zambyte/zaprus
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base: zambyte:1f500b9b0a9999dafbbb01d57a9574b0537deedc
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zambyte:master zambyte:dev
zambyte:v0.2.2 zambyte:0.2.0 zambyte:0.1.0 zambyte:invy
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compare: zambyte:0.2.0
Branches Tags
zambyte:master zambyte:dev
zambyte:v0.2.2 zambyte:0.2.0 zambyte:0.1.0 zambyte:invy

1 Commits
1f500b9b0a ... 0.2.0

Author SHA1 Message Date
Robby Zambito
d1ca448835 Release v0.2.0 2026-02-01 21:02:39 -05:00
6 changed files with 11 additions and 100 deletions
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26
.tangled/workflows/build.yml
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@@ -1,26 +0,0 @@
when:
- event: ["push", "pull_request", "manual"]
branch: ["dev", "master"]
tag: ["v*"]
engine: "nixery"
dependencies:
nixpkgs:
- rclone
git+https://github.com/mitchellh/zig-overlay:
- master
steps:
- name: "Build"
command: "zig build -Doptimize=ReleaseSmall -Dcpu=baseline"
- name: "Publish"
command: |
rclone sync ./zig-out \
--webdav-url "$RELEASE_NEXTCLOUD_HOST/remote.php/dav/files/$RELEASE_NEXTCLOUD_USER/" \
--webdav-user "$RELEASE_NEXTCLOUD_USER" \
--webdav-pass "$RELEASE_NEXTCLOUD_PASS" \
--webdav-vendor nextcloud \
:webdav:"zaprus/zaprus-$TANGLED_REF_NAME" \
-q

7
README.md
View File

@@ -3,9 +3,4 @@
This is an implementation of the [Saprus protocol](https://gitlab.com/c2-games/red-team/saprus) in Zig.
It is useful for developing clients either in Zig, or in any other language using the C bindings.
Binary releases can be downloaded [here](https://cloud.zambito.xyz/s/7jJPTm68Zp3mN8F).
The code for this can be found here:
- https://tangled.org/zambyte.robbyzambito.me/zaprus
- https://git.robbyzambito.me/zaprus
Binary releases can be downloaded [here](https://cloud.zambito.xyz/s/cNaLeDz38W5ZcZs).

3
build.zig
View File

@@ -7,9 +7,6 @@ const std = @import("std");
// build runner to parallelize the build automatically (and the cache system to
// know when a step doesn't need to be re-run).
pub fn build(b: *std.Build) void {
// Ensure the license is included in the output directory
b.installFile("LICENSE.md", "LICENSE.md");
b.installFile("README.md", "README.md");
// Standard target options allow the person running `zig build` to choose
// what target to build for. Here we do not override the defaults, which
// means any target is allowed, and the default is native. Other options

2
build.zig.zon
View File

@@ -10,7 +10,7 @@
// This is a [Semantic Version](https://semver.org/).
// In a future version of Zig it will be used for package deduplication.
.version = "0.0.0",
.version = "0.2.0",
// Together with name, this represents a globally unique package
// identifier. This field is generated by the Zig toolchain when the

2
src/RawSocket.zig
View File

@@ -100,7 +100,7 @@ pub fn init() error{
};
}
pub fn setTimeout(self: *RawSocket, sec: isize, usec: i64) error{SetTimeoutError}!void {
pub fn setTimeout(self: *RawSocket, sec: isize, usec: i64) !void {
const timeout: std.os.linux.timeval = .{ .sec = sec, .usec = usec };
const timeout_ret = std.os.linux.setsockopt(self.fd, std.os.linux.SOL.SOCKET, std.os.linux.SO.RCVTIMEO, @ptrCast(&timeout), @sizeOf(@TypeOf(timeout)));
if (timeout_ret != 0) return error.SetTimeoutError;

