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7 Commits
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Author SHA1 Message Date
Robby Zambito
56b6b8a386 Use Client as var type instead of singleton 2025-05-11 13:52:42 -04:00
Robby Zambito
14ed0bc3f3 Fix issue returning stack pointer 2025-05-11 13:40:55 -04:00
Robby Zambito
c72503fce6 Fix extra bytes in connection message. 2025-05-11 13:40:23 -04:00
Robby Zambito
373dbebc8c Add broadcast initial interest using raw sockets 
Use this from the relay message
 2025-05-11 11:40:15 -04:00
Robby Zambito
cde289d648 Update gatorcat dep and use bytes for broadcast message 
The latter is helpful for the lifetime of the message.
 2025-05-11 10:12:26 -04:00
Robby Zambito
716fb466fa Remove allocation for messages 2025-05-10 21:46:53 -04:00
Robby Zambito
583f9d8b8f Add comments and fix tests 
Also added networkBytesAsValue and restored bytesAsValue.
These are useful for treating the bytes from the network directly as a Message.
Otherwise, the init function would overwrite the packet type and length to be correct.
I would like the message handling to fail if the message body is incorrect.
 2025-05-10 21:46:53 -04:00
4 changed files with 227 additions and 120 deletions
Expand all files Collapse all files

4
build.zig.zon
View File

@@ -45,8 +45,8 @@
.hash = "clap-0.10.0-oBajB434AQBDh-Ei3YtoKIRxZacVPF1iSwp3IX_ZB8f0",
},
.gatorcat = .{
.url = "git+https://github.com/kj4tmp/gatorcat#bb1847f6c95852e7a0ec8c07870a948c171d5f98",
.hash = "gatorcat-0.3.2-WcrpTf1mBwDrmPaIhKCfLJO064v8Sjjn7DBq4CKZSgHH",
.url = "git+https://github.com/kj4tmp/gatorcat.git#0a97b666677501db4939e3e8245f88a19e015893",
.hash = "gatorcat-0.3.4-WcrpTcleBwCta_9TjomuIGb3bdg2Pke_FXI_WkMTEivH",
},
},
.paths = .{

147
src/Client.zig
View File

@@ -1,28 +1,86 @@
const base64Enc = std.base64.Base64Encoder.init(std.base64.standard_alphabet_chars, '=');
const base64Dec = std.base64.Base64Decoder.init(std.base64.standard_alphabet_chars, '=');
var rand: ?Random = null;
rand: Random,
socket: gcat.nic.RawSocket,
pub fn init() !void {
const Self = @This();
const max_message_size = 2048;
pub fn init(interface_name: [:0]const u8) !Self {
var prng = Random.DefaultPrng.init(blk: {
var seed: u64 = undefined;
try posix.getrandom(mem.asBytes(&seed));
break :blk seed;
});
rand = prng.random();
try network.init();
const rand = prng.random();
const socket: gcat.nic.RawSocket = try .init(interface_name);
return .{
.rand = rand,
.socket = socket,
};
}
pub fn deinit() void {
network.deinit();
pub fn deinit(self: *Self) void {
self.socket.deinit();
}
fn broadcastSaprusMessage(msg: *SaprusMessage, udp_port: u16) !void {
/// Used for relay messages and connection handshake.
/// Assumes Client .init has been called.
fn broadcastInitialInterestMessage(self: *Self, msg_bytes: []align(@alignOf(SaprusMessage)) u8) !void {
var packet_bytes: [max_message_size]u8 = comptime blk: {
var b: [max_message_size]u8 = @splat(0);
// Destination MAC addr to FF:FF:FF:FF:FF:FF
for (0..6) |i| {
b[i] = 0xff;
}
// Set Ethernet type to IPv4
b[0x0c] = 0x08;
b[0x0d] = 0x00;
// Set IPv4 version to 4
b[0x0e] = 0x45;
// Destination broadcast
for (0x1e..0x22) |i| {
b[i] = 0xff;
}
// Set TTL
b[0x16] = 0x40;
// Set IPv4 protocol to UDP
b[0x17] = 0x11;
// Set interest filter value to 8888.
