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// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
//! Manages the pending pings queue and directory.
//!
//! * Keeps track of pending pings, loading any unsent ping from disk on startup;
//! * Exposes [`get_upload_task`](PingUploadManager::get_upload_task) API for
//! the platform layer to request next upload task;
//! * Exposes
//! [`process_ping_upload_response`](PingUploadManager::process_ping_upload_response)
//! API to check the HTTP response from the ping upload and either delete the
//! corresponding ping from disk or re-enqueue it for sending.
use std::collections::HashMap;
use std::collections::VecDeque;
use std::path::PathBuf;
use std::sync::atomic::{AtomicBool, AtomicU32, Ordering};
use std::sync::{Arc, RwLock, RwLockWriteGuard};
use std::thread;
use std::time::{Duration, Instant};
use chrono::Utc;
use crate::error::ErrorKind;
use crate::TimerId;
use crate::{internal_metrics::UploadMetrics, Glean};
use directory::{PingDirectoryManager, PingPayloadsByDirectory};
use policy::Policy;
use request::create_date_header_value;
pub use directory::{PingMetadata, PingPayload};
pub use request::{HeaderMap, PingRequest};
pub use result::{UploadResult, UploadTaskAction};
mod directory;
mod policy;
mod request;
mod result;
const WAIT_TIME_FOR_PING_PROCESSING: u64 = 1000; // in milliseconds
#[derive(Debug)]
struct RateLimiter {
/// The instant the current interval has started.
started: Option<Instant>,
/// The count for the current interval.
count: u32,
/// The duration of each interval.
interval: Duration,
/// The maximum count per interval.
max_count: u32,
}
/// An enum to represent the current state of the RateLimiter.
#[derive(PartialEq)]
enum RateLimiterState {
/// The RateLimiter has not reached the maximum count and is still incrementing.
Incrementing,
/// The RateLimiter has reached the maximum count for the current interval.
///
/// This variant contains the remaining time (in milliseconds)
/// until the rate limiter is not throttled anymore.
Throttled(u64),
}
impl RateLimiter {
pub fn new(interval: Duration, max_count: u32) -> Self {
Self {
started: None,
count: 0,
interval,
max_count,
}
}
fn reset(&mut self) {
self.started = Some(Instant::now());
self.count = 0;
}
fn elapsed(&self) -> Duration {
self.started.unwrap().elapsed()
}
// The counter should reset if
//
// 1. It has never started;
// 2. It has been started more than the interval time ago;
// 3. Something goes wrong while trying to calculate the elapsed time since the last reset.
fn should_reset(&self) -> bool {
if self.started.is_none() {
return true;
}
// Safe unwrap, we already stated that `self.started` is not `None` above.
if self.elapsed() > self.interval {
return true;
}
false
}
/// Tries to increment the internal counter.
///
/// # Returns
///
/// The current state of the RateLimiter.
pub fn get_state(&mut self) -> RateLimiterState {
if self.should_reset() {
self.reset();
}
if self.count == self.max_count {
// Note that `remining` can't be a negative number because we just called `reset`,
// which will check if it is and reset if so.
let remaining = self.interval.as_millis() - self.elapsed().as_millis();
return RateLimiterState::Throttled(
remaining
.try_into()
.unwrap_or(self.interval.as_secs() * 1000),
);
}
self.count += 1;
RateLimiterState::Incrementing
}
}
/// An enum representing the possible upload tasks to be performed by an uploader.
///
/// When asking for the next ping request to upload,
/// the requester may receive one out of three possible tasks.
#[derive(PartialEq, Eq, Debug)]
pub enum PingUploadTask {
/// An upload task
Upload {
/// The ping request for upload
/// See [`PingRequest`](struct.PingRequest.html) for more information.
request: PingRequest,
},
/// A flag signaling that the pending pings directories are not done being processed,
/// thus the requester should wait and come back later.
Wait {
/// The time in milliseconds
/// the requester should wait before requesting a new task.
time: u64,
},
/// A flag signaling that requester doesn't need to request any more upload tasks at this moment.
///
/// There are three possibilities for this scenario:
/// * Pending pings queue is empty, no more pings to request;
/// * Requester has gotten more than MAX_WAIT_ATTEMPTS (3, by default) `PingUploadTask::Wait` responses in a row;
/// * Requester has reported more than MAX_RECOVERABLE_FAILURES_PER_UPLOADING_WINDOW
/// recoverable upload failures on the same uploading window (see below)
/// and should stop requesting at this moment.
///
/// An "uploading window" starts when a requester gets a new
/// `PingUploadTask::Upload(PingRequest)` response and finishes when they
/// finally get a `PingUploadTask::Done` or `PingUploadTask::Wait` response.
Done {
#[doc(hidden)]
/// Unused field. Required because UniFFI can't handle variants without fields.
unused: i8,
},
}
impl PingUploadTask {
/// Whether the current task is an upload task.
pub fn is_upload(&self) -> bool {
matches!(self, PingUploadTask::Upload { .. })
}
/// Whether the current task is wait task.
pub fn is_wait(&self) -> bool {
matches!(self, PingUploadTask::Wait { .. })
}
pub(crate) fn done() -> Self {
PingUploadTask::Done { unused: 0 }
}
}
/// Manages the pending pings queue and directory.
#[derive(Debug)]
pub struct PingUploadManager {
/// A FIFO queue storing a `PingRequest` for each pending ping.
queue: RwLock<VecDeque<PingRequest>>,
/// A manager for the pending pings directories.
directory_manager: PingDirectoryManager,
/// A flag signaling if we are done processing the pending pings directories.
processed_pending_pings: Arc<AtomicBool>,
/// A vector to store the pending pings processed off-thread.
cached_pings: Arc<RwLock<PingPayloadsByDirectory>>,
/// The number of upload failures for the current uploading window.
recoverable_failure_count: AtomicU32,
/// The number or times in a row a user has received a `PingUploadTask::Wait` response.
wait_attempt_count: AtomicU32,
/// A ping counter to help rate limit the ping uploads.
///
/// To keep resource usage in check,
/// we may want to limit the amount of pings sent in a given interval.
rate_limiter: Option<RwLock<RateLimiter>>,
/// The name of the programming language used by the binding creating this instance of PingUploadManager.
///
/// This will be used to build the value User-Agent header for each ping request.
language_binding_name: String,
/// Metrics related to ping uploading.
upload_metrics: UploadMetrics,
/// Policies for ping storage, uploading and requests.
policy: Policy,
in_flight: RwLock<HashMap<String, (TimerId, TimerId)>>,
}
impl PingUploadManager {
/// Creates a new PingUploadManager.
///
/// # Arguments
///
/// * `data_path` - Path to the pending pings directory.
/// * `language_binding_name` - The name of the language binding calling this managers instance.
