From: Matt Corallo Date: Sun, 12 May 2024 19:36:42 +0000 (+0000) Subject: Avoid manual memory management in NioPeerHandler X-Git-Tag: v0.0.123.0^2~9 X-Git-Url: http://git.bitcoin.ninja/index.cgi?a=commitdiff_plain;h=fcd768b3fedc46704675725136578d70af42201d;p=ldk-java Avoid manual memory management in NioPeerHandler We still free the native memory optimistically, but avoid disabling the GC being able to free memory entirely. Fixes #157 --- diff --git a/src/main/java/org/ldk/batteries/NioPeerHandler.java b/src/main/java/org/ldk/batteries/NioPeerHandler.java index 172eca34..514d4b70 100644 --- a/src/main/java/org/ldk/batteries/NioPeerHandler.java +++ b/src/main/java/org/ldk/batteries/NioPeerHandler.java @@ -6,6 +6,8 @@ import org.ldk.structs.*; import java.io.IOException; import java.lang.reflect.Field; import java.lang.ref.Reference; +import java.lang.reflect.InvocationTargetException; +import java.lang.reflect.Method; import java.net.*; import java.util.LinkedList; import java.nio.Buffer; @@ -19,7 +21,6 @@ import java.nio.channels.*; public class NioPeerHandler { private static class Peer { SocketDescriptor descriptor; - long descriptor_raw_pointer; SelectionKey key; } @@ -48,14 +49,13 @@ public class NioPeerHandler { } } - static private Field CommonBasePointer; + static private Method ResultBoolPeerHandleError_Free; static { try { - Class c = PeerManager.class.getSuperclass(); - CommonBasePointer = c.getDeclaredField("ptr"); - CommonBasePointer.setAccessible(true); - long _dummy_check = CommonBasePointer.getLong(Ping.of((short)0, (short)0)); - } catch (NoSuchFieldException | IllegalAccessException e) { + Class c = Result_boolPeerHandleErrorZ.class; + ResultBoolPeerHandleError_Free = c.getDeclaredMethod("force_free"); + ResultBoolPeerHandleError_Free.setAccessible(true); + } catch (NoSuchMethodException e) { throw new IllegalArgumentException( "We currently use reflection to access protected fields as Java has no reasonable access controls", e); } @@ -105,12 +105,6 @@ public class NioPeerHandler { @Override public long hash() { return our_id; } }); peer.descriptor = descriptor; - try { - peer.descriptor_raw_pointer = CommonBasePointer.getLong(descriptor); - } catch (IllegalAccessException e) { - throw new IllegalArgumentException( - "We currently use reflection to access protected fields as Java has no reasonable access controls", e); - } return peer; } @@ -147,12 +141,6 @@ public class NioPeerHandler { byte[] max_buf_byte_object = new byte[BUF_SZ]; ByteBuffer buf = ByteBuffer.allocate(BUF_SZ); - long peer_manager_raw_pointer; - try { - peer_manager_raw_pointer = CommonBasePointer.getLong(this.peer_manager); - } catch (IllegalAccessException e) { - throw new RuntimeException(e); - } while (true) { try { if (IS_ANDROID) { @@ -215,14 +203,6 @@ public class NioPeerHandler { key.channel().close(); // This may throw, we read -1 so the channel should already be closed, but do this to be safe } else if (read > 0) { ((Buffer)buf).flip(); - // This code is quite hot during initial network graph sync, so we go a ways out of - // our way to avoid object allocations that'll make the GC sweat later - - // * when we're hot, we'll likely often be reading the full buffer, so we keep - // around a full-buffer-sized byte array to reuse across reads, - // * We use the manual memory management call logic directly in bindings instead of - // the nice "human-readable" wrappers. This puts us at risk of memory issues, - // so we indirectly ensure compile fails if the types change by writing the - // "human-readable" form of the same code in the dummy function below. byte[] read_bytes; if (read == BUF_SZ) { read_bytes = max_buf_byte_object; @@ -230,17 +210,21 @@ public class NioPeerHandler { read_bytes = new byte[read]; } buf.get(read_bytes, 0, read); - long read_result_pointer = bindings.PeerManager_read_event( - peer_manager_raw_pointer, peer.descriptor_raw_pointer, read_bytes); - if (bindings.CResult_boolPeerHandleErrorZ_is_ok(read_result_pointer)) { - if (bindings.CResult_boolPeerHandleErrorZ_get_ok(read_result_pointer)) { + Result_boolPeerHandleErrorZ read_res = this.peer_manager.read_event(peer.descriptor, read_bytes); + if (read_res instanceof Result_boolPeerHandleErrorZ.Result_boolPeerHandleErrorZ_OK) { + if (((Result_boolPeerHandleErrorZ.Result_boolPeerHandleErrorZ_OK) read_res).res) { key.interestOps(key.interestOps() & (~SelectionKey.OP_READ)); } + // Force the read_res to drop its native memory early (before finalize()) as this is + // pretty hot and we don't want to bloat native memory too long. + // Note that we only do this in the Ok case as its more trivially safe, the Err + // case has nested structs which will also free and may be confused if their pointer + // is dropped out from under them. + try { ResultBoolPeerHandleError_Free.invoke(read_res); } catch (Exception ignored) {} } else { key.cancel(); key.channel().close(); } - bindings.CResult_boolPeerHandleErrorZ_free(read_result_pointer); } } } catch (IOException ignored) { @@ -260,13 +244,6 @@ public class NioPeerHandler { io_thread.start(); } - // Ensure the types used in the above manual code match what they were when the code was written. - // Ensure the above manual bindings.* code changes if this fails to compile. - private void dummy_check_return_type_matches_manual_memory_code_above(Peer peer) { - byte[] read_bytes = new byte[32]; - Result_boolPeerHandleErrorZ res = this.peer_manager.read_event(peer.descriptor, read_bytes); - } - /** * Connect to a peer given their node id and socket address. Blocks until a connection is established (or returns * IOException) and then the connection handling runs in the background.