/* Copyright (c) 2010-2011 Gluster, Inc. This file is part of GlusterFS. GlusterFS is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. GlusterFS 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #ifndef _CONFIG_H #define _CONFIG_H #include "config.h" #endif #include #include "server.h" #include "server-helpers.h" #include "glusterfs3-xdr.h" #include "glusterfs3.h" #include "compat-errno.h" #include "xdr-nfs3.h" /* Callback function section */ int server_statfs_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct statvfs *buf, dict_t *xdata) { gfs3_statfs_rsp rsp = {0,}; rpcsvc_request_t *req = NULL; req = frame->local; GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_WARNING, "%"PRId64": STATFS (%s)", frame->root->unique, strerror (op_errno)); goto out; } gf_statfs_from_statfs (&rsp.statfs, buf); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_statfs_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_lookup_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, inode_t *inode, struct iatt *stbuf, dict_t *xdata, struct iatt *postparent) { rpcsvc_request_t *req = NULL; server_state_t *state = NULL; inode_t *root_inode = NULL; inode_t *link_inode = NULL; loc_t fresh_loc = {0,}; gfs3_lookup_rsp rsp = {0,}; uuid_t rootgfid = {0,}; req = frame->local; state = CALL_STATE(frame); if (state->is_revalidate == 1 && op_ret == -1) { state->is_revalidate = 2; loc_copy (&fresh_loc, &state->loc); inode_unref (fresh_loc.inode); fresh_loc.inode = inode_new (state->itable); STACK_WIND (frame, server_lookup_cbk, BOUND_XL (frame), BOUND_XL (frame)->fops->lookup, &fresh_loc, state->xdata); loc_wipe (&fresh_loc); return 0; } gf_stat_from_iatt (&rsp.postparent, postparent); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret) { if (state->is_revalidate && op_errno == ENOENT) { if (!__is_root_gfid (state->resolve.gfid)) { inode_unlink (state->loc.inode, state->loc.parent, state->loc.name); } } goto out; } root_inode = BOUND_XL(frame)->itable->root; if (inode == root_inode) { /* we just looked up root ("/") */ stbuf->ia_ino = 1; rootgfid[15] = 1; uuid_copy (stbuf->ia_gfid, rootgfid); if (inode->ia_type == 0) inode->ia_type = stbuf->ia_type; } gf_stat_from_iatt (&rsp.stat, stbuf); if (!__is_root_gfid (inode->gfid)) { link_inode = inode_link (inode, state->loc.parent, state->loc.name, stbuf); if (link_inode) { inode_lookup (link_inode); inode_unref (link_inode); } } out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); if (op_ret) { if (state->resolve.bname) { gf_log (this->name, ((op_errno == ENOENT) ? GF_LOG_TRACE : GF_LOG_INFO), "%"PRId64": LOOKUP %s (%s/%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.pargfid), state->resolve.bname, strerror (op_errno)); } else { gf_log (this->name, ((op_errno == ENOENT) ? GF_LOG_TRACE : GF_LOG_INFO), "%"PRId64": LOOKUP %s (%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.gfid), strerror (op_errno)); } } server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_lookup_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_lk_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct gf_flock *lock, dict_t *xdata) { gfs3_lk_rsp rsp = {0,}; rpcsvc_request_t *req = NULL; server_state_t *state = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret) { if ((op_errno != ENOSYS) && (op_errno != EAGAIN)) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": LK %"PRId64" (%s) ==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), strerror (op_errno)); } goto out; } switch (lock->l_type) { case F_RDLCK: lock->l_type = GF_LK_F_RDLCK; break; case F_WRLCK: lock->l_type = GF_LK_F_WRLCK; break; case F_UNLCK: lock->l_type = GF_LK_F_UNLCK; break; default: gf_log (this->name, GF_LOG_ERROR, "Unknown lock type: %"PRId32"!", lock->l_type); break; } gf_proto_flock_from_flock (&rsp.flock, lock); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_lk_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_inodelk_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *xdata) { gf_common_rsp rsp = {0,}; server_connection_t *conn = NULL; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; conn = SERVER_CONNECTION(frame); state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { if ((op_errno != ENOSYS) && (op_errno != EAGAIN)) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": INODELK %s (%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.gfid), strerror (op_errno)); } goto out; } if (state->flock.l_type == F_UNLCK) gf_del_locker (conn, state->volume, &state->loc, NULL, &frame->root->lk_owner, GF_FOP_INODELK); else gf_add_locker (conn, state->volume, &state->loc, NULL, frame->root->pid, &frame->root->lk_owner, GF_FOP_INODELK); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gf_common_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_finodelk_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *xdata) { gf_common_rsp rsp = {0,}; server_state_t *state = NULL; server_connection_t *conn = NULL; rpcsvc_request_t *req = NULL; req = frame->local; conn = SERVER_CONNECTION(frame); state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { if ((op_errno != ENOSYS) && (op_errno != EAGAIN)) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": FINODELK %"PRId64" (%s) ==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), strerror (op_errno)); } goto out; } if (state->flock.l_type == F_UNLCK) gf_del_locker (conn, state->volume, NULL, state->fd, &frame->root->lk_owner, GF_FOP_INODELK); else gf_add_locker (conn, state->volume, NULL, state->fd, frame->root->pid, &frame->root->lk_owner, GF_FOP_INODELK); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gf_common_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_entrylk_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *xdata) { server_connection_t *conn = NULL; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; gf_common_rsp rsp = {0,}; req = frame->local; conn = SERVER_CONNECTION(frame); state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { if ((op_errno != ENOSYS) && (op_errno != EAGAIN)) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": ENTRYLK %s (%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.gfid), strerror (op_errno)); } goto out; } if (state->cmd == ENTRYLK_UNLOCK) gf_del_locker (conn, state->volume, &state->loc, NULL, &frame->root->lk_owner, GF_FOP_ENTRYLK); else gf_add_locker (conn, state->volume, &state->loc, NULL, frame->root->pid, &frame->root->lk_owner, GF_FOP_ENTRYLK); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gf_common_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_fentrylk_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *xdata) { gf_common_rsp rsp = {0,}; server_connection_t *conn = NULL; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; conn = SERVER_CONNECTION(frame); state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { if ((op_errno != ENOSYS) && (op_errno != EAGAIN)) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": FENTRYLK %"PRId64" (%s) ==>(%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), strerror (op_errno)); } goto out; } if (state->cmd == ENTRYLK_UNLOCK) gf_del_locker (conn, state->volume, NULL, state->fd, &frame->root->lk_owner, GF_FOP_ENTRYLK); else gf_add_locker (conn, state->volume, NULL, state->fd, frame->root->pid, &frame->root->lk_owner, GF_FOP_ENTRYLK); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gf_common_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_access_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *xdata) { gf_common_rsp rsp = {0,}; rpcsvc_request_t *req = NULL; server_state_t *state = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": ACCESS %s (%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gf_common_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_rmdir_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iatt *preparent, struct iatt *postparent, dict_t *xdata) { gfs3_rmdir_rsp rsp = {0,}; server_state_t *state = NULL; inode_t *parent = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": RMDIR %s (%s/%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.pargfid), state->resolve.bname, strerror (op_errno)); goto out; } inode_unlink (state->loc.inode, state->loc.parent, state->loc.name); parent = inode_parent (state->loc.inode, 0, NULL); if (parent) /* parent should not be found for directories after * inode_unlink, since directories cannot have * hardlinks. */ inode_unref (parent); else inode_forget (state->loc.inode, 0); gf_stat_from_iatt (&rsp.preparent, preparent); gf_stat_from_iatt (&rsp.postparent, postparent); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_rmdir_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_mkdir_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, inode_t *inode, struct iatt *stbuf, struct iatt *preparent, struct iatt *postparent, dict_t *xdata) { gfs3_mkdir_rsp rsp = {0,}; server_state_t *state = NULL; inode_t *link_inode = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": MKDIR %s (%s/%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.pargfid), state->resolve.bname, strerror (op_errno)); goto out; } gf_stat_from_iatt (&rsp.stat, stbuf); gf_stat_from_iatt (&rsp.preparent, preparent); gf_stat_from_iatt (&rsp.postparent, postparent); link_inode = inode_link (inode, state->loc.parent, state->loc.name, stbuf); inode_lookup (link_inode); inode_unref (link_inode); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_mkdir_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_mknod_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, inode_t *inode, struct iatt *stbuf, struct iatt *preparent, struct iatt *postparent, dict_t *xdata) { gfs3_mknod_rsp rsp = {0,}; server_state_t *state = NULL; inode_t *link_inode = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": MKNOD %s (%s/%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.pargfid), state->resolve.bname, strerror (op_errno)); goto out; } gf_stat_from_iatt (&rsp.stat, stbuf); gf_stat_from_iatt (&rsp.preparent, preparent); gf_stat_from_iatt (&rsp.postparent, postparent); link_inode = inode_link (inode, state->loc.parent, state->loc.name, stbuf); inode_lookup (link_inode); inode_unref (link_inode); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_mknod_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_fsyncdir_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *xdata) { gf_common_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": FSYNCDIR %"PRId64" (%s) ==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gf_common_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_readdir_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, gf_dirent_t *entries, dict_t *xdata) { gfs3_readdir_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; int ret = 0; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": READDIR %"PRId64" (%s) ==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } /* (op_ret == 0) is valid, and means EOF */ if (op_ret) { ret = serialize_rsp_dirent (entries, &rsp); if (ret == -1) { op_ret = -1; op_errno = ENOMEM; goto out; } } out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_readdir_rsp); GF_FREE (rsp.xdata.xdata_val); readdir_rsp_cleanup (&rsp); return 0; } int server_opendir_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, fd_t *fd, dict_t *xdata) { server_connection_t *conn = NULL; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; gfs3_opendir_rsp rsp = {0,}; uint64_t fd_no = 0; req = frame->local; conn = SERVER_CONNECTION (frame); state = CALL_STATE (frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": OPENDIR %s (%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } fd_bind (fd); fd_no = gf_fd_unused_get (conn->fdtable, fd); fd_ref (fd); // on behalf of the client out: rsp.fd = fd_no; rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_opendir_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_removexattr_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *xdata) { gf_common_rsp rsp = {0,}; rpcsvc_request_t *req = NULL; server_state_t *state = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret == -1) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": REMOVEXATTR %s (%s) of key %s ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.gfid), state->name, strerror (op_errno)); goto out; } out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gf_common_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_fremovexattr_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *xdata) { gf_common_rsp rsp = {0,}; rpcsvc_request_t *req = NULL; server_state_t *state = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret == -1) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": FREMOVEXATTR %"PRId64" (%s) (%s) ==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), state->name, strerror (op_errno)); goto out; } out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gf_common_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_getxattr_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *dict, dict_t *xdata) { gfs3_getxattr_rsp rsp = {0,}; rpcsvc_request_t *req = NULL; server_state_t *state = NULL; req = frame->local; state = CALL_STATE (frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret == -1) { gf_log (this->name, (((op_errno == ENOTSUP) || (op_errno == ENODATA)) ? GF_LOG_DEBUG : GF_LOG_INFO), "%"PRId64": GETXATTR %s (%s) (%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.gfid), state->name, strerror (op_errno)); goto out; } GF_PROTOCOL_DICT_SERIALIZE (this, dict, (&rsp.dict.dict_val), rsp.dict.dict_len, op_errno, out); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_getxattr_rsp); GF_FREE (rsp.dict.dict_val); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_fgetxattr_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *dict, dict_t *xdata) { gfs3_fgetxattr_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE (frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret == -1) { gf_log (this->name, ((op_errno == ENOTSUP) ? GF_LOG_DEBUG : GF_LOG_INFO), "%"PRId64": FGETXATTR %"PRId64" (%s) (%s) ==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), state->name, strerror (op_errno)); goto out; } GF_PROTOCOL_DICT_SERIALIZE (this, dict, (&rsp.dict.dict_val), rsp.dict.dict_len, op_errno, out); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_fgetxattr_rsp); GF_FREE (rsp.dict.dict_val); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_setxattr_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *xdata) { gf_common_rsp rsp = {0,}; rpcsvc_request_t *req = NULL; server_state_t *state = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret == -1) { gf_log (this->name, ((op_errno == ENOTSUP) ? GF_LOG_DEBUG : GF_LOG_INFO), "%"PRId64": SETXATTR %s (%s) ==> %s (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.gfid), ((state->dict) ? ((state->dict->members_list) ? state->dict->members_list->key : "(null)") : ("null")), strerror (op_errno)); goto out; } out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gf_common_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_fsetxattr_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *xdata) { gf_common_rsp rsp = {0,}; rpcsvc_request_t *req = NULL; server_state_t *state = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret == -1) { gf_log (this->name, ((op_errno == ENOTSUP) ? GF_LOG_DEBUG : GF_LOG_INFO), "%"PRId64": FSETXATTR %"PRId64" (%s) ==> %s (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), ((state->dict) ? ((state->dict->members_list) ? state->dict->members_list->key : "(null)") : "null"), strerror (op_errno)); goto out; } out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gf_common_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_rename_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iatt *stbuf, struct iatt *preoldparent, struct iatt *postoldparent, struct iatt *prenewparent, struct iatt *postnewparent, dict_t *xdata) { gfs3_rename_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; inode_t *tmp_inode = NULL; inode_t *tmp_parent = NULL; char oldpar_str[50] = {0,}; char newpar_str[50] = {0,}; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret == -1) { uuid_utoa_r (state->resolve.gfid, oldpar_str); uuid_utoa_r (state->resolve2.gfid, newpar_str); gf_log (this->name, GF_LOG_INFO, "%"PRId64": RENAME %s (%s/%s) -> %s (%s/%s) ==> (%s)", frame->root->unique, state->loc.path, oldpar_str, state->resolve.bname, state->loc2.path, newpar_str, state->resolve2.bname, strerror (op_errno)); goto out; } stbuf->ia_type = state->loc.inode->ia_type; /* TODO: log gfid of the inodes */ gf_log (state->conn->bound_xl->name, GF_LOG_TRACE, "%"PRId64": RENAME_CBK %s ==> %s", frame->root->unique, state->loc.name, state->loc2.name); /* Before renaming the inode, we have to get the inode for the * destination entry (i.e. inode with state->loc2.parent as * parent and state->loc2.name as name). If it exists, then * unlink that inode, and send forget on that inode if the * unlinked entry is the last entry. In case of fuse client * the fuse kernel module itself sends the forget on the * unlinked inode. */ tmp_inode = inode_grep (state->loc.inode->table, state->loc2.parent, state->loc2.name); if (tmp_inode) { inode_unlink (tmp_inode, state->loc2.parent, state->loc2.name); tmp_parent = inode_parent (tmp_inode, 0, NULL); if (tmp_parent) inode_unref (tmp_parent); else inode_forget (tmp_inode, 0); inode_unref (tmp_inode); } inode_rename (state->itable, state->loc.parent, state->loc.name, state->loc2.parent, state->loc2.name, state->loc.inode, stbuf); gf_stat_from_iatt (&rsp.stat, stbuf); gf_stat_from_iatt (&rsp.preoldparent, preoldparent); gf_stat_from_iatt (&rsp.postoldparent, postoldparent); gf_stat_from_iatt (&rsp.prenewparent, prenewparent); gf_stat_from_iatt (&rsp.postnewparent, postnewparent); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_rename_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_unlink_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iatt *preparent, struct iatt *postparent, dict_t *xdata) { gfs3_unlink_rsp rsp = {0,}; server_state_t *state = NULL; inode_t *parent = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": UNLINK %s (%s/%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.pargfid), state->resolve.bname, strerror (op_errno)); goto out; } /* TODO: log gfid of the inodes */ gf_log (state->conn->bound_xl->name, GF_LOG_TRACE, "%"PRId64": UNLINK_CBK %s", frame->root->unique, state->loc.name); inode_unlink (state->loc.inode, state->loc.parent, state->loc.name); parent = inode_parent (state->loc.inode, 0, NULL); if (parent) inode_unref (parent); else inode_forget (state->loc.inode, 0); gf_stat_from_iatt (&rsp.preparent, preparent); gf_stat_from_iatt (&rsp.postparent, postparent); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_unlink_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_symlink_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, inode_t *inode, struct iatt *stbuf, struct iatt *preparent, struct iatt *postparent, dict_t *xdata) { gfs3_symlink_rsp rsp = {0,}; server_state_t *state = NULL; inode_t *link_inode = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": SYMLINK %s (%s/%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.pargfid), state->resolve.bname, strerror (op_errno)); goto out; } gf_stat_from_iatt (&rsp.stat, stbuf); gf_stat_from_iatt (&rsp.preparent, preparent); gf_stat_from_iatt (&rsp.postparent, postparent); link_inode = inode_link (inode, state->loc.parent, state->loc.name, stbuf); inode_lookup (link_inode); inode_unref (link_inode); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_symlink_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_link_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, inode_t *inode, struct iatt *stbuf, struct iatt *preparent, struct iatt *postparent, dict_t *xdata) { gfs3_link_rsp rsp = {0,}; server_state_t *state = NULL; inode_t *link_inode = NULL; rpcsvc_request_t *req = NULL; char gfid_str[50] = {0,}; char newpar_str[50] = {0,}; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret) { uuid_utoa_r (state->resolve.gfid, gfid_str); uuid_utoa_r (state->resolve2.pargfid, newpar_str); gf_log (this->name, GF_LOG_INFO, "%"PRId64": LINK %s (%s) -> %s/%s ==> (%s)", frame->root->unique, state->loc.path, gfid_str, newpar_str, state->resolve2.bname, strerror (op_errno)); goto out; } gf_stat_from_iatt (&rsp.stat, stbuf); gf_stat_from_iatt (&rsp.preparent, preparent); gf_stat_from_iatt (&rsp.postparent, postparent); link_inode = inode_link (inode, state->loc2.parent, state->loc2.name, stbuf); inode_unref (link_inode); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_link_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_truncate_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iatt *prebuf, struct iatt *postbuf, dict_t *xdata) { gfs3_truncate_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE (frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": TRUNCATE %s (%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } gf_stat_from_iatt (&rsp.prestat, prebuf); gf_stat_from_iatt (&rsp.poststat, postbuf); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_truncate_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_fstat_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iatt *stbuf, dict_t *xdata) { gfs3_fstat_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": FSTAT %"PRId64" (%s) ==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } gf_stat_from_iatt (&rsp.stat, stbuf); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_fstat_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_ftruncate_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iatt *prebuf, struct iatt *postbuf, dict_t *xdata) { gfs3_ftruncate_rsp rsp = {0}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE (frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": FTRUNCATE %"PRId64" (%s)==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } gf_stat_from_iatt (&rsp.prestat, prebuf); gf_stat_from_iatt (&rsp.poststat, postbuf); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_ftruncate_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_flush_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *xdata) { gf_common_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": FLUSH %"PRId64" (%s) ==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gf_common_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_fsync_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iatt *prebuf, struct iatt *postbuf, dict_t *xdata) { gfs3_fsync_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": FSYNC %"PRId64" (%s) ==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } gf_stat_from_iatt (&(rsp.prestat), prebuf); gf_stat_from_iatt (&(rsp.poststat), postbuf); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_fsync_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_writev_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iatt *prebuf, struct iatt *postbuf, dict_t *xdata) { gfs3_write_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": WRITEV %"PRId64" (%s) ==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } gf_stat_from_iatt (&rsp.prestat, prebuf); gf_stat_from_iatt (&rsp.poststat, postbuf); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_write_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_readv_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iovec *vector, int32_t count, struct iatt *stbuf, struct iobref *iobref, dict_t *xdata) { gfs3_read_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE(frame); #ifdef GF_TESTING_IO_XDATA { int ret = 0; if (!xdata) xdata = dict_new (); ret = dict_set_str (xdata, "testing-the-xdata-key", "testing-xdata-value"); } #endif GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": READV %"PRId64" (%s) ==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } gf_stat_from_iatt (&rsp.stat, stbuf); rsp.size = op_ret; out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, vector, count, iobref, (xdrproc_t)xdr_gfs3_read_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_rchecksum_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, uint32_t weak_checksum, uint8_t *strong_checksum, dict_t *xdata) { gfs3_rchecksum_rsp rsp = {0,}; rpcsvc_request_t *req = NULL; server_state_t *state = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": RCHECKSUM %"PRId64" (%s)==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } rsp.weak_checksum = weak_checksum; rsp.strong_checksum.strong_checksum_val = (char *)strong_checksum; rsp.strong_checksum.strong_checksum_len = MD5_DIGEST_LENGTH; out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_rchecksum_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_open_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, fd_t *fd, dict_t *xdata) { server_connection_t *conn = NULL; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; uint64_t fd_no = 0; gfs3_open_rsp rsp = {0,}; req = frame->local; conn = SERVER_CONNECTION (frame); state = CALL_STATE (frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": OPEN %s (%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } fd_bind (fd); fd_no = gf_fd_unused_get (conn->fdtable, fd); fd_ref (fd); rsp.fd = fd_no; out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_open_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_create_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, fd_t *fd, inode_t *inode, struct iatt *stbuf, struct iatt *preparent, struct iatt *postparent, dict_t *xdata) { server_connection_t *conn = NULL; server_state_t *state = NULL; inode_t *link_inode = NULL; rpcsvc_request_t *req = NULL; uint64_t fd_no = 0; gfs3_create_rsp rsp = {0,}; req = frame->local; conn = SERVER_CONNECTION (frame); state = CALL_STATE (frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": CREATE %s (%s/%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.pargfid), state->resolve.bname, strerror (op_errno)); goto out; } /* TODO: log gfid too */ gf_log (state->conn->bound_xl->name, GF_LOG_TRACE, "%"PRId64": CREATE %s (%s)", frame->root->unique, state->loc.name, uuid_utoa (stbuf->ia_gfid)); link_inode = inode_link (inode, state->loc.parent, state->loc.name, stbuf); if (!link_inode) { op_ret = -1; op_errno = ENOENT; goto out; } if (link_inode != inode) { /* VERY racy code (if used anywhere else) -- don't do this without understanding */ inode_unref (fd->inode); fd->inode = inode_ref (link_inode); } inode_lookup (link_inode); inode_unref (link_inode); fd_bind (fd); fd_no = gf_fd_unused_get (conn->fdtable, fd); fd_ref (fd); if ((fd_no < 0) || (fd == 0)) { op_ret = fd_no; op_errno = errno; } gf_stat_from_iatt (&rsp.stat, stbuf); gf_stat_from_iatt (&rsp.preparent, preparent); gf_stat_from_iatt (&rsp.postparent, postparent); out: rsp.fd = fd_no; rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_create_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_readlink_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, const char *buf, struct iatt *stbuf, dict_t *xdata) { gfs3_readlink_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": READLINK %s (%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } gf_stat_from_iatt (&rsp.buf, stbuf); rsp.path = (char *)buf; out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); if (!rsp.path) rsp.path = ""; server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_readlink_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_stat_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iatt *stbuf, dict_t *xdata) { gfs3_stat_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE (frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": STAT %s (%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } gf_stat_from_iatt (&rsp.stat, stbuf); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_stat_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_setattr_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iatt *statpre, struct iatt *statpost, dict_t *xdata) { gfs3_setattr_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE (frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": SETATTR %s (%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } gf_stat_from_iatt (&rsp.statpre, statpre); gf_stat_from_iatt (&rsp.statpost, statpost); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_setattr_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_fsetattr_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct iatt *statpre, struct iatt *statpost, dict_t *xdata) { gfs3_fsetattr_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE (frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": FSETATTR %"PRId64" (%s) ==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } gf_stat_from_iatt (&rsp.statpre, statpre); gf_stat_from_iatt (&rsp.statpost, statpost); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_fsetattr_rsp); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_xattrop_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *dict, dict_t *xdata) { gfs3_xattrop_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE (frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": XATTROP %s (%s) ==> (%s)", frame->root->unique, state->loc.path, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } GF_PROTOCOL_DICT_SERIALIZE (this, dict, (&rsp.dict.dict_val), rsp.dict.dict_len, op_errno, out); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_xattrop_rsp); GF_FREE (rsp.dict.dict_val); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_fxattrop_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *dict, dict_t *xdata) { gfs3_xattrop_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": FXATTROP %"PRId64" (%s) ==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } GF_PROTOCOL_DICT_SERIALIZE (this, dict, (&rsp.dict.dict_val), rsp.dict.dict_len, op_errno, out); out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_fxattrop_rsp); GF_FREE (rsp.dict.dict_val); GF_FREE (rsp.xdata.xdata_val); return 0; } int server_readdirp_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, gf_dirent_t *entries, dict_t *xdata) { gfs3_readdirp_rsp rsp = {0,}; server_state_t *state = NULL; rpcsvc_request_t *req = NULL; int ret = 0; req = frame->local; state = CALL_STATE(frame); GF_PROTOCOL_DICT_SERIALIZE (this, xdata, (&rsp.xdata.xdata_val), rsp.xdata.xdata_len, op_errno, out); if (op_ret < 0) { gf_log (this->name, GF_LOG_INFO, "%"PRId64": READDIRP %"PRId64" (%s) ==> (%s)", frame->root->unique, state->resolve.fd_no, uuid_utoa (state->resolve.gfid), strerror (op_errno)); goto out; } /* (op_ret == 0) is valid, and means EOF */ if (op_ret) { ret = serialize_rsp_direntp (entries, &rsp); if (ret == -1) { op_ret = -1; op_errno = ENOMEM; goto out; } } /* TODO: need more clear thoughts before calling this function. */ /* gf_link_inodes_from_dirent (this, state->fd->inode, entries); */ out: rsp.op_ret = op_ret; rsp.op_errno = gf_errno_to_error (op_errno); server_submit_reply (frame, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gfs3_readdirp_rsp); GF_FREE (rsp.xdata.xdata_val); readdirp_rsp_cleanup (&rsp); return 0; } /* Resume function section */ int server_rchecksum_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; int op_ret = 0; int op_errno = EINVAL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) { op_ret = state->resolve.op_ret; op_errno = state->resolve.op_errno; goto err; } STACK_WIND (frame, server_rchecksum_cbk, bound_xl, bound_xl->fops->rchecksum, state->fd, state->offset, state->size, state->xdata); return 0; err: server_rchecksum_cbk (frame, NULL, frame->this, op_ret, op_errno, 0, NULL, NULL); return 0; } int server_lk_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_lk_cbk, bound_xl, bound_xl->fops->lk, state->fd, state->cmd, &state->flock, state->xdata); return 0; err: server_lk_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL); return 0; } int server_rename_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; int op_ret = 0; int op_errno = 0; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) { op_ret = state->resolve.op_ret; op_errno = state->resolve.op_errno; goto err; } if (state->resolve2.op_ret != 0) { op_ret = state->resolve2.op_ret; op_errno = state->resolve2.op_errno; goto err; } STACK_WIND (frame, server_rename_cbk, bound_xl, bound_xl->fops->rename, &state->loc, &state->loc2, state->xdata); return 0; err: server_rename_cbk (frame, NULL, frame->this, op_ret, op_errno, NULL, NULL, NULL, NULL, NULL, NULL); return 0; } int server_link_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; int op_ret = 0; int op_errno = 0; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) { op_ret = state->resolve.op_ret; op_errno = state->resolve.op_errno; goto err; } if (state->resolve2.op_ret != 0) { op_ret = state->resolve2.op_ret; op_errno = state->resolve2.op_errno; goto err; } state->loc2.inode = inode_ref (state->loc.inode); STACK_WIND (frame, server_link_cbk, bound_xl, bound_xl->fops->link, &state->loc, &state->loc2, state->xdata); return 0; err: server_link_cbk (frame, NULL, frame->this, op_ret, op_errno, NULL, NULL, NULL, NULL, NULL); return 0; } int server_symlink_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; state->loc.inode = inode_new (state->itable); STACK_WIND (frame, server_symlink_cbk, bound_xl, bound_xl->fops->symlink, state->name, &state->loc, state->umask, state->xdata); return 0; err: server_symlink_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL, NULL, NULL, NULL); return 0; } int server_access_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_access_cbk, bound_xl, bound_xl->fops->access, &state->loc, state->mask, state->xdata); return 0; err: server_access_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL); return 0; } int server_fentrylk_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_fentrylk_cbk, bound_xl, bound_xl->fops->fentrylk, state->volume, state->fd, state->name, state->cmd, state->type, state->xdata); return 0; err: server_fentrylk_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL); return 0; } int server_entrylk_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_entrylk_cbk, bound_xl, bound_xl->fops->entrylk, state->volume, &state->loc, state->name, state->cmd, state->type, state->xdata); return 0; err: server_entrylk_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL); return 0; } int server_finodelk_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_finodelk_cbk, bound_xl, bound_xl->fops->finodelk, state->volume, state->fd, state->cmd, &state->flock, state->xdata); return 0; err: server_finodelk_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL); return 0; } int server_inodelk_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_inodelk_cbk, bound_xl, bound_xl->fops->inodelk, state->volume, &state->loc, state->cmd, &state->flock, state->xdata); return 0; err: server_inodelk_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL); return 0; } int server_rmdir_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_rmdir_cbk, bound_xl, bound_xl->fops->rmdir, &state->loc, state->flags, state->xdata); return 0; err: server_rmdir_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL, NULL); return 0; } int server_mkdir_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; state->loc.inode = inode_new (state->itable); STACK_WIND (frame, server_mkdir_cbk, bound_xl, bound_xl->fops->mkdir, &(state->loc), state->mode, state->umask, state->xdata); return 0; err: server_mkdir_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL, NULL, NULL, NULL); return 0; } int server_mknod_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; state->loc.inode = inode_new (state->itable); STACK_WIND (frame, server_mknod_cbk, bound_xl, bound_xl->fops->mknod, &(state->loc), state->mode, state->dev, state->umask, state->xdata); return 0; err: server_mknod_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL, NULL, NULL, NULL); return 0; } int server_fsyncdir_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_fsyncdir_cbk, bound_xl, bound_xl->fops->fsyncdir, state->fd, state->flags, state->xdata); return 0; err: server_fsyncdir_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL); return 0; } int server_readdir_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; GF_ASSERT (state->fd); STACK_WIND (frame, server_readdir_cbk, bound_xl, bound_xl->fops->readdir, state->fd, state->size, state->offset, state->xdata); return 0; err: server_readdir_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL); return 0; } int server_readdirp_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_readdirp_cbk, bound_xl, bound_xl->fops->readdirp, state->fd, state->size, state->offset, state->dict); return 0; err: server_readdirp_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL); return 0; } int server_opendir_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; state->fd = fd_create (state->loc.inode, frame->root->pid); if (!state->fd) { gf_log ("server", GF_LOG_ERROR, "could not create the fd"); goto err; } STACK_WIND (frame, server_opendir_cbk, bound_xl, bound_xl->fops->opendir, &state->loc, state->fd, state->xdata); return 0; err: server_opendir_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL); return 0; } int server_statfs_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret !=0) goto err; STACK_WIND (frame, server_statfs_cbk, bound_xl, bound_xl->fops->statfs, &state->loc, state->xdata); return 0; err: server_statfs_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL); return 0; } int server_removexattr_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_removexattr_cbk, bound_xl, bound_xl->fops->removexattr, &state->loc, state->name, state->xdata); return 0; err: server_removexattr_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL); return 0; } int server_fremovexattr_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_fremovexattr_cbk, bound_xl, bound_xl->fops->fremovexattr, state->fd, state->name, state->xdata); return 0; err: server_fremovexattr_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL); return 0; } int server_fgetxattr_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_fgetxattr_cbk, bound_xl, bound_xl->fops->fgetxattr, state->fd, state->name, state->xdata); return 0; err: server_fgetxattr_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL); return 0; } int server_xattrop_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_xattrop_cbk, bound_xl, bound_xl->fops->xattrop, &state->loc, state->flags, state->dict, state->xdata); return 0; err: server_xattrop_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL); return 0; } int server_fxattrop_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_fxattrop_cbk, bound_xl, bound_xl->fops->fxattrop, state->fd, state->flags, state->dict, state->xdata); return 0; err: server_fxattrop_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL); return 0; } int server_fsetxattr_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_setxattr_cbk, bound_xl, bound_xl->fops->fsetxattr, state->fd, state->dict, state->flags, state->xdata); return 0; err: server_fsetxattr_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL); return 0; } int server_unlink_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_unlink_cbk, bound_xl, bound_xl->fops->unlink, &state->loc, state->flags, state->xdata); return 0; err: server_unlink_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL, NULL); return 0; } int server_truncate_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_truncate_cbk, bound_xl, bound_xl->fops->truncate, &state->loc, state->offset, state->xdata); return 0; err: server_truncate_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL, NULL); return 0; } int server_fstat_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_fstat_cbk, bound_xl, bound_xl->fops->fstat, state->fd, state->xdata); return 0; err: server_fstat_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL); return 0; } int server_setxattr_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_setxattr_cbk, bound_xl, bound_xl->fops->setxattr, &state->loc, state->dict, state->flags, state->xdata); return 