71
src/main.zig
View File

@@ -146,54 +146,28 @@ pub fn main(init: std.process.Init) !void {
if (flags.connect != null) {
reconnect: while (true) {
client = SaprusClient.init() catch |err| switch (err) {
error.NoInterfaceFound => {
init.io.sleep(.fromMilliseconds(100), .boot) catch unreachable;
continue :reconnect;
},
else => |e| return e,
};
client = try .init();
defer client.deinit();
log.debug("Starting connection", .{});
client.socket.setTimeout(if (is_debug) 3 else 25, 0) catch {
log.err("Unable to set timeout", .{});
init.io.sleep(.fromMilliseconds(100), .boot) catch unreachable;
continue :reconnect;
};
try client.socket.setTimeout(if (is_debug) 3 else 25, 0);
var connection = client.connect(init.io, w.buffered()) catch {
log.debug("Connection timed out", .{});
continue :reconnect;
continue;
};
log.debug("Connection started", .{});
next_message: while (true) {
var res_buf: [2048]u8 = undefined;
client.socket.setTimeout(if (is_debug) 60 else 600, 0) catch {
log.err("Unable to set timeout", .{});
init.io.sleep(.fromMilliseconds(100), .boot) catch unreachable;
continue :reconnect;
};
try client.socket.setTimeout(if (is_debug) 60 else 600, 0);
const next = connection.next(init.io, &res_buf) catch {
continue :reconnect;
};
const b64d = std.base64.standard.Decoder;
var connection_payload_buf: [2048]u8 = undefined;
const connection_payload = blk: {
const size = b64d.calcSizeForSlice(next) catch |err| switch (err) {
error.InvalidCharacter, error.InvalidPadding => {
log.warn("Invalid base64 message received, ignoring: '{s}'", .{next});
continue :next_message;
},
error.NoSpaceLeft => {
log.warn("No space left when decoding base64 string, ignoring.", .{});
continue :next_message;
},
};
break :blk connection_payload_buf[0..size];
};
const connection_payload = connection_payload_buf[0..try b64d.calcSizeForSlice(next)];
b64d.decode(connection_payload, next) catch {
log.debug("Failed to decode message, skipping: '{s}'", .{connection_payload});
continue;
@@ -241,7 +215,7 @@ pub fn main(init: std.process.Init) !void {
var is_killed: std.atomic.Value(bool) = .init(false);
var kill_task = init.io.concurrent(killProcessAfter, .{ init.io, &child, .fromSeconds(3), &is_killed }) catch unreachable;
var kill_task = try init.io.concurrent(killProcessAfter, .{ init.io, &child, .fromSeconds(3), &is_killed });
defer _ = kill_task.cancel(init.io) catch {};
var cmd_output_buf: [SaprusClient.max_payload_len * 2]u8 = undefined;
@@ -264,41 +238,12 @@ pub fn main(init: std.process.Init) !void {
break;
},
};
const child_output_chunk = child_output_reader.interface.takeArray(child_output_buf.len) catch |err| switch (err) {
error.EndOfStream => {
log.warn("Reached end of stream when reading from the child process. Maybe this should be handled more gracefull, but ignoring for now.", .{});
continue :next_message;
},
error.ReadFailed => if (child_output_reader.err) |co_err| switch (co_err) {
error.AccessDenied,
error.ConnectionResetByPeer,
error.InputOutput,
error.IsDir,
error.LockViolation,
error.NotOpenForReading,
error.SocketUnconnected,
error.SystemResources,
error.WouldBlock,
=> |e| {
log.err("Unending error reading output from child process: {t}", .{e});
continue :next_message;
},
error.Canceled => |e| return e,
error.Unexpected => {
log.err("Unexpected error reading output from child process.", .{});
continue :next_message;
},
} else {
log.err("Shouldn't get here :(", .{});
continue :next_message;
},
};
cmd_output.print("{b64}", .{child_output_chunk}) catch unreachable;
cmd_output.print("{b64}", .{try child_output_reader.interface.takeArray(child_output_buf.len)}) catch unreachable;
connection.send(init.io, .{}, cmd_output.buffered()) catch |err| {
log.debug("Failed to send connection chunk: {t}", .{err});
continue :next_message;
};
init.io.sleep(.fromMilliseconds(40), .boot) catch unreachable;
try init.io.sleep(.fromMilliseconds(40), .boot);
} else {
kill_task.cancel(init.io) catch {};
killProcessAfter(init.io, &child, .zero, &is_killed) catch |err| {