/* * libvirt-stream.c: entry points for virStreamPtr APIs * * Copyright (C) 2006-2014 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, see * . */ #include #include "datatypes.h" #include "viralloc.h" #include "virlog.h" #include "rpc/virnetprotocol.h" VIR_LOG_INIT("libvirt.stream"); #define VIR_FROM_THIS VIR_FROM_STREAMS /** * virStreamNew: * @conn: pointer to the connection * @flags: bitwise-OR of virStreamFlags * * Creates a new stream object which can be used to perform * streamed I/O with other public API function. * * When no longer needed, a stream object must be released * with virStreamFree. If a data stream has been used, * then the application must call virStreamFinish or * virStreamAbort before free'ing to, in order to notify * the driver of termination. * * If a non-blocking data stream is required passed * VIR_STREAM_NONBLOCK for flags, otherwise pass 0. * * Returns the new stream, or NULL upon error */ virStreamPtr virStreamNew(virConnectPtr conn, unsigned int flags) { virStreamPtr st; VIR_DEBUG("conn=%p, flags=0x%x", conn, flags); virResetLastError(); virCheckConnectReturn(conn, NULL); st = virGetStream(conn); if (st) st->flags = flags; else virDispatchError(conn); return st; } /** * virStreamRef: * @stream: pointer to the stream * * Increment the reference count on the stream. For each * additional call to this method, there shall be a corresponding * call to virStreamFree to release the reference count, once * the caller no longer needs the reference to this object. * * Returns 0 in case of success, -1 in case of failure */ int virStreamRef(virStreamPtr stream) { VIR_DEBUG("stream=%p refs=%d", stream, stream ? stream->parent.u.s.refs : 0); virResetLastError(); virCheckStreamReturn(stream, -1); virObjectRef(stream); return 0; } /** * virStreamSend: * @stream: pointer to the stream object * @data: buffer to write to stream * @nbytes: size of @data buffer * * Write a series of bytes to the stream. This method may * block the calling application for an arbitrary amount * of time. Once an application has finished sending data * it should call virStreamFinish to wait for successful * confirmation from the driver, or detect any error. * * This method may not be used if a stream source has been * registered. * * Errors are not guaranteed to be reported synchronously * with the call, but may instead be delayed until a * subsequent call. * * An example using this with a hypothetical file upload * API looks like * * virStreamPtr st = virStreamNew(conn, 0); * int fd = open("demo.iso", O_RDONLY); * * virConnectUploadFile(conn, "demo.iso", st); * * while (1) { * char buf[1024]; * int got = read(fd, buf, 1024); * if (got < 0) { * virStreamAbort(st); * break; * } * if (got == 0) { * virStreamFinish(st); * break; * } * int offset = 0; * while (offset < got) { * int sent = virStreamSend(st, buf+offset, got-offset); * if (sent < 0) { * virStreamAbort(st); * goto done; * } * offset += sent; * } * } * if (virStreamFinish(st) < 0) * ... report an error .... * done: * virStreamFree(st); * close(fd); * * Returns the number of bytes written, which may be less * than requested. * * Returns -1 upon error, at which time the stream will * be marked as aborted, and the caller should now release * the stream with virStreamFree. * * Returns -2 if the outgoing transmit buffers are full & * the stream is marked as non-blocking. */ int virStreamSend(virStreamPtr stream, const char *data, size_t nbytes) { VIR_DEBUG("stream=%p, data=%p, nbytes=%zi", stream, data, nbytes); virResetLastError(); virCheckStreamReturn(stream, -1); virCheckNonNullArgGoto(data, error); if (stream->driver && stream->driver->streamSend) { int ret; ret = (stream->driver->streamSend)(stream, data, nbytes); if (ret == -2) return -2; if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(stream->conn); return -1; } /** * virStreamRecv: * @stream: pointer to the stream object * @data: buffer to read into from stream * @nbytes: size of @data buffer * * Reads a series of bytes from the stream. This method may * block the calling application for an arbitrary amount * of time. * * Errors are not guaranteed to be reported synchronously * with the call, but may instead be delayed until a * subsequent call. * * An example using this with a hypothetical file download * API looks like * * virStreamPtr st = virStreamNew(conn, 0); * int fd = open("demo.iso", O_WRONLY, 0600); * * virConnectDownloadFile(conn, "demo.iso", st); * * while (1) { * char buf[1024]; * int got = virStreamRecv(st, buf, 1024); * if (got < 0) { * virStreamAbort(st); * break; * } * if (got == 0) { * virStreamFinish(st); * break; * } * int offset = 0; * while (offset < got) { * int sent = write(fd, buf + offset, got - offset); * if (sent < 0) { * virStreamAbort(st); * goto done; * } * offset += sent; * } * } * if (virStreamFinish(st) < 0) * ... report an error .... * done: * virStreamFree(st); * close(fd); * * * Returns the number of bytes read, which may be less * than requested. * * Returns 0 when the end of the stream is reached, at * which time the caller should invoke virStreamFinish() * to get confirmation of stream completion. * * Returns -1 upon error, at which time the stream will * be marked as aborted, and the caller should now release * the stream with virStreamFree. * * Returns -2 if there is no data pending to be read & the * stream is marked as non-blocking. */ int virStreamRecv(virStreamPtr stream, char *data, size_t nbytes) { VIR_DEBUG("stream=%p, data=%p, nbytes=%zi", stream, data, nbytes); virResetLastError(); virCheckStreamReturn(stream, -1); virCheckNonNullArgGoto(data, error); if (stream->driver && stream->driver->streamRecv) { int ret; ret = (stream->driver->streamRecv)(stream, data, nbytes); if (ret == -2) return -2; if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(stream->conn); return -1; } /** * virStreamRecvFlags: * @stream: pointer to the stream object * @data: buffer to read into from stream * @nbytes: size of @data buffer * @flags: bitwise-OR of virStreamRecvFlagsValues * * Reads a series of bytes from the stream. This method may * block the calling application for an arbitrary amount * of time. * * This is just like virStreamRecv except this one has extra * @flags. Calling this function with no @flags set (equal to * zero) is equivalent to calling virStreamRecv(stream, data, nbytes). * * If flag VIR_STREAM_RECV_STOP_AT_HOLE is set, this function * will stop reading from stream if it has reached a hole. In * that case, -3 is returned and virStreamRecvHole() should be * called to get the hole size. An example using this flag might * look like this: * * while (1) { * char buf[4096]; * * int ret = virStreamRecvFlags(st, buf, len, VIR_STREAM_STOP_AT_HOLE); * if (ret < 0) { * if (ret == -3) { * long long len; * ret = virStreamRecvHole(st, &len, 0); * if (ret < 0) { * ...error.. * } else { * ...seek len bytes in target... * } * } else { * return -1; * } * } else { * ...write buf to target... * } * } * * Returns 0 when the end of the stream is reached, at * which time the caller should invoke virStreamFinish() * to get confirmation of stream completion. * * Returns -1 upon error, at which time the stream will * be marked as aborted, and the caller should now release * the stream with virStreamFree. * * Returns -2 if there is no data pending to be read & the * stream is marked as non-blocking. * * Returns -3 if there is a hole in stream and caller requested * to stop at a hole. */ int virStreamRecvFlags(virStreamPtr stream, char *data, size_t nbytes, unsigned int flags) { VIR_DEBUG("stream=%p, data=%p, nbytes=%zu flags=0x%x", stream, data, nbytes, flags); virResetLastError(); virCheckStreamReturn(stream, -1); virCheckNonNullArgGoto(data, error); if (stream->driver && stream->driver->streamRecvFlags) { int ret; ret = (stream->driver->streamRecvFlags)(stream, data, nbytes, flags); if (ret == -2) return -2; if (ret == -3) return -3; if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(stream->conn); return -1; } /** * virStreamSendHole: * @stream: pointer to the stream object * @length: number of bytes to skip * @flags: extra flags; not used yet, so callers should always pass 0 * * Rather than transmitting empty file space, this API directs * the @stream target to create @length bytes of empty space. * This API would be used when uploading or downloading sparsely * populated files to avoid the needless copy of empty file * space. * * An example using this with a hypothetical file upload API * looks like: * * virStream st; * * while (1) { * char buf[4096]; * size_t len; * if (..in hole...) { * ..get hole size... * virStreamSendHole(st, len, 0); * } else { * ...read len bytes... * virStreamSend(st, buf, len); * } * } * * Returns 0 on success, * -1 error */ int virStreamSendHole(virStreamPtr stream, long long length, unsigned int flags) { VIR_DEBUG("stream=%p, length=%lld flags=0x%x", stream, length, flags); virResetLastError(); virCheckStreamReturn(stream, -1); if (stream->driver && stream->driver->streamSendHole) { int ret; ret = (stream->driver->streamSendHole)(stream, length, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(stream->conn); return -1; } /** * virStreamRecvHole: * @stream: pointer to the stream object * @length: number of bytes to skip * @flags: extra flags; not used yet, so callers should always pass 0 * * This API is used to determine the @length in bytes of the * empty space to be created in a @stream's target file when * uploading or downloading sparsely populated files. This is the * counterpart to virStreamSendHole(). * * Returns 0 on success, * -1 on error or when there's currently no hole in the stream */ int virStreamRecvHole(virStreamPtr stream, long long *length, unsigned int flags) { VIR_DEBUG("stream=%p, length=%p flags=0x%x", stream, length, flags); virResetLastError(); virCheckStreamReturn(stream, -1); virCheckNonNullArgReturn(length, -1); if (stream->driver && stream->driver->streamRecvHole) { int ret; ret = (stream->driver->streamRecvHole)(stream, length, flags); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(stream->conn); return -1; } /** * virStreamInData: * @stream: stream * @data: are we in data or hole * @length: length to next section * * This function checks the underlying stream (typically a file) * to learn whether the current stream position lies within a * data section or a hole. Upon return @data is set to a nonzero * value if former is the case, or to zero if @stream is in a * hole. Moreover, @length is updated to tell caller how many * bytes can be read from @stream until current section changes * (from data to a hole or vice versa). * * NB: there's an implicit hole at EOF. In this situation this * function should set @data = false, @length = 0 and return 0. * * To sum it up: * * data section: @data = true, @length > 0 * hole: @data = false, @length > 0 * EOF: @data = false, @length = 0 * * Returns 0 on success, * -1 otherwise */ int virStreamInData(virStreamPtr stream, int *data, long long *length) { VIR_DEBUG("stream=%p, data=%p, length=%p", stream, data, length); virResetLastError(); virCheckNonNullArgReturn(data, -1); virCheckNonNullArgReturn(length, -1); if (stream->driver->streamInData) return (stream->driver->streamInData)(stream, data, length); virReportUnsupportedError(); return -1; } /** * virStreamSendAll: * @stream: pointer to the stream object * @handler: source callback for reading data from application * @opaque: application defined data * * Send the entire data stream, reading the data from the * requested data source. This is simply a convenient alternative * to virStreamSend, for apps that do blocking-I/O. * * An example using this with a hypothetical file upload * API looks like * * int mysource(virStreamPtr st, char *buf, int nbytes, void *opaque) { * int *fd = opaque; * * return