///
/// # Panics
///
/// Will panic if unable to spawn a new thread.
pub fn new<P: Into<PathBuf>>(data_path: P, language_binding_name: &str) -> Self {
Self {
queue: RwLock::new(VecDeque::new()),
directory_manager: PingDirectoryManager::new(data_path),
processed_pending_pings: Arc::new(AtomicBool::new(false)),
cached_pings: Arc::new(RwLock::new(PingPayloadsByDirectory::default())),
recoverable_failure_count: AtomicU32::new(0),
wait_attempt_count: AtomicU32::new(0),
rate_limiter: None,
language_binding_name: language_binding_name.into(),
upload_metrics: UploadMetrics::new(),
policy: Policy::default(),
in_flight: RwLock::new(HashMap::default()),
}
}
/// Spawns a new thread and processes the pending pings directories,
/// filling up the queue with whatever pings are in there.
///
/// # Returns
///
/// The `JoinHandle` to the spawned thread
pub fn scan_pending_pings_directories(
&self,
trigger_upload: bool,
) -> std::thread::JoinHandle<()> {
let local_manager = self.directory_manager.clone();
let local_cached_pings = self.cached_pings.clone();
let local_flag = self.processed_pending_pings.clone();
thread::Builder::new()
.name("glean.ping_directory_manager.process_dir".to_string())
.spawn(move || {
{
// Be sure to drop local_cached_pings lock before triggering upload.
let mut local_cached_pings = local_cached_pings
.write()
.expect("Can't write to pending pings cache.");
local_cached_pings.extend(local_manager.process_dirs());
local_flag.store(true, Ordering::SeqCst);
}
if trigger_upload {
crate::dispatcher::launch(|| {
if let Some(state) = crate::maybe_global_state().and_then(|s| s.lock().ok())
{
if let Err(e) = state.callbacks.trigger_upload() {
log::error!(
"Triggering upload after pending ping scan failed. Error: {}",
e
);
}
}
});
}
})
.expect("Unable to spawn thread to process pings directories.")
}
/// Creates a new upload manager with no limitations, for tests.
#[cfg(test)]
pub fn no_policy<P: Into<PathBuf>>(data_path: P) -> Self {
let mut upload_manager = Self::new(data_path, "Test");
// Disable all policies for tests, if necessary individuals tests can re-enable them.
upload_manager.policy.set_max_recoverable_failures(None);
upload_manager.policy.set_max_wait_attempts(None);
upload_manager.policy.set_max_ping_body_size(None);
upload_manager
.policy
.set_max_pending_pings_directory_size(None);
upload_manager.policy.set_max_pending_pings_count(None);
// When building for tests, always scan the pending pings directories and do it sync.
upload_manager
.scan_pending_pings_directories(false)
.join()
.unwrap();
upload_manager
}
fn processed_pending_pings(&self) -> bool {
self.processed_pending_pings.load(Ordering::SeqCst)
}
fn recoverable_failure_count(&self) -> u32 {
self.recoverable_failure_count.load(Ordering::SeqCst)
}
fn wait_attempt_count(&self) -> u32 {
self.wait_attempt_count.load(Ordering::SeqCst)
}
/// Attempts to build a ping request from a ping file payload.
///
/// Returns the `PingRequest` or `None` if unable to build,
/// in which case it will delete the ping file and record an error.
fn build_ping_request(&self, glean: &Glean, ping: PingPayload) -> Option<PingRequest> {
let PingPayload {
document_id,
upload_path: path,
json_body: body,
headers,
body_has_info_sections,
ping_name,
} = ping;
let mut request = PingRequest::builder(
&self.language_binding_name,
self.policy.max_ping_body_size(),
)
.document_id(&document_id)
.path(path)
.body(body)
.body_has_info_sections(body_has_info_sections)
.ping_name(ping_name);
if let Some(headers) = headers {
request = request.headers(headers);
}
match request.build() {
Ok(request) => Some(request),
Err(e) => {
log::warn!("Error trying to build ping request: {}", e);
self.directory_manager.delete_file(&document_id);
// Record the error.
// Currently the only possible error is PingBodyOverflow.
if let ErrorKind::PingBodyOverflow(s) = e.kind() {
self.upload_metrics
.discarded_exceeding_pings_size
.accumulate_sync(glean, *s as i64 / 1024);
}
None
}
}
}
/// Enqueue a ping for upload.
pub fn enqueue_ping(&self, glean: &Glean, ping: PingPayload) {
let mut queue = self
.queue
.write()
.expect("Can't write to pending pings queue.");
let PingPayload {
ref document_id,
upload_path: ref path,
..
} = ping;
// Checks if a ping with this `document_id` is already enqueued.
if queue
.iter()
.any(|request| request.document_id.as_str() == document_id)
{
log::warn!(
"Attempted to enqueue a duplicate ping {} at {}.",
document_id,
path
);
return;
}
{
let in_flight = self.in_flight.read().unwrap();
if in_flight.contains_key(document_id) {
log::warn!(
"Attempted to enqueue an in-flight ping {} at {}.",
document_id,
path
);
self.upload_metrics
.in_flight_pings_dropped
.add_sync(glean, 0);
return;
}
}
log::trace!("Enqueuing ping {} at {}", document_id, path);
if let Some(request) = self.build_ping_request(glean, ping) {
queue.push_back(request)
}
}
/// Enqueues pings that might have been cached.
///
/// The size of the PENDING_PINGS_DIRECTORY directory will be calculated
/// (by accumulating each ping's size in that directory)
/// and in case we exceed the quota, defined by the `quota` arg,
/// outstanding pings get deleted and are not enqueued.
///
/// The size of the DELETION_REQUEST_PINGS_DIRECTORY will not be calculated
/// and no deletion-request pings will be deleted. Deletion request pings
/// are not very common and usually don't contain any data,
/// we don't expect that directory to ever reach quota.
/// Most importantly, we don't want to ever delete deletion-request pings.
///
/// # Arguments
///
/// * `glean` - The Glean object holding the database.
fn enqueue_cached_pings(&self, glean: &Glean) {
let mut cached_pings = self
.cached_pings
.write()
.expect("Can't write to pending pings cache.");
if cached_pings.len() > 0 {
let mut pending_pings_directory_size: u64 = 0;
let mut pending_pings_count = 0;
let mut deleting = false;
let total = cached_pings.pending_pings.len() as u64;
self.upload_metrics
.pending_pings
.add_sync(glean, total.try_into().unwrap_or(0));
if total > self.policy.max_pending_pings_count() {
log::warn!(
"More than {} pending pings in the directory, will delete {} old pings.",
self.policy.max_pending_pings_count(),
total - self.policy.max_pending_pings_count()
);
}
// The pending pings vector is sorted by date in ascending order (oldest -> newest).
// We need to calculate the size of the pending pings directory
// and delete the **oldest** pings in case quota is reached.
