corcoran if (use_lib_va) { 15850616c1c3SMichael Corcoran start_addr = mmapobj_lookup_start_addr(lvp); 15860616c1c3SMichael Corcoran if (start_addr == NULL) { 15870616c1c3SMichael Corcoran lib_va_release(lvp); 15880616c1c3SMichael Corcoran return (ENOMEM); 15890616c1c3SMichael Corcoran } 15900616c1c3SMichael Corcoran } 15910616c1c3SMichael Corcoran 15920616c1c3SMichael Corcoran /* 15930616c1c3SMichael Corcoran * loadable may be zero if the original allocator 15940616c1c3SMichael Corcoran * of lvp hasn't finished setting it up but the rest 15950616c1c3SMichael Corcoran * of the fields will be accurate. 15960616c1c3SMichael Corcoran */ 15970616c1c3SMichael Corcoran loadable = lvp->lv_num_segs; 15980616c1c3SMichael Corcoran len = lvp->lv_len; 15990616c1c3SMichael Corcoran align = lvp->lv_align; 16000616c1c3SMichael Corcoran } 16010616c1c3SMichael Corcoran } 16020616c1c3SMichael Corcoran 16030616c1c3SMichael Corcoran /* 16040616c1c3SMichael Corcoran * Determine the span of all loadable segments and calculate the 16050616c1c3SMichael Corcoran * number of loadable segments, the total len spanned by the mappings 16060616c1c3SMichael Corcoran * and the max alignment, if we didn't get them above. 16070616c1c3SMichael Corcoran */ 16080616c1c3SMichael Corcoran if (loadable == 0) { 16090616c1c3SMichael Corcoran MOBJ_STAT_ADD(no_loadable_yet); 16100616c1c3SMichael Corcoran ret = calc_loadable(ehdrp, phdrbase, nphdrs, &len, 16110616c1c3SMichael Corcoran &loadable, &align); 16120616c1c3SMichael Corcoran if (ret != 0) { 16130616c1c3SMichael Corcoran /* 16140616c1c3SMichael Corcoran * Since it'd be an invalid file, we shouldn't have 16150616c1c3SMichael Corcoran * cached it previously. 16160616c1c3SMichael Corcoran */ 16170616c1c3SMichael Corcoran ASSERT(lvp == NULL); 16180616c1c3SMichael Corcoran return (ret); 16190616c1c3SMichael Corcoran } 16200616c1c3SMichael Corcoran #ifdef DEBUG 16210616c1c3SMichael Corcoran if (lvp) { 16220616c1c3SMichael Corcoran ASSERT(len == lvp->lv_len); 16230616c1c3SMichael Corcoran ASSERT(align == lvp->lv_align); 16240616c1c3SMichael Corcoran } 16250616c1c3SMichael Corcoran #endif 16260616c1c3SMichael Corcoran } 16270616c1c3SMichael Corcoran 16280616c1c3SMichael Corcoran /* Make sure there's something to map. */ 16290616c1c3SMichael Corcoran if (len == 0 || loadable == 0) { 16300616c1c3SMichael Corcoran /* 16310616c1c3SMichael Corcoran * Since it'd be an invalid file, we shouldn't have 16320616c1c3SMichael Corcoran * cached it previously. 16330616c1c3SMichael Corcoran */ 16340616c1c3SMichael Corcoran ASSERT(lvp == NULL); 16350616c1c3SMichael Corcoran MOBJ_STAT_ADD(nothing_to_map); 16360616c1c3SMichael Corcoran return (ENOTSUP); 16370616c1c3SMichael Corcoran } 16380616c1c3SMichael Corcoran 16390616c1c3SMichael Corcoran lib_len = len; 16400616c1c3SMichael Corcoran if (padding != 0) { 16410616c1c3SMichael Corcoran loadable += 2; 16420616c1c3SMichael Corcoran } 16430616c1c3SMichael Corcoran if (loadable > *num_mapped) { 16440616c1c3SMichael Corcoran *num_mapped = loadable; 16450616c1c3SMichael Corcoran /* cleanup previous reservation */ 16460616c1c3SMichael Corcoran if (start_addr) { 16470616c1c3SMichael Corcoran (void) as_unmap(as, start_addr, lib_len); 16480616c1c3SMichael Corcoran } 16490616c1c3SMichael Corcoran MOBJ_STAT_ADD(e2big); 16500616c1c3SMichael Corcoran if (lvp) { 16510616c1c3SMichael Corcoran lib_va_release(lvp); 16520616c1c3SMichael Corcoran } 16530616c1c3SMichael Corcoran return (E2BIG); 16540616c1c3SMichael Corcoran } 16550616c1c3SMichael Corcoran 16560616c1c3SMichael Corcoran /* 16570616c1c3SMichael Corcoran * We now know the size of the object to map and now we need to 16580616c1c3SMichael Corcoran * get the start address to map it at. It's possible we already 16590616c1c3SMichael Corcoran * have it if we found all the info we need in the lib_va cache. 16600616c1c3SMichael Corcoran */ 16610616c1c3SMichael Corcoran if (e_type == ET_DYN && start_addr == NULL) { 16620616c1c3SMichael Corcoran /* 16630616c1c3SMichael Corcoran * Need to make sure padding does not throw off 16640616c1c3SMichael Corcoran * required alignment. We can only specify an 16650616c1c3SMichael Corcoran * alignment for the starting address to be mapped, 16660616c1c3SMichael Corcoran * so we round padding up to the alignment and map 16670616c1c3SMichael Corcoran * from there and then throw out the extra later. 16680616c1c3SMichael Corcoran */ 16690616c1c3SMichael Corcoran if (padding != 0) { 16700616c1c3SMichael Corcoran if (align > 1) { 16710616c1c3SMichael Corcoran add_pad = P2ROUNDUP(padding, align); 16720616c1c3SMichael Corcoran len += add_pad; 16730616c1c3SMichael Corcoran MOBJ_STAT_ADD(dyn_pad_align); 16740616c1c3SMichael Corcoran } else { 16750616c1c3SMichael Corcoran MOBJ_STAT_ADD(dyn_pad_noalign); 16760616c1c3SMichael Corcoran len += padding; /* at beginning */ 16770616c1c3SMichael Corcoran } 16780616c1c3SMichael Corcoran len += padding; /* at end of mapping */ 16790616c1c3SMichael Corcoran } 16800616c1c3SMichael Corcoran /* 16810616c1c3SMichael Corcoran * At this point, if lvp is non-NULL, then above we 16820616c1c3SMichael Corcoran * already found it in the cache but did not get 16830616c1c3SMichael Corcoran * the start address since we were not going to use lib_va. 16840616c1c3SMichael Corcoran * Since we know that lib_va will not be used, it's safe 16850616c1c3SMichael Corcoran * to call mmapobj_alloc_start_addr and know that lvp 16860616c1c3SMichael Corcoran * will not be modified. 