core: Workaround retry causing memory leak

Data is getting orphaned sitting in MessageFramer. This hack thus always flushes data out of the framer so no data can remain sitting there. See #9340
grpc · Jul 15, 2022 · 4cb1fba · 4cb1fba
1 parent 6609f11
commit 4cb1fba
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Showing 2 changed files with 69 additions and 12 deletions.
diff --git a/core/src/main/java/io/grpc/internal/RetriableStream.java b/core/src/main/java/io/grpc/internal/RetriableStream.java
@@ -550,6 +550,10 @@ class SendMessageEntry implements BufferEntry {
       @Override
       public void runWith(Substream substream) {
         substream.stream.writeMessage(method.streamRequest(message));
+        // TODO(ejona): Workaround Netty memory leak. Message writes always need to be followed by
+        // flushes (or half close), but retry appears to have a code path that the flushes may
+        // not happen. The code needs to be fixed and this removed. See #9340.
+        substream.stream.flush();
       }
     }
 

diff --git a/core/src/test/java/io/grpc/internal/RetriableStreamTest.java b/core/src/test/java/io/grpc/internal/RetriableStreamTest.java
@@ -268,10 +268,14 @@ public Void answer(InvocationOnMock in) {
     retriableStream.sendMessage("msg3");
     retriableStream.request(456);
 
-    inOrder.verify(mockStream1, times(2)).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream1).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream1).flush(); // Memory leak workaround
+    inOrder.verify(mockStream1).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream1).flush(); // Memory leak workaround
     inOrder.verify(mockStream1).request(345);
     inOrder.verify(mockStream1, times(2)).flush();
     inOrder.verify(mockStream1).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream1).flush(); // Memory leak workaround
     inOrder.verify(mockStream1).request(456);
     inOrder.verifyNoMoreInteractions();
 
@@ -304,12 +308,19 @@ public Void answer(InvocationOnMock in) {
     ArgumentCaptor<ClientStreamListener> sublistenerCaptor2 =
         ArgumentCaptor.forClass(ClientStreamListener.class);
     inOrder.verify(mockStream2).start(sublistenerCaptor2.capture());
-    inOrder.verify(mockStream2, times(2)).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).flush(); // Memory leak workaround
+    inOrder.verify(mockStream2).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).flush(); // Memory leak workaround
     inOrder.verify(mockStream2).request(345);
     inOrder.verify(mockStream2, times(2)).flush();
     inOrder.verify(mockStream2).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).flush(); // Memory leak workaround
     inOrder.verify(mockStream2).request(456);
-    inOrder.verify(mockStream2, times(2)).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).flush(); // Memory leak workaround
+    inOrder.verify(mockStream2).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).flush(); // Memory leak workaround
     inOrder.verify(mockStream2).isReady();
     inOrder.verifyNoMoreInteractions();
 
@@ -319,7 +330,10 @@ public Void answer(InvocationOnMock in) {
 
     // mockStream1 is closed so it is not in the drainedSubstreams
     verifyNoMoreInteractions(mockStream1);
-    inOrder.verify(mockStream2, times(2)).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).flush(); // Memory leak workaround
+    inOrder.verify(mockStream2).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).flush(); // Memory leak workaround
 
     // retry2
     doReturn(mockStream3).when(retriableStreamRecorder).newSubstream(2);
@@ -353,12 +367,19 @@ public Void answer(InvocationOnMock in) {
     ArgumentCaptor<ClientStreamListener> sublistenerCaptor3 =
         ArgumentCaptor.forClass(ClientStreamListener.class);
     inOrder.verify(mockStream3).start(sublistenerCaptor3.capture());
-    inOrder.verify(mockStream3, times(2)).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream3).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream3).flush(); // Memory leak workaround
+    inOrder.verify(mockStream3).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream3).flush(); // Memory leak workaround
     inOrder.verify(mockStream3).request(345);
     inOrder.verify(mockStream3, times(2)).flush();
     inOrder.verify(mockStream3).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream3).flush(); // Memory leak workaround
     inOrder.verify(mockStream3).request(456);
-    inOrder.verify(mockStream3, times(7)).writeMessage(any(InputStream.class));
+    for (int i = 0; i < 7; i++) {
+      inOrder.verify(mockStream3).writeMessage(any(InputStream.class));
+      inOrder.verify(mockStream3).flush(); // Memory leak workaround
+    }
     inOrder.verify(mockStream3).isReady();
     inOrder.verifyNoMoreInteractions();
 
@@ -1958,10 +1979,14 @@ public Void answer(InvocationOnMock in) {
     hedgingStream.sendMessage("msg3");
     hedgingStream.request(456);
 
-    inOrder.verify(mockStream1, times(2)).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream1).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream1).flush(); // Memory leak workaround
+    inOrder.verify(mockStream1).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream1).flush(); // Memory leak workaround
     inOrder.verify(mockStream1).request(345);
     inOrder.verify(mockStream1, times(2)).flush();
     inOrder.verify(mockStream1).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream1).flush(); // Memory leak workaround
     inOrder.verify(mockStream1).request(456);
     inOrder.verifyNoMoreInteractions();
 
