zig/lib/std/os/test.zig

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const std = @import("../std.zig");
const os = std.os;
const testing = std.testing;
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const expect = testing.expect;
const expectEqual = testing.expectEqual;
const io = std.io;
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const fs = std.fs;
const mem = std.mem;
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const elf = std.elf;
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const File = std.fs.File;
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const Thread = std.Thread;
const a = std.testing.allocator;
const builtin = @import("builtin");
const AtomicRmwOp = builtin.AtomicRmwOp;
const AtomicOrder = builtin.AtomicOrder;
test "makePath, put some files in it, deleteTree" {
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try fs.cwd().makePath("os_test_tmp" ++ fs.path.sep_str ++ "b" ++ fs.path.sep_str ++ "c");
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try io.writeFile("os_test_tmp" ++ fs.path.sep_str ++ "b" ++ fs.path.sep_str ++ "c" ++ fs.path.sep_str ++ "file.txt", "nonsense");
try io.writeFile("os_test_tmp" ++ fs.path.sep_str ++ "b" ++ fs.path.sep_str ++ "file2.txt", "blah");
try fs.deleteTree("os_test_tmp");
if (fs.cwd().openDir("os_test_tmp", .{})) |dir| {
@panic("expected error");
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} else |err| {
expect(err == error.FileNotFound);
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}
}
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test "access file" {
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try fs.cwd().makePath("os_test_tmp");
self-hosted libc detection * libc_installation.cpp is deleted. src-self-hosted/libc_installation.zig is now used for both stage1 and stage2 compilers. * (breaking) move `std.fs.File.access` to `std.fs.Dir.access`. The API now encourages use with an open directory handle. * Add `std.os.faccessat` and related functions. * Deprecate the "C" suffix naming convention for null-terminated parameters. "C" should be used when it is related to libc. However null-terminated parameters often have to do with the native system ABI rather than libc. "Z" suffix is the new convention. For example, `std.os.openC` is deprecated in favor of `std.os.openZ`. * Add `std.mem.dupeZ` for using an allocator to copy memory and add a null terminator. * Remove dead struct field `std.ChildProcess.llnode`. * Introduce `std.event.Batch`. This API allows expressing concurrency without forcing code to be async. It requires no Allocator and does not introduce any failure conditions. However it is not thread-safe. * There is now an ongoing experiment to transition away from `std.event.Group` in favor of `std.event.Batch`. * `std.os.execvpeC` calls `getenvZ` rather than `getenv`. This is slightly more efficient on most systems, and works around a limitation of `getenv` lack of integration with libc. * (breaking) `std.os.AccessError` gains `FileBusy`, `SymLinkLoop`, and `ReadOnlyFileSystem`. Previously these error codes were all reported as `PermissionDenied`. * Add `std.Target.isDragonFlyBSD`. * stage2: access to the windows_sdk functions is done with a manually maintained .zig binding file instead of `@cImport`. * Update src-self-hosted/libc_installation.zig with all the improvements that stage1 has seen to src/libc_installation.cpp until now. In addition, it now takes advantage of Batch so that evented I/O mode takes advantage of concurrency, but it still works in blocking I/O mode, which is how it is used in stage1.
