/* * stream.c: APIs for managing client streams * * Copyright (C) 2009 Red Hat, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * Author: Daniel P. Berrange */ #include #include "stream.h" #include "memory.h" #include "dispatch.h" #include "logging.h" static int remoteStreamHandleWrite(struct qemud_client *client, struct qemud_client_stream *stream); static int remoteStreamHandleRead(struct qemud_client *client, struct qemud_client_stream *stream); static int remoteStreamHandleFinish(struct qemud_client *client, struct qemud_client_stream *stream, struct qemud_client_message *msg); static int remoteStreamHandleAbort(struct qemud_client *client, struct qemud_client_stream *stream, struct qemud_client_message *msg); static void remoteStreamUpdateEvents(struct qemud_client_stream *stream) { int newEvents = 0; if (stream->rx) newEvents |= VIR_STREAM_EVENT_WRITABLE; if (stream->tx && !stream->recvEOF) newEvents |= VIR_STREAM_EVENT_READABLE; virStreamEventUpdateCallback(stream->st, newEvents); } /* * Callback that gets invoked when a stream becomes writable/readable */ static void remoteStreamEvent(virStreamPtr st, int events, void *opaque) { struct qemud_client *client = opaque; struct qemud_client_stream *stream; /* XXX sub-optimal - we really should be taking the server lock * first, but we have no handle to the server object * We're lucky to get away with it for now, due to this callback * executing in the main thread, but this should really be fixed */ virMutexLock(&client->lock); stream = remoteFindClientStream(client, st); if (!stream) { VIR_WARN("event for client=%p stream st=%p, but missing stream state", client, st); virStreamEventRemoveCallback(st); goto cleanup; } DEBUG("st=%p events=%d", st, events); if (events & VIR_STREAM_EVENT_WRITABLE) { if (remoteStreamHandleWrite(client, stream) < 0) { remoteRemoveClientStream(client, stream); qemudDispatchClientFailure(client); goto cleanup; } } if (!stream->recvEOF && (events & (VIR_STREAM_EVENT_READABLE | VIR_STREAM_EVENT_HANGUP))) { events = events & ~(VIR_STREAM_EVENT_READABLE | VIR_STREAM_EVENT_HANGUP); if (remoteStreamHandleRead(client, stream) < 0) { remoteRemoveClientStream(client, stream); qemudDispatchClientFailure(client); goto cleanup; } } if (!stream->closed && (events & (VIR_STREAM_EVENT_ERROR | VIR_STREAM_EVENT_HANGUP))) { int ret; remote_error rerr; memset(&rerr, 0, sizeof rerr); stream->closed = 1; virStreamAbort(stream->st); if (events & VIR_STREAM_EVENT_HANGUP) remoteDispatchFormatError(&rerr, "%s", _("stream had unexpected termination")); else remoteDispatchFormatError(&rerr, "%s", _("stream had I/O failure")); ret = remoteSerializeStreamError(client, &rerr, stream->procedure, stream->serial); remoteRemoveClientStream(client, stream); if (ret < 0) qemudDispatchClientFailure(client); goto cleanup; } if (stream->closed) { remoteRemoveClientStream(client, stream); } else { remoteStreamUpdateEvents(stream); } cleanup: virMutexUnlock(&client->lock); } /* * @client: a locked client object * * Invoked by the main loop when filtering incoming messages. * * Returns 1 if the message was processed, 0 if skipped, * -1 on fatal client error */ static int remoteStreamFilter(struct qemud_client *client, struct qemud_client_message *msg, void *opaque) { struct qemud_client_stream *stream = opaque; if (msg->hdr.serial == stream->serial && msg->hdr.proc == stream->procedure && msg->hdr.type == REMOTE_STREAM) { DEBUG("Incoming rx=%p serial=%d proc=%d status=%d", stream->rx, msg->hdr.proc, msg->hdr.serial, msg->hdr.status); /* If there are queued packets, we need to queue all further * messages, since they must be processed strictly in order. * If there are no queued packets, then OK/ERROR messages * should be processed immediately. Data packets are still * queued to only be processed when the stream is marked as * writable. */ if (stream->rx) { qemudClientMessageQueuePush(&stream->rx, msg); remoteStreamUpdateEvents(stream); } else { int ret = 0; switch (msg->hdr.status) { case REMOTE_OK: ret = remoteStreamHandleFinish(client, stream, msg); if (ret == 0) qemudClientMessageRelease(client, msg); break; case REMOTE_CONTINUE: qemudClientMessageQueuePush(&stream->rx, msg); remoteStreamUpdateEvents(stream); break; case REMOTE_ERROR: default: ret = remoteStreamHandleAbort(client, stream, msg); if (ret == 0) qemudClientMessageRelease(client, msg); break; } if (ret < 0) return -1; } return 1; } return 0; } /* * @conn: a connection object to associate the stream with * @hdr: the method call to associate with the stram * * Creates a new stream for this conn * * Returns a new stream object, or NULL upon OOM */ struct qemud_client_stream * remoteCreateClientStream(virConnectPtr conn, remote_message_header *hdr) { struct qemud_client_stream *stream; DEBUG("proc=%d serial=%d", hdr->proc, hdr->serial); if (VIR_ALLOC(stream) < 0) return NULL; stream->procedure = hdr->proc; stream->serial = hdr->serial; stream->st = virStreamNew(conn, VIR_STREAM_NONBLOCK); if (!stream->st) { VIR_FREE(stream); return NULL; } stream->filter.query = remoteStreamFilter; stream->filter.opaque = stream; return stream; } /* * @stream: an unused client stream * * Frees the memory associated with this inactive client * stream */ void remoteFreeClientStream(struct qemud_client *client, struct qemud_client_stream *stream) { struct qemud_client_message *msg; if (!stream) return; DEBUG("proc=%d serial=%d", stream->procedure, stream->serial); msg = stream->rx; while (msg) { struct qemud_client_message *tmp = msg->next; qemudClientMessageRelease(client, msg); msg = tmp; } virStreamFree(stream->st); VIR_FREE(stream); } /* * @client: a locked client to add the stream to * @stream: a stream to add */ int remoteAddClientStream(struct qemud_client *client, struct qemud_client_stream *stream) { struct qemud_client_stream *tmp = client->streams; DEBUG("client=%p proc=%d serial=%d", client, stream->procedure, stream->serial); if (virStreamEventAddCallback(stream->st, 0, remoteStreamEvent, client, NULL) < 0) return -1; if (tmp) { while (tmp->next) tmp = tmp->next; tmp->next = stream; } else { client->streams = stream; } stream->filter.next = client->filters; client->filters = &stream->filter; stream->tx = 1; remoteStreamUpdateEvents(stream); return 0; } /* * @client: a locked client object * @procedure: procedure associated with the stream * @serial: serial number associated with the stream * * Finds a existing active stream * * Returns a stream object matching the procedure+serial number, or NULL */ struct qemud_client_stream * remoteFindClientStream(struct qemud_client *client, virStreamPtr st) { struct qemud_client_stream *stream = client->streams; while (stream) { if (stream->st == st) return stream; stream = stream->next; } return NULL; } /* * @client: a locked client object * @stream: an inactive, closed stream object * * Removes a stream from the list of active streams for the client * * Returns 0 if the stream was removd, -1 if it doesn't exist */ int remoteRemoveClientStream(struct qemud_client *client, struct qemud_client_stream *stream) { DEBUG("client=%p proc=%d serial=%d", client, stream->procedure, stream->serial); struct qemud_client_stream *curr = client->streams; struct qemud_client_stream *prev = NULL; struct qemud_client_filter *filter = NULL; if (client->filters == &stream->filter) { client->filters = client->filters->next; } else { filter = client->filters; while (filter) { if (filter->next == &stream->filter) { filter->next = filter->next->next; break; } } } if (!stream->closed) virStreamAbort(stream->st); while (curr) { if (curr == stream) { if (prev) prev->next = curr->next; else client->streams = curr->next; remoteFreeClientStream(client, stream); return 0; } prev = curr; curr = curr->next; } return -1; } /* * Returns: * -1 if fatal error occurred * 0 if message was fully processed * 1 if message is still being processed */ static int remoteStreamHandleWriteData(struct qemud_client *client, struct qemud_client_stream *stream, struct qemud_client_message *msg) { remote_error rerr; int ret; DEBUG("stream=%p proc=%d serial=%d len=%d offset=%d", stream, msg->hdr.proc, msg->hdr.serial, msg->bufferLength, msg->bufferOffset); memset(&rerr, 0, sizeof rerr); ret = virStreamSend(stream->st, msg->buffer + msg->bufferOffset, msg->bufferLength - msg->bufferOffset); if (ret > 0) { msg->bufferOffset += ret; /* Partial write, so indicate we have more todo later */ if (msg->bufferOffset < msg->bufferLength) return 1; } else if (ret == -2) { /* Blocking, so indicate we have more todo later */ return 1; } else { VIR_INFO0("Stream send failed"); stream->closed = 1; remoteDispatchConnError(&rerr, client->conn); return remoteSerializeReplyError(client, &rerr, &msg->hdr); } return 