// Thus, we reverse the order of the pending pings vector,
// so that we iterate in descending order (newest -> oldest).
cached_pings.pending_pings.reverse();
cached_pings.pending_pings.retain(|(file_size, PingPayload {document_id, ..})| {
pending_pings_count += 1;
pending_pings_directory_size += file_size;
// We don't want to spam the log for every ping over the quota.
if !deleting && pending_pings_directory_size > self.policy.max_pending_pings_directory_size() {
log::warn!(
"Pending pings directory has reached the size quota of {} bytes, outstanding pings will be deleted.",
self.policy.max_pending_pings_directory_size()
);
deleting = true;
}
// Once we reach the number of allowed pings we start deleting,
// no matter what size.
// We already log this before the loop.
if pending_pings_count > self.policy.max_pending_pings_count() {
deleting = true;
}
if deleting && self.directory_manager.delete_file(document_id) {
self.upload_metrics
.deleted_pings_after_quota_hit
.add_sync(glean, 1);
return false;
}
true
});
// After calculating the size of the pending pings directory,
// we record the calculated number and reverse the pings array back for enqueueing.
cached_pings.pending_pings.reverse();
self.upload_metrics
.pending_pings_directory_size
.accumulate_sync(glean, pending_pings_directory_size as i64 / 1024);
// Enqueue the remaining pending pings and
// enqueue all deletion-request pings.
cached_pings
.deletion_request_pings
.drain(..)
.for_each(|(_, ping)| self.enqueue_ping(glean, ping));
cached_pings
.pending_pings
.drain(..)
.for_each(|(_, ping)| self.enqueue_ping(glean, ping));
}
}
/// Adds rate limiting capability to this upload manager.
///
/// The rate limiter will limit the amount of calls to `get_upload_task` per interval.
///
/// Setting this will restart count and timer in case there was a previous rate limiter set
/// (e.g. if we have reached the current limit and call this function, we start counting again
/// and the caller is allowed to asks for tasks).
///
/// # Arguments
///
/// * `interval` - the amount of seconds in each rate limiting window.
/// * `max_tasks` - the maximum amount of task requests allowed per interval.
pub fn set_rate_limiter(&mut self, interval: u64, max_tasks: u32) {
self.rate_limiter = Some(RwLock::new(RateLimiter::new(
Duration::from_secs(interval),
max_tasks,
)));
}
/// Reads a ping file, creates a `PingRequest` and adds it to the queue.
///
/// Duplicate requests won't be added.
///
/// # Arguments
///
/// * `glean` - The Glean object holding the database.
/// * `document_id` - The UUID of the ping in question.
pub fn enqueue_ping_from_file(&self, glean: &Glean, document_id: &str) {
if let Some(ping) = self.directory_manager.process_file(document_id) {
self.enqueue_ping(glean, ping);
}
}
/// Clears the pending pings queue, leaves the deletion-request pings.
pub fn clear_ping_queue(&self) -> RwLockWriteGuard<'_, VecDeque<PingRequest>> {
log::trace!("Clearing ping queue");
let mut queue = self
.queue
.write()
.expect("Can't write to pending pings queue.");
queue.retain(|ping| ping.is_deletion_request());
log::trace!(
"{} pings left in the queue (only deletion-request expected)",
queue.len()
);
queue
}
fn get_upload_task_internal(&self, glean: &Glean, log_ping: bool) -> PingUploadTask {
// Helper to decide whether to return PingUploadTask::Wait or PingUploadTask::Done.
//
// We want to limit the amount of PingUploadTask::Wait returned in a row,
// in case we reach MAX_WAIT_ATTEMPTS we want to actually return PingUploadTask::Done.
let wait_or_done = |time: u64| {
self.wait_attempt_count.fetch_add(1, Ordering::SeqCst);
if self.wait_attempt_count() > self.policy.max_wait_attempts() {
PingUploadTask::done()
} else {
PingUploadTask::Wait { time }
}
};
if !self.processed_pending_pings() {
log::info!(
"Tried getting an upload task, but processing is ongoing. Will come back later."
);
return wait_or_done(WAIT_TIME_FOR_PING_PROCESSING);
}
// This is a no-op in case there are no cached pings.
self.enqueue_cached_pings(glean);
if self.recoverable_failure_count() >= self.policy.max_recoverable_failures() {
log::warn!(
"Reached maximum recoverable failures for the current uploading window. You are done."
);
return PingUploadTask::done();
}
let mut queue = self
.queue
.write()
.expect("Can't write to pending pings queue.");
match queue.front() {
Some(request) => {
if let Some(rate_limiter) = &self.rate_limiter {
let mut rate_limiter = rate_limiter
.write()
.expect("Can't write to the rate limiter.");
if let RateLimiterState::Throttled(remaining) = rate_limiter.get_state() {
log::info!(
"Tried getting an upload task, but we are throttled at the moment."
);
return wait_or_done(remaining);
}
}
log::info!(
"New upload task with id {} (path: {})",
request.document_id,
request.path
);
if log_ping {
if let Some(body) = request.pretty_body() {
chunked_log_info(&request.path, &body);
} else {
chunked_log_info(&request.path, "<invalid ping payload>");
}
}
{
// Synchronous timer starts.
// We're in the uploader thread anyway.
// But also: No data is stored on disk.
let mut in_flight = self.in_flight.write().unwrap();
let success_id = self.upload_metrics.send_success.start_sync();
let failure_id = self.upload_metrics.send_failure.start_sync();
in_flight.insert(request.document_id.clone(), (success_id, failure_id));
}
let mut request = queue.pop_front().unwrap();
// Adding the `Date` header just before actual upload happens.
request
.headers
.insert("Date".to_string(), create_date_header_value(Utc::now()));
PingUploadTask::Upload { request }
}
None => {
log::info!("No more pings to upload! You are done.");
PingUploadTask::done()
}
}
}
/// Gets the next `PingUploadTask`.
///
/// # Arguments
///
/// * `glean` - The Glean object holding the database.
/// * `log_ping` - Whether to log the ping before returning.
///
/// # Returns
///
/// The next [`PingUploadTask`](enum.PingUploadTask.html).
pub fn get_upload_task(&self, glean: &Glean, log_ping: bool) -> PingUploadTask {
let task = self.get_upload_task_internal(glean, log_ping);
if !task.is_wait() && self.wait_attempt_count() > 0 {
self.wait_attempt_count.store(0, Ordering::SeqCst);
}
if !task.is_upload() && self.recoverable_failure_count() > 0 {
self.recoverable_failure_count.store(0, Ordering::SeqCst);
}
task
}
/// Processes the response from an attempt to upload a ping.
///
/// Based on the HTTP status of said response,
/// the possible outcomes are:
///
/// * **200 - 299 Success**
/// Any status on the 2XX range is considered a succesful upload,
/// which means the corresponding ping file can be deleted.
