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//! Wraps a writer with UDP headers.
//! This is useful for wrapping RawSocket Writer with appropriate headers.
rand: Random,
wrapped: *Writer,
interface: Writer,
pub fn init(w: *Writer, buffer: []u8) !NetWriter {
std.debug.assert(buffer.len > @sizeOf(EthernetHeaders) + @sizeOf(IpHeaders) + @sizeOf(UdpHeaders));
var prng = Random.DefaultPrng.init(blk: {
var seed: u64 = undefined;
try posix.getrandom(mem.asBytes(&seed));
break :blk seed;
});
return .{
.rand = prng.random(),
.wrapped = w,
.interface = .{
.vtable = &.{
.drain = drain,
// .flush = flush,
},
.buffer = buffer,
},
};
}
fn drain(io_w: *Writer, data: []const []const u8, splat: usize) Writer.Error!usize {
const w: *NetWriter = @alignCast(@fieldParentPtr("interface", io_w));
const headers_byte_len = comptime (EthernetHeaders.byte_len + (@bitSizeOf(IpHeaders) / 8) + @sizeOf(UdpHeaders));
const headers: [headers_byte_len]u8 = blk: {
const ether_headers: EthernetHeaders = .{
.dest_mac = .{ 0xff, 0xff, 0xff, 0xff, 0xfe, 0xff },
.src_mac = src_blk: {
var output_bytes: [6]u8 = undefined;
output_bytes[0] = 0xee;
w.rand.bytes(output_bytes[1..]);
break :src_blk output_bytes;
},
.ether_type = 0x0800,
};
const total_len = Writer.countSplat(data, splat) + w.interface.end;
const ip_headers: IpHeaders = .{
// length of the packet minus eth header
.total_length = @intCast(headers_byte_len + total_len - EthernetHeaders.byte_len), //@intCast(total_len),
.ttl = 64,
.protocol = 0x11,
.src_ip = .{ 0xff, 0x02, 0x03, 0x04 },
.dest_ip = .{ 0xff, 0xff, 0xff, 0xff },
};
const udp_headers: UdpHeaders = .{
.src_port = 0xbbbb,
.dest_port = 8888,
.length = @intCast(total_len + @sizeOf(UdpHeaders)),
};
var buf: [headers_byte_len]u8 = undefined;
var buf_w = Writer.fixed(&buf);
_ = try ether_headers.write(&buf_w);
try ip_headers.write(&buf_w);
try buf_w.writeStruct(udp_headers, .big);
break :blk buf;
};
_ = try w.wrapped.write(&headers);
const total_len = try w.wrapped.writeSplatHeader(w.interface.buffered(), data, splat);
try w.wrapped.flush();
return total_len - w.interface.consumeAll();
}
const EthernetHeaders = struct {
dest_mac: @Vector(6, u8),
src_mac: @Vector(6, u8),
ether_type: u16,
fn write(hdr: EthernetHeaders, writer: *std.Io.Writer) Writer.Error!usize {
try writer.writeInt(u48, @bitCast(hdr.dest_mac), .big);
try writer.writeInt(u48, @bitCast(hdr.src_mac), .big);
try writer.writeInt(u16, hdr.ether_type, .big);
return byte_len;
}
const byte_len = blk: {
var res: usize = 0;
res += @bitSizeOf(u48) / 8;
res += @bitSizeOf(u48) / 8;
res += @bitSizeOf(u16) / 8;
break :blk res;
};
fn bytes(hdr: EthernetHeaders) [byte_len]u8 {
var res: [byte_len]u8 = undefined;
hdr.write(Writer.fixed(&res)) catch unreachable;
}
};
const IpHeaders = extern struct {
dest_ip: @Vector(4, u8) align(1),
src_ip: @Vector(4, u8) align(1),
header_checksum: @Vector(2, u8) align(1) = .{ 0, 0 },
protocol: u8 align(1) = 0,
ttl: u8 align(1) = 0,
fragment_and_flags: packed struct(u16) {
fragment_offset: u13 = 0,
ethernet_flags: u3 = 0,
} = .{},
// fragment_offset: u13 = 0,
// ethernet_flags: u3 = 0,
identification: u16 align(1) = 0,
total_length: u16 align(1) = 0x04,
type_of_service: u8 align(1) = 0,
header_and_version: packed struct(u8) {
header_length: u4 = 5,
ip_version: u4 = 4,
} = .{},
