zig/std/net.zig

219 lines
6.2 KiB
Zig

const std = @import("index.zig");
const builtin = @import("builtin");
const assert = std.debug.assert;
const net = @This();
const posix = std.os.posix;
const mem = std.mem;
pub const TmpWinAddr = struct {
family: u8,
data: [14]u8,
};
pub const OsAddress = switch (builtin.os) {
builtin.Os.windows => TmpWinAddr,
else => posix.sockaddr,
};
pub const Address = struct {
os_addr: OsAddress,
pub fn initIp4(ip4: u32, _port: u16) Address {
return Address{
.os_addr = posix.sockaddr{
.in = posix.sockaddr_in{
.family = posix.AF_INET,
.port = mem.nativeToBig(u16, _port),
.addr = ip4,
.zero = []u8{0} ** 8,
},
},
};
}
pub fn initIp6(ip6: *const Ip6Addr, _port: u16) Address {
return Address{
.family = posix.AF_INET6,
.os_addr = posix.sockaddr{
.in6 = posix.sockaddr_in6{
.family = posix.AF_INET6,
.port = mem.nativeToBig(u16, _port),
.flowinfo = 0,
.addr = ip6.addr,
.scope_id = ip6.scope_id,
},
},
};
}
pub fn port(self: Address) u16 {
return mem.bigToNative(u16, self.os_addr.in.port);
}
pub fn initPosix(addr: posix.sockaddr) Address {
return Address{ .os_addr = addr };
}
pub fn format(self: *const Address, out_stream: var) !void {
switch (self.os_addr.in.family) {
posix.AF_INET => {
const native_endian_port = mem.bigToNative(u16, self.os_addr.in.port);
const bytes = ([]const u8)((*self.os_addr.in.addr)[0..1]);
try out_stream.print("{}.{}.{}.{}:{}", bytes[0], bytes[1], bytes[2], bytes[3], native_endian_port);
},
posix.AF_INET6 => {
const native_endian_port = mem.bigToNative(u16, self.os_addr.in6.port);
try out_stream.print("[TODO render ip6 address]:{}", native_endian_port);
},
else => try out_stream.write("(unrecognized address family)"),
}
}
};
pub fn parseIp4(buf: []const u8) !u32 {
var result: u32 = undefined;
const out_ptr = @sliceToBytes((*[1]u32)(&result)[0..]);
var x: u8 = 0;
var index: u8 = 0;
var saw_any_digits = false;
for (buf) |c| {
if (c == '.') {
if (!saw_any_digits) {
return error.InvalidCharacter;
}
if (index == 3) {
return error.InvalidEnd;
}
out_ptr[index] = x;
index += 1;
x = 0;
saw_any_digits = false;
} else if (c >= '0' and c <= '9') {
saw_any_digits = true;
const digit = c - '0';
if (@mulWithOverflow(u8, x, 10, &x)) {
return error.Overflow;
}
if (@addWithOverflow(u8, x, digit, &x)) {
return error.Overflow;
}
} else {
return error.InvalidCharacter;
}
}
if (index == 3 and saw_any_digits) {
out_ptr[index] = x;
return result;
}
return error.Incomplete;
}
pub const Ip6Addr = struct {
scope_id: u32,
addr: [16]u8,
};
pub fn parseIp6(buf: []const u8) !Ip6Addr {
var result: Ip6Addr = undefined;
result.scope_id = 0;
const ip_slice = result.addr[0..];
var x: u16 = 0;
var saw_any_digits = false;
var index: u8 = 0;
var scope_id = false;
for (buf) |c| {
if (scope_id) {
if (c >= '0' and c <= '9') {
const digit = c - '0';
if (@mulWithOverflow(u32, result.scope_id, 10, &result.scope_id)) {
return error.Overflow;
}
if (@addWithOverflow(u32, result.scope_id, digit, &result.scope_id)) {
return error.Overflow;
}
} else {
return error.InvalidCharacter;
}
} else if (c == ':') {
if (!saw_any_digits) {
return error.InvalidCharacter;
}
if (index == 14) {
return error.InvalidEnd;
}
ip_slice[index] = @truncate(u8, x >> 8);
index += 1;
ip_slice[index] = @truncate(u8, x);
index += 1;
x = 0;
saw_any_digits = false;
} else if (c == '%') {
if (!saw_any_digits) {
return error.InvalidCharacter;
}
if (index == 14) {
ip_slice[index] = @truncate(u8, x >> 8);
index += 1;
ip_slice[index] = @truncate(u8, x);
index += 1;
}
scope_id = true;
saw_any_digits = false;
} else {
const digit = try std.fmt.charToDigit(c, 16);
if (@mulWithOverflow(u16, x, 16, &x)) {
return error.Overflow;
}
if (@addWithOverflow(u16, x, digit, &x)) {
return error.Overflow;
}
saw_any_digits = true;
}
}
if (!saw_any_digits) {
return error.Incomplete;
}
if (scope_id) {
return result;
}
if (index == 14) {
ip_slice[14] = @truncate(u8, x >> 8);
ip_slice[15] = @truncate(u8, x);
return result;
}
return error.Incomplete;
}
test "std.net.parseIp4" {
assert((try parseIp4("127.0.0.1")) == mem.bigToNative(u32, 0x7f000001));
testParseIp4Fail("256.0.0.1", error.Overflow);
testParseIp4Fail("x.0.0.1", error.InvalidCharacter);
testParseIp4Fail("127.0.0.1.1", error.InvalidEnd);
testParseIp4Fail("127.0.0.", error.Incomplete);
testParseIp4Fail("100..0.1", error.InvalidCharacter);
}
fn testParseIp4Fail(buf: []const u8, expected_err: anyerror) void {
if (parseIp4(buf)) |_| {
@panic("expected error");
} else |e| {
assert(e == expected_err);
}
}
test "std.net.parseIp6" {
const addr = try parseIp6("FF01:0:0:0:0:0:0:FB");
assert(addr.addr[0] == 0xff);
assert(addr.addr[1] == 0x01);
assert(addr.addr[2] == 0x00);
}