16870616c1c3SMichael Corcoran */ 16880616c1c3SMichael Corcoran ASSERT(lvp ? use_lib_va == 0 : 1); 16890616c1c3SMichael Corcoran start_addr = mmapobj_alloc_start_addr(&lvp, len, 16900616c1c3SMichael Corcoran use_lib_va, align, &vattr); 16910616c1c3SMichael Corcoran if (start_addr == NULL) { 16920616c1c3SMichael Corcoran if (lvp) { 16930616c1c3SMichael Corcoran lib_va_release(lvp); 16940616c1c3SMichael Corcoran } 16950616c1c3SMichael Corcoran MOBJ_STAT_ADD(alloc_start_fail); 16960616c1c3SMichael Corcoran return (ENOMEM); 16970616c1c3SMichael Corcoran } 16980616c1c3SMichael Corcoran /* 16990616c1c3SMichael Corcoran * If we can't cache it, no need to hang on to it. 17000616c1c3SMichael Corcoran * Setting lv_num_segs to non-zero will make that 17010616c1c3SMichael Corcoran * field active and since there are too many segments 17020616c1c3SMichael Corcoran * to cache, all future users will not try to use lv_mps. 17030616c1c3SMichael Corcoran */ 17040616c1c3SMichael Corcoran if (lvp != NULL && loadable > LIBVA_CACHED_SEGS && use_lib_va) { 17050616c1c3SMichael Corcoran lvp->lv_num_segs = loadable; 17060616c1c3SMichael Corcoran lib_va_release(lvp); 17070616c1c3SMichael Corcoran lvp = NULL; 17080616c1c3SMichael Corcoran MOBJ_STAT_ADD(lvp_nocache); 17090616c1c3SMichael Corcoran } 17100616c1c3SMichael Corcoran /* 17110616c1c3SMichael Corcoran * Free the beginning of the mapping if the padding 17120616c1c3SMichael Corcoran * was not aligned correctly. 17130616c1c3SMichael Corcoran */ 17140616c1c3SMichael Corcoran if (padding != 0 && add_pad != padding) { 17150616c1c3SMichael Corcoran (void) as_unmap(as, start_addr, 17160616c1c3SMichael Corcoran add_pad - padding); 17170616c1c3SMichael Corcoran start_addr += (add_pad - padding); 17180616c1c3SMichael Corcoran MOBJ_STAT_ADD(extra_padding); 17190616c1c3SMichael Corcoran } 17200616c1c3SMichael Corcoran } 17210616c1c3SMichael Corcoran 17220616c1c3SMichael Corcoran /* 17230616c1c3SMichael Corcoran * At this point, we have reserved the virtual address space 17240616c1c3SMichael Corcoran * for our mappings. Now we need to start filling out the mrp 17250616c1c3SMichael Corcoran * array to describe all of the individual mappings we are going 17260616c1c3SMichael Corcoran * to return. 17270616c1c3SMichael Corcoran * For ET_EXEC there has been no memory reservation since we are 17280616c1c3SMichael Corcoran * using fixed addresses. While filling in the mrp array below, 17290616c1c3SMichael Corcoran * we will have the first segment biased to start at addr 0 17300616c1c3SMichael Corcoran * and the rest will be biased by this same amount. Thus if there 17310616c1c3SMichael Corcoran * is padding, the first padding will start at addr 0, and the next 17320616c1c3SMichael Corcoran * segment will start at the value of padding. 17330616c1c3SMichael Corcoran */ 17340616c1c3SMichael Corcoran 17350616c1c3SMichael Corcoran /* We'll fill out padding later, so start filling in mrp at index 1 */ 17360616c1c3SMichael Corcoran if (padding != 0) { 17370616c1c3SMichael Corcoran current = 1; 17380616c1c3SMichael Corcoran } 17390616c1c3SMichael Corcoran 17400616c1c3SMichael Corcoran /* If we have no more need for lvp let it go now */ 17410616c1c3SMichael Corcoran if (lvp != NULL && use_lib_va == 0) { 17420616c1c3SMichael Corcoran lib_va_release(lvp); 17430616c1c3SMichael Corcoran MOBJ_STAT_ADD(lvp_not_needed); 17440616c1c3SMichael Corcoran lvp = NULL; 17450616c1c3SMichael Corcoran } 17460616c1c3SMichael Corcoran 17470616c1c3SMichael Corcoran /* Now fill out the mrp structs from the program headers */ 17480616c1c3SMichael Corcoran STRUCT_SET_HANDLE(mph, model, (struct myphdr *)phdrbase); 17490616c1c3SMichael Corcoran for (i = 0; i < nphdrs; i++) { 17500616c1c3SMichael Corcoran p_type = STRUCT_FGET(mph, x.p_type); 17510616c1c3SMichael Corcoran if (p_type == PT_LOAD || p_type == PT_SUNWBSS) { 17520616c1c3SMichael Corcoran vaddr = (caddr_t)(uintptr_t)STRUCT_FGET(mph, x.p_vaddr); 17530616c1c3SMichael Corcoran p_memsz = STRUCT_FGET(mph, x.p_memsz); 17540616c1c3SMichael Corcoran p_filesz = STRUCT_FGET(mph, x.p_filesz); 17550616c1c3SMichael Corcoran p_offset = STRUCT_FGET(mph, x.p_offset); 17560616c1c3SMichael Corcoran p_flags = STRUCT_FGET(mph, x.p_flags); 17570616c1c3SMichael Corcoran 17580616c1c3SMichael Corcoran /* 17590616c1c3SMichael Corcoran * Skip this header if it requests no memory to be 17600616c1c3SMichael Corcoran * mapped. 17610616c1c3SMichael Corcoran */ 17620616c1c3SMichael Corcoran if (p_memsz == 0) { 17630616c1c3SMichael Corcoran STRUCT_SET_HANDLE(mph, model, 17640616c1c3SMichael Corcoran (struct myphdr *)((size_t)STRUCT_BUF(mph) + 17650616c1c3SMichael Corcoran hsize)); 17660616c1c3SMichael Corcoran MOBJ_STAT_ADD(no_mem_map_sz); 17670616c1c3SMichael Corcoran continue; 17680616c1c3SMichael Corcoran } 17690616c1c3SMichael Corcoran 17700616c1c3SMichael Corcoran prot = 0; 17710616c1c3SMichael Corcoran if (p_flags & PF_R) 17720616c1c3SMichael Corcoran prot |= PROT_READ; 17730616c1c3SMichael Corcoran if (p_flags & PF_W) 17740616c1c3SMichael Corcoran prot |= PROT_WRITE; 17750616c1c3SMichael Corcoran if (p_flags & PF_X) 17760616c1c3SMichael Corcoran prot |= PROT_EXEC; 17770616c1c3SMichael Corcoran 17780616c1c3SMichael Corcoran ASSERT(current < loadable); 17790616c1c3SMichael Corcoran mrp[current].mr_msize = p_memsz; 17800616c1c3SMichael Corcoran mrp[current].mr_fsize = p_filesz; 17810616c1c3SMichael Corcoran mrp[current].mr_offset = p_offset; 17820616c1c3SMichael Corcoran mrp[current].mr_prot = prot; 17830616c1c3SMichael Corcoran 17840616c1c3SMichael Corcoran if (hdr_seen == 0 && p_filesz != 0) { 17850616c1c3SMichael Corcoran mrp[current].mr_flags = MR_HDR_ELF; 17860616c1c3SMichael Corcoran /* 1787980cf3cfSMichael Corcoran * We modify mr_offset because we 17880616c1c3SMichael Corcoran * need to map the ELF header as well, and if 17890616c1c3SMichael Corcoran * we didn't then the header could be left out 17900616c1c3SMichael Corcoran * of the mapping that we will create later. 17910616c1c3SMichael Corcoran * Since we're removing the offset, we need to 17920616c1c3SMichael Corcoran * account for that in the other fields as well 17930616c1c3SMichael Corcoran * since we will be mapping the memory from 0 17940616c1c3SMichael Corcoran * to p_offset. 