/// _Known 2XX status:_
/// * 200 - OK. Request accepted into the pipeline.
///
/// * **400 - 499 Unrecoverable error**
/// Any status on the 4XX range means something our client did is not correct.
/// It is unlikely that the client is going to recover from this by retrying,
/// so in this case the corresponding ping file can also be deleted.
/// _Known 4XX status:_
/// * 404 - not found - POST/PUT to an unknown namespace
/// * 405 - wrong request type (anything other than POST/PUT)
/// * 411 - missing content-length header
/// * 413 - request body too large Note that if we have badly-behaved clients that
/// retry on 4XX, we should send back 202 on body/path too long).
/// * 414 - request path too long (See above)
///
/// * **Any other error**
/// For any other error, a warning is logged and the ping is re-enqueued.
/// _Known other errors:_
/// * 500 - internal error
///
/// # Note
///
/// The disk I/O performed by this function is not done off-thread,
/// as it is expected to be called off-thread by the platform.
///
/// # Arguments
///
/// * `glean` - The Glean object holding the database.
/// * `document_id` - The UUID of the ping in question.
/// * `status` - The HTTP status of the response.
pub fn process_ping_upload_response(
&self,
glean: &Glean,
document_id: &str,
status: UploadResult,
) -> UploadTaskAction {
use UploadResult::*;
let stop_time = time::precise_time_ns();
if let Some(label) = status.get_label() {
let metric = self.upload_metrics.ping_upload_failure.get(label);
metric.add_sync(glean, 1);
}
let send_ids = {
let mut lock = self.in_flight.write().unwrap();
lock.remove(document_id)
};
if send_ids.is_none() {
self.upload_metrics.missing_send_ids.add_sync(glean, 1);
}
match status {
HttpStatus { code } if (200..=299).contains(&code) => {
log::info!("Ping {} successfully sent {}.", document_id, code);
if let Some((success_id, failure_id)) = send_ids {
self.upload_metrics
.send_success
.set_stop_and_accumulate(glean, success_id, stop_time);
self.upload_metrics.send_failure.cancel_sync(failure_id);
}
self.directory_manager.delete_file(document_id);
}
UnrecoverableFailure { .. } | HttpStatus { code: 400..=499 } => {
log::warn!(
"Unrecoverable upload failure while attempting to send ping {}. Error was {:?}",
document_id,
status
);
if let Some((success_id, failure_id)) = send_ids {
self.upload_metrics.send_success.cancel_sync(success_id);
self.upload_metrics
.send_failure
.set_stop_and_accumulate(glean, failure_id, stop_time);
}
self.directory_manager.delete_file(document_id);
}
RecoverableFailure { .. } | HttpStatus { .. } => {
log::warn!(
"Recoverable upload failure while attempting to send ping {}, will retry. Error was {:?}",
document_id,
status
);
if let Some((success_id, failure_id)) = send_ids {
self.upload_metrics.send_success.cancel_sync(success_id);
self.upload_metrics
.send_failure
.set_stop_and_accumulate(glean, failure_id, stop_time);
}
self.enqueue_ping_from_file(glean, document_id);
self.recoverable_failure_count
.fetch_add(1, Ordering::SeqCst);
}
Done { .. } => {
log::debug!("Uploader signaled Done. Exiting.");
if let Some((success_id, failure_id)) = send_ids {
self.upload_metrics.send_success.cancel_sync(success_id);
self.upload_metrics.send_failure.cancel_sync(failure_id);
}
return UploadTaskAction::End;
}
};
UploadTaskAction::Next
}
}
/// Splits log message into chunks on Android.
#[cfg(target_os = "android")]
pub fn chunked_log_info(path: &str, payload: &str) {
// Since the logcat ring buffer size is configurable, but it's 'max payload' size is not,
// we must break apart long pings into chunks no larger than the max payload size of 4076b.
// We leave some head space for our prefix.
const MAX_LOG_PAYLOAD_SIZE_BYTES: usize = 4000;
// If the length of the ping will fit within one logcat payload, then we can
// short-circuit here and avoid some overhead, otherwise we must split up the
// message so that we don't truncate it.
if path.len() + payload.len() <= MAX_LOG_PAYLOAD_SIZE_BYTES {
log::info!("Glean ping to URL: {}\n{}", path, payload);
return;
}
// Otherwise we break it apart into chunks of smaller size,
// prefixing it with the path and a counter.
let mut start = 0;
let mut end = MAX_LOG_PAYLOAD_SIZE_BYTES;
let mut chunk_idx = 1;
// Might be off by 1 on edge cases, but do we really care?
let total_chunks = payload.len() / MAX_LOG_PAYLOAD_SIZE_BYTES + 1;
while end < payload.len() {
// Find char boundary from the end.
// It's UTF-8, so it is within 4 bytes from here.
for _ in 0..4 {
if payload.is_char_boundary(end) {
break;
}
end -= 1;
}
log::info!(
"Glean ping to URL: {} [Part {} of {}]\n{}",
path,
chunk_idx,
total_chunks,
&payload[start..end]
);
// Move on with the string
start = end;
end = end + MAX_LOG_PAYLOAD_SIZE_BYTES;
chunk_idx += 1;
}
// Print any suffix left
if start < payload.len() {
log::info!(
"Glean ping to URL: {} [Part {} of {}]\n{}",
path,
chunk_idx,
total_chunks,
&payload[start..]
);
}
}
/// Logs payload in one go (all other OS).
#[cfg(not(target_os = "android"))]
pub fn chunked_log_info(_path: &str, payload: &str) {
log::info!("{}", payload)
}
#[cfg(test)]
mod test {
use uuid::Uuid;
use super::*;
use crate::metrics::PingType;
use crate::{tests::new_glean, PENDING_PINGS_DIRECTORY};
const PATH: &str = "/submit/app_id/ping_name/schema_version/doc_id";
#[test]
fn doesnt_error_when_there_are_no_pending_pings() {
let (glean, _t) = new_glean(None);
// Try and get the next request.
// Verify request was not returned
assert_eq!(glean.get_upload_task(), PingUploadTask::done());
}
#[test]
fn returns_ping_request_when_there_is_one() {
let (glean, dir) = new_glean(None);
let upload_manager = PingUploadManager::no_policy(dir.path());
// Enqueue a ping
upload_manager.enqueue_ping(
&glean,
PingPayload {
document_id: Uuid::new_v4().to_string(),
upload_path: PATH.into(),
json_body: "".into(),
headers: None,
body_has_info_sections: true,
ping_name: "ping-name".into(),
},
);
// Try and get the next request.
