fix(windows): opt-in pad-driver file logs + size-capped service log rotation

Two disk-write fixes:

- pf-xusb/pf-dualsense no longer write C:\Users\Public\pf*-driver.log
  unconditionally — the file log is now opt-in (debug builds, or the
  PFXUSB_DEBUG_LOG / PFDS_DEBUG_LOG system env var), mirroring the audit-§4.4
  fix pf-vdisplay already got: a release driver never writes the world-writable
  Public file (info-leak/DoS surface), and the per-report OUTPUT/SET_STATE hex
  dumps stop being a sustained per-rumble disk-write path during gameplay.
  OutputDebugStringA stays unconditional; the host's driver-silence WARN and
  the gamepad-driver-health failure-mode table now say the log is opt-in.

- service.log/host.log get one-generation rotation: at each (re)open a file
  over 10 MB is renamed to .old, so a crash-restart loop or a RUST_LOG=debug
  left in host.env can't grow the append-forever logs without bound. Rotation
  runs only before an open (never under a live appender — host.log's handle
  lacks FILE_SHARE_DELETE, so a racing rename harmlessly fails).

Windows CI compile/clippy pending (drivers workspace + host are not
Linux-cross-checkable); rides along with the next pad-driver redeploy.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
This commit is contained in:
2026-07-03 14:03:32 +00:00
parent 09afe48b17
commit 796d381926
5 changed files with 96 additions and 15 deletions
@@ -534,7 +534,9 @@ impl DriverAttach {
driver_log = self.driver_log, driver_log = self.driver_log,
"gamepad driver has not attached to the shared section — the virtual pad exists but no \ "gamepad driver has not attached to the shared section — the virtual pad exists but no \
driver is serving it (games will not see it); an old (pre-sealed-channel) driver also \ driver is serving it (games will not see it); an old (pre-sealed-channel) driver also \
reads as not-attached: update with punktfunk-host.exe driver install --gamepad" reads as not-attached: update with punktfunk-host.exe driver install --gamepad \
(driver_log is only written by debug driver builds, or with the PFXUSB_DEBUG_LOG / \
PFDS_DEBUG_LOG system env var set + the device restarted)"
); );
} }
} }
+26 -3
View File
@@ -130,6 +130,23 @@ fn host_log_path() -> PathBuf {
dir.join("host.log") dir.join("host.log")
} }
/// One-generation size cap for the append-forever logs: at each (re)open, a file over this size is
/// renamed to `<name>.old` (replacing the previous generation) — so a crash-restart loop or a
/// `RUST_LOG=debug` left in host.env can't grow them without bound.
const LOG_ROTATE_BYTES: u64 = 10 * 1024 * 1024;
/// Rotate `path` to `path.old` when it has outgrown [`LOG_ROTATE_BYTES`]. Only called right before
/// an open (service start for service.log, each host (re)launch for host.log) — never while a live
/// handle appends: renaming under an appender would silently redirect its writes into the `.old`
/// file. Best-effort; a failed rename just means one more un-rotated run.
fn rotate_if_large(path: &std::path::Path) {
if std::fs::metadata(path).is_ok_and(|m| m.len() >= LOG_ROTATE_BYTES) {
let mut old = path.as_os_str().to_owned();
old.push(".old");
let _ = std::fs::rename(path, std::path::Path::new(&old));
}
}
/// Initialise tracing to the service log file (the SCM gives the service no console/stderr). Falls /// Initialise tracing to the service log file (the SCM gives the service no console/stderr). Falls
/// back to stderr if the file can't be opened. Called from `main()` only for `service run`. /// back to stderr if the file can't be opened. Called from `main()` only for `service run`.