17950616c1c3SMichael Corcoran */ 17960616c1c3SMichael Corcoran if (e_type == ET_DYN) { 17970616c1c3SMichael Corcoran mrp[current].mr_offset = 0; 17980616c1c3SMichael Corcoran mrp[current].mr_msize += p_offset; 17990616c1c3SMichael Corcoran mrp[current].mr_fsize += p_offset; 18000616c1c3SMichael Corcoran } else { 18010616c1c3SMichael Corcoran ASSERT(e_type == ET_EXEC); 18020616c1c3SMichael Corcoran /* 18030616c1c3SMichael Corcoran * Save off the start addr which will be 18040616c1c3SMichael Corcoran * our bias for the rest of the 18050616c1c3SMichael Corcoran * ET_EXEC mappings. 18060616c1c3SMichael Corcoran */ 18070616c1c3SMichael Corcoran start_addr = vaddr - padding; 18080616c1c3SMichael Corcoran } 18090616c1c3SMichael Corcoran mrp[current].mr_addr = (caddr_t)padding; 18100616c1c3SMichael Corcoran hdr_seen = 1; 18110616c1c3SMichael Corcoran } else { 18120616c1c3SMichael Corcoran if (e_type == ET_EXEC) { 18130616c1c3SMichael Corcoran /* bias mr_addr */ 18140616c1c3SMichael Corcoran mrp[current].mr_addr = 18150616c1c3SMichael Corcoran vaddr - (size_t)start_addr; 18160616c1c3SMichael Corcoran } else { 18170616c1c3SMichael Corcoran mrp[current].mr_addr = vaddr + padding; 18180616c1c3SMichael Corcoran } 18190616c1c3SMichael Corcoran mrp[current].mr_flags = 0; 18200616c1c3SMichael Corcoran } 18210616c1c3SMichael Corcoran current++; 18220616c1c3SMichael Corcoran } 18230616c1c3SMichael Corcoran 18240616c1c3SMichael Corcoran /* Move to next phdr */ 18250616c1c3SMichael Corcoran STRUCT_SET_HANDLE(mph, model, 18260616c1c3SMichael Corcoran (struct myphdr *)((size_t)STRUCT_BUF(mph) + 18270616c1c3SMichael Corcoran hsize)); 18280616c1c3SMichael Corcoran } 18290616c1c3SMichael Corcoran 18300616c1c3SMichael Corcoran /* Now fill out the padding segments */ 18310616c1c3SMichael Corcoran if (padding != 0) { 18320616c1c3SMichael Corcoran mrp[0].mr_addr = NULL; 18330616c1c3SMichael Corcoran mrp[0].mr_msize = padding; 18340616c1c3SMichael Corcoran mrp[0].mr_fsize = 0; 18350616c1c3SMichael Corcoran mrp[0].mr_offset = 0; 18360616c1c3SMichael Corcoran mrp[0].mr_prot = 0; 18370616c1c3SMichael Corcoran mrp[0].mr_flags = MR_PADDING; 18380616c1c3SMichael Corcoran 18390616c1c3SMichael Corcoran /* Setup padding for the last segment */ 18400616c1c3SMichael Corcoran ASSERT(current == loadable - 1); 18410616c1c3SMichael Corcoran mrp[current].mr_addr = (caddr_t)lib_len + padding; 18420616c1c3SMichael Corcoran mrp[current].mr_msize = padding; 18430616c1c3SMichael Corcoran mrp[current].mr_fsize = 0; 18440616c1c3SMichael Corcoran mrp[current].mr_offset = 0; 18450616c1c3SMichael Corcoran mrp[current].mr_prot = 0; 18460616c1c3SMichael Corcoran mrp[current].mr_flags = MR_PADDING; 18470616c1c3SMichael Corcoran } 18480616c1c3SMichael Corcoran 18490616c1c3SMichael Corcoran /* 18500616c1c3SMichael Corcoran * Need to make sure address ranges desired are not in use or 18510616c1c3SMichael Corcoran * are previously allocated reservations from /dev/null. For 18520616c1c3SMichael Corcoran * ET_DYN, we already made sure our address range was free. 18530616c1c3SMichael Corcoran */ 18540616c1c3SMichael Corcoran if (e_type == ET_EXEC) { 18550616c1c3SMichael Corcoran ret = check_exec_addrs(loadable, mrp, start_addr); 18560616c1c3SMichael Corcoran if (ret != 0) { 18570616c1c3SMichael Corcoran ASSERT(lvp == NULL); 18580616c1c3SMichael Corcoran MOBJ_STAT_ADD(check_exec_failed); 18590616c1c3SMichael Corcoran return (ret); 18600616c1c3SMichael Corcoran } 18610616c1c3SMichael Corcoran } 18620616c1c3SMichael Corcoran 18630616c1c3SMichael Corcoran /* Finish up our business with lvp. */ 18640616c1c3SMichael Corcoran if (lvp) { 18650616c1c3SMichael Corcoran ASSERT(e_type == ET_DYN); 18660616c1c3SMichael Corcoran if (lvp->lv_num_segs == 0 && loadable <= LIBVA_CACHED_SEGS) { 18670616c1c3SMichael Corcoran bcopy(mrp, lvp->lv_mps, 18680616c1c3SMichael Corcoran loadable * sizeof (mmapobj_result_t)); 18690616c1c3SMichael Corcoran membar_producer(); 18700616c1c3SMichael Corcoran } 18710616c1c3SMichael Corcoran /* 18720616c1c3SMichael Corcoran * Setting lv_num_segs to a non-zero value indicates that 18730616c1c3SMichael Corcoran * lv_mps is now valid and can be used by other threads. 18740616c1c3SMichael Corcoran * So, the above stores need to finish before lv_num_segs 18750616c1c3SMichael Corcoran * is updated. lv_mps is only valid if lv_num_segs is 18760616c1c3SMichael Corcoran * greater than LIBVA_CACHED_SEGS. 18770616c1c3SMichael Corcoran */ 18780616c1c3SMichael Corcoran lvp->lv_num_segs = loadable; 18790616c1c3SMichael Corcoran lib_va_release(lvp); 18800616c1c3SMichael Corcoran MOBJ_STAT_ADD(lvp_used); 18810616c1c3SMichael Corcoran } 18820616c1c3SMichael Corcoran 18830616c1c3SMichael Corcoran /* Now that we have mrp completely filled out go map it */ 18840616c1c3SMichael Corcoran ret = mmapobj_map_elf(vp, start_addr, mrp, loadable, fcred, e_type); 18850616c1c3SMichael Corcoran if (ret == 0) { 18860616c1c3SMichael Corcoran *num_mapped = loadable; 18870616c1c3SMichael Corcoran } 18880616c1c3SMichael Corcoran 18890616c1c3SMichael Corcoran return (ret); 18900616c1c3SMichael Corcoran } 18910616c1c3SMichael Corcoran 18920616c1c3SMichael Corcoran /* 18930616c1c3SMichael Corcoran * Take the ELF file passed in, and do the work of mapping it. 18940616c1c3SMichael Corcoran * num_mapped in - # elements in user buffer 18950616c1c3SMichael Corcoran * num_mapped out - # sections mapped and length of mrp array if 18960616c1c3SMichael Corcoran * no errors. 