// Verify request was returned
let task = upload_manager.get_upload_task(&glean, false);
assert!(task.is_upload());
}
#[test]
fn returns_as_many_ping_requests_as_there_are() {
let (glean, dir) = new_glean(None);
let upload_manager = PingUploadManager::no_policy(dir.path());
// Enqueue a ping multiple times
let n = 10;
for _ in 0..n {
upload_manager.enqueue_ping(
&glean,
PingPayload {
document_id: Uuid::new_v4().to_string(),
upload_path: PATH.into(),
json_body: "".into(),
headers: None,
body_has_info_sections: true,
ping_name: "ping-name".into(),
},
);
}
// Verify a request is returned for each submitted ping
for _ in 0..n {
let task = upload_manager.get_upload_task(&glean, false);
assert!(task.is_upload());
}
// Verify that after all requests are returned, none are left
assert_eq!(
upload_manager.get_upload_task(&glean, false),
PingUploadTask::done()
);
}
#[test]
fn limits_the_number_of_pings_when_there_is_rate_limiting() {
let (glean, dir) = new_glean(None);
let mut upload_manager = PingUploadManager::no_policy(dir.path());
// Add a rate limiter to the upload mangager with max of 10 pings every 3 seconds.
let max_pings_per_interval = 10;
upload_manager.set_rate_limiter(3, 10);
// Enqueue the max number of pings allowed per uploading window
for _ in 0..max_pings_per_interval {
upload_manager.enqueue_ping(
&glean,
PingPayload {
document_id: Uuid::new_v4().to_string(),
upload_path: PATH.into(),
json_body: "".into(),
headers: None,
body_has_info_sections: true,
ping_name: "ping-name".into(),
},
);
}
// Verify a request is returned for each submitted ping
for _ in 0..max_pings_per_interval {
let task = upload_manager.get_upload_task(&glean, false);
assert!(task.is_upload());
}
// Enqueue just one more ping
upload_manager.enqueue_ping(
&glean,
PingPayload {
document_id: Uuid::new_v4().to_string(),
upload_path: PATH.into(),
json_body: "".into(),
headers: None,
body_has_info_sections: true,
ping_name: "ping-name".into(),
},
);
// Verify that we are indeed told to wait because we are at capacity
match upload_manager.get_upload_task(&glean, false) {
PingUploadTask::Wait { time } => {
// Wait for the uploading window to reset
thread::sleep(Duration::from_millis(time));
}
_ => panic!("Expected upload manager to return a wait task!"),
};
let task = upload_manager.get_upload_task(&glean, false);
assert!(task.is_upload());
}
#[test]
fn clearing_the_queue_works_correctly() {
let (glean, dir) = new_glean(None);
let upload_manager = PingUploadManager::no_policy(dir.path());
// Enqueue a ping multiple times
for _ in 0..10 {
upload_manager.enqueue_ping(
&glean,
PingPayload {
document_id: Uuid::new_v4().to_string(),
upload_path: PATH.into(),
json_body: "".into(),
headers: None,
body_has_info_sections: true,
ping_name: "ping-name".into(),
},
);
}
// Clear the queue
drop(upload_manager.clear_ping_queue());
// Verify there really isn't any ping in the queue
assert_eq!(
upload_manager.get_upload_task(&glean, false),
PingUploadTask::done()
);
}
#[test]
fn clearing_the_queue_doesnt_clear_deletion_request_pings() {
let (mut glean, _t) = new_glean(None);
// Register a ping for testing
let ping_type = PingType::new(
"test",
true,
/* send_if_empty */ true,
true,
true,
true,
vec![],
vec![],
);
glean.register_ping_type(&ping_type);
// Submit the ping multiple times
let n = 10;
for _ in 0..n {
ping_type.submit_sync(&glean, None);
}
glean
.internal_pings
.deletion_request
.submit_sync(&glean, None);
// Clear the queue
drop(glean.upload_manager.clear_ping_queue());
let upload_task = glean.get_upload_task();
match upload_task {
PingUploadTask::Upload { request } => assert!(request.is_deletion_request()),
_ => panic!("Expected upload manager to return the next request!"),
}
// Verify there really isn't any other pings in the queue
assert_eq!(glean.get_upload_task(), PingUploadTask::done());
}
#[test]
fn fills_up_queue_successfully_from_disk() {
let (mut glean, dir) = new_glean(None);
// Register a ping for testing
let ping_type = PingType::new(
"test",
true,
/* send_if_empty */ true,
true,
true,
true,
vec![],
vec![],
);
glean.register_ping_type(&ping_type);
// Submit the ping multiple times
let n = 10;
for _ in 0..n {
ping_type.submit_sync(&glean, None);
}
// Create a new upload manager pointing to the same data_path as the glean instance.
let upload_manager = PingUploadManager::no_policy(dir.path());
// Verify the requests were properly enqueued
for _ in 0..n {
let task = upload_manager.get_upload_task(&glean, false);
assert!(task.is_upload());
}
// Verify that after all requests are returned, none are left
assert_eq!(
upload_manager.get_upload_task(&glean, false),
PingUploadTask::done()
);
}
#[test]
fn processes_correctly_success_upload_response() {
let (mut glean, dir) = new_glean(None);
// Register a ping for testing
let ping_type = PingType::new(
"test",
true,
/* send_if_empty */ true,
true,
true,
true,
vec![],
vec![],
);
glean.register_ping_type(&ping_type);
// Submit a ping
ping_type.submit_sync(&glean, None);
// Get the pending ping directory path
let pending_pings_dir = dir.path().join(PENDING_PINGS_DIRECTORY);
// Get the submitted PingRequest
match glean.get_upload_task() {
PingUploadTask::Upload { request } => {
// Simulate the processing of a sucessfull request
let document_id = request.document_id;
glean.process_ping_upload_response(&document_id, UploadResult::http_status(200));
// Verify file was deleted
assert!(!pending_pings_dir.join(document_id).exists());
}
_ => panic!("Expected upload manager to return the next request!"),
}
// Verify that after request is returned, none are left
assert_eq!(glean.get_upload_task(), PingUploadTask::done());
}
#[test]
fn processes_correctly_client_error_upload_response() {
let (mut glean, dir) = new_glean(None);
// Register a ping for testing
let ping_type = PingType::new(
"test",
true,
/* send_if_empty */ true,
true,
true,
true,
vec![],
vec![],
);
glean.register_ping_type(&ping_type);
// Submit a ping
ping_type.submit_sync(&glean, None);
// Get the pending ping directory path
let pending_pings_dir = dir.path().join(PENDING_PINGS_DIRECTORY);
// Get the submitted PingRequest
match glean.get_upload_task() {
PingUploadTask::Upload { request } => {
// Simulate the processing of a client error
let document_id = request.document_id;
glean.process_ping_upload_response(&document_id, UploadResult::http_status(404));
