5f3ef7ae53
first calls mmap() with the arguments PROT_NONE and MAP_ANON to reserve a single, contiguous range of virtual addresses for the entire shared library. Later, rtld calls mmap() with the the shared library's file descriptor and the argument MAP_FIXED to place the text and data sections within the reserved range. The rationale for mapping shared libraries in this way is explained in the commit message for Revision 190885. However, this approach does have an unintended, negative consequence. Since the first call to mmap() specifies MAP_ANON and not the shared library's file descriptor, the kernel has no idea what alignment the vm object backing the file prefers. As a result, the reserved range's alignment is unlikely to be the same as the vm object's, and so mapping with superpages becomes impossible. To address this problem, this revision adds the argument MAP_ALIGNED_SUPER to the first call to mmap() if the text section is larger than the smallest superpage size. To determine if the text section is larger than the smallest superpage size, rtld must always fetch the page size information. As a result, the private code for fetching the base page size in rtld's builtin malloc is redundant. Eliminate it. Requested by: kib Tested by: zbb (on arm) Reviewed by: kib (an earlier version) Discussed with: jhb
450 lines
12 KiB
C
450 lines
12 KiB
C
/*-
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* Copyright 1996-1998 John D. Polstra.
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
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* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
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* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
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* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
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* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
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* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*
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* $FreeBSD$
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*/
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#include <sys/param.h>
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#include <sys/mman.h>
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#include <sys/stat.h>
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#include <errno.h>
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#include <stddef.h>
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#include <stdlib.h>
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#include <string.h>
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#include <unistd.h>
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#include "debug.h"
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#include "rtld.h"
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static Elf_Ehdr *get_elf_header(int, const char *);
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static int convert_prot(int); /* Elf flags -> mmap protection */
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static int convert_flags(int); /* Elf flags -> mmap flags */
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/*
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* Map a shared object into memory. The "fd" argument is a file descriptor,
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* which must be open on the object and positioned at its beginning.
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* The "path" argument is a pathname that is used only for error messages.
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*
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* The return value is a pointer to a newly-allocated Obj_Entry structure
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* for the shared object. Returns NULL on failure.
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*/
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Obj_Entry *
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map_object(int fd, const char *path, const struct stat *sb)
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{
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Obj_Entry *obj;
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Elf_Ehdr *hdr;
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int i;
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Elf_Phdr *phdr;
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Elf_Phdr *phlimit;
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Elf_Phdr **segs;
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int nsegs;
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Elf_Phdr *phdyn;
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Elf_Phdr *phinterp;
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Elf_Phdr *phtls;
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caddr_t mapbase;
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size_t mapsize;
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Elf_Addr base_vaddr;
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Elf_Addr base_vlimit;
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caddr_t base_addr;
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int base_flags;
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Elf_Off data_offset;
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Elf_Addr data_vaddr;
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Elf_Addr data_vlimit;
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caddr_t data_addr;
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int data_prot;
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int data_flags;
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Elf_Addr clear_vaddr;
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caddr_t clear_addr;
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caddr_t clear_page;
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Elf_Addr phdr_vaddr;
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size_t nclear, phsize;
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Elf_Addr bss_vaddr;
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Elf_Addr bss_vlimit;
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caddr_t bss_addr;
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Elf_Word stack_flags;
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Elf_Addr relro_page;
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size_t relro_size;
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Elf_Addr note_start;
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Elf_Addr note_end;
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hdr = get_elf_header(fd, path);
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if (hdr == NULL)
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return (NULL);
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/*
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* Scan the program header entries, and save key information.
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*
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* We expect that the loadable segments are ordered by load address.