/// Also tees into the in-memory log ring (`log_capture`), like the stderr path in `main()` — the /// Also tees into the in-memory log ring (`log_capture`), like the stderr path in `main()` — the
@@ -140,10 +157,12 @@ pub fn init_file_logging(filter: tracing_subscriber::EnvFilter) {
use tracing_subscriber::Layer; use tracing_subscriber::Layer;
let ring = let ring =
crate::log_capture::RingLayer.with_filter(tracing_subscriber::filter::LevelFilter::DEBUG); crate::log_capture::RingLayer.with_filter(tracing_subscriber::filter::LevelFilter::DEBUG);
let log_path = service_log_path();
rotate_if_large(&log_path);
match std::fs::OpenOptions::new() match std::fs::OpenOptions::new()
.create(true) .create(true)
.append(true) .append(true)
.open(service_log_path()) .open(log_path)
{ {
Ok(file) => { Ok(file) => {
tracing_subscriber::registry() tracing_subscriber::registry()
@@ -549,8 +568,12 @@ unsafe fn spawn_host(
let _ = DestroyEnvironmentBlock(env_block); let _ = DestroyEnvironmentBlock(env_block);
} }
// 3) Redirect the host's stdout+stderr to host.log (inheritable handle). // 3) Redirect the host's stdout+stderr to host.log (inheritable handle). The previous child has
let log = open_log_handle(&host_log_path())?; // exited by the time the supervise loop relaunches, so its handle can't be live here — safe
// to rotate. (A leaked orphan's handle lacks FILE_SHARE_DELETE, so the rename just fails.)
let host_log = host_log_path();
rotate_if_large(&host_log);
let log = open_log_handle(&host_log)?;
let mut si = STARTUPINFOW { let mut si = STARTUPINFOW {
cb: std::mem::size_of::<STARTUPINFOW>() as u32, cb: std::mem::size_of::<STARTUPINFOW>() as u32,
+1 -1
View File
@@ -129,7 +129,7 @@ notes for context.
| Setting | Values | Meaning | | Setting | Values | Meaning |
|---|---|---| |---|---|---|
| `PUNKTFUNK_PERF` | `1` | Log per-stage timing (capture, encode, send) — handy when tuning latency. | | `PUNKTFUNK_PERF` | `1` | Log per-stage timing (capture, encode, send) — handy when tuning latency. |
| `RUST_LOG` | `info` · `debug` · `trace` | Log verbosity. On Windows, logs land in `%ProgramData%\punktfunk\logs\`. | | `RUST_LOG` | `info` · `debug` · `trace` | Log verbosity. On Windows, logs land in `%ProgramData%\punktfunk\logs\` (size-capped: a file over 10 MB is rotated to `.old` at the next service/host start, one generation kept). |
| `PUNKTFUNK_FFMPEG_DEBUG` | set | Verbose libavcodec/FFmpeg logging from the encoder. | | `PUNKTFUNK_FFMPEG_DEBUG` | set | Verbose libavcodec/FFmpeg logging from the encoder. |
| `PUNKTFUNK_VIDEO_DROP` | `N` (percent) | Deliberately drop N% of video packets to exercise FEC recovery. **Testing only.** | | `PUNKTFUNK_VIDEO_DROP` | `N` (percent) | Deliberately drop N% of video packets to exercise FEC recovery. **Testing only.** |
@@ -269,18 +269,45 @@ fn channel_cfg() -> ChannelConfig {
} }
} }
/// Whether the world-writable bring-up file log is enabled (resolved once). OPT-IN — debug builds,
/// or the `PFDS_DEBUG_LOG` (system-wide) env var — the same treatment pf-vdisplay got in audit
/// §4.4: a RELEASE driver never writes the Public file (info-leak/DoS surface), and the per-report
/// OUTPUT hex dumps stop being a sustained disk-write path during gameplay. DebugView can't see the
/// UMDF host across session 0, so the file stays the bring-up diagnostic when enabled.
fn file_log_enabled() -> bool {
use std::sync::OnceLock;
static ON: OnceLock<bool> = OnceLock::new();
*ON.get_or_init(|| cfg!(debug_assertions) || std::env::var_os("PFDS_DEBUG_LOG").is_some())
}
/// Process-lifetime append handle to the bring-up log, opened ONCE and shared via a `Mutex`
/// (pf-vdisplay's pattern) — no per-line open/close.
