path: []const u8, data: []const u8, index: File.Index, header: ?elf.Elf64_Ehdr = null, shdrs: std.ArrayListUnmanaged(ElfShdr) = .{}, symtab: []align(1) const elf.Elf64_Sym = &[0]elf.Elf64_Sym{}, strtab: []const u8 = &[0]u8{}, /// Version symtab contains version strings of the symbols if present. versyms: std.ArrayListUnmanaged(elf.Elf64_Versym) = .{}, verstrings: std.ArrayListUnmanaged(u32) = .{}, dynamic_sect_index: ?u16 = null, versym_sect_index: ?u16 = null, verdef_sect_index: ?u16 = null, symbols: std.ArrayListUnmanaged(Symbol.Index) = .{}, aliases: ?std.ArrayListUnmanaged(u32) = null, needed: bool, alive: bool, output_symtab_size: Elf.SymtabSize = .{}, pub fn isSharedObject(file: std.fs.File) bool { const reader = file.reader(); const header = reader.readStruct(elf.Elf64_Ehdr) catch return false; defer file.seekTo(0) catch {}; if (!mem.eql(u8, header.e_ident[0..4], "\x7fELF")) return false; if (header.e_ident[elf.EI_VERSION] != 1) return false; if (header.e_type != elf.ET.DYN) return false; return true; } pub fn deinit(self: *SharedObject, allocator: Allocator) void { allocator.free(self.data); self.versyms.deinit(allocator); self.verstrings.deinit(allocator); self.symbols.deinit(allocator); if (self.aliases) |*aliases| aliases.deinit(allocator); self.shdrs.deinit(allocator); } pub fn parse(self: *SharedObject, elf_file: *Elf) !void { const gpa = elf_file.base.allocator; var stream = std.io.fixedBufferStream(self.data); const reader = stream.reader(); self.header = try reader.readStruct(elf.Elf64_Ehdr); const shoff = std.math.cast(usize, self.header.?.e_shoff) orelse return error.Overflow; var dynsym_index: ?u16 = null; const shdrs = @as( [*]align(1) const elf.Elf64_Shdr, @ptrCast(self.data.ptr + shoff), )[0..self.header.?.e_shnum]; try self.shdrs.ensureTotalCapacityPrecise(gpa, shdrs.len); for (shdrs, 0..) |shdr, i| { self.shdrs.appendAssumeCapacity(try ElfShdr.fromElf64Shdr(shdr)); switch (shdr.sh_type) { elf.SHT_DYNSYM => dynsym_index = @as(u16, @intCast(i)), elf.SHT_DYNAMIC => self.dynamic_sect_index = @as(u16, @intCast(i)), elf.SHT_GNU_VERSYM => self.versym_sect_index = @as(u16, @intCast(i)), elf.SHT_GNU_VERDEF => self.verdef_sect_index = @as(u16, @intCast(i)), else => {}, } } if (dynsym_index) |index| { const shdr = self.shdrs.items[index]; const symtab = self.shdrContents(index); const nsyms = @divExact(symtab.len, @sizeOf(elf.Elf64_Sym)); self.symtab = @as([*]align(1) const elf.Elf64_Sym, @ptrCast(symtab.ptr))[0..nsyms]; self.strtab = self.shdrContents(@as(u16, @intCast(shdr.sh_link))); } try self.parseVersions(elf_file); try self.initSymtab(elf_file); } fn parseVersions(self: *SharedObject, elf_file: *Elf) !void { const gpa = elf_file.base.allocator; try self.verstrings.resize(gpa, 2); self.verstrings.items[elf.VER_NDX_LOCAL] = 0; self.verstrings.items[elf.VER_NDX_GLOBAL] = 0; if (self.verdef_sect_index) |shndx| { const verdefs = self.shdrContents(shndx); const nverdefs = self.verdefNum(); try self.verstrings.resize(gpa, self.verstrings.items.len + nverdefs); var i: u32 = 0; var offset: u32 = 0; while (i < nverdefs) : (i += 1) { const verdef = @as(*align(1) const elf.Elf64_Verdef, @ptrCast(verdefs.ptr + offset)).