Better encapsulate RingBuff ctx managment methods and support non ipc usage

Add trio.StrictFIFOLock on sender.send_all Support max_bytes argument on receive_some, keep track of write_ptr on receiver Add max_bytes receive test test_ringbuf_max_bytes Add docstrings to all ringbuf tests Remove EFD_NONBLOCK support, not necesary anymore since we can use abandon_on_cancel=True on trio.to_thread.run_sync Close eventfd's after usage on open_ringbuf
2025-03-16 17:50:13 -03:00 · 2025-03-16 17:50:13 -03:00 · d6721f06df
parent 3c5420f4c9
commit d6721f06df
2 changed files with 153 additions and 81 deletions
--- a/tests/test_ringbuf.py
+++ b/tests/test_ringbuf.py
@ -58,6 +58,8 @@ async def child_write_shm(
        for msg in msgs:
            await sender.send_all(msg)
    print('writer exit')
@pytest.mark.parametrize(
    'msg_amount,rand_min,rand_max,buf_size',
@ -83,6 +85,15 @@ def test_ringbuf(
    rand_max: int,
    buf_size: int
 ):
    '''
    - Open a new ring buf on root actor
    - Create a sender subactor and generate {msg_amount} messages
    optionally with a random amount of bytes at the end of each,
    return total_bytes on `ctx.started`, then send all messages
    - Create a receiver subactor and receive until total_bytes are
    read, print simple perf stats.
    '''
    async def main():
        with open_ringbuf(
            'test_ringbuf',
@ -140,6 +151,11 @@ async def child_blocked_receiver(
 def test_ring_reader_cancel():
    '''
    Test that a receiver blocked on eventfd(2) read responds to
    cancellation.
    '''
    async def main():
        with open_ringbuf('test_ring_cancel_reader') as token:
            async with (
@ -178,6 +194,11 @@ async def child_blocked_sender(
 def test_ring_sender_cancel():
    '''
    Test that a sender blocked on eventfd(2) read responds to
    cancellation.
    '''
    async def main():
        with open_ringbuf(
            'test_ring_cancel_sender',
@ -203,3 +224,36 @@ def test_ring_sender_cancel():
    with pytest.raises(tractor._exceptions.ContextCancelled):
        trio.run(main)
 def test_ringbuf_max_bytes():
    '''
    Test that RingBuffReceiver.receive_some's max_bytes optional
    argument works correctly, send a msg of size 100, then
    force receive of messages with max_bytes == 1, wait until
    100 of these messages are received, then compare join of
    msgs with original message
    '''
    msg = b''.join(str(i % 10).encode() for i in range(100))
    msgs = []
    async def main():
        with open_ringbuf(
            'test_ringbuf_max_bytes',
            buf_size=10
        ) as token:
            async with (
                trio.open_nursery() as n,
                RingBuffSender(token, is_ipc=False) as sender,
                RingBuffReceiver(token, is_ipc=False) as receiver
            ):
                n.start_soon(sender.send_all, msg)
                while len(msgs) < len(msg):
                    msg_part = await receiver.receive_some(max_bytes=1)
                    msg_part = bytes(msg_part)
                    assert len(msg_part) == 1
                    msgs.append(msg_part)
    trio.run(main)
    assert msg == b''.join(msgs)
--- a/tractor/ipc/_ringbuf.py
+++ b/tractor/ipc/_ringbuf.py
@ -28,11 +28,15 @@ from msgspec import (
 )
 from ._linux import (
    EFD_NONBLOCK,
    open_eventfd,
    close_eventfd,
    EventFD
 )
 from ._mp_bs import disable_mantracker
 from tractor.log import get_logger
 log = get_logger(__name__)
 disable_mantracker()
@ -64,8 +68,6 @@ class RBToken(Struct, frozen=True):
 def open_ringbuf(
    shm_name: str,
    buf_size: int = 10 * 1024,
    write_efd_flags: int = 0,
    wrap_efd_flags: int = 0
 ) -> RBToken:
    shm = SharedMemory(
        name=shm_name,
@ -75,16 +77,21 @@ def open_ringbuf(
    try:
        token = RBToken(
            shm_name=shm_name,
-            write_eventfd=open_eventfd(flags=write_efd_flags),
+            write_eventfd=open_eventfd(),
-            wrap_eventfd=open_eventfd(flags=wrap_efd_flags),
+            wrap_eventfd=open_eventfd(),
            buf_size=buf_size
        )
        yield token
        close_eventfd(token.write_eventfd)
        close_eventfd(token.wrap_eventfd)
    finally:
        shm.unlink()
 Buffer = bytes | bytearray | memoryview
 class RingBuffSender(trio.abc.SendStream):
    '''
    IPC Reliable Ring Buffer sender side implementation
@ -97,24 +104,26 @@ class RingBuffSender(trio.abc.SendStream):
        self,
        token: RBToken,
        start_ptr: int = 0,
        is_ipc: bool = True
    ):
-        token = RBToken.from_msg(token)
+        self._token = RBToken.from_msg(token)
-        self._shm = SharedMemory(
+        self._shm: SharedMemory | None = None
-            name=token.shm_name,
+        self._write_event = EventFD(self._token.write_eventfd, 'w')
-            size=token.buf_size,
+        self._wrap_event = EventFD(self._token.wrap_eventfd, 'r')
            create=False
        )
        self._write_event = EventFD(token.write_eventfd, 'w')
        self._wrap_event = EventFD(token.wrap_eventfd, 'r')
        self._ptr = start_ptr
        self._is_ipc = is_ipc
        self._send_lock = trio.StrictFIFOLock()
    @property
-    def key(self) -> str:
+    def name(self) -> str:
        if not self._shm:
            raise ValueError('shared memory not initialized yet!')