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*/
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phdr = (Elf_Phdr *) ((char *)hdr + hdr->e_phoff);
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phsize = hdr->e_phnum * sizeof (phdr[0]);
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phlimit = phdr + hdr->e_phnum;
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nsegs = -1;
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phdyn = phinterp = phtls = NULL;
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phdr_vaddr = 0;
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relro_page = 0;
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relro_size = 0;
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note_start = 0;
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note_end = 0;
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segs = alloca(sizeof(segs[0]) * hdr->e_phnum);
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stack_flags = RTLD_DEFAULT_STACK_PF_EXEC | PF_R | PF_W;
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while (phdr < phlimit) {
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switch (phdr->p_type) {
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case PT_INTERP:
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phinterp = phdr;
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break;
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case PT_LOAD:
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segs[++nsegs] = phdr;
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if ((segs[nsegs]->p_align & (PAGE_SIZE - 1)) != 0) {
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_rtld_error("%s: PT_LOAD segment %d not page-aligned",
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path, nsegs);
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goto error;
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}
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break;
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case PT_PHDR:
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phdr_vaddr = phdr->p_vaddr;
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phsize = phdr->p_memsz;
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break;
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case PT_DYNAMIC:
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phdyn = phdr;
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break;
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case PT_TLS:
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phtls = phdr;
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break;
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case PT_GNU_STACK:
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stack_flags = phdr->p_flags;
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break;
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case PT_GNU_RELRO:
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relro_page = phdr->p_vaddr;
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relro_size = phdr->p_memsz;
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break;
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case PT_NOTE:
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if (phdr->p_offset > PAGE_SIZE ||
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phdr->p_offset + phdr->p_filesz > PAGE_SIZE)
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break;
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note_start = (Elf_Addr)(char *)hdr + phdr->p_offset;
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note_end = note_start + phdr->p_filesz;
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break;
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}
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++phdr;
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}
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if (phdyn == NULL) {
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_rtld_error("%s: object is not dynamically-linked", path);
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goto error;
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}
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if (nsegs < 0) {
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_rtld_error("%s: too few PT_LOAD segments", path);
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goto error;
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}
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/*
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* Map the entire address space of the object, to stake out our
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* contiguous region, and to establish the base address for relocation.
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*/
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base_vaddr = trunc_page(segs[0]->p_vaddr);
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base_vlimit = round_page(segs[nsegs]->p_vaddr + segs[nsegs]->p_memsz);
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mapsize = base_vlimit - base_vaddr;
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base_addr = (caddr_t) base_vaddr;
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base_flags = MAP_PRIVATE | MAP_ANON | MAP_NOCORE;
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if (npagesizes > 1 && round_page(segs[0]->p_filesz) >= pagesizes[1])
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base_flags |= MAP_ALIGNED_SUPER;
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mapbase = mmap(base_addr, mapsize, PROT_NONE, base_flags, -1, 0);
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if (mapbase == (caddr_t) -1) {
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_rtld_error("%s: mmap of entire address space failed: %s",
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path, rtld_strerror(errno));
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goto error;
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}
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if (base_addr != NULL && mapbase != base_addr) {
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_rtld_error("%s: mmap returned wrong address: wanted %p, got %p",
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path, base_addr, mapbase);
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goto error1;
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}
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for (i = 0; i <= nsegs; i++) {
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/* Overlay the segment onto the proper region. */
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data_offset = trunc_page(segs[i]->p_offset);
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data_vaddr = trunc_page(segs[i]->p_vaddr);
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data_vlimit = round_page(segs[i]->p_vaddr + segs[i]->p_filesz);
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data_addr = mapbase + (data_vaddr - base_vaddr);
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data_prot = convert_prot(segs[i]->p_flags);
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data_flags = convert_flags(segs[i]->p_flags) | MAP_FIXED;
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if (mmap(data_addr, data_vlimit - data_vaddr, data_prot,
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data_flags | MAP_PREFAULT_READ, fd, data_offset) == (caddr_t) -1) {
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_rtld_error("%s: mmap of data failed: %s", path,
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rtld_strerror(errno));
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goto error1;
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}
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/* Do BSS setup */
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if (segs[i]->p_filesz != segs[i]->p_memsz) {
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/* Clear any BSS in the last page of the segment. */
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clear_vaddr = segs[i]->p_vaddr + segs[i]->p_filesz;
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clear_addr = mapbase + (clear_vaddr - base_vaddr);
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clear_page = mapbase + (trunc_page(clear_vaddr) - base_vaddr);
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if ((nclear = data_vlimit - clear_vaddr) > 0) {
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/* Make sure the end of the segment is writable */
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if ((data_prot & PROT_WRITE) == 0 && -1 ==
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mprotect(clear_page, PAGE_SIZE, data_prot|PROT_WRITE)) {
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_rtld_error("%s: mprotect failed: %s", path,
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rtld_strerror(errno));
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goto error1;
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}
