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base: fabi:feat/private-mode
Branches Tags
fabi:main fabi:docs/handoff-2026-06-05 fabi:feat/crawler-observability-and-reliability fabi:feat/cover-retry-and-force-resync fabi:feat/private-mode fabi:feat/tor-proxy-recircuit fabi:fix/ci-build-push-socket fabi:fix/test-backend-rust-toolchain fabi:bugfix/crawler-incremental-pagination fabi:feat/crawler-system-chromium fabi:fix/ci-deploy-pipeline fabi:feat/auth-rate-limiting fabi:chore/repo-and-layering-cleanups fabi:chore/reverse-proxy-hardening fabi:bugfix/api-validation-and-sendbeacon-cleanup fabi:feat/frontend-session-401-clears-user fabi:chore/container-hardening fabi:bugfix/crawler-content-defenses fabi:bugfix/manga-authz-uploader-gating fabi:bugfix/crawler-preserves-user-tags fabi:chore/crawler-jobs-drop-failed-index fabi:chore/ci-pr-trigger-and-config fabi:feat/backend-sigterm-shutdown fabi:bugfix/login-timing-equalisation fabi:feat/gitea-actions-deploy fabi:feat/incremental-crawl-mode
..
compare: fabi:feat/crawler-system-chromium
Branches Tags
fabi:docs/handoff-2026-06-05 fabi:feat/crawler-observability-and-reliability fabi:main fabi:feat/cover-retry-and-force-resync fabi:feat/private-mode fabi:feat/tor-proxy-recircuit fabi:fix/ci-build-push-socket fabi:fix/test-backend-rust-toolchain fabi:bugfix/crawler-incremental-pagination fabi:feat/crawler-system-chromium fabi:fix/ci-deploy-pipeline fabi:feat/auth-rate-limiting fabi:chore/repo-and-layering-cleanups fabi:chore/reverse-proxy-hardening fabi:bugfix/api-validation-and-sendbeacon-cleanup fabi:feat/frontend-session-401-clears-user fabi:chore/container-hardening fabi:bugfix/crawler-content-defenses fabi:bugfix/manga-authz-uploader-gating fabi:bugfix/crawler-preserves-user-tags fabi:chore/crawler-jobs-drop-failed-index fabi:chore/ci-pr-trigger-and-config fabi:feat/backend-sigterm-shutdown fabi:bugfix/login-timing-equalisation fabi:feat/gitea-actions-deploy fabi:feat/incremental-crawl-mode

2 Commits
feat/priva ... feat/crawl

Author SHA1 Message Date
fabi
2f9037e210 Merge remote-tracking branch 'origin/main' into feat/crawler-system-chromium
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2026-05-31 17:44:20 +02:00
MechaCat02
0b5f5d1692 feat(crawler): CRAWLER_CHROMIUM_BINARY to use system chromium (0.45.0) 
Skips the chromiumoxide fetcher when CRAWLER_CHROMIUM_BINARY is set,
unblocking Linux_arm64 deployments (Raspberry Pi 5) where the
fetcher's upstream snapshot bucket has no reliable build. The
Dockerfile gains an INSTALL_CHROMIUM build-arg that adds
chromium-headless-shell + fonts-liberation to the runtime image when
set; default off so cloud/x86 images stay slim.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
 2026-05-31 17:18:37 +02:00
30 changed files with 220 additions and 2286 deletions
Expand all files Collapse all files

41
.env.example
View File

@@ -74,10 +74,6 @@ CRAWLER_DOWNLOAD_ALLOWLIST=
CRAWLER_ALLOW_ANY_HOST=false CRAWLER_ALLOW_ANY_HOST=false
# Hard cap on a single image body. Default 32 MiB. # Hard cap on a single image body. Default 32 MiB.
CRAWLER_MAX_IMAGE_BYTES=33554432 CRAWLER_MAX_IMAGE_BYTES=33554432
# Max manga detail fetches per metadata pass (both the in-process daemon
# and the `bin/crawler` CLI). 0 means no cap — let the source walker run
# to completion. Useful for capped test runs against a new source.
CRAWLER_LIMIT=0
# Path to a system Chromium binary. When set, the crawler skips the # Path to a system Chromium binary. When set, the crawler skips the
# bundled-fetcher download. Required on platforms without a usable # bundled-fetcher download. Required on platforms without a usable
# upstream Chromium build (notably Linux_arm64 / Raspberry Pi). On # upstream Chromium build (notably Linux_arm64 / Raspberry Pi). On
@@ -87,43 +83,6 @@ CRAWLER_LIMIT=0
# the image actually contains the binary. # the image actually contains the binary.
CRAWLER_CHROMIUM_BINARY= CRAWLER_CHROMIUM_BINARY=
# ----- Crawler TOR proxy + recircuit -----
# The compose stack ships a `tor` service (dockurr/tor) and defaults
# CRAWLER_PROXY to it, so by default all crawler traffic exits via the
# TOR network. To opt out, set CRAWLER_PROXY= (empty) AND
# CRAWLER_TOR_CONTROL_URL= (empty) below — the tor service can stay
# running, it just won't be used.
#
# Going through TOR adds latency to every fetch; image downloads in
# particular slow noticeably. The win is on sites that rate-limit or
# fingerprint by exit IP — NEWNYM recirculation makes a fresh exit
# cheap to reach for.
#
# CRAWLER_PROXY: SOCKS5(h) URL. Use `socks5h://` (not `socks5://`) so
# DNS resolution also goes through TOR, avoiding leaks via the host's
# resolver. Leave unset to talk to the upstream directly.
CRAWLER_PROXY=socks5h://tor:9050
# Control-port URL for SIGNAL NEWNYM ("get a fresh circuit"). Triggered
# automatically on bad pages (broken-page body, missing #logo) and on
# the Unauthenticated session probe outcome. Leave unset to disable
# the recircuit feature (the SOCKS proxy still works).
CRAWLER_TOR_CONTROL_URL=tcp://tor:9051
# Max NEWNYM-and-retry cycles per recircuit-eligible failure. Default 3.
CRAWLER_TOR_RECIRCUIT_MAX_ATTEMPTS=3
# ----- TOR control-port password -----
# Shared between the bundled dockurr/tor service (which hashes it into
# its HashedControlPassword) and the backend's
# CRAWLER_TOR_CONTROL_PASSWORD. REQUIRED — docker-compose.yml fails
# fast if absent. Generate a strong random string; rotate by setting
# a new value and restarting both `tor` and `backend`.
#
# Operators running their own non-dockurr tor daemon with cookie-file
# auth can ignore this var and instead set
# CRAWLER_TOR_CONTROL_COOKIE_PATH on the backend — the TorController
# prefers cookie when both are present.
TOR_CONTROL_PASSWORD=change-me-to-a-strong-random-string
# ----- Frontend ----- # ----- Frontend -----
# The frontend container runs SvelteKit's Node adapter on :3000 and # The frontend container runs SvelteKit's Node adapter on :3000 and
# proxies /api/* to BACKEND_URL via src/hooks.server.ts. In compose the # proxies /api/* to BACKEND_URL via src/hooks.server.ts. In compose the

85
.gitea/workflows/deploy.yml
View File

@@ -10,6 +10,8 @@ on:
jobs: jobs:
test-backend: test-backend:
runs-on: ubuntu-latest runs-on: ubuntu-latest
container:
image: rust:1-slim
services: services:
postgres: postgres:
image: postgres:16-alpine image: postgres:16-alpine
@@ -26,18 +28,10 @@ jobs:
DATABASE_URL: postgres://mangalord:mangalord@postgres:5432/mangalord DATABASE_URL: postgres://mangalord:mangalord@postgres:5432/mangalord
steps: steps:
- uses: actions/checkout@v4 - uses: actions/checkout@v4
# ubuntu-latest has node (so JS actions like checkout/cache run) but no - name: Install build deps
# Rust. We intentionally avoid `container: rust:1-slim` because act_runner
# runs JS actions with node *inside* the job container, and the slim Rust
# image ships no node (checkout would fail with exit 127).
- name: Install Rust + build deps
run: | run: |
set -eu apt-get update
SUDO=""; [ "$(id -u)" = "0" ] || SUDO="sudo" apt-get install -y --no-install-recommends pkg-config libssl-dev ca-certificates
$SUDO apt-get update
$SUDO apt-get install -y --no-install-recommends pkg-config libssl-dev ca-certificates curl
curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh -s -- -y --profile minimal --default-toolchain stable
echo "$HOME/.cargo/bin" >> "$GITHUB_PATH"
- name: Cache cargo registry and target - name: Cache cargo registry and target
uses: actions/cache@v4 uses: actions/cache@v4
with: with:
@@ -72,17 +66,9 @@ jobs:
runs-on: ubuntu-latest runs-on: ubuntu-latest
needs: [test-backend, test-frontend] needs: [test-backend, test-frontend]
# PRs only run the test jobs; build + deploy are reserved for # PRs only run the test jobs; build + deploy are reserved for
# post-merge pushes to main. # post-merge pushes to main. Without this gate every PR would push
# a tagged image to the registry and SSH-deploy to prod.
if: github.event_name != 'pull_request' if: github.event_name != 'pull_request'
# Build on the host docker daemon directly (docker-outside-of-docker):
# the runner shares the deploy host's daemon, so a plain `docker build`
# reuses the host's layer cache and avoids buildx's docker-container
# driver + the gha cache exporter — neither works against this single-host
# act_runner, and there is no in-job daemon socket unless we mount it.
container:
image: docker.gitea.com/runner-images:ubuntu-latest
volumes:
- /var/run/docker.sock:/var/run/docker.sock
outputs: outputs:
image_tag: ${{ steps.meta.outputs.image_tag }} image_tag: ${{ steps.meta.outputs.image_tag }}
version: ${{ steps.meta.outputs.version }} version: ${{ steps.meta.outputs.version }}
@@ -101,32 +87,48 @@ jobs:
echo "image_tag=${GITHUB_SHA}" >> "$GITHUB_OUTPUT" echo "image_tag=${GITHUB_SHA}" >> "$GITHUB_OUTPUT"
echo "version=${version}" >> "$GITHUB_OUTPUT" echo "version=${version}" >> "$GITHUB_OUTPUT"
- name: Build & push backend + frontend - uses: docker/setup-buildx-action@v3
env:
REGISTRY_URL: ${{ secrets.REGISTRY_URL }} - name: docker login
REGISTRY_USERNAME: ${{ secrets.REGISTRY_USERNAME }} uses: docker/login-action@v3
REGISTRY_PASSWORD: ${{ secrets.REGISTRY_PASSWORD }} with:
IMAGE_TAG: ${{ steps.meta.outputs.image_tag }} registry: ${{ secrets.REGISTRY_URL }}
VERSION: ${{ steps.meta.outputs.version }} username: ${{ secrets.REGISTRY_USERNAME }}
run: | password: ${{ secrets.REGISTRY_PASSWORD }}
set -eu
echo "$REGISTRY_PASSWORD" | docker login "$REGISTRY_URL" -u "$REGISTRY_USERNAME" --password-stdin - name: Build & push backend
for svc in backend frontend; do uses: docker/build-push-action@v5
img="$REGISTRY_URL/mangalord-$svc" with:
docker build -t "$img:$IMAGE_TAG" -t "$img:latest" -t "$img:$VERSION" "./$svc" context: ./backend
for tag in "$IMAGE_TAG" latest "$VERSION"; do docker push "$img:$tag"; done push: true
done tags: |
docker logout "$REGISTRY_URL" ${{ secrets.REGISTRY_URL }}/mangalord-backend:latest
${{ secrets.REGISTRY_URL }}/mangalord-backend:${{ steps.meta.outputs.image_tag }}
${{ secrets.REGISTRY_URL }}/mangalord-backend:${{ steps.meta.outputs.version }}
cache-from: type=gha,scope=backend
cache-to: type=gha,mode=max,scope=backend
- name: Build & push frontend
uses: docker/build-push-action@v5
with:
context: ./frontend
push: true
tags: |
${{ secrets.REGISTRY_URL }}/mangalord-frontend:latest
${{ secrets.REGISTRY_URL }}/mangalord-frontend:${{ steps.meta.outputs.image_tag }}
${{ secrets.REGISTRY_URL }}/mangalord-frontend:${{ steps.meta.outputs.version }}
cache-from: type=gha,scope=frontend
cache-to: type=gha,mode=max,scope=frontend
deploy: deploy:
runs-on: ubuntu-latest runs-on: ubuntu-latest
needs: build-and-push needs: build-and-push
if: github.event_name != 'pull_request' if: github.event_name != 'pull_request'
# Single-host deploy: the runner lives on the same box as the stack, so we # Single-host deploy: the runner lives on the same box as the stack, so we
# drive the host docker daemon directly (the job mounts the host docker # drive the host docker daemon directly (act_runner shares its socket via
# socket) instead of SSHing out. The compose dir is bind-mounted at its # `docker_host: "-"`) instead of SSHing out. The compose dir is bind-mounted
# REAL host path so compose's relative bind-mounts (./mangalord/..., # at its REAL host path so compose's relative bind-mounts (./mangalord/...,
# ./Caddyfile) resolve; both paths must be in the runner's # ./Caddyfile) resolve; this requires `/mnt/ssd/docker-data` in the runner's
# container.valid_volumes. The central compose references the images as # container.valid_volumes. The central compose references the images as
# registry.mc02.dev/mangalord-*:${MANGALORD_TAG:-latest}, so we only pull # registry.mc02.dev/mangalord-*:${MANGALORD_TAG:-latest}, so we only pull
# and recreate the two mangalord services at the freshly built SHA. # and recreate the two mangalord services at the freshly built SHA.
@@ -134,7 +136,6 @@ jobs:
image: docker:cli image: docker:cli
volumes: volumes:
- /mnt/ssd/docker-data:/mnt/ssd/docker-data - /mnt/ssd/docker-data:/mnt/ssd/docker-data
- /var/run/docker.sock:/var/run/docker.sock
steps: steps:
- name: Deploy to the local stack - name: Deploy to the local stack
working-directory: /mnt/ssd/docker-data working-directory: /mnt/ssd/docker-data

2
backend/Cargo.lock generated
View File

@@ -1470,7 +1470,7 @@ checksum = "c41e0c4fef86961ac6d6f8a82609f55f31b05e4fce149ac5710e439df7619ba4"
[[package]] [[package]]
name = "mangalord" name = "mangalord"
version = "0.48.0" version = "0.45.0"
dependencies = [ dependencies = [
"anyhow", "anyhow",
"argon2", "argon2",

2
backend/Cargo.toml
View File

@@ -1,6 +1,6 @@
[package] [package]
name = "mangalord" name = "mangalord"
version = "0.48.0" version = "0.45.0"
edition = "2021" edition = "2021"
default-run = "mangalord" default-run = "mangalord"

19
backend/src/api/auth.rs
View File

@@ -42,22 +42,18 @@ pub fn routes() -> Router<AppState> {
.route("/auth/tokens/:id", delete(delete_token)) .route("/auth/tokens/:id", delete(delete_token))
} }
/// Public, unauthenticated. Exposes anonymous-relevant auth policy so /// Public, unauthenticated. Exposes anonymous-relevant auth policy
/// the frontend can render its login / register affordances correctly /// (currently just whether self-registration is open) so the frontend
/// without a probe request that would conflate "disabled" with /// can render its login / register affordances correctly without a
/// "rate-limited". `self_register_enabled` is the *effective* value /// probe request that would conflate "disabled" with "rate-limited".
/// (`allow_self_register && !private_mode`), so a private-mode
/// instance reports `false` even if the raw flag is on.
#[derive(Debug, Serialize)] #[derive(Debug, Serialize)]
pub struct AuthConfigResponse { pub struct AuthConfigResponse {
pub self_register_enabled: bool, pub self_register_enabled: bool,
pub private_mode: bool,
} }
async fn auth_config(State(state): State<AppState>) -> Json<AuthConfigResponse> { async fn auth_config(State(state): State<AppState>) -> Json<AuthConfigResponse> {
Json(AuthConfigResponse { Json(AuthConfigResponse {
self_register_enabled: state.auth.allow_self_register && !state.auth.private_mode, self_register_enabled: state.auth.allow_self_register,
private_mode: state.auth.private_mode,
}) })
} }
@@ -107,10 +103,7 @@ async fn register(
// disabled and enabled paths both consume a token, and disabled // disabled and enabled paths both consume a token, and disabled
// returns 403 instead of running argon2. // returns 403 instead of running argon2.
check_auth_rate_limit(&state, "register")?; check_auth_rate_limit(&state, "register")?;
// Private mode force-blocks self-registration regardless of if !state.auth.allow_self_register {
// ALLOW_SELF_REGISTER — operators of locked-down instances mint
// accounts via `POST /admin/users` instead.
if !state.auth.allow_self_register || state.auth.private_mode {
return Err(AppError::Forbidden); return Err(AppError::Forbidden);
} }
let username = input.username.trim(); let username = input.username.trim();