18970616c1c3SMichael Corcoran */ 18980616c1c3SMichael Corcoran static int 18990616c1c3SMichael Corcoran doelfwork(Ehdr *ehdrp, vnode_t *vp, mmapobj_result_t *mrp, 19000616c1c3SMichael Corcoran uint_t *num_mapped, size_t padding, cred_t *fcred) 19010616c1c3SMichael Corcoran { 19020616c1c3SMichael Corcoran int error; 19030616c1c3SMichael Corcoran offset_t phoff; 19040616c1c3SMichael Corcoran int nphdrs; 19050616c1c3SMichael Corcoran unsigned char ei_class; 19060616c1c3SMichael Corcoran unsigned short phentsize; 19070616c1c3SMichael Corcoran ssize_t phsizep; 19080616c1c3SMichael Corcoran caddr_t phbasep; 19090616c1c3SMichael Corcoran int to_map; 19100616c1c3SMichael Corcoran model_t model; 19110616c1c3SMichael Corcoran 19120616c1c3SMichael Corcoran ei_class = ehdrp->e_ident[EI_CLASS]; 19130616c1c3SMichael Corcoran model = get_udatamodel(); 19140616c1c3SMichael Corcoran if ((model == DATAMODEL_ILP32 && ei_class == ELFCLASS64) || 19150616c1c3SMichael Corcoran (model == DATAMODEL_LP64 && ei_class == ELFCLASS32)) { 19160616c1c3SMichael Corcoran MOBJ_STAT_ADD(wrong_model); 19170616c1c3SMichael Corcoran return (ENOTSUP); 19180616c1c3SMichael Corcoran } 19190616c1c3SMichael Corcoran 19200616c1c3SMichael Corcoran /* Can't execute code from "noexec" mounted filesystem. */ 19210616c1c3SMichael Corcoran if (ehdrp->e_type == ET_EXEC && 19220616c1c3SMichael Corcoran (vp->v_vfsp->vfs_flag & VFS_NOEXEC) != 0) { 19230616c1c3SMichael Corcoran MOBJ_STAT_ADD(noexec_fs); 19240616c1c3SMichael Corcoran return (EACCES); 19250616c1c3SMichael Corcoran } 19260616c1c3SMichael Corcoran 19270616c1c3SMichael Corcoran /* 19280616c1c3SMichael Corcoran * Relocatable and core files are mapped as a single flat file 19290616c1c3SMichael Corcoran * since no interpretation is done on them by mmapobj. 19300616c1c3SMichael Corcoran */ 19310616c1c3SMichael Corcoran if (ehdrp->e_type == ET_REL || ehdrp->e_type == ET_CORE) { 19320616c1c3SMichael Corcoran to_map = padding ? 3 : 1; 19330616c1c3SMichael Corcoran if (*num_mapped < to_map) { 19340616c1c3SMichael Corcoran *num_mapped = to_map; 19350616c1c3SMichael Corcoran MOBJ_STAT_ADD(e2big_et_rel); 19360616c1c3SMichael Corcoran return (E2BIG); 19370616c1c3SMichael Corcoran } 19380616c1c3SMichael Corcoran error = mmapobj_map_flat(vp, mrp, padding, fcred); 19390616c1c3SMichael Corcoran if (error == 0) { 19400616c1c3SMichael Corcoran *num_mapped = to_map; 19410616c1c3SMichael Corcoran mrp[padding ? 1 : 0].mr_flags = MR_HDR_ELF; 19420616c1c3SMichael Corcoran MOBJ_STAT_ADD(et_rel_mapped); 19430616c1c3SMichael Corcoran } 19440616c1c3SMichael Corcoran return (error); 19450616c1c3SMichael Corcoran } 19460616c1c3SMichael Corcoran 19470616c1c3SMichael Corcoran /* Check for an unknown ELF type */ 19480616c1c3SMichael Corcoran if (ehdrp->e_type != ET_EXEC && ehdrp->e_type != ET_DYN) { 19490616c1c3SMichael Corcoran MOBJ_STAT_ADD(unknown_elf_type); 19500616c1c3SMichael Corcoran return (ENOTSUP); 19510616c1c3SMichael Corcoran } 19520616c1c3SMichael Corcoran 19530616c1c3SMichael Corcoran if (ei_class == ELFCLASS32) { 19540616c1c3SMichael Corcoran Elf32_Ehdr *e32hdr = (Elf32_Ehdr *)ehdrp; 19550616c1c3SMichael Corcoran ASSERT(model == DATAMODEL_ILP32); 19560616c1c3SMichael Corcoran nphdrs = e32hdr->e_phnum; 19570616c1c3SMichael Corcoran phentsize = e32hdr->e_phentsize; 19580616c1c3SMichael Corcoran if (phentsize < sizeof (Elf32_Phdr)) { 19590616c1c3SMichael Corcoran MOBJ_STAT_ADD(phent32_too_small); 19600616c1c3SMichael Corcoran return (ENOTSUP); 19610616c1c3SMichael Corcoran } 19620616c1c3SMichael Corcoran phoff = e32hdr->e_phoff; 19630616c1c3SMichael Corcoran } else if (ei_class == ELFCLASS64) { 19640616c1c3SMichael Corcoran Elf64_Ehdr *e64hdr = (Elf64_Ehdr *)ehdrp; 19650616c1c3SMichael Corcoran ASSERT(model == DATAMODEL_LP64); 19660616c1c3SMichael Corcoran nphdrs = e64hdr->e_phnum; 19670616c1c3SMichael Corcoran phentsize = e64hdr->e_phentsize; 19680616c1c3SMichael Corcoran if (phentsize < sizeof (Elf64_Phdr)) { 19690616c1c3SMichael Corcoran MOBJ_STAT_ADD(phent64_too_small); 19700616c1c3SMichael Corcoran return (ENOTSUP); 19710616c1c3SMichael Corcoran } 19720616c1c3SMichael Corcoran phoff = e64hdr->e_phoff; 19730616c1c3SMichael Corcoran } else { 19740616c1c3SMichael Corcoran /* fallthrough case for an invalid ELF class */ 19750616c1c3SMichael Corcoran MOBJ_STAT_ADD(inval_elf_class); 19760616c1c3SMichael Corcoran return (ENOTSUP); 19770616c1c3SMichael Corcoran } 19780616c1c3SMichael Corcoran 19790616c1c3SMichael Corcoran /* 19800616c1c3SMichael Corcoran * nphdrs should only have this value for core files which are handled 19810616c1c3SMichael Corcoran * above as a single mapping. If other file types ever use this 19820616c1c3SMichael Corcoran * sentinel, then we'll add the support needed to handle this here. 19830616c1c3SMichael Corcoran */ 19840616c1c3SMichael Corcoran if (nphdrs == PN_XNUM) { 19850616c1c3SMichael Corcoran MOBJ_STAT_ADD(too_many_phdrs); 19860616c1c3SMichael Corcoran return (ENOTSUP); 19870616c1c3SMichael Corcoran } 19880616c1c3SMichael Corcoran 19890616c1c3SMichael Corcoran phsizep = nphdrs * phentsize; 19900616c1c3SMichael Corcoran 19910616c1c3SMichael Corcoran if (phsizep == 0) { 19920616c1c3SMichael Corcoran MOBJ_STAT_ADD(no_phsize); 19930616c1c3SMichael Corcoran return (ENOTSUP); 19940616c1c3SMichael Corcoran } 19950616c1c3SMichael Corcoran 19960616c1c3SMichael Corcoran /* Make sure we only wait for memory if it's a reasonable request */ 19970616c1c3SMichael Corcoran if (phsizep > mmapobj_alloc_threshold) { 19980616c1c3SMichael Corcoran MOBJ_STAT_ADD(phsize_large); 19990616c1c3SMichael Corcoran if ((phbasep = kmem_alloc(phsizep, KM_NOSLEEP)) == NULL) { 20000616c1c3SMichael Corcoran MOBJ_STAT_ADD(phsize_xtralarge); 20010616c1c3SMichael Corcoran return (ENOMEM); 20020616c1c3SMichael Corcoran } 20030616c1c3SMichael Corcoran } else { 20040616c1c3SMichael Corcoran phbasep = kmem_alloc(phsizep, KM_SLEEP); 20050616c1c3SMichael Corcoran } 20060616c1c3SMichael Corcoran 20070616c1c3SMichael Corcoran if ((error = vn_rdwr(UIO_READ, vp, phbasep, phsizep, 20080616c1c3SMichael Corcoran (offset_t)phoff, UIO_SYSSPACE, 0, (rlim64_t)0, 20090616c1c3SMichael Corcoran fcred, NULL)) != 0) { 20100616c1c3SMichael Corcoran kmem_free(phbasep, phsizep); 20110616c1c3SMichael Corcoran return (error); 20120616c1c3SMichael Corcoran } 20130616c1c3SMichael Corcoran 20140616c1c3SMichael Corcoran /* Now process the phdr's */ 20150616c1c3SMichael Corcoran error = process_phdr(ehdrp, phbasep, nphdrs, mrp, vp, num_mapped, 20160616c1c3SMichael Corcoran padding, fcred); 20170616c1c3SMichael Corcoran kmem_free(phbasep, phsizep); 20180616c1c3SMichael Corcoran return (error); 20190616c1c3SMichael Corcoran } 20200616c1c3SMichael Corcoran 20210616c1c3SMichael Corcoran #if defined(__sparc) 20220616c1c3SMichael Corcoran /* 20230616c1c3SMichael Corcoran * Hack to support 64 bit kernels running AOUT 4.x programs. 