read(*fd, buf, nbytes); * } * * virStreamPtr st = virStreamNew(conn, 0); * int fd = open("demo.iso", O_RDONLY); * * virConnectUploadFile(conn, st); * if (virStreamSendAll(st, mysource, &fd) < 0) { * ...report an error ... * goto done; * } * if (virStreamFinish(st) < 0) * ...report an error... * virStreamFree(st); * close(fd); * * Returns 0 if all the data was successfully sent. The caller * should invoke virStreamFinish(st) to flush the stream upon * success and then virStreamFree * * Returns -1 upon any error, with virStreamAbort() already * having been called, so the caller need only call * virStreamFree(). */ int virStreamSendAll(virStreamPtr stream, virStreamSourceFunc handler, void *opaque) { g_autofree char *bytes = NULL; size_t want = VIR_NET_MESSAGE_LEGACY_PAYLOAD_MAX; int ret = -1; VIR_DEBUG("stream=%p, handler=%p, opaque=%p", stream, handler, opaque); virResetLastError(); virCheckStreamReturn(stream, -1); virCheckNonNullArgGoto(handler, cleanup); if (stream->flags & VIR_STREAM_NONBLOCK) { virReportError(VIR_ERR_OPERATION_INVALID, "%s", _("data sources cannot be used for non-blocking streams")); goto cleanup; } if (VIR_ALLOC_N(bytes, want) < 0) goto cleanup; errno = 0; for (;;) { int got, offset = 0; got = (handler)(stream, bytes, want, opaque); if (got < 0) { if (errno == 0) errno = EIO; virReportSystemError(errno, "%s", _("send handler failed")); goto cleanup; } if (got == 0) break; while (offset < got) { int done; done = virStreamSend(stream, bytes + offset, got - offset); if (done < 0) goto cleanup; offset += done; } } ret = 0; cleanup: if (ret != 0) { virErrorPtr orig_err; virErrorPreserveLast(&orig_err); virStreamAbort(stream); virErrorRestore(&orig_err); virDispatchError(stream->conn); } return ret; } /** * virStreamSparseSendAll: * @stream: pointer to the stream object * @handler: source callback for reading data from application * @holeHandler: source callback for determining holes * @skipHandler: skip holes as reported by @holeHandler * @opaque: application defined data * * Send the entire data stream, reading the data from the * requested data source. This is simply a convenient alternative * to virStreamSend, for apps that do blocking-I/O. * * An example using this with a hypothetical file upload * API looks like * * int mysource(virStreamPtr st, char *buf, int nbytes, void *opaque) { * int *fd = opaque; * * return read(*fd, buf, nbytes); * } * * int myskip(virStreamPtr st, long long offset, void *opaque) { * int *fd = opaque; * * return lseek(*fd, offset, SEEK_CUR) == (off_t) -1 ? -1 : 0; * } * * int myindata(virStreamPtr st, int *inData, * long long *offset, void *opaque) { * int *fd = opaque; * * if (@fd in hole) { * *inData = 0; * *offset = holeSize; * } else { * *inData = 1; * *offset = dataSize; * } * * return 0; * } * * virStreamPtr st = virStreamNew(conn, 0); * int fd = open("demo.iso", O_RDONLY); * * virConnectUploadSparseFile(conn, st); * if (virStreamSparseSendAll(st, * mysource, * myindata, * myskip, * &fd) < 0) { * ...report an error ... * goto done; * } * if (virStreamFinish(st) < 0) * ...report an error... * virStreamFree(st); * close(fd); * * Note that @opaque data are shared between @handler, @holeHandler and @skipHandler. * * Returns 0 if all the data was successfully sent. The caller * should invoke virStreamFinish(st) to flush the stream upon * success and then virStreamFree. * * Returns -1 upon any error, with virStreamAbort() already * having been called, so the caller need only call * virStreamFree(). */ int virStreamSparseSendAll(virStreamPtr stream, virStreamSourceFunc handler, virStreamSourceHoleFunc holeHandler, virStreamSourceSkipFunc skipHandler, void *opaque) { g_autofree char *bytes = NULL; size_t bufLen = VIR_NET_MESSAGE_LEGACY_PAYLOAD_MAX; int ret = -1; unsigned long long dataLen = 0; VIR_DEBUG("stream=%p handler=%p holeHandler=%p