91
backend/src/app.rs
View File

@@ -3,10 +3,8 @@ use std::sync::atomic::AtomicBool;
use anyhow::Context; use anyhow::Context;
use async_trait::async_trait; use async_trait::async_trait;
use axum::extract::{DefaultBodyLimit, FromRequestParts, Request, State}; use axum::extract::DefaultBodyLimit;
use axum::http::{HeaderName, HeaderValue, Method}; use axum::http::{HeaderName, HeaderValue, Method};
use axum::middleware::{self, Next};
use axum::response::Response;
use axum::Router; use axum::Router;
use sqlx::postgres::PgPoolOptions; use sqlx::postgres::PgPoolOptions;
use sqlx::PgPool; use sqlx::PgPool;
@@ -14,9 +12,7 @@ use tokio_util::sync::CancellationToken;
use tower_http::cors::{AllowOrigin, CorsLayer}; use tower_http::cors::{AllowOrigin, CorsLayer};
use tower_http::trace::TraceLayer; use tower_http::trace::TraceLayer;
use crate::auth::extractor::CurrentUser;
use crate::auth::rate_limit::AuthRateLimiter; use crate::auth::rate_limit::AuthRateLimiter;
use crate::error::AppError;
use crate::config::{AuthConfig, Config, CrawlerConfig, UploadConfig}; use crate::config::{AuthConfig, Config, CrawlerConfig, UploadConfig};
use crate::crawler::browser_manager::{self, BrowserManager}; use crate::crawler::browser_manager::{self, BrowserManager};
use crate::crawler::content::{self, SyncOutcome}; use crate::crawler::content::{self, SyncOutcome};
@@ -127,47 +123,27 @@ async fn spawn_crawler_daemon(
} }
let rate = Arc::new(rate); let rate = Arc::new(rate);
let tor = crate::crawler::tor::TorController::from_parts(
cfg.tor_control_url.as_deref(),
cfg.tor_control_password.as_deref(),
cfg.tor_control_cookie_path.as_deref(),
)
.context("build TorController from CRAWLER_TOR_CONTROL_* env")?
.map(Arc::new);
if let Some(t) = &tor {
tracing::info!(?t, "TOR control configured; transient pages will trigger NEWNYM");
}
let tor_recircuit_max = cfg.tor_recircuit_max_attempts;
// Browser manager. on_launch re-injects PHPSESSID on every fresh // Browser manager. on_launch re-injects PHPSESSID on every fresh
// chromium spawn so an idle teardown followed by re-launch stays // chromium spawn so an idle teardown followed by re-launch stays
// authenticated without operator action. // authenticated without operator action.
let mut launch_opts = cfg.browser.clone(); let mut launch_opts = cfg.browser.clone();
if let Some(proxy) = &cfg.proxy { if let Some(proxy) = &cfg.proxy {
let chromium_proxy = crate::crawler::url_utils::chromium_proxy_arg(proxy); launch_opts.extra_args.push(format!("--proxy-server={proxy}"));
launch_opts.extra_args.push(format!("--proxy-server={chromium_proxy}"));
} }
let on_launch = match (&cfg.phpsessid, &cfg.cookie_domain, &cfg.start_url) { let on_launch = match (&cfg.phpsessid, &cfg.cookie_domain, &cfg.start_url) {
(Some(sid), Some(domain), Some(start_url)) => { (Some(sid), Some(domain), Some(start_url)) => {
let sid = sid.clone(); let sid = sid.clone();
let domain = domain.clone(); let domain = domain.clone();
let start_url = start_url.clone(); let start_url = start_url.clone();
let tor_for_launch = tor.as_ref().map(Arc::clone);
let on_launch: browser_manager::OnLaunch = Arc::new(move |browser| { let on_launch: browser_manager::OnLaunch = Arc::new(move |browser| {
let sid = sid.clone(); let sid = sid.clone();
let domain = domain.clone(); let domain = domain.clone();
let start_url = start_url.clone(); let start_url = start_url.clone();
let tor_for_launch = tor_for_launch.as_ref().map(Arc::clone);
Box::pin(async move { Box::pin(async move {
session::inject_phpsessid(&browser, &sid, &domain) session::inject_phpsessid(&browser, &sid, &domain)
.await .await
.context("on_launch: inject_phpsessid")?; .context("on_launch: inject_phpsessid")?;
session::verify_session_with_recircuit( session::verify_session(&browser, &start_url)
&browser,
&start_url,
tor_for_launch.as_deref(),
tor_recircuit_max,
)
.await .await
.context("on_launch: verify_session")?; .context("on_launch: verify_session")?;
Ok(()) Ok(())
@@ -189,10 +165,8 @@ async fn spawn_crawler_daemon(
http: http.clone(), http: http.clone(),
rate: Arc::clone(&rate), rate: Arc::clone(&rate),
start_url: url.clone(), start_url: url.clone(),
manga_limit: cfg.manga_limit,
download_allowlist: cfg.download_allowlist.clone(), download_allowlist: cfg.download_allowlist.clone(),
max_image_bytes: cfg.max_image_bytes, max_image_bytes: cfg.max_image_bytes,
tor: tor.as_ref().map(Arc::clone),
}); });
m m
}); });
@@ -205,7 +179,6 @@ async fn spawn_crawler_daemon(
rate: Arc::clone(&rate), rate: Arc::clone(&rate),
download_allowlist: cfg.download_allowlist.clone(), download_allowlist: cfg.download_allowlist.clone(),
max_image_bytes: cfg.max_image_bytes, max_image_bytes: cfg.max_image_bytes,
tor: tor.as_ref().map(Arc::clone),
}); });
// Shared cancellation: daemon shutdown cancels the BrowserManager's // Shared cancellation: daemon shutdown cancels the BrowserManager's
@@ -257,10 +230,8 @@ struct RealMetadataPass {
http: reqwest::Client, http: reqwest::Client,
rate: Arc<HostRateLimiters>, rate: Arc<HostRateLimiters>,
start_url: String, start_url: String,
manga_limit: usize,
download_allowlist: DownloadAllowlist, download_allowlist: DownloadAllowlist,
max_image_bytes: usize, max_image_bytes: usize,
tor: Option<Arc<crate::crawler::tor::TorController>>,
} }
#[async_trait] #[async_trait]
@@ -273,11 +244,10 @@ impl MetadataPass for RealMetadataPass {
&self.http, &self.http,
&self.rate, &self.rate,
&self.start_url, &self.start_url,
self.manga_limit, 0,
false, false,
&self.download_allowlist, &self.download_allowlist,
self.max_image_bytes, self.max_image_bytes,
self.tor.as_deref(),
) )
.await; .await;
if let Err(e) = &result { if let Err(e) = &result {
@@ -297,7 +267,6 @@ struct RealChapterDispatcher {
rate: Arc<HostRateLimiters>, rate: Arc<HostRateLimiters>,
download_allowlist: DownloadAllowlist, download_allowlist: DownloadAllowlist,
max_image_bytes: usize, max_image_bytes: usize,
tor: Option<Arc<crate::crawler::tor::TorController>>,
} }
#[async_trait] #[async_trait]
@@ -329,7 +298,6 @@ impl ChapterDispatcher for RealChapterDispatcher {
false, false,
&self.download_allowlist, &self.download_allowlist,
self.max_image_bytes, self.max_image_bytes,
self.tor.as_deref(),
) )
.await; .await;
drop(lease); drop(lease);
@@ -357,62 +325,11 @@ pub fn router(state: AppState) -> Router {
let max_request_bytes = state.upload.max_request_bytes; let max_request_bytes = state.upload.max_request_bytes;
Router::new() Router::new()
.nest("/api/v1", crate::api::routes()) .nest("/api/v1", crate::api::routes())
.layer(middleware::from_fn_with_state(
state.clone(),
private_mode_guard,
))
.layer(DefaultBodyLimit::max(max_request_bytes)) .layer(DefaultBodyLimit::max(max_request_bytes))
.with_state(state) .with_state(state)
.layer(TraceLayer::new_for_http()) .layer(TraceLayer::new_for_http())
} }
/// Paths reachable anonymously even when `PRIVATE_MODE=true`. Login and
/// logout are needed for the auth flow itself; `/health` is reserved
/// for load-balancer probes; `/auth/config` lets the frontend decide
/// whether to render the login form or its anonymous alternatives;
/// `/auth/register` is exempted from the gate so the handler can
/// return its informative `registration_disabled` 403 (the same code
/// public-mode deployments use when `ALLOW_SELF_REGISTER=false`) —
/// the handler itself force-blocks the request body in private mode,
/// so no account ever gets created here. Everything else demands a
/// valid session cookie or bearer token.
fn is_public_in_private_mode(path: &str) -> bool {
matches!(
path,
"/api/v1/health"
| "/api/v1/auth/config"
| "/api/v1/auth/login"
| "/api/v1/auth/logout"
| "/api/v1/auth/register"
)
}
/// Site-wide auth gate for `PRIVATE_MODE=true`. With the flag off this
/// is a no-op pass-through, so public deployments take no extra DB
/// hit. With it on, the guard reuses [`CurrentUser`] — the same
/// session-cookie-then-bearer-token logic the per-handler extractor
/// uses — so the two paths can never drift.
async fn private_mode_guard(
State(state): State<AppState>,
req: Request,
next: Next,
) -> Result<Response, AppError> {
if !state.auth.private_mode {
return Ok(next.run(req).await);
}
if is_public_in_private_mode(req.uri().path()) {
return Ok(next.run(req).await);
}
let (mut parts, body) = req.into_parts();
match CurrentUser::from_request_parts(&mut parts, &state).await {
Ok(_) => {
let req = Request::from_parts(parts, body);
Ok(next.run(req).await)
}
Err(_) => Err(AppError::Unauthenticated),
}
}
pub(crate) fn cors_layer(allowed_origins: &[String]) -> CorsLayer { pub(crate) fn cors_layer(allowed_origins: &[String]) -> CorsLayer {
if allowed_origins.is_empty() { if allowed_origins.is_empty() {
// Same-origin only — no CORS headers emitted. // Same-origin only — no CORS headers emitted.

45
backend/src/bin/crawler.rs
View File

@@ -78,21 +78,6 @@ async fn main() -> anyhow::Result<()> {
let proxy_url = std::env::var("CRAWLER_PROXY") let proxy_url = std::env::var("CRAWLER_PROXY")
.ok() .ok()
.filter(|s| !s.trim().is_empty()); .filter(|s| !s.trim().is_empty());
let tor_control_url = std::env::var("CRAWLER_TOR_CONTROL_URL")
.ok()
.filter(|s| !s.trim().is_empty());
let tor_control_password = std::env::var("CRAWLER_TOR_CONTROL_PASSWORD")
.ok()
.filter(|s| !s.trim().is_empty());
let tor_control_cookie_path = std::env::var("CRAWLER_TOR_CONTROL_COOKIE_PATH")
.ok()
.filter(|s| !s.trim().is_empty())
.map(std::path::PathBuf::from);
let tor_recircuit_max_attempts: u32 = std::env::var("CRAWLER_TOR_RECIRCUIT_MAX_ATTEMPTS")
.ok()
.and_then(|s| s.parse().ok())
.unwrap_or(3)
.max(1);
let keep_browser_open = env_bool("CRAWLER_KEEP_BROWSER_OPEN", false); let keep_browser_open = env_bool("CRAWLER_KEEP_BROWSER_OPEN", false);
let db = PgPoolOptions::new() let db = PgPoolOptions::new()
@@ -127,8 +112,7 @@ async fn main() -> anyhow::Result<()> {
let mut options = LaunchOptions::from_env(); let mut options = LaunchOptions::from_env();
if let Some(proxy) = &proxy_url { if let Some(proxy) = &proxy_url {
let chromium_proxy = mangalord::crawler::url_utils::chromium_proxy_arg(proxy); options.extra_args.push(format!("--proxy-server={proxy}"));
options.extra_args.push(format!("--proxy-server={chromium_proxy}"));
} }
let keep_open = match (keep_browser_open, options.mode) { let keep_open = match (keep_browser_open, options.mode) {
(true, BrowserMode::Headed) => true, (true, BrowserMode::Headed) => true,
@@ -160,17 +144,6 @@ async fn main() -> anyhow::Result<()> {
"starting crawler" "starting crawler"
); );
let tor = mangalord::crawler::tor::TorController::from_parts(
tor_control_url.as_deref(),
tor_control_password.as_deref(),
tor_control_cookie_path.as_deref(),
)
.context("build TorController from CRAWLER_TOR_CONTROL_* env")?
.map(Arc::new);
if let Some(t) = &tor {
tracing::info!(?t, "TOR control configured");
}
// BrowserManager with idle_timeout = ZERO so the CLI keeps Chromium // BrowserManager with idle_timeout = ZERO so the CLI keeps Chromium
// alive for the entire run — same lifecycle as the old direct // alive for the entire run — same lifecycle as the old direct
// `browser::launch()` flow. on_launch re-injects PHPSESSID + runs the // `browser::launch()` flow. on_launch re-injects PHPSESSID + runs the
@@ -180,22 +153,15 @@ async fn main() -> anyhow::Result<()> {
let sid = sid.clone(); let sid = sid.clone();
let domain = domain.clone(); let domain = domain.clone();
let start_url_clone = start_url.clone(); let start_url_clone = start_url.clone();
let tor_for_launch = tor.as_ref().map(Arc::clone);
Arc::new(move |browser| { Arc::new(move |browser| {
let sid = sid.clone(); let sid = sid.clone();
let domain = domain.clone(); let domain = domain.clone();
let start_url = start_url_clone.clone(); let start_url = start_url_clone.clone();
let tor_for_launch = tor_for_launch.as_ref().map(Arc::clone);
Box::pin(async move { Box::pin(async move {
session::inject_phpsessid(&browser, &sid, &domain) session::inject_phpsessid(&browser, &sid, &domain)
.await .await
.context("inject_phpsessid")?; .context("inject_phpsessid")?;
session::verify_session_with_recircuit( session::verify_session(&browser, &start_url)
&browser,
&start_url,
tor_for_launch.as_deref(),
tor_recircuit_max_attempts,
)
.await .await
.context("verify_session")?; .context("verify_session")?;
Ok(()) Ok(())
@@ -221,7 +187,6 @@ async fn main() -> anyhow::Result<()> {
skip_chapter_content || !session_ready, skip_chapter_content || !session_ready,
chapter_workers, chapter_workers,
force_refetch_chapters, force_refetch_chapters,
tor.clone(),
) )
.await; .await;
@@ -251,7 +216,6 @@ async fn run(
skip_chapter_content: bool, skip_chapter_content: bool,
chapter_workers: usize, chapter_workers: usize,
force_refetch_chapters: bool, force_refetch_chapters: bool,
tor: Option<Arc<mangalord::crawler::tor::TorController>>,
) -> anyhow::Result<()> { ) -> anyhow::Result<()> {
let mut rate = HostRateLimiters::new(Duration::from_millis(rate_ms)); let mut rate = HostRateLimiters::new(Duration::from_millis(rate_ms));
if let Some(host) = cdn_host { if let Some(host) = cdn_host {
@@ -303,7 +267,6 @@ async fn run(
skip_chapters, skip_chapters,
allowlist.as_ref(), allowlist.as_ref(),
max_image_bytes, max_image_bytes,
tor.as_deref(),
) )
.await?; .await?;
tracing::info!(?stats, "metadata pass complete"); tracing::info!(?stats, "metadata pass complete");
@@ -320,7 +283,6 @@ async fn run(
force_refetch_chapters, force_refetch_chapters,
Arc::clone(&allowlist), Arc::clone(&allowlist),
max_image_bytes, max_image_bytes,
tor.clone(),
) )
.await?; .await?;
} }
@@ -346,7 +308,6 @@ async fn sync_bookmarked_chapter_content(
force_refetch: bool, force_refetch: bool,
allowlist: Arc<mangalord::crawler::safety::DownloadAllowlist>, allowlist: Arc<mangalord::crawler::safety::DownloadAllowlist>,
max_image_bytes: usize, max_image_bytes: usize,
tor: Option<Arc<mangalord::crawler::tor::TorController>>,
) -> anyhow::Result<()> { ) -> anyhow::Result<()> {
let pending: Vec<(Uuid, Uuid, String)> = sqlx::query_as( let pending: Vec<(Uuid, Uuid, String)> = sqlx::query_as(
r#" r#"
@@ -384,7 +345,6 @@ async fn sync_bookmarked_chapter_content(
let rate = Arc::clone(&rate); let rate = Arc::clone(&rate);
let manager = Arc::clone(&manager); let manager = Arc::clone(&manager);
let allowlist = Arc::clone(&allowlist); let allowlist = Arc::clone(&allowlist);
let tor = tor.clone();
let stats = &stats; let stats = &stats;
async move { async move {
if session_expired.load(std::sync::atomic::Ordering::Relaxed) { if session_expired.load(std::sync::atomic::Ordering::Relaxed) {
@@ -411,7 +371,6 @@ async fn sync_bookmarked_chapter_content(
force_refetch, force_refetch,
allowlist.as_ref(), allowlist.as_ref(),
max_image_bytes, max_image_bytes,
tor.as_deref(),
) )
.await; .await;
drop(lease); drop(lease);