fn file_appender() -> Option<&'static std::sync::Mutex<std::fs::File>> {
use std::sync::OnceLock;
static APPENDER: OnceLock<Option<std::sync::Mutex<std::fs::File>>> = OnceLock::new();
APPENDER
.get_or_init(|| {
if !file_log_enabled() {
return None;
}
std::fs::OpenOptions::new()
.create(true)
.append(true)
.open("C:\\Users\\Public\\pfds-driver.log")
.ok()
.map(std::sync::Mutex::new)
})
.as_ref()
}
fn log(s: &str) { fn log(s: &str) {
if let Ok(c) = std::ffi::CString::new(s) { if let Ok(c) = std::ffi::CString::new(s) {
// SAFETY: c is a valid null-terminated string for the duration of the call. // SAFETY: c is a valid null-terminated string for the duration of the call.
unsafe { OutputDebugStringA(c.as_ptr().cast()) }; unsafe { OutputDebugStringA(c.as_ptr().cast()) };
} }
// Also append to a world-writable file — DebugView can't capture the UMDF host's output
// across session 0, so this is how we read driver-start diagnostics.
use std::io::Write; use std::io::Write;
if let Ok(mut f) = std::fs::OpenOptions::new() if let Some(m) = file_appender()
.create(true) && let Ok(mut f) = m.lock()
.append(true)
.open("C:\\Users\\Public\\pfds-driver.log")
{ {
let _ = writeln!(f, "{s}"); let _ = writeln!(f, "{s}");
} }
+33 -4
View File
@@ -104,16 +104,45 @@ fn channel_cfg() -> ChannelConfig {
} }
} }
/// Whether the world-writable bring-up file log is enabled (resolved once). OPT-IN — debug builds,
/// or the `PFXUSB_DEBUG_LOG` (system-wide) env var — the same treatment pf-vdisplay got in audit
/// §4.4: a RELEASE driver never writes the Public file (info-leak/DoS surface), and the per-rumble
/// SET_STATE hex dumps stop being a sustained disk-write path during gameplay. DebugView can't see
/// the UMDF host across session 0, so the file stays the bring-up diagnostic when enabled.
fn file_log_enabled() -> bool {
use std::sync::OnceLock;
static ON: OnceLock<bool> = OnceLock::new();
*ON.get_or_init(|| cfg!(debug_assertions) || std::env::var_os("PFXUSB_DEBUG_LOG").is_some())
}
/// Process-lifetime append handle to the bring-up log, opened ONCE and shared via a `Mutex`
/// (pf-vdisplay's pattern) — no per-line open/close.
fn file_appender() -> Option<&'static std::sync::Mutex<std::fs::File>> {
use std::sync::OnceLock;
static APPENDER: OnceLock<Option<std::sync::Mutex<std::fs::File>>> = OnceLock::new();
APPENDER
.get_or_init(|| {
if !file_log_enabled() {
return None;
}
std::fs::OpenOptions::new()
.create(true)
.append(true)
.open("C:\\Users\\Public\\pfxusb-driver.log")
.ok()
.map(std::sync::Mutex::new)
})
.as_ref()
}
fn log(s: &str) { fn log(s: &str) {
if let Ok(c) = std::ffi::CString::new(s) { if let Ok(c) = std::ffi::CString::new(s) {
// SAFETY: `c` is a valid NUL-terminated string for the duration of the call. // SAFETY: `c` is a valid NUL-terminated string for the duration of the call.
unsafe { OutputDebugStringA(c.as_ptr().cast()) }; unsafe { OutputDebugStringA(c.as_ptr().cast()) };
} }
use std::io::Write; use std::io::Write;
if let Ok(mut f) = std::fs::OpenOptions::new() if let Some(m) = file_appender()
.create(true) && let Ok(mut f) = m.lock()
.append(true)
.open("C:\\Users\\Public\\pfxusb-driver.log")
{ {
let _ = writeln!(f, "{s}"); let _ = writeln!(f, "{s}");
} }