// Verify file was deleted
assert!(!pending_pings_dir.join(document_id).exists());
}
_ => panic!("Expected upload manager to return the next request!"),
}
// Verify that after request is returned, none are left
assert_eq!(glean.get_upload_task(), PingUploadTask::done());
}
#[test]
fn processes_correctly_server_error_upload_response() {
let (mut glean, _t) = new_glean(None);
// Register a ping for testing
let ping_type = PingType::new(
"test",
true,
/* send_if_empty */ true,
true,
true,
true,
vec![],
vec![],
);
glean.register_ping_type(&ping_type);
// Submit a ping
ping_type.submit_sync(&glean, None);
// Get the submitted PingRequest
match glean.get_upload_task() {
PingUploadTask::Upload { request } => {
// Simulate the processing of a client error
let document_id = request.document_id;
glean.process_ping_upload_response(&document_id, UploadResult::http_status(500));
// Verify this ping was indeed re-enqueued
match glean.get_upload_task() {
PingUploadTask::Upload { request } => {
assert_eq!(document_id, request.document_id);
}
_ => panic!("Expected upload manager to return the next request!"),
}
}
_ => panic!("Expected upload manager to return the next request!"),
}
// Verify that after request is returned, none are left
assert_eq!(glean.get_upload_task(), PingUploadTask::done());
}
#[test]
fn processes_correctly_unrecoverable_upload_response() {
let (mut glean, dir) = new_glean(None);
// Register a ping for testing
let ping_type = PingType::new(
"test",
true,
/* send_if_empty */ true,
true,
true,
true,
vec![],
vec![],
);
glean.register_ping_type(&ping_type);
// Submit a ping
ping_type.submit_sync(&glean, None);
// Get the pending ping directory path
let pending_pings_dir = dir.path().join(PENDING_PINGS_DIRECTORY);
// Get the submitted PingRequest
match glean.get_upload_task() {
PingUploadTask::Upload { request } => {
// Simulate the processing of a client error
let document_id = request.document_id;
glean.process_ping_upload_response(
&document_id,
UploadResult::unrecoverable_failure(),
);
// Verify file was deleted
assert!(!pending_pings_dir.join(document_id).exists());
}
_ => panic!("Expected upload manager to return the next request!"),
}
// Verify that after request is returned, none are left
assert_eq!(glean.get_upload_task(), PingUploadTask::done());
}
#[test]
fn new_pings_are_added_while_upload_in_progress() {
let (glean, dir) = new_glean(None);
let upload_manager = PingUploadManager::no_policy(dir.path());
let doc1 = Uuid::new_v4().to_string();
let path1 = format!("/submit/app_id/test-ping/1/{}", doc1);
let doc2 = Uuid::new_v4().to_string();
let path2 = format!("/submit/app_id/test-ping/1/{}", doc2);
// Enqueue a ping
upload_manager.enqueue_ping(
&glean,
PingPayload {
document_id: doc1.clone(),
upload_path: path1,
json_body: "".into(),
headers: None,
body_has_info_sections: true,
ping_name: "test-ping".into(),
},
);
// Try and get the first request.
let req = match upload_manager.get_upload_task(&glean, false) {
PingUploadTask::Upload { request } => request,
_ => panic!("Expected upload manager to return the next request!"),
};
assert_eq!(doc1, req.document_id);
// Schedule the next one while the first one is "in progress"
upload_manager.enqueue_ping(
&glean,
PingPayload {
document_id: doc2.clone(),
upload_path: path2,
json_body: "".into(),
headers: None,
body_has_info_sections: true,
ping_name: "test-ping".into(),
},
);
// Mark as processed
upload_manager.process_ping_upload_response(
&glean,
&req.document_id,
UploadResult::http_status(200),
);
// Get the second request.
let req = match upload_manager.get_upload_task(&glean, false) {
PingUploadTask::Upload { request } => request,
_ => panic!("Expected upload manager to return the next request!"),
};
assert_eq!(doc2, req.document_id);
// Mark as processed
upload_manager.process_ping_upload_response(
&glean,
&req.document_id,
UploadResult::http_status(200),
);
// ... and then we're done.
assert_eq!(
upload_manager.get_upload_task(&glean, false),
PingUploadTask::done()
);
}
#[test]
fn adds_debug_view_header_to_requests_when_tag_is_set() {
let (mut glean, _t) = new_glean(None);
glean.set_debug_view_tag("valid-tag");
// Register a ping for testing
let ping_type = PingType::new(
"test",
true,
/* send_if_empty */ true,
true,
true,
true,
vec![],
vec![],
);
glean.register_ping_type(&ping_type);
// Submit a ping
ping_type.submit_sync(&glean, None);
// Get the submitted PingRequest
match glean.get_upload_task() {
PingUploadTask::Upload { request } => {
assert_eq!(request.headers.get("X-Debug-ID").unwrap(), "valid-tag")
}
_ => panic!("Expected upload manager to return the next request!"),
}
}
#[test]
fn duplicates_are_not_enqueued() {
let (glean, dir) = new_glean(None);
// Create a new upload manager so that we have access to its functions directly,
// make it synchronous so we don't have to manually wait for the scanning to finish.
let upload_manager = PingUploadManager::no_policy(dir.path());
let doc_id = Uuid::new_v4().to_string();
let path = format!("/submit/app_id/test-ping/1/{}", doc_id);
// Try to enqueue a ping with the same doc_id twice
upload_manager.enqueue_ping(
&glean,
PingPayload {
document_id: doc_id.clone(),
upload_path: path.clone(),
json_body: "".into(),
headers: None,
body_has_info_sections: true,
ping_name: "test-ping".into(),
},
);
upload_manager.enqueue_ping(
&glean,
PingPayload {
document_id: doc_id,
upload_path: path,
json_body: "".into(),
headers: None,
body_has_info_sections: true,
ping_name: "test-ping".into(),
},
);
// Get a task once
let task = upload_manager.get_upload_task(&glean, false);
assert!(task.is_upload());
// There should be no more queued tasks
assert_eq!(
upload_manager.get_upload_task(&glean, false),
PingUploadTask::done()
);
}
#[test]
fn maximum_of_recoverable_errors_is_enforced_for_uploading_window() {
let (mut glean, dir) = new_glean(None);
// Register a ping for testing
let ping_type = PingType::new(
"test",
true,
/* send_if_empty */ true,
true,
true,
true,
vec![],
vec![],
);
glean.register_ping_type(&ping_type);
// Submit the ping multiple times
let n = 5;
for _ in 0..n {
ping_type.submit_sync(&glean, None);
}
let mut upload_manager = PingUploadManager::no_policy(dir.path());
// Set a policy for max recoverable failures, this is usually disabled for tests.