107
backend/src/config.rs
View File

@@ -19,14 +19,6 @@ pub struct AuthConfig {
/// `POST /admin/users`. Defaults to `true` (open registration) /// `POST /admin/users`. Defaults to `true` (open registration)
/// for backward compatibility. /// for backward compatibility.
pub allow_self_register: bool, pub allow_self_register: bool,
/// When `true`, every API path except a small allowlist
/// (`/health`, `/auth/config`, `/auth/login`, `/auth/logout`)
/// requires a valid session cookie or bearer token — anonymous
/// reads are rejected with 401. Self-registration is also
/// force-disabled regardless of [`Self::allow_self_register`]
/// so a private instance is locked down with a single switch.
/// Defaults to `false` (current public behaviour).
pub private_mode: bool,
} }
impl Default for AuthConfig { impl Default for AuthConfig {
@@ -41,7 +33,6 @@ impl Default for AuthConfig {
// defaults. // defaults.
rate_limit: crate::auth::rate_limit::RateLimitConfig::default(), rate_limit: crate::auth::rate_limit::RateLimitConfig::default(),
allow_self_register: true, allow_self_register: true,
private_mode: false,
} }
} }
} }
@@ -106,20 +97,6 @@ pub struct CrawlerConfig {
pub cookie_domain: Option<String>, pub cookie_domain: Option<String>,
pub user_agent: Option<String>, pub user_agent: Option<String>,
pub proxy: Option<String>, pub proxy: Option<String>,
/// `tcp://host:port`, `host:port`, or bare `host` (default port
/// 9051). When `None`, TOR-recircuit-on-transient is disabled and
/// the crawler behaves identically to pre-TOR releases.
pub tor_control_url: Option<String>,
/// HashedControlPassword auth. Used only when
/// `tor_control_cookie_path` is `None`.
pub tor_control_password: Option<String>,
/// Cookie-file auth path (e.g.
/// `/var/lib/tor/control_auth_cookie`). Takes precedence over
/// password when both are set.
pub tor_control_cookie_path: Option<PathBuf>,
/// Maximum NEWNYM-and-retry cycles per recircuit-eligible failure.
/// Defaults to 3.
pub tor_recircuit_max_attempts: u32,
pub browser: LaunchOptions, pub browser: LaunchOptions,
/// Hosts the crawler is allowed to download images / covers from. /// Hosts the crawler is allowed to download images / covers from.
/// Always seeded with the host of `start_url` and (when set) the /// Always seeded with the host of `start_url` and (when set) the
@@ -128,10 +105,6 @@ pub struct CrawlerConfig {
pub download_allowlist: DownloadAllowlist, pub download_allowlist: DownloadAllowlist,
/// Hard upper bound on a single image download. Defaults to 32 MiB. /// Hard upper bound on a single image download. Defaults to 32 MiB.
pub max_image_bytes: usize, pub max_image_bytes: usize,
/// Max manga detail fetches per metadata pass. `0` means no cap
/// (full sweep up to the source's own bound). Sourced from
/// `CRAWLER_LIMIT`, mirroring the CLI binary.
pub manga_limit: usize,
} }
impl Default for CrawlerConfig { impl Default for CrawlerConfig {
@@ -151,14 +124,9 @@ impl Default for CrawlerConfig {
cookie_domain: None, cookie_domain: None,
user_agent: None, user_agent: None,
proxy: None, proxy: None,
tor_control_url: None,
tor_control_password: None,
tor_control_cookie_path: None,
tor_recircuit_max_attempts: 3,
browser: LaunchOptions::headless(), browser: LaunchOptions::headless(),
download_allowlist: DownloadAllowlist::new(), download_allowlist: DownloadAllowlist::new(),
max_image_bytes: DEFAULT_MAX_IMAGE_BYTES, max_image_bytes: DEFAULT_MAX_IMAGE_BYTES,
manga_limit: 0,
} }
} }
} }
@@ -190,7 +158,6 @@ impl Config {
) as u32, ) as u32,
}, },
allow_self_register: env_bool("ALLOW_SELF_REGISTER", true), allow_self_register: env_bool("ALLOW_SELF_REGISTER", true),
private_mode: env_bool("PRIVATE_MODE", false),
}, },
upload: UploadConfig { upload: UploadConfig {
max_request_bytes: env_usize("MAX_REQUEST_BYTES", 200 * 1024 * 1024), max_request_bytes: env_usize("MAX_REQUEST_BYTES", 200 * 1024 * 1024),
@@ -267,22 +234,9 @@ impl CrawlerConfig {
proxy: std::env::var("CRAWLER_PROXY") proxy: std::env::var("CRAWLER_PROXY")
.ok() .ok()
.filter(|s| !s.trim().is_empty()), .filter(|s| !s.trim().is_empty()),
tor_control_url: std::env::var("CRAWLER_TOR_CONTROL_URL")
.ok()
.filter(|s| !s.trim().is_empty()),
tor_control_password: std::env::var("CRAWLER_TOR_CONTROL_PASSWORD")
.ok()
.filter(|s| !s.trim().is_empty()),
tor_control_cookie_path: std::env::var("CRAWLER_TOR_CONTROL_COOKIE_PATH")
.ok()
.filter(|s| !s.trim().is_empty())
.map(PathBuf::from),
tor_recircuit_max_attempts: env_u64("CRAWLER_TOR_RECIRCUIT_MAX_ATTEMPTS", 3)
.max(1) as u32,
browser: LaunchOptions::from_env(), browser: LaunchOptions::from_env(),
download_allowlist, download_allowlist,
max_image_bytes: env_usize("CRAWLER_MAX_IMAGE_BYTES", DEFAULT_MAX_IMAGE_BYTES), max_image_bytes: env_usize("CRAWLER_MAX_IMAGE_BYTES", DEFAULT_MAX_IMAGE_BYTES),
manga_limit: env_usize("CRAWLER_LIMIT", 0),
}) })
} }
} }
@@ -356,64 +310,3 @@ fn env_usize(name: &str, default: usize) -> usize {
.unwrap_or(default) .unwrap_or(default)
} }
#[cfg(test)]
mod tests {
use super::*;
use std::sync::Mutex;
// Serialise env-touching tests so concurrent cargo-test threads don't
// race on the process-global env. Re-acquire on poison since a
// panicking test still leaves the env in a consistent state for us
// (we set/unset within each guard region).
static ENV_GUARD: Mutex<()> = Mutex::new(());
#[test]
fn crawler_limit_env_populates_manga_limit() {
let _g = ENV_GUARD.lock().unwrap_or_else(|p| p.into_inner());
std::env::set_var("CRAWLER_LIMIT", "96");
let cfg = CrawlerConfig::from_env().expect("from_env");
std::env::remove_var("CRAWLER_LIMIT");
assert_eq!(cfg.manga_limit, 96);
}
#[test]
fn crawler_limit_unset_defaults_to_zero() {
let _g = ENV_GUARD.lock().unwrap_or_else(|p| p.into_inner());
std::env::remove_var("CRAWLER_LIMIT");
let cfg = CrawlerConfig::from_env().expect("from_env");
assert_eq!(cfg.manga_limit, 0);
}
#[test]
fn private_mode_env_parses_true() {
let _g = ENV_GUARD.lock().unwrap_or_else(|p| p.into_inner());
std::env::set_var("PRIVATE_MODE", "true");
std::env::set_var("DATABASE_URL", "postgres://test");
let cfg = Config::from_env().expect("from_env");
std::env::remove_var("PRIVATE_MODE");
std::env::remove_var("DATABASE_URL");
assert!(cfg.auth.private_mode);
}
#[test]
fn private_mode_env_parses_false() {
let _g = ENV_GUARD.lock().unwrap_or_else(|p| p.into_inner());
std::env::set_var("PRIVATE_MODE", "false");
std::env::set_var("DATABASE_URL", "postgres://test");
let cfg = Config::from_env().expect("from_env");
std::env::remove_var("PRIVATE_MODE");
std::env::remove_var("DATABASE_URL");
assert!(!cfg.auth.private_mode);
}
#[test]
fn private_mode_defaults_to_false() {
let _g = ENV_GUARD.lock().unwrap_or_else(|p| p.into_inner());
std::env::remove_var("PRIVATE_MODE");
std::env::set_var("DATABASE_URL", "postgres://test");
let cfg = Config::from_env().expect("from_env");
std::env::remove_var("DATABASE_URL");
assert!(!cfg.auth.private_mode);
}
}

382
backend/src/crawler/content.rs
View File

@@ -73,119 +73,6 @@ pub enum SyncOutcome {
SessionExpired, SessionExpired,
} }
/// Per-chapter max fetch attempts when TOR is configured. `N = 3` means
/// up to 3 total page fetches with 2 NEWNYM signals between them. When
/// TOR is not configured the effective budget collapses to 1 (single
/// attempt, no retry, no recircuit — bit-for-bit pre-TOR behavior).
const CHAPTER_RECIRCUIT_MAX_ATTEMPTS: u32 = 3;
/// Outcome of [`fetch_chapter_html_with_recircuit`]. `Ok` carries the
/// final reader HTML; the other two map to `sync_chapter_content`'s
/// existing failure modes.
#[derive(Debug)]
enum ChapterFetchOutcome {
Ok(String),
/// `ChapterProbe::Unauthenticated` after exhausting recircuit
/// budget (or with budget=0). Caller returns
/// `SyncOutcome::SessionExpired`.
SessionExpired,
/// `ChapterProbe::Transient` after exhausting recircuit budget
/// (or with budget=0). Caller bails so the dispatcher does
/// exponential backoff.
PersistentTransient,
}
/// Single rate-limited Chromium navigation to the chapter URL,
/// returning the page HTML. Extracted from `sync_chapter_content` so
/// the recircuit loop can call it once per attempt.
async fn fetch_chapter_html_once(
browser: &chromiumoxide::Browser,
rate: &HostRateLimiters,
source_url: &str,
) -> anyhow::Result<String> {
rate.wait_for(source_url).await?;
let page = browser
.new_page(source_url)
.await
.with_context(|| format!("open chapter page {source_url}"))?;
crate::crawler::nav::wait_for_nav(&page)
.await
.context("wait for chapter nav")?;
// Best-effort wait for the reader marker — same partial-render
// race that bit the chapter-list parser can hit here. Timeout is
// not an error; the chapter probe + parser sentinels still catch
// real failures.
let _ = crate::crawler::nav::wait_for_selector(
&page,
"a#pic_container",
crate::crawler::nav::SELECTOR_TIMEOUT,
)
.await;
let html = page.content().await.context("read chapter html")?;
page.close().await.ok();
Ok(html)
}
/// Pure-over-IO loop: fetch + classify, up to `max_attempts` total
/// fetches. Between attempts, `recircuit` is invoked (a no-op when
/// TOR isn't configured). `max_attempts = 1` collapses to the
/// original single-shot behavior — `Unauthenticated` →
/// `SessionExpired`, `Transient` → `PersistentTransient` on the first
/// hit, no recircuit.
///
/// Semantics match [`crate::crawler::detect::retry_on_transient`] and
/// [`run_session_probe_loop`]: `N` is **total attempts including the
/// first**, so `N = 3` means 3 fetches and up to 2 NEWNYM calls.
/// `Unauthenticated` and `Transient` share the budget — the loop
/// doesn't distinguish, so a sequence like Transient → Unauth → Ok
/// counts as 3 attempts.
async fn fetch_chapter_html_with_recircuit<F, Fut, R, RFut>(
mut fetch: F,
mut recircuit: R,
max_attempts: u32,
source_url_for_msg: &str,
) -> anyhow::Result<ChapterFetchOutcome>
where
F: FnMut() -> Fut,
Fut: std::future::Future<Output = anyhow::Result<String>>,
R: FnMut() -> RFut,
RFut: std::future::Future<Output = ()>,
{
debug_assert!(max_attempts >= 1, "max_attempts must be at least 1");
let mut attempt = 0u32;
loop {
attempt += 1;
let html = fetch().await?;
match session::classify_chapter_probe(&html) {
ChapterProbe::Ok => return Ok(ChapterFetchOutcome::Ok(html)),
ChapterProbe::Unauthenticated => {
if attempt >= max_attempts {
return Ok(ChapterFetchOutcome::SessionExpired);
}
tracing::warn!(
attempt,
max = max_attempts,
url = source_url_for_msg,
"chapter probe Unauthenticated; signaling TOR NEWNYM and retrying"
);
recircuit().await;
}
ChapterProbe::Transient => {
if attempt >= max_attempts {
return Ok(ChapterFetchOutcome::PersistentTransient);
}
tracing::warn!(
attempt,
max = max_attempts,
url = source_url_for_msg,
"chapter probe Transient; signaling TOR NEWNYM and retrying"
);
recircuit().await;
}
}
}
}
/// Fetch all images for one chapter and persist them atomically. On /// Fetch all images for one chapter and persist them atomically. On
/// any error after the first storage put, the DB transaction rolls /// any error after the first storage put, the DB transaction rolls
/// back so the chapter stays at `page_count = 0` and is retried on the /// back so the chapter stays at `page_count = 0` and is retried on the
@@ -204,7 +91,6 @@ pub async fn sync_chapter_content(
force_refetch: bool, force_refetch: bool,
allowlist: &DownloadAllowlist, allowlist: &DownloadAllowlist,
max_image_bytes: usize, max_image_bytes: usize,
tor: Option<&crate::crawler::tor::TorController>,
) -> anyhow::Result<SyncOutcome> { ) -> anyhow::Result<SyncOutcome> {
// Skip if already fetched, unless caller explicitly forces. // Skip if already fetched, unless caller explicitly forces.
if !force_refetch { if !force_refetch {
@@ -219,37 +105,47 @@ pub async fn sync_chapter_content(
} }
} }
// Fetch + classify. With TOR configured, allow up to // Nav to chapter page (rate-limited per host).
// CHAPTER_RECIRCUIT_MAX_ATTEMPTS total page fetches with NEWNYM rate.wait_for(source_url).await?;
// between each. Without TOR, collapse to 1 attempt (no retry, no let page = browser
// recircuit) — matches the pre-TOR single-shot behavior bit-for-bit. .new_page(source_url)
let max_attempts = if tor.is_some() { CHAPTER_RECIRCUIT_MAX_ATTEMPTS } else { 1 }; .await
let html = match fetch_chapter_html_with_recircuit( .with_context(|| format!("open chapter page {source_url}"))?;
|| fetch_chapter_html_once(browser, rate, source_url), crate::crawler::nav::wait_for_nav(&page)
|| async { .await
if let Some(t) = tor { .context("wait for chapter nav")?;
if let Err(e) = t.new_identity().await { // Best-effort wait for the reader marker — same partial-render
tracing::warn!(error = %e, "TOR NEWNYM failed; continuing with same circuit"); // race that bit the chapter-list parser can hit here. Timeout is
} // not an error; the chapter probe + parser sentinels still catch
} // real failures.
}, let _ = crate::crawler::nav::wait_for_selector(
max_attempts, &page,
source_url, "a#pic_container",
crate::crawler::nav::SELECTOR_TIMEOUT,
) )
.await? .await;
{
ChapterFetchOutcome::Ok(html) => html, let html = page.content().await.context("read chapter html")?;
ChapterFetchOutcome::SessionExpired => return Ok(SyncOutcome::SessionExpired), page.close().await.ok();
ChapterFetchOutcome::PersistentTransient => {
// Three-way session classification: distinguishes a transient
// hiccup (broken-page body or logged-in-but-no-reader) from a
// genuine PHPSESSID expiry (no reader and no avatar widget). The
// earlier binary `#avatar_menu` check conflated both and froze
// every worker on a layout shift.
match session::classify_chapter_probe(&html) {
ChapterProbe::Unauthenticated => return Ok(SyncOutcome::SessionExpired),
ChapterProbe::Transient => {
// Surface as a typed Err so the dispatcher path runs // Surface as a typed Err so the dispatcher path runs
// ack_failed with exponential backoff (rather than the // ack_failed with exponential backoff (rather than the
// session-expired sticky flag). // session-expired sticky flag).
anyhow::bail!( anyhow::bail!(
"chapter page at {source_url} returned a transient response after \ "chapter page at {source_url} returned a transient response \
{max_attempts} attempt(s); will retry" (broken-page body or reader didn't render); will retry"
); );
} }
}; ChapterProbe::Ok => {}
}
let images = parse_chapter_pages(&html) let images = parse_chapter_pages(&html)
.with_context(|| format!("parse chapter pages at {source_url}"))?; .with_context(|| format!("parse chapter pages at {source_url}"))?;
@@ -408,214 +304,4 @@ mod tests {
let err = parse_chapter_pages(html).expect_err("expected Transient"); let err = parse_chapter_pages(html).expect_err("expected Transient");
assert!(err.is_transient(), "got non-transient: {err}"); assert!(err.is_transient(), "got non-transient: {err}");
} }
// --- fetch_chapter_html_with_recircuit -------------------------------
const OK_HTML: &str = r#"<html><body><a id="pic_container"><img id="page1" src="x"/></a></body></html>"#;
const UNAUTH_HTML: &str = r#"<html><body><header><div id="logo">x</div></header><main>please log in</main></body></html>"#;
const TRANSIENT_HTML: &str = "<html><body><p>we're sorry, the request file are not found.</p></body></html>";
#[tokio::test]
async fn recircuit_loop_ok_first_attempt() {
let mut recircuits = 0u32;
let mut fetches = 0u32;
let outcome = fetch_chapter_html_with_recircuit(
|| {
fetches += 1;
async { Ok(OK_HTML.to_string()) }
},
|| {
recircuits += 1;
async {}
},
3,
"https://example/c",
)
.await
.expect("ok");
assert!(matches!(outcome, ChapterFetchOutcome::Ok(_)));
assert_eq!(fetches, 1);
assert_eq!(recircuits, 0);
}
#[tokio::test]
async fn recircuit_loop_unauth_with_single_attempt_returns_session_expired() {
// max_attempts=1 = TOR disabled, fail-fast on first Unauthenticated.
let mut recircuits = 0u32;
let mut fetches = 0u32;
let outcome = fetch_chapter_html_with_recircuit(
|| {
fetches += 1;
async { Ok(UNAUTH_HTML.to_string()) }
},
|| {
recircuits += 1;
async {}
},
1,
"https://example/c",
)
.await
.expect("ok-result");
assert!(matches!(outcome, ChapterFetchOutcome::SessionExpired));
assert_eq!(fetches, 1);
assert_eq!(recircuits, 0, "no recircuit when budget is 1 (TOR disabled)");
}
#[tokio::test]
async fn recircuit_loop_unauth_then_ok_within_budget() {
// max_attempts=3 = up to 3 fetches with 2 recircuits between.
let mut recircuits = 0u32;
let mut fetch_n = 0u32;
let outcome = fetch_chapter_html_with_recircuit(
|| {
fetch_n += 1;
let n = fetch_n;
async move {
if n == 1 {
Ok(UNAUTH_HTML.to_string())
} else {
Ok(OK_HTML.to_string())
}
}
},
|| {
recircuits += 1;
async {}
},
3,
"https://example/c",
)
.await
.expect("ok");
assert!(matches!(outcome, ChapterFetchOutcome::Ok(_)));
assert_eq!(fetch_n, 2);
assert_eq!(recircuits, 1);
}
#[tokio::test]
async fn recircuit_loop_unauth_exhausts_budget_returns_session_expired() {
let mut recircuits = 0u32;
let mut fetch_n = 0u32;
let outcome = fetch_chapter_html_with_recircuit(
|| {
fetch_n += 1;
async { Ok(UNAUTH_HTML.to_string()) }
},
|| {
recircuits += 1;
async {}
},
3,
"https://example/c",
)
.await
.expect("ok-result");
assert!(matches!(outcome, ChapterFetchOutcome::SessionExpired));
assert_eq!(fetch_n, 3, "max_attempts=3 → 3 fetches total");
assert_eq!(recircuits, 2, "2 recircuits between 3 fetches");
}
#[tokio::test]
async fn recircuit_loop_transient_then_ok_within_budget() {
let mut recircuits = 0u32;
let mut fetch_n = 0u32;
let outcome = fetch_chapter_html_with_recircuit(
|| {
fetch_n += 1;
let n = fetch_n;
async move {
if n < 3 {
Ok(TRANSIENT_HTML.to_string())
} else {
Ok(OK_HTML.to_string())
}
}
},
|| {
recircuits += 1;
async {}
},
3,
"https://example/c",
)
.await
.expect("ok");
assert!(matches!(outcome, ChapterFetchOutcome::Ok(_)));
assert_eq!(fetch_n, 3);
assert_eq!(recircuits, 2);
}
#[tokio::test]
async fn recircuit_loop_transient_exhausts_budget_returns_persistent() {
let mut recircuits = 0u32;
let mut fetch_n = 0u32;
let outcome = fetch_chapter_html_with_recircuit(
|| {
fetch_n += 1;
async { Ok(TRANSIENT_HTML.to_string()) }
},
|| {
recircuits += 1;
async {}
},
3,
"https://example/c",
)
.await
.expect("ok-result");
assert!(matches!(outcome, ChapterFetchOutcome::PersistentTransient));
assert_eq!(fetch_n, 3, "max_attempts=3 → 3 fetches total");
assert_eq!(recircuits, 2, "2 recircuits between 3 fetches");
}
#[tokio::test]
async fn recircuit_loop_mixed_transient_then_unauth_then_ok_shares_budget() {
// Audit-prompted regression: outcomes share the attempt counter.
// Sequence: Transient (attempt 1) → Unauth (attempt 2) → Ok (3).
let mut recircuits = 0u32;
let mut fetch_n = 0u32;
let outcome = fetch_chapter_html_with_recircuit(
|| {
fetch_n += 1;
let n = fetch_n;
async move {
match n {
1 => Ok(TRANSIENT_HTML.to_string()),
2 => Ok(UNAUTH_HTML.to_string()),
_ => Ok(OK_HTML.to_string()),
}
}
},
|| {
recircuits += 1;
async {}
},
3,
"https://example/c",
)
.await
.expect("ok");
assert!(matches!(outcome, ChapterFetchOutcome::Ok(_)));
assert_eq!(fetch_n, 3);
assert_eq!(recircuits, 2);
}
#[tokio::test]
async fn recircuit_loop_propagates_fetch_errors() {
let mut fetch_n = 0u32;
let err = fetch_chapter_html_with_recircuit(
|| {
fetch_n += 1;
async { Err(anyhow::anyhow!("nav timeout")) }
},
|| async {},
3,
"https://example/c",
)
.await
.expect_err("fetch error bubbles");
assert_eq!(fetch_n, 1);
assert!(format!("{err:#}").contains("nav timeout"));
}
} }