20240616c1c3SMichael Corcoran * This is the sizeof (struct nlist) for a 32 bit kernel. 20250616c1c3SMichael Corcoran * Since AOUT programs are 32 bit only, they will never use the 64 bit 20260616c1c3SMichael Corcoran * sizeof (struct nlist) and thus creating a #define is the simplest 20270616c1c3SMichael Corcoran * way around this since this is a format which is not being updated. 20280616c1c3SMichael Corcoran * This will be used in the place of sizeof (struct nlist) below. 20290616c1c3SMichael Corcoran */ 20300616c1c3SMichael Corcoran #define NLIST_SIZE (0xC) 20310616c1c3SMichael Corcoran 20320616c1c3SMichael Corcoran static int 20330616c1c3SMichael Corcoran doaoutwork(vnode_t *vp, mmapobj_result_t *mrp, 20340616c1c3SMichael Corcoran uint_t *num_mapped, struct exec *hdr, cred_t *fcred) 20350616c1c3SMichael Corcoran { 20360616c1c3SMichael Corcoran int error; 20370616c1c3SMichael Corcoran size_t size; 20380616c1c3SMichael Corcoran size_t osize; 20390616c1c3SMichael Corcoran size_t nsize; /* nlist size */ 20400616c1c3SMichael Corcoran size_t msize; 20410616c1c3SMichael Corcoran size_t zfoddiff; 20420616c1c3SMichael Corcoran caddr_t addr; 20430616c1c3SMichael Corcoran caddr_t start_addr; 20440616c1c3SMichael Corcoran struct as *as = curproc->p_as; 20450616c1c3SMichael Corcoran int prot = PROT_USER | PROT_READ | PROT_EXEC; 20460616c1c3SMichael Corcoran uint_t mflag = MAP_PRIVATE | _MAP_LOW32; 20470616c1c3SMichael Corcoran offset_t off = 0; 20480616c1c3SMichael Corcoran int segnum = 0; 20490616c1c3SMichael Corcoran uint_t to_map; 20500616c1c3SMichael Corcoran int is_library = 0; 20510616c1c3SMichael Corcoran struct segvn_crargs crargs = SEGVN_ZFOD_ARGS(PROT_ZFOD, PROT_ALL); 20520616c1c3SMichael Corcoran 20530616c1c3SMichael Corcoran /* Only 32bit apps supported by this file format */ 20540616c1c3SMichael Corcoran if (get_udatamodel() != DATAMODEL_ILP32) { 20550616c1c3SMichael Corcoran MOBJ_STAT_ADD(aout_64bit_try); 20560616c1c3SMichael Corcoran return (ENOTSUP); 20570616c1c3SMichael Corcoran } 20580616c1c3SMichael Corcoran 20590616c1c3SMichael Corcoran /* Check to see if this is a library */ 20600616c1c3SMichael Corcoran if (hdr->a_magic == ZMAGIC && hdr->a_entry < PAGESIZE) { 20610616c1c3SMichael Corcoran is_library = 1; 20620616c1c3SMichael Corcoran } 20630616c1c3SMichael Corcoran 20640616c1c3SMichael Corcoran /* Can't execute code from "noexec" mounted filesystem. */ 20650616c1c3SMichael Corcoran if (((vp->v_vfsp->vfs_flag & VFS_NOEXEC) != 0) && (is_library == 0)) { 20660616c1c3SMichael Corcoran MOBJ_STAT_ADD(aout_noexec); 20670616c1c3SMichael Corcoran return (EACCES); 20680616c1c3SMichael Corcoran } 20690616c1c3SMichael Corcoran 20700616c1c3SMichael Corcoran /* 20710616c1c3SMichael Corcoran * There are 2 ways to calculate the mapped size of executable: 20720616c1c3SMichael Corcoran * 1) rounded text size + data size + bss size. 20730616c1c3SMichael Corcoran * 2) starting offset for text + text size + data size + text relocation 20740616c1c3SMichael Corcoran * size + data relocation size + room for nlist data structure. 20750616c1c3SMichael Corcoran * 20760616c1c3SMichael Corcoran * The larger of the two sizes will be used to map this binary. 20770616c1c3SMichael Corcoran */ 20780616c1c3SMichael Corcoran osize = P2ROUNDUP(hdr->a_text, PAGESIZE) + hdr->a_data + hdr->a_bss; 20790616c1c3SMichael Corcoran 20800616c1c3SMichael Corcoran off = hdr->a_magic == ZMAGIC ? 0 : sizeof (struct exec); 20810616c1c3SMichael Corcoran 20820616c1c3SMichael Corcoran nsize = off + hdr->a_text + hdr->a_data + hdr->a_trsize + 20830616c1c3SMichael Corcoran hdr->a_drsize + NLIST_SIZE; 20840616c1c3SMichael Corcoran 20850616c1c3SMichael Corcoran size = MAX(osize, nsize); 20860616c1c3SMichael Corcoran if (size != nsize) { 20870616c1c3SMichael Corcoran nsize = 0; 20880616c1c3SMichael Corcoran } 20890616c1c3SMichael Corcoran 20900616c1c3SMichael Corcoran /* 20910616c1c3SMichael Corcoran * 1 seg for text and 1 seg for initialized data. 20920616c1c3SMichael Corcoran * 1 seg for bss (if can't fit in leftover space of init data) 20930616c1c3SMichael Corcoran * 1 seg for nlist if needed. 20940616c1c3SMichael Corcoran */ 20950616c1c3SMichael Corcoran to_map = 2 + (nsize ? 1 : 0) + 20960616c1c3SMichael Corcoran (hdr->a_bss > PAGESIZE - P2PHASE(hdr->a_data, PAGESIZE) ? 1 : 0); 20970616c1c3SMichael Corcoran if (*num_mapped < to_map) { 20980616c1c3SMichael Corcoran *num_mapped = to_map; 20990616c1c3SMichael Corcoran MOBJ_STAT_ADD(aout_e2big); 21000616c1c3SMichael Corcoran return (E2BIG); 21010616c1c3SMichael Corcoran } 21020616c1c3SMichael Corcoran 21030616c1c3SMichael Corcoran /* Reserve address space for the whole mapping */ 21040616c1c3SMichael Corcoran if (is_library) { 21050616c1c3SMichael Corcoran /* We'll let VOP_MAP below pick our address for us */ 21060616c1c3SMichael Corcoran addr = NULL; 21070616c1c3SMichael Corcoran MOBJ_STAT_ADD(aout_lib); 21080616c1c3SMichael Corcoran } else { 21090616c1c3SMichael Corcoran /* 21100616c1c3SMichael Corcoran * default start address for fixed binaries from AOUT 4.x 21110616c1c3SMichael Corcoran * standard. 