/* import-globals-from head_cache.js */ /* import-globals-from head_channels.js */ "use strict"; var callbacks = []; // Expect an existing entry const NORMAL = 0; // Expect a new entry const NEW = 1 << 0; // Return early from onCacheEntryCheck and set the callback to state it expects onCacheEntryCheck to happen const NOTVALID = 1 << 1; // Throw from onCacheEntryAvailable const THROWAVAIL = 1 << 2; // Open entry for reading-only const READONLY = 1 << 3; // Expect the entry to not be found const NOTFOUND = 1 << 4; // Return ENTRY_NEEDS_REVALIDATION from onCacheEntryCheck const REVAL = 1 << 5; // Return ENTRY_PARTIAL from onCacheEntryCheck, in combo with NEW or RECREATE bypasses check for emptiness of the entry const PARTIAL = 1 << 6; // Expect the entry is doomed, i.e. the output stream should not be possible to open const DOOMED = 1 << 7; // Don't trigger the go-on callback until the entry is written const WAITFORWRITE = 1 << 8; // Don't write data (i.e. don't open output stream) const METAONLY = 1 << 9; // Do recreation of an existing cache entry const RECREATE = 1 << 10; // Do not give me the entry const NOTWANTED = 1 << 11; // Tell the cache to wait for the entry to be completely written first const COMPLETE = 1 << 12; // Don't write meta/data and don't set valid in the callback, consumer will do it manually const DONTFILL = 1 << 13; // Used in combination with METAONLY, don't call setValid() on the entry after metadata has been set const DONTSETVALID = 1 << 14; // Notify before checking the data, useful for proper callback ordering checks const NOTIFYBEFOREREAD = 1 << 15; // It's allowed to not get an existing entry (result of opening is undetermined) const MAYBE_NEW = 1 << 16; var log_c2 = true; function LOG_C2(o, m) { if (!log_c2) { return; } if (!m) { dump("TEST-INFO | CACHE2: " + o + "\n"); } else { dump( "TEST-INFO | CACHE2: callback #" + o.order + "(" + (o.workingData ? o.workingData.substr(0, 10) : "---") + ") " + m + "\n" ); } } function pumpReadStream(inputStream, goon) { if (inputStream.isNonBlocking()) { // non-blocking stream, must read via pump var pump = Cc["@mozilla.org/network/input-stream-pump;1"].createInstance( Ci.nsIInputStreamPump ); pump.init(inputStream, 0, 0, true); let data = ""; pump.asyncRead({ onStartRequest() {}, onDataAvailable(aRequest, aInputStream) { var wrapper = Cc["@mozilla.org/scriptableinputstream;1"].createInstance( Ci.nsIScriptableInputStream ); wrapper.init(aInputStream); var str = wrapper.read(wrapper.available()); LOG_C2("reading data '" + str.substring(0, 5) + "'"); data += str; }, onStopRequest(aRequest, aStatusCode) { LOG_C2("done reading data: " + aStatusCode); Assert.equal(aStatusCode, Cr.NS_OK); goon(data); }, }); } else { // blocking stream let data = read_stream(inputStream, inputStream.available()); goon(data); } } OpenCallback.prototype = { QueryInterface: ChromeUtils.generateQI(["nsICacheEntryOpenCallback"]), onCacheEntryCheck(entry) { LOG_C2(this, "onCacheEntryCheck"); Assert.ok(!this.onCheckPassed); this.onCheckPassed = true; if (this.behavior & NOTVALID) { LOG_C2(this, "onCacheEntryCheck DONE, return ENTRY_WANTED"); return Ci.nsICacheEntryOpenCallback.ENTRY_WANTED; } if (this.behavior & NOTWANTED) { LOG_C2(this, "onCacheEntryCheck DONE, return ENTRY_NOT_WANTED"); return Ci.nsICacheEntryOpenCallback.ENTRY_NOT_WANTED; } Assert.equal(entry.getMetaDataElement("meto"), this.workingMetadata); // check for sane flag combination Assert.notEqual(this.behavior & (REVAL | PARTIAL), REVAL | PARTIAL); if (this.behavior & (REVAL | PARTIAL)) { LOG_C2(this, "onCacheEntryCheck