mirror of
https://github.com/ziglang/zig.git
synced 2024-11-27 15:42:49 +00:00
7de138ad7c
and also integration with std.Target.Arch
281 lines
8.8 KiB
Zig
281 lines
8.8 KiB
Zig
const builtin = @import("builtin");
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const std = @import("std.zig");
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const mem = std.mem;
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const os = std.os;
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const assert = std.debug.assert;
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const testing = std.testing;
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const elf = std.elf;
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const windows = std.os.windows;
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const maxInt = std.math.maxInt;
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pub const DynLib = switch (builtin.os) {
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.linux => LinuxDynLib,
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.windows => WindowsDynLib,
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else => void,
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};
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// The link_map structure is not completely specified beside the fields
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// reported below, any libc is free to store additional data in the remaining
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// space.
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// An iterator is provided in order to traverse the linked list in a idiomatic
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// fashion.
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const LinkMap = extern struct {
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l_addr: usize,
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l_name: [*]const u8,
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l_ld: ?*elf.Dyn,
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l_next: ?*LinkMap,
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l_prev: ?*LinkMap,
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pub const Iterator = struct {
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current: ?*LinkMap,
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fn end(self: *Iterator) bool {
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return self.current == null;
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}
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fn next(self: *Iterator) ?*LinkMap {
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if (self.current) |it| {
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self.current = it.l_next;
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return it;
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}
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return null;
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}
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};
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};
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const RDebug = extern struct {
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r_version: i32,
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r_map: ?*LinkMap,
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r_brk: usize,
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r_ldbase: usize,
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};
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fn elf_get_va_offset(phdrs: []elf.Phdr) !usize {
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for (phdrs) |*phdr| {
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if (phdr.p_type == elf.PT_LOAD) {
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return @ptrToInt(phdr) - phdr.p_vaddr;
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}
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}
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return error.InvalidExe;
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}
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pub fn linkmap_iterator(phdrs: []elf.Phdr) !LinkMap.Iterator {
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const va_offset = try elf_get_va_offset(phdrs);
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const dyn_table = init: {
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for (phdrs) |*phdr| {
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if (phdr.p_type == elf.PT_DYNAMIC) {
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const ptr = @intToPtr([*]elf.Dyn, va_offset + phdr.p_vaddr);
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break :init ptr[0 .. phdr.p_memsz / @sizeOf(elf.Dyn)];
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}
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}
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// No PT_DYNAMIC means this is either a statically-linked program or a
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// badly corrupted one
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return LinkMap.Iterator{ .current = null };
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};
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const link_map_ptr = init: {
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for (dyn_table) |*dyn| {
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switch (dyn.d_tag) {
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elf.DT_DEBUG => {
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const r_debug = @intToPtr(*RDebug, dyn.d_un.d_ptr);
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if (r_debug.r_version != 1) return error.InvalidExe;
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break :init r_debug.r_map;
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},
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elf.DT_PLTGOT => {
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const got_table = @intToPtr([*]usize, dyn.d_un.d_ptr);
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// The address to the link_map structure is stored in the
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// second slot
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break :init @intToPtr(?*LinkMap, got_table[1]);
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},
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else => {},
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}
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}
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return error.InvalidExe;
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};
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return LinkMap.Iterator{ .current = link_map_ptr };
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}
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pub const LinuxDynLib = struct {
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elf_lib: ElfLib,
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fd: i32,
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memory: []align(mem.page_size) u8,
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/// Trusts the file
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pub fn open(path: []const u8) !DynLib {
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const fd = try os.open(path, 0, os.O_RDONLY | os.O_CLOEXEC);
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errdefer os.close(fd);
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// TODO remove this @intCast
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const size = @intCast(usize, (try os.fstat(fd)).size);
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const bytes = try os.mmap(
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null,
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mem.alignForward(size, mem.page_size),
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os.PROT_READ | os.PROT_EXEC,
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os.MAP_PRIVATE,
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fd,
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0,
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);
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errdefer os.munmap(bytes);
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return DynLib{
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.elf_lib = try ElfLib.init(bytes),
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.fd = fd,
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.memory = bytes,
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};
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}
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pub fn close(self: *DynLib) void {
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os.munmap(self.memory);
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os.close(self.fd);
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self.* = undefined;
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}
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pub fn lookup(self: *DynLib, name: []const u8) ?usize {
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return self.elf_lib.lookup("", name);
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}
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};
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pub const ElfLib = struct {
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strings: [*:0]u8,
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syms: [*]elf.Sym,
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hashtab: [*]os.Elf_Symndx,
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versym: ?[*]u16,
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verdef: ?*elf.Verdef,
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base: usize,