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memset(clear_addr, 0, nclear);
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/* Reset the data protection back */
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if ((data_prot & PROT_WRITE) == 0)
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mprotect(clear_page, PAGE_SIZE, data_prot);
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}
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/* Overlay the BSS segment onto the proper region. */
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bss_vaddr = data_vlimit;
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bss_vlimit = round_page(segs[i]->p_vaddr + segs[i]->p_memsz);
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bss_addr = mapbase + (bss_vaddr - base_vaddr);
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if (bss_vlimit > bss_vaddr) { /* There is something to do */
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if (mmap(bss_addr, bss_vlimit - bss_vaddr, data_prot,
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data_flags | MAP_ANON, -1, 0) == (caddr_t)-1) {
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_rtld_error("%s: mmap of bss failed: %s", path,
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rtld_strerror(errno));
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goto error1;
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}
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}
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}
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if (phdr_vaddr == 0 && data_offset <= hdr->e_phoff &&
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(data_vlimit - data_vaddr + data_offset) >=
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(hdr->e_phoff + hdr->e_phnum * sizeof (Elf_Phdr))) {
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phdr_vaddr = data_vaddr + hdr->e_phoff - data_offset;
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}
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}
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obj = obj_new();
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if (sb != NULL) {
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obj->dev = sb->st_dev;
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obj->ino = sb->st_ino;
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}
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obj->mapbase = mapbase;
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obj->mapsize = mapsize;
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obj->textsize = round_page(segs[0]->p_vaddr + segs[0]->p_memsz) -
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base_vaddr;
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obj->vaddrbase = base_vaddr;
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obj->relocbase = mapbase - base_vaddr;
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obj->dynamic = (const Elf_Dyn *) (obj->relocbase + phdyn->p_vaddr);
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if (hdr->e_entry != 0)
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obj->entry = (caddr_t) (obj->relocbase + hdr->e_entry);
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if (phdr_vaddr != 0) {
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obj->phdr = (const Elf_Phdr *) (obj->relocbase + phdr_vaddr);
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} else {
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obj->phdr = malloc(phsize);
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if (obj->phdr == NULL) {
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obj_free(obj);
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_rtld_error("%s: cannot allocate program header", path);
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goto error1;
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}
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memcpy((char *)obj->phdr, (char *)hdr + hdr->e_phoff, phsize);
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obj->phdr_alloc = true;
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}
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obj->phsize = phsize;
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if (phinterp != NULL)
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obj->interp = (const char *) (obj->relocbase + phinterp->p_vaddr);
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if (phtls != NULL) {
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tls_dtv_generation++;
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obj->tlsindex = ++tls_max_index;
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obj->tlssize = phtls->p_memsz;
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obj->tlsalign = phtls->p_align;
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obj->tlsinitsize = phtls->p_filesz;
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obj->tlsinit = mapbase + phtls->p_vaddr;
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}
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obj->stack_flags = stack_flags;
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obj->relro_page = obj->relocbase + trunc_page(relro_page);
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obj->relro_size = round_page(relro_size);
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if (note_start < note_end)
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digest_notes(obj, note_start, note_end);
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munmap(hdr, PAGE_SIZE);
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return (obj);
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error1:
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munmap(mapbase, mapsize);
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error:
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munmap(hdr, PAGE_SIZE);
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return (NULL);
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}
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static Elf_Ehdr *
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get_elf_header(int fd, const char *path)
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{
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Elf_Ehdr *hdr;
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hdr = mmap(NULL, PAGE_SIZE, PROT_READ, MAP_PRIVATE | MAP_PREFAULT_READ,
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fd, 0);
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if (hdr == (Elf_Ehdr *)MAP_FAILED) {
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_rtld_error("%s: read error: %s", path, rtld_strerror(errno));
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return (NULL);
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}
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/* Make sure the file is valid */
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if (!IS_ELF(*hdr)) {
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_rtld_error("%s: invalid file format", path);
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goto error;
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}
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if (hdr->e_ident[EI_CLASS] != ELF_TARG_CLASS ||
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hdr->e_ident[EI_DATA] != ELF_TARG_DATA) {
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_rtld_error("%s: unsupported file layout", path);
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goto error;
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}
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if (hdr->e_ident[EI_VERSION] != EV_CURRENT ||
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hdr->e_version != EV_CURRENT) {
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_rtld_error("%s: unsupported file version", path);
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goto error;
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}
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if (hdr->e_type != ET_EXEC && hdr->e_type != ET_DYN) {
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_rtld_error("%s: unsupported file type", path);
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goto error;
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}
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if (hdr->e_machine != ELF_TARG_MACH) {
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_rtld_error("%s: unsupported machine", path);
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goto error;
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}
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/*
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* We rely on the program header being in the first page. This is
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* not strictly required by the ABI specification, but it seems to
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* always true in practice. And, it simplifies things considerably.