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if (fs.cwd().access("os_test_tmp" ++ fs.path.sep_str ++ "file.txt", .{})) |ok| {
@panic("expected error");
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} else |err| {
expect(err == error.FileNotFound);
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}
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try io.writeFile("os_test_tmp" ++ fs.path.sep_str ++ "file.txt", "");
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try os.access("os_test_tmp" ++ fs.path.sep_str ++ "file.txt", os.F_OK);
try fs.deleteTree("os_test_tmp");
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}
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fn testThreadIdFn(thread_id: *Thread.Id) void {
thread_id.* = Thread.getCurrentId();
}
test "sendfile" {
try fs.cwd().makePath("os_test_tmp");
defer fs.deleteTree("os_test_tmp") catch {};
var dir = try fs.cwd().openDir("os_test_tmp", .{});
defer dir.close();
const line1 = "line1\n";
const line2 = "second line\n";
var vecs = [_]os.iovec_const{
.{
.iov_base = line1,
.iov_len = line1.len,
},
.{
.iov_base = line2,
.iov_len = line2.len,
},
};
var src_file = try dir.createFileC("sendfile1.txt", .{ .read = true });
defer src_file.close();
try src_file.writevAll(&vecs);
var dest_file = try dir.createFileC("sendfile2.txt", .{ .read = true });
defer dest_file.close();
const header1 = "header1\n";
const header2 = "second header\n";
const trailer1 = "trailer1\n";
const trailer2 = "second trailer\n";
var hdtr = [_]os.iovec_const{
.{
.iov_base = header1,
.iov_len = header1.len,
},
.{
.iov_base = header2,
.iov_len = header2.len,
},
.{
.iov_base = trailer1,
.iov_len = trailer1.len,
},
.{
.iov_base = trailer2,
.iov_len = trailer2.len,
},
};
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var written_buf: [100]u8 = undefined;
try dest_file.writeFileAll(src_file, .{
.in_offset = 1,
.in_len = 10,
.headers_and_trailers = &hdtr,
.header_count = 2,
});
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const amt = try dest_file.preadAll(&written_buf, 0);
expect(mem.eql(u8, written_buf[0..amt], "header1\nsecond header\nine1\nsecontrailer1\nsecond trailer\n"));
}
test "fs.copyFile" {
const data = "u6wj+JmdF3qHsFPE BUlH2g4gJCmEz0PP";
const src_file = "tmp_test_copy_file.txt";
const dest_file = "tmp_test_copy_file2.txt";
const dest_file2 = "tmp_test_copy_file3.txt";
try fs.cwd().writeFile(src_file, data);
defer fs.cwd().deleteFile(src_file) catch {};
try fs.copyFile(src_file, dest_file);
defer fs.cwd().deleteFile(dest_file) catch {};
try fs.copyFileMode(src_file, dest_file2, File.default_mode);
defer fs.cwd().deleteFile(dest_file2) catch {};
try expectFileContents(dest_file, data);
try expectFileContents(dest_file2, data);
}
fn expectFileContents(file_path: []const u8, data: []const u8) !void {
const contents = try fs.cwd().readFileAlloc(testing.allocator, file_path, 1000);
defer testing.allocator.free(contents);
testing.expectEqualSlices(u8, data, contents);
}
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test "std.Thread.getCurrentId" {
if (builtin.single_threaded) return error.SkipZigTest;
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var thread_current_id: Thread.Id = undefined;
const thread = try Thread.spawn(&thread_current_id, testThreadIdFn);
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const thread_id = thread.handle();
thread.wait();
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if (Thread.use_pthreads) {
expect(thread_current_id == thread_id);
} else if (builtin.os.tag == .windows) {
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expect(Thread.getCurrentId() != thread_current_id);
} else {
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// If the thread completes very quickly, then thread_id can be 0. See the
// documentation comments for `std.Thread.handle`.
expect(thread_id == 0 or thread_current_id == thread_id);
}
}
test "spawn threads" {
if (builtin.single_threaded) return error.SkipZigTest;
var shared_ctx: i32 = 1;
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const thread1 = try Thread.spawn({}, start1);
const thread2 = try Thread.spawn(&shared_ctx, start2);
const thread3 = try Thread.spawn(&shared_ctx, start2);
const thread4 = try Thread.spawn(&shared_ctx, start2);
thread1.wait();
thread2.wait();
thread3.wait();
thread4.wait();
expect(shared_ctx == 4);
}
fn start1(ctx: void) u8 {
return 0;
}
fn start2(ctx: *i32) u8 {
_ = @atomicRmw(i32, ctx, AtomicRmwOp.Add, 1, AtomicOrder.SeqCst);
return 0;
}
test "cpu count" {
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const cpu_count = try Thread.cpuCount();
expect(cpu_count >= 1);
}
test "AtomicFile" {
const test_out_file = "tmp_atomic_file_test_dest.txt";
const test_content =
\\ hello!