0; } /* * Process an finish handshake from the client. * * Returns a REMOTE_OK confirmation if successful, or a REMOTE_ERROR * if there was a stream error * * Returns 0 if successfully sent RPC reply, -1 upon fatal error */ static int remoteStreamHandleFinish(struct qemud_client *client, struct qemud_client_stream *stream, struct qemud_client_message *msg) { remote_error rerr; int ret; DEBUG("stream=%p proc=%d serial=%d", stream, msg->hdr.proc, msg->hdr.serial); memset(&rerr, 0, sizeof rerr); stream->closed = 1; ret = virStreamFinish(stream->st); if (ret < 0) { remoteDispatchConnError(&rerr, client->conn); return remoteSerializeReplyError(client, &rerr, &msg->hdr); } else { /* Send zero-length confirm */ if (remoteSendStreamData(client, stream, NULL, 0) < 0) return -1; } return 0; } /* * Process an abort request from the client. * * Returns 0 if successfully aborted, -1 upon error */ static int remoteStreamHandleAbort(struct qemud_client *client, struct qemud_client_stream *stream, struct qemud_client_message *msg) { remote_error rerr; DEBUG("stream=%p proc=%d serial=%d", stream, msg->hdr.proc, msg->hdr.serial); memset(&rerr, 0, sizeof rerr); stream->closed = 1; virStreamAbort(stream->st); if (msg->hdr.status == REMOTE_ERROR) remoteDispatchFormatError(&rerr, "%s", _("stream aborted at client request")); else { VIR_WARN("unexpected stream status %d", msg->hdr.status); remoteDispatchFormatError(&rerr, _("stream aborted with unexpected status %d"), msg->hdr.status); } return remoteSerializeReplyError(client, &rerr, &msg->hdr); } /* * Called when the stream is signalled has being able to accept * data writes. Will process all pending incoming messages * until they're all gone, or I/O blocks * * Returns 0 on success, or -1 upon fatal error */ static int remoteStreamHandleWrite(struct qemud_client *client, struct qemud_client_stream *stream) { struct qemud_client_message *msg, *tmp; DEBUG("stream=%p", stream); msg = stream->rx; while (msg && !stream->closed) { int ret; switch (msg->hdr.status) { case REMOTE_OK: ret = remoteStreamHandleFinish(client, stream, msg); break; case REMOTE_CONTINUE: ret = remoteStreamHandleWriteData(client, stream, msg); break; case REMOTE_ERROR: default: ret = remoteStreamHandleAbort(client, stream, msg); break; } if (ret == 0) qemudClientMessageQueueServe(&stream->rx); else if (ret < 0) return -1; else break; /* still processing data */ tmp = msg->next; qemudClientMessageRelease(client, msg); msg = tmp; } return 0; } /* * Invoked when a stream is signalled as having data * available to read. This reads upto one message * worth of data, and then queues that for transmission * to the client. * * Returns 0 if data was queued for TX, or a error RPC * was sent, or -1 on fatal error, indicating client should * be killed */ static int remoteStreamHandleRead(struct qemud_client *client, struct qemud_client_stream *stream) { char *buffer; size_t bufferLen = REMOTE_MESSAGE_PAYLOAD_MAX; int ret; DEBUG("stream=%p", stream); /* Shouldn't ever be called unless we're marked able to * transmit, but doesn't hurt to check */ if (!stream->tx) return 0; if (VIR_ALLOC_N(buffer, bufferLen) < 0) return -1; ret = virStreamRecv(stream->st, buffer, bufferLen); if (ret == -2) { /* Should never get this, since we're only called when we know * we're readable, but hey things change... */ ret = 0; } else if (ret < 0) { remote_error rerr; memset(&rerr, 0, sizeof rerr); remoteDispatchConnError(&rerr, NULL); ret = remoteSerializeStreamError(client, &rerr, stream->procedure, stream->serial); } else { stream->tx = 0; if (ret == 0) stream->recvEOF = 1; ret = remoteSendStreamData(client, stream, buffer, ret); } VIR_FREE(buffer); return ret; } /* * Invoked when an outgoing data packet message has been fully sent. * This simply re-enables TX of further data. * * The idea is to stop the daemon growing without bound due to * fast stream, but slow client */ void remoteStreamMessageFinished(struct qemud_client *client, struct qemud_client_message *msg) { struct qemud_client_stream *stream = client->streams; while (stream) { if (msg->hdr.proc == stream->procedure && msg->hdr.serial == stream->serial) break; stream = stream->next; } DEBUG("Message client=%p stream=%p proc=%d serial=%d", client, stream, msg->hdr.proc, msg->hdr.serial); if (stream) { stream->tx = 1; remoteStreamUpdateEvents(stream); } }