/* Copyright (c) 2006-2009 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 #include #include #include "transport.h" #include "fnmatch.h" #include "xlator.h" #include "protocol.h" #include "server-protocol.h" #include "server-helpers.h" #include "call-stub.h" #include "defaults.h" #include "list.h" #include "dict.h" #include "compat.h" #include "compat-errno.h" static void protocol_server_reply (call_frame_t *frame, int type, int op, gf_hdr_common_t *hdr, size_t hdrlen, struct iovec *vector, int count, struct iobref *iobref) { server_state_t *state = NULL; xlator_t *bound_xl = NULL; transport_t *trans = NULL; int ret = 0; bound_xl = BOUND_XL (frame); state = CALL_STATE (frame); trans = state->trans; hdr->callid = hton64 (frame->root->unique); hdr->type = hton32 (type); hdr->op = hton32 (op); ret = transport_submit (trans, (char *)hdr, hdrlen, vector, count, iobref); if (ret < 0) { gf_log ("protocol/server", GF_LOG_ERROR, "frame %"PRId64": failed to submit. op= %d, type= %d", frame->root->unique, op, type); } STACK_DESTROY (frame->root); if (state) free_state (state); } /* * server_fchmod_cbk */ int server_fchmod_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct stat *stbuf) { gf_hdr_common_t *hdr = NULL; gf_fop_fchmod_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; server_state_t *state = NULL; hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret == 0) { gf_stat_from_stat (&rsp->stat, stbuf); } else { state = CALL_STATE (frame); gf_log (this->name, GF_LOG_TRACE, "%"PRId64": FCHMOD %"PRId64" (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->fd_no, state->fd ? state->fd->inode->ino : 0, op_ret, strerror (op_errno)); } protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_FCHMOD, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_fchmod * */ int server_fchmod (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { server_connection_t *conn = NULL; gf_fop_fchmod_req_t *req = NULL; server_state_t *state = NULL; conn = SERVER_CONNECTION(frame); req = gf_param (hdr); state = CALL_STATE (frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); state->mode = ntoh32 (req->mode); } GF_VALIDATE_OR_GOTO(bound_xl->name, state->fd, fail); STACK_WIND (frame, server_fchmod_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->fchmod, state->fd, state->mode); return 0; fail: server_fchmod_cbk (frame, NULL, frame->this, -1, EINVAL, NULL); return 0; } /* * server_fchown_cbk */ int server_fchown_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct stat *stbuf) { gf_hdr_common_t *hdr = NULL; gf_fop_fchown_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; server_state_t *state = NULL; hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret == 0) { gf_stat_from_stat (&rsp->stat, stbuf); } else { state = CALL_STATE(frame); gf_log (this->name, GF_LOG_TRACE, "%"PRId64": FCHOWN %"PRId64" (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->fd_no, state->fd ? state->fd->inode->ino : 0, op_ret, strerror (op_errno)); } protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_FCHOWN, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_fchown * */ int server_fchown (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { server_connection_t *conn = NULL; gf_fop_fchown_req_t *req = NULL; server_state_t *state = NULL; conn = SERVER_CONNECTION(frame); req = gf_param (hdr); state = CALL_STATE(frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); state->uid = ntoh32 (req->uid); state->gid = ntoh32 (req->gid); } GF_VALIDATE_OR_GOTO(bound_xl->name, state->fd, fail); STACK_WIND (frame, server_fchown_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->fchown, state->fd, state->uid, state->gid); return 0; fail: server_fchown_cbk (frame, NULL, frame->this, -1, EINVAL, NULL); return 0; } /* * server_setdents_cbk - writedir callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: return value * @op_errno: errno * * not for external reference */ int server_setdents_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { gf_hdr_common_t *hdr = NULL; gf_fop_setdents_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_SETDENTS, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_lk_cbk - lk callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * @lock: * * not for external reference */ int server_lk_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct flock *lock) { gf_hdr_common_t *hdr = NULL; gf_fop_lk_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; server_state_t *state = NULL; hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret == 0) { gf_flock_from_flock (&rsp->flock, lock); } else if (op_errno != ENOSYS) { state = CALL_STATE(frame); gf_log (this->name, GF_LOG_TRACE, "%"PRId64": LK %"PRId64" (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->fd_no, state->fd ? state->fd->inode->ino : 0, op_ret, strerror (op_errno)); } protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_LK, hdr, hdrlen, NULL, 0, NULL); return 0; } int server_inodelk_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { server_connection_t *conn = NULL; gf_hdr_common_t *hdr = NULL; gf_fop_inodelk_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; conn = SERVER_CONNECTION(frame); state = CALL_STATE(frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret >= 0) { if (state->flock.l_type == F_UNLCK) gf_del_locker (conn->ltable, state->volume, &state->loc, NULL, frame->root->pid); else gf_add_locker (conn->ltable, state->volume, &state->loc, NULL, frame->root->pid); } else if (op_errno != ENOSYS) { gf_log (this->name, GF_LOG_TRACE, "%"PRId64": INODELK %s (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->loc.path, state->loc.inode ? state->loc.inode->ino : 0, op_ret, strerror (op_errno)); } server_loc_wipe (&state->loc); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_INODELK, hdr, hdrlen, NULL, 0, NULL); return 0; } int server_finodelk_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { server_connection_t *conn = NULL; gf_hdr_common_t *hdr = NULL; gf_fop_finodelk_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; conn = SERVER_CONNECTION(frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); state = CALL_STATE(frame); if (op_ret >= 0) { if (state->flock.l_type == F_UNLCK) gf_del_locker (conn->ltable, state->volume, NULL, state->fd, frame->root->pid); else gf_add_locker (conn->ltable, state->volume, NULL, state->fd, frame->root->pid); } else if (op_errno != ENOSYS) { gf_log (this->name, GF_LOG_TRACE, "%"PRId64": FINODELK %"PRId64" (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->fd_no, state->fd ? state->fd->inode->ino : 0, op_ret, strerror (op_errno)); } protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_FINODELK, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_entrylk_cbk - * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * @lock: * * not for external reference */ int server_entrylk_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { server_connection_t *conn = NULL; gf_hdr_common_t *hdr = NULL; gf_fop_entrylk_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; conn = SERVER_CONNECTION(frame); state = CALL_STATE(frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret >= 0) { if (state->cmd == ENTRYLK_UNLOCK) gf_del_locker (conn->ltable, state->volume, &state->loc, NULL, frame->root->pid); else gf_add_locker (conn->ltable, state->volume, &state->loc, NULL, frame->root->pid); } else if (op_errno != ENOSYS) { gf_log (this->name, GF_LOG_TRACE, "%"PRId64": INODELK %s (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->loc.path, state->loc.inode ? state->loc.inode->ino : 0, op_ret, strerror (op_errno)); } server_loc_wipe (&state->loc); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_ENTRYLK, hdr, hdrlen, NULL, 0, NULL); return 0; } int server_fentrylk_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { server_connection_t *conn = NULL; gf_hdr_common_t *hdr = NULL; gf_fop_fentrylk_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; conn = SERVER_CONNECTION(frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret >= 0) { state = CALL_STATE(frame); if (state->cmd == ENTRYLK_UNLOCK) gf_del_locker (conn->ltable, state->volume, NULL, state->fd, frame->root->pid); else gf_add_locker (conn->ltable, state->volume, NULL, state->fd, frame->root->pid); } else if (op_errno != ENOSYS) { gf_log (this->name, GF_LOG_TRACE, "%"PRId64": FENTRYLK %"PRId64" (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->fd_no, state->fd ? state->fd->inode->ino : 0, op_ret, strerror (op_errno)); } protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_FENTRYLK, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_access_cbk - access callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * * not for external reference */ int server_access_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { gf_hdr_common_t *hdr = NULL; gf_fop_access_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; state = CALL_STATE(frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_ACCESS, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_utimens_cbk - utimens callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * @stbuf: * * not for external reference */ int server_utimens_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct stat *stbuf) { gf_hdr_common_t *hdr = NULL; gf_fop_utimens_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; state = CALL_STATE(frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret == 0) gf_stat_from_stat (&rsp->stat, stbuf); server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_UTIMENS, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_chmod_cbk - chmod callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * @stbuf: * * not for external reference */ int server_chmod_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct stat *stbuf) { gf_hdr_common_t *hdr = NULL; gf_fop_chmod_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; state = CALL_STATE(frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret == 0) gf_stat_from_stat (&rsp->stat, stbuf); server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_CHMOD, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_chown_cbk - chown callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * @stbuf: * * not for external reference */ int server_chown_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct stat *stbuf) { gf_hdr_common_t *hdr = NULL; gf_fop_chown_rsp_t *rsp = NULL; server_state_t *state = NULL; int32_t gf_errno = 0; size_t hdrlen = 0; state = CALL_STATE(frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret == 0) gf_stat_from_stat (&rsp->stat, stbuf); server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_CHOWN, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_rmdir_cbk - rmdir callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * * not for external reference */ int server_rmdir_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { gf_hdr_common_t *hdr = NULL; gf_fop_rmdir_rsp_t *rsp = NULL; server_state_t *state = NULL; int32_t gf_errno = 0; size_t hdrlen = 0; state = CALL_STATE(frame); if (op_ret == 0) { inode_unlink (state->loc.inode, state->loc.parent, state->loc.name); } else { gf_log (this->name, GF_LOG_TRACE, "%"PRId64": RMDIR %s (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->loc.path, state->loc.inode ? state->loc.inode->ino : 0, op_ret, strerror (op_errno)); } hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_RMDIR, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_mkdir_cbk - mkdir callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * @stbuf: * * not for external reference */ 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 stat *stbuf) { gf_hdr_common_t *hdr = NULL; gf_fop_mkdir_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; state = CALL_STATE(frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret >= 0) { gf_stat_from_stat (&rsp->stat, stbuf); inode_link (inode, state->loc.parent, state->loc.name, stbuf); inode_lookup (inode); } else { gf_log (this->name, GF_LOG_TRACE, "%"PRId64": MKDIR %s ==> %"PRId32" (%s)", frame->root->unique, state->loc.path, op_ret, strerror (op_errno)); } server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_MKDIR, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_mknod_cbk - mknod callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * @stbuf: * * not for external reference */ 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 stat *stbuf) { gf_hdr_common_t *hdr = NULL; gf_fop_mknod_rsp_t *rsp = NULL; server_state_t *state = NULL; int32_t gf_errno = 0; size_t hdrlen = 0; state = CALL_STATE(frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret >= 0) { gf_stat_from_stat (&rsp->stat, stbuf); inode_link (inode, state->loc.parent, state->loc.name, stbuf); inode_lookup (inode); } else { gf_log (this->name, GF_LOG_TRACE, "%"PRId64": MKNOD %s ==> %"PRId32" (%s)", frame->root->unique, state->loc.path, op_ret, strerror (op_errno)); } server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_MKNOD, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_fsyncdir_cbk - fsyncdir callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * * not for external reference */ int server_fsyncdir_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { gf_hdr_common_t *hdr = NULL; gf_fop_fsyncdir_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; server_state_t *state = NULL; hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); if (op_ret < 0) { state = CALL_STATE(frame); gf_log (this->name, GF_LOG_TRACE, "%"PRId64": FSYNCDIR %"PRId64" (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->fd_no, state->fd ? state->fd->inode->ino : 0, op_ret, strerror (op_errno)); } hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_FSYNCDIR, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_getdents_cbk - readdir callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: return value * @op_errno: errno * @entries: * @count: * * not for external reference */ int server_getdents_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dir_entry_t *entries, int32_t count) { gf_hdr_common_t *hdr = NULL; gf_fop_getdents_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t vec_count = 0; int32_t gf_errno = 0; struct iobref *iobref = NULL; struct iobuf *iobuf = NULL; size_t buflen = 0; struct iovec vector[1]; server_state_t *state = NULL; state = CALL_STATE(frame); if (op_ret >= 0) { iobuf = iobuf_get (this->ctx->iobuf_pool); if (!iobuf) { op_ret = -1; op_errno = ENOMEM; goto out; } buflen = gf_direntry_to_bin (entries, iobuf->ptr); if (buflen < 0) { gf_log (this->name, GF_LOG_ERROR, "fd - %"PRId64" (%"PRId64"): failed to convert " "entries list to string buffer", state->fd_no, state->fd->inode->ino); op_ret = -1; op_errno = EINVAL; goto out; } iobref = iobref_new (); if (iobref == NULL) { gf_log (this->name, GF_LOG_ERROR, "fd - %"PRId64" (%"PRId64"): failed to get iobref", state->fd_no, state->fd->inode->ino); op_ret = -1; op_errno = ENOMEM; goto out; } iobref_add (iobref, iobuf); vector[0].iov_base = iobuf->ptr; vector[0].iov_len = buflen; vec_count = 1; } else { gf_log (this->name, GF_LOG_TRACE, "%"PRId64": GETDENTS %"PRId64" (%"PRId64"): %"PRId32" (%s)", frame->root->unique, state->fd_no, state->fd ? state->fd->inode->ino : 0, op_ret, strerror (op_errno)); vector[0].iov_base = NULL; vector[0].iov_len = 0; } out: hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); rsp->count = hton32 (count); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_GETDENTS, hdr, hdrlen, vector, vec_count, iobref); if (iobref) iobref_unref (iobref); if (iobuf) iobuf_unref (iobuf); return 0; } /* * server_readdir_cbk - getdents callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * * not for external reference */ 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) { gf_hdr_common_t *hdr = NULL; gf_fop_readdir_rsp_t *rsp = NULL; size_t hdrlen = 0; size_t buf_size = 0; int32_t gf_errno = 0; server_state_t *state = NULL; if (op_ret > 0) buf_size = gf_dirent_serialize (entries, NULL, 0); hdrlen = gf_hdr_len (rsp, buf_size); hdr = gf_hdr_new (rsp, buf_size); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret > 0) { rsp->size = hton32 (buf_size); gf_dirent_serialize (entries, rsp->buf, buf_size); } else { state = CALL_STATE(frame); gf_log (this->name, GF_LOG_TRACE, "%"PRId64": READDIR %"PRId64" (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->fd_no, state->fd ? state->fd->inode->ino : 0, op_ret, strerror (op_errno)); } protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_READDIR, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_releasedir_cbk - releasedir callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: return value * @op_errno: errno * * not for external reference */ int server_releasedir_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { gf_hdr_common_t *hdr = NULL; gf_cbk_releasedir_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); protocol_server_reply (frame, GF_OP_TYPE_CBK_REPLY, GF_CBK_RELEASEDIR, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_opendir_cbk - opendir callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: return value * @op_errno: errno * @fd: file descriptor structure of opened directory * * not for external reference */ int server_opendir_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, fd_t *fd) { server_connection_t *conn = NULL; gf_hdr_common_t *hdr = NULL; gf_fop_opendir_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; conn = SERVER_CONNECTION (frame); state = CALL_STATE (frame); if (op_ret >= 0) { fd_bind (fd); state->fd_no = gf_fd_unused_get (conn->fdtable, fd); } else { gf_log (this->name, GF_LOG_TRACE, "%"PRId64": OPENDIR %s (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->loc.path, state->loc.inode ? state->loc.inode->ino : 0, op_ret, strerror (op_errno)); /* NOTE: corresponding to fd_create()'s ref */ if (state->fd) fd_unref (state->fd); } hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); rsp->fd = hton64 (state->fd_no); server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_OPENDIR, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_statfs_cbk - statfs callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: return value * @op_errno: errno * @buf: * * not for external reference */ int server_statfs_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct statvfs *buf) { gf_hdr_common_t *hdr = NULL; gf_fop_statfs_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; state = CALL_STATE (frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret >= 0) { gf_statfs_from_statfs (&rsp->statfs, buf); } server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_STATFS, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_removexattr_cbk - removexattr callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: return value * @op_errno: errno * * not for external reference */ int server_removexattr_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { gf_hdr_common_t *hdr = NULL; gf_fop_removexattr_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; state = CALL_STATE (frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_REMOVEXATTR, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_getxattr_cbk - getxattr callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: return value * @op_errno: errno * @value: * * not for external reference */ int server_getxattr_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, dict_t *dict) { gf_hdr_common_t *hdr = NULL; gf_fop_getxattr_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t len = 0; int32_t gf_errno = 0; int32_t ret = -1; state = CALL_STATE (frame); if (op_ret >= 0) { len = dict_serialized_length (dict); if (len < 0) { gf_log (this->name, GF_LOG_ERROR, "%s (%"PRId64"): failed to get serialized length of " "reply dict", state->loc.path, state->ino); op_ret = -1; op_errno = EINVAL; len = 0; } } hdrlen = gf_hdr_len (rsp, len + 1); hdr = gf_hdr_new (rsp, len + 1); rsp = gf_param (hdr); if (op_ret >= 0) { ret = dict_serialize (dict, rsp->dict); if (len < 0) { gf_log (this->name, GF_LOG_ERROR, "%s (%"PRId64"): failed to serialize reply dict", state->loc.path, state->ino); op_ret = -1; op_errno = -ret; } } rsp->dict_len = hton32 (len); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_GETXATTR, hdr, hdrlen, NULL, 0, NULL); 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) { gf_hdr_common_t *hdr = NULL; gf_fop_fgetxattr_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t len = 0; int32_t gf_errno = 0; int32_t ret = -1; state = CALL_STATE (frame); if (op_ret >= 0) { len = dict_serialized_length (dict); if (len < 0) { gf_log (this->name, GF_LOG_ERROR, "%s (%"PRId64"): failed to get serialized length of " "reply dict", state->loc.path, state->ino); op_ret = -1; op_errno = EINVAL; len = 0; } } hdrlen = gf_hdr_len (rsp, len + 1); hdr = gf_hdr_new (rsp, len + 1); rsp = gf_param (hdr); if (op_ret >= 0) { ret = dict_serialize (dict, rsp->dict); if (len < 0) { gf_log (this->name, GF_LOG_ERROR, "%s (%"PRId64"): failed to serialize reply dict", state->loc.path, state->ino); op_ret = -1; op_errno = -ret; } } rsp->dict_len = hton32 (len); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); fd_unref (state->fd); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_FGETXATTR, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_setxattr_cbk - setxattr callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: return value * @op_errno: errno * * not for external reference */ int server_setxattr_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { gf_hdr_common_t *hdr = NULL; gf_fop_setxattr_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; state = CALL_STATE (frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_SETXATTR, hdr, hdrlen, NULL, 0, NULL); return 0; } int server_fsetxattr_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { gf_hdr_common_t *hdr = NULL; gf_fop_fsetxattr_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; state = CALL_STATE(frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_FSETXATTR, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_rename_cbk - rename callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: return value * @op_errno: errno * * not for external reference */ int server_rename_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct stat *stbuf) { gf_hdr_common_t *hdr = NULL; gf_fop_rename_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; state = CALL_STATE(frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret == 0) { stbuf->st_ino = state->loc.inode->ino; stbuf->st_mode = state->loc.inode->st_mode; gf_log (state->bound_xl->name, GF_LOG_TRACE, "%"PRId64": RENAME_CBK (%"PRId64") %"PRId64"/%s " "==> %"PRId64"/%s", frame->root->unique, state->loc.inode->ino, state->loc.parent->ino, state->loc.name, state->loc2.parent->ino, state->loc2.name); inode_rename (state->itable, state->loc.parent, state->loc.name, state->loc2.parent, state->loc2.name, state->loc.inode, stbuf); gf_stat_from_stat (&rsp->stat, stbuf); } server_loc_wipe (&(state->loc)); server_loc_wipe (&(state->loc2)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_RENAME, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_unlink_cbk - unlink callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: return value * @op_errno: errno * * not for external reference */ int server_unlink_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { gf_hdr_common_t *hdr = NULL; gf_fop_unlink_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; state = CALL_STATE(frame); if (op_ret == 0) { gf_log (state->bound_xl->name, GF_LOG_TRACE, "%"PRId64": UNLINK_CBK %"PRId64"/%s (%"PRId64")", frame->root->unique, state->loc.parent->ino, state->loc.name, state->loc.inode->ino); inode_unlink (state->loc.inode, state->loc.parent, state->loc.name); } else { gf_log (this->name, GF_LOG_DEBUG, "%"PRId64": UNLINK %s (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->loc.path, state->loc.inode ? state->loc.inode->ino : 0, op_ret, strerror (op_errno)); } hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_UNLINK, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_symlink_cbk - symlink callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: return value * @op_errno: errno * * not for external reference */ 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 stat *stbuf) { gf_hdr_common_t *hdr = NULL; gf_fop_symlink_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; state = CALL_STATE(frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno_to_error (op_errno)); if (op_ret >= 0) { gf_stat_from_stat (&rsp->stat, stbuf); inode_link (inode, state->loc.parent, state->loc.name, stbuf); inode_lookup (inode); } else { gf_log (this->name, GF_LOG_DEBUG, "%"PRId64": SYMLINK %s (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->loc.path, state->loc.inode ? state->loc.inode->ino : 0, op_ret, strerror (op_errno)); } server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_SYMLINK, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_link_cbk - link callback for server protocol * @frame: call frame * @this: * @op_ret: * @op_errno: * @stbuf: * * not for external reference */ 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 stat *stbuf) { gf_hdr_common_t *hdr = NULL; gf_fop_link_rsp_t *rsp = NULL; server_state_t *state = NULL; int32_t gf_errno = 0; size_t hdrlen = 0; state = CALL_STATE(frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret == 0) { stbuf->st_ino = state->loc.inode->ino; gf_stat_from_stat (&rsp->stat, stbuf); gf_log (state->bound_xl->name, GF_LOG_TRACE, "%"PRId64": LINK (%"PRId64") %"PRId64"/%s ==> %"PRId64"/%s", frame->root->unique, inode->ino, state->loc2.parent->ino, state->loc2.name, state->loc.parent->ino, state->loc.name); inode_link (inode, state->loc2.parent, state->loc2.name, stbuf); } else { gf_log (state->bound_xl->name, GF_LOG_DEBUG, "%"PRId64": LINK (%"PRId64") %"PRId64"/%s ==> %"PRId64"/%s " " ==> %"PRId32" (%s)", frame->root->unique, inode->ino, state->loc2.parent->ino, state->loc2.name, state->loc.parent->ino, state->loc.name, op_ret, strerror (op_errno)); } server_loc_wipe (&(state->loc)); server_loc_wipe (&(state->loc2)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_LINK, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_truncate_cbk - truncate callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * @stbuf: * * not for external reference */ int server_truncate_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct stat *stbuf) { gf_hdr_common_t *hdr = NULL; gf_fop_truncate_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; state = CALL_STATE (frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret == 0) { gf_stat_from_stat (&rsp->stat, stbuf); } else { gf_log (this->name, GF_LOG_DEBUG, "%"PRId64": TRUNCATE %s (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->loc.path, state->loc.inode ? state->loc.inode->ino : 0, op_ret, strerror (op_errno)); } server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_TRUNCATE, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_fstat_cbk - fstat callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * @stbuf: * * not for external reference */ int server_fstat_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct stat *stbuf) { gf_hdr_common_t *hdr = NULL; gf_fop_fstat_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; server_state_t *state = NULL; hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret == 0) { gf_stat_from_stat (&rsp->stat, stbuf); } else { state = CALL_STATE(frame); gf_log (this->name, GF_LOG_DEBUG, "%"PRId64": FSTAT %"PRId64" (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->fd_no, state->fd ? state->fd->inode->ino : 0, op_ret, strerror (op_errno)); } protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_FSTAT, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_ftruncate_cbk - ftruncate callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * @stbuf: * * not for external reference */ int server_ftruncate_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct stat *stbuf) { gf_hdr_common_t *hdr = NULL; gf_fop_ftruncate_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; server_state_t *state = NULL; hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret == 0) { gf_stat_from_stat (&rsp->stat, stbuf); } else { state = CALL_STATE (frame); gf_log (this->name, GF_LOG_DEBUG, "%"PRId64": FTRUNCATE %"PRId64" (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->fd_no, state->fd ? state->fd->inode->ino : 0, op_ret, strerror (op_errno)); } protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_FTRUNCATE, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_flush_cbk - flush callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * * not for external reference */ int server_flush_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { gf_hdr_common_t *hdr = NULL; gf_fop_flush_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; server_state_t *state = NULL; if (op_ret < 0) { state = CALL_STATE(frame); gf_log (this->name, GF_LOG_DEBUG, "%"PRId64": FLUSH %"PRId64" (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->fd_no, state->fd ? state->fd->inode->ino : 0, op_ret, strerror (op_errno)); } hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_FLUSH, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_fsync_cbk - fsync callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * * not for external reference */ int server_fsync_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { gf_hdr_common_t *hdr = NULL; gf_fop_fsync_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; server_state_t *state = NULL; if (op_ret < 0) { state = CALL_STATE(frame); gf_log (this->name, GF_LOG_DEBUG, "%"PRId64": FSYNC %"PRId64" (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->fd_no, state->fd ? state->fd->inode->ino : 0, op_ret, strerror (op_errno)); } hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_FSYNC, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_release_cbk - rleease callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * * not for external reference */ int server_release_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { gf_hdr_common_t *hdr = NULL; gf_cbk_release_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); protocol_server_reply (frame, GF_OP_TYPE_CBK_REPLY, GF_CBK_RELEASE, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_writev_cbk - writev callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * * not for external reference */ int server_writev_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct stat *stbuf) { gf_hdr_common_t *hdr = NULL; gf_fop_write_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; server_state_t *state = NULL; hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno_to_error (op_errno)); if (op_ret >= 0) { gf_stat_from_stat (&rsp->stat, stbuf); } else { state = CALL_STATE(frame); gf_log (this->name, GF_LOG_DEBUG, "%"PRId64": WRITEV %"PRId64" (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->fd_no, state->fd ? state->fd->inode->ino : 0, op_ret, strerror (op_errno)); } protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_WRITE, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_readv_cbk - readv callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * @vector: * @count: * * not for external reference */ 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 stat *stbuf, struct iobref *iobref) { gf_hdr_common_t *hdr = NULL; gf_fop_read_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; server_state_t *state = NULL; hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret >= 0) { gf_stat_from_stat (&rsp->stat, stbuf); } else { state = CALL_STATE(frame); gf_log (this->name, GF_LOG_DEBUG, "%"PRId64": READV %"PRId64" (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->fd_no, state->fd ? state->fd->inode->ino : 0, op_ret, strerror (op_errno)); } protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_READ, hdr, hdrlen, vector, count, iobref); return 0; } /* * server_open_cbk - open callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * @fd: * * not for external reference */ int server_open_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, fd_t *fd) { server_connection_t *conn = NULL; gf_hdr_common_t *hdr = NULL; gf_fop_open_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; conn = SERVER_CONNECTION (frame); state = CALL_STATE (frame); if (op_ret >= 0) { fd_bind (fd); state->fd_no = gf_fd_unused_get (conn->fdtable, fd); } else { gf_log (this->name, GF_LOG_DEBUG, "%"PRId64": OPEN %s (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->loc.path, state->loc.inode ? state->loc.inode->ino : 0, op_ret, strerror (op_errno)); /* NOTE: corresponding to fd_create()'s ref */ if (state->fd) fd_unref (state->fd); } hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); rsp->fd = hton64 (state->fd_no); server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_OPEN, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_create_cbk - create callback for server * @frame: call frame * @cookie: * @this: translator structure * @op_ret: * @op_errno: * @fd: file descriptor * @inode: inode structure * @stbuf: struct stat of created file * * not for external reference */ 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 stat *stbuf) { server_connection_t *conn = NULL; gf_hdr_common_t *hdr = NULL; gf_fop_create_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; conn = SERVER_CONNECTION (frame); state = CALL_STATE (frame); if (op_ret >= 0) { gf_log (state->bound_xl->name, GF_LOG_TRACE, "%"PRId64": CREATE %"PRId64"/%s (%"PRId64")", frame->root->unique, state->loc.parent->ino, state->loc.name, stbuf->st_ino); inode_link (inode, state->loc.parent, state->loc.name, stbuf); inode_lookup (inode); fd_bind (fd); state->fd_no = gf_fd_unused_get (conn->fdtable, fd); if ((state->fd_no < 0) || (fd == 0)) { op_ret = state->fd_no; op_errno = errno; } } else { gf_log (this->name, GF_LOG_DEBUG, "%"PRId64": CREATE %s (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->loc.path, state->loc.inode ? state->loc.inode->ino : 0, op_ret, strerror (op_errno)); /* NOTE: corresponding to fd_create()'s ref */ if (state->fd) fd_unref (state->fd); } hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); rsp->fd = hton64 (state->fd_no); if (op_ret >= 0) gf_stat_from_stat (&rsp->stat, stbuf); server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_CREATE, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_readlink_cbk - readlink callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * @buf: * * not for external reference */ int server_readlink_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, const char *buf) { gf_hdr_common_t *hdr = NULL; gf_fop_readlink_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; size_t linklen = 0; int32_t gf_errno = 0; state = CALL_STATE(frame); if (op_ret >= 0) { linklen = strlen (buf) + 1; } else { gf_log (this->name, GF_LOG_DEBUG, "%"PRId64": READLINK %s (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->loc.path, state->loc.inode ? state->loc.inode->ino : 0, op_ret, strerror (op_errno)); } hdrlen = gf_hdr_len (rsp, linklen); hdr = gf_hdr_new (rsp, linklen); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno_to_error (op_errno)); if (op_ret >= 0) strcpy (rsp->path, buf); server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_READLINK, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_stat_cbk - stat callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * @stbuf: * * not for external reference */ int server_stat_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, struct stat *stbuf) { gf_hdr_common_t *hdr = NULL; gf_fop_stat_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; state = CALL_STATE (frame); hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno_to_error (op_errno)); if (op_ret == 0) { gf_stat_from_stat (&rsp->stat, stbuf); } else { gf_log (this->name, GF_LOG_DEBUG, "%"PRId64": STAT %s (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->loc.path, state->loc.inode ? state->loc.inode->ino : 0, op_ret, strerror (op_errno)); } server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_STAT, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_forget_cbk - forget callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * * not for external reference */ int server_forget_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { gf_hdr_common_t *hdr = NULL; gf_cbk_forget_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); protocol_server_reply (frame, GF_OP_TYPE_CBK_REPLY, GF_CBK_FORGET, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_lookup_cbk - lookup callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: * @op_errno: * @inode: * @stbuf: * * not for external reference */ 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 stat *stbuf, dict_t *dict) { gf_hdr_common_t *hdr = NULL; gf_fop_lookup_rsp_t *rsp = NULL; server_state_t *state = NULL; inode_t *root_inode = NULL; int32_t dict_len = 0; size_t hdrlen = 0; int32_t gf_errno = 0; int32_t ret = -1; loc_t loc = {0,}; state = CALL_STATE(frame); if ((op_errno == ESTALE) && (op_ret == -1)) { /* Send lookup again with new ctx dictionary */ root_inode = BOUND_XL(frame)->itable->root; if (state->loc.inode != root_inode) { if (state->loc.inode) inode_unref (state->loc.inode); state->loc.inode = inode_new (BOUND_XL(frame)->itable); } loc.inode = state->loc.inode; loc.path = state->path; state->is_revalidate = 2; STACK_WIND (frame, server_lookup_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->lookup, &loc, state->xattr_req); return 0; } if (dict) { dict_len = dict_serialized_length (dict); if (dict_len < 0) { gf_log (this->name, GF_LOG_ERROR, "%s (%"PRId64"): failed to get serialized " "length of reply dict", state->loc.path, state->loc.inode->ino); op_ret = -1; op_errno = EINVAL; dict_len = 0; } } hdrlen = gf_hdr_len (rsp, dict_len); hdr = gf_hdr_new (rsp, dict_len); rsp = gf_param (hdr); if ((op_ret >= 0) && dict) { ret = dict_serialize (dict, rsp->dict); if (ret < 0) { gf_log (this->name, GF_LOG_ERROR, "%s (%"PRId64"): failed to serialize reply dict", state->loc.path, state->loc.inode->ino); op_ret = -1; op_errno = -ret; dict_len = 0; } } rsp->dict_len = hton32 (dict_len); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret == 0) { root_inode = BOUND_XL(frame)->itable->root; if (inode == root_inode) { /* we just looked up root ("/") */ stbuf->st_ino = 1; if (inode->st_mode == 0) inode->st_mode = stbuf->st_mode; } gf_stat_from_stat (&rsp->stat, stbuf); if (inode->ino == 0) { inode_link (inode, state->loc.parent, state->loc.name, stbuf); inode_lookup (inode); } } else { gf_log (this->name, (op_errno == ENOENT ? GF_LOG_TRACE : GF_LOG_DEBUG), "%"PRId64": LOOKUP %s (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->loc.path, state->loc.inode ? state->loc.inode->ino : 0, op_ret, strerror (op_errno)); } server_loc_wipe (&state->loc); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_LOOKUP, hdr, hdrlen, NULL, 0, NULL); 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) { gf_hdr_common_t *hdr = NULL; gf_fop_xattrop_rsp_t *rsp = NULL; server_state_t *state = NULL; size_t hdrlen = 0; int32_t len = 0; int32_t gf_errno = 0; int32_t ret = -1; state = CALL_STATE (frame); if (op_ret < 0) { gf_log (this->name, GF_LOG_DEBUG, "%"PRId64": XATTROP %s (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->loc.path, state->loc.inode ? state->loc.inode->ino : 0, op_ret, strerror (op_errno)); } if ((op_ret >= 0) && dict) { len = dict_serialized_length (dict); if (len < 0) { gf_log (this->name, GF_LOG_ERROR, "%s (%"PRId64"): failed to get serialized length" " for reply dict", state->loc.path, state->loc.inode->ino); op_ret = -1; op_errno = EINVAL; len = 0; } } hdrlen = gf_hdr_len (rsp, len + 1); hdr = gf_hdr_new (rsp, len + 1); rsp = gf_param (hdr); if ((op_ret >= 0) && dict) { ret = dict_serialize (dict, rsp->dict); if (ret < 0) { gf_log (this->name, GF_LOG_ERROR, "%s (%"PRId64"): failed to serialize reply dict", state->loc.path, state->loc.inode->ino); op_ret = -1; op_errno = -ret; len = 0; } } rsp->dict_len = hton32 (len); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); server_loc_wipe (&(state->loc)); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_XATTROP, hdr, hdrlen, NULL, 0, NULL); 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) { gf_hdr_common_t *hdr = NULL; gf_fop_xattrop_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t