*; defer offset += verdef.vd_next; if (verdef.vd_flags == elf.VER_FLG_BASE) continue; // Skip BASE entry const vda_name = if (verdef.vd_cnt > 0) @as(*align(1) const elf.Elf64_Verdaux, @ptrCast(verdefs.ptr + offset + verdef.vd_aux)).vda_name else 0; self.verstrings.items[verdef.vd_ndx] = vda_name; } } try self.versyms.ensureTotalCapacityPrecise(gpa, self.symtab.len); if (self.versym_sect_index) |shndx| { const versyms_raw = self.shdrContents(shndx); const nversyms = @divExact(versyms_raw.len, @sizeOf(elf.Elf64_Versym)); const versyms = @as([*]align(1) const elf.Elf64_Versym, @ptrCast(versyms_raw.ptr))[0..nversyms]; for (versyms) |ver| { const normalized_ver = if (ver & elf.VERSYM_VERSION >= self.verstrings.items.len - 1) elf.VER_NDX_GLOBAL else ver; self.versyms.appendAssumeCapacity(normalized_ver); } } else for (0..self.symtab.len) |_| { self.versyms.appendAssumeCapacity(elf.VER_NDX_GLOBAL); } } fn initSymtab(self: *SharedObject, elf_file: *Elf) !void { const gpa = elf_file.base.allocator; try self.symbols.ensureTotalCapacityPrecise(gpa, self.symtab.len); for (self.symtab, 0..) |sym, i| { const hidden = self.versyms.items[i] & elf.VERSYM_HIDDEN != 0; const name = self.getString(sym.st_name); // We need to garble up the name so that we don't pick this symbol // during symbol resolution. Thank you GNU! const off = if (hidden) blk: { const full_name = try std.fmt.allocPrint(gpa, "{s}@{s}", .{ name, self.versionString(self.versyms.items[i]), }); defer gpa.free(full_name); break :blk try elf_file.strtab.insert(gpa, full_name); } else try elf_file.strtab.insert(gpa, name); const gop = try elf_file.getOrPutGlobal(off); self.symbols.addOneAssumeCapacity().* = gop.index; } } pub fn resolveSymbols(self: *SharedObject, elf_file: *Elf) void { for (self.globals(), 0..) |index, i| { const esym_index = @as(u32, @intCast(i)); const this_sym = self.symtab[esym_index]; if (this_sym.st_shndx == elf.SHN_UNDEF) continue; const global = elf_file.symbol(index); if (self.asFile().symbolRank(this_sym, false) < global.symbolRank(elf_file)) { global.value = this_sym.st_value; global.atom_index = 0; global.esym_index = esym_index; global.version_index = self.versyms.items[esym_index]; global.file_index = self.index; } } } pub fn resetGlobals(self: *SharedObject, elf_file: *Elf) void { for (self.globals()) |index| { const global = elf_file.symbol(index); const off = global.name_offset; global.* = .{}; global.name_offset = off; } } pub fn markLive(self: *SharedObject, elf_file: *Elf) void { for (self.globals(), 0..) |index, i| { const sym = self.symtab[i]; if (sym.st_shndx != elf.SHN_UNDEF) continue; const global = elf_file.symbol(index); const file = global.file(elf_file) orelse continue; const should_drop = switch (file) { .shared_object => |sh| !sh.needed and sym.st_bind() == elf.STB_WEAK, else => false, }; if (!should_drop and !file.isAlive()) { file.setAlive(); file.markLive(elf_file); } } } pub fn updateSymtabSize(self: *SharedObject, elf_file: *Elf) void { for (self.globals()) |global_index| { const global = elf_file.symbol(global_index); if (global.file(elf_file)) |file| if (file.index() != self.index) continue; if (global.isLocal()) continue; global.flags.output_symtab = true; self.output_symtab_size.nglobals += 1; } } pub fn writeSymtab(self: *SharedObject, elf_file: *Elf, ctx: anytype) void { var iglobal = ctx.iglobal; for (self.globals()) |global_index| { const global = elf_file.symbol(global_index); if (global.file(elf_file)) |file| if (file.index() != self.index) continue; if (!global.flags.output_symtab) continue; global.setOutputSym(elf_file, &ctx.symtab[iglobal]); iglobal += 1; } } pub fn globals(self: SharedObject) []const Symbol.Index { return self.symbols.items; } pub fn shdrContents(self: SharedObject, index: u16) []const u8 { const shdr = self.shdrs.items[index]; return self.data[shdr.sh_offset..][0..shdr.sh_size]; } pub fn getString(self: SharedObject, off: u32) [:0]const u8 { assert(off < self.strtab.len); return mem.sliceTo(@as([*:0]const u8, @ptrCast(self.strtab.ptr + off)), 0); } pub fn versionString(self: SharedObject, index: elf.Elf64_Versym) [:0]const u8 { const off = self.verstrings.items[index & elf.VERSYM_VERSION]; return self.getString(off); } pub fn asFile(self: *SharedObject) File { return .