/* * Copyright (C) 2019 The Android Open Source Project * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include "linker_relocate.h" #include #include #include #include "linker.h" #include "linker_debug.h" #include "linker_globals.h" #include "linker_gnu_hash.h" #include "linker_phdr.h" #include "linker_relocs.h" #include "linker_reloc_iterators.h" #include "linker_sleb128.h" #include "linker_soinfo.h" #include "private/bionic_globals.h" static bool is_tls_reloc(ElfW(Word) type) { switch (type) { case R_GENERIC_TLS_DTPMOD: case R_GENERIC_TLS_DTPREL: case R_GENERIC_TLS_TPREL: #if defined(R_GENERIC_TLSDESC) case R_GENERIC_TLSDESC: #endif return true; default: return false; } } class Relocator { public: Relocator(const VersionTracker& version_tracker, const SymbolLookupList& lookup_list) : version_tracker(version_tracker), lookup_list(lookup_list) {} soinfo* si = nullptr; const char* si_strtab = nullptr; size_t si_strtab_size = 0; ElfW(Sym)* si_symtab = nullptr; const VersionTracker& version_tracker; const SymbolLookupList& lookup_list; // Cache key ElfW(Word) cache_sym_val = 0; // Cache value const ElfW(Sym)* cache_sym = nullptr; soinfo* cache_si = nullptr; std::vector* tlsdesc_args; std::vector> deferred_tlsdesc_relocs; size_t tls_tp_base = 0; __attribute__((always_inline)) const char* get_string(ElfW(Word) index) { if (__predict_false(index >= si_strtab_size)) { async_safe_fatal("%s: strtab out of bounds error; STRSZ=%zd, name=%d", si->get_realpath(), si_strtab_size, index); } return si_strtab + index; } }; template __attribute__((always_inline)) static inline bool lookup_symbol(Relocator& relocator, uint32_t r_sym, const char* sym_name, soinfo** found_in, const ElfW(Sym)** sym) { if (r_sym == relocator.cache_sym_val) { *found_in = relocator.cache_si; *sym = relocator.cache_sym; count_relocation_if(kRelocSymbolCached); } else { const version_info* vi = nullptr; if (!relocator.si->lookup_version_info(relocator.version_tracker, r_sym, sym_name, &vi)) { return false; } soinfo* local_found_in = nullptr; const ElfW(Sym)* local_sym = soinfo_do_lookup(sym_name, vi, &local_found_in, relocator.lookup_list); relocator.cache_sym_val = r_sym; relocator.cache_si = local_found_in; relocator.cache_sym = local_sym; *found_in = local_found_in; *sym = local_sym; } if (*sym == nullptr) { if (ELF_ST_BIND(relocator.si_symtab[r_sym].st_info) != STB_WEAK) { DL_ERR("cannot locate symbol \"%s\" referenced by \"%s\"...", sym_name, relocator.si->get_realpath()); return false; } } count_relocation_if(kRelocSymbol); return true; } enum class RelocMode { // Fast path for JUMP_SLOT relocations. JumpTable, // Fast path for typical relocations: ABSOLUTE, GLOB_DAT, or RELATIVE. Typical, // Handle all relocation types, relocations in text sections, and statistics/tracing. General, }; struct linker_stats_t { int count[kRelocMax]; }; static linker_stats_t linker_stats; void count_relocation(RelocationKind kind) { ++linker_stats.count[kind]; } void print_linker_stats() { PRINT("RELO STATS: %s: %d abs, %d rel, %d symbol (%d cached)", g_argv[0], linker_stats.count[kRelocAbsolute], linker_stats.count[kRelocRelative], linker_stats.count[kRelocSymbol], linker_stats.count[kRelocSymbolCached]); } static bool process_relocation_general(Relocator& relocator, const rel_t& reloc); template __attribute__((always_inline)) static bool process_relocation_impl(Relocator& relocator, const rel_t& reloc) { constexpr bool IsGeneral = Mode == RelocMode::General; void* const rel_target = reinterpret_cast(reloc.r_offset + relocator.si->load_bias); const uint32_t r_type = ELFW(R_TYPE)(reloc.r_info); const uint32_t r_sym = ELFW(R_SYM)(reloc.r_info); soinfo* found_in = nullptr; const ElfW(Sym)* sym = nullptr; const char* sym_name = nullptr; ElfW(Addr) sym_addr = 0; if (r_sym != 0) { sym_name = relocator.get_string(relocator.si_symtab[r_sym].st_name); } // While relocating a DSO with text relocations (obsolete and 32-bit only), the .text segment is // writable (but not executable). To call an ifunc, temporarily remap the segment as executable // (but not writable). Then switch