len = 0; int32_t gf_errno = 0; int32_t ret = -1; server_state_t *state = NULL; state = CALL_STATE(frame); if (op_ret < 0) { gf_log (this->name, GF_LOG_DEBUG, "%"PRId64": FXATTROP %"PRId64" (%"PRId64") ==> %"PRId32" (%s)", frame->root->unique, state->fd_no, state->fd ? state->fd->inode->ino : 0, op_ret, strerror (op_errno)); } if ((op_ret >= 0) && dict) { len = dict_serialized_length (dict); if (len < 0) { gf_log (this->name, GF_LOG_ERROR, "fd - %"PRId64" (%"PRId64"): failed to get " "serialized length for reply dict", state->fd_no, state->fd->inode->ino); op_ret = -1; op_errno = EINVAL; len = 0; } } hdrlen = gf_hdr_len (rsp, len + 1); hdr = gf_hdr_new (rsp, len + 1); rsp = gf_param (hdr); if ((op_ret >= 0) && dict) { ret = dict_serialize (dict, rsp->dict); if (ret < 0) { gf_log (this->name, GF_LOG_ERROR, "fd - %"PRId64" (%"PRId64"): failed to " "serialize reply dict", state->fd_no, state->fd->inode->ino); op_ret = -1; op_errno = -ret; len = 0; } } rsp->dict_len = hton32 (len); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_FXATTROP, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * server_stub_resume - this is callback function used whenever an fop does * STACK_WIND to fops->lookup in order to lookup the inode * for a pathname. this case of doing fops->lookup arises * when fop searches in inode table for pathname and search * fails. * * @stub: call stub * @op_ret: * @op_errno: * @inode: * @parent: * * not for external reference */ int server_stub_resume (call_stub_t *stub, int32_t op_ret, int32_t op_errno, inode_t *inode, inode_t *parent) { inode_t *server_inode = NULL; loc_t *newloc = NULL; dict_t *dict = NULL; server_inode = inode; if (!stub) { return 0; } switch (stub->fop) { case GF_FOP_RENAME: if ((op_ret < 0 && stub->args.rename.old.inode == NULL) || (op_ret < 0 && parent == NULL)) { /* Either oldloc lookup failed OR newloc lookup * failed and parent was not found */ gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": RENAME (%s -> %s) on %s " "returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.rename.old.path, stub->args.rename.new.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); /* lookup of oldpath failed, UNWIND to * server_rename_cbk with ret=-1 and * errno=ENOENT */ server_rename_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL); server_loc_wipe (&stub->args.rename.old); server_loc_wipe (&stub->args.rename.new); FREE (stub); return 0; } if (stub->args.rename.old.inode == NULL) { /* now we are called by lookup of oldpath. */ if (stub->args.rename.old.parent == NULL) stub->args.rename.old.parent = inode_ref (parent); /* store inode information of oldpath in our stub * and search for newpath in inode table. */ if (server_inode) { stub->args.rename.old.inode = inode_ref (server_inode); stub->args.rename.old.ino = server_inode->ino; } /* now lookup for newpath */ newloc = &stub->args.rename.new; if (newloc->parent == NULL) { /* lookup for newpath */ do_path_lookup (stub, newloc); break; } else { /* found newpath in inode cache */ call_resume (stub); break; } } else { /* we are called by the lookup of newpath */ if (stub->args.rename.new.parent == NULL) stub->args.rename.new.parent = inode_ref (parent); } /* after looking up for oldpath as well as newpath, * we are ready to resume */ { call_resume (stub); } break; case GF_FOP_OPEN: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": OPEN (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.open.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_open_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL); FREE (stub->args.open.loc.path); FREE (stub); return 0; } if (stub->args.open.loc.parent == NULL) stub->args.open.loc.parent = inode_ref (parent); if (server_inode && (stub->args.open.loc.inode == NULL)) { stub->args.open.loc.inode = inode_ref (server_inode); stub->args.open.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_LOOKUP: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": LOOKUP (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.lookup.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_lookup_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL, NULL, NULL); server_loc_wipe (&stub->args.lookup.loc); FREE (stub); return 0; } if (stub->args.lookup.loc.parent == NULL) stub->args.lookup.loc.parent = inode_ref (parent); if (server_inode && (stub->args.lookup.loc.inode == NULL)) { stub->args.lookup.loc.inode = inode_ref (server_inode); stub->args.lookup.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_STAT: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": STAT (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.stat.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_stat_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL); server_loc_wipe (&stub->args.stat.loc); FREE (stub); return 0; } /* TODO:reply from here only, we already have stat structure */ if (stub->args.stat.loc.parent == NULL) stub->args.stat.loc.parent = inode_ref (parent); if (server_inode && (stub->args.stat.loc.inode == NULL)) { stub->args.stat.loc.inode = inode_ref (server_inode); stub->args.stat.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_XATTROP: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": XATTROP (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.xattrop.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_xattrop_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL); server_loc_wipe (&stub->args.xattrop.loc); FREE (stub); return 0; } if (stub->args.xattrop.loc.parent == NULL) stub->args.xattrop.loc.parent = inode_ref (parent); if (server_inode && (stub->args.xattrop.loc.inode == NULL)) { stub->args.xattrop.loc.inode = inode_ref (server_inode); stub->args.xattrop.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_UNLINK: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": UNLINK (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.unlink.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_unlink_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT); server_loc_wipe (&stub->args.unlink.loc); FREE (stub); return 0; } if (stub->args.unlink.loc.parent == NULL) stub->args.unlink.loc.parent = inode_ref (parent); if (server_inode && (stub->args.unlink.loc.inode == NULL)) { stub->args.unlink.loc.inode = inode_ref (server_inode); stub->args.unlink.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_SYMLINK: { if ((op_ret < 0) && (parent == NULL)) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": SYMLINK (%s -> %s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.symlink.loc.path, stub->args.symlink.linkname, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_symlink_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL, NULL); server_loc_wipe (&stub->args.symlink.loc); FREE (stub); return 0; } if (stub->args.symlink.loc.parent == NULL) stub->args.symlink.loc.parent = inode_ref (parent); if (server_inode && (stub->args.symlink.loc.inode == NULL)) { stub->args.symlink.loc.inode = inode_ref (server_inode); stub->args.symlink.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_RMDIR: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": RMDIR (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.rmdir.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_rmdir_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT); server_loc_wipe (&stub->args.rmdir.loc); FREE (stub); return 0; } if (stub->args.rmdir.loc.parent == NULL) stub->args.rmdir.loc.parent = inode_ref (parent); if (server_inode && (stub->args.rmdir.loc.inode == NULL)) { stub->args.rmdir.loc.inode = inode_ref (server_inode); stub->args.rmdir.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_CHMOD: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": CHMOD (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.chmod.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_chmod_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL); server_loc_wipe (&stub->args.chmod.loc); FREE (stub); return 0; } if (stub->args.chmod.loc.parent == NULL) stub->args.chmod.loc.parent = inode_ref (parent); if (server_inode && (stub->args.chmod.loc.inode == NULL)) { stub->args.chmod.loc.inode = inode_ref (server_inode); stub->args.chmod.