{ .shared_object = self }; } fn dynamicTable(self: *SharedObject) []align(1) const elf.Elf64_Dyn { const shndx = self.dynamic_sect_index orelse return &[0]elf.Elf64_Dyn{}; const raw = self.shdrContents(shndx); const num = @divExact(raw.len, @sizeOf(elf.Elf64_Dyn)); return @as([*]align(1) const elf.Elf64_Dyn, @ptrCast(raw.ptr))[0..num]; } fn verdefNum(self: *SharedObject) u32 { const entries = self.dynamicTable(); for (entries) |entry| switch (entry.d_tag) { elf.DT_VERDEFNUM => return @as(u32, @intCast(entry.d_val)), else => {}, }; return 0; } pub fn soname(self: *SharedObject) []const u8 { const entries = self.dynamicTable(); for (entries) |entry| switch (entry.d_tag) { elf.DT_SONAME => return self.getString(@as(u32, @intCast(entry.d_val))), else => {}, }; return std.fs.path.basename(self.path); } pub fn initSymbolAliases(self: *SharedObject, elf_file: *Elf) !void { assert(self.aliases == null); const SortAlias = struct { pub fn lessThan(ctx: *Elf, lhs: Symbol.Index, rhs: Symbol.Index) bool { const lhs_sym = ctx.symbol(lhs).elfSym(ctx); const rhs_sym = ctx.symbol(rhs).elfSym(ctx); return lhs_sym.st_value < rhs_sym.st_value; } }; const gpa = elf_file.base.allocator; var aliases = std.ArrayList(Symbol.Index).init(gpa); defer aliases.deinit(); try aliases.ensureTotalCapacityPrecise(self.globals().len); for (self.globals()) |index| { const global = elf_file.symbol(index); const global_file = global.file(elf_file) orelse continue; if (global_file.index() != self.index) continue; aliases.appendAssumeCapacity(index); } std.mem.sort(u32, aliases.items, elf_file, SortAlias.lessThan); self.aliases = aliases.moveToUnmanaged(); } pub fn symbolAliases(self: *SharedObject, index: u32, elf_file: *Elf) []const u32 { assert(self.aliases != null); const symbol = elf_file.symbol(index).elfSym(elf_file); const aliases = self.aliases.?; const start = for (aliases.items, 0..) |alias, i| { const alias_sym = elf_file.symbol(alias).elfSym(elf_file); if (symbol.st_value == alias_sym.st_value) break i; } else aliases.items.len; const end = for (aliases.items[start..], 0..) |alias, i| { const alias_sym = elf_file.symbol(alias).elfSym(elf_file); if (symbol.st_value < alias_sym.st_value) break i + start; } else aliases.items.len; return aliases.items[start..end]; } pub fn format( self: SharedObject, comptime unused_fmt_string: []const u8, options: std.fmt.FormatOptions, writer: anytype, ) !void { _ = self; _ = unused_fmt_string; _ = options; _ = writer; @compileError("do not format shared objects directly"); } pub fn fmtSymtab(self: SharedObject, elf_file: *Elf) std.fmt.Formatter(formatSymtab) { return .{ .data = .{ .shared = self, .elf_file = elf_file, } }; } const FormatContext = struct { shared: SharedObject, elf_file: *Elf, }; fn formatSymtab( ctx: FormatContext, comptime unused_fmt_string: []const u8, options: std.fmt.FormatOptions, writer: anytype, ) !void { _ = unused_fmt_string; _ = options; const shared = ctx.shared; try writer.writeAll(" globals\n"); for (shared.symbols.items) |index| { const global = ctx.elf_file.symbol(index); try writer.print(" {}\n", .{global.fmt(ctx.elf_file)}); } } const SharedObject = @This(); const std = @import("std"); const assert = std.debug.assert; const elf = std.elf; const log = std.log.scoped(.elf); const mem = std.mem; const Allocator = mem.Allocator; const Elf = @import("../Elf.zig"); const ElfShdr = @import("Object.zig").ElfShdr; const File = @import("file.zig").File; const Symbol = @import("Symbol.zig");