114
backend/src/crawler/detect.rs
View File

@@ -80,36 +80,13 @@ pub fn has_logo_sentinel(doc: &scraper::Html) -> bool {
/// caller can fall back on the job system's retry/backoff once the /// caller can fall back on the job system's retry/backoff once the
/// inline budget is exhausted. /// inline budget is exhausted.
pub async fn retry_on_transient<F, Fut, T>( pub async fn retry_on_transient<F, Fut, T>(
op: F,
max_attempts: u32,
delay: Duration,
) -> Result<T, PageError>
where
F: FnMut() -> Fut,
Fut: Future<Output = Result<T, PageError>>,
{
retry_on_transient_with_hook(op, max_attempts, delay, || async {}).await
}
/// Like [`retry_on_transient`] but invokes `on_retry` between a
/// transient failure and the subsequent sleep+retry. The hook does
/// **not** fire on the first attempt, after a non-transient error, or
/// after the final attempt (no retry follows). Hook failures are not
/// propagated — return `()` from the future and log inside if needed.
///
/// Wire the TOR controller's `new_identity` here to rotate circuits
/// between page-fetch retries; see [`crate::crawler::tor`].
pub async fn retry_on_transient_with_hook<F, Fut, T, H, HFut>(
mut op: F, mut op: F,
max_attempts: u32, max_attempts: u32,
delay: Duration, delay: Duration,
mut on_retry: H,
) -> Result<T, PageError> ) -> Result<T, PageError>
where where
F: FnMut() -> Fut, F: FnMut() -> Fut,
Fut: Future<Output = Result<T, PageError>>, Fut: Future<Output = Result<T, PageError>>,
H: FnMut() -> HFut,
HFut: Future<Output = ()>,
{ {
debug_assert!(max_attempts >= 1, "max_attempts must be at least 1"); debug_assert!(max_attempts >= 1, "max_attempts must be at least 1");
let mut attempt = 0u32; let mut attempt = 0u32;
@@ -124,9 +101,8 @@ where
attempt, attempt,
max_attempts, max_attempts,
error = %e, error = %e,
"transient error; running on-retry hook and sleeping before retry" "transient error; sleeping before retry"
); );
on_retry().await;
tokio::time::sleep(delay).await; tokio::time::sleep(delay).await;
} }
} }
@@ -271,92 +247,4 @@ mod tests {
assert_eq!(result.unwrap(), 7); assert_eq!(result.unwrap(), 7);
assert_eq!(attempt, 1); assert_eq!(attempt, 1);
} }
#[tokio::test]
async fn hook_fires_once_between_transient_and_success() {
let mut attempt = 0u32;
let mut hook_calls = 0u32;
let result: Result<i32, PageError> = retry_on_transient_with_hook(
|| {
attempt += 1;
let n = attempt;
async move {
if n < 2 {
Err(PageError::transient("once"))
} else {
Ok(99)
}
}
},
5,
Duration::from_millis(0),
|| {
hook_calls += 1;
async {}
},
)
.await;
assert_eq!(result.unwrap(), 99);
assert_eq!(attempt, 2);
assert_eq!(hook_calls, 1, "hook fires exactly once between attempts");
}
#[tokio::test]
async fn hook_does_not_fire_when_first_attempt_succeeds() {
let mut hook_calls = 0u32;
let result: Result<i32, PageError> = retry_on_transient_with_hook(
|| async { Ok(1) },
5,
Duration::from_millis(0),
|| {
hook_calls += 1;
async {}
},
)
.await;
assert!(result.is_ok());
assert_eq!(hook_calls, 0);
}
#[tokio::test]
async fn hook_does_not_fire_after_non_transient_error() {
let mut hook_calls = 0u32;
let result: Result<i32, PageError> = retry_on_transient_with_hook(
|| async { Err(PageError::Other(anyhow::anyhow!("permanent"))) },
5,
Duration::from_millis(0),
|| {
hook_calls += 1;
async {}
},
)
.await;
assert!(result.is_err());
assert_eq!(hook_calls, 0, "non-transient must short-circuit before hook");
}
#[tokio::test]
async fn hook_does_not_fire_after_final_failed_attempt() {
// With max_attempts=3 and three persistent transients, the hook
// should run twice (between 1→2 and 2→3) — never a third time,
// because no retry follows attempt 3.
let mut attempt = 0u32;
let mut hook_calls = 0u32;
let result: Result<i32, PageError> = retry_on_transient_with_hook(
|| {
attempt += 1;
async { Err(PageError::transient("always")) }
},
3,
Duration::from_millis(0),
|| {
hook_calls += 1;
async {}
},
)
.await;
assert!(result.is_err());
assert_eq!(attempt, 3);
assert_eq!(hook_calls, 2, "hook fires N-1 times for N attempts that all fail transient");
}
} }

1
backend/src/crawler/mod.rs
View File

@@ -26,5 +26,4 @@ pub mod rate_limit;
pub mod safety; pub mod safety;
pub mod session; pub mod session;
pub mod source; pub mod source;
pub mod tor;
pub mod url_utils; pub mod url_utils;

2
backend/src/crawler/pipeline.rs
View File

@@ -103,7 +103,6 @@ pub async fn run_metadata_pass(
skip_chapters: bool, skip_chapters: bool,
allowlist: &DownloadAllowlist, allowlist: &DownloadAllowlist,
max_image_bytes: usize, max_image_bytes: usize,
tor: Option<&crate::crawler::tor::TorController>,
) -> anyhow::Result<MetadataStats> { ) -> anyhow::Result<MetadataStats> {
let lease = browser_manager let lease = browser_manager
.acquire() .acquire()
@@ -122,7 +121,6 @@ pub async fn run_metadata_pass(
let ctx = FetchContext { let ctx = FetchContext {
browser: browser_ref, browser: browser_ref,
rate, rate,
tor,
}; };
let source_id = source.id(); let source_id = source.id();