\\ this is a test file
;
{
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var af = try fs.AtomicFile.init(test_out_file, File.default_mode);
defer af.deinit();
try af.file.writeAll(test_content);
try af.finish();
}
const content = try io.readFileAlloc(testing.allocator, test_out_file);
defer testing.allocator.free(content);
expect(mem.eql(u8, content, test_content));
try fs.cwd().deleteFile(test_out_file);
}
test "thread local storage" {
if (builtin.single_threaded) return error.SkipZigTest;
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const thread1 = try Thread.spawn({}, testTls);
const thread2 = try Thread.spawn({}, testTls);
testTls({});
thread1.wait();
thread2.wait();
}
threadlocal var x: i32 = 1234;
fn testTls(context: void) void {
if (x != 1234) @panic("bad start value");
x += 1;
if (x != 1235) @panic("bad end value");
}
test "getrandom" {
var buf_a: [50]u8 = undefined;
var buf_b: [50]u8 = undefined;
try os.getrandom(&buf_a);
try os.getrandom(&buf_b);
// If this test fails the chance is significantly higher that there is a bug than
// that two sets of 50 bytes were equal.
expect(!mem.eql(u8, &buf_a, &buf_b));
}
test "getcwd" {
// at least call it so it gets compiled
var buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
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_ = os.getcwd(&buf) catch undefined;
}
test "realpath" {
var buf: [std.fs.MAX_PATH_BYTES]u8 = undefined;
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testing.expectError(error.FileNotFound, fs.realpath("definitely_bogus_does_not_exist1234", &buf));
}
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test "sigaltstack" {
if (builtin.os.tag == .windows or builtin.os.tag == .wasi) return error.SkipZigTest;
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var st: os.stack_t = undefined;
try os.sigaltstack(null, &st);
// Setting a stack size less than MINSIGSTKSZ returns ENOMEM
st.ss_flags = 0;
st.ss_size = 1;
testing.expectError(error.SizeTooSmall, os.sigaltstack(&st, null));
}
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// If the type is not available use void to avoid erroring out when `iter_fn` is
// analyzed
const dl_phdr_info = if (@hasDecl(os, "dl_phdr_info")) os.dl_phdr_info else c_void;
const IterFnError = error{
MissingPtLoadSegment,
MissingLoad,
BadElfMagic,
FailedConsistencyCheck,
};
fn iter_fn(info: *dl_phdr_info, size: usize, counter: *usize) IterFnError!void {
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// Count how many libraries are loaded
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counter.* += @as(usize, 1);
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// The image should contain at least a PT_LOAD segment
if (info.dlpi_phnum < 1) return error.MissingPtLoadSegment;
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// Quick & dirty validation of the phdr pointers, make sure we're not
// pointing to some random gibberish
var i: usize = 0;
var found_load = false;
while (i < info.dlpi_phnum) : (i += 1) {
const phdr = info.dlpi_phdr[i];
if (phdr.p_type != elf.PT_LOAD) continue;
const reloc_addr = info.dlpi_addr + phdr.p_vaddr;
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// Find the ELF header
const elf_header = @intToPtr(*elf.Ehdr, reloc_addr - phdr.p_offset);
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// Validate the magic
if (!mem.eql(u8, elf_header.e_ident[0..4], "\x7fELF")) return error.BadElfMagic;
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// Consistency check
if (elf_header.e_phnum != info.dlpi_phnum) return error.FailedConsistencyCheck;
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found_load = true;
break;
}
if (!found_load) return error.MissingLoad;
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}
test "dl_iterate_phdr" {
if (builtin.os.tag == .windows or builtin.os.tag == .wasi or builtin.os.tag == .macosx)
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return error.SkipZigTest;
var counter: usize = 0;
try os.dl_iterate_phdr(&counter, IterFnError, iter_fn);
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expect(counter != 0);
}
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test "gethostname" {
if (builtin.os.tag == .windows)
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return error.SkipZigTest;
var buf: [os.HOST_NAME_MAX]u8 = undefined;
const hostname = try os.gethostname(&buf);
expect(hostname.len != 0);
}
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test "pipe" {
if (builtin.os.tag == .windows)
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return error.SkipZigTest;
var fds = try os.pipe();
expect((try os.write(fds[1], "hello")) == 5);
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var buf: [16]u8 = undefined;
expect((try os.read(fds[0], buf[0..])) == 5);
testing.expectEqualSlices(u8, buf[0..5], "hello");
os.close(fds[1]);
os.close(fds[0]);
}
test "argsAlloc" {
var args = try std.process.argsAlloc(std.testing.allocator);
std.process.argsFree(std.testing.allocator, args);
}
test "memfd_create" {
// memfd_create is linux specific.