DONE, return ENTRY_NEEDS_REVALIDATION"); return Ci.nsICacheEntryOpenCallback.ENTRY_NEEDS_REVALIDATION; } if (this.behavior & COMPLETE) { LOG_C2( this, "onCacheEntryCheck DONE, return RECHECK_AFTER_WRITE_FINISHED" ); // Specific to the new backend because of concurrent read/write: // when a consumer returns RECHECK_AFTER_WRITE_FINISHED from onCacheEntryCheck // the cache calls this callback again after the entry write has finished. // This gives the consumer a chance to recheck completeness of the entry // again. // Thus, we reset state as onCheck would have never been called. this.onCheckPassed = false; // Don't return RECHECK_AFTER_WRITE_FINISHED on second call of onCacheEntryCheck. this.behavior &= ~COMPLETE; return Ci.nsICacheEntryOpenCallback.RECHECK_AFTER_WRITE_FINISHED; } LOG_C2(this, "onCacheEntryCheck DONE, return ENTRY_WANTED"); return Ci.nsICacheEntryOpenCallback.ENTRY_WANTED; }, onCacheEntryAvailable(entry, isnew, status) { if (this.behavior & MAYBE_NEW && isnew) { this.behavior |= NEW; } LOG_C2(this, "onCacheEntryAvailable, " + this.behavior); Assert.ok(!this.onAvailPassed); this.onAvailPassed = true; Assert.equal(isnew, !!(this.behavior & NEW)); if (this.behavior & (NOTFOUND | NOTWANTED)) { Assert.equal(status, Cr.NS_ERROR_CACHE_KEY_NOT_FOUND); Assert.ok(!entry); if (this.behavior & THROWAVAIL) { this.throwAndNotify(entry); } this.goon(entry); } else if (this.behavior & (NEW | RECREATE)) { Assert.ok(!!entry); if (this.behavior & RECREATE) { entry = entry.recreate(); Assert.ok(!!entry); } if (this.behavior & THROWAVAIL) { this.throwAndNotify(entry); } if (!(this.behavior & WAITFORWRITE)) { this.goon(entry); } if (!(this.behavior & PARTIAL)) { try { entry.getMetaDataElement("meto"); Assert.ok(false); } catch (ex) {} } if (this.behavior & DONTFILL) { Assert.equal(false, this.behavior & WAITFORWRITE); return; } let self = this; executeSoon(function () { // emulate network latency entry.setMetaDataElement("meto", self.workingMetadata); entry.metaDataReady(); if (self.behavior & METAONLY) { // Since forcing GC/CC doesn't trigger OnWriterClosed, we have to set the entry valid manually :( if (!(self.behavior & DONTSETVALID)) { entry.setValid(); } entry.close(); if (self.behavior & WAITFORWRITE) { self.goon(entry); } return; } executeSoon(function () { // emulate more network latency if (self.behavior & DOOMED) { LOG_C2(self, "checking doom state"); try { let os = entry.openOutputStream(0, -1); // Unfortunately, in the undetermined state we cannot even check whether the entry // is actually doomed or not. os.close(); Assert.ok(!!(self.behavior & MAYBE_NEW)); } catch (ex) { Assert.ok(true); } if (self.behavior & WAITFORWRITE) { self.goon(entry); } return; } var offset = self.behavior & PARTIAL ? entry.dataSize : 0; LOG_C2(self, "openOutputStream @ " + offset); let os = entry.openOutputStream(offset, -1); LOG_C2(self, "writing data"); var wrt = os.write(self.workingData, self.workingData.length); Assert.equal(wrt, self.workingData.length); os.close(); if (self.behavior & WAITFORWRITE) { self.goon(entry); } entry.close(); }); }); } else { // NORMAL Assert.ok(!!entry); Assert.equal(entry.getMetaDataElement("meto"), this.workingMetadata); if (this.behavior & THROWAVAIL) { this.throwAndNotify(entry); } if (this.behavior & NOTIFYBEFOREREAD) { this.goon(entry, true); } let self = this; pumpReadStream(entry.openInputStream(0), function (data) { Assert.equal(data, self.workingData); self.onDataCheckPassed = true; LOG_C2(self, "entry read done"); self.goon(entry); entry.close(); }); } }, selfCheck() { LOG_C2(this, "selfCheck"); Assert.ok(this.onCheckPassed || this.behavior & MAYBE_NEW); Assert.ok(this.onAvailPassed); Assert.ok(this.onDataCheckPassed || this.behavior & MAYBE_NEW); }, throwAndNotify(entry) { LOG_C2(this, "Throwing"); var self = this; executeSoon(function () { LOG_C2(self, "Notifying"); self.goon(entry); }); throw Components.Exception("", Cr.NS_ERROR_FAILURE); }, }; function OpenCallback(behavior, workingMetadata, workingData, goon) { this.behavior = behavior; this.workingMetadata = workingMetadata; this.workingData = workingData; this.goon = goon; this.onCheckPassed = (!!(behavior & (NEW | RECREATE)) || !workingMetadata) && !(behavior & NOTVALID); this.onAvailPassed = false; this.onDataCheckPassed = !!(behavior & (NEW | RECREATE | NOTWANTED)) || !workingMetadata; callbacks.push(this); this.order = callbacks.length; } VisitCallback.prototype = { QueryInterface: ChromeUtils.generateQI(["nsICacheStorageVisitor"]), onCacheStorageInfo(num, consumption) { LOG_C2(this, "onCacheStorageInfo: num=" + num + ", size=" + consumption); Assert.equal(this.num, num); Assert.equal(this.consumption, consumption); if (!this.entries) { this.notify(); } }, onCacheEntryInfo( aURI, aIdEnhance, aDataSize, aAltDataSize, aFetchCount, aLastModifiedTime, aExpirationTime, aPinned, aInfo ) { var key = (aIdEnhance ? aIdEnhance + ":" : "") + aURI.asciiSpec; LOG_C2(this, "onCacheEntryInfo: key=" + key); function findCacheIndex(element) { if (typeof element === "string") { return element === key; } else if (typeof element === "object") { return ( element.uri === key && element.lci.isAnonymous === aInfo.isAnonymous && ChromeUtils.isOriginAttributesEqual( element.lci.originAttributes, aInfo.originAttributes ) ); } return false; } Assert.ok(!!this.entries); var index = this.entries.findIndex(findCacheIndex); Assert.ok(index > -1); this.entries.splice(index, 1); }, onCacheEntryVisitCompleted() { LOG_C2(this, "onCacheEntryVisitCompleted"); if (this.entries) { Assert.equal(this.entries.length, 0); } this.notify(); }, notify() { Assert.ok(!!this.goon); var goon = this.goon; this.goon = null; executeSoon(goon); }, selfCheck() { Assert.ok(!this.entries || !this.entries.length); }, }; function VisitCallback(num, consumption, entries, goon) { this.num = num; this.consumption = consumption; this.entries = entries; this.goon = goon; callbacks.push(this); this.order = callbacks.length; } EvictionCallback.prototype = { QueryInterface: ChromeUtils.generateQI(["nsICacheEntryDoomCallback"]), onCacheEntryDoomed(result) { Assert.equal(this.expectedSuccess, result == Cr.NS_OK); this.goon(); }, selfCheck() {}, }; function EvictionCallback(success, goon) { this.expectedSuccess = success; this.goon = goon; callbacks.push(this); this.order = callbacks.length; } MultipleCallbacks.prototype = { fired() { if (--this.pending == 0) { var self = this; if (this.delayed) { executeSoon(function () { self.goon(); }); } else { this.goon(); } } }, add() { ++this.pending; }, }; function MultipleCallbacks(number, goon, delayed) { this.pending = number; this.goon = goon; this.delayed = delayed; } function wait_for_cache_index(continue_func) { // This callback will not fire before the index is in the ready state. nsICacheStorage.exists() will // no longer throw after this point. Services.cache2.asyncGetDiskConsumption({ onNetworkCacheDiskConsumption() { continue_func(); }, // eslint-disable-next-line mozilla/use-chromeutils-generateqi QueryInterface() { return this; }, }); } function finish_cache2_test() { callbacks.forEach(function (callback) { callback.selfCheck(); }); do_test_finished(); }