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// Trusts the memory
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pub fn init(bytes: []align(@alignOf(elf.Ehdr)) u8) !ElfLib {
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const eh = @ptrCast(*elf.Ehdr, bytes.ptr);
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if (!mem.eql(u8, eh.e_ident[0..4], "\x7fELF")) return error.NotElfFile;
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if (eh.e_type != elf.ET.DYN) return error.NotDynamicLibrary;
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const elf_addr = @ptrToInt(bytes.ptr);
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var ph_addr: usize = elf_addr + eh.e_phoff;
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var base: usize = maxInt(usize);
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var maybe_dynv: ?[*]usize = null;
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{
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var i: usize = 0;
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while (i < eh.e_phnum) : ({
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i += 1;
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ph_addr += eh.e_phentsize;
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}) {
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const ph = @intToPtr(*elf.Phdr, ph_addr);
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switch (ph.p_type) {
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elf.PT_LOAD => base = elf_addr + ph.p_offset - ph.p_vaddr,
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elf.PT_DYNAMIC => maybe_dynv = @intToPtr([*]usize, elf_addr + ph.p_offset),
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else => {},
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}
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}
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}
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const dynv = maybe_dynv orelse return error.MissingDynamicLinkingInformation;
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if (base == maxInt(usize)) return error.BaseNotFound;
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var maybe_strings: ?[*:0]u8 = null;
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var maybe_syms: ?[*]elf.Sym = null;
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var maybe_hashtab: ?[*]os.Elf_Symndx = null;
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var maybe_versym: ?[*]u16 = null;
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var maybe_verdef: ?*elf.Verdef = null;
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{
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var i: usize = 0;
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while (dynv[i] != 0) : (i += 2) {
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const p = base + dynv[i + 1];
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switch (dynv[i]) {
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elf.DT_STRTAB => maybe_strings = @intToPtr([*:0]u8, p),
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elf.DT_SYMTAB => maybe_syms = @intToPtr([*]elf.Sym, p),
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elf.DT_HASH => maybe_hashtab = @intToPtr([*]os.Elf_Symndx, p),
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elf.DT_VERSYM => maybe_versym = @intToPtr([*]u16, p),
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elf.DT_VERDEF => maybe_verdef = @intToPtr(*elf.Verdef, p),
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else => {},
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}
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}
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}
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return ElfLib{
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.base = base,
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.strings = maybe_strings orelse return error.ElfStringSectionNotFound,
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.syms = maybe_syms orelse return error.ElfSymSectionNotFound,
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.hashtab = maybe_hashtab orelse return error.ElfHashTableNotFound,
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.versym = maybe_versym,
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.verdef = maybe_verdef,
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};
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}
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/// Returns the address of the symbol
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pub fn lookup(self: *const ElfLib, vername: []const u8, name: []const u8) ?usize {
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const maybe_versym = if (self.verdef == null) null else self.versym;
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const OK_TYPES = (1 << elf.STT_NOTYPE | 1 << elf.STT_OBJECT | 1 << elf.STT_FUNC | 1 << elf.STT_COMMON);
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const OK_BINDS = (1 << elf.STB_GLOBAL | 1 << elf.STB_WEAK | 1 << elf.STB_GNU_UNIQUE);
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var i: usize = 0;
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while (i < self.hashtab[1]) : (i += 1) {
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if (0 == (@as(u32, 1) << @intCast(u5, self.syms[i].st_info & 0xf) & OK_TYPES)) continue;
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if (0 == (@as(u32, 1) << @intCast(u5, self.syms[i].st_info >> 4) & OK_BINDS)) continue;
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if (0 == self.syms[i].st_shndx) continue;
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if (!mem.eql(u8, name, mem.toSliceConst(u8, self.strings + self.syms[i].st_name))) continue;
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if (maybe_versym) |versym| {
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if (!checkver(self.verdef.?, versym[i], vername, self.strings))
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continue;
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}
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return self.base + self.syms[i].st_value;
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}
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return null;
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}
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};
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fn checkver(def_arg: *elf.Verdef, vsym_arg: i32, vername: []const u8, strings: [*:0]u8) bool {
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var def = def_arg;
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const vsym = @bitCast(u32, vsym_arg) & 0x7fff;
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while (true) {
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if (0 == (def.vd_flags & elf.VER_FLG_BASE) and (def.vd_ndx & 0x7fff) == vsym)
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break;
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if (def.vd_next == 0)
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return false;
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def = @intToPtr(*elf.Verdef, @ptrToInt(def) + def.vd_next);
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}
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const aux = @intToPtr(*elf.Verdaux, @ptrToInt(def) + def.vd_aux);
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return mem.eql(u8, vername, mem.toSliceConst(u8, strings + aux.vda_name));
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}
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pub const WindowsDynLib = struct {
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dll: windows.HMODULE,
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pub fn open(path: []const u8) !WindowsDynLib {
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const wpath = try windows.sliceToPrefixedFileW(path);
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return WindowsDynLib{
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.dll = try windows.LoadLibraryW(&wpath),
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};
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}
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pub fn close(self: *WindowsDynLib) void {
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windows.FreeLibrary(self.dll);
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self.* = undefined;
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}
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pub fn lookup(self: *WindowsDynLib, name: []const u8) ?usize {
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return @ptrToInt(windows.kernel32.GetProcAddress(self.dll, name.ptr));
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}
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};
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test "dynamic_library" {
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const libname = switch (builtin.os) {
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.linux => "invalid_so.so",
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.windows => "invalid_dll.dll",
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else => return,
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};
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const dynlib = DynLib.open(libname) catch |err| {
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testing.expect(err == error.FileNotFound);
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return;
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};
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@panic("Expected error from function");
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}
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