let max_recoverable_failures = 3;
upload_manager
.policy
.set_max_recoverable_failures(Some(max_recoverable_failures));
// Return the max recoverable error failures in a row
for _ in 0..max_recoverable_failures {
match upload_manager.get_upload_task(&glean, false) {
PingUploadTask::Upload { request } => {
upload_manager.process_ping_upload_response(
&glean,
&request.document_id,
UploadResult::recoverable_failure(),
);
}
_ => panic!("Expected upload manager to return the next request!"),
}
}
// Verify that after returning the max amount of recoverable failures,
// we are done even though we haven't gotten all the enqueued requests.
assert_eq!(
upload_manager.get_upload_task(&glean, false),
PingUploadTask::done()
);
// Verify all requests are returned when we try again.
for _ in 0..n {
let task = upload_manager.get_upload_task(&glean, false);
assert!(task.is_upload());
}
}
#[test]
fn quota_is_enforced_when_enqueueing_cached_pings() {
let (mut glean, dir) = new_glean(None);
// Register a ping for testing
let ping_type = PingType::new(
"test",
true,
/* send_if_empty */ true,
true,
true,
true,
vec![],
vec![],
);
glean.register_ping_type(&ping_type);
// Submit the ping multiple times
let n = 10;
for _ in 0..n {
ping_type.submit_sync(&glean, None);
}
let directory_manager = PingDirectoryManager::new(dir.path());
let pending_pings = directory_manager.process_dirs().pending_pings;
// The pending pings array is sorted by date in ascending order,
// the newest element is the last one.
let (_, newest_ping) = &pending_pings.last().unwrap();
let PingPayload {
document_id: newest_ping_id,
..
} = &newest_ping;
// Create a new upload manager pointing to the same data_path as the glean instance.
let mut upload_manager = PingUploadManager::no_policy(dir.path());
// Set the quota to just a little over the size on an empty ping file.
// This way we can check that one ping is kept and all others are deleted.
//
// From manual testing I figured out an empty ping file is 324bytes,
// I am setting this a little over just so that minor changes to the ping structure
// don't immediatelly break this.
upload_manager
.policy
.set_max_pending_pings_directory_size(Some(500));
// Get a task once
// One ping should have been enqueued.
// Make sure it is the newest ping.
match upload_manager.get_upload_task(&glean, false) {
PingUploadTask::Upload { request } => assert_eq!(&request.document_id, newest_ping_id),
_ => panic!("Expected upload manager to return the next request!"),
}
// Verify that no other requests were returned,
// they should all have been deleted because pending pings quota was hit.
assert_eq!(
upload_manager.get_upload_task(&glean, false),
PingUploadTask::done()
);
// Verify that the correct number of deleted pings was recorded
assert_eq!(
n - 1,
upload_manager
.upload_metrics
.deleted_pings_after_quota_hit
.get_value(&glean, Some("metrics"))
.unwrap()
);
assert_eq!(
n,
upload_manager
.upload_metrics
.pending_pings
.get_value(&glean, Some("metrics"))
.unwrap()
);
}
#[test]
fn number_quota_is_enforced_when_enqueueing_cached_pings() {
let (mut glean, dir) = new_glean(None);
// Register a ping for testing
let ping_type = PingType::new(
"test",
true,
/* send_if_empty */ true,
true,
true,
true,
vec![],
vec![],
);
glean.register_ping_type(&ping_type);
// How many pings we allow at maximum
let count_quota = 3;
// The number of pings we fill the pending pings directory with.
let n = 10;
// Submit the ping multiple times
for _ in 0..n {
ping_type.submit_sync(&glean, None);
}
let directory_manager = PingDirectoryManager::new(dir.path());
let pending_pings = directory_manager.process_dirs().pending_pings;
// The pending pings array is sorted by date in ascending order,
// the newest element is the last one.
let expected_pings = pending_pings
.iter()
.rev()
.take(count_quota)
.map(|(_, ping)| ping.document_id.clone())
.collect::<Vec<_>>();
// Create a new upload manager pointing to the same data_path as the glean instance.
let mut upload_manager = PingUploadManager::no_policy(dir.path());
upload_manager
.policy
.set_max_pending_pings_count(Some(count_quota as u64));
// Get a task once
// One ping should have been enqueued.
// Make sure it is the newest ping.
for ping_id in expected_pings.iter().rev() {
match upload_manager.get_upload_task(&glean, false) {
PingUploadTask::Upload { request } => assert_eq!(&request.document_id, ping_id),
_ => panic!("Expected upload manager to return the next request!"),
}
}
// Verify that no other requests were returned,
// they should all have been deleted because pending pings quota was hit.
assert_eq!(
upload_manager.get_upload_task(&glean, false),
PingUploadTask::done()
);
// Verify that the correct number of deleted pings was recorded
assert_eq!(
(n - count_quota) as i32,
upload_manager
.upload_metrics
.deleted_pings_after_quota_hit
.get_value(&glean, Some("metrics"))
.unwrap()
);
assert_eq!(
n as i32,
upload_manager
.upload_metrics
.pending_pings
.get_value(&glean, Some("metrics"))
.unwrap()
);
}
#[test]
fn size_and_count_quota_work_together_size_first() {
let (mut glean, dir) = new_glean(None);
// Register a ping for testing
let ping_type = PingType::new(
"test",
true,
/* send_if_empty */ true,
true,
true,
true,
vec![],
vec![],
);
glean.register_ping_type(&ping_type);
let expected_number_of_pings = 3;
// The number of pings we fill the pending pings directory with.
let n = 10;
// Submit the ping multiple times
for _ in 0..n {
ping_type.submit_sync(&glean, None);
}
let directory_manager = PingDirectoryManager::new(dir.path());
let pending_pings = directory_manager.process_dirs().pending_pings;
// The pending pings array is sorted by date in ascending order,
// the newest element is the last one.
let expected_pings = pending_pings
.iter()
.rev()
.take(expected_number_of_pings)
.map(|(_, ping)| ping.document_id.clone())
.collect::<Vec<_>>();
// Create a new upload manager pointing to the same data_path as the glean instance.
let mut upload_manager = PingUploadManager::no_policy(dir.path());
// From manual testing we figured out a basically empty ping file is 399 bytes,
// so this allows 3 pings with some headroom in case of future changes.
upload_manager
.policy
.set_max_pending_pings_directory_size(Some(1300));
upload_manager.policy.set_max_pending_pings_count(Some(5));
// Get a task once
// One ping should have been enqueued.