0; err: server_setxattr_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL); return 0; } int server_getxattr_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_getxattr_cbk, bound_xl, bound_xl->fops->getxattr, &state->loc, state->name, state->xdata); return 0; err: server_getxattr_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL); return 0; } int server_ftruncate_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_ftruncate_cbk, bound_xl, bound_xl->fops->ftruncate, state->fd, state->offset, state->xdata); return 0; err: server_ftruncate_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL, NULL); return 0; } int server_flush_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_flush_cbk, bound_xl, bound_xl->fops->flush, state->fd, state->xdata); return 0; err: server_flush_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL); return 0; } int server_fsync_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_fsync_cbk, bound_xl, bound_xl->fops->fsync, state->fd, state->flags, state->xdata); return 0; err: server_fsync_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL, NULL); return 0; } int server_writev_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_writev_cbk, bound_xl, bound_xl->fops->writev, state->fd, state->payload_vector, state->payload_count, state->offset, state->flags, state->iobref, state->xdata); return 0; err: server_writev_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL, NULL); return 0; } int server_readv_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_readv_cbk, bound_xl, bound_xl->fops->readv, state->fd, state->size, state->offset, state->flags, state->xdata); return 0; err: server_readv_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, 0, NULL, NULL, NULL); return 0; } int server_create_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; state->loc.inode = inode_new (state->itable); state->fd = fd_create (state->loc.inode, frame->root->pid); if (!state->fd) { gf_log ("server", GF_LOG_ERROR, "fd creation for the inode %s " "failed", state->loc.inode? uuid_utoa (state->loc.inode->gfid):NULL); state->resolve.op_ret = -1; state->resolve.op_errno = ENOMEM; goto err; } state->fd->flags = state->flags; STACK_WIND (frame, server_create_cbk, bound_xl, bound_xl->fops->create, &(state->loc), state->flags, state->mode, state->umask, state->fd, state->xdata); return 0; err: server_create_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL, NULL, NULL, NULL, NULL); return 0; } int server_open_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; state->fd = fd_create (state->loc.inode, frame->root->pid); state->fd->flags = state->flags; STACK_WIND (frame, server_open_cbk, bound_xl, bound_xl->fops->open, &state->loc, state->flags, state->fd, state->xdata); return 0; err: server_open_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL); return 0; } int server_readlink_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_readlink_cbk, bound_xl, bound_xl->fops->readlink, &state->loc, state->size, state->xdata); return 0; err: server_readlink_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL, NULL); return 0; } int server_fsetattr_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_fsetattr_cbk, bound_xl, bound_xl->fops->fsetattr, state->fd, &state->stbuf, state->valid, state->xdata); return 0; err: server_fsetattr_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL, NULL); return 0; } int server_setattr_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_setattr_cbk, bound_xl, bound_xl->fops->setattr, &state->loc, &state->stbuf, state->valid, state->xdata); return 0; err: server_setattr_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL, NULL); return 0; } int server_stat_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; STACK_WIND (frame, server_stat_cbk, bound_xl, bound_xl->fops->stat, &state->loc, state->xdata); return 0; err: server_stat_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL); return 0; } int server_lookup_resume (call_frame_t *frame, xlator_t *bound_xl) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->resolve.op_ret != 0) goto err; if (!state->loc.inode) state->loc.inode = inode_new (state->itable); else state->is_revalidate = 1; STACK_WIND (frame, server_lookup_cbk, bound_xl, bound_xl->fops->lookup, &state->loc, state->xdata); return 0; err: server_lookup_cbk (frame, NULL, frame->this, state->resolve.op_ret, state->resolve.op_errno, NULL, NULL, NULL, NULL); return 0; } /* Fop section */ int server3_3_stat (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_stat_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return 0; /* Initialize args first, then decode */ if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_stat_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_STAT; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; memcpy (state->resolve.gfid, args.gfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_stat_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_setattr (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_setattr_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return 0; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_setattr_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_SETATTR; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; memcpy (state->resolve.gfid, args.gfid, 16); gf_stat_to_iatt (&args.stbuf, &state->stbuf); state->valid = args.valid; GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_setattr_resume); out: if (op_errno) req->rpc_err = GARBAGE_ARGS; free (args.xdata.xdata_val); return ret; } int server3_3_fsetattr (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_fsetattr_req args = {0,}; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_fsetattr_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_FSETATTR; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->resolve.fd_no = args.fd; gf_stat_to_iatt (&args.stbuf, &state->stbuf); state->valid = args.valid; GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_fsetattr_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_readlink (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_readlink_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_readlink_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_READLINK; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; memcpy (state->resolve.gfid, args.gfid, 16); state->size = args.size; GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_readlink_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_create (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_create_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; args.bname = alloca (req->msg[0].iov_len); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_create_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_CREATE; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.bname = gf_strdup (args.bname); state->mode = args.mode; state->umask = args.umask; state->flags = gf_flags_to_flags (args.flags); memcpy (state->resolve.pargfid, args.pargfid, 16); if (state->flags & O_EXCL) { state->resolve.type = RESOLVE_NOT; } else { state->resolve.type = RESOLVE_DONTCARE; } /* TODO: can do alloca for xdata field instead of stdalloc */ GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_create_resume); out: /* memory allocated by libc, don't use GF_FREE */ free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_open (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_open_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_open_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_OPEN; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; memcpy (state->resolve.gfid, args.gfid, 16); state->flags = gf_flags_to_flags (args.flags); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_open_resume); out: if (op_errno) req->rpc_err = GARBAGE_ARGS; free (args.xdata.xdata_val); return ret; } int server3_3_readv (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_read_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) goto out; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_read_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_READ; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->resolve.fd_no = args.fd; state->size = args.size; state->offset = args.offset; state->flags = args.flag; memcpy (state->resolve.gfid, args.gfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_readv_resume); out: /* memory allocated by libc, don't use GF_FREE */ free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_writev (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_write_req args = {{0,},}; ssize_t len = 0; int i = 0; int ret = -1; int op_errno = 0; if (!req) return ret; len = xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_write_req); if (len == 0) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_WRITE; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->resolve.fd_no = args.fd; state->offset = args.offset; state->flags = args.flag; state->iobref = iobref_ref (req->iobref); memcpy (state->resolve.gfid, args.gfid, 16); if (len < req->msg[0].iov_len) { state->payload_vector[0].iov_base = (req->msg[0].iov_base + len); state->payload_vector[0].iov_len = req->msg[0].iov_len - len; state->payload_count = 1; } for (i = 1; i < req->count; i++) { state->payload_vector[state->payload_count++] = req->msg[i]; } for (i = 0; i < state->payload_count; i++) { state->size += state->payload_vector[i].iov_len; } GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); #ifdef GF_TESTING_IO_XDATA dict_dump (state->xdata); #endif ret = 0; resolve_and_resume (frame, server_writev_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } #define SERVER3_3_VECWRITE_START 0 #define SERVER3_3_VECWRITE_READING_HDR 1 #define SERVER3_3_VECWRITE_READING_OPAQUE 2 int server3_3_writev_vecsizer (int state, ssize_t *readsize, char *base_addr, char *curr_addr) { ssize_t size = 0; int nextstate = 0; gfs3_write_req write_req = {{0,},}; XDR xdr; switch (state) { case SERVER3_3_VECWRITE_START: size = xdr_sizeof ((xdrproc_t) xdr_gfs3_write_req, &write_req); *readsize = size; nextstate = SERVER3_3_VECWRITE_READING_HDR; break; case SERVER3_3_VECWRITE_READING_HDR: size = xdr_sizeof ((xdrproc_t) xdr_gfs3_write_req, &write_req); xdrmem_create (&xdr, base_addr, size, XDR_DECODE); /* This will fail if there is xdata sent from client, if not, well and good */ xdr_gfs3_write_req (&xdr, &write_req); /* need to round off to proper roof (%4), as XDR packing pads the end of opaque object with '0' */ size = roof (write_req.xdata.xdata_len, 4); *readsize = size; if (!size) nextstate = SERVER3_3_VECWRITE_START; else nextstate = SERVER3_3_VECWRITE_READING_OPAQUE; free (write_req.xdata.xdata_val); break; case SERVER3_3_VECWRITE_READING_OPAQUE: *readsize = 0; nextstate = SERVER3_3_VECWRITE_START; break; default: gf_log ("server", GF_LOG_ERROR, "wrong state: %d", state); } return nextstate; } int server3_3_release (rpcsvc_request_t *req) { server_connection_t *conn = NULL; gfs3_release_req args = {{0,},}; gf_common_rsp rsp = {0,}; int ret = -1; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_release_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } conn = req->trans->xl_private; if (!conn) { /* Handshake is not complete yet. */ req->rpc_err = SYSTEM_ERR; goto out; } gf_fd_put (conn->fdtable, args.fd); server_submit_reply (NULL, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gf_common_rsp); ret = 0; out: return ret; } int server3_3_releasedir (rpcsvc_request_t *req) { server_connection_t *conn = NULL; gfs3_releasedir_req args = {{0,},}; gf_common_rsp rsp = {0,}; int ret = -1; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_release_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } conn = req->trans->xl_private; if (!conn) { req->rpc_err = GARBAGE_ARGS; goto out; } gf_fd_put (conn->fdtable, args.fd); server_submit_reply (NULL, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gf_common_rsp); ret = 0; out: return ret; } int server3_3_fsync (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_fsync_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_fsync_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_FSYNC; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->resolve.fd_no = args.fd; state->flags = args.data; memcpy (state->resolve.gfid, args.gfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_fsync_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_flush (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_flush_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_flush_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_FLUSH; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->resolve.fd_no = args.fd; memcpy (state->resolve.gfid, args.gfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_flush_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_ftruncate (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_ftruncate_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_ftruncate_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_FTRUNCATE; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->resolve.fd_no = args.fd; state->offset = args.offset; memcpy (state->resolve.gfid, args.gfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_ftruncate_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_fstat (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_fstat_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_fstat_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_FSTAT; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->resolve.fd_no = args.fd; memcpy (state->resolve.gfid, args.gfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_fstat_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_truncate (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_truncate_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_truncate_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_TRUNCATE; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; memcpy (state->resolve.gfid, args.gfid, 16); state->offset = args.offset; GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_truncate_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_unlink (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_unlink_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; args.bname = alloca (req->msg[0].iov_len); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_unlink_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_UNLINK; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->resolve.bname = gf_strdup (args.bname); memcpy (state->resolve.pargfid, args.pargfid, 16); state->flags = args.xflags; GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_unlink_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_setxattr (rpcsvc_request_t *req) { server_state_t *state = NULL; dict_t *dict = NULL; call_frame_t *frame = NULL; gfs3_setxattr_req args = {{0,},}; int32_t ret = -1; int32_t op_errno = 0; if (!req) return ret; args.dict.dict_val = alloca (req->msg[0].iov_len); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_setxattr_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_SETXATTR; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->flags = args.flags; memcpy (state->resolve.gfid, args.gfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, dict, (args.dict.dict_val), (args.dict.dict_len), ret, op_errno, out); state->dict = dict; /* There can be some commands hidden in key, check and proceed */ gf_server_check_setxattr_cmd (frame, dict); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_setxattr_resume); return ret; out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; if (dict) dict_unref (dict); return ret; } int server3_3_fsetxattr (rpcsvc_request_t *req) { server_state_t *state = NULL; dict_t *dict = NULL; call_frame_t *frame = NULL; gfs3_fsetxattr_req args = {{0,},}; int32_t ret = -1; int32_t op_errno = 0; if (!req) return ret; args.dict.dict_val = alloca (req->msg[0].iov_len); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_fsetxattr_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_FSETXATTR; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->resolve.fd_no = args.fd; state->flags = args.flags; memcpy (state->resolve.gfid, args.gfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, dict, (args.dict.dict_val), (args.dict.dict_len), ret, op_errno, out); state->dict = dict; GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_fsetxattr_resume); return ret; out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; if (dict) dict_unref (dict); return ret; } int server3_3_fxattrop (rpcsvc_request_t *req) { dict_t *dict = NULL; server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_fxattrop_req args = {{0,},}; int32_t ret = -1; int32_t op_errno = 0; if (!req) return ret; args.dict.dict_val = alloca (req->msg[0].iov_len); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_fxattrop_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_FXATTROP; state = CALL_STATE(frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->resolve.fd_no = args.fd; state->flags = args.flags; memcpy (state->resolve.gfid, args.gfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, dict, (args.dict.dict_val), (args.dict.dict_len), ret, op_errno, out); state->dict = dict; GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_fxattrop_resume); return ret; out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; if (dict) dict_unref (dict); return ret; } int server3_3_xattrop (rpcsvc_request_t *req) { dict_t *dict = NULL; server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_xattrop_req args = {{0,},}; int32_t ret = -1; int32_t op_errno = 0; if (!req) return ret; args.dict.dict_val = alloca (req->msg[0].iov_len); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_xattrop_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_XATTROP; state = CALL_STATE(frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->flags = args.flags; memcpy (state->resolve.gfid, args.gfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, dict, (args.dict.dict_val), (args.dict.dict_len), ret, op_errno, out); state->dict = dict; GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_xattrop_resume); return ret; out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; if (dict) dict_unref (dict); return ret; } int server3_3_getxattr (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_getxattr_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; args.name = alloca (256); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_getxattr_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_GETXATTR; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; memcpy (state->resolve.gfid, args.gfid, 16); if (args.namelen) { state->name = gf_strdup (args.name); /* There can be some commands hidden in key, check and proceed */ gf_server_check_getxattr_cmd (frame, state->name); } GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_getxattr_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_fgetxattr (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_fgetxattr_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; args.name = alloca (256); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_fgetxattr_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_FGETXATTR; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->resolve.fd_no = args.fd; memcpy (state->resolve.gfid, args.gfid, 16); if (args.namelen) state->name = gf_strdup (args.name); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_fgetxattr_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_removexattr (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_removexattr_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; args.name = alloca (256); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_removexattr_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_REMOVEXATTR; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; memcpy (state->resolve.gfid, args.gfid, 