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_CHOWN: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": CHOWN (%s) on %s returning ENOENT: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.chown.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_chown_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL); server_loc_wipe (&stub->args.chown.loc); FREE (stub); return 0; } if (stub->args.chown.loc.parent == NULL) stub->args.chown.loc.parent = inode_ref (parent); if (server_inode && (stub->args.chown.loc.inode == NULL)) { stub->args.chown.loc.inode = inode_ref (server_inode); stub->args.chown.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_LINK: { if ((stub->args.link.oldloc.inode == NULL) || (stub->args.link.oldloc.parent == NULL)) { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": LINK (%s -> %s) on %s returning " "error for oldloc: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.link.oldloc.path, stub->args.link.newloc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_link_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL, NULL); server_loc_wipe (&stub->args.link.oldloc); server_loc_wipe (&stub->args.link.newloc); FREE (stub); return 0; } if (stub->args.link.oldloc.parent == NULL) stub->args.link.oldloc.parent = inode_ref (parent); if (server_inode && (stub->args.link.oldloc.inode == NULL)) { stub->args.link.oldloc.inode = inode_ref (server_inode); stub->args.link.oldloc.ino = server_inode->ino; } if (stub->args.link.newloc.parent == NULL) { do_path_lookup (stub, &(stub->args.link.newloc)); break; } } else { /* we are called by the lookup of newpath */ if ((op_ret < 0) && (parent == NULL)) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": LINK (%s -> %s) on %s returning " "error for newloc: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.link.oldloc.path, stub->args.link.newloc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_link_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL, NULL); server_loc_wipe (&stub->args.link.oldloc); server_loc_wipe (&stub->args.link.newloc); FREE (stub); break; } if (stub->args.link.newloc.parent == NULL) { stub->args.link.newloc.parent = inode_ref (parent); } if (server_inode && (stub->args.link.newloc.inode == NULL)) { /* as new.inode doesn't get forget, it * needs to be unref'd here */ stub->args.link.newloc.inode = inode_ref (server_inode); stub->args.link.newloc.ino = server_inode->ino; } } call_resume (stub); break; } case GF_FOP_TRUNCATE: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": TRUNCATE (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.truncate.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_truncate_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL); server_loc_wipe (&stub->args.truncate.loc); FREE (stub); return 0; } if (stub->args.truncate.loc.parent == NULL) stub->args.truncate.loc.parent = inode_ref (parent); if (server_inode && (stub->args.truncate.loc.inode == NULL)) { stub->args.truncate.loc.inode = inode_ref (server_inode); stub->args.truncate.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_STATFS: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": STATFS (%s) on %s returning ENOENT: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.statfs.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_statfs_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL); server_loc_wipe (&stub->args.statfs.loc); FREE (stub); return 0; } if (stub->args.statfs.loc.parent == NULL) stub->args.statfs.loc.parent = inode_ref (parent); if (server_inode && (stub->args.statfs.loc.inode == NULL)) { stub->args.statfs.loc.inode = inode_ref (server_inode); stub->args.statfs.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_SETXATTR: { dict = stub->args.setxattr.dict; if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": SETXATTR (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.setxattr.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_setxattr_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT); server_loc_wipe (&stub->args.setxattr.loc); dict_unref (dict); FREE (stub); return 0; } if (stub->args.setxattr.loc.parent == NULL) stub->args.setxattr.loc.parent = inode_ref (parent); if (server_inode && (stub->args.setxattr.loc.inode == NULL)) { stub->args.setxattr.loc.inode = inode_ref (server_inode); stub->args.setxattr.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_GETXATTR: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": GETXATTR (%s) on %s for key %s " "returning error: %"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.getxattr.loc.path, BOUND_XL(stub->frame)->name, stub->args.getxattr.name ? stub->args.getxattr.name : "", op_ret, op_errno); server_getxattr_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL); server_loc_wipe (&stub->args.getxattr.loc); FREE (stub); return 0; } if (stub->args.getxattr.loc.parent == NULL) stub->args.getxattr.loc.parent = inode_ref (parent); if (server_inode && (stub->args.getxattr.loc.inode == NULL)) { stub->args.getxattr.loc.inode = inode_ref (server_inode); stub->args.getxattr.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_REMOVEXATTR: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": REMOVEXATTR (%s) on %s for key %s " "returning error: %"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.removexattr.loc.path, BOUND_XL(stub->frame)->name, stub->args.removexattr.name, op_ret, op_errno); server_removexattr_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT); server_loc_wipe (&stub->args.removexattr.loc); FREE (stub); return 0; } if (stub->args.removexattr.loc.parent == NULL) stub->args.removexattr.loc.parent = inode_ref (parent); if (server_inode && (stub->args.removexattr.loc.inode == NULL)) { stub->args.removexattr.loc.inode = inode_ref (server_inode); stub->args.removexattr.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_OPENDIR: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": OPENDIR (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.opendir.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_opendir_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL); server_loc_wipe (&stub->args.opendir.loc); FREE (stub); return 0; } if (stub->args.opendir.loc.parent == NULL) stub->args.opendir.loc.parent = inode_ref (parent); if (server_inode && (stub->args.opendir.loc.inode == NULL)) { stub->args.opendir.loc.inode = inode_ref (server_inode); stub->args.opendir.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_ACCESS: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": ACCESS (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.access.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_access_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT); server_loc_wipe (&stub->args.access.loc); FREE (stub); return 0; } if (stub->args.access.loc.parent == NULL) stub->args.access.loc.parent = inode_ref (parent); if (server_inode && (stub->args.access.loc.inode == NULL)) { stub->args.access.loc.inode = inode_ref (server_inode); stub->args.access.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_UTIMENS: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": UTIMENS (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.utimens.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_utimens_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL); server_loc_wipe (&stub->args.utimens.loc); FREE (stub); return 0; } if (stub->args.utimens.loc.parent == NULL) stub->args.utimens.loc.parent = inode_ref (parent); if (server_inode && (stub->args.utimens.loc.inode == NULL)) { stub->args.utimens.loc.inode = inode_ref (server_inode); stub->args.utimens.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_READLINK: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": READLINK (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.readlink.