// header_length: u4 = 5,
// ip_version: u4 = 4,
fn write(hdr: IpHeaders, writer: *std.Io.Writer) Writer.Error!void {
try writer.writeInt(u8, 0x45, .big); // ip version and header length
try writer.writeByte(hdr.type_of_service);
try writer.writeInt(u16, hdr.total_length, .big);
try writer.writeInt(u16, hdr.identification, .big);
try writer.writeInt(u16, 0x00, .big); // ethernet flags and fragment offset
try writer.writeByte(hdr.ttl);
try writer.writeByte(hdr.protocol);
try writer.writeInt(u16, @bitCast(hdr.header_checksum), .big);
try writer.writeInt(u32, @bitCast(hdr.src_ip), .big);
try writer.writeInt(u32, @bitCast(hdr.dest_ip), .big);
}
fn bytes(hdr: IpHeaders) [@bitSizeOf(IpHeaders) / 8]u8 {
var res: [@bitSizeOf(IpHeaders) / 8]u8 = undefined;
var w = Writer.fixed(&res);
_ = hdr.write(&w) catch unreachable;
return res;
}
};
test IpHeaders {
var a: IpHeaders = .{
.dest_ip = .{ 1, 2, 3, 4 },
.src_ip = .{ 5, 6, 7, 8 },
// .header_checksum = .{ 0x1, 0x1 },
// .protocol = 0,
// .ttl = 0x64,
// .identification = 3,
// .type_of_service = 7,
};
// a.dest_ip = .{ 1, 2, 3, 4 };
// a.src_ip = .{ 5, 6, 7, 8 };
std.debug.print("ip struct: {}\n", .{a});
std.debug.print("dest ip: {}\n", .{a.dest_ip});
std.debug.print("src ip: {}\n", .{a.src_ip});
std.debug.print("raw b : {x}\n", .{@as([@bitSizeOf(IpHeaders) / 8]u8, @bitCast(a))});
std.debug.print("ip bytes: {x}\n", .{a.bytes()});
var a_struct: [@bitSizeOf(IpHeaders) / 8]u8 = undefined;
var a_struct_w = Writer.fixed(&a_struct);
_ = a_struct_w.writeStruct(a, .big) catch unreachable;
std.debug.print("ip struct: {x}\n", .{a_struct});
try std.testing.expectEqual(a, a);
}
const UdpHeaders = packed struct {
checksum: @Vector(2, u8) = .{ 0, 0 },
length: u16,
dest_port: u16,
src_port: u16,
fn write(hdr: UdpHeaders, writer: *std.Io.Writer) Writer.Error!void {
try writer.writeStruct(hdr, .big);
}
fn bytes(hdr: UdpHeaders) [@sizeOf(UdpHeaders)]u8 {
var res: [@sizeOf(UdpHeaders)]u8 = undefined;
var w = Writer.fixed(&res);
_ = hdr.write(&w) catch unreachable;
return res;
}
};
test UdpHeaders {
const a: UdpHeaders = .{
.src_port = 1,
.dest_port = 2,
.length = 3,
.checksum = .{ 0x04, 0x05 },
};
var a_struct: [@sizeOf(UdpHeaders)]u8 = undefined;
var a_struct_w = Writer.fixed(&a_struct);
_ = a_struct_w.writeStruct(a, .big) catch unreachable;
try std.testing.expectEqual(a.bytes(), a_struct);
}
const std = @import("std");
const Random = std.Random;
const posix = std.posix;
const Writer = std.Io.Writer;
const mem = std.mem;
const NetWriter = @This();
const saprusOptions: std.Io.net.BindOptions = .{
.mode = .raw,
.protocol = 0,
};
fn netSaprusBindIpPosix(
userdata: ?*anyopaque,
address: *const IpAddress,
options: IpAddress.BindOptions,
) IpAddress.BindError!net.Socket {
if (!have_networking) return error.NetworkDown;
const t: *Threaded = @ptrCast(@alignCast(userdata));
const family = std.os.linux.PF.PACKET;
const socket_fd = try openSocketPosix(t, family, options);
errdefer posix.close(socket_fd);
var storage: PosixAddress = undefined;
var addr_len = addressToPosix(address, &storage);
try posixBind(t, socket_fd, &storage.any, addr_len);
try posixGetSockName(t, socket_fd, &storage.any, &addr_len);
return .{
.handle = socket_fd,
.address = addressFromPosix(&storage),
};
}
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