opaque=%p", stream, handler, holeHandler, opaque); virResetLastError(); virCheckStreamReturn(stream, -1); virCheckNonNullArgGoto(handler, cleanup); virCheckNonNullArgGoto(holeHandler, cleanup); virCheckNonNullArgGoto(skipHandler, cleanup); if (stream->flags & VIR_STREAM_NONBLOCK) { virReportError(VIR_ERR_OPERATION_INVALID, "%s", _("data sources cannot be used for non-blocking streams")); goto cleanup; } if (VIR_ALLOC_N(bytes, bufLen) < 0) goto cleanup; errno = 0; for (;;) { int inData, got, offset = 0; long long sectionLen; size_t want = bufLen; const unsigned int skipFlags = 0; if (!dataLen) { if (holeHandler(stream, &inData, §ionLen, opaque) < 0) { if (errno == 0) errno = EIO; virReportSystemError(errno, "%s", _("send holeHandler failed")); goto cleanup; } if (!inData && sectionLen) { if (virStreamSendHole(stream, sectionLen, skipFlags) < 0) goto cleanup; if (skipHandler(stream, sectionLen, opaque) < 0) { if (errno == 0) errno = EIO; virReportSystemError(errno, "%s", _("send skipHandler failed")); goto cleanup; } continue; } else { dataLen = sectionLen; } } if (want > dataLen) want = dataLen; got = (handler)(stream, bytes, want, opaque); if (got < 0) { if (errno == 0) errno = EIO; virReportSystemError(errno, "%s", _("send handler failed")); goto cleanup; } if (got == 0) break; while (offset < got) { int done; done = virStreamSend(stream, bytes + offset, got - offset); if (done < 0) goto cleanup; offset += done; dataLen -= done; } } ret = 0; cleanup: if (ret != 0) { virErrorPtr orig_err; virErrorPreserveLast(&orig_err); virStreamAbort(stream); virErrorRestore(&orig_err); virDispatchError(stream->conn); } return ret; } /** * virStreamRecvAll: * @stream: pointer to the stream object * @handler: sink callback for writing data to application * @opaque: application defined data * * Receive the entire data stream, sending the data to the * requested data sink. This is simply a convenient alternative * to virStreamRecv, for apps that do blocking-I/O. * * An example using this with a hypothetical file download * API looks like * * int mysink(virStreamPtr st, const char *buf, int nbytes, void *opaque) { * int *fd = opaque; * * return write(*fd, buf, nbytes); * } * * virStreamPtr st = virStreamNew(conn, 0); * int fd = open("demo.iso", O_WRONLY); * * virConnectUploadFile(conn, st); * if (virStreamRecvAll(st, mysink, &fd) < 0) { * ...report an error ... * goto done; * } * if (virStreamFinish(st) < 0) * ...report an error... * virStreamFree(st); * close(fd); * * Returns 0 if all the data was successfully received. The caller * should invoke virStreamFinish(st) to flush the stream upon * success and then virStreamFree * * Returns -1 upon any error, with virStreamAbort() already * having been called, so the caller need only call * virStreamFree() */ int virStreamRecvAll(virStreamPtr stream, virStreamSinkFunc handler, void *opaque) { g_autofree char *bytes = NULL; size_t want = VIR_NET_MESSAGE_LEGACY_PAYLOAD_MAX; int ret = -1; VIR_DEBUG("stream=%p, handler=%p, opaque=%p", stream, handler, opaque); virResetLastError(); virCheckStreamReturn(stream, -1); virCheckNonNullArgGoto(handler, cleanup); if (stream->flags & VIR_STREAM_NONBLOCK) { virReportError(VIR_ERR_OPERATION_INVALID, "%s", _("data sinks cannot be used for non-blocking streams")); goto cleanup; } if (VIR_ALLOC_N(bytes, want) < 0) goto cleanup; errno = 0; for (;;) { int got, offset = 0; got = virStreamRecv(stream, bytes, want); if (got < 0) goto cleanup; if (got == 0) break; while (offset < got) { int done; done = (handler)(stream, bytes + offset, got - offset, opaque); if (done < 0) { if (errno == 0) errno = EIO; virReportSystemError(errno, "%s", _("recv handler failed")); goto cleanup; } offset += done; } } ret = 0; cleanup: if (ret != 0) { virErrorPtr orig_err; virErrorPreserveLast(&orig_err); virStreamAbort(stream); virErrorRestore(&orig_err); virDispatchError(stream->conn); } return ret; } /** * virStreamSparseRecvAll: * @stream: pointer to the stream object * @handler: sink callback for writing data to application * @holeHandler: stream hole callback for skipping holes * @opaque: application defined data * * Receive the entire data stream, sending the data to the * requested data sink @handler and calling the skip @holeHandler * to generate holes for sparse stream targets. This is simply a * convenient alternative to virStreamRecvFlags, for apps that do * blocking-I/O. * * An example using this with a hypothetical file download * API looks like: * * int mysink(virStreamPtr st, const char *buf, int nbytes, void *opaque) { * int *fd = opaque; * * return write(*fd, buf, nbytes); * } * * int myskip(virStreamPtr st, long long offset, void *opaque) { * int *fd = opaque; * * return lseek(*fd, offset, SEEK_CUR) == (off_t) -1 ? -1 : 0; * } * * virStreamPtr st = virStreamNew(conn, 0); * int fd = open("demo.iso", O_WRONLY); * * virConnectDownloadSparseFile(conn, st); * if (virStreamSparseRecvAll(st, mysink, myskip, &fd) < 0) { * ...report an error ... * goto done; * } * if (virStreamFinish(st) < 0) * ...report an error... * virStreamFree(st); * close(fd); * * Note that @opaque data is shared between both @handler and * @holeHandler callbacks. * * Returns 0 if all the data was successfully received. The caller * should invoke virStreamFinish(st) to flush the stream upon * success and then virStreamFree(st). * * Returns -1 upon any error, with virStreamAbort() already * having been called, so the caller need only call virStreamFree(). */ int virStreamSparseRecvAll(virStreamPtr stream, virStreamSinkFunc handler, virStreamSinkHoleFunc holeHandler, void *opaque) { g_autofree char *bytes = NULL; size_t want = VIR_NET_MESSAGE_LEGACY_PAYLOAD_MAX; const unsigned int flags = VIR_STREAM_RECV_STOP_AT_HOLE; int ret = -1; VIR_DEBUG("stream=%p handler=%p holeHandler=%p opaque=%p", stream, handler, holeHandler, opaque); virResetLastError(); virCheckStreamReturn(stream, -1); virCheckNonNullArgGoto(handler, cleanup); virCheckNonNullArgGoto(holeHandler, cleanup); if (stream->flags & VIR_STREAM_NONBLOCK) { virReportError(VIR_ERR_OPERATION_INVALID, "%s", _("data sinks cannot be used for non-blocking streams")); goto cleanup; } if (VIR_ALLOC_N(bytes, want) < 0) goto cleanup; errno = 0; for (;;) { int got, offset = 0; long long holeLen; const unsigned int holeFlags = 0; got = virStreamRecvFlags(stream, bytes, want, flags); if (got == -3) { if (virStreamRecvHole(stream, &holeLen, holeFlags) < 0) goto cleanup; if (holeHandler(stream, holeLen, opaque) < 0) { if (errno == 0) errno = EIO; virReportSystemError(errno, "%s", _("recv holeHandler failed")); goto cleanup; } continue; } else if (got < 0) { goto cleanup; } else if (got == 0) { break; } while (offset < got) { int done; done = (handler)(stream, bytes + offset, got - offset, opaque); if (done < 0) { if (errno == 0) errno = EIO; virReportSystemError(errno, "%s", _("recv handler failed")); goto cleanup; } offset += done; } } ret = 0; cleanup: if (ret != 0) { virErrorPtr orig_err; virErrorPreserveLast(&orig_err); virStreamAbort(stream); virErrorRestore(&orig_err); virDispatchError(stream->conn); } return ret; } /** * virStreamEventAddCallback: * @stream: pointer to the stream object * @events: set of events to monitor * @cb: callback to invoke when an event occurs * @opaque: application defined data * @ff: callback to free @opaque data * * Register a callback to be notified when a stream * becomes writable, or readable. This is most commonly * used in conjunction with non-blocking data streams * to integrate into an event loop * * Returns 0 on success, -1 upon error */ int virStreamEventAddCallback(virStreamPtr stream, int events, virStreamEventCallback cb, void *opaque, virFreeCallback ff) { VIR_DEBUG("stream=%p, events=%d, cb=%p, opaque=%p, ff=%p", stream, events, cb, opaque, ff); virResetLastError(); virCheckStreamReturn(stream, -1); if (stream->driver && stream->driver->streamEventAddCallback) { int ret; ret = (stream->driver->streamEventAddCallback)(stream, events, cb, opaque, ff); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(stream->conn); return -1; } /** * virStreamEventUpdateCallback: * @stream: pointer to the stream object * @events: set of events to monitor * * Changes the set of events to monitor for a stream. This allows * for event notification to be changed without having to * unregister & register the callback completely. This method * is guaranteed to succeed if a callback is already registered * * Returns 0 on success, -1 if no callback is registered */ int virStreamEventUpdateCallback(virStreamPtr stream, int events) { VIR_DEBUG("stream=%p, events=%d", stream, events); virResetLastError(); virCheckStreamReturn(stream, -1); if (stream->driver && stream->driver->streamEventUpdateCallback) { int ret; ret = (stream->driver->streamEventUpdateCallback)(stream, events); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(stream->conn); return -1; } /** * virStreamEventRemoveCallback: * @stream: pointer to the stream object * * Remove an event callback from the stream * * Returns 0 on success, -1 on error */ int virStreamEventRemoveCallback(virStreamPtr stream) { VIR_DEBUG("stream=%p", stream); virResetLastError(); virCheckStreamReturn(stream, -1); if (stream->driver && stream->driver->streamEventRemoveCallback) { int ret; ret = (stream->driver->streamEventRemoveCallback)(stream); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(stream->conn); return -1; } /** * virStreamFinish: * @stream: pointer to the stream object * * Indicate that there is no further data to be transmitted * on the stream. For output streams this should be called once * all data has been written. For input streams this should be * called once virStreamRecv returns end-of-file. * * This method is a synchronization point for all asynchronous * errors, so if this returns a success code the application can * be sure that all data has been successfully processed. * * If the stream is non-blocking, any callback must be removed * beforehand. * * Returns 0 on success, -1 upon error */ int virStreamFinish(virStreamPtr stream) { VIR_DEBUG("stream=%p", stream); virResetLastError(); virCheckStreamReturn(stream, -1); if (stream->driver && stream->driver->streamFinish) { int ret; ret = (stream->driver->streamFinish)(stream); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(stream->conn); return -1; } /** * virStreamAbort: * @stream: pointer to the stream object * * Request that the in progress data transfer be cancelled * abnormally before the end of the stream has been reached. * For output streams this can be used to inform the driver * that the stream is being terminated early. For input * streams this can be used to inform the driver that it * should stop sending data. * * If the stream is non-blocking, any callback must be removed * beforehand. * * Returns 0 on success, -1 upon error */ int virStreamAbort(virStreamPtr stream) { VIR_DEBUG("stream=%p", stream); virResetLastError(); virCheckStreamReturn(stream, -1); if (!stream->driver) { VIR_DEBUG("aborting unused stream"); return 0; } if (stream->driver->streamAbort) { int ret; ret = (stream->driver->streamAbort)(stream); if (ret < 0) goto error; return ret; } virReportUnsupportedError(); error: virDispatchError(stream->conn); return -1; } /** * virStreamFree: * @stream: pointer to the stream object * * Decrement the reference count on a stream, releasing * the stream object if the reference count has hit zero. * * There must not be an active data transfer in progress * when releasing the stream. If a stream needs to be * disposed of prior to end of stream being reached, then * the virStreamAbort function should be called first. * * Returns 0 upon success, or -1 on error */ int virStreamFree(virStreamPtr stream) { VIR_DEBUG("stream=%p", stream); virResetLastError(); virCheckStreamReturn(stream, -1); /* XXX Enforce shutdown before free'ing resources ? */ virObjectUnref(stream); return 0; }