        return self._shm.name
    @property
    def size(self) -> int:
-        return self._shm.size
+        return self._token.buf_size
    @property
    def ptr(self) -> int:
@ -128,38 +137,48 @@ class RingBuffSender(trio.abc.SendStream):
    def wrap_fd(self) -> int:
        return self._wrap_event.fd
-    async def send_all(self, data: bytes | bytearray | memoryview):
+    async def send_all(self, data: Buffer):
-        # while data is larger than the remaining buf
+        async with self._send_lock:
-        target_ptr = self.ptr + len(data)
+            # while data is larger than the remaining buf
-        while target_ptr > self.size:
+            target_ptr = self.ptr + len(data)
-            # write all bytes that fit
+            while target_ptr > self.size:
-            remaining = self.size - self.ptr
+                # write all bytes that fit
-            self._shm.buf[self.ptr:] = data[:remaining]
+                remaining = self.size - self.ptr
-            # signal write and wait for reader wrap around
+                self._shm.buf[self.ptr:] = data[:remaining]
-            self._write_event.write(remaining)
+                # signal write and wait for reader wrap around
-            await self._wrap_event.read()
+                self._write_event.write(remaining)
                await self._wrap_event.read()
-            # wrap around and trim already written bytes
+                # wrap around and trim already written bytes
-            self._ptr = 0
+                self._ptr = 0
-            data = data[remaining:]
+                data = data[remaining:]
-            target_ptr = self._ptr + len(data)
+                target_ptr = self._ptr + len(data)
-        # remaining data fits on buffer
+            # remaining data fits on buffer
-        self._shm.buf[self.ptr:target_ptr] = data
+            self._shm.buf[self.ptr:target_ptr] = data
-        self._write_event.write(len(data))
+            self._write_event.write(len(data))
-        self._ptr = target_ptr
+            self._ptr = target_ptr
    async def wait_send_all_might_not_block(self):
        raise NotImplementedError
-    async def aclose(self):
+    def open(self):
-        self._write_event.close()
+        self._shm = SharedMemory(
-        self._wrap_event.close()
+            name=self._token.shm_name,
-        self._shm.close()
+            size=self._token.buf_size,
-
+            create=False
-    async def __aenter__(self):
+        )
        self._write_event.open()
        self._wrap_event.open()
    async def aclose(self):
        if self._is_ipc:
            self._write_event.close()
            self._wrap_event.close()
            self._shm.close()
    async def __aenter__(self):
        self.open()
        return self
@ -175,26 +194,25 @@ class RingBuffReceiver(trio.abc.ReceiveStream):
        self,
        token: RBToken,
        start_ptr: int = 0,
-        flags: int = 0
+        is_ipc: bool = True
    ):
-        token = RBToken.from_msg(token)
+        self._token = RBToken.from_msg(token)
-        self._shm = SharedMemory(
+        self._shm: SharedMemory | None = None
-            name=token.shm_name,
+        self._write_event = EventFD(self._token.write_eventfd, 'w')
-            size=token.buf_size,
+        self._wrap_event = EventFD(self._token.wrap_eventfd, 'r')
            create=False
        )
        self._write_event = EventFD(token.write_eventfd, 'w')
        self._wrap_event = EventFD(token.wrap_eventfd, 'r')
        self._ptr = start_ptr
-        self._flags = flags
+        self._write_ptr = start_ptr
        self._is_ipc = is_ipc
    @property
-    def key(self) -> str:
+    def name(self) -> str:
        if not self._shm:
            raise ValueError('shared memory not initialized yet!')
        return self._shm.name
    @property
    def size(self) -> int:
-        return self._shm.size
+        return self._token.buf_size
    @property
    def ptr(self) -> int:
@ -208,46 +226,46 @@ class RingBuffReceiver(trio.abc.ReceiveStream):
    def wrap_fd(self) -> int:
        return self._wrap_event.fd
-    async def receive_some(
+    async def receive_some(self, max_bytes: int | None = None) -> memoryview:
-        self,
+        delta = self._write_ptr - self._ptr
-        max_bytes: int | None = None,
+        if delta == 0:
        nb_timeout: float = 0.1
    ) -> memoryview:
        # if non blocking eventfd enabled, do polling
        # until next write, this allows signal handling
        if self._flags | EFD_NONBLOCK:
            delta = None
            while delta is None:
                try:
                    delta = await self._write_event.read()
                except OSError as e:
                    if e.errno == 'EAGAIN':
                        continue
                    raise e
        else:
            delta = await self._write_event.read()
            self._write_ptr += delta
        if isinstance(max_bytes, int):
            if max_bytes == 0:
                raise ValueError('if set, max_bytes must be > 0')
            delta = min(delta, max_bytes)
        target_ptr = self._ptr + delta
        # fetch next segment and advance ptr
-        next_ptr = self._ptr + delta
+        segment = self._shm.buf[self._ptr:target_ptr]
-        segment = self._shm.buf[self._ptr:next_ptr]
+        self._ptr = target_ptr
        self._ptr = next_ptr
-        if self.ptr == self.size:
+        if self._ptr == self.size:
            # reached the end, signal wrap around
            self._ptr = 0
            self._write_ptr = 0
            self._wrap_event.write(1)
        return segment
-    async def aclose(self):
+    def open(self):
-        self._write_event.close()
+        self._shm = SharedMemory(
-        self._wrap_event.close()
+            name=self._token.shm_name,
-        self._shm.close()
+            size=self._token.buf_size,
-
+            create=False
-    async def __aenter__(self):
+        )
        self._write_event.open()
        self._wrap_event.open()
    async def aclose(self):
        if self._is_ipc:
            self._write_event.close()
            self._wrap_event.close()
            self._shm.close()
    async def __aenter__(self):
        self.open()
        return self