16); state->name = gf_strdup (args.name); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_removexattr_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_fremovexattr (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_fremovexattr_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; args.name = alloca (4096); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_fremovexattr_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_FREMOVEXATTR; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->resolve.fd_no = args.fd; memcpy (state->resolve.gfid, args.gfid, 16); state->name = gf_strdup (args.name); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_fremovexattr_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_opendir (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_opendir_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_opendir_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_OPENDIR; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; memcpy (state->resolve.gfid, args.gfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_opendir_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_readdirp (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_readdirp_req args = {{0,},}; size_t headers_size = 0; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_readdirp_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_READDIRP; state = CALL_STATE(frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } /* FIXME: this should go away when variable sized iobufs are introduced * and transport layer can send msgs bigger than current page-size. */ headers_size = sizeof (struct rpc_msg) + sizeof (gfs3_readdir_rsp); if ((frame->this->ctx->page_size < args.size) || ((frame->this->ctx->page_size - args.size) < headers_size)) { state->size = frame->this->ctx->page_size - headers_size; } else { state->size = args.size; } state->resolve.type = RESOLVE_MUST; state->resolve.fd_no = args.fd; state->offset = args.offset; memcpy (state->resolve.gfid, args.gfid, 16); /* here, dict itself works as xdata */ GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->dict, (args.dict.dict_val), (args.dict.dict_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_readdirp_resume); out: if (op_errno) req->rpc_err = GARBAGE_ARGS; free (args.dict.dict_val); return ret; } int server3_3_readdir (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_readdir_req args = {{0,},}; size_t headers_size = 0; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_readdir_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_READDIR; state = CALL_STATE(frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } /* FIXME: this should go away when variable sized iobufs are introduced * and transport layer can send msgs bigger than current page-size. */ headers_size = sizeof (struct rpc_msg) + sizeof (gfs3_readdir_rsp); if ((frame->this->ctx->page_size < args.size) || ((frame->this->ctx->page_size - args.size) < headers_size)) { state->size = frame->this->ctx->page_size - headers_size; } else { state->size = args.size; } state->resolve.type = RESOLVE_MUST; state->resolve.fd_no = args.fd; state->offset = args.offset; memcpy (state->resolve.gfid, args.gfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_readdir_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_fsyncdir (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_fsyncdir_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_fsyncdir_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_FSYNCDIR; state = CALL_STATE(frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->resolve.fd_no = args.fd; state->flags = args.data; memcpy (state->resolve.gfid, args.gfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_fsyncdir_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_mknod (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_mknod_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; args.bname = alloca (req->msg[0].iov_len); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_mknod_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_MKNOD; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_NOT; memcpy (state->resolve.pargfid, args.pargfid, 16); state->resolve.bname = gf_strdup (args.bname); state->mode = args.mode; state->dev = args.dev; state->umask = args.umask; GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_mknod_resume); out: if (op_errno) req->rpc_err = GARBAGE_ARGS; /* memory allocated by libc, don't use GF_FREE */ free (args.xdata.xdata_val); return ret; } int server3_3_mkdir (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_mkdir_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; args.bname = alloca (req->msg[0].iov_len); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_mkdir_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_MKDIR; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_NOT; memcpy (state->resolve.pargfid, args.pargfid, 16); state->resolve.bname = gf_strdup (args.bname); state->mode = args.mode; state->umask = args.umask; /* TODO: can do alloca for xdata field instead of stdalloc */ GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_mkdir_resume); out: if (op_errno) req->rpc_err = GARBAGE_ARGS; free (args.xdata.xdata_val); return ret; } int server3_3_rmdir (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_rmdir_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; args.bname = alloca (req->msg[0].iov_len); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_rmdir_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_RMDIR; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; memcpy (state->resolve.pargfid, args.pargfid, 16); state->resolve.bname = gf_strdup (args.bname); state->flags = args.xflags; GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_rmdir_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_inodelk (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_inodelk_req args = {{0,},}; int cmd = 0; int ret = -1; int op_errno = 0; if (!req) return ret; args.volume = alloca (256); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_inodelk_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_INODELK; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_EXACT; memcpy (state->resolve.gfid, args.gfid, 16); cmd = args.cmd; switch (cmd) { case GF_LK_GETLK: state->cmd = F_GETLK; break; case GF_LK_SETLK: state->cmd = F_SETLK; break; case GF_LK_SETLKW: state->cmd = F_SETLKW; break; } state->type = args.type; state->volume = gf_strdup (args.volume); gf_proto_flock_to_flock (&args.flock, &state->flock); switch (state->type) { case GF_LK_F_RDLCK: state->flock.l_type = F_RDLCK; break; case GF_LK_F_WRLCK: state->flock.l_type = F_WRLCK; break; case GF_LK_F_UNLCK: state->flock.l_type = F_UNLCK; break; } GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_inodelk_resume); out: free (args.xdata.xdata_val); free (args.flock.lk_owner.lk_owner_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_finodelk (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_finodelk_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; args.volume = alloca (256); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_finodelk_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_FINODELK; state = CALL_STATE(frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_EXACT; state->volume = gf_strdup (args.volume); state->resolve.fd_no = args.fd; state->cmd = args.cmd; memcpy (state->resolve.gfid, args.gfid, 16); switch (state->cmd) { case GF_LK_GETLK: state->cmd = F_GETLK; break; case GF_LK_SETLK: state->cmd = F_SETLK; break; case GF_LK_SETLKW: state->cmd = F_SETLKW; break; } state->type = args.type; gf_proto_flock_to_flock (&args.flock, &state->flock); switch (state->type) { case GF_LK_F_RDLCK: state->flock.l_type = F_RDLCK; break; case GF_LK_F_WRLCK: state->flock.l_type = F_WRLCK; break; case GF_LK_F_UNLCK: state->flock.l_type = F_UNLCK; break; } GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_finodelk_resume); out: free (args.xdata.xdata_val); free (args.flock.lk_owner.lk_owner_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_entrylk (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_entrylk_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; args.volume = alloca (256); args.name = alloca (256); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_entrylk_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_ENTRYLK; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_EXACT; memcpy (state->resolve.gfid, args.gfid, 16); if (args.namelen) state->name = gf_strdup (args.name); state->volume = gf_strdup (args.volume); state->cmd = args.cmd; state->type = args.type; GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_entrylk_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_fentrylk (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_fentrylk_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; args.name = alloca (256); args.volume = alloca (256); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_fentrylk_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_FENTRYLK; state = CALL_STATE(frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_EXACT; state->resolve.fd_no = args.fd; state->cmd = args.cmd; state->type = args.type; memcpy (state->resolve.gfid, args.gfid, 16); if (args.namelen) state->name = gf_strdup (args.name); state->volume = gf_strdup (args.volume); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_fentrylk_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_access (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_access_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_access_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_ACCESS; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; memcpy (state->resolve.gfid, args.gfid, 16); state->mask = args.mask; GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_access_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_symlink (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_symlink_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; args.bname = alloca (req->msg[0].iov_len); args.linkname = alloca (4096); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_symlink_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_SYMLINK; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_NOT; memcpy (state->resolve.pargfid, args.pargfid, 16); state->resolve.bname = gf_strdup (args.bname); state->name = gf_strdup (args.linkname); state->umask = args.umask; GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_symlink_resume); out: if (op_errno) req->rpc_err = GARBAGE_ARGS; /* memory allocated by libc, don't use GF_FREE */ free (args.xdata.xdata_val); return ret; } int server3_3_link (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_link_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; args.newbname = alloca (req->msg[0].iov_len); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_link_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_LINK; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; memcpy (state->resolve.gfid, args.oldgfid, 16); state->resolve2.type = RESOLVE_NOT; state->resolve2.bname = gf_strdup (args.newbname); memcpy (state->resolve2.pargfid, args.newgfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_link_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_rename (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_rename_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; args.oldbname = alloca (req->msg[0].iov_len); args.newbname = alloca (req->msg[0].iov_len); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_rename_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_RENAME; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; state->resolve.bname = gf_strdup (args.oldbname); memcpy (state->resolve.pargfid, args.oldgfid, 16); state->resolve2.type = RESOLVE_MAY; state->resolve2.bname = gf_strdup (args.newbname); memcpy (state->resolve2.pargfid, args.newgfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_rename_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_lk (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_lk_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_lk_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_LK; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.fd_no = args.fd; state->cmd = args.cmd; state->type = args.type; memcpy (state->resolve.gfid, args.gfid, 16); switch (state->cmd) { case GF_LK_GETLK: state->cmd = F_GETLK; break; case GF_LK_SETLK: state->cmd = F_SETLK; break; case GF_LK_SETLKW: state->cmd = F_SETLKW; break; case GF_LK_RESLK_LCK: state->cmd = F_RESLK_LCK; break; case GF_LK_RESLK_LCKW: state->cmd = F_RESLK_LCKW; break; case GF_LK_RESLK_UNLCK: state->cmd = F_RESLK_UNLCK; break; case GF_LK_GETLK_FD: state->cmd = F_GETLK_FD; break; } gf_proto_flock_to_flock (&args.flock, &state->flock); switch (state->type) { case GF_LK_F_RDLCK: state->flock.l_type = F_RDLCK; break; case GF_LK_F_WRLCK: state->flock.l_type = F_WRLCK; break; case GF_LK_F_UNLCK: state->flock.l_type = F_UNLCK; break; default: gf_log (state->conn->bound_xl->name, GF_LOG_ERROR, "fd - %"PRId64" (%s): Unknown lock type: %"PRId32"!", state->resolve.fd_no, uuid_utoa (state->fd->inode->gfid), state->type); break; } GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_lk_resume); out: free (args.xdata.xdata_val); free (args.flock.lk_owner.lk_owner_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server3_3_rchecksum (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_rchecksum_req args = {0,}; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_rchecksum_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_RCHECKSUM; state = CALL_STATE(frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MAY; state->resolve.fd_no = args.fd; state->offset = args.offset; state->size = args.len; GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_rchecksum_resume); out: free (args.xdata.xdata_val); if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } int server_null (rpcsvc_request_t *req) { gf_common_rsp rsp = {0,}; /* Accepted */ rsp.op_ret = 0; server_submit_reply (NULL, req, &rsp, NULL, 0, NULL, (xdrproc_t)xdr_gf_common_rsp); return 0; } int server3_3_lookup (rpcsvc_request_t *req) { call_frame_t *frame = NULL; server_state_t *state = NULL; gfs3_lookup_req args = {{0,},}; int ret = -1; int op_errno = 0; GF_VALIDATE_OR_GOTO ("server", req, err); args.bname = alloca (req->msg[0].iov_len); args.xdata.xdata_val = alloca (req->msg[0].iov_len); if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_lookup_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto err; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; goto err; } frame->root->op = GF_FOP_LOOKUP; /* NOTE: lookup() uses req->ino only to identify if a lookup() * is requested for 'root' or not */ state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_DONTCARE; if (args.bname && strcmp (args.bname, "")) { memcpy (state->resolve.pargfid, args.pargfid, 16); state->resolve.bname = gf_strdup (args.bname); } else { memcpy (state->resolve.gfid, args.gfid, 16); } GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_lookup_resume); return ret; out: server_lookup_cbk (frame, NULL, frame->this, -1, EINVAL, NULL, NULL, NULL, NULL); ret = 0; err: return ret; } int server3_3_statfs (rpcsvc_request_t *req) { server_state_t *state = NULL; call_frame_t *frame = NULL; gfs3_statfs_req args = {{0,},}; int ret = -1; int op_errno = 0; if (!req) return ret; if (!xdr_to_generic (req->msg[0], &args, (xdrproc_t)xdr_gfs3_statfs_req)) { //failed to decode msg; req->rpc_err = GARBAGE_ARGS; goto out; } frame = get_frame_from_request (req); if (!frame) { // something wrong, mostly insufficient memory req->rpc_err = GARBAGE_ARGS; /* TODO */ goto out; } frame->root->op = GF_FOP_STATFS; state = CALL_STATE (frame); if (!state->conn->bound_xl) { /* auth failure, request on subvolume without setvolume */ req->rpc_err = GARBAGE_ARGS; goto out; } state->resolve.type = RESOLVE_MUST; memcpy (state->resolve.gfid, args.gfid, 16); GF_PROTOCOL_DICT_UNSERIALIZE (state->conn->bound_xl, state->xdata, (args.xdata.xdata_val), (args.xdata.xdata_len), ret, op_errno, out); ret = 0; resolve_and_resume (frame, server_statfs_resume); out: if (op_errno) req->rpc_err = GARBAGE_ARGS; return ret; } rpcsvc_actor_t glusterfs3_3_fop_actors[] = { [GFS3_OP_NULL] = { "NULL", GFS3_OP_NULL, server_null, NULL, 0}, [GFS3_OP_STAT] = { "STAT", GFS3_OP_STAT, server3_3_stat, NULL, 0}, [GFS3_OP_READLINK] = { "READLINK", GFS3_OP_READLINK, server3_3_readlink, NULL, 0}, [GFS3_OP_MKNOD] = { "MKNOD", GFS3_OP_MKNOD, server3_3_mknod, NULL, 0}, [GFS3_OP_MKDIR] = { "MKDIR", GFS3_OP_MKDIR, server3_3_mkdir, NULL, 0}, [GFS3_OP_UNLINK] = { "UNLINK", GFS3_OP_UNLINK, server3_3_unlink, NULL, 0}, [GFS3_OP_RMDIR] = { "RMDIR", GFS3_OP_RMDIR, server3_3_rmdir, NULL, 0}, [GFS3_OP_SYMLINK] = { "SYMLINK", GFS3_OP_SYMLINK, server3_3_symlink, NULL, 0}, [GFS3_OP_RENAME] = { "RENAME", GFS3_OP_RENAME, server3_3_rename, NULL, 0}, [GFS3_OP_LINK] = { "LINK", GFS3_OP_LINK, server3_3_link, NULL, 0}, [GFS3_OP_TRUNCATE] = { "TRUNCATE", GFS3_OP_TRUNCATE, server3_3_truncate, NULL, 0}, [GFS3_OP_OPEN] = { "OPEN", GFS3_OP_OPEN, server3_3_open, NULL, 0}, [GFS3_OP_READ] = { "READ", GFS3_OP_READ, server3_3_readv, NULL, 0}, [GFS3_OP_WRITE] = { "WRITE", GFS3_OP_WRITE, server3_3_writev, server3_3_writev_vecsizer, 0}, [GFS3_OP_STATFS] = { "STATFS", GFS3_OP_STATFS, server3_3_statfs, NULL, 0}, [GFS3_OP_FLUSH] = { "FLUSH", GFS3_OP_FLUSH, server3_3_flush, NULL, 0}, [GFS3_OP_FSYNC] = { "FSYNC", GFS3_OP_FSYNC, server3_3_fsync, NULL, 0}, [GFS3_OP_SETXATTR] = { "SETXATTR", GFS3_OP_SETXATTR, server3_3_setxattr, NULL, 0}, [GFS3_OP_GETXATTR] = { "GETXATTR", GFS3_OP_GETXATTR, server3_3_getxattr, NULL, 0}, [GFS3_OP_REMOVEXATTR] = { "REMOVEXATTR", GFS3_OP_REMOVEXATTR, server3_3_removexattr, NULL, 0}, [GFS3_OP_OPENDIR] = { "OPENDIR", GFS3_OP_OPENDIR, server3_3_opendir, NULL, 0}, [GFS3_OP_FSYNCDIR] = { "FSYNCDIR", GFS3_OP_FSYNCDIR, server3_3_fsyncdir, NULL, 0}, [GFS3_OP_ACCESS] = { "ACCESS", GFS3_OP_ACCESS, server3_3_access, NULL, 0}, [GFS3_OP_CREATE] = { "CREATE", GFS3_OP_CREATE, server3_3_create, NULL, 0}, [GFS3_OP_FTRUNCATE] = { "FTRUNCATE", GFS3_OP_FTRUNCATE, server3_3_ftruncate, NULL, 0}, [GFS3_OP_FSTAT] = { "FSTAT", GFS3_OP_FSTAT, server3_3_fstat, NULL, 0}, [GFS3_OP_LK] = { "LK", GFS3_OP_LK, server3_3_lk, NULL, 0}, [GFS3_OP_LOOKUP] = { "LOOKUP", GFS3_OP_LOOKUP, server3_3_lookup, NULL, 0}, [GFS3_OP_READDIR] = { "READDIR", GFS3_OP_READDIR, server3_3_readdir, NULL, 0}, [GFS3_OP_INODELK] = { "INODELK", GFS3_OP_INODELK, server3_3_inodelk, NULL, 0}, [GFS3_OP_FINODELK] = { "FINODELK", GFS3_OP_FINODELK, server3_3_finodelk, NULL, 0}, [GFS3_OP_ENTRYLK] = { "ENTRYLK", GFS3_OP_ENTRYLK, server3_3_entrylk, NULL, 0}, [GFS3_OP_FENTRYLK] = { "FENTRYLK", GFS3_OP_FENTRYLK, server3_3_fentrylk, NULL, 0}, [GFS3_OP_XATTROP] = { "XATTROP", GFS3_OP_XATTROP, server3_3_xattrop, NULL, 0}, [GFS3_OP_FXATTROP] = { "FXATTROP", GFS3_OP_FXATTROP, server3_3_fxattrop, NULL, 0}, [GFS3_OP_FGETXATTR] = { "FGETXATTR", GFS3_OP_FGETXATTR, server3_3_fgetxattr, NULL, 0}, [GFS3_OP_FSETXATTR] = { "FSETXATTR", GFS3_OP_FSETXATTR, server3_3_fsetxattr, NULL, 0}, [GFS3_OP_RCHECKSUM] = { "RCHECKSUM", GFS3_OP_RCHECKSUM, server3_3_rchecksum, NULL, 0}, [GFS3_OP_SETATTR] = { "SETATTR", GFS3_OP_SETATTR, server3_3_setattr, NULL, 0}, [GFS3_OP_FSETATTR] = { "FSETATTR", GFS3_OP_FSETATTR, server3_3_fsetattr, NULL, 0}, [GFS3_OP_READDIRP] = { "READDIRP", GFS3_OP_READDIRP, server3_3_readdirp, NULL, 0}, [GFS3_OP_RELEASE] = { "RELEASE", GFS3_OP_RELEASE, server3_3_release, NULL, 0}, [GFS3_OP_RELEASEDIR] = { "RELEASEDIR", GFS3_OP_RELEASEDIR, server3_3_releasedir, NULL, 0}, [GFS3_OP_FREMOVEXATTR] = { "FREMOVEXATTR", GFS3_OP_FREMOVEXATTR, server3_3_fremovexattr, NULL, 0}, }; struct rpcsvc_program glusterfs3_3_fop_prog = { .progname = "GlusterFS 3.3", .prognum = GLUSTER_FOP_PROGRAM, .progver = GLUSTER_FOP_VERSION, .numactors = GLUSTER_FOP_PROCCNT, .actors = glusterfs3_3_fop_actors, };