/* GIO - GLib Input, Output and Streaming Library * * Copyright (C) 2006-2007 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 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: Alexander Larsson */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include struct _GVfsReadChannel { GVfsChannel parent_instance; guint read_count; int seek_generation; }; G_DEFINE_TYPE (GVfsReadChannel, g_vfs_read_channel, G_VFS_TYPE_CHANNEL) static GVfsJob *read_channel_close (GVfsChannel *channel); static GVfsJob *read_channel_handle_request (GVfsChannel *channel, guint32 command, guint32 seq_nr, guint32 arg1, guint32 arg2, gpointer data, gsize data_len, GError **error); static GVfsJob *read_channel_readahead (GVfsChannel *channel, GVfsJob *job); static void g_vfs_read_channel_finalize (GObject *object) { if (G_OBJECT_CLASS (g_vfs_read_channel_parent_class)->finalize) (*G_OBJECT_CLASS (g_vfs_read_channel_parent_class)->finalize) (object); } static void g_vfs_read_channel_class_init (GVfsReadChannelClass *klass) { GObjectClass *gobject_class = G_OBJECT_CLASS (klass); GVfsChannelClass *channel_class = G_VFS_CHANNEL_CLASS (klass); gobject_class->finalize = g_vfs_read_channel_finalize; channel_class->close = read_channel_close; channel_class->handle_request = read_channel_handle_request; channel_class->readahead = read_channel_readahead; } static void g_vfs_read_channel_init (GVfsReadChannel *channel) { } static GVfsJob * read_channel_close (GVfsChannel *channel) { return g_vfs_job_close_read_new (G_VFS_READ_CHANNEL (channel), g_vfs_channel_get_backend_handle (channel), g_vfs_channel_get_backend (channel)); } /* Always request large chunks. Its very inefficient to do network requests for smaller chunks. */ static guint32 modify_read_size (GVfsReadChannel *channel, guint32 requested_size) { guint32 real_size; if (channel->read_count <= 1) real_size = 16*1024; else if (channel->read_count <= 2) real_size = 32*1024; else real_size = 64*1024; if (requested_size > real_size) real_size = requested_size; /* Don't do ridicoulously large requests as this is just stupid on the network */ if (real_size > 512 * 1024) real_size = 512 * 1024; return real_size; } static GVfsJob * read_channel_handle_request (GVfsChannel *channel, guint32 command, guint32 seq_nr, guint32 arg1, guint32 arg2, gpointer data, gsize data_len, GError **error) { GVfsJob *job; GSeekType seek_type; GVfsBackendHandle backend_handle; GVfsBackend *backend; GVfsReadChannel *read_channel; read_channel = G_VFS_READ_CHANNEL (channel); backend_handle = g_vfs_channel_get_backend_handle (channel); backend = g_vfs_channel_get_backend (channel); job = NULL; switch (command) { case G_VFS_DAEMON_SOCKET_PROTOCOL_REQUEST_READ: read_channel->read_count++; job = g_vfs_job_read_new (read_channel, backend_handle, modify_read_size (read_channel, arg1), backend); break; case G_VFS_DAEMON_SOCKET_PROTOCOL_REQUEST_CLOSE: job = g_vfs_job_close_read_new (read_channel, backend_handle, backend); break; case G_VFS_DAEMON_SOCKET_PROTOCOL_REQUEST_SEEK_END: case G_VFS_DAEMON_SOCKET_PROTOCOL_REQUEST_SEEK_SET: seek_type = G_SEEK_SET; if (command == G_VFS_DAEMON_SOCKET_PROTOCOL_REQUEST_SEEK_END) seek_type = G_SEEK_END; read_channel->read_count = 0; read_channel->seek_generation++; job = g_vfs_job_seek_read_new (read_channel, backend_handle, seek_type, ((goffset)arg1) | (((goffset)arg2) << 32), backend); break; default: g_set_error (error, G_IO_ERROR, G_IO_ERROR_FAILED, "Unknown stream command %"G_GUINT32_FORMAT, command); break; } /* Ownership was passed */ g_free (data); return job; } static GVfsJob * read_channel_readahead (GVfsChannel *channel, GVfsJob *job) { GVfsJob *readahead_job; GVfsReadChannel *read_channel; GVfsJobRead *read_job; readahead_job = NULL; if (!job->failed && G_VFS_IS_JOB_READ (job)) { read_job = G_VFS_JOB_READ (job); read_channel = G_VFS_READ_CHANNEL (channel); if (read_job->data_count != 0) { read_channel->read_count++; readahead_job = g_vfs_job_read_new (read_channel, g_vfs_channel_get_backend_handle (channel), modify_read_size (read_channel, 8192), g_vfs_channel_get_backend (channel)); } } return readahead_job; } /* Might be called on an i/o thread */ void g_vfs_read_channel_send_seek_offset (GVfsReadChannel *read_channel, goffset offset) { GVfsDaemonSocketProtocolReply reply; GVfsChannel *channel; channel = G_VFS_CHANNEL (read_channel); reply.type = g_htonl (G_VFS_DAEMON_SOCKET_PROTOCOL_REPLY_SEEK_POS); reply.seq_nr = g_htonl (g_vfs_channel_get_current_seq_nr (channel)); reply.arg1 = g_htonl (offset & 0xffffffff); reply.arg2 = g_htonl (offset >> 32); g_vfs_channel_send_reply (channel, &reply, NULL, 0); } /* Might be called on an i/o thread */ void g_vfs_read_channel_send_closed (GVfsReadChannel *read_channel) { GVfsDaemonSocketProtocolReply reply; GVfsChannel *channel; channel = G_VFS_CHANNEL (read_channel); reply.type = g_htonl (G_VFS_DAEMON_SOCKET_PROTOCOL_REPLY_CLOSED); reply.seq_nr = g_htonl (g_vfs_channel_get_current_seq_nr (channel)); reply.arg1 = g_htonl (0); reply.arg2 = g_htonl (0); g_vfs_channel_send_reply (channel, &reply, NULL, 0); } /* Might be called on an i/o thread */ void g_vfs_read_channel_send_data (GVfsReadChannel *read_channel, char *buffer, gsize count) { GVfsDaemonSocketProtocolReply reply; GVfsChannel *channel; channel = G_VFS_CHANNEL (read_channel); reply.type = g_htonl (G_VFS_DAEMON_SOCKET_PROTOCOL_REPLY_DATA); reply.seq_nr = g_htonl (g_vfs_channel_get_current_seq_nr (channel)); reply.arg1 = g_htonl (count); reply.arg2 = g_htonl (read_channel->seek_generation); g_vfs_channel_send_reply (channel, &reply, buffer, count); } GVfsReadChannel * g_vfs_read_channel_new (GVfsBackend *backend) { return g_object_new (G_VFS_TYPE_READ_CHANNEL, "backend", backend, NULL); }