Files
wz-phone/desktop/src-tauri/Cargo.toml
Siavash Sameni 06253fdeeb feat(video+desktop): camera capture, video UI, E2E AEAD wiring, test fixes
Blockers 4 & 5: browser getUserMedia → JPEG IPC → Rust I420 pipeline;
remote video strip renders decoded frames via canvas; EncryptingTransport
wraps QuinnTransport so WZP AEAD is applied to all media (C2 fix).

Test fixes: HandshakeResult.session destructuring across relay/client/crypto
integration tests; video_codecs field added to all CallOffer/CallAnswer
structs; wzp-video pipeline_roundtrip integration tests added.

PRD docs: five Kimi-ready specs for E2E encryption, Android NDK 0.9 migration,
quality upgrade flow, wire-format hardening, and clippy debt.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-05-25 15:30:26 +04:00

117 lines
5.2 KiB
TOML

[package]
name = "wzp-desktop"
version = "0.1.0"
edition = "2024"
description = "WarzonePhone Desktop — encrypted VoIP client"
default-run = "wzp-desktop"
# Library target — required for Tauri mobile (Android/iOS link the app as a cdylib)
# and also used by the desktop binary below.
#
# `staticlib` was DROPPED from crate-type because rust-lang/rust#104707
# documents that having staticlib alongside cdylib leaks non-exported
# symbols from staticlibs into the cdylib. Bionic's private `__init_tcb`
# / `pthread_create` symbols end up bound LOCALLY inside our .so instead
# of resolved dynamically against libc.so at dlopen time — which crashes
# at launch as soon as tao tries to std::thread::spawn() from the JNI
# onCreate callback. The legacy wzp-android crate uses ["cdylib", "rlib"]
# and runs fine on the same phone with the same NDK + Rust toolchain.
#
# iOS Tauri builds that actually need staticlib can re-add it behind a
# target cfg if we ever ship on iOS.
[lib]
name = "wzp_desktop_lib"
crate-type = ["cdylib", "rlib"]
[[bin]]
name = "wzp-desktop"
path = "src/main.rs"
[build-dependencies]
tauri-build = { version = "2", features = [] }
# cc is no longer needed — all C++ moved to crates/wzp-native (built with
# cargo-ndk and loaded via libloading at runtime). wzp-desktop's .so on
# Android is now pure Rust.
[dependencies]
tauri = { version = "2", features = [] }
tauri-plugin-shell = "2"
tauri-plugin-notification = "2"
serde = { version = "1", features = ["derive"] }
serde_json = "1"
tokio = { version = "1", features = ["full"] }
tracing = "0.1"
tracing-subscriber = "0.3"
anyhow = "1"
rustls = { version = "0.23", default-features = false, features = ["ring", "std"] }
# JPEG encoding for video:frame events (I420 → RGB → JPEG for IPC to WebView)
image = { version = "0.25", default-features = false, features = ["jpeg"] }
base64 = "0.22"
# WarzonePhone crates — protocol layer is platform-independent
wzp-proto = { path = "../../crates/wzp-proto" }
wzp-codec = { path = "../../crates/wzp-codec" }
wzp-fec = { path = "../../crates/wzp-fec" }
wzp-crypto = { path = "../../crates/wzp-crypto" }
wzp-transport = { path = "../../crates/wzp-transport" }
wzp-video = { path = "../../crates/wzp-video" }
# wzp-client pulls in CPAL on every desktop target and, additionally on
# macOS, VoiceProcessingIO (coreaudio-rs behind the "vpio" feature). The
# vpio feature MUST NOT be enabled on Windows / Linux because coreaudio-rs
# is Apple-framework-only and will fail to build. Task #24 will add a
# matching Windows Voice Capture DSP path behind its own feature; until
# then, Windows desktops use plain CPAL with AEC disabled.
# macOS: CPAL + VoiceProcessingIO (hardware AEC via Core Audio).
[target.'cfg(target_os = "macos")'.dependencies]
wzp-client = { path = "../../crates/wzp-client", features = ["audio", "vpio"] }
# Windows: CPAL for playback + direct WASAPI for capture with OS-level
# AEC (AudioCategory_Communications). The wzp-client `windows-aec`
# feature swaps the default CPAL AudioCapture for a WASAPI one that
# opens the mic under AudioCategory_Communications, turning on Windows's
# communications audio processing chain (AEC, NS, AGC). The reference
# signal for AEC is the system render mix, so echo from our CPAL
# playback is cancelled automatically without extra plumbing.
[target.'cfg(target_os = "windows")'.dependencies]
wzp-client = { path = "../../crates/wzp-client", features = ["audio", "windows-aec"] }
# Linux: CPAL playback+capture baseline. AEC is enabled via the top-level
# `linux-aec` feature in wzp-desktop, which forwards to wzp-client/linux-aec.
# Keeping it opt-in at the wzp-desktop level (rather than forcing it always
# on here) lets `cargo tauri build` produce two variants from the same
# source tree — a noAEC baseline and an AEC build — by toggling the feature
# at build time: `cargo tauri build -- --features wzp-desktop/linux-aec`.
[target.'cfg(target_os = "linux")'.dependencies]
wzp-client = { path = "../../crates/wzp-client", features = ["audio"] }
# Android: no CPAL, no vpio — audio goes through the standalone wzp-native
# cdylib that we dlopen via libloading at runtime. See the wzp_native
# module in src/.
[target.'cfg(target_os = "android")'.dependencies]
wzp-client = { path = "../../crates/wzp-client", default-features = false }
# libloading: runtime dlopen of libwzp_native.so — the standalone cdylib
# crate that owns all C++ (Oboe bridge). Keeps wzp-desktop's .so free of
# any C/C++ static archives that would otherwise leak bionic's internal
# pthread_create into our cdylib and trigger the __init_tcb crash.
libloading = "0.8"
# jni + ndk-context: called from android_audio.rs to invoke
# AudioManager.setSpeakerphoneOn on the JVM side at runtime, so the
# Oboe playout stream (opened with Usage::VoiceCommunication) can route
# between earpiece and loud speaker without restarting.
jni = "0.21"
ndk-context = "0.1"
[dev-dependencies]
bytes = "1"
async-trait = "0.1"
[features]
default = ["custom-protocol"]
custom-protocol = ["tauri/custom-protocol"]
# linux-aec: forwards to wzp-client/linux-aec so `cargo tauri build -- --features
# wzp-desktop/linux-aec` enables the WebRTC AEC3 backend on Linux. No-op on
# other targets because wzp-client/linux-aec is itself cfg(target_os = "linux").
linux-aec = ["wzp-client/linux-aec"]