@@ -1984,10 +2009,14 @@ public Void answer(InvocationOnMock in) {
     ArgumentCaptor<ClientStreamListener> sublistenerCaptor2 =
         ArgumentCaptor.forClass(ClientStreamListener.class);
     inOrder.verify(mockStream2).start(sublistenerCaptor2.capture());
-    inOrder.verify(mockStream2, times(2)).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).flush(); // Memory leak workaround
+    inOrder.verify(mockStream2).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).flush(); // Memory leak workaround
     inOrder.verify(mockStream2).request(345);
     inOrder.verify(mockStream2, times(2)).flush();
     inOrder.verify(mockStream2).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).flush(); // Memory leak workaround
     inOrder.verify(mockStream2).request(456);
     inOrder.verify(mockStream1).isReady();
     inOrder.verify(mockStream2).isReady();
@@ -1998,9 +2027,13 @@ public Void answer(InvocationOnMock in) {
     hedgingStream.sendMessage("msg2 after hedge2 starts");
 
     inOrder.verify(mockStream1).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream1).flush(); // Memory leak workaround
     inOrder.verify(mockStream2).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).flush(); // Memory leak workaround
     inOrder.verify(mockStream1).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream1).flush(); // Memory leak workaround
     inOrder.verify(mockStream2).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).flush(); // Memory leak workaround
     inOrder.verifyNoMoreInteractions();
 
 
@@ -2022,12 +2055,19 @@ public Void answer(InvocationOnMock in) {
     ArgumentCaptor<ClientStreamListener> sublistenerCaptor3 =
         ArgumentCaptor.forClass(ClientStreamListener.class);
     inOrder.verify(mockStream3).start(sublistenerCaptor3.capture());
-    inOrder.verify(mockStream3, times(2)).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream3).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream3).flush(); // Memory leak workaround
+    inOrder.verify(mockStream3).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream3).flush(); // Memory leak workaround
     inOrder.verify(mockStream3).request(345);
     inOrder.verify(mockStream3, times(2)).flush();
     inOrder.verify(mockStream3).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream3).flush(); // Memory leak workaround
     inOrder.verify(mockStream3).request(456);
-    inOrder.verify(mockStream3, times(2)).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream3).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream3).flush(); // Memory leak workaround
+    inOrder.verify(mockStream3).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream3).flush(); // Memory leak workaround
     inOrder.verify(mockStream1).isReady();
     inOrder.verify(mockStream2).isReady();
     inOrder.verify(mockStream3).isReady();
@@ -2036,8 +2076,11 @@ public Void answer(InvocationOnMock in) {
     // send one more message
     hedgingStream.sendMessage("msg1 after hedge3 starts");
     inOrder.verify(mockStream1).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream1).flush(); // Memory leak workaround
     inOrder.verify(mockStream2).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).flush(); // Memory leak workaround
     inOrder.verify(mockStream3).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream3).flush(); // Memory leak workaround
 
     // hedge3 receives nonFatalStatus
     sublistenerCaptor3.getValue().closed(
@@ -2047,7 +2090,9 @@ public Void answer(InvocationOnMock in) {
     // send one more message
     hedgingStream.sendMessage("msg1 after hedge3 fails");
     inOrder.verify(mockStream1).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream1).flush(); // Memory leak workaround
     inOrder.verify(mockStream2).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream2).flush(); // Memory leak workaround
 
     // the hedge mockStream4 starts
     fakeClock.forwardTime(HEDGING_DELAY_IN_SECONDS, TimeUnit.SECONDS);
@@ -2067,12 +2112,19 @@ public Void answer(InvocationOnMock in) {
     ArgumentCaptor<ClientStreamListener> sublistenerCaptor4 =
         ArgumentCaptor.forClass(ClientStreamListener.class);
     inOrder.verify(mockStream4).start(sublistenerCaptor4.capture());
-    inOrder.verify(mockStream4, times(2)).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream4).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream4).flush(); // Memory leak workaround
+    inOrder.verify(mockStream4).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream4).flush(); // Memory leak workaround
     inOrder.verify(mockStream4).request(345);
     inOrder.verify(mockStream4, times(2)).flush();
     inOrder.verify(mockStream4).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream4).flush(); // Memory leak workaround
     inOrder.verify(mockStream4).request(456);
-    inOrder.verify(mockStream4, times(4)).writeMessage(any(InputStream.class));
+    for (int i = 0; i < 4; i++) {
+      inOrder.verify(mockStream4).writeMessage(any(InputStream.class));
+      inOrder.verify(mockStream4).flush(); // Memory leak workaround
+    }
     inOrder.verify(mockStream1).isReady();
     inOrder.verify(mockStream2).isReady();
     inOrder.verify(mockStream4).isReady();
@@ -2190,6 +2242,7 @@ public void hedging_maxAttempts() {
 
     hedgingStream.sendMessage("msg1 after commit");
     inOrder.verify(mockStream3).writeMessage(any(InputStream.class));
+    inOrder.verify(mockStream3).flush(); // Memory leak workaround
     inOrder.verifyNoMoreInteractions();
 
     Metadata heders = new Metadata();