b[0x24] = 0x22;
b[0x25] = 0xb8;
break :blk b;
};
var msg: *SaprusMessage = try .bytesAsValue(msg_bytes);
try msg.networkFromNativeEndian();
defer msg.nativeFromNetworkEndian() catch unreachable;
// The byte position within the packet that the saprus message starts at.
const saprus_start_byte = 42;
@memcpy(packet_bytes[saprus_start_byte .. saprus_start_byte + msg_bytes.len], msg_bytes);
try self.socket.linkLayer().send(packet_bytes[0 .. saprus_start_byte + msg_bytes.len]);
}
// fn broadcastSaprusMessage(msg_bytes: []align(@alignOf(SaprusMessage)) u8) !void {}
fn broadcastSaprusMessage(msg_bytes: []align(@alignOf(SaprusMessage)) u8, udp_port: u16) !void {
if (false) {
var foo: gcat.nic.RawSocket = try .init("enp7s0"); // /proc/net/dev
defer foo.deinit();
}
const msg_bytes = msg.asBytes();
const msg: *SaprusMessage = try .bytesAsValue(msg_bytes);
try msg.networkFromNativeEndian();
defer msg.nativeFromNetworkEndian() catch unreachable;
@@ -44,48 +102,41 @@ fn broadcastSaprusMessage(msg: *SaprusMessage, udp_port: u16) !void {
try sock.bind(bind_addr);
std.debug.print("{x}\n", .{msg_bytes});
_ = try sock.sendTo(dest_addr, msg_bytes);
}
pub fn sendRelay(payload: []const u8, dest: [4]u8, allocator: Allocator) !void {
const msg_bytes = try allocator.alignedAlloc(
u8,
@alignOf(SaprusMessage),
try SaprusMessage.lengthForPayloadLength(
.relay,
base64Enc.calcSize(payload.len),
),
);
defer allocator.free(msg_bytes);
pub fn sendRelay(self: *Self, payload: []const u8, dest: [4]u8) !void {
var buf: [max_message_size]u8 align(@alignOf(SaprusMessage)) = undefined;
const msg_bytes = buf[0..try SaprusMessage.calcSize(
.relay,
base64Enc.calcSize(payload.len),
)];
const msg: *SaprusMessage = .init(.relay, msg_bytes);
const relay = (try msg.getSaprusTypePayload()).relay;
relay.dest = dest;
_ = base64Enc.encode(relay.getPayload(), payload);
try broadcastSaprusMessage(msg, 8888);
try self.broadcastInitialInterestMessage(msg_bytes);
}
fn randomPort() u16 {
var p: u16 = 0;
if (rand) |r| {
p = r.intRangeAtMost(u16, 1024, 65000);
} else unreachable;
return p;
fn randomPort(self: Self) u16 {
return self.rand.intRangeAtMost(u16, 1024, 65000);
}
pub fn sendInitialConnection(payload: []const u8, initial_port: u16, allocator: Allocator) !*SaprusMessage {
const dest_port = randomPort();
const msg_bytes = try allocator.alignedAlloc(
u8,
@alignOf(SaprusMessage),
try SaprusMessage.lengthForPayloadLength(
.connection,
base64Enc.calcSize(payload.len),
),
);
pub fn sendInitialConnection(
self: Self,
payload: []const u8,
output_bytes: []align(@alignOf(SaprusMessage)) u8,
initial_port: u16,
) !*SaprusMessage {
const dest_port = self.randomPort();
const msg_bytes = output_bytes[0..try SaprusMessage.calcSize(
.connection,
base64Enc.calcSize(payload.len),
)];
const msg: *SaprusMessage = .init(.connection, msg_bytes);
const connection = (try msg.getSaprusTypePayload()).connection;
@@ -93,16 +144,13 @@ pub fn sendInitialConnection(payload: []const u8, initial_port: u16, allocator:
connection.dest_port = dest_port;
_ = base64Enc.encode(connection.getPayload(), payload);
try broadcastSaprusMessage(msg, 8888);
try broadcastSaprusMessage(msg_bytes, 8888);
return msg;
}
pub fn connect(payload: []const u8, allocator: Allocator) !?SaprusConnection {
var initial_port: u16 = 0;
if (rand) |r| {
initial_port = r.intRangeAtMost(u16, 1024, 65000);
} else unreachable;
pub fn connect(self: Self, payload: []const u8) !?SaprusConnection {
const initial_port = self.randomPort();
var initial_conn_res: ?*SaprusMessage = null;
@@ -119,18 +167,17 @@ pub fn connect(payload: []const u8, allocator: Allocator) !?SaprusConnection {
try sock.setReadTimeout(1 * std.time.us_per_s);
try sock.bind(bind_addr);
const msg = try sendInitialConnection(payload, initial_port, allocator);
defer allocator.free(msg.asBytes());
var sent_msg_bytes: [max_message_size]u8 align(@alignOf(SaprusMessage)) = undefined;
const msg = try self.sendInitialConnection(payload, &sent_msg_bytes, initial_port);
var response_buf: [4096]u8 align(@alignOf(SaprusMessage)) = undefined;
var response_buf: [max_message_size]u8 align(@alignOf(SaprusMessage)) = undefined;
_ = try sock.receive(&response_buf); // Ignore message that I sent.