// Make sure it is the newest ping.
for ping_id in expected_pings.iter().rev() {
match upload_manager.get_upload_task(&glean, false) {
PingUploadTask::Upload { request } => assert_eq!(&request.document_id, ping_id),
_ => panic!("Expected upload manager to return the next request!"),
}
}
// Verify that no other requests were returned,
// they should all have been deleted because pending pings quota was hit.
assert_eq!(
upload_manager.get_upload_task(&glean, false),
PingUploadTask::done()
);
// Verify that the correct number of deleted pings was recorded
assert_eq!(
(n - expected_number_of_pings) as i32,
upload_manager
.upload_metrics
.deleted_pings_after_quota_hit
.get_value(&glean, Some("metrics"))
.unwrap()
);
assert_eq!(
n as i32,
upload_manager
.upload_metrics
.pending_pings
.get_value(&glean, Some("metrics"))
.unwrap()
);
}
#[test]
fn size_and_count_quota_work_together_count_first() {
let (mut glean, dir) = new_glean(None);
// Register a ping for testing
let ping_type = PingType::new(
"test",
true,
/* send_if_empty */ true,
true,
true,
true,
vec![],
vec![],
);
glean.register_ping_type(&ping_type);
let expected_number_of_pings = 2;
// The number of pings we fill the pending pings directory with.
let n = 10;
// Submit the ping multiple times
for _ in 0..n {
ping_type.submit_sync(&glean, None);
}
let directory_manager = PingDirectoryManager::new(dir.path());
let pending_pings = directory_manager.process_dirs().pending_pings;
// The pending pings array is sorted by date in ascending order,
// the newest element is the last one.
let expected_pings = pending_pings
.iter()
.rev()
.take(expected_number_of_pings)
.map(|(_, ping)| ping.document_id.clone())
.collect::<Vec<_>>();
// Create a new upload manager pointing to the same data_path as the glean instance.
let mut upload_manager = PingUploadManager::no_policy(dir.path());
// From manual testing we figured out an empty ping file is 324bytes,
// so this allows 3 pings.
upload_manager
.policy
.set_max_pending_pings_directory_size(Some(1000));
upload_manager.policy.set_max_pending_pings_count(Some(2));
// Get a task once
// One ping should have been enqueued.
// Make sure it is the newest ping.
for ping_id in expected_pings.iter().rev() {
match upload_manager.get_upload_task(&glean, false) {
PingUploadTask::Upload { request } => assert_eq!(&request.document_id, ping_id),
_ => panic!("Expected upload manager to return the next request!"),
}
}
// Verify that no other requests were returned,
// they should all have been deleted because pending pings quota was hit.
assert_eq!(
upload_manager.get_upload_task(&glean, false),
PingUploadTask::done()
);
// Verify that the correct number of deleted pings was recorded
assert_eq!(
(n - expected_number_of_pings) as i32,
upload_manager
.upload_metrics
.deleted_pings_after_quota_hit
.get_value(&glean, Some("metrics"))
.unwrap()
);
assert_eq!(
n as i32,
upload_manager
.upload_metrics
.pending_pings
.get_value(&glean, Some("metrics"))
.unwrap()
);
}
#[test]
fn maximum_wait_attemps_is_enforced() {
let (glean, dir) = new_glean(None);
let mut upload_manager = PingUploadManager::no_policy(dir.path());
// Define a max_wait_attemps policy, this is disabled for tests by default.
let max_wait_attempts = 3;
upload_manager
.policy
.set_max_wait_attempts(Some(max_wait_attempts));
// Add a rate limiter to the upload mangager with max of 1 ping 5secs.
//
// We arbitrarily set the maximum pings per interval to a very low number,
// when the rate limiter reaches it's limit get_upload_task returns a PingUploadTask::Wait,
// which will allow us to test the limitations around returning too many of those in a row.
let secs_per_interval = 5;
let max_pings_per_interval = 1;
upload_manager.set_rate_limiter(secs_per_interval, max_pings_per_interval);
// Enqueue two pings
upload_manager.enqueue_ping(
&glean,
PingPayload {
document_id: Uuid::new_v4().to_string(),
upload_path: PATH.into(),
json_body: "".into(),
headers: None,
body_has_info_sections: true,
ping_name: "ping-name".into(),
},
);
upload_manager.enqueue_ping(
&glean,
PingPayload {
document_id: Uuid::new_v4().to_string(),
upload_path: PATH.into(),
json_body: "".into(),
headers: None,
body_has_info_sections: true,
ping_name: "ping-name".into(),
},
);
// Get the first ping, it should be returned normally.
match upload_manager.get_upload_task(&glean, false) {
PingUploadTask::Upload { .. } => {}
_ => panic!("Expected upload manager to return the next request!"),
}
// Try to get the next ping,
// we should be throttled and thus get a PingUploadTask::Wait.
// Check that we are indeed allowed to get this response as many times as expected.
for _ in 0..max_wait_attempts {
let task = upload_manager.get_upload_task(&glean, false);
assert!(task.is_wait());
}
// Check that after we get PingUploadTask::Wait the allowed number of times,
// we then get PingUploadTask::Done.
assert_eq!(
upload_manager.get_upload_task(&glean, false),
PingUploadTask::done()
);
// Wait for the rate limiter to allow upload tasks again.
thread::sleep(Duration::from_secs(secs_per_interval));
// Check that we are allowed again to get pings.
let task = upload_manager.get_upload_task(&glean, false);
assert!(task.is_upload());
// And once we are done we don't need to wait anymore.
assert_eq!(
upload_manager.get_upload_task(&glean, false),
PingUploadTask::done()
);
}
#[test]
fn wait_task_contains_expected_wait_time_when_pending_pings_dir_not_processed_yet() {
let (glean, dir) = new_glean(None);
let upload_manager = PingUploadManager::new(dir.path(), "test");
match upload_manager.get_upload_task(&glean, false) {
PingUploadTask::Wait { time } => {
assert_eq!(time, WAIT_TIME_FOR_PING_PROCESSING);
}
_ => panic!("Expected upload manager to return a wait task!"),
};
}
#[test]
fn cannot_enqueue_ping_while_its_being_processed() {
let (glean, dir) = new_glean(None);
let upload_manager = PingUploadManager::no_policy(dir.path());
// Enqueue a ping and start processing it
let identifier = &Uuid::new_v4();
let ping = PingPayload {
document_id: identifier.to_string(),
upload_path: PATH.into(),
json_body: "".into(),
headers: None,
body_has_info_sections: true,
ping_name: "ping-name".into(),
};
upload_manager.enqueue_ping(&glean, ping);
assert!(upload_manager.get_upload_task(&glean, false).is_upload());
// Attempt to re-enqueue the same ping
let ping = PingPayload {
document_id: identifier.to_string(),
upload_path: PATH.into(),
json_body: "".into(),
headers: None,
body_has_info_sections: true,
ping_name: "ping-name".into(),
};
upload_manager.enqueue_ping(&glean, ping);
// No new pings should have been enqueued so the upload task is Done.
assert_eq!(
upload_manager.get_upload_task(&glean, false),
PingUploadTask::done()
);
// Process the upload response
upload_manager.process_ping_upload_response(
&glean,
&identifier.to_string(),
UploadResult::http_status(200),
);
}
}