312
backend/src/crawler/session.rs
View File

@@ -162,124 +162,38 @@ const PROBE_RETRY_DELAY: Duration = Duration::from_secs(2);
/// limiter. The trade is worth it — failing here costs ~1s; failing 30 /// limiter. The trade is worth it — failing here costs ~1s; failing 30
/// minutes into a backfill costs 30 minutes. /// minutes into a backfill costs 30 minutes.
pub async fn verify_session(browser: &Browser, probe_url: &str) -> anyhow::Result<()> { pub async fn verify_session(browser: &Browser, probe_url: &str) -> anyhow::Result<()> {
verify_session_with_recircuit(browser, probe_url, None, 0).await let mut attempt = 0u32;
}
/// Like [`verify_session`] but, when `tor` is `Some`, signals
/// `SIGNAL NEWNYM` between retries on transient pages AND treats
/// `Unauthenticated` as recoverable (up to `tor_max_attempts` total
/// probes, calling NEWNYM between each).
///
/// `verify_session` is `verify_session_with_recircuit(..., None, _)`,
/// which collapses the `Unauthenticated` budget to 1 attempt — i.e.
/// fail-fast, exactly the pre-TOR behavior.
pub async fn verify_session_with_recircuit(
browser: &Browser,
probe_url: &str,
tor: Option<&crate::crawler::tor::TorController>,
tor_max_attempts: u32,
) -> anyhow::Result<()> {
let unauth_max_attempts = if tor.is_some() { tor_max_attempts.max(1) } else { 1 };
run_session_probe_loop(
|| fetch_probe_html(browser, probe_url),
|| async {
if let Some(t) = tor {
if let Err(e) = t.new_identity().await {
tracing::warn!(error = %e, "TOR NEWNYM failed; continuing with same circuit");
}
}
},
PROBE_MAX_ATTEMPTS,
unauth_max_attempts,
PROBE_RETRY_DELAY,
probe_url,
)
.await
}
/// Pure-over-IO loop body for the session probe. Generic over the
/// fetch and recircuit closures so it can be unit-tested without a
/// real browser or TOR daemon.
///
/// Both budgets count **total attempts**, including the first — so
/// `transient_max_attempts = 3` allows 3 fetches and 2 recircuits
/// between them, and `unauth_max_attempts = 1` means "fail-fast, no
/// retry". This matches [`crate::crawler::detect::retry_on_transient`]
/// and the content-path recircuit loop.
///
/// Outcomes:
/// - `SessionProbe::Ok` → return `Ok(())`.
/// - `SessionProbe::Unauthenticated` → recircuit + retry while
/// under the unauth budget. After the cap, bail with the
/// "PHPSESSID expired" diagnostic, mentioning the attempt count so
/// a TOR-misconfig diagnosis is easier.
/// - `SessionProbe::Transient` → same shape against the transient
/// budget; bails with "site down or rate-limiting" after the cap.
async fn run_session_probe_loop<F, Fut, R, RFut>(
mut fetch_html: F,
mut recircuit: R,
transient_max_attempts: u32,
unauth_max_attempts: u32,
retry_delay: Duration,
probe_url_for_msg: &str,
) -> anyhow::Result<()>
where
F: FnMut() -> Fut,
Fut: std::future::Future<Output = anyhow::Result<String>>,
R: FnMut() -> RFut,
RFut: std::future::Future<Output = ()>,
{
debug_assert!(transient_max_attempts >= 1);
debug_assert!(unauth_max_attempts >= 1);
let mut transient_attempts = 0u32;
let mut unauth_attempts = 0u32;
loop { loop {
let html = fetch_html().await?; attempt += 1;
let html = fetch_probe_html(browser, probe_url).await?;
match classify_probe(&html) { match classify_probe(&html) {
SessionProbe::Ok => { SessionProbe::Ok => {
tracing::info!( tracing::info!(attempt, "session probe ok — #logo + #avatar_menu present");
transient_attempts,
unauth_attempts,
"session probe ok — #logo + #avatar_menu present"
);
return Ok(()); return Ok(());
} }
SessionProbe::Unauthenticated => { SessionProbe::Unauthenticated => {
unauth_attempts += 1;
if unauth_attempts >= unauth_max_attempts {
return Err(anyhow!( return Err(anyhow!(
"session probe failed — #avatar_menu not present at {probe_url_for_msg} \ "session probe failed — #avatar_menu not present at {probe_url} \
after {unauth_attempts} attempt(s); PHPSESSID is missing, \ (page rendered the normal layout); PHPSESSID is missing, expired, \
expired, or revoked. Refresh CRAWLER_PHPSESSID and re-run." or revoked. Refresh CRAWLER_PHPSESSID and re-run."
)); ));
} }
SessionProbe::Transient if attempt < PROBE_MAX_ATTEMPTS => {
tracing::warn!( tracing::warn!(
attempt = unauth_attempts, attempt,
max_attempts = unauth_max_attempts, max_attempts = PROBE_MAX_ATTEMPTS,
"session probe Unauthenticated despite PHPSESSID; signaling TOR \ "session probe got a transient page; retrying"
NEWNYM and retrying"
); );
recircuit().await; tokio::time::sleep(PROBE_RETRY_DELAY).await;
tokio::time::sleep(retry_delay).await;
} }
SessionProbe::Transient => { SessionProbe::Transient => {
transient_attempts += 1;
if transient_attempts >= transient_max_attempts {
return Err(anyhow!( return Err(anyhow!(
"session probe failed — probe page at {probe_url_for_msg} returned \ "session probe failed — probe page at {probe_url} returned a \
a broken-page response after {transient_max_attempts} attempts. \ broken-page response after {PROBE_MAX_ATTEMPTS} attempts. \
The site appears to be down or rate-limiting us; try again \ The site appears to be down or rate-limiting us; try again \
later before refreshing CRAWLER_PHPSESSID." later before refreshing CRAWLER_PHPSESSID."
)); ));
} }
tracing::warn!(
attempt = transient_attempts,
max_attempts = transient_max_attempts,
"session probe got a transient page; recircuit + retry"
);
recircuit().await;
tokio::time::sleep(retry_delay).await;
}
} }
} }
} }
@@ -422,204 +336,6 @@ mod tests {
assert_eq!(classify_chapter_probe(html), ChapterProbe::Ok); assert_eq!(classify_chapter_probe(html), ChapterProbe::Ok);
} }
// --- run_session_probe_loop -----------------------------------------
//
// These tests exercise the recircuit-aware loop without a real
// browser. The fetch and recircuit closures are mocked over Vecs of
// canned outcomes / counters.
const OK_HTML: &str = r#"<html><body><div id="logo"></div><div id="avatar_menu"></div></body></html>"#;
const UNAUTH_HTML: &str = r#"<html><body><div id="logo"></div></body></html>"#;
const TRANSIENT_HTML: &str = "<html><body><p>we're sorry, the request file are not found.</p></body></html>";
#[tokio::test]
async fn probe_loop_ok_on_first_attempt_does_not_recircuit() {
let mut recircuits = 0u32;
let mut fetched = 0u32;
run_session_probe_loop(
|| {
fetched += 1;
async { Ok(OK_HTML.to_string()) }
},
|| {
recircuits += 1;
async {}
},
3,
3,
Duration::from_millis(0),
"https://example/probe",
)
.await
.expect("ok on first attempt");
assert_eq!(fetched, 1);
assert_eq!(recircuits, 0);
}
#[tokio::test]
async fn probe_loop_unauth_then_ok_when_attempt_budget_available() {
// Budget = 3 total attempts. Unauth on call 1, ok on call 2.
let mut recircuits = 0u32;
let mut call = 0u32;
run_session_probe_loop(
|| {
call += 1;
let n = call;
async move {
if n == 1 {
Ok(UNAUTH_HTML.to_string())
} else {
Ok(OK_HTML.to_string())
}
}
},
|| {
recircuits += 1;
async {}
},
3,
3,
Duration::from_millis(0),
"https://example/probe",
)
.await
.expect("recovers after one recircuit");
assert_eq!(call, 2);
assert_eq!(recircuits, 1);
}
#[tokio::test]
async fn probe_loop_unauth_with_single_attempt_budget_fails_fast() {
// Budget = 1 total attempt = no retry (matches no-TOR behavior).
let mut recircuits = 0u32;
let mut call = 0u32;
let err = run_session_probe_loop(
|| {
call += 1;
async { Ok(UNAUTH_HTML.to_string()) }
},
|| {
recircuits += 1;
async {}
},
3,
1,
Duration::from_millis(0),
"https://example/probe",
)
.await
.expect_err("budget=1 → fail-fast");
assert_eq!(call, 1, "no retry when budget is 1");
assert_eq!(recircuits, 0);
let msg = format!("{err:#}");
assert!(msg.contains("Refresh CRAWLER_PHPSESSID"), "msg: {msg}");
assert!(msg.contains("after 1 attempt"), "expected attempt count in msg: {msg}");
}
#[tokio::test]
async fn probe_loop_unauth_after_exhausting_budget_emits_attempt_count() {
let mut recircuits = 0u32;
let mut call = 0u32;
let err = run_session_probe_loop(
|| {
call += 1;
async { Ok(UNAUTH_HTML.to_string()) }
},
|| {
recircuits += 1;
async {}
},
10, // transient budget irrelevant here
3, // 3 attempts total, 2 recircuits between
Duration::from_millis(0),
"https://example/probe",
)
.await
.expect_err("exhausts unauth budget");
assert_eq!(call, 3);
assert_eq!(recircuits, 2);
let msg = format!("{err:#}");
assert!(msg.contains("after 3 attempt"), "expected attempt count in error, got: {msg}");
}
#[tokio::test]
async fn probe_loop_transient_repeats_until_max_then_errors() {
let mut recircuits = 0u32;
let mut call = 0u32;
let err = run_session_probe_loop(
|| {
call += 1;
async { Ok(TRANSIENT_HTML.to_string()) }
},
|| {
recircuits += 1;
async {}
},
3,
1,
Duration::from_millis(0),
"https://example/probe",
)
.await
.expect_err("transient until max → fail");
assert_eq!(call, 3);
// Recircuit fires between attempts: 3 attempts → 2 recircuits.
assert_eq!(recircuits, 2);
let msg = format!("{err:#}");
assert!(msg.contains("broken-page response after 3 attempts"), "msg: {msg}");
}
#[tokio::test]
async fn probe_loop_transient_then_ok_returns_ok_after_one_recircuit() {
let mut recircuits = 0u32;
let mut call = 0u32;
run_session_probe_loop(
|| {
call += 1;
let n = call;
async move {
if n == 1 {
Ok(TRANSIENT_HTML.to_string())
} else {
Ok(OK_HTML.to_string())
}
}
},
|| {
recircuits += 1;
async {}
},
3,
1,
Duration::from_millis(0),
"https://example/probe",
)
.await
.expect("ok on second try");
assert_eq!(call, 2);
assert_eq!(recircuits, 1);
}
#[tokio::test]
async fn probe_loop_propagates_fetch_errors_immediately() {
let mut call = 0u32;
let err = run_session_probe_loop(
|| {
call += 1;
async { Err(anyhow!("nav timeout")) }
},
|| async {},
5,
5,
Duration::from_millis(0),
"https://example/probe",
)
.await
.expect_err("fetch error bubbles");
assert_eq!(call, 1);
assert!(format!("{err:#}").contains("nav timeout"));
}
#[test] #[test]
fn classify_probe_trusts_broken_body_over_stray_avatar_match() { fn classify_probe_trusts_broken_body_over_stray_avatar_match() {
// Defensive: if a broken-page body somehow contains an // Defensive: if a broken-page body somehow contains an

4
backend/src/crawler/source.rs
View File

@@ -67,10 +67,6 @@ pub struct SourceChapter {
pub struct FetchContext<'a> { pub struct FetchContext<'a> {
pub browser: &'a Browser, pub browser: &'a Browser,
pub rate: &'a crate::crawler::rate_limit::HostRateLimiters, pub rate: &'a crate::crawler::rate_limit::HostRateLimiters,
/// Optional TOR control-port client. When `Some`, retry helpers
/// signal `NEWNYM` between transient-page attempts so the next try
/// draws a fresh exit. `None` keeps pre-TOR behavior.
pub tor: Option<&'a crate::crawler::tor::TorController>,
} }
/// Lazy iterator over discovered manga refs. The caller drives the /// Lazy iterator over discovered manga refs. The caller drives the

142
backend/src/crawler/source/target.rs
View File

@@ -7,6 +7,7 @@
//! (`td:has(label:contains("Author:"))`) are implemented by walking //! (`td:has(label:contains("Author:"))`) are implemented by walking
//! the parsed tree. //! the parsed tree.
use std::collections::VecDeque;
use std::time::Duration; use std::time::Duration;
use anyhow::Context; use anyhow::Context;
@@ -18,7 +19,7 @@ use super::{
SourceMangaRef, SourceMangaRef,
}; };
use crate::crawler::detect::{ use crate::crawler::detect::{
has_logo_sentinel, is_broken_page_body, retry_on_transient_with_hook, PageError, has_logo_sentinel, is_broken_page_body, retry_on_transient, PageError,
}; };
use crate::crawler::nav::{wait_for_nav, wait_for_selector, NavError, SELECTOR_TIMEOUT}; use crate::crawler::nav::{wait_for_nav, wait_for_selector, NavError, SELECTOR_TIMEOUT};
@@ -74,24 +75,33 @@ impl Source for TargetSource {
&self, &self,
ctx: &FetchContext<'_>, ctx: &FetchContext<'_>,
) -> anyhow::Result<Box<dyn DiscoverWalk + Send>> { ) -> anyhow::Result<Box<dyn DiscoverWalk + Send>> {
// Probe page 1 up front (with transient retry) for two reasons: // Always visit page 1 first because that's the only way to
// a broken first page should abort cleanly rather than mid-walk, // discover `last_page`. Retry it on transient — a broken first
// and the HTML is handed straight to the first `next_batch` call // page would otherwise abort the whole walk before we've even
// so the walker doesn't re-fetch it. Page count is discovered // started.
// incrementally — see `TargetSourceWalker::next_batch`. let first_html = retry_on_transient(
let first_html = retry_on_transient_with_hook(
|| async { || async {
navigate(ctx, self.base_url.as_str(), LIST_PAGE_MARKER).await navigate(ctx, self.base_url.as_str(), LIST_PAGE_MARKER).await
}, },
PAGE_TRANSIENT_RETRY_ATTEMPTS, PAGE_TRANSIENT_RETRY_ATTEMPTS,
PAGE_TRANSIENT_RETRY_DELAY, PAGE_TRANSIENT_RETRY_DELAY,
|| async { recircuit_if_configured(ctx.tor).await },
) )
.await?; .await?;
let last_page = {
let doc = scraper::Html::parse_document(&first_html);
parse_last_page(&doc)
};
let order = build_page_order(last_page);
tracing::info!(
last_page = ?last_page,
page_count = order.len(),
"walking pagination"
);
Ok(Box::new(TargetSourceWalker { Ok(Box::new(TargetSourceWalker {
base_url: self.base_url.clone(), base_url: self.base_url.clone(),
next_page: 1, pages_remaining: order,
first_page_html: Some(first_html), first_page_html: Some(first_html),
})) }))
} }
@@ -137,19 +147,24 @@ impl Source for TargetSource {
} }
} }
/// Walker returned by [`TargetSource::discover`]. Walks pages `1..` in /// Build the queue of page numbers `TargetSource::discover` will walk.
/// order, terminating as soon as a page renders cleanly with zero entries /// The site orders by `update_date DESC`, so newest-first is just the
/// — that's the "we ran off the end of the index" signal. Page 1's HTML /// natural page order: `1..=last`. If `last_page` is unknown (source
/// is cached at construction time (discover already had to fetch it for /// surfaces no pagination) only page 1 is visited.
/// the transient probe) so the first batch doesn't re-fetch. fn build_page_order(last_page: Option<i32>) -> VecDeque<i32> {
/// match last_page {
/// A genuinely empty `Ok(vec![])` from `parse_manga_list_from` is what None => VecDeque::from([1]),
/// stops us: the parser's `#logo` sentinel converts unrendered pages Some(last) => (1..=last).collect(),
/// into transient errors before they reach this loop, so an empty }
/// parse result reliably means "no more entries." }
/// Walker returned by [`TargetSource::discover`]. Pops one source-index
/// page per `next_batch` call. Page 1's HTML is cached at construction
/// time (the discover call needed it to read `last_page` anyway) so the
/// batch covering page 1 doesn't re-fetch.
struct TargetSourceWalker { struct TargetSourceWalker {
base_url: String, base_url: String,
next_page: i32, pages_remaining: VecDeque<i32>,
first_page_html: Option<String>, first_page_html: Option<String>,
} }
@@ -159,18 +174,20 @@ impl DiscoverWalk for TargetSourceWalker {
&mut self, &mut self,
ctx: &FetchContext<'_>, ctx: &FetchContext<'_>,
) -> anyhow::Result<Option<Vec<SourceMangaRef>>> { ) -> anyhow::Result<Option<Vec<SourceMangaRef>>> {
let page_num = self.next_page; let Some(page_num) = self.pages_remaining.pop_front() else {
return Ok(None);
};
let page_refs = if page_num == 1 { let page_refs = if page_num == 1 {
// Reuse the cached page-1 HTML from the initial probe. Take // Reuse the cached page-1 HTML from the initial probe. Take
// it (rather than clone) so a future re-entry that somehow // it (rather than clone) so a malformed page-order queue
// revisits page 1 still falls back to a real fetch. // that re-visits page 1 still falls back to a real fetch.
match self.first_page_html.take() { match self.first_page_html.take() {
Some(html) => { Some(html) => {
let doc = scraper::Html::parse_document(&html); let doc = scraper::Html::parse_document(&html);
parse_manga_list_from(&doc)? parse_manga_list_from(&doc)?
} }
None => { None => {
retry_on_transient_with_hook( retry_on_transient(
|| async { || async {
let html = navigate( let html = navigate(
ctx, ctx,
@@ -183,13 +200,12 @@ impl DiscoverWalk for TargetSourceWalker {
}, },
PAGE_TRANSIENT_RETRY_ATTEMPTS, PAGE_TRANSIENT_RETRY_ATTEMPTS,
PAGE_TRANSIENT_RETRY_DELAY, PAGE_TRANSIENT_RETRY_DELAY,
|| async { recircuit_if_configured(ctx.tor).await },
) )
.await? .await?
} }
} }
} else { } else {
retry_on_transient_with_hook( retry_on_transient(
|| async { || async {
let url = page_url(&self.base_url, page_num); let url = page_url(&self.base_url, page_num);
let html = navigate(ctx, &url, LIST_PAGE_MARKER).await?; let html = navigate(ctx, &url, LIST_PAGE_MARKER).await?;
@@ -198,15 +214,10 @@ impl DiscoverWalk for TargetSourceWalker {
}, },
PAGE_TRANSIENT_RETRY_ATTEMPTS, PAGE_TRANSIENT_RETRY_ATTEMPTS,
PAGE_TRANSIENT_RETRY_DELAY, PAGE_TRANSIENT_RETRY_DELAY,
|| async { recircuit_if_configured(ctx.tor).await },
) )
.await? .await?
}; };
tracing::info!(page_num, count = page_refs.len(), "page walked"); tracing::info!(page_num, count = page_refs.len(), "page walked");
if page_refs.is_empty() {
return Ok(None);
}
self.next_page += 1;
Ok(Some(page_refs)) Ok(Some(page_refs))
} }
} }
@@ -277,20 +288,20 @@ fn classify_navigate_html(html: String) -> Result<String, PageError> {
Ok(html) Ok(html)
} }
/// Hook for [`retry_on_transient_with_hook`]: when TOR is configured, fn parse_last_page(doc: &scraper::Html) -> Option<i32> {
/// signal `NEWNYM` so the next navigation draws a fresh exit. Errors // Pagination links carry their page number as text. Take the
/// from the controller are logged and swallowed — failing to recircuit // numeric maximum so we don't depend on a specific layout (Prev,
/// shouldn't take down the crawl, the next attempt just runs on the // Next, ellipses, etc. all get filtered out by .parse).
/// same circuit as before. let sel = scraper::Selector::parse("#left_side .pagination a").unwrap();
async fn recircuit_if_configured(tor: Option<&crate::crawler::tor::TorController>) { doc.select(&sel)
if let Some(t) = tor { .filter_map(|a| {
if let Err(e) = t.new_identity().await { collapse_whitespace(&a.text().collect::<String>())
tracing::warn!(error = %e, "TOR NEWNYM failed; retrying on same circuit"); .parse::<i32>()
} .ok()
} })
.max()
} }
/// Substitutes the first `/N/` path segment with the target page /// Substitutes the first `/N/` path segment with the target page
/// number. Source impls that paginate via a different URL shape can /// number. Source impls that paginate via a different URL shape can
/// override this — for the modeled site the segment is always present. /// override this — for the modeled site the segment is always present.
@@ -842,6 +853,29 @@ mod tests {
assert_eq!(parse_chapter_number("Special"), None); assert_eq!(parse_chapter_number("Special"), None);
} }
#[test]
fn parse_last_page_picks_highest_pagination_link() {
let html = r#"
<div id="left_side"><div class="pagination">
<a href="/list/1/">Prev</a>
<ol>
<li><a href="/list/1/">1</a></li>
<li><a href="/list/2/">2</a></li>
<li><a href="/list/47/">47</a></li>
<li><a href="/list/2/">Next</a></li>
</ol>
</div></div>
"#;
let doc = scraper::Html::parse_document(html);
assert_eq!(parse_last_page(&doc), Some(47));
}
#[test]
fn parse_last_page_none_when_no_pagination() {
let doc = scraper::Html::parse_document("<html></html>");
assert!(parse_last_page(&doc).is_none());
}
#[test] #[test]
fn page_url_substitutes_numeric_path_segment() { fn page_url_substitutes_numeric_path_segment() {
assert_eq!( assert_eq!(
@@ -990,6 +1024,28 @@ mod tests {
assert!(err.is_transient(), "got non-transient: {err}"); assert!(err.is_transient(), "got non-transient: {err}");
} }
#[test]
fn build_page_order_is_natural_one_to_last() {
// Newest-first is just the source's natural pagination order:
// (update_date DESC) lives at page 1, oldest at the last page.
let order = build_page_order(Some(3));
assert_eq!(Vec::from(order), vec![1, 2, 3]);
}
#[test]
fn build_page_order_falls_back_to_page_one_only_without_pagination() {
// Source surfaced no pagination control — visit page 1 alone
// and let the walk end after one batch.
let order = build_page_order(None);
assert_eq!(Vec::from(order), vec![1]);
}
#[test]
fn build_page_order_single_page_index_yields_one_entry() {
let order = build_page_order(Some(1));
assert_eq!(Vec::from(order), vec![1]);
}
#[test] #[test]
fn parse_chapter_list_returns_transient_when_table_missing() { fn parse_chapter_list_returns_transient_when_table_missing() {
// Partial render (post-load JS hadn't injected the table, layout // Partial render (post-load JS hadn't injected the table, layout