const len = try sock.receive(&response_buf);
std.debug.print("response bytes: {x}\n", .{response_buf[0..len]});
initial_conn_res = SaprusMessage.init(.connection, response_buf[0..len]);
initial_conn_res = try .networkBytesAsValue(response_buf[0..len]);
// Complete handshake after awaiting response
try broadcastSaprusMessage(msg, randomPort());
try broadcastSaprusMessage(msg.asBytes(), self.randomPort());
if (false) {
return initial_conn_res.?;
@@ -148,5 +195,3 @@ const mem = std.mem;
const network = @import("network");
const gcat = @import("gatorcat");
const Allocator = mem.Allocator;

11
src/main.zig
View File

@@ -42,24 +42,23 @@ pub fn main() !void {
};
defer res.deinit();
try SaprusClient.init();
defer SaprusClient.deinit();
if (res.args.help != 0) {
return clap.help(std.io.getStdErr().writer(), clap.Help, &params, .{});
}
var client = try SaprusClient.init("enp7s0");
defer client.deinit();
if (res.args.relay) |r| {
const dest = parseDest(res.args.dest);
try SaprusClient.sendRelay(
try client.sendRelay(
if (r.len > 0) r else "Hello darkness my old friend",
dest,
gpa,
);
// std.debug.print("Sent: {s}\n", .{r});
return;
} else if (res.args.connect) |c| {
_ = SaprusClient.connect(if (c.len > 0) c else "Hello darkness my old friend", gpa) catch |err| switch (err) {
_ = client.connect(if (c.len > 0) c else "Hello darkness my old friend") catch |err| switch (err) {
error.WouldBlock => null,
else => return err,
};

185
src/message.zig
View File

@@ -38,7 +38,7 @@ pub const Message = packed struct {
pub fn getPayload(self: *align(1) Relay) []u8 {
const len: *u16 = @ptrFromInt(@intFromPtr(self) - @sizeOf(u16));
return @as([*]u8, @ptrCast(&self.payload))[0 .. len.* - @sizeOf(Relay)];
return @as([*]u8, @ptrCast(&self.payload))[0 .. len.* - @bitSizeOf(Relay) / 8];
}
};
const Connection = packed struct {
@@ -52,7 +52,7 @@ pub const Message = packed struct {
pub fn getPayload(self: *align(1) Connection) []u8 {
const len: *u16 = @ptrFromInt(@intFromPtr(self) - @sizeOf(u16));
return @as([*]u8, @ptrCast(&self.payload))[0 .. len.* - @sizeOf(Connection)];
return @as([*]u8, @ptrCast(&self.payload))[0 .. len.* - @bitSizeOf(Connection) / 8];
}
fn nativeFromNetworkEndian(self: *align(1) Connection) void {
@@ -79,6 +79,8 @@ pub const Message = packed struct {
/// Takes a byte slice, and returns a Message struct backed by the slice.
/// This properly initializes the top level headers within the slice.