21120616c1c3SMichael Corcoran */ 21130616c1c3SMichael Corcoran MOBJ_STAT_ADD(aout_fixed); 21140616c1c3SMichael Corcoran mflag |= MAP_FIXED; 21150616c1c3SMichael Corcoran addr = (caddr_t)0x2000; 21160616c1c3SMichael Corcoran as_rangelock(as); 21170616c1c3SMichael Corcoran if (as_gap(as, size, &addr, &size, 0, NULL) != 0) { 21180616c1c3SMichael Corcoran as_rangeunlock(as); 21190616c1c3SMichael Corcoran MOBJ_STAT_ADD(aout_addr_in_use); 21200616c1c3SMichael Corcoran return (EADDRINUSE); 21210616c1c3SMichael Corcoran } 21220616c1c3SMichael Corcoran crargs.flags |= MAP_NORESERVE; 21230616c1c3SMichael Corcoran error = as_map(as, addr, size, segvn_create, &crargs); 21240616c1c3SMichael Corcoran ASSERT(addr == (caddr_t)0x2000); 21250616c1c3SMichael Corcoran as_rangeunlock(as); 21260616c1c3SMichael Corcoran } 21270616c1c3SMichael Corcoran 21280616c1c3SMichael Corcoran start_addr = addr; 21290616c1c3SMichael Corcoran osize = size; 21300616c1c3SMichael Corcoran 21310616c1c3SMichael Corcoran /* 21320616c1c3SMichael Corcoran * Map as large as we need, backed by file, this will be text, and 21330616c1c3SMichael Corcoran * possibly the nlist segment. We map over this mapping for bss and 21340616c1c3SMichael Corcoran * initialized data segments. 21350616c1c3SMichael Corcoran */ 21360616c1c3SMichael Corcoran error = VOP_MAP(vp, off, as, &addr, size, prot, PROT_ALL, 21370616c1c3SMichael Corcoran mflag, fcred, NULL); 21380616c1c3SMichael Corcoran if (error) { 21390616c1c3SMichael Corcoran if (!is_library) { 21400616c1c3SMichael Corcoran (void) as_unmap(as, start_addr, osize); 21410616c1c3SMichael Corcoran } 21420616c1c3SMichael Corcoran return (error); 21430616c1c3SMichael Corcoran } 21440616c1c3SMichael Corcoran 21450616c1c3SMichael Corcoran /* pickup the value of start_addr and osize for libraries */ 21460616c1c3SMichael Corcoran start_addr = addr; 21470616c1c3SMichael Corcoran osize = size; 21480616c1c3SMichael Corcoran 21490616c1c3SMichael Corcoran /* 21500616c1c3SMichael Corcoran * We have our initial reservation/allocation so we need to use fixed 21510616c1c3SMichael Corcoran * addresses from now on. 21520616c1c3SMichael Corcoran */ 21530616c1c3SMichael Corcoran mflag |= MAP_FIXED; 21540616c1c3SMichael Corcoran 21550616c1c3SMichael Corcoran mrp[0].mr_addr = addr; 21560616c1c3SMichael Corcoran mrp[0].mr_msize = hdr->a_text; 21570616c1c3SMichael Corcoran mrp[0].mr_fsize = hdr->a_text; 21580616c1c3SMichael Corcoran mrp[0].mr_offset = 0; 21590616c1c3SMichael Corcoran mrp[0].mr_prot = PROT_READ | PROT_EXEC; 21600616c1c3SMichael Corcoran mrp[0].mr_flags = MR_HDR_AOUT; 21610616c1c3SMichael Corcoran 21620616c1c3SMichael Corcoran 21630616c1c3SMichael Corcoran /* 21640616c1c3SMichael Corcoran * Map initialized data. We are mapping over a portion of the 21650616c1c3SMichael Corcoran * previous mapping which will be unmapped in VOP_MAP below. 21660616c1c3SMichael Corcoran */ 21670616c1c3SMichael Corcoran off = P2ROUNDUP((offset_t)(hdr->a_text), PAGESIZE); 21680616c1c3SMichael Corcoran msize = off; 21690616c1c3SMichael Corcoran addr += off; 21700616c1c3SMichael Corcoran size = hdr->a_data; 21710616c1c3SMichael Corcoran error = VOP_MAP(vp, off, as, &addr, size, PROT_ALL, PROT_ALL, 21720616c1c3SMichael Corcoran mflag, fcred, NULL); 21730616c1c3SMichael Corcoran if (error) { 21740616c1c3SMichael Corcoran (void) as_unmap(as, start_addr, osize); 21750616c1c3SMichael Corcoran return (error); 21760616c1c3SMichael Corcoran } 21770616c1c3SMichael Corcoran msize += size; 21780616c1c3SMichael Corcoran mrp[1].mr_addr = addr; 21790616c1c3SMichael Corcoran mrp[1].mr_msize = size; 21800616c1c3SMichael Corcoran mrp[1].mr_fsize = size; 21810616c1c3SMichael Corcoran mrp[1].mr_offset = 0; 21820616c1c3SMichael Corcoran mrp[1].mr_prot = PROT_READ | PROT_WRITE | PROT_EXEC; 21830616c1c3SMichael Corcoran mrp[1].mr_flags = 0; 21840616c1c3SMichael Corcoran 21850616c1c3SMichael Corcoran /* Need to zero out remainder of page */ 21860616c1c3SMichael Corcoran addr += hdr->a_data; 21870616c1c3SMichael Corcoran zfoddiff = P2PHASE((size_t)addr, PAGESIZE); 21880616c1c3SMichael Corcoran if (zfoddiff) { 21890616c1c3SMichael Corcoran label_t ljb; 21900616c1c3SMichael Corcoran 21910616c1c3SMichael Corcoran MOBJ_STAT_ADD(aout_zfoddiff); 21920616c1c3SMichael Corcoran zfoddiff = PAGESIZE - zfoddiff; 21930616c1c3SMichael Corcoran if (on_fault(&ljb)) { 21940616c1c3SMichael Corcoran no_fault(); 21950616c1c3SMichael Corcoran MOBJ_STAT_ADD(aout_uzero_fault); 21960616c1c3SMichael Corcoran (void) as_unmap(as, start_addr, osize); 21970616c1c3SMichael Corcoran return (EFAULT); 21980616c1c3SMichael Corcoran } 21990616c1c3SMichael Corcoran uzero(addr, zfoddiff); 22000616c1c3SMichael Corcoran no_fault(); 22010616c1c3SMichael Corcoran } 22020616c1c3SMichael Corcoran msize += zfoddiff; 22030616c1c3SMichael Corcoran segnum = 2; 22040616c1c3SMichael Corcoran 22050616c1c3SMichael Corcoran /* Map bss */ 22060616c1c3SMichael Corcoran if (hdr->a_bss > zfoddiff) { 22070616c1c3SMichael Corcoran struct segvn_crargs crargs = 22080616c1c3SMichael Corcoran SEGVN_ZFOD_ARGS(PROT_ZFOD, PROT_ALL); 22090616c1c3SMichael Corcoran MOBJ_STAT_ADD(aout_map_bss); 22100616c1c3SMichael Corcoran addr += zfoddiff; 22110616c1c3SMichael Corcoran size = hdr->a_bss - zfoddiff; 22120616c1c3SMichael Corcoran as_rangelock(as); 22130616c1c3SMichael Corcoran (void) as_unmap(as, addr, size); 22140616c1c3SMichael Corcoran error = as_map(as, addr, size, segvn_create, &crargs); 22150616c1c3SMichael Corcoran as_rangeunlock(as); 22160616c1c3SMichael Corcoran msize += size; 22170616c1c3SMichael Corcoran 22180616c1c3SMichael Corcoran if (error) { 22190616c1c3SMichael Corcoran MOBJ_STAT_ADD(aout_bss_fail); 22200616c1c3SMichael Corcoran (void) as_unmap(as, start_addr, osize); 22210616c1c3SMichael Corcoran return (error); 22220616c1c3SMichael Corcoran } 22230616c1c3SMichael Corcoran mrp[2].mr_addr = addr; 22240616c1c3SMichael Corcoran mrp[2].mr_msize = size; 22250616c1c3SMichael Corcoran mrp[2].mr_fsize = 0; 22260616c1c3SMichael Corcoran mrp[2].mr_offset = 0; 22270616c1c3SMichael Corcoran mrp[2].mr_prot = PROT_READ | PROT_WRITE | PROT_EXEC; 22280616c1c3SMichael Corcoran mrp[2].mr_flags = 0; 22290616c1c3SMichael Corcoran 22300616c1c3SMichael Corcoran addr += size; 22310616c1c3SMichael Corcoran segnum = 3; 22320616c1c3SMichael Corcoran } 22330616c1c3SMichael Corcoran 22340616c1c3SMichael Corcoran /* 22350616c1c3SMichael Corcoran * If we have extra bits left over, we need to include that in how 22360616c1c3SMichael Corcoran * much we mapped to make sure the nlist logic is correct 22370616c1c3SMichael Corcoran */ 22380616c1c3SMichael Corcoran msize = P2ROUNDUP(msize, PAGESIZE); 22390616c1c3SMichael Corcoran 22400616c1c3SMichael Corcoran if (nsize && msize < nsize) { 22410616c1c3SMichael Corcoran MOBJ_STAT_ADD(aout_nlist); 22420616c1c3SMichael Corcoran mrp[segnum].mr_addr = addr; 22430616c1c3SMichael Corcoran mrp[segnum].mr_msize = nsize - msize; 22440616c1c3SMichael Corcoran mrp[segnum].mr_fsize = 0; 22450616c1c3SMichael Corcoran mrp[segnum].mr_offset = 0; 22460616c1c3SMichael Corcoran mrp[segnum].mr_prot = PROT_READ | PROT_EXEC; 22470616c1c3SMichael Corcoran mrp[segnum].mr_flags = 0; 22480616c1c3SMichael Corcoran } 22490616c1c3SMichael Corcoran 22500616c1c3SMichael Corcoran *num_mapped = to_map; 22510616c1c3SMichael Corcoran return (0); 22520616c1c3SMichael Corcoran } 22530616c1c3SMichael Corcoran #endif 22540616c1c3SMichael Corcoran 22550616c1c3SMichael Corcoran /* 22560616c1c3SMichael Corcoran * These are the two types of files that we can interpret and we want to read 22570616c1c3SMichael Corcoran * in enough info to cover both types when looking at the initial header. 22580616c1c3SMichael Corcoran */ 22590616c1c3SMichael Corcoran #define MAX_HEADER_SIZE (MAX(sizeof (Ehdr), sizeof (struct exec))) 22600616c1c3SMichael Corcoran 22610616c1c3SMichael Corcoran /* 22620616c1c3SMichael Corcoran * Map vp passed in in an interpreted manner. ELF and AOUT files will be 22630616c1c3SMichael Corcoran * interpreted and mapped appropriately for execution. 22640616c1c3SMichael Corcoran * num_mapped in - # elements in mrp 22650616c1c3SMichael Corcoran * num_mapped out - # sections mapped and length of mrp array if 22660616c1c3SMichael Corcoran * no errors or E2BIG returned. 22670616c1c3SMichael Corcoran * 22680616c1c3SMichael Corcoran * Returns 0 on success, errno value on failure. 22690616c1c3SMichael Corcoran */ 22700616c1c3SMichael Corcoran static int 22710616c1c3SMichael Corcoran mmapobj_map_interpret(vnode_t *vp, mmapobj_result_t *mrp, 22720616c1c3SMichael Corcoran uint_t *num_mapped, size_t padding, cred_t *fcred) 22730616c1c3SMichael Corcoran { 22740616c1c3SMichael Corcoran int error = 0; 22750616c1c3SMichael Corcoran vattr_t vattr; 22760616c1c3SMichael Corcoran struct lib_va *lvp; 22770616c1c3SMichael Corcoran caddr_t start_addr; 22780616c1c3SMichael Corcoran model_t model; 22790616c1c3SMichael Corcoran 22800616c1c3SMichael Corcoran /* 22810616c1c3SMichael Corcoran * header has to be aligned to the native size of ulong_t in order 22820616c1c3SMichael Corcoran * to avoid an unaligned access when dereferencing the header as 22830616c1c3SMichael Corcoran * a ulong_t. Thus we allocate our array on the stack of type 22840616c1c3SMichael Corcoran * ulong_t and then have header, which we dereference later as a char 22850616c1c3SMichael Corcoran * array point at lheader. 22860616c1c3SMichael Corcoran */ 22870616c1c3SMichael Corcoran ulong_t lheader[(MAX_HEADER_SIZE / (sizeof (ulong_t))) + 1]; 22880616c1c3SMichael Corcoran caddr_t header = (caddr_t)&lheader; 22890616c1c3SMichael Corcoran 22900616c1c3SMichael Corcoran vattr.va_mask = AT_FSID | AT_NODEID | AT_CTIME | AT_MTIME | AT_SIZE; 22910616c1c3SMichael Corcoran error = VOP_GETATTR(vp, &vattr, 0, fcred, NULL); 22920616c1c3SMichael Corcoran if (error) { 22930616c1c3SMichael Corcoran return (error); 22940616c1c3SMichael Corcoran } 22950616c1c3SMichael Corcoran 22960616c1c3SMichael Corcoran /* 22970616c1c3SMichael Corcoran * Check lib_va to see if we already have a full description 22980616c1c3SMichael Corcoran * for this library. This is the fast path and only used for 22990616c1c3SMichael Corcoran * ET_DYN ELF files (dynamic libraries). 23000616c1c3SMichael Corcoran */ 23010616c1c3SMichael Corcoran if (padding == 0 && (lvp = lib_va_find(&vattr)) != NULL) { 23020616c1c3SMichael Corcoran int num_segs; 23030616c1c3SMichael Corcoran 23040616c1c3SMichael Corcoran model = get_udatamodel(); 23050616c1c3SMichael Corcoran if ((model == DATAMODEL_ILP32 && 23060616c1c3SMichael Corcoran lvp->lv_flags & LV_ELF64) || 23070616c1c3SMichael Corcoran (model == DATAMODEL_LP64 && 23080616c1c3SMichael Corcoran lvp->lv_flags & LV_ELF32)) { 23090616c1c3SMichael Corcoran lib_va_release(lvp); 23100616c1c3SMichael Corcoran MOBJ_STAT_ADD(fast_wrong_model); 23110616c1c3SMichael Corcoran return (ENOTSUP); 23120616c1c3SMichael Corcoran } 23130616c1c3SMichael Corcoran num_segs = lvp->lv_num_segs; 23140616c1c3SMichael Corcoran if (*num_mapped < num_segs) { 23150616c1c3SMichael Corcoran *num_mapped = num_segs; 23160616c1c3SMichael Corcoran lib_va_release(lvp); 23170616c1c3SMichael Corcoran MOBJ_STAT_ADD(fast_e2big); 23180616c1c3SMichael Corcoran return (E2BIG); 23190616c1c3SMichael Corcoran } 23200616c1c3SMichael Corcoran 23210616c1c3SMichael Corcoran /* 23220616c1c3SMichael Corcoran * Check to see if we have all the mappable program headers 23230616c1c3SMichael Corcoran * cached. 