/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include "_libelf.h" #include "decl.h" #include "msg.h" /* * Find elf or it's class from a pointer to an Elf_Data struct. * Warning: this Assumes that the Elf_Data is part of a libelf * Dnode structure, which is expected to be true for any Elf_Data * passed into libelf *except* for the xlatetof() and xlatetom() functions. */ #define EDATA_CLASS(edata) \ (((Dnode *)(edata))->db_scn->s_elf->ed_class) #define EDATA_ELF(edata) \ (((Dnode *)(edata))->db_scn->s_elf) #define EDATA_SCN(edata) \ (((Dnode *)(edata))->db_scn) #define EDATA_READLOCKS(edata) \ READLOCKS(EDATA_ELF((edata)), EDATA_SCN((edata))) #define EDATA_READUNLOCKS(edata) \ READUNLOCKS(EDATA_ELF((edata)), EDATA_SCN((edata))) size_t gelf_fsize(Elf * elf, Elf_Type type, size_t count, unsigned ver) { int class; if (elf == NULL) return (0); class = gelf_getclass(elf); if (class == ELFCLASS32) return (elf32_fsize(type, count, ver)); else if (class == ELFCLASS64) return (elf64_fsize(type, count, ver)); _elf_seterr(EREQ_CLASS, 0); return (0); } int gelf_getclass(Elf *elf) { if (elf == NULL) return (0); /* * Don't rely on the idents, a new ehdr doesn't have it! */ return (elf->ed_class); } GElf_Ehdr * gelf_getehdr(Elf *elf, GElf_Ehdr *dst) { int class; if (elf == NULL) return (NULL); class = gelf_getclass(elf); if (class == ELFCLASS32) { Elf32_Ehdr * e = elf32_getehdr(elf); if (e == NULL) return (NULL); ELFRLOCK(elf); (void) memcpy(dst->e_ident, e->e_ident, EI_NIDENT); dst->e_type = e->e_type; dst->e_machine = e->e_machine; dst->e_version = e->e_version; dst->e_entry = (Elf64_Addr)e->e_entry; dst->e_phoff = (Elf64_Off)e->e_phoff; dst->e_shoff = (Elf64_Off)e->e_shoff; dst->e_flags = e->e_flags; dst->e_ehsize = e->e_ehsize; dst->e_phentsize = e->e_phentsize; dst->e_phnum = e->e_phnum; dst->e_shentsize = e->e_shentsize; dst->e_shnum = e->e_shnum; dst->e_shstrndx = e->e_shstrndx; ELFUNLOCK(elf); return (dst); } else if (class == ELFCLASS64) { Elf64_Ehdr * e = elf64_getehdr(elf); if (e == NULL) return (NULL); ELFRLOCK(elf); *dst = *e; ELFUNLOCK(elf); return (dst); } _elf_seterr(EREQ_CLASS, 0); return (NULL); } int gelf_update_ehdr(Elf *elf, GElf_Ehdr *src) { int class; if (elf == NULL) return (0); /* * In case elf isn't cooked. */ class = gelf_getclass(elf); if (class == ELFCLASSNONE) class = src->e_ident[EI_CLASS]; if (class == ELFCLASS32) { Elf32_Ehdr * d = elf32_getehdr(elf); if (d == NULL) return (0); ELFWLOCK(elf); (void) memcpy(d->e_ident, src->e_ident, EI_NIDENT); d->e_type = src->e_type; d->e_machine = src->e_machine; d->e_version = src->e_version; /* LINTED */ d->e_entry = (Elf32_Addr)src->e_entry; /* LINTED */ d->e_phoff = (Elf32_Off)src->e_phoff; /* LINTED */ d->e_shoff = (Elf32_Off)src->e_shoff; /* could memcpy the rest of these... */ d->e_flags = src->e_flags; d->e_ehsize = src->e_ehsize; d->e_phentsize = src->e_phentsize; d->e_phnum = src->e_phnum; d->e_shentsize = src->e_shentsize; d->e_shnum = src->e_shnum; d->e_shstrndx = src->e_shstrndx; ELFUNLOCK(elf); return (1); } else if (class == ELFCLASS64) { Elf64_Ehdr * d = elf64_getehdr(elf); if (d == NULL) return (0); ELFWLOCK(elf); *d = *(Elf64_Ehdr *)src; ELFUNLOCK(elf); return (1); } _elf_seterr(EREQ_CLASS, 0); return (0); } unsigned long gelf_newehdr(Elf *elf, int class) { if (elf == NULL) return (0); if (class == ELFCLASS32) return ((unsigned long)elf32_newehdr(elf)); else if (class == ELFCLASS64) return ((unsigned long)elf64_newehdr(elf)); _elf_seterr(EREQ_CLASS, 0); return (0); } GElf_Phdr * gelf_getphdr(Elf *elf, int ndx, GElf_Phdr *dst) { int class; size_t phnum; if (elf == NULL) return (NULL); if (elf_getphnum(elf, &phnum) == 0) return (NULL); if (phnum <= ndx) { _elf_seterr(EREQ_RAND, 0); return (NULL); } class = gelf_getclass(elf); if ((class != ELFCLASS32) && (class != ELFCLASS64)) { _elf_seterr(EREQ_CLASS, 0); return (NULL); } if (class == ELFCLASS32) { Elf32_Phdr *p = &((Elf32_Phdr *)elf32_getphdr(elf))[ndx]; ELFRLOCK(elf); dst->p_type = p->p_type; dst->p_flags = p->p_flags; dst->p_offset = (Elf64_Off)p->p_offset; dst->p_vaddr = (Elf64_Addr)p->p_vaddr; dst->p_paddr = (Elf64_Addr)p->p_paddr; dst->p_filesz = (Elf64_Xword)p->p_filesz; dst->p_memsz = (Elf64_Xword)p->p_memsz; dst->p_align = (Elf64_Xword)p->p_align; ELFUNLOCK(elf); } else if (class == ELFCLASS64) { Elf64_Phdr *phdrs = elf64_getphdr(elf); ELFRLOCK(elf); *dst = ((GElf_Phdr *)phdrs)[ndx]; ELFUNLOCK(elf); } return (dst); } int gelf_update_phdr(Elf *elf, int ndx, GElf_Phdr *src) { int class; size_t phnum; if (elf == NULL) return (0); if (elf_getphnum(elf, &phnum) == 0) return (NULL); if (phnum < ndx) { _elf_seterr(EREQ_RAND, 0); return (0); } class = gelf_getclass(elf); if (class == ELFCLASS32) { Elf32_Phdr *dst = &((Elf32_Phdr *)elf32_getphdr(elf))[ndx]; ELFWLOCK(elf); dst->p_type = src->p_type; dst->p_flags = src->p_flags; /* LINTED */ dst->p_offset = (Elf32_Off)src->p_offset; /* LINTED */ dst->p_vaddr = (Elf32_Addr)src->p_vaddr; /* LINTED */ dst->p_paddr = (Elf32_Addr)src->p_paddr; /* LINTED */ dst->p_filesz = (Elf32_Word)src->p_filesz; /* LINTED */ dst->p_memsz = (Elf32_Word)src->p_memsz; /* LINTED */ dst->p_align = (Elf32_Word)src->p_align; ELFUNLOCK(elf); } else if (class == ELFCLASS64) { Elf64_Phdr *dst = elf64_getphdr(elf); ELFWLOCK(elf); dst[ndx] = *(GElf_Phdr *)src; ELFUNLOCK(elf); } else { _elf_seterr(EREQ_CLASS, 0); return (0); } return (1); } unsigned long gelf_newphdr(Elf *elf, size_t phnum) { int class; if (elf == NULL) return (0); class = gelf_getclass(elf); if (class == ELFCLASS32) return ((unsigned long)elf32_newphdr(elf, phnum)); else if (class == ELFCLASS64) return ((unsigned long)elf64_newphdr(elf, phnum)); _elf_seterr(EREQ_CLASS, 0); return (0); } GElf_Shdr * gelf_getshdr(Elf_Scn *scn, GElf_Shdr *dst) { if (scn == NULL) return (NULL); if (scn->s_elf->ed_class == ELFCLASS32) { Elf32_Shdr *s = elf32_getshdr(scn); if (s == NULL) return (NULL); READLOCKS(scn->s_elf, scn); dst->sh_name = s->sh_name; dst->sh_type = s->sh_type; dst->sh_flags = (Elf64_Xword)s->sh_flags; dst->sh_addr = (Elf64_Addr)s->sh_addr; dst->sh_offset = (Elf64_Off)s->sh_offset; dst->sh_size = (Elf64_Xword)s->sh_size; dst->sh_link = s->sh_link; dst->sh_info = s->sh_info; dst->sh_addralign = (Elf64_Xword)s->sh_addralign; dst->sh_entsize = (Elf64_Xword)s->sh_entsize; READUNLOCKS(scn->s_elf, scn); return (dst); } else if (scn->s_elf->ed_class == ELFCLASS64) { Elf64_Shdr *s = elf64_getshdr(scn); if (s == NULL) return (NULL); READLOCKS(scn->s_elf, scn); *dst = *(Elf64_Shdr *)s; READUNLOCKS(scn->s_elf, scn); return (dst); } _elf_seterr(EREQ_CLASS, 0); return (NULL); } int gelf_update_shdr(Elf_Scn *scn, GElf_Shdr *src) { if (scn == NULL) return (0); if (scn->s_elf->ed_class == ELFCLASS32) { Elf32_Shdr *dst = elf32_getshdr(scn); if (dst == NULL) return (0); ELFWLOCK(scn->s_elf); dst->sh_name = src->sh_name; dst->sh_type = src->sh_type; /* LINTED */ dst->sh_flags = (Elf32_Word)src->sh_flags; /* LINTED */ dst->sh_addr = (Elf32_Addr)src->sh_addr; /* LINTED */ dst->sh_offset = (Elf32_Off) src->sh_offset; /* LINTED */ dst->sh_size = (Elf32_Word)src->sh_size; dst->sh_link = src->sh_link; dst->sh_info = src->sh_info; /* LINTED */ dst->sh_addralign = (Elf32_Word)src->sh_addralign; /* LINTED */ dst->sh_entsize = (Elf32_Word)src->sh_entsize; ELFUNLOCK(scn->s_elf); return (1); } else if (scn->s_elf->ed_class == ELFCLASS64) { Elf64_Shdr * dst = elf64_getshdr(scn); if (dst == NULL) return (0); ELFWLOCK(scn->s_elf); *dst = *(Elf64_Shdr *)src; ELFUNLOCK(scn->s_elf); return (1); } _elf_seterr(EREQ_CLASS, 0); return (0); } /* * gelf_xlatetof/gelf_xlatetom use 'elf' to find the class * because these are the odd case where the Elf_Data structs * might not have been allocated by libelf (and therefore * don't have Dnode's associated with them). */ Elf_Data * gelf_xlatetof(Elf *elf, Elf_Data *dst, const Elf_Data *src, unsigned encode) { int class; if ((elf == NULL) || (dst == NULL) || (src == NULL)) return (NULL); class = gelf_getclass(elf); if (class == ELFCLASS32) return (elf32_xlatetof(dst, src, encode)); else if (class == ELFCLASS64) return (elf64_xlatetof(dst, src, encode)); _elf_seterr(EREQ_CLASS, 0); return (NULL); } Elf_Data * gelf_xlatetom(Elf *elf, Elf_Data *dst, const Elf_Data *src, unsigned encode) { int class; if ((elf == NULL) || (dst == NULL) || (src == NULL)) return (NULL); class = gelf_getclass(elf); if (class == ELFCLASS32) return (elf32_xlatetom(dst, src, encode)); else if (class == ELFCLASS64) return (elf64_xlatetom(dst, src, encode)); _elf_seterr(EREQ_CLASS, 0); return (NULL); } GElf_Sym * gelf_getsym(Elf_Data * data, int ndx, GElf_Sym * dst) { int class; size_t entsize; if (data == NULL) return (NULL); class = EDATA_CLASS(data); if (class == ELFCLASS32) entsize = sizeof (Elf32_Sym); else if (class == ELFCLASS64) entsize = sizeof (GElf_Sym); else { _elf_seterr(EREQ_CLASS, 0); return (NULL); } EDATA_READLOCKS(data); if ((entsize * ndx) >= data->d_size) { _elf_seterr(EREQ_RAND, 0); dst = NULL; } else if (class == ELFCLASS32) { Elf32_Sym *s; s = &(((Elf32_Sym *)data->d_buf)[ndx]); dst->st_name = s->st_name; dst->st_value = (Elf64_Addr)s->st_value; dst->st_size = (Elf64_Xword)s->st_size; dst->st_info = ELF64_ST_INFO(ELF32_ST_BIND(s->st_info), ELF32_ST_TYPE(s->st_info)); dst->st_other = s->st_other; dst->st_shndx = s->st_shndx; } else *dst = ((GElf_Sym *)data->d_buf)[ndx]; EDATA_READUNLOCKS(data); return (dst); } int gelf_update_sym(Elf_Data *dst, int ndx, GElf_Sym *src) { int class, rc = 1; size_t entsize; if (dst == NULL) return (0); class = EDATA_CLASS(dst); if (class == ELFCLASS32) entsize = sizeof (Elf32_Sym); else if (class == ELFCLASS64) entsize = sizeof (GElf_Sym); else { _elf_seterr(EREQ_CLASS, 0); return (0); } ELFWLOCK(EDATA_ELF(dst)); if ((entsize * ndx) >= dst->d_size) { _elf_seterr(EREQ_RAND, 0); rc = 0; } else if (class == ELFCLASS32) { Elf32_Sym * d; d = &(((Elf32_Sym *)dst->d_buf)[ndx]); d->st_name = src->st_name; /* LINTED */ d->st_value = (Elf32_Addr)src->st_value; /* LINTED */ d->st_size = (Elf32_Word)src->st_size; d->st_info = ELF32_ST_INFO(ELF64_ST_BIND(src->st_info), ELF64_ST_TYPE(src->st_info)); d->st_other = src->st_other; d->st_shndx = src->st_shndx; } else ((Elf64_Sym *)dst->d_buf)[ndx] = *((Elf64_Sym *)src); ELFUNLOCK(EDATA_ELF(dst)); return (rc); } GElf_Syminfo * gelf_getsyminfo(Elf_Data *data, int ndx, GElf_Syminfo *dst) { int class; size_t entsize; if (data == NULL) return (NULL); class = EDATA_CLASS(data); if (class == ELFCLASS32) entsize = sizeof (Elf32_Syminfo); else if (class == ELFCLASS64) entsize = sizeof (GElf_Syminfo); else { _elf_seterr(EREQ_CLASS, 0); return (NULL); } EDATA_READLOCKS(data); if ((entsize * ndx) >= data->d_size) { _elf_seterr(EREQ_RAND, 0); dst = NULL; } else if (class == ELFCLASS32) { Elf32_Syminfo * si; si = &(((Elf32_Syminfo *)data->d_buf)[ndx]); dst->si_boundto = si->si_boundto; dst->si_flags = si->si_flags; } else *dst = ((GElf_Syminfo *)data->d_buf)[ndx]; EDATA_READUNLOCKS(data); return (dst); } int gelf_update_syminfo(Elf_Data *dst, int ndx, GElf_Syminfo *src) { int class, rc = 1; size_t entsize; if (dst == NULL) return (0); class = EDATA_CLASS(dst); if (class == ELFCLASS32) entsize = sizeof (Elf32_Syminfo); else if (class == ELFCLASS64) entsize = sizeof (GElf_Syminfo); else { _elf_seterr(EREQ_CLASS, 0); return (0); } ELFWLOCK(EDATA_ELF(dst)); if ((entsize * ndx) >= dst->d_size) { _elf_seterr(EREQ_RAND, 0); rc = 0; } else if (class == ELFCLASS32) { Elf32_Syminfo * d = &(((Elf32_Syminfo *)dst->d_buf)[ndx]); d->si_boundto = src->si_boundto; d->si_flags = src->si_flags; } else ((Elf64_Syminfo *)dst->d_buf)[ndx] = *((Elf64_Syminfo *)src); ELFUNLOCK(EDATA_ELF(dst)); return (rc); } GElf_Dyn * gelf_getdyn(Elf_Data *data, int ndx, GElf_Dyn *dst) { int class; size_t entsize; if (data == NULL) return (NULL); class = EDATA_CLASS(data); if (class == ELFCLASS32) entsize = sizeof (Elf32_Dyn); else if (class == ELFCLASS64) entsize = sizeof (GElf_Dyn); else { _elf_seterr(EREQ_CLASS, 0); return (NULL); } EDATA_READLOCKS(data); if ((entsize * ndx) >= data->d_size) { _elf_seterr(EREQ_RAND, 0); dst = NULL; } else if (class == ELFCLASS32) { Elf32_Dyn * d = &((Elf32_Dyn *)data->d_buf)[ndx]; dst->d_tag = (Elf32_Sword)d->d_tag; dst->d_un.d_val = (Elf32_Word) d->d_un.d_val; } else *dst = ((Elf64_Dyn *)data->d_buf)[ndx]; EDATA_READUNLOCKS(data); return (dst); } int gelf_update_dyn(Elf_Data *dst, int ndx, GElf_Dyn *src) { int class, rc = 1; size_t entsize; if (dst == NULL) return (0); class = EDATA_CLASS(dst); if (class == ELFCLASS32) entsize = sizeof (Elf32_Dyn); else if (class == ELFCLASS64) entsize = sizeof (GElf_Dyn); else { _elf_seterr(EREQ_CLASS, 0); return (0); } ELFWLOCK(EDATA_ELF(dst)); if ((entsize * ndx) >= dst->d_size) { _elf_seterr(EREQ_RAND, 0); rc = 0; } else if (class == ELFCLASS32) { Elf32_Dyn * d = &((Elf32_Dyn *)dst->d_buf)[ndx]; /* LINTED */ d->d_tag = (Elf32_Word)src->d_tag; /* LINTED */ d->d_un.d_val = (Elf32_Word)src->d_un.d_val; } else ((Elf64_Dyn *)dst->d_buf)[ndx] = *(Elf64_Dyn*)src; ELFUNLOCK(EDATA_ELF(dst)); return (rc); } GElf_Sym * gelf_getsymshndx(Elf_Data *symdata, Elf_Data *shndxdata, int ndx, GElf_Sym *symptr, Elf32_Word *xshndx) { if (gelf_getsym(symdata, ndx, symptr) == 0) return (NULL); if (shndxdata && xshndx) { EDATA_READLOCKS(shndxdata); if ((ndx * sizeof (Elf32_Word)) >= shndxdata->d_size) { _elf_seterr(EREQ_RAND, 0); EDATA_READUNLOCKS(shndxdata); return (NULL); } *xshndx = (((Elf32_Word *)shndxdata->d_buf)[ndx]); EDATA_READUNLOCKS(shndxdata); } else { *xshndx = 0; } return (symptr); } int gelf_update_symshndx(Elf_Data *symdata, Elf_Data *shndxdata, int ndx, GElf_Sym *symptr, Elf32_Word xshndx) { if (gelf_update_sym(symdata, ndx, symptr) == 0) return (0); if (shndxdata) { ELFWLOCK(EDATA_ELF(shndxdata)); if ((ndx * sizeof (Elf32_Word)) >= shndxdata->d_size) { _elf_seterr(EREQ_RAND, 0); ELFUNLOCK(EDATA_ELF(shndxdata)); return (0); } ((Elf32_Word *)shndxdata->d_buf)[ndx] = xshndx; ELFUNLOCK(EDATA_ELF(shndxdata)); } return (1); } GElf_Move * gelf_getmove(Elf_Data *src, int ndx, GElf_Move *dst) { int class; size_t entsize; if (src == NULL) return (NULL); class = EDATA_CLASS(src); if (class == ELFCLASS32) entsize = sizeof (Elf32_Move); else if (class == ELFCLASS64) entsize = sizeof (GElf_Move); else { _elf_seterr(EREQ_CLASS, 0); return (NULL); } EDATA_READLOCKS(src); if ((entsize * ndx) >= src->d_size) { _elf_seterr(EREQ_RAND, 0); dst = NULL; } else if (class == ELFCLASS32) { Elf32_Move * m = &((Elf32_Move *)src->d_buf)[ndx]; dst->m_poffset = (Elf64_Word)m->m_poffset; dst->m_repeat = (Elf64_Xword)m->m_repeat; dst->m_stride = (Elf64_Half)m->m_stride; dst->m_value = (Elf64_Xword)m->m_value; dst->m_info = ELF64_M_INFO(ELF32_M_SYM(m->m_info), ELF32_M_SIZE(m->m_info)); } else { *dst = ((Elf64_Move *)src->d_buf)[ndx]; } EDATA_READUNLOCKS(src); return (dst); } int gelf_update_move(Elf_Data *dest, int ndx, GElf_Move *src) { int class, rc = 1; size_t entsize; if (dest == NULL) return (0); class = EDATA_CLASS(dest); if (class == ELFCLASS32) entsize = sizeof (Elf32_Move); else if (class == ELFCLASS64) entsize = sizeof (GElf_Move); else { _elf_seterr(EREQ_CLASS, 0); return (0); } ELFWLOCK(EDATA_ELF(dest)); if ((entsize * ndx) >= dest->d_size) { _elf_seterr(EREQ_RAND, 0); rc = 0; } else