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*/
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if (hdr->e_phentsize != sizeof(Elf_Phdr)) {
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_rtld_error(
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"%s: invalid shared object: e_phentsize != sizeof(Elf_Phdr)", path);
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goto error;
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}
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if (hdr->e_phoff + hdr->e_phnum * sizeof(Elf_Phdr) >
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(size_t)PAGE_SIZE) {
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_rtld_error("%s: program header too large", path);
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goto error;
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}
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return (hdr);
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error:
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munmap(hdr, PAGE_SIZE);
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return (NULL);
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}
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void
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obj_free(Obj_Entry *obj)
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{
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Objlist_Entry *elm;
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if (obj->tls_done)
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free_tls_offset(obj);
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while (obj->needed != NULL) {
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Needed_Entry *needed = obj->needed;
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obj->needed = needed->next;
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free(needed);
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}
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while (!STAILQ_EMPTY(&obj->names)) {
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Name_Entry *entry = STAILQ_FIRST(&obj->names);
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STAILQ_REMOVE_HEAD(&obj->names, link);
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free(entry);
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}
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while (!STAILQ_EMPTY(&obj->dldags)) {
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elm = STAILQ_FIRST(&obj->dldags);
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STAILQ_REMOVE_HEAD(&obj->dldags, link);
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free(elm);
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}
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while (!STAILQ_EMPTY(&obj->dagmembers)) {
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elm = STAILQ_FIRST(&obj->dagmembers);
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STAILQ_REMOVE_HEAD(&obj->dagmembers, link);
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free(elm);
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}
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if (obj->vertab)
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free(obj->vertab);
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if (obj->origin_path)
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free(obj->origin_path);
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if (obj->z_origin)
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free(obj->rpath);
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if (obj->priv)
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free(obj->priv);
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if (obj->path)
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free(obj->path);
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if (obj->phdr_alloc)
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free((void *)obj->phdr);
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free(obj);
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}
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Obj_Entry *
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obj_new(void)
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{
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Obj_Entry *obj;
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obj = CNEW(Obj_Entry);
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STAILQ_INIT(&obj->dldags);
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STAILQ_INIT(&obj->dagmembers);
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STAILQ_INIT(&obj->names);
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return obj;
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}
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/*
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* Given a set of ELF protection flags, return the corresponding protection
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* flags for MMAP.
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*/
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static int
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convert_prot(int elfflags)
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{
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int prot = 0;
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if (elfflags & PF_R)
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prot |= PROT_READ;
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if (elfflags & PF_W)
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prot |= PROT_WRITE;
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if (elfflags & PF_X)
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prot |= PROT_EXEC;
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return prot;
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}
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static int
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convert_flags(int elfflags)
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{
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int flags = MAP_PRIVATE; /* All mappings are private */
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/*
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* Readonly mappings are marked "MAP_NOCORE", because they can be
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* reconstructed by a debugger.
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*/
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if (!(elfflags & PF_W))
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flags |= MAP_NOCORE;
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return flags;
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}
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