PLAN.md describes the first client flow as entering a relay domain and room
code, but the client and gateway CLIs only accepted socket-address literals.
Add a small shared RelayEndpoint parser so bare hosts default to UDP/443 while
IP literals and explicit host:port values stay supported.
The runtime configs still store resolved SocketAddr values. That keeps the
Windows route-pinning path on a concrete relay IP before TAP activation while
avoiding duplicated endpoint grammar between client and gateway. The relay
listen config reuses the same default port constant so UDP/443 has one source.
README examples now use lanparty-relay.local and document the shared endpoint
syntax.
Test Plan:
- cargo fmt --check
- cargo test -p lanparty-net
- cargo test -p lanparty-client-win \
accepts_relay_domain_with_default_port -- --nocapture
- cargo test -p lanparty-gateway \
accepts_iface_alias_for_gateway_interface -- --nocapture
- cargo test -p lanparty-net -p lanparty-client-win -p lanparty-gateway
- cargo clippy -p lanparty-net -p lanparty-client-win -p lanparty-gateway \
--all-targets -- -D warnings
- cargo test --workspace
- cargo clippy --workspace --all-targets -- -D warnings
- git diff --check
Refs: PLAN.md
The client now builds ClientDiagnostics snapshots from the connected session,
known TAP state, route-pinning status, and tunnel counters. Windows prints one
snapshot after TAP and relay-route setup, then repeats snapshots while bridging
so frame/datagram counters and drops are visible during manual phase-1 tests.
Non-Windows builds print the same relay and QUIC diagnostics with TAP fields
marked unknown before waiting for Ctrl-C. TAP IP remains unknown until a later
Windows adapter IP inspection slice wires that source of truth.
Test Plan:
- cargo fmt --check
- cargo test -p lanparty-client-win
- cargo clippy -p lanparty-client-win --all-targets -- -D warnings
- cargo test --workspace
- cargo clippy --workspace --all-targets -- -D warnings
- git diff --check
Refs: PLAN.md
Use the new route snapshot helper in the Windows client startup path before the
TAP adapter is opened and marked connected. The client now reports the current
relay destination route: selected source address, next hop, interface index,
interface LUID, route prefix, and metric.
This is still diagnostic only. Route pinning remains unwired, and route lookup
failure is a warning so manual TAP frame-pump testing is not blocked by a route
inspection failure. Once mutation is implemented, this snapshot gives the code
the pre-TAP interface data it needs to preserve the real internet path.
Verification note: I attempted to check `lanparty-client-win` for
`x86_64-pc-windows-msvc`, but this host still lacks the Windows C headers
needed by `ring`; the build stops at `assert.h` before the binary crate can be
typechecked for Windows.
Test Plan:
- cargo fmt --check
- cargo test --workspace
- cargo clippy --workspace --all-targets -- -D warnings
- cargo check -p lanparty-client-route --target x86_64-pc-windows-msvc
- cargo clippy -p lanparty-client-route --target x86_64-pc-windows-msvc -- -D warnings
- git diff --check
Refs: PLAN.md
The client can now reach the relay with a stable virtual MAC, and the TAP crate
can discover and open installed TAP-Windows6 adapters. Wire those pieces
together at startup so the Windows binary opens the first TAP adapter and marks
its media status connected after the relay handshake succeeds.
The binary reports the TAP device path plus the driver MAC and MTU. If those do
not match the tunnel identity or relay-selected MTU, it warns explicitly instead
of pretending configuration is complete.
Frame pumping and route protection remain separate follow-up slices. The full
Windows client binary still cannot be target-checked on this Linux host because
its QUIC/TLS stack needs Windows C headers for ring, but the TAP crate itself is
Windows-target checked and clippy-clean.
Test Plan:
- cargo fmt --check
- cargo test --workspace
- cargo clippy --workspace --all-targets -- -D warnings
- Windows-target cargo clippy for lanparty-client-tap with -D warnings
- git diff --check
Refs: PLAN.md Windows TAP client
lanparty-client-win now has a real command-line surface for the relay-facing
client session. It accepts the relay address, expected TLS server name, pinned
DER relay certificate, room code, virtual TAP MAC, and advertised datagram
budget, then connects through lanparty-client-core as role = client.
The binary reports the assigned peer id, room id, and effective TAP MTU from the
welcome response, then waits for Ctrl-C. TAP adapter binding and Windows route
pinning remain future slices, but the executable now exercises the real relay
control-plane path instead of the starter placeholder.
Test Plan:
- cargo fmt --check
- cargo test --workspace
- cargo clippy --workspace --all-targets -- -D warnings
Refs: PLAN.md Windows client relay connection
ddidderr