/// This is used for creating new messages. For reading messages from the network,
/// see: networkBytesAsValue.
pub fn init(@"type": PacketType, bytes: []align(@alignOf(Self)) u8) *Self {
std.debug.assert(bytes.len >= @sizeOf(Self));
const res: *Self = @ptrCast(bytes.ptr);
@@ -87,14 +89,14 @@ pub const Message = packed struct {
return res;
}
pub fn lengthForPayloadLength(comptime @"type": PacketType, payload_len: usize) MessageTypeError!u16 {
std.debug.assert(payload_len < std.math.maxInt(u16));
const header_size = @sizeOf(switch (@"type") {
/// Compute the number of bytes required to store a given payload size for a given message type.
pub fn calcSize(comptime @"type": PacketType, payload_len: usize) MessageTypeError!u16 {
const header_size = @bitSizeOf(switch (@"type") {
.relay => Relay,
.connection => Connection,
.file_transfer => return MessageTypeError.NotImplementedSaprusType,
else => return MessageTypeError.UnknownSaprusType,
});
}) / 8;
return @intCast(payload_len + @sizeOf(Self) + header_size);
}
@@ -105,6 +107,7 @@ pub const Message = packed struct {
return std.mem.bytesAsValue(Connection, &self.bytes);
}
/// Access the message Saprus payload.
pub fn getSaprusTypePayload(self: *Self) MessageTypeError!(union(PacketType) {
relay: *align(1) Relay,
file_transfer: void,
@@ -118,6 +121,7 @@ pub const Message = packed struct {
};
}
/// Convert the message to native endianness from network endianness in-place.
pub fn nativeFromNetworkEndian(self: *Self) MessageTypeError!void {
self.type = @enumFromInt(bigToNative(
@typeInfo(@TypeOf(self.type)).@"enum".tag_type,
@@ -141,6 +145,7 @@ pub const Message = packed struct {
}
}
/// Convert the message to network endianness from native endianness in-place.
pub fn networkFromNativeEndian(self: *Self) MessageTypeError!void {
try switch (try self.getSaprusTypePayload()) {
.relay => {},
@@ -155,6 +160,27 @@ pub const Message = packed struct {
self.length = nativeToBig(@TypeOf(self.length), self.length);
}
/// Convert network endian bytes to a native endian value in-place.
pub fn networkBytesAsValue(bytes: SelfBytes) MessageParseError!*Self {
const res = std.mem.bytesAsValue(Self, bytes);
try res.nativeFromNetworkEndian();
return .bytesAsValue(bytes);
}
/// Create a structured view of the bytes without initializing the length or type,
/// and without converting the endianness.
pub fn bytesAsValue(bytes: SelfBytes) MessageParseError!*Self {
const res = std.mem.bytesAsValue(Self, bytes);
return switch (res.type) {
.relay, .connection => if (bytes.len == res.length + @sizeOf(Self))
res
else
MessageParseError.InvalidMessage,
.file_transfer => MessageParseError.NotImplementedSaprusType,
else => MessageParseError.UnknownSaprusType,
};
}
/// Deprecated.
/// If I need the bytes, I should just pass around the slice that is backing this to begin with.
pub fn asBytes(self: *Self) SelfBytes {
@@ -164,43 +190,74 @@ pub const Message = packed struct {
};
test "testing variable length zero copy struct" {
const gpa = std.testing.allocator;
const payload = "Hello darkness my old friend";
// Create a view of the byte slice as a Message
const msg: *Message = try .init(gpa, .relay, payload.len);
defer msg.deinit(gpa);
{
// Set the message values
// Relay test
const payload = "Hello darkness my old friend";
var msg_bytes: [try Message.calcSize(.relay, payload.len)]u8 align(@alignOf(Message)) = undefined;
// Create a view of the byte slice as a Message
const msg: *Message = .init(.relay, &msg_bytes);
{
// These are both set by the init call.
// msg.type = .relay;
// msg.length = payload_len;
// Set the message values
{
// These are both set by the init call.
// msg.type = .relay;
// msg.length = payload_len;
}
const relay = (try msg.getSaprusTypePayload()).relay;
relay.dest = .{ 1, 2, 3, 4 };
@memcpy(relay.getPayload(), payload);
}
const relay = (try msg.getSaprusTypePayload()).relay;
relay.dest = .{ 1, 2, 3, 4 };
@memcpy(relay.getPayload(), payload);
{
// Print the message as hex using the network byte order
try msg.networkFromNativeEndian();
// We know the error from nativeFromNetworkEndian is unreachable because
// it would have returned an error from networkFromNativeEndian.