if (class == ELFCLASS32) { Elf32_Move * m = &((Elf32_Move *)dest->d_buf)[ndx]; m->m_poffset = (Elf32_Word)src->m_poffset; m->m_repeat = (Elf32_Half)src->m_repeat; m->m_stride = (Elf32_Half)src->m_stride; m->m_value = (Elf32_Lword)src->m_value; m->m_info = (Elf32_Word)ELF32_M_INFO(ELF64_M_SYM(src->m_info), ELF64_M_SIZE(src->m_info)); } else { ((Elf64_Move *)dest->d_buf)[ndx] = *(Elf64_Move *)src; } ELFUNLOCK(EDATA_ELF(dest)); return (rc); } GElf_Rela * gelf_getrela(Elf_Data *src, int ndx, GElf_Rela *dst) { int class; size_t entsize; if (src == NULL) return (NULL); class = EDATA_CLASS(src); if (class == ELFCLASS32) entsize = sizeof (Elf32_Rela); else if (class == ELFCLASS64) entsize = sizeof (GElf_Rela); else { _elf_seterr(EREQ_CLASS, 0); return (NULL); } EDATA_READLOCKS(src); if ((entsize * ndx) >= src->d_size) { _elf_seterr(EREQ_RAND, 0); dst = NULL; } else if (class == ELFCLASS32) { Elf32_Rela * r = &((Elf32_Rela *)src->d_buf)[ndx]; dst->r_offset = (GElf_Addr)r->r_offset; dst->r_addend = (GElf_Addr)r->r_addend; /* * Elf32 will never have the extra data field that * Elf64's r_info field can have, so ignore it. */ /* LINTED */ dst->r_info = ELF64_R_INFO( ELF32_R_SYM(r->r_info), ELF32_R_TYPE(r->r_info)); } else *dst = ((Elf64_Rela *)src->d_buf)[ndx]; EDATA_READUNLOCKS(src); return (dst); } int gelf_update_rela(Elf_Data *dst, int ndx, GElf_Rela *src) { int class, rc = 1; size_t entsize; if (dst == NULL) return (0); class = EDATA_CLASS(dst); if (class == ELFCLASS32) entsize = sizeof (Elf32_Rela); else if (class == ELFCLASS64) entsize = sizeof (GElf_Rela); else { _elf_seterr(EREQ_CLASS, 0); return (0); } ELFWLOCK(EDATA_ELF(dst)); if ((entsize * ndx) >= dst->d_size) { _elf_seterr(EREQ_RAND, 0); rc = 0; } else if (class == ELFCLASS32) { Elf32_Rela * r = &((Elf32_Rela *)dst->d_buf)[ndx]; /* LINTED */ r->r_offset = (Elf32_Addr) src->r_offset; /* LINTED */ r->r_addend = (Elf32_Sword)src->r_addend; /* * Elf32 will never have the extra data field that * Elf64's r_info field can have, so ignore it. */ /* LINTED */ r->r_info = ELF32_R_INFO(ELF64_R_SYM(src->r_info), ELF64_R_TYPE(src->r_info)); } else { ((Elf64_Rela *)dst->d_buf)[ndx] = *(Elf64_Rela *)src; } ELFUNLOCK(EDATA_ELF(dst)); return (rc); } GElf_Rel * gelf_getrel(Elf_Data *src, int ndx, GElf_Rel *dst) { int class; size_t entsize; if (src == NULL) return (NULL); class = EDATA_CLASS(src); if (class == ELFCLASS32) entsize = sizeof (Elf32_Rel); else if (class == ELFCLASS64) entsize = sizeof (GElf_Rel); else { _elf_seterr(EREQ_CLASS, 0); return (NULL); } EDATA_READLOCKS(src); if ((entsize * ndx) >= src->d_size) { _elf_seterr(EREQ_RAND, 0); dst = NULL; } else if (class == ELFCLASS32) { Elf32_Rel * r = &((Elf32_Rel *)src->d_buf)[ndx]; dst->r_offset = (GElf_Addr)r->r_offset; /* * Elf32 will never have the extra data field that * Elf64's r_info field can have, so ignore it. */ /* LINTED */ dst->r_info = ELF64_R_INFO(ELF32_R_SYM(r->r_info), ELF32_R_TYPE(r->r_info)); } else *dst = ((Elf64_Rel *)src->d_buf)[ndx]; EDATA_READUNLOCKS(src); return (dst); } int