it back to continue applying relocations in the segment. #if defined(__LP64__) const bool handle_text_relocs = false; auto protect_segments = []() { return true; }; auto unprotect_segments = []() { return true; }; #else const bool handle_text_relocs = IsGeneral && relocator.si->has_text_relocations; auto protect_segments = [&]() { // Make .text executable. if (phdr_table_protect_segments(relocator.si->phdr, relocator.si->phnum, relocator.si->load_bias, relocator.si->should_pad_segments()) < 0) { DL_ERR("can't protect segments for \"%s\": %s", relocator.si->get_realpath(), strerror(errno)); return false; } return true; }; auto unprotect_segments = [&]() { // Make .text writable. if (phdr_table_unprotect_segments(relocator.si->phdr, relocator.si->phnum, relocator.si->load_bias, relocator.si->should_pad_segments()) < 0) { DL_ERR("can't unprotect loadable segments for \"%s\": %s", relocator.si->get_realpath(), strerror(errno)); return false; } return true; }; #endif auto trace_reloc = [](const char* fmt, ...) __printflike(2, 3) { if (IsGeneral && g_ld_debug_verbosity > LINKER_VERBOSITY_TRACE && DO_TRACE_RELO) { va_list ap; va_start(ap, fmt); linker_log_va_list(LINKER_VERBOSITY_TRACE, fmt, ap); va_end(ap); } }; // Skip symbol lookup for R_GENERIC_NONE relocations. if (__predict_false(r_type == R_GENERIC_NONE)) { trace_reloc("RELO NONE"); return true; } #if defined(USE_RELA) auto get_addend_rel = [&]() -> ElfW(Addr) { return reloc.r_addend; }; auto get_addend_norel = [&]() -> ElfW(Addr) { return reloc.r_addend; }; #else auto get_addend_rel = [&]() -> ElfW(Addr) { return *static_cast(rel_target); }; auto get_addend_norel = [&]() -> ElfW(Addr) { return 0; }; #endif if (!IsGeneral && __predict_false(is_tls_reloc(r_type))) { // Always process TLS relocations using the slow code path, so that STB_LOCAL symbols are // diagnosed, and ifunc processing is skipped. return process_relocation_general(relocator, reloc); } if (IsGeneral && is_tls_reloc(r_type)) { if (r_sym == 0) { // By convention in ld.bfd and lld, an omitted symbol on a TLS relocation // is a reference to the current module. found_in = relocator.si; } else if (ELF_ST_BIND(relocator.si_symtab[r_sym].st_info) == STB_LOCAL) { // In certain situations, the Gold linker accesses a TLS symbol using a // relocation to an STB_LOCAL symbol in .dynsym of either STT_SECTION or // STT_TLS type. Bionic doesn't support these relocations, so issue an // error. References: // - https://groups.google.com/d/topic/generic-abi/dJ4_Y78aQ2M/discussion // - https://sourceware.org/bugzilla/show_bug.cgi?id=17699 sym = &relocator.si_symtab[r_sym]; auto sym_type = ELF_ST_TYPE(sym->st_info); if (sym_type == STT_SECTION) { DL_ERR("unexpected TLS reference to local section in \"%s\": sym type %d, rel type %u", relocator.si->get_realpath(), sym_type, r_type); } else { DL_ERR( "unexpected TLS reference to local symbol \"%s\" in \"%s\": sym type %d, rel type %u", sym_name, relocator.si->get_realpath(), sym_type, r_type); } return false; } else if (!lookup_symbol(relocator, r_sym, sym_name, &found_in, &sym)) { return false; } if (found_in != nullptr && found_in->get_tls() == nullptr) { // sym_name can be nullptr if r_sym is 0. A linker should never output an ELF file like this. DL_ERR("TLS relocation refers to symbol \"%s\" in solib \"%s\" with no TLS segment", sym_name, found_in->get_realpath()); return false; } if (sym != nullptr) { if (ELF_ST_TYPE(sym->st_info) != STT_TLS) { // A toolchain should never output a relocation like this. DL_ERR("reference to non-TLS symbol \"%s\" from TLS relocation in \"%s\"", sym_name, relocator.si->get_realpath()); return false; } sym_addr = sym->st_value; } } else { if (r_sym == 0) { // Do nothing. } else { if (!lookup_symbol(relocator, r_sym, sym_name, &found_in, &sym)) return false; if (sym != nullptr) { const bool should_protect_segments = handle_text_relocs && found_in == relocator.si && ELF_ST_TYPE(sym->st_info) == STT_GNU_IFUNC; if (should_protect_segments && !protect_segments()) return false; sym_addr = found_in->resolve_symbol_address(sym); if (should_protect_segments && !unprotect_segments()) return false; } else if constexpr (IsGeneral) { // A weak reference to an undefined symbol. We typically use a zero symbol address, but // use the relocation base for PC-relative relocations, so that the value written is zero. switch (r_type) { #if defined(__x86_64__) case R_X86_64_PC32: sym_addr = reinterpret_cast(rel_target); break; #elif defined(__i386__) case R_386_PC32: sym_addr = reinterpret_cast(rel_target); break; #endif } } } } if constexpr (IsGeneral || Mode == RelocMode::JumpTable) { if (r_type == R_GENERIC_JUMP_SLOT) { count_relocation_if(kRelocAbsolute); const ElfW(Addr) result = sym_addr + get_addend_norel(); trace_reloc("RELO JMP_SLOT %16p <- %16p %s", rel_target, reinterpret_cast(result), sym_name); *static_cast(rel_target) = result; return true; } } if constexpr (IsGeneral || Mode == RelocMode::Typical) { // Almost all dynamic relocations are of one of these types, and most will be // R_GENERIC_ABSOLUTE. The platform typically uses RELR instead, but R_GENERIC_RELATIVE is // common in non-platform binaries. if (r_type == R_GENERIC_ABSOLUTE) { count_relocation_if(kRelocAbsolute); const ElfW(Addr) result = sym_addr + get_addend_rel(); trace_reloc("RELO ABSOLUTE %16p <- %16p %s", rel_target, reinterpret_cast(result), sym_name); *static_cast(rel_target) = result; return true; } else if (r_type == R_GENERIC_GLOB_DAT) { // The i386 psABI specifies that R_386_GLOB_DAT doesn't have an addend. The ARM ELF ABI // document (IHI0044F) specifies that R_ARM_GLOB_DAT has an addend, but Bionic isn't adding // it. count_relocation_if(kRelocAbsolute); const ElfW(Addr) result = sym_addr + get_addend_norel(); trace_reloc("RELO GLOB_DAT %16p <- %16p %s", rel_target, reinterpret_cast(result), sym_name); *static_cast(rel_target) = result; return true; } else if (r_type == R_GENERIC_RELATIVE) { // In practice, r_sym is always zero, but if it weren't, the linker would still look up the // referenced symbol (and abort if the symbol isn't found), even though it isn't used. count_relocation_if(kRelocRelative); const ElfW(Addr) result = relocator.si->load_bias + get_addend_rel(); trace_reloc("RELO RELATIVE %16p <- %16p", rel_target, reinterpret_cast(result)); *static_cast(rel_target) = result; return true; } } if constexpr (!IsGeneral) { // Almost all relocations are handled above. Handle the remaining relocations below, in a // separate function call. The symbol lookup will be repeated, but the result should be served // from the 1-symbol lookup cache. return process_relocation_general(relocator, reloc); } switch (r_type) { case R_GENERIC_IRELATIVE: // In the linker, ifuncs are called as soon as possible so that string functions work. We must // not call them again. (e.g. On arm32, resolving an ifunc changes the meaning of the addend // from a resolver function to the implementation.) if (!relocator.si->is_linker()) { count_relocation_if(kRelocRelative); const ElfW(Addr) ifunc_addr = relocator.si->load_bias + get_addend_rel(); trace_reloc("RELO IRELATIVE %16p <- %16p", rel_target, reinterpret_cast(ifunc_addr)); if (handle_text_relocs && !protect_segments()) return false; const ElfW(Addr) result = call_ifunc_resolver(ifunc_addr); if (handle_text_relocs && !unprotect_segments()) return false; *static_cast(rel_target) = result; } break; case R_GENERIC_COPY: // Copy relocations allow read-only data or code in a non-PIE executable to access a // variable from a DSO. The executable reserves extra space in its .bss section, and the // linker copies the variable into the extra space. The executable then exports its copy // to interpose the copy in the DSO. // // Bionic only supports PIE executables, so copy relocations aren't supported. The ARM and // AArch64 ABI documents only allow them for ET_EXEC (non-PIE) objects. See IHI0056B and // IHI0044F. DL_ERR("%s COPY relocations are not supported", relocator.si->get_realpath()); return false; case R_GENERIC_TLS_TPREL: count_relocation_if(kRelocRelative); { ElfW(Addr) tpoff = 0; if (found_in == nullptr) { // Unresolved weak relocation. Leave tpoff at 0 to resolve // &weak_tls_symbol to __get_tls(). } else { CHECK(found_in->get_tls() != nullptr); // We rejected a missing TLS segment above. const TlsModule& mod = get_tls_module(found_in->get_tls()->module_id); if (mod.static_offset != SIZE_MAX) { tpoff += mod.static_offset - relocator.tls_tp_base; } else { DL_ERR("TLS symbol \"%s\" in dlopened \"%s\" referenced from \"%s\" using IE access model", sym_name, found_in->get_realpath(), relocator.si->get_realpath()); return false; } } tpoff += sym_addr + get_addend_rel(); trace_reloc("RELO TLS_TPREL %16p <- %16p %s", rel_target, reinterpret_cast(tpoff), sym_name); *static_cast(rel_target) = tpoff; } break; case R_GENERIC_TLS_DTPMOD: count_relocation_if(kRelocRelative); { size_t module_id = 0; if (found_in == nullptr) { // Unresolved weak relocation. Evaluate the module ID to 0. } else { CHECK(found_in->get_tls() != nullptr); // We rejected a missing TLS segment above. module_id = found_in->get_tls()->module_id; } trace_reloc("RELO TLS_DTPMOD %16p <- %zu %s", rel_target, module_id, sym_name); *static_cast(rel_target) = module_id; } break; case R_GENERIC_TLS_DTPREL: count_relocation_if(kRelocRelative); { const ElfW(Addr) result = sym_addr + get_addend_rel() - TLS_DTV_OFFSET; trace_reloc("RELO TLS_DTPREL %16p <- %16p %s", rel_target, reinterpret_cast(result), sym_name); *static_cast(rel_target) = result; } break; #if defined(__aarch64__) // Bionic currently only implements TLSDESC for arm64. This implementation should work with // other architectures, as long as the resolver functions are implemented. case R_GENERIC_TLSDESC: count_relocation_if(kRelocRelative); { ElfW(Addr) addend = reloc.r_addend; TlsDescriptor* desc = static_cast(rel_target); if (found_in == nullptr) { // Unresolved weak relocation. desc->func = tlsdesc_resolver_unresolved_weak; desc->arg = addend; trace_reloc("RELO TLSDESC %16p <- unresolved weak, addend 0x%zx %s", rel_target, static_cast(addend), sym_name); } else { CHECK(found_in->get_tls() != nullptr); // We rejected a missing TLS segment above. size_t module_id = found_in->get_tls()->module_id; const TlsModule& mod = get_tls_module(module_id); if (mod.static_offset != SIZE_MAX) { desc->func = tlsdesc_resolver_static; desc->arg = mod.static_offset - relocator.tls_tp_base + sym_addr + addend; trace_reloc("RELO TLSDESC %16p <- static (0x%zx - 0x%zx + 0x%zx + 0x%zx) %s", rel_target, mod.static_offset, relocator.tls_tp_base, static_cast(sym_addr), static_cast(addend), sym_name); } else { relocator.tlsdesc_args->push_back({ .generation = mod.first_generation, .index.module_id = module_id, .index.offset = sym_addr + addend, }); // Defer the TLSDESC relocation until the address of the TlsDynamicResolverArg object // is finalized. relocator.deferred_tlsdesc_relocs.push_back({ desc, relocator.tlsdesc_args->size() - 1 }); const TlsDynamicResolverArg& desc_arg = relocator.tlsdesc_args->back(); trace_reloc("RELO TLSDESC %16p <- dynamic (gen %zu, mod %zu, off %zu) %s", rel_target, desc_arg.generation, desc_arg.index.module_id, desc_arg.index.offset, sym_name); } } } break; #endif // defined(__aarch64__) #if defined(__x86_64__) case R_X86_64_32: count_relocation_if(kRelocAbsolute); { const Elf32_Addr result = sym_addr + reloc.r_addend; trace_reloc("RELO R_X86_64_32 %16p <- 0x%08x %s", rel_target, result, sym_name); *static_cast(rel_target) = result; } break; case R_X86_64_PC32: count_relocation_if(kRelocRelative); { const ElfW(Addr) target = sym_addr + reloc.r_addend; const ElfW(Addr) base = reinterpret_cast(rel_target); const Elf32_Addr result = target - base; trace_reloc("RELO R_X86_64_PC32 %16p <- 0x%08x (%16p - %16p) %s", rel_target, result, reinterpret_cast(target), reinterpret_cast(base), sym_name); *static_cast(rel_target) = result; } break; #elif defined(__i386__) case R_386_PC32: count_relocation_if(kRelocRelative); { const ElfW(Addr) target = sym_addr + get_addend_rel(); const ElfW(Addr) base = reinterpret_cast(rel_target); const ElfW(Addr) result = target - base; trace_reloc("RELO R_386_PC32 %16p <- 0x%08x (%16p - %16p) %s", rel_target, result, reinterpret_cast(target), reinterpret_cast(base), sym_name); *static_cast(rel_target) = result; } break; #endif default: DL_ERR("unknown reloc type %d in \"%s\"", r_type, relocator.si->get_realpath()); return false; } return true; } __attribute__((noinline)) static bool process_relocation_general(Relocator& relocator, const rel_t& reloc) { return process_relocation_impl(relocator, reloc); } template __attribute__((always_inline)) static inline bool process_relocation(Relocator& relocator, const rel_t& reloc) { return Mode == RelocMode::General ? process_relocation_general(relocator, reloc) : process_relocation_impl(relocator, reloc); } template __attribute__((noinline)) static bool plain_relocate_impl(Relocator& relocator, rel_t* rels, size_t rel_count) { for (size_t i = 0; i < rel_count; ++i) { if (!process_relocation(relocator, rels[i])) { return false; } } return true; } template __attribute__((noinline)) static bool packed_relocate_impl(Relocator& relocator, sleb128_decoder decoder) { return for_all_packed_relocs(decoder, [&](const rel_t& reloc) { return process_relocation(relocator, reloc); }); } static bool needs_slow_relocate_loop(const Relocator& relocator __unused) { #if STATS // TODO: This could become a run-time flag. return true; #endif #if !defined(__LP64__) if (relocator.si->has_text_relocations) return true; #endif if (g_ld_debug_verbosity > LINKER_VERBOSITY_TRACE) { // If linker TRACE() is enabled, then each relocation is logged. return true; } return false; } template static bool plain_relocate(Relocator& relocator, Args ...args) { return needs_slow_relocate_loop(relocator) ? plain_relocate_impl(relocator, args...) : plain_relocate_impl(relocator, args...); } template static bool packed_relocate(Relocator& relocator, Args ...args) { return needs_slow_relocate_loop(relocator) ? packed_relocate_impl(relocator, args...) : packed_relocate_impl(relocator, args...); } bool soinfo::relocate(const SymbolLookupList& lookup_list) { VersionTracker version_tracker; if (!version_tracker.init(this)) { return false; } Relocator relocator(version_tracker, lookup_list); relocator.si = this; relocator.si_strtab = strtab_; relocator.si_strtab_size = has_min_version(1) ? strtab_size_ : SIZE_MAX; relocator.si_symtab = symtab_; relocator.tlsdesc_args = &tlsdesc_args_; relocator.tls_tp_base = __libc_shared_globals()->static_tls_layout.offset_thread_pointer(); if (android_relocs_ != nullptr) { // check signature if (android_relocs_size_ > 3 && android_relocs_[0] == 'A' && android_relocs_[1] == 'P' && android_relocs_[2] == 'S' && android_relocs_[3] == '2') { DEBUG("[ android relocating %s ]", get_realpath()); const uint8_t* packed_relocs = android_relocs_ + 4; const size_t packed_relocs_size = android_relocs_size_ - 4; if (!packed_relocate(relocator, sleb128_decoder(packed_relocs, packed_relocs_size))) { return false; } } else { DL_ERR("bad android relocation header."); return false; } } if (relr_ != nullptr) { DEBUG("[ relocating %s relr ]", get_realpath()); if (!relocate_relr()) { return false; } } #if defined(USE_RELA) if (rela_ != nullptr) { DEBUG("[ relocating %s rela ]", get_realpath()); if (!plain_relocate(relocator, rela_, rela_count_)) { return false; } } if (plt_rela_ != nullptr) { DEBUG("[ relocating %s plt rela ]", get_realpath()); if (!plain_relocate(relocator, plt_rela_, plt_rela_count_)) { return false; } } #else if (rel_ != nullptr) { DEBUG("[ relocating %s rel ]", get_realpath()); if (!plain_relocate(relocator, rel_, rel_count_)) { return false; } } if (plt_rel_ != nullptr) { DEBUG("[ relocating %s plt rel ]", get_realpath()); if (!plain_relocate(relocator, plt_rel_, plt_rel_count_)) { return false; } } #endif // Once the tlsdesc_args_ vector's size is finalized, we can write the addresses of its elements // into the TLSDESC relocations. #if defined(__aarch64__) // Bionic currently only implements TLSDESC for arm64. for (const std::pair& pair : relocator.deferred_tlsdesc_relocs) { TlsDescriptor* desc = pair.first; desc->func = tlsdesc_resolver_dynamic; desc->arg = reinterpret_cast(&tlsdesc_args_[pair.second]); } #endif return true; }