defer msg.nativeFromNetworkEndian() catch unreachable;
std.debug.print("relay network bytes: {x}\n", .{msg_bytes});
std.debug.print("bytes len: {d}\n", .{msg_bytes.len});
}
if (false) {
// Illegal behavior
std.debug.print("{any}\n", .{(try msg.getSaprusTypePayload()).connection});
}
try std.testing.expectEqualDeep(msg, try Message.bytesAsValue(msg.asBytes()));
}
{
const bytes = msg.asBytes();
// Connection test
const payload = "Hello darkness my old friend";
var msg_bytes: [try Message.calcSize(.connection, payload.len)]u8 align(@alignOf(Message)) = undefined;
// Print the message as hex using the network byte order
try msg.networkFromNativeEndian();
// We know the error from nativeFromNetworkEndian is unreachable because
// it would have returned an error from networkFromNativeEndian.
defer msg.nativeFromNetworkEndian() catch unreachable;
std.debug.print("network bytes: {x}\n", .{bytes});
std.debug.print("bytes len: {d}\n", .{bytes.len});
// Create a view of the byte slice as a Message
const msg: *Message = .init(.connection, &msg_bytes);
{
// Initializing connection header values
const connection = (try msg.getSaprusTypePayload()).connection;
connection.src_port = 1;
connection.dest_port = 2;
connection.seq_num = 3;
connection.msg_id = 4;
connection.reserved = 5;
connection.options = @bitCast(@as(u8, 6));
@memcpy(connection.getPayload(), payload);
}
{
// Print the message as hex using the network byte order
try msg.networkFromNativeEndian();
// We know the error from nativeFromNetworkEndian is unreachable because
// it would have returned an error from networkFromNativeEndian.
defer msg.nativeFromNetworkEndian() catch unreachable;
std.debug.print("connection network bytes: {x}\n", .{msg_bytes});
std.debug.print("bytes len: {d}\n", .{msg_bytes.len});
}
}
if (false) {
// Illegal behavior
std.debug.print("{any}\n", .{(try msg.getSaprusTypePayload()).connection});
}
try std.testing.expectEqualDeep(msg, try Message.bytesAsValue(msg.asBytes()));
}
const std = @import("std");
@@ -211,42 +268,48 @@ const nativeToBig = std.mem.nativeToBig;
const bigToNative = std.mem.bigToNative;
test "Round trip Relay toBytes and fromBytes" {
const gpa = std.testing.allocator;
const msg = Message{
.relay = .{
.header = .{ .dest = .{ 255, 255, 255, 255 } },
.payload = "Hello darkness my old friend",
},
};
if (false) {
const gpa = std.testing.allocator;
const msg = Message{
.relay = .{
.header = .{ .dest = .{ 255, 255, 255, 255 } },
.payload = "Hello darkness my old friend",
},
};
const to_bytes = try msg.toBytes(gpa);
defer gpa.free(to_bytes);
const to_bytes = try msg.toBytes(gpa);
defer gpa.free(to_bytes);
const from_bytes = try Message.fromBytes(to_bytes, gpa);
defer from_bytes.deinit(gpa);
const from_bytes = try Message.fromBytes(to_bytes, gpa);
defer from_bytes.deinit(gpa);
try std.testing.expectEqualDeep(msg, from_bytes);
try std.testing.expectEqualDeep(msg, from_bytes);
}
return error.SkipZigTest;
}
test "Round trip Connection toBytes and fromBytes" {
const gpa = std.testing.allocator;
const msg = Message{
.connection = .{
.header = .{
.src_port = 0,
.dest_port = 0,
if (false) {
const gpa = std.testing.allocator;
const msg = Message{
.connection = .{
.header = .{
.src_port = 0,
.dest_port = 0,
},
.payload = "Hello darkness my old friend",
},
.payload = "Hello darkness my old friend",
},
};
};
const to_bytes = try msg.toBytes(gpa);
defer gpa.free(to_bytes);
const to_bytes = try msg.toBytes(gpa);
defer gpa.free(to_bytes);
const from_bytes = try Message.fromBytes(to_bytes, gpa);
defer from_bytes.deinit(gpa);
const from_bytes = try Message.fromBytes(to_bytes, gpa);
defer from_bytes.deinit(gpa);
try std.testing.expectEqualDeep(msg, from_bytes);
try std.testing.expectEqualDeep(msg, from_bytes);
}
return error.SkipZigTest;
}
test {