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zig/src/libunwind.zig
Andrew Kelley 013efaf139 std: introduce a thread-local CSPRNG for general use 
std.crypto.random

* cross platform, even freestanding
* can't fail. on initialization for some systems requires calling
  os.getrandom(), in which case there are rare but theoretically
  possible errors. The code panics in these cases, however the
  application may choose to override the default seed function and then
  handle the failure another way.
* thread-safe
* supports the full Random interface
* cryptographically secure
* no syscall required to initialize on Linux (AT_RANDOM)
* calls arc4random on systems that support it

`std.crypto.randomBytes` is removed in favor of `std.crypto.random.bytes`.

I moved some of the Random implementations into their own files in the
interest of organization.

stage2 no longer requires passing a RNG; instead it uses this API.

Closes #6704
2020-12-18 12:22:46 -07:00

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const std = @import("std");
const path = std.fs.path;
const assert = std.debug.assert;
const target_util = @import("target.zig");
const Compilation = @import("Compilation.zig");
const build_options = @import("build_options");
const trace = @import("tracy.zig").trace;
pub fn buildStaticLib(comp: *Compilation) !void {
if (!build_options.have_llvm) {
return error.ZigCompilerNotBuiltWithLLVMExtensions;
}
const tracy = trace(@src());
defer tracy.end();
var arena_allocator = std.heap.ArenaAllocator.init(comp.gpa);
defer arena_allocator.deinit();
const arena = &arena_allocator.allocator;
const root_name = "unwind";
const output_mode = .Lib;
const link_mode = .Static;
const target = comp.getTarget();
const basename = try std.zig.binNameAlloc(arena, .{
.root_name = root_name,
.target = target,
.output_mode = output_mode,
.link_mode = link_mode,
});
const emit_bin = Compilation.EmitLoc{
.directory = null, // Put it in the cache directory.
.basename = basename,
};
const unwind_src_list = [_][]const u8{
"libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "libunwind.cpp",
"libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "Unwind-EHABI.cpp",
"libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "Unwind-seh.cpp",
"libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "UnwindLevel1.c",
"libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "UnwindLevel1-gcc-ext.c",
"libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "Unwind-sjlj.c",
"libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "UnwindRegistersRestore.S",
"libunwind" ++ path.sep_str ++ "src" ++ path.sep_str ++ "UnwindRegistersSave.S",
};
var c_source_files: [unwind_src_list.len]Compilation.CSourceFile = undefined;
for (unwind_src_list) |unwind_src, i| {
var cflags = std.ArrayList([]const u8).init(arena);
switch (Compilation.classifyFileExt(unwind_src)) {
.c => {
try cflags.append("-std=c99");
},
.cpp => {
try cflags.appendSlice(&[_][]const u8{
"-fno-rtti",
"-I",
try comp.zig_lib_directory.join(arena, &[_][]const u8{ "libcxx", "include" }),
});
},
.assembly => {},
else => unreachable, // You can see the entire list of files just above.
}
try cflags.append("-I");
try cflags.append(try comp.zig_lib_directory.join(arena, &[_][]const u8{ "libunwind", "include" }));
if (target_util.supports_fpic(target)) {
try cflags.append("-fPIC");
}
try cflags.append("-D_LIBUNWIND_DISABLE_VISIBILITY_ANNOTATIONS");
try cflags.append("-Wa,--noexecstack");
// This is intentionally always defined because the macro definition means, should it only
// build for the target specified by compiler defines. Since we pass -target the compiler
// defines will be correct.
try cflags.append("-D_LIBUNWIND_IS_NATIVE_ONLY");
if (comp.bin_file.options.optimize_mode == .Debug) {
try cflags.append("-D_DEBUG");
}
if (comp.bin_file.options.single_threaded) {
try cflags.append("-D_LIBUNWIND_HAS_NO_THREADS");
}
try cflags.append("-Wno-bitwise-conditional-parentheses");
c_source_files[i] = .{
.src_path = try comp.zig_lib_directory.join(arena, &[_][]const u8{unwind_src}),
.extra_flags = cflags.items,
};
}
const sub_compilation = try Compilation.create(comp.gpa, .{
.local_cache_directory = comp.global_cache_directory,
.global_cache_directory = comp.global_cache_directory,
.zig_lib_directory = comp.zig_lib_directory,
.target = target,
.root_name = root_name,
.root_pkg = null,
.output_mode = output_mode,
.libc_installation = comp.bin_file.options.libc_installation,
.emit_bin = emit_bin,
.optimize_mode = comp.bin_file.options.optimize_mode,
.link_mode = link_mode,
.want_sanitize_c = false,
.want_stack_check = false,
.want_valgrind = false,
.want_pic = comp.bin_file.options.pic,
.want_pie = comp.bin_file.options.pie,
.emit_h = null,
.strip = comp.bin_file.options.strip,
.is_native_os = comp.bin_file.options.is_native_os,
.is_native_abi = comp.bin_file.options.is_native_abi,
.self_exe_path = comp.self_exe_path,
.c_source_files = &c_source_files,
.verbose_cc = comp.verbose_cc,
.verbose_link = comp.bin_file.options.verbose_link,
.verbose_tokenize = comp.verbose_tokenize,
.verbose_ast = comp.verbose_ast,
.verbose_ir = comp.verbose_ir,
.verbose_llvm_ir = comp.verbose_llvm_ir,
.verbose_cimport = comp.verbose_cimport,
.verbose_llvm_cpu_features = comp.verbose_llvm_cpu_features,
.clang_passthrough_mode = comp.clang_passthrough_mode,
.link_libc = true,
});
defer sub_compilation.destroy();
try sub_compilation.updateSubCompilation();
assert(comp.libunwind_static_lib == null);
comp.libunwind_static_lib = Compilation.CRTFile{
.full_object_path = try sub_compilation.bin_file.options.emit.?.directory.join(
comp.gpa,
&[_][]const u8{basename},
),
.lock = sub_compilation.bin_file.toOwnedLock(),
};
}
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