gelf_update_rel(Elf_Data *dst, int ndx, GElf_Rel *src) { int class, rc = 1; size_t entsize; if (dst == NULL) return (0); class = EDATA_CLASS(dst); if (class == ELFCLASS32) entsize = sizeof (Elf32_Rel); else if (class == ELFCLASS64) entsize = sizeof (GElf_Rel); else { _elf_seterr(EREQ_CLASS, 0); return (0); } ELFWLOCK(EDATA_ELF(dst)); if ((entsize * ndx) >= dst->d_size) { _elf_seterr(EREQ_RAND, 0); rc = 0; } else if (class == ELFCLASS32) { Elf32_Rel * r = &((Elf32_Rel *)dst->d_buf)[ndx]; /* LINTED */ r->r_offset = (Elf32_Addr) src->r_offset; /* * Elf32 will never have the extra data field that * Elf64's r_info field can have, so ignore it. */ /* LINTED */ r->r_info = ELF32_R_INFO(ELF64_R_SYM(src->r_info), ELF64_R_TYPE(src->r_info)); } else { ((Elf64_Rel *)dst->d_buf)[ndx] = *(Elf64_Rel *)src; } ELFUNLOCK(EDATA_ELF(dst)); return (rc); } long gelf_checksum(Elf *elf) { int class = gelf_getclass(elf); if (class == ELFCLASS32) return (elf32_checksum(elf)); else if (class == ELFCLASS64) return (elf64_checksum(elf)); _elf_seterr(EREQ_CLASS, 0); return (0); } GElf_Cap * gelf_getcap(Elf_Data *data, int ndx, GElf_Cap *dst) { int class; size_t entsize; if (data == NULL) return (NULL); class = EDATA_CLASS(data); if (class == ELFCLASS32) entsize = sizeof (Elf32_Cap); else if (class == ELFCLASS64) entsize = sizeof (GElf_Cap); else { _elf_seterr(EREQ_CLASS, 0); return (NULL); } EDATA_READLOCKS(data); if ((entsize * ndx) >= data->d_size) { _elf_seterr(EREQ_RAND, 0); dst = NULL; } else if (class == ELFCLASS32) { Elf32_Cap *c = &(((Elf32_Cap *)data->d_buf)[ndx]); dst->c_tag = (Elf64_Xword)c->c_tag; dst->c_un.c_val = (Elf64_Xword)c->c_un.c_val; } else *dst = ((GElf_Cap *)data->d_buf)[ndx]; EDATA_READUNLOCKS(data); return (dst); } int gelf_update_cap(Elf_Data *dst, int ndx, GElf_Cap *src) { int class, rc = 1; size_t entsize; if (dst == NULL) return (0); class = EDATA_CLASS(dst); if (class == ELFCLASS32) entsize = sizeof (Elf32_Cap); else if (class == ELFCLASS64) entsize = sizeof (GElf_Cap); else { _elf_seterr(EREQ_CLASS, 0); return (0); } ELFWLOCK(EDATA_ELF(dst)); if ((entsize * ndx) >= dst->d_size) { _elf_seterr(EREQ_RAND, 0); rc = 0; } else if (class == ELFCLASS32) { Elf32_Cap *c = &(((Elf32_Cap *)dst->d_buf)[ndx]); c->c_tag = (Elf32_Word)src->c_tag; c->c_un.c_val = (Elf32_Word)src->c_un.c_val; } else ((Elf64_Cap *)dst->d_buf)[ndx] = *((Elf64_Cap *)src); ELFUNLOCK(EDATA_ELF(dst)); return (rc); } /* * If the specified object has a dynamic section, and that section * contains a DT_FLAGS_1 entry, then return the value of that entry. * Otherwise, return 0. */ GElf_Xword _gelf_getdyndtflags_1(Elf *elf) { Elf_Scn *scn = NULL; Elf_Data *data; GElf_Shdr shdr; GElf_Dyn dyn; int i, n; while (scn = elf_nextscn(elf, scn)) { if (gelf_getshdr(scn, &shdr) == NULL) break; if (shdr.sh_type != SHT_DYNAMIC) continue; if (data = elf_getdata(scn, NULL)) { n = shdr.sh_size / shdr.sh_entsize; for (i = 0; i < n; i++) { (void) gelf_getdyn(data, i, &dyn); if (dyn.d_tag == DT_FLAGS_1) { return (dyn.d_un.d_val); } } } break; } return (0); }