23240616c1c3SMichael Corcoran */ 23250616c1c3SMichael Corcoran if (num_segs <= LIBVA_CACHED_SEGS && num_segs != 0) { 23260616c1c3SMichael Corcoran MOBJ_STAT_ADD(fast); 23270616c1c3SMichael Corcoran start_addr = mmapobj_lookup_start_addr(lvp); 23280616c1c3SMichael Corcoran if (start_addr == NULL) { 23290616c1c3SMichael Corcoran lib_va_release(lvp); 23300616c1c3SMichael Corcoran return (ENOMEM); 23310616c1c3SMichael Corcoran } 23320616c1c3SMichael Corcoran 23330616c1c3SMichael Corcoran bcopy(lvp->lv_mps, mrp, 23340616c1c3SMichael Corcoran num_segs * sizeof (mmapobj_result_t)); 23350616c1c3SMichael Corcoran 23360616c1c3SMichael Corcoran error = mmapobj_map_elf(vp, start_addr, mrp, 23370616c1c3SMichael Corcoran num_segs, fcred, ET_DYN); 23380616c1c3SMichael Corcoran 23390616c1c3SMichael Corcoran lib_va_release(lvp); 23400616c1c3SMichael Corcoran if (error == 0) { 23410616c1c3SMichael Corcoran *num_mapped = num_segs; 23420616c1c3SMichael Corcoran MOBJ_STAT_ADD(fast_success); 23430616c1c3SMichael Corcoran } 23440616c1c3SMichael Corcoran return (error); 23450616c1c3SMichael Corcoran } 23460616c1c3SMichael Corcoran MOBJ_STAT_ADD(fast_not_now); 23470616c1c3SMichael Corcoran 23480616c1c3SMichael Corcoran /* Release it for now since we'll look it up below */ 23490616c1c3SMichael Corcoran lib_va_release(lvp); 23500616c1c3SMichael Corcoran } 23510616c1c3SMichael Corcoran 23520616c1c3SMichael Corcoran /* 23530616c1c3SMichael Corcoran * Time to see if this is a file we can interpret. If it's smaller 23540616c1c3SMichael Corcoran * than this, then we can't interpret it. 23550616c1c3SMichael Corcoran */ 23560616c1c3SMichael Corcoran if (vattr.va_size < MAX_HEADER_SIZE) { 23570616c1c3SMichael Corcoran MOBJ_STAT_ADD(small_file); 23580616c1c3SMichael Corcoran return (ENOTSUP); 23590616c1c3SMichael Corcoran } 23600616c1c3SMichael Corcoran 23610616c1c3SMichael Corcoran if ((error = vn_rdwr(UIO_READ, vp, header, MAX_HEADER_SIZE, 0, 23620616c1c3SMichael Corcoran UIO_SYSSPACE, 0, (rlim64_t)0, fcred, NULL)) != 0) { 23630616c1c3SMichael Corcoran MOBJ_STAT_ADD(read_error); 23640616c1c3SMichael Corcoran return (error); 23650616c1c3SMichael Corcoran } 23660616c1c3SMichael Corcoran 23670616c1c3SMichael Corcoran /* Verify file type */ 23680616c1c3SMichael Corcoran if (header[EI_MAG0] == ELFMAG0 && header[EI_MAG1] == ELFMAG1 && 23690616c1c3SMichael Corcoran header[EI_MAG2] == ELFMAG2 && header[EI_MAG3] == ELFMAG3) { 23700616c1c3SMichael Corcoran return (doelfwork((Ehdr *)lheader, vp, mrp, num_mapped, 23710616c1c3SMichael Corcoran padding, fcred)); 23720616c1c3SMichael Corcoran } 23730616c1c3SMichael Corcoran 23740616c1c3SMichael Corcoran #if defined(__sparc) 23750616c1c3SMichael Corcoran /* On sparc, check for 4.X AOUT format */ 23760616c1c3SMichael Corcoran switch (((struct exec *)header)->a_magic) { 23770616c1c3SMichael Corcoran case OMAGIC: 23780616c1c3SMichael Corcoran case ZMAGIC: 23790616c1c3SMichael Corcoran case NMAGIC: 23800616c1c3SMichael Corcoran return (doaoutwork(vp, mrp, num_mapped, 23810616c1c3SMichael Corcoran (struct exec *)lheader, fcred)); 23820616c1c3SMichael Corcoran } 23830616c1c3SMichael Corcoran #endif 23840616c1c3SMichael Corcoran 23850616c1c3SMichael Corcoran /* Unsupported type */ 23860616c1c3SMichael Corcoran MOBJ_STAT_ADD(unsupported); 23870616c1c3SMichael Corcoran return (ENOTSUP); 23880616c1c3SMichael Corcoran } 23890616c1c3SMichael Corcoran 23900616c1c3SMichael Corcoran /* 23910616c1c3SMichael Corcoran * Given a vnode, map it as either a flat file or interpret it and map 23920616c1c3SMichael Corcoran * it according to the rules of the file type. 23930616c1c3SMichael Corcoran * *num_mapped will contain the size of the mmapobj_result_t array passed in. 23940616c1c3SMichael Corcoran * If padding is non-zero, the mappings will be padded by that amount 23950616c1c3SMichael Corcoran * rounded up to the nearest pagesize. 23960616c1c3SMichael Corcoran * If the mapping is successful, *num_mapped will contain the number of 23970616c1c3SMichael Corcoran * distinct mappings created, and mrp will point to the array of 23980616c1c3SMichael Corcoran * mmapobj_result_t's which describe these mappings. 23990616c1c3SMichael Corcoran * 24000616c1c3SMichael Corcoran * On error, -1 is returned and errno is set appropriately. 24010616c1c3SMichael Corcoran * A special error case will set errno to E2BIG when there are more than 24020616c1c3SMichael Corcoran * *num_mapped mappings to be created and *num_mapped will be set to the 24030616c1c3SMichael Corcoran * number of mappings needed. 24040616c1c3SMichael Corcoran */ 24050616c1c3SMichael Corcoran int 24060616c1c3SMichael Corcoran mmapobj(vnode_t *vp, uint_t flags, mmapobj_result_t *mrp, 24070616c1c3SMichael Corcoran uint_t *num_mapped, size_t padding, cred_t *fcred) 24080616c1c3SMichael Corcoran { 24090616c1c3SMichael Corcoran int to_map; 24100616c1c3SMichael Corcoran int error = 0; 24110616c1c3SMichael Corcoran 24120616c1c3SMichael Corcoran ASSERT((padding & PAGEOFFSET) == 0); 24130616c1c3SMichael Corcoran ASSERT((flags & ~MMOBJ_ALL_FLAGS) == 0); 24140616c1c3SMichael Corcoran ASSERT(num_mapped != NULL); 24150616c1c3SMichael Corcoran ASSERT((flags & MMOBJ_PADDING) ? padding != 0 : padding == 0); 24160616c1c3SMichael Corcoran 24170616c1c3SMichael Corcoran if ((flags & MMOBJ_INTERPRET) == 0) { 24180616c1c3SMichael Corcoran to_map = padding ? 3 : 1; 24190616c1c3SMichael Corcoran if (*num_mapped < to_map) { 24200616c1c3SMichael Corcoran *num_mapped = to_map; 24210616c1c3SMichael Corcoran MOBJ_STAT_ADD(flat_e2big); 24220616c1c3SMichael Corcoran return (E2BIG); 24230616c1c3SMichael Corcoran } 24240616c1c3SMichael Corcoran error = mmapobj_map_flat(vp, mrp, padding, fcred); 24250616c1c3SMichael Corcoran 24260616c1c3SMichael Corcoran if (error) { 24270616c1c3SMichael Corcoran return (error); 24280616c1c3SMichael Corcoran } 24290616c1c3SMichael Corcoran *num_mapped = to_map; 24300616c1c3SMichael Corcoran return (0); 24310616c1c3SMichael Corcoran } 24320616c1c3SMichael Corcoran 24330616c1c3SMichael Corcoran error = mmapobj_map_interpret(vp, mrp, num_mapped, padding, fcred); 24340616c1c3SMichael Corcoran return (error); 24350616c1c3SMichael Corcoran } 2436