if (builtin.os.tag != .linux) return error.SkipZigTest;
const fd = std.os.memfd_create("test", 0) catch |err| switch (err) {
// Related: https://github.com/ziglang/zig/issues/4019
error.SystemOutdated => return error.SkipZigTest,
else => |e| return e,
};
defer std.os.close(fd);
expect((try std.os.write(fd, "test")) == 4);
try std.os.lseek_SET(fd, 0);
var buf: [10]u8 = undefined;
const bytes_read = try std.os.read(fd, &buf);
expect(bytes_read == 4);
expect(mem.eql(u8, buf[0..4], "test"));
}
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test "mmap" {
if (builtin.os.tag == .windows)
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return error.SkipZigTest;
// Simple mmap() call with non page-aligned size
{
const data = try os.mmap(
null,
1234,
os.PROT_READ | os.PROT_WRITE,
os.MAP_ANONYMOUS | os.MAP_PRIVATE,
-1,
0,
);
defer os.munmap(data);
testing.expectEqual(@as(usize, 1234), data.len);
// By definition the data returned by mmap is zero-filled
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testing.expect(mem.eql(u8, data, &[_]u8{0x00} ** 1234));
// Make sure the memory is writeable as requested
std.mem.set(u8, data, 0x55);
testing.expect(mem.eql(u8, data, &[_]u8{0x55} ** 1234));
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}
const test_out_file = "os_tmp_test";
// Must be a multiple of 4096 so that the test works with mmap2
const alloc_size = 8 * 4096;
// Create a file used for testing mmap() calls with a file descriptor
{
const file = try fs.cwd().createFile(test_out_file, .{});
defer file.close();
const stream = file.outStream();
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var i: u32 = 0;
while (i < alloc_size / @sizeOf(u32)) : (i += 1) {
try stream.writeIntNative(u32, i);
}
}
// Map the whole file
{
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const file = try fs.cwd().openFile(test_out_file, .{});
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defer file.close();
const data = try os.mmap(
null,
alloc_size,
os.PROT_READ,
os.MAP_PRIVATE,
file.handle,
0,
);
defer os.munmap(data);
var mem_stream = io.fixedBufferStream(data);
const stream = mem_stream.inStream();
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var i: u32 = 0;
while (i < alloc_size / @sizeOf(u32)) : (i += 1) {
testing.expectEqual(i, try stream.readIntNative(u32));
}
}
// Map the upper half of the file
{
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const file = try fs.cwd().openFile(test_out_file, .{});
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defer file.close();
const data = try os.mmap(
null,
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alloc_size / 2,
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os.PROT_READ,
os.MAP_PRIVATE,
file.handle,
alloc_size / 2,
);
defer os.munmap(data);
var mem_stream = io.fixedBufferStream(data);
const stream = mem_stream.inStream();
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var i: u32 = alloc_size / 2 / @sizeOf(u32);
while (i < alloc_size / @sizeOf(u32)) : (i += 1) {
testing.expectEqual(i, try stream.readIntNative(u32));
}
}
try fs.cwd().deleteFile(test_out_file);
}
test "getenv" {
if (builtin.os.tag == .windows) {
expect(os.getenvW(&[_:0]u16{ 'B', 'O', 'G', 'U', 'S', 0x11, 0x22, 0x33, 0x44, 0x55 }) == null);
} else {
expect(os.getenvZ("BOGUSDOESNOTEXISTENVVAR") == null);
}
}
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test "fcntl" {
if (builtin.os.tag == .windows)
return error.SkipZigTest;
const test_out_file = "os_tmp_test";
const file = try fs.cwd().createFile(test_out_file, .{});
defer {
file.close();
fs.cwd().deleteFile(test_out_file) catch {};
}
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// Note: The test assumes createFile opens the file with O_CLOEXEC
{
const flags = try os.fcntl(file.handle, os.F_GETFD, 0);
expect((flags & os.FD_CLOEXEC) != 0);
}
{
_ = try os.fcntl(file.handle, os.F_SETFD, 0);
const flags = try os.fcntl(file.handle, os.F_GETFD, 0);
expect((flags & os.FD_CLOEXEC) == 0);
}
{
_ = try os.fcntl(file.handle, os.F_SETFD, os.FD_CLOEXEC);
const flags = try os.fcntl(file.handle, os.F_GETFD, 0);
expect((flags & os.FD_CLOEXEC) != 0);
}
}