gecko-dev/netwerk/test/unit/test_cache2-30d-pinning-Was...

149 строки
4.1 KiB
JavaScript

/*
This test exercises the CacheFileContextEvictor::WasEvicted API and code using it.
- We store 10+10 (pinned and non-pinned) entries to the cache, wait for them being written.
- Then we purge the memory pools.
- Now the IO thread is suspended on the EVICT (7) level to prevent actual deletion of the files.
- Index is disabled.
- We do clear() of the cache, this creates the "ce_*" file and posts to the EVICT level
the eviction loop mechanics.
- We open again those 10+10 entries previously stored.
- IO is resumed
- We expect to get all the pinned and
loose all the non-pinned (common) entries.
*/
"use strict";
const kENTRYCOUNT = 10;
function log_(msg) {
if (true) {
dump(">>>>>>>>>>>>> " + msg + "\n");
}
}
function run_test() {
do_get_profile();
var lci = Services.loadContextInfo.default;
var testingInterface = Services.cache2.QueryInterface(Ci.nsICacheTesting);
Assert.ok(testingInterface);
var mc = new MultipleCallbacks(
1,
function() {
// (2)
mc = new MultipleCallbacks(1, finish_cache2_test);
// Release all references to cache entries so that they can be purged
// Calling gc() four times is needed to force it to actually release
// entries that are obviously unreferenced. Yeah, I know, this is wacky...
gc();
gc();
executeSoon(() => {
gc();
gc();
log_("purging");
// Invokes cacheservice:purge-memory-pools when done.
Services.cache2.purgeFromMemory(
Ci.nsICacheStorageService.PURGE_EVERYTHING
); // goes to (3)
});
},
true
);
// (1), here we start
log_("first set of opens");
var i;
for (i = 0; i < kENTRYCOUNT; ++i) {
// Callbacks 1-20
mc.add();
asyncOpenCacheEntry(
"http://pinned" + i + "/",
"pin",
Ci.nsICacheStorage.OPEN_TRUNCATE,
lci,
new OpenCallback(NEW | WAITFORWRITE, "m" + i, "p" + i, function(entry) {
mc.fired();
})
);
mc.add();
asyncOpenCacheEntry(
"http://common" + i + "/",
"disk",
Ci.nsICacheStorage.OPEN_TRUNCATE,
lci,
new OpenCallback(NEW | WAITFORWRITE, "m" + i, "d" + i, function(entry) {
mc.fired();
})
);
}
mc.fired(); // Goes to (2)
Services.obs.addObserver(
{
observe(subject, topic, data) {
// (3)
log_("after purge");
// Prevent the I/O thread from evicting physically the data. We first want to re-open the entries.
// This deterministically emulates a slow hard drive.
testingInterface.suspendCacheIOThread(7);
log_("clearing");
// Now clear everything except pinned. Stores the "ce_*" file and schedules background eviction.
Services.cache2.clear();
log_("cleared");
log_("second set of opens");
// Now open again. Pinned entries should be there, disk entries should be the renewed entries.
// Callbacks 21-40
for (i = 0; i < kENTRYCOUNT; ++i) {
mc.add();
asyncOpenCacheEntry(
"http://pinned" + i + "/",
"disk",
Ci.nsICacheStorage.OPEN_NORMALLY,
lci,
new OpenCallback(NORMAL, "m" + i, "p" + i, function(entry) {
mc.fired();
})
);
mc.add();
asyncOpenCacheEntry(
"http://common" + i + "/",
"disk",
Ci.nsICacheStorage.OPEN_NORMALLY,
lci,
new OpenCallback(NEW, "m2" + i, "d2" + i, function(entry) {
mc.fired();
})
);
}
// Resume IO, this will just pop-off the CacheFileContextEvictor::EvictEntries() because of
// an early check on CacheIOThread::YieldAndRerun() in that method.
// CacheFileIOManager::OpenFileInternal should now run and CacheFileContextEvictor::WasEvicted
// should be checked on.
log_("resuming");
testingInterface.resumeCacheIOThread();
log_("resumed");
mc.fired(); // Finishes this test
},
},
"cacheservice:purge-memory-pools"
);
do_test_pending();
}