446
backend/src/crawler/tor.rs
View File

@@ -1,446 +0,0 @@
//! TOR control-port client for `SIGNAL NEWNYM` ("recircuit").
//!
//! The crawler can be proxied through TOR (`CRAWLER_PROXY=socks5h://tor:9050`)
//! to randomize the exit IP seen by the target site. When the target
//! returns a "bad page" (its broken-template body, missing layout
//! sentinel, or unauthenticated probe despite a valid PHPSESSID), it
//! is often the current exit being rate-limited or fingerprinted rather
//! than a real failure. Asking the local TOR daemon for a new identity
//! over its control port (port 9051 by default) makes subsequent
//! connections draw a fresh circuit; combined with `IsolateDestAddr`
//! in torrc this is usually enough to clear the failure.
//!
//! Scope is deliberately tiny — `AUTHENTICATE` + `SIGNAL NEWNYM` over
//! a one-shot TCP connection. No `torut` dep, no hidden-service
//! plumbing, no event streaming.
//!
//! **Caveat for in-flight connections:** Chromium reuses sockets, so a
//! `NEWNYM` only affects *new* connections (in TOR terms, new circuits).
//! That's fine for our retry path — the next navigation opens a fresh
//! connection. We do not try to forcibly close existing streams.
use std::path::{Path, PathBuf};
use std::time::Duration;
use anyhow::{anyhow, bail, Context};
use tokio::io::{AsyncBufReadExt, AsyncWriteExt, BufReader};
use tokio::net::TcpStream;
use tokio::time::timeout;
/// Default control-port (`tor --defaults-torrc` ships 9051).
const DEFAULT_CONTROL_PORT: u16 = 9051;
/// Connect timeout — generous enough for a slow compose start, short
/// enough that a misconfigured controller doesn't stall a crawl.
const CONNECT_TIMEOUT: Duration = Duration::from_secs(5);
/// Per-command read timeout. `SIGNAL NEWNYM` returns instantly on the
/// happy path; bound it so a half-broken control port can't hang us.
const READ_TIMEOUT: Duration = Duration::from_secs(5);
/// How the controller authenticates to the control port.
///
/// `Cookie` is preferred for compose deploys where the auth cookie file
/// is shared between the `tor` and `backend` containers via a named
/// volume. `Password` is the fallback when the cookie file isn't
/// reachable (different gid, no shared volume, etc.). `None` matches a
/// torrc with no `CookieAuthentication 1` and no `HashedControlPassword`
/// — useful for local experimentation, not for production.
///
/// `Debug` is implemented manually to redact the password (and the
/// cookie path, which is non-sensitive but uninteresting in logs).
/// Don't add `#[derive(Debug)]` — the controller is `?`-logged at
/// startup and a derive would expand the password into the trace.
#[derive(Clone)]
pub enum TorAuth {
None,
Password(String),
Cookie(PathBuf),
}
impl std::fmt::Debug for TorAuth {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
TorAuth::None => f.write_str("None"),
TorAuth::Password(_) => f.write_str("Password(<redacted>)"),
TorAuth::Cookie(_) => f.write_str("Cookie(<path>)"),
}
}
}
#[derive(Debug, Clone)]
pub struct TorController {
/// `host:port` string. Kept as a string (not a `SocketAddr`) so
/// docker-compose hostnames like `tor:9051` resolve at connect time.
addr: String,
auth: TorAuth,
}
impl TorController {
pub fn new(addr: impl Into<String>, auth: TorAuth) -> Self {
Self { addr: addr.into(), auth }
}
/// Build a controller from the env-config shape:
/// `url` (e.g. `tcp://tor:9051`, `127.0.0.1:9051`, or `tor`),
/// optional password, optional cookie path. Returns `Ok(None)` when
/// `url` is absent — that's the "TOR feature disabled" signal.
/// Cookie wins over password when both are set (rotates with TOR;
/// no secret to manage).
pub fn from_parts(
url: Option<&str>,
password: Option<&str>,
cookie_path: Option<&Path>,
) -> anyhow::Result<Option<Self>> {
let Some(url) = url else { return Ok(None) };
let addr = parse_control_url(url)?;
let auth = match (cookie_path, password) {
(Some(p), _) => TorAuth::Cookie(p.to_path_buf()),
(None, Some(p)) => TorAuth::Password(p.to_string()),
(None, None) => TorAuth::None,
};
Ok(Some(Self { addr, auth }))
}
/// Open the control port, `AUTHENTICATE`, `SIGNAL NEWNYM`, `QUIT`.
/// Each invocation is a fresh connection; the controller is cheap
/// to clone and stateless across calls.
pub async fn new_identity(&self) -> anyhow::Result<()> {
let stream = timeout(CONNECT_TIMEOUT, TcpStream::connect(&self.addr))
.await
.with_context(|| {
format!("timed out connecting to TOR control port {}", self.addr)
})?
.with_context(|| format!("connect to TOR control port {}", self.addr))?;
let (read, mut write) = stream.into_split();
let mut read = BufReader::new(read);
let auth_line = self.build_auth_line().await?;
write_line(&mut write, &auth_line).await?;
timeout(READ_TIMEOUT, expect_250(&mut read))
.await
.map_err(|_| anyhow!("TOR control AUTHENTICATE timed out"))?
.context("AUTHENTICATE")?;
write_line(&mut write, "SIGNAL NEWNYM").await?;
timeout(READ_TIMEOUT, expect_250(&mut read))
.await
.map_err(|_| anyhow!("TOR control SIGNAL NEWNYM timed out"))?
.context("SIGNAL NEWNYM")?;
// QUIT is courtesy; ignore errors — the daemon may close the
// socket before our QUIT lands and that's perfectly fine.
let _ = write_line(&mut write, "QUIT").await;
// Debug-level: a busy crawl can rotate circuits many times per
// minute, INFO is too chatty. Failures still log at WARN.
tracing::debug!(addr = %self.addr, "TOR NEWNYM signaled");
Ok(())
}
async fn build_auth_line(&self) -> anyhow::Result<String> {
match &self.auth {
TorAuth::None => Ok("AUTHENTICATE".to_string()),
TorAuth::Password(p) => Ok(format!("AUTHENTICATE \"{}\"", escape_quoted(p))),
TorAuth::Cookie(path) => {
let bytes = tokio::fs::read(path)
.await
.with_context(|| format!("read TOR cookie file {}", path.display()))?;
Ok(format!("AUTHENTICATE {}", hex_encode(&bytes)))
}
}
}
}
/// Parse `tcp://host:port`, `host:port`, or bare `host` into a
/// connect-time string. Default port is [`DEFAULT_CONTROL_PORT`].
fn parse_control_url(url: &str) -> anyhow::Result<String> {
let stripped = url.strip_prefix("tcp://").unwrap_or(url);
if stripped.is_empty() {
bail!("TOR control url is empty");
}
if stripped.contains(':') {
Ok(stripped.to_string())
} else {
Ok(format!("{stripped}:{DEFAULT_CONTROL_PORT}"))
}
}
fn escape_quoted(s: &str) -> String {
s.replace('\\', r"\\").replace('"', r#"\""#)
}
fn hex_encode(bytes: &[u8]) -> String {
let mut s = String::with_capacity(bytes.len() * 2);
for b in bytes {
s.push_str(&format!("{b:02x}"));
}
s
}
async fn write_line<W: tokio::io::AsyncWrite + Unpin>(
w: &mut W,
line: &str,
) -> anyhow::Result<()> {
w.write_all(line.as_bytes()).await?;
w.write_all(b"\r\n").await?;
w.flush().await?;
Ok(())
}
/// Drain a TOR control reply, accepting only status `250`. Handles
/// the protocol's three line forms: `XYZ ...` (single/end), `XYZ-...`
/// (continuation), `XYZ+...` (data block ended by a lone `.`). Our
/// commands only ever produce single-line `250 OK`, but we honor the
/// continuation forms so a future torrc that adds events / banners
/// doesn't confuse the parser.
async fn expect_250<R: AsyncBufReadExt + Unpin>(r: &mut R) -> anyhow::Result<()> {
loop {
let mut line = String::new();
let n = r.read_line(&mut line).await?;
if n == 0 {
bail!("TOR control port closed connection mid-reply");
}
let trimmed = line.trim_end_matches(['\r', '\n']);
if trimmed.len() < 4 {
bail!("malformed TOR control reply: {trimmed:?}");
}
let (code, rest) = trimmed.split_at(3);
if code != "250" {
bail!("TOR control replied {trimmed:?}");
}
let sep = rest.as_bytes()[0];
match sep {
b' ' => return Ok(()),
b'-' => continue,
b'+' => {
// Data block — read until a line consisting of only ".".
loop {
let mut data = String::new();
let n = r.read_line(&mut data).await?;
if n == 0 {
bail!("TOR control port closed mid-data-block");
}
if data.trim_end_matches(['\r', '\n']) == "." {
break;
}
}
}
_ => bail!("malformed TOR control reply separator: {trimmed:?}"),
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use std::sync::{Arc, Mutex};
use tokio::io::AsyncWriteExt;
use tokio::net::TcpListener;
/// Spawn a mock control port that responds to each \r\n-terminated
/// inbound line with the next entry from `replies`. Each reply has
/// its own `\r\n` appended. Records received lines into `recorder`.
/// After `replies.len()` exchanges the task drops the socket — this
/// matches the real TOR behavior for QUIT (close after acking).
async fn spawn_mock(
replies: Vec<&'static str>,
recorder: Arc<Mutex<Vec<String>>>,
) -> String {
let listener = TcpListener::bind("127.0.0.1:0").await.unwrap();
let addr = listener.local_addr().unwrap().to_string();
tokio::spawn(async move {
let (sock, _) = listener.accept().await.unwrap();
let (r, mut w) = sock.into_split();
let mut r = BufReader::new(r);
for reply in replies {
let mut line = String::new();
let n = r.read_line(&mut line).await.unwrap_or(0);
if n == 0 {
return;
}
recorder
.lock()
.unwrap()
.push(line.trim_end_matches(['\r', '\n']).to_string());
w.write_all(reply.as_bytes()).await.unwrap();
w.write_all(b"\r\n").await.unwrap();
w.flush().await.unwrap();
}
});
addr
}
#[tokio::test]
async fn password_auth_then_newnym_writes_expected_sequence() {
let recorder = Arc::new(Mutex::new(Vec::new()));
// Two replies: AUTHENTICATE then SIGNAL NEWNYM. QUIT is
// fire-and-forget; the mock dropping the socket is the
// expected real-world behavior.
let addr =
spawn_mock(vec!["250 OK", "250 OK"], Arc::clone(&recorder)).await;
let controller = TorController::new(addr, TorAuth::Password("secret".into()));
controller.new_identity().await.expect("new_identity ok");
let recorded = recorder.lock().unwrap().clone();
assert_eq!(recorded.first().map(String::as_str), Some("AUTHENTICATE \"secret\""));
assert_eq!(recorded.get(1).map(String::as_str), Some("SIGNAL NEWNYM"));
}
#[tokio::test]
async fn cookie_auth_hex_encodes_file_bytes() {
let tmp = tempfile::NamedTempFile::new().unwrap();
let cookie: Vec<u8> = (0u8..32).collect();
std::fs::write(tmp.path(), &cookie).unwrap();
let recorder = Arc::new(Mutex::new(Vec::new()));
let addr =
spawn_mock(vec!["250 OK", "250 OK"], Arc::clone(&recorder)).await;
let controller =
TorController::new(addr, TorAuth::Cookie(tmp.path().to_path_buf()));
controller.new_identity().await.expect("new_identity ok");
let recorded = recorder.lock().unwrap().clone();
let expected_hex: String = cookie.iter().map(|b| format!("{b:02x}")).collect();
assert_eq!(
recorded.first().map(String::as_str),
Some(format!("AUTHENTICATE {expected_hex}").as_str())
);
}
#[tokio::test]
async fn no_auth_sends_bare_authenticate() {
let recorder = Arc::new(Mutex::new(Vec::new()));
let addr =
spawn_mock(vec!["250 OK", "250 OK"], Arc::clone(&recorder)).await;
let controller = TorController::new(addr, TorAuth::None);
controller.new_identity().await.expect("new_identity ok");
let recorded = recorder.lock().unwrap().clone();
assert_eq!(recorded.first().map(String::as_str), Some("AUTHENTICATE"));
}
#[tokio::test]
async fn non_250_reply_returns_err_with_reply_text() {
let recorder = Arc::new(Mutex::new(Vec::new()));
let addr = spawn_mock(
vec!["515 Bad authentication"],
Arc::clone(&recorder),
)
.await;
let controller =
TorController::new(addr, TorAuth::Password("wrong".into()));
let err = controller.new_identity().await.expect_err("should fail");
let msg = format!("{err:#}");
assert!(msg.contains("515"), "expected 515 in error, got: {msg}");
}
#[tokio::test]
async fn closed_connection_mid_reply_is_an_error() {
// Listener accepts the AUTH line then drops without replying —
// this exercises the EOF-mid-reply path in expect_250 (rather
// than tor's own error replies which are covered elsewhere).
let listener = TcpListener::bind("127.0.0.1:0").await.unwrap();
let addr = listener.local_addr().unwrap().to_string();
tokio::spawn(async move {
if let Ok((sock, _)) = listener.accept().await {
let (r, _w) = sock.into_split();
let mut r = BufReader::new(r);
let mut line = String::new();
let _ = r.read_line(&mut line).await; // read AUTH, ignore
// Drop _w (and the read half via scope exit) so the
// peer sees an immediate EOF on the next read.
}
});
let controller = TorController::new(addr, TorAuth::None);
let err = controller.new_identity().await.expect_err("should fail");
let msg = format!("{err:#}");
assert!(
msg.contains("closed connection"),
"expected EOF-mid-reply error, got: {msg}"
);
}
#[tokio::test]
async fn multi_line_250_continuation_is_accepted() {
let recorder = Arc::new(Mutex::new(Vec::new()));
// AUTHENTICATE reply uses the `250-...\r\n250 OK\r\n` form.
// Single reply string contains the whole multi-line response.
let addr = spawn_mock(
vec!["250-banner=foo\r\n250 OK", "250 OK"],
Arc::clone(&recorder),
)
.await;
let controller = TorController::new(addr, TorAuth::None);
controller.new_identity().await.expect("new_identity ok");
}
#[test]
fn from_parts_returns_none_when_url_unset() {
let c = TorController::from_parts(None, None, None).unwrap();
assert!(c.is_none());
}
#[test]
fn from_parts_prefers_cookie_over_password() {
let c = TorController::from_parts(
Some("tor:9051"),
Some("pw"),
Some(Path::new("/var/lib/tor/control_auth_cookie")),
)
.unwrap()
.expect("controller built");
assert!(matches!(c.auth, TorAuth::Cookie(_)));
}
#[test]
fn from_parts_falls_back_to_password_without_cookie() {
let c = TorController::from_parts(Some("tor:9051"), Some("pw"), None)
.unwrap()
.expect("controller built");
assert!(matches!(c.auth, TorAuth::Password(p) if p == "pw"));
}
#[test]
fn parse_control_url_accepts_tcp_scheme() {
assert_eq!(parse_control_url("tcp://127.0.0.1:9051").unwrap(), "127.0.0.1:9051");
}
#[test]
fn parse_control_url_defaults_port_when_omitted() {
assert_eq!(parse_control_url("tor").unwrap(), "tor:9051");
}
#[test]
fn parse_control_url_passes_through_host_port() {
assert_eq!(parse_control_url("tor:9999").unwrap(), "tor:9999");
}
#[test]
fn parse_control_url_rejects_empty() {
assert!(parse_control_url("").is_err());
assert!(parse_control_url("tcp://").is_err());
}
#[test]
fn escape_quoted_handles_quotes_and_backslashes() {
assert_eq!(escape_quoted(r#"a"b\c"#), r#"a\"b\\c"#);
}
#[test]
fn debug_format_redacts_password_and_cookie_path() {
// Regression: app.rs / bin/crawler.rs log the controller at
// startup via `tracing::info!(?t, ...)`. A derived Debug on
// TorAuth would expand TorAuth::Password(p) and leak the
// plaintext into logs.
let c = TorController::new("tor:9051", TorAuth::Password("super-secret".into()));
let dbg = format!("{c:?}");
assert!(!dbg.contains("super-secret"), "password leaked: {dbg}");
assert!(dbg.contains("<redacted>"), "expected <redacted>, got: {dbg}");
let c = TorController::new(
"tor:9051",
TorAuth::Cookie("/var/lib/tor/control_auth_cookie".into()),
);
let dbg = format!("{c:?}");
assert!(!dbg.contains("control_auth_cookie"), "cookie path leaked: {dbg}");
}
#[test]
fn hex_encode_zero_pads_low_bytes() {
assert_eq!(hex_encode(&[0x00, 0x0f, 0xff]), "000fff");
}
}

50
backend/src/crawler/url_utils.rs
View File

@@ -91,26 +91,6 @@ pub fn registrable_domain(url: &str) -> Option<String> {
Some(format!(".{}", registrable.join("."))) Some(format!(".{}", registrable.join(".")))
} }
/// Normalise a SOCKS proxy URL for Chromium's `--proxy-server=` flag.
///
/// reqwest accepts both `socks5://` (resolve locally) and
/// `socks5h://` (resolve via the SOCKS server — important when the
/// proxy is TOR and we don't want the host's resolver to see the
/// target hostname). Chromium does **not** know the `socks5h` scheme
/// and refuses navigations with `ERR_NO_SUPPORTED_PROXIES`. It
/// already sends destination hostnames over SOCKS5 by default
/// regardless, so stripping the `h` is a pure scheme rename — the
/// remote-DNS behaviour is preserved.
///
/// Non-SOCKS schemes pass through unchanged.
pub fn chromium_proxy_arg(proxy: &str) -> String {
if let Some(rest) = proxy.strip_prefix("socks5h://") {
format!("socks5://{rest}")
} else {
proxy.to_string()
}
}
#[cfg(test)] #[cfg(test)]
mod tests { mod tests {
use super::*; use super::*;
@@ -211,34 +191,4 @@ mod tests {
Some("[2001:db8::1]") Some("[2001:db8::1]")
); );
} }
#[test]
fn chromium_proxy_arg_strips_socks5h_to_socks5() {
// Regression: passing socks5h:// to Chromium yields
// ERR_NO_SUPPORTED_PROXIES at navigation time.
assert_eq!(
chromium_proxy_arg("socks5h://127.0.0.1:9050"),
"socks5://127.0.0.1:9050"
);
assert_eq!(
chromium_proxy_arg("socks5h://tor:9050"),
"socks5://tor:9050"
);
}
#[test]
fn chromium_proxy_arg_passes_socks5_unchanged() {
assert_eq!(
chromium_proxy_arg("socks5://127.0.0.1:9050"),
"socks5://127.0.0.1:9050"
);
}
#[test]
fn chromium_proxy_arg_passes_non_socks_unchanged() {
assert_eq!(
chromium_proxy_arg("http://proxy.example:8080"),
"http://proxy.example:8080"
);
}
} }

189
backend/tests/api_private_mode.rs
View File

@@ -1,189 +0,0 @@
//! Site-wide auth gate (`PRIVATE_MODE=true`).
//!
//! With private mode on, every API path except a small allowlist
//! (`/health`, `/auth/config`, `/auth/login`, `/auth/logout`) requires
//! a valid session cookie or bearer token, and `/auth/register` is
//! force-blocked regardless of `ALLOW_SELF_REGISTER`. With private mode
//! off (the default), nothing changes — the `public_mode_*` test
//! pins that regression guard.
mod common;
use serde_json::json;
use sqlx::PgPool;
use tower::ServiceExt;
use axum::http::StatusCode;
#[sqlx::test(migrations = "./migrations")]
async fn private_mode_blocks_anonymous_manga_list(pool: PgPool) {
let h = common::harness_with_private_mode(pool);
let resp = h.app.oneshot(common::get("/api/v1/mangas")).await.unwrap();
assert_eq!(resp.status(), StatusCode::UNAUTHORIZED);
}
#[sqlx::test(migrations = "./migrations")]
async fn private_mode_blocks_anonymous_files(pool: PgPool) {
let h = common::harness_with_private_mode(pool);
// The path doesn't have to exist — the guard runs before routing,
// so the response is 401 (not 404). That's the property the test
// is pinning: nothing leaks via crafted URLs.
let resp = h
.app
.oneshot(common::get("/api/v1/files/anything.png"))
.await
.unwrap();
assert_eq!(resp.status(), StatusCode::UNAUTHORIZED);
}
#[sqlx::test(migrations = "./migrations")]
async fn private_mode_allows_session_cookie_read(pool: PgPool) {
// Register through a non-private harness sharing the same DB pool
// so the session row exists. Then exercise the gate using a fresh
// private-mode harness against the same DB.
let public = common::harness(pool.clone());
let (_, cookie) = common::register_user(&public.app).await;
let private = common::harness_with_private_mode(pool);
let resp = private
.app
.oneshot(common::get_with_cookie("/api/v1/mangas", &cookie))
.await
.unwrap();
assert_eq!(resp.status(), StatusCode::OK);
}
#[sqlx::test(migrations = "./migrations")]
async fn private_mode_allows_bearer_token_read(pool: PgPool) {
let public = common::harness(pool.clone());
let (_, cookie) = common::register_user(&public.app).await;
let resp = public
.app
.clone()
.oneshot(common::post_json_with_cookie(
"/api/v1/auth/tokens",
json!({ "name": "private-mode-bot" }),
&cookie,
))
.await
.unwrap();
assert_eq!(resp.status(), StatusCode::CREATED);
let body = common::body_json(resp).await;
let bearer = body["bearer"].as_str().unwrap().to_string();
let private = common::harness_with_private_mode(pool);
let resp = private
.app
.oneshot(common::get_with_bearer("/api/v1/mangas", &bearer))
.await
.unwrap();
assert_eq!(resp.status(), StatusCode::OK);
}
#[sqlx::test(migrations = "./migrations")]
async fn private_mode_allows_login_endpoint_anonymous(pool: PgPool) {
// Seed a user via the public harness so login has credentials to
// verify against.
let public = common::harness(pool.clone());
let _ = public
.app
.clone()
.oneshot(common::post_json(
"/api/v1/auth/register",
json!({ "username": "alice", "password": "hunter2hunter2" }),
))
.await
.unwrap();
let private = common::harness_with_private_mode(pool);
let resp = private
.app
.oneshot(common::post_json(
"/api/v1/auth/login",
json!({ "username": "alice", "password": "hunter2hunter2" }),
))
.await
.unwrap();
// Reaches the login handler and succeeds — *not* 401 from the
// gate. That's the property we're pinning.
assert_eq!(resp.status(), StatusCode::OK);
}
#[sqlx::test(migrations = "./migrations")]
async fn private_mode_allows_health_and_config_anonymous(pool: PgPool) {
let h = common::harness_with_private_mode(pool);
let r = h
.app
.clone()
.oneshot(common::get("/api/v1/health"))
.await
.unwrap();
assert_eq!(r.status(), StatusCode::OK);
let r = h
.app
.oneshot(common::get("/api/v1/auth/config"))
.await
.unwrap();
assert_eq!(r.status(), StatusCode::OK);
}
#[sqlx::test(migrations = "./migrations")]
async fn private_mode_blocks_register_even_when_self_register_enabled(pool: PgPool) {
// harness_with_private_mode keeps `allow_self_register=true` (the
// default) — private mode is supposed to force-block register
// regardless. That's what this test pins.
let h = common::harness_with_private_mode(pool);
let resp = h
.app
.oneshot(common::post_json(
"/api/v1/auth/register",
json!({ "username": "alice", "password": "hunter2hunter2" }),
))
.await
.unwrap();
assert_eq!(resp.status(), StatusCode::FORBIDDEN);
let body = common::body_json(resp).await;
assert_eq!(body["error"]["code"], "forbidden");
}
#[sqlx::test(migrations = "./migrations")]
async fn auth_config_reports_private_mode_and_effective_self_register(pool: PgPool) {
let h = common::harness_with_private_mode(pool);
let resp = h
.app
.oneshot(common::get("/api/v1/auth/config"))
.await
.unwrap();
assert_eq!(resp.status(), StatusCode::OK);
let body = common::body_json(resp).await;
assert_eq!(body["private_mode"], true);
// Effective value: `allow_self_register && !private_mode` is false
// here even though the raw `allow_self_register` is true.
assert_eq!(body["self_register_enabled"], false);
}
#[sqlx::test(migrations = "./migrations")]
async fn public_mode_does_not_gate_anonymous_reads(pool: PgPool) {
// Regression guard: with private_mode off (the default), the gate
// must be a no-op so existing public deployments stay public.
let h = common::harness(pool);
let resp = h.app.oneshot(common::get("/api/v1/mangas")).await.unwrap();
assert_eq!(resp.status(), StatusCode::OK);
}
#[sqlx::test(migrations = "./migrations")]
async fn public_mode_reports_private_mode_false(pool: PgPool) {
let h = common::harness(pool);
let resp = h
.app
.oneshot(common::get("/api/v1/auth/config"))
.await
.unwrap();
assert_eq!(resp.status(), StatusCode::OK);
let body = common::body_json(resp).await;
assert_eq!(body["private_mode"], false);
assert_eq!(body["self_register_enabled"], true);
}

15
backend/tests/common/mod.rs
View File

@@ -92,21 +92,6 @@ pub fn harness_with_self_register_disabled(pool: PgPool) -> Harness {
harness_with_auth_config(pool, storage, storage_dir, auth) harness_with_auth_config(pool, storage, storage_dir, auth)
} }
/// Like [`harness`] but flips `PRIVATE_MODE` on so the site-wide auth
/// gate is exercised. `allow_self_register` stays at its default `true`
/// to verify that private mode force-disables self-registration on top
/// of whatever `ALLOW_SELF_REGISTER` says.
pub fn harness_with_private_mode(pool: PgPool) -> Harness {
let storage_dir = tempfile::tempdir().expect("tempdir");
let storage = Arc::new(LocalStorage::new(storage_dir.path()));
let auth = AuthConfig {
cookie_secure: false,
private_mode: true,
..AuthConfig::default()
};
harness_with_auth_config(pool, storage, storage_dir, auth)
}
/// Like [`harness`] but configures a tight auth rate limit. Used by /// Like [`harness`] but configures a tight auth rate limit. Used by
/// the brute-force-rate-limiting test. /// the brute-force-rate-limiting test.
pub fn harness_with_auth_rate_limit( pub fn harness_with_auth_rate_limit(

23
docker-compose.dev.yml
View File

@@ -17,28 +17,5 @@ services:
timeout: 5s timeout: 5s
retries: 10 retries: 10
# Optional: TOR daemon for crawler dev. Ports bind to 127.0.0.1 only
# — never the LAN — so a native `cargo run` on the host can reach
# 127.0.0.1:9050 / 9051. Mirrors the prod tor service (see
# docker-compose.yml), just with host-loopback ports and a default
# password baked in for friction-free dev.
tor:
image: dockurr/tor:latest
entrypoint: ["/bin/sh", "/usr/local/bin/mangalord-entrypoint.sh"]
environment:
PASSWORD: ${TOR_CONTROL_PASSWORD:-dev-tor-password}
volumes:
- ./tor/torrc:/etc/tor/torrc:ro
- ./tor/entrypoint.sh:/usr/local/bin/mangalord-entrypoint.sh:ro
ports:
- "127.0.0.1:9050:9050"
- "127.0.0.1:9051:9051"
healthcheck:
test: ["CMD-SHELL", "nc -z 127.0.0.1 9050 && nc -z 127.0.0.1 9051"]
interval: 5s
timeout: 5s
retries: 20
start_period: 30s
volumes: volumes:
mangalord-postgres-dev: mangalord-postgres-dev:

47
docker-compose.yml
View File

@@ -19,48 +19,11 @@ services:
timeout: 5s timeout: 5s
retries: 10 retries: 10
tor:
# SOCKS5 proxy for the crawler, plus a control port so the backend
# can signal NEWNYM on bad pages. See tor/torrc for the daemon
# config; both ports are only `expose`d (compose-internal), never
# bound on the host.
#
# We bypass dockurr/tor's stock entrypoint because it binds the
# control port to localhost (unreachable from the backend
# container) and skips its own HashedControlPassword injection
# when the user's torrc declares a ControlPort. Our wrapper
# (tor/entrypoint.sh) generates the hash from $PASSWORD and execs
# tor with our torrc. Backend authenticates with the same plain
# string via CRAWLER_TOR_CONTROL_PASSWORD.
image: dockurr/tor:latest
entrypoint: ["/bin/sh", "/usr/local/bin/mangalord-entrypoint.sh"]
environment:
PASSWORD: ${TOR_CONTROL_PASSWORD:?TOR_CONTROL_PASSWORD must be set in .env}
volumes:
- ./tor/torrc:/etc/tor/torrc:ro
- ./tor/entrypoint.sh:/usr/local/bin/mangalord-entrypoint.sh:ro
expose:
- "9050"
- "9051"
# Wait for both control + SOCKS ports to listen before downstream
# services start. dockurr/tor's main process spawns before tor
# itself is bound, so `service_started` alone races the first
# NEWNYM call.
healthcheck:
test: ["CMD-SHELL", "nc -z 127.0.0.1 9050 && nc -z 127.0.0.1 9051"]
interval: 5s
timeout: 5s
retries: 20
start_period: 30s
restart: unless-stopped
backend: backend:
build: ./backend build: ./backend
depends_on: depends_on:
postgres: postgres:
condition: service_healthy condition: service_healthy
tor:
condition: service_healthy
environment: environment:
DATABASE_URL: postgres://${POSTGRES_USER:-mangalord}:${POSTGRES_PASSWORD:?POSTGRES_PASSWORD must be set in .env}@postgres:5432/${POSTGRES_DB:-mangalord} DATABASE_URL: postgres://${POSTGRES_USER:-mangalord}:${POSTGRES_PASSWORD:?POSTGRES_PASSWORD must be set in .env}@postgres:5432/${POSTGRES_DB:-mangalord}
BIND_ADDRESS: 0.0.0.0:8080 BIND_ADDRESS: 0.0.0.0:8080
@@ -81,16 +44,6 @@ services:
# arm64 deployments. Pair with `--build-arg INSTALL_CHROMIUM=true` # arm64 deployments. Pair with `--build-arg INSTALL_CHROMIUM=true`
# so the image actually contains the binary. # so the image actually contains the binary.
CRAWLER_CHROMIUM_BINARY: ${CRAWLER_CHROMIUM_BINARY:-} CRAWLER_CHROMIUM_BINARY: ${CRAWLER_CHROMIUM_BINARY:-}
# TOR proxy + NEWNYM recircuit (see .env.example for details).
# Defaults assume the bundled `tor` service above; override
# CRAWLER_PROXY= and CRAWLER_TOR_CONTROL_URL= (both empty) in
# .env to disable. CRAWLER_TOR_CONTROL_PASSWORD MUST match the
# tor service's PASSWORD (both wired to the same TOR_CONTROL_PASSWORD
# .env var below).
CRAWLER_PROXY: ${CRAWLER_PROXY-socks5h://tor:9050}
CRAWLER_TOR_CONTROL_URL: ${CRAWLER_TOR_CONTROL_URL-tcp://tor:9051}
CRAWLER_TOR_CONTROL_PASSWORD: ${TOR_CONTROL_PASSWORD:?TOR_CONTROL_PASSWORD must be set in .env}
CRAWLER_TOR_RECIRCUIT_MAX_ATTEMPTS: ${CRAWLER_TOR_RECIRCUIT_MAX_ATTEMPTS:-3}
volumes: volumes:
- storage-data:/var/lib/mangalord/storage - storage-data:/var/lib/mangalord/storage
# No host port mapping in the default setup — the frontend proxies # No host port mapping in the default setup — the frontend proxies

101
frontend/e2e/private-mode.spec.ts
View File

@@ -1,101 +0,0 @@
import { test, expect, type Page } from '@playwright/test';
// Network-level mocks for the private-mode UX. The backend integration
// tests (api_private_mode.rs) cover the actual gate; here we only
// verify that the SvelteKit universal load redirects anonymous
// visitors to /login and then back to where they were going.
const userFixture = {
id: 'user-1',
username: 'alice',
created_at: '2026-01-01T00:00:00Z',
is_admin: false
};
const emptyPage = { items: [], page: { limit: 50, offset: 0, total: null } };
async function stubPrivateInstance(page: Page) {
let loggedIn = false;
// The flag that flips the gate on. Frontend reads it in
// `+layout.ts` to decide whether to redirect.
await page.route('**/api/v1/auth/config', async (route) => {
await route.fulfill({
status: 200,
contentType: 'application/json',
body: JSON.stringify({
self_register_enabled: false,
private_mode: true
})
});
});
await page.route('**/api/v1/auth/me', async (route) => {
if (loggedIn) {
await route.fulfill({
status: 200,
contentType: 'application/json',
body: JSON.stringify({ user: userFixture })
});
} else {
await route.fulfill({
status: 401,
contentType: 'application/json',
body: JSON.stringify({
error: { code: 'unauthenticated', message: 'unauthenticated' }
})
});
}
});
await page.route('**/api/v1/auth/login', async (route) => {
loggedIn = true;
await route.fulfill({
status: 200,
contentType: 'application/json',
body: JSON.stringify({ user: userFixture })
});
});
// The real backend would 401 these too in private mode; we stub
// success so the post-login navigation can render the home page
// without an additional redirect cycle.
await page.route('**/api/v1/mangas*', async (route) => {
await route.fulfill({
status: 200,
contentType: 'application/json',
body: JSON.stringify(emptyPage)
});
});
}
test('private mode: anonymous visit to / redirects to /login?next=%2F', async ({ page }) => {
await stubPrivateInstance(page);
await page.goto('/');
await expect(page).toHaveURL(/\/login\?next=%2F$/);
await expect(page.getByTestId('login-username')).toBeVisible();
});
test('private mode: register link is hidden', async ({ page }) => {
await stubPrivateInstance(page);
await page.goto('/login');
await expect(page.getByTestId('nav-login')).toBeVisible();
// self_register_enabled is the effective value (false in private
// mode regardless of ALLOW_SELF_REGISTER), so the navbar must
// never render the register affordance here.
await expect(page.getByTestId('nav-register')).toHaveCount(0);
});
test('private mode: after login the user lands back on the requested page', async ({ page }) => {
await stubPrivateInstance(page);
// Visit a deep link → bounced to /login with next= preserving it.
await page.goto('/');
await expect(page).toHaveURL(/\/login\?next=%2F$/);
await page.getByTestId('login-username').fill('alice');
await page.getByTestId('login-password').fill('hunter2hunter2');
await page.getByTestId('login-submit').click();
// Authenticated → can now reach the home page without bouncing.
await expect(page.getByTestId('session-user')).toContainText('alice');
});

2
frontend/package.json
View File

@@ -1,6 +1,6 @@
{ {
"name": "mangalord-frontend", "name": "mangalord-frontend",
"version": "0.48.0", "version": "0.45.0",
"private": true, "private": true,
"type": "module", "type": "module",
"scripts": { "scripts": {

6
frontend/src/lib/api/auth.ts
View File

@@ -102,14 +102,10 @@ export async function deleteToken(id: string): Promise<void> {
} }
export type AuthConfig = { export type AuthConfig = {
/** Effective value (`allow_self_register && !private_mode`). /** When false, /v1/auth/register returns 403 and the UI should
* When false, /v1/auth/register returns 403 and the UI should
* hide its register affordance. Admins can still mint accounts * hide its register affordance. Admins can still mint accounts
* via POST /v1/admin/users. */ * via POST /v1/admin/users. */
self_register_enabled: boolean; self_register_enabled: boolean;
/** When true, every read endpoint requires auth and anonymous
* visitors are redirected to `/login` (see `+layout.ts`). */
private_mode: boolean;
}; };
/** Public — no auth, no cookie required. */ /** Public — no auth, no cookie required. */

12
frontend/src/lib/auth-config.svelte.ts
View File

@@ -16,7 +16,6 @@ import { getAuthConfig } from './api/auth';
class AuthConfigStore { class AuthConfigStore {
self_register_enabled = $state(true); self_register_enabled = $state(true);
private_mode = $state(false);
loaded = $state(false); loaded = $state(false);
private loading = false; private loading = false;
@@ -26,7 +25,6 @@ class AuthConfigStore {
try { try {
const cfg = await getAuthConfig(); const cfg = await getAuthConfig();
this.self_register_enabled = cfg.self_register_enabled; this.self_register_enabled = cfg.self_register_enabled;
this.private_mode = cfg.private_mode;
this.loaded = true; this.loaded = true;
} catch { } catch {
// Keep optimistic default; next page mount will retry. // Keep optimistic default; next page mount will retry.
@@ -34,16 +32,6 @@ class AuthConfigStore {
this.loading = false; this.loading = false;
} }
} }
/** Seed from server-rendered layout data so the very first paint
* doesn't flash the loading state. Used by `+layout.ts` /
* `+layout.svelte` on the universal-load path. Safe to call from
* SSR (no `browser` guard) since it touches only reactive state. */
seed(cfg: { self_register_enabled: boolean; private_mode: boolean }): void {
this.self_register_enabled = cfg.self_register_enabled;
this.private_mode = cfg.private_mode;
this.loaded = true;
}
} }
export const authConfig = new AuthConfigStore(); export const authConfig = new AuthConfigStore();

12
frontend/src/routes/+layout.svelte
View File

@@ -14,23 +14,15 @@
import Shield from '@lucide/svelte/icons/shield'; import Shield from '@lucide/svelte/icons/shield';
import '$lib/styles/tokens.css'; import '$lib/styles/tokens.css';
let { children, data } = $props(); let { children } = $props();
let loggingOut = $state(false); let loggingOut = $state(false);
let headerEl: HTMLElement | undefined = $state(); let headerEl: HTMLElement | undefined = $state();
// Seed authConfig from the universal layout load. $effect keeps
// the store in sync if `data` is replaced by a subsequent layout
// load (client-side nav). The first run also covers initial
// hydration so the navbar's register link reflects the real
// server flag without a separate fetch.
$effect(() => {
authConfig.seed(data.authConfig);
});
onMount(() => { onMount(() => {
theme.init(); theme.init();
preferences.init(); preferences.init();
if (!session.loaded) session.refresh(); if (!session.loaded) session.refresh();
if (!authConfig.loaded) authConfig.load();
// Publish the header's measured height as a CSS custom // Publish the header's measured height as a CSS custom
// property so sticky descendants (e.g. the reader nav) can // property so sticky descendants (e.g. the reader nav) can

41
frontend/src/routes/+layout.ts
View File

@@ -1,41 +0,0 @@
// Universal root load. Surfaces /auth/config to every page so the
// navbar + layout can render without an extra round-trip, and — when
// the backend reports PRIVATE_MODE=true — bounces anonymous visitors
// to /login before any page-specific load fires. The backend
// middleware is still the source of truth for the gate; this just
// matches the UX so users don't see a page full of failed fetches.
import type { LayoutLoad } from './$types';
import { redirect } from '@sveltejs/kit';
import { getAuthConfig, me, type AuthConfig } from '$lib/api/auth';
// Paths reachable anonymously even when private_mode is on. /login is
// the entry point of the auth flow; everything else (including
// /register, which is force-blocked in private mode) bounces.
const PRIVATE_MODE_BYPASS = new Set(['/login']);
const PUBLIC_DEFAULTS: AuthConfig = {
self_register_enabled: true,
private_mode: false
};
export const load: LayoutLoad = async ({ url }) => {
let authConfig: AuthConfig = PUBLIC_DEFAULTS;
try {
authConfig = await getAuthConfig();
} catch {
// Fail-soft: keep the optimistic public-mode defaults so a
// backend hiccup doesn't lock anyone out of the login page.
// No private data can leak through here — the backend
// middleware is still authoritative for the gate.
}
if (authConfig.private_mode && !PRIVATE_MODE_BYPASS.has(url.pathname)) {
const user = await me().catch(() => null);
if (!user) {
const next = url.pathname + url.search;
redirect(302, `/login?next=${encodeURIComponent(next)}`);
}
}
return { authConfig };
};

113
frontend/src/routes/layout.test.ts
View File

@@ -1,113 +0,0 @@
import { describe, it, expect, vi, beforeEach } from 'vitest';
// Mock the API client *before* importing the load function so the
// module under test picks up the mock when it resolves its imports.
vi.mock('$lib/api/auth', () => ({
getAuthConfig: vi.fn(),
me: vi.fn()
}));
import { load } from './+layout';
import { getAuthConfig, me, type AuthConfig } from '$lib/api/auth';
type MinimalLoadEvent = { url: { pathname: string; search: string } };
function event(pathname: string, search = ''): MinimalLoadEvent {
return { url: { pathname, search } };
}
// `LayoutLoad`'s declared return type is `void | …`. Our `load`
// always returns `{ authConfig }`, but TypeScript can't narrow on
// that at the call site. Wrap to remove the `void` arm so the
// assertions stay terse.
async function callLoad(ev: MinimalLoadEvent): Promise<{ authConfig: AuthConfig }> {
// eslint-disable-next-line @typescript-eslint/no-explicit-any
const result = await load(ev as any);
return result as { authConfig: AuthConfig };
}
const PUBLIC_CFG = { self_register_enabled: true, private_mode: false };
const PRIVATE_CFG = { self_register_enabled: false, private_mode: true };
const aliceUser = {
id: 'u1',
username: 'alice',
created_at: '2026-01-01T00:00:00Z',
is_admin: false
};
describe('root +layout load', () => {
beforeEach(() => {
vi.mocked(getAuthConfig).mockReset();
vi.mocked(me).mockReset();
});
it('public mode: returns authConfig data, never calls me()', async () => {
vi.mocked(getAuthConfig).mockResolvedValue(PUBLIC_CFG);
const data = await callLoad(event('/'));
expect(data.authConfig).toEqual(PUBLIC_CFG);
expect(me).not.toHaveBeenCalled();
});
it('private mode + anonymous on `/`: throws redirect(302) to /login with next=', async () => {
vi.mocked(getAuthConfig).mockResolvedValue(PRIVATE_CFG);
vi.mocked(me).mockResolvedValue(null);
// eslint-disable-next-line @typescript-eslint/no-explicit-any
await expect(load(event('/') as any)).rejects.toMatchObject({
status: 302,
location: '/login?next=%2F'
});
});
it('private mode + anonymous on `/login`: passes through without redirect', async () => {
vi.mocked(getAuthConfig).mockResolvedValue(PRIVATE_CFG);
const data = await callLoad(event('/login'));
expect(data.authConfig.private_mode).toBe(true);
// me() must not run on the login page itself, otherwise anonymous
// visits make an extra round-trip every page load.
expect(me).not.toHaveBeenCalled();
});
it('private mode + logged-in user: no redirect, returns authConfig', async () => {
vi.mocked(getAuthConfig).mockResolvedValue(PRIVATE_CFG);
vi.mocked(me).mockResolvedValue(aliceUser);
const data = await callLoad(event('/'));
expect(data.authConfig).toEqual(PRIVATE_CFG);
});
it('private mode + anonymous: preserves pathname AND search in next=', async () => {
vi.mocked(getAuthConfig).mockResolvedValue(PRIVATE_CFG);
vi.mocked(me).mockResolvedValue(null);
await expect(
// eslint-disable-next-line @typescript-eslint/no-explicit-any
load(event('/manga/abc', '?page=3') as any)
).rejects.toMatchObject({
status: 302,
location: '/login?next=%2Fmanga%2Fabc%3Fpage%3D3'
});
});
it('private mode + anonymous on /register: redirects to /login (register is never reachable in private mode)', async () => {
vi.mocked(getAuthConfig).mockResolvedValue(PRIVATE_CFG);
vi.mocked(me).mockResolvedValue(null);
// eslint-disable-next-line @typescript-eslint/no-explicit-any
await expect(load(event('/register') as any)).rejects.toMatchObject({
status: 302,
location: '/login?next=%2Fregister'
});
});
it('getAuthConfig failure: falls back to public-mode defaults, no redirect', async () => {
// The backend middleware is the source of truth for the gate;
// if the config probe blips, fail soft so a brief outage doesn't
// lock everyone out of even the login page. No private data
// can leak because the backend still 401s every request.
vi.mocked(getAuthConfig).mockRejectedValue(new Error('network'));
const data = await callLoad(event('/'));
expect(data.authConfig).toEqual({
self_register_enabled: true,
private_mode: false
});
expect(me).not.toHaveBeenCalled();
});
});

40
tor/entrypoint.sh
View File

@@ -1,40 +0,0 @@
#!/bin/sh
# Mangalord wrapper around dockurr/tor's tor binary.
#
# We bypass the image's stock entrypoint for two reasons:
# 1. It generates a `ControlPort 9051` line that binds to localhost
# only (tor's default), but our backend lives in a separate
# container and needs to reach 0.0.0.0:9051.
# 2. It then *skips* writing HashedControlPassword whenever the
# user's torrc declares a ControlPort, so we can't both bind to
# 0.0.0.0 and benefit from its auto-hashing — it's one or the
# other. Doing the hashing ourselves is simpler than threading
# around its logic.
#
# This wrapper hashes $PASSWORD with `tor --hash-password`, appends a
# `HashedControlPassword` line to a writable copy of /etc/tor/torrc,
# then execs tor. Container runs as root (image default); tor binds
# 9050/9051 which don't require root and is fine inside a single-
# purpose container.
set -eu
if [ -z "${PASSWORD:-}" ]; then
echo "ERROR: PASSWORD env must be set (the plain string the backend will" >&2
echo " send as CRAWLER_TOR_CONTROL_PASSWORD)" >&2
exit 1
fi
# `tor --hash-password` prints the hash on the last line of stdout
# (preceded by initialization noise).
HASH=$(tor --hash-password "$PASSWORD" 2>/dev/null | tail -n1)
if [ -z "$HASH" ]; then
echo "ERROR: 'tor --hash-password' produced no output" >&2
exit 1
fi
# /etc/tor/torrc is bind-mounted read-only, so copy + append.
cp /etc/tor/torrc /tmp/torrc
printf '\n# Injected by mangalord-entrypoint.sh from $PASSWORD env.\nHashedControlPassword %s\n' "$HASH" >> /tmp/torrc
exec tor -f /tmp/torrc

38
tor/torrc
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@@ -1,38 +0,0 @@
# torrc for the Mangalord crawler.
#
# Mounted into the dockurr/tor container at /etc/tor/torrc. The
# crawler talks to this daemon over the internal compose network only:
# `expose:` on the tor service surfaces 9050/9051 to sibling
# containers, never to the host.
# SOCKS5 proxy that reqwest and Chromium use. IsolateDestAddr +
# IsolateDestPort means each new (destination IP, port) draws a fresh
# circuit — so a SIGNAL NEWNYM picks up promptly on the next
# navigation instead of having to wait for an existing dirty circuit
# to age out.
SOCKSPort 0.0.0.0:9050 IsolateDestAddr IsolateDestPort
# Control port for SIGNAL NEWNYM. We rely on the dockurr/tor
# entrypoint to inject `HashedControlPassword <hash>` from its
# PASSWORD env var (see docker-compose.yml `tor.environment.PASSWORD`)
# via a higher-priority --defaults-torrc. We just need to declare the
# port itself here.
ControlPort 0.0.0.0:9051
# Keep circuits dirty for a while so a single chapter (which serial-
# fetches all its images through the same SOCKS endpoint) finishes on
# one circuit rather than mid-circuit-rotating in a way that looks like
# anti-bot evasion to the target. NEWNYM still forces a fresh circuit
# immediately when we want one — this is just the idle-rotation knob.
MaxCircuitDirtiness 600
# Drop privileges to the image's `tor` user after binding ports.
# Required because /var/lib/tor (the image's DataDirectory volume)
# is owned by tor:tor and tor refuses to use a data dir it doesn't
# own. Our entrypoint runs as root only so it can call
# `tor --hash-password` and write /tmp/torrc.
User tor
# Data + logs.
DataDirectory /var/lib/tor
Log notice stdout