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_readlink_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL); server_loc_wipe (&stub->args.readlink.loc); FREE (stub); return 0; } if (stub->args.readlink.loc.parent == NULL) stub->args.readlink.loc.parent = inode_ref (parent); if (server_inode && (stub->args.readlink.loc.inode == NULL)) { stub->args.readlink.loc.inode = inode_ref (server_inode); stub->args.readlink.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_MKDIR: { if ((op_ret < 0) && (parent == NULL)) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": MKDIR (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.mkdir.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_mkdir_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL, NULL); server_loc_wipe (&stub->args.mkdir.loc); FREE (stub); break; } if (stub->args.mkdir.loc.parent == NULL) stub->args.mkdir.loc.parent = inode_ref (parent); if (server_inode && (stub->args.mkdir.loc.inode == NULL)) { stub->args.mkdir.loc.inode = inode_ref (server_inode); stub->args.mkdir.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_CREATE: { if ((op_ret < 0) && (parent == NULL)) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": CREATE (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.create.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_create_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL, NULL, NULL); if (stub->args.create.fd) fd_unref (stub->args.create.fd); server_loc_wipe (&stub->args.create.loc); FREE (stub); break; } if (stub->args.create.loc.parent == NULL) stub->args.create.loc.parent = inode_ref (parent); if (server_inode && (stub->args.create.loc.inode == NULL)) { stub->args.create.loc.inode = inode_ref (server_inode); stub->args.create.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_MKNOD: { if ((op_ret < 0) && (parent == NULL)) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": MKNOD (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.mknod.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_mknod_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT, NULL, NULL); server_loc_wipe (&stub->args.mknod.loc); FREE (stub); break; } if (stub->args.mknod.loc.parent == NULL) stub->args.mknod.loc.parent = inode_ref (parent); if (server_inode && (stub->args.mknod.loc.inode == NULL)) { stub->args.mknod.loc.inode = inode_ref (server_inode); stub->args.mknod.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_ENTRYLK: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": ENTRYLK (%s) on %s for key %s returning " "error: %"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.entrylk.loc.path, BOUND_XL(stub->frame)->name, stub->args.entrylk.name ? stub->args.entrylk.name : "", op_ret, op_errno); server_entrylk_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT); server_loc_wipe (&stub->args.entrylk.loc); FREE (stub); break; } if ((stub->args.entrylk.loc.parent == NULL) && (parent)) stub->args.entrylk.loc.parent = inode_ref (parent); if (server_inode && (stub->args.entrylk.loc.inode == NULL)) { stub->args.entrylk.loc.inode = inode_ref (server_inode); stub->args.entrylk.loc.ino = server_inode->ino; } call_resume (stub); break; } case GF_FOP_INODELK: { if (op_ret < 0) { gf_log (stub->frame->this->name, GF_LOG_DEBUG, "%"PRId64": INODELK (%s) on %s returning error: " "%"PRId32" (%"PRId32")", stub->frame->root->unique, stub->args.inodelk.loc.path, BOUND_XL(stub->frame)->name, op_ret, op_errno); server_inodelk_cbk (stub->frame, NULL, stub->frame->this, -1, ENOENT); server_loc_wipe (&stub->args.inodelk.loc); FREE (stub); break; } if ((stub->args.inodelk.loc.parent == NULL) && (parent)) stub->args.inodelk.loc.parent = inode_ref (parent); if (server_inode && (stub->args.inodelk.loc.inode == NULL)) { stub->args.inodelk.loc.inode = inode_ref (server_inode); stub->args.inodelk.loc.ino = server_inode->ino; } call_resume (stub); break; } default: call_resume (stub); } return 0; } int server_lookup_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, dict_t *xattr_req) { server_state_t *state = NULL; state = CALL_STATE(frame); if ((state->loc.parent == NULL) && (loc->parent)) state->loc.parent = inode_ref (loc->parent); if (state->loc.inode == NULL) { if (loc->inode == NULL) state->loc.inode = inode_new (state->itable); else /* FIXME: why another lookup? */ state->loc.inode = inode_ref (loc->inode); } else { if (loc->inode && (state->loc.inode != loc->inode)) { if (state->loc.inode) inode_unref (state->loc.inode); state->loc.inode = inode_ref (loc->inode); } } gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": LOOKUP \'%"PRId64"/%s\'", frame->root->unique, state->par, state->bname); STACK_WIND (frame, server_lookup_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->lookup, &(state->loc), xattr_req); return 0; } /* * server_lookup - lookup function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_lookup (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_lookup_req_t *req = NULL; server_state_t *state = NULL; call_stub_t *lookup_stub = NULL; int32_t ret = -1; size_t pathlen = 0; size_t baselen = 0; size_t dictlen = 0; dict_t *xattr_req = NULL; char *req_dictbuf = NULL; req = gf_param (hdr); state = CALL_STATE(frame); { pathlen = STRLEN_0 (req->path); dictlen = ntoh32 (req->dictlen); /* NOTE: lookup() uses req->ino only to identify if a lookup() * is requested for 'root' or not */ state->ino = ntoh64 (req->ino); if (state->ino != 1) state->ino = 0; state->par = ntoh64 (req->par); state->path = req->path; if (IS_NOT_ROOT(pathlen)) { state->bname = req->bname + pathlen; baselen = STRLEN_0 (state->bname); } if (dictlen) { /* Unserialize the dictionary */ req_dictbuf = memdup (req->dict + pathlen + baselen, dictlen); GF_VALIDATE_OR_GOTO(bound_xl->name, req_dictbuf, fail); xattr_req = dict_new (); GF_VALIDATE_OR_GOTO(bound_xl->name, xattr_req, fail); ret = dict_unserialize (req_dictbuf, dictlen, &xattr_req); if (ret < 0) { gf_log (bound_xl->name, GF_LOG_ERROR, "%"PRId64": %s (%"PRId64"): failed to " "unserialize req-buffer to dictionary", frame->root->unique, state->path, state->ino); free (req_dictbuf); goto fail; } else{ xattr_req->extra_free = req_dictbuf; state->xattr_req = xattr_req; xattr_req = NULL; } } } ret = server_loc_fill (&state->loc, state, state->ino, state->par, state->bname, state->path); if (state->loc.inode) { /* revalidate */ state->is_revalidate = 1; } else { /* fresh lookup or inode was previously pruned out */ state->is_revalidate = -1; } lookup_stub = fop_lookup_stub (frame, server_lookup_resume, &(state->loc), state->xattr_req); GF_VALIDATE_OR_GOTO(bound_xl->name, lookup_stub, fail); if ((state->loc.parent == NULL) && IS_NOT_ROOT(pathlen)) do_path_lookup (lookup_stub, &(state->loc)); else call_resume (lookup_stub); return 0; fail: server_lookup_cbk (frame, NULL, frame->this, -1,EINVAL, NULL, NULL, NULL); if (xattr_req) dict_unref (xattr_req); return 0; } /* * server_forget - forget function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_forget (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { int index = 0; ino_t ino = 0; int32_t count = 0; inode_t *inode = NULL; gf_cbk_forget_req_t *req = NULL; req = gf_param (hdr); count = ntoh32 (req->count); for (index = 0; index < count; index++) { ino = ntoh64 (req->ino_array[index]); if (!ino) continue; inode = inode_search (bound_xl->itable, ino, NULL); if (inode) { inode_forget (inode, 0); inode_unref (inode); } else { gf_log (bound_xl->name, GF_LOG_DEBUG, "%"PRId64": FORGET %"PRId64" not found " "in inode table", frame->root->unique, ino); } gf_log (bound_xl->name, GF_LOG_TRACE, "%"PRId64": FORGET \'%"PRId64"\'", frame->root->unique, ino); } server_forget_cbk (frame, NULL, bound_xl, 0, 0); return 0; } int server_stat_resume (call_frame_t *frame, xlator_t *this, loc_t *loc) { server_state_t *state = NULL; state = CALL_STATE(frame); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": STAT \'%s (%"PRId64")\'", frame->root->unique, state->loc.path, state->loc.ino); STACK_WIND (frame, server_stat_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->stat, loc); return 0; } /* * server_stat - stat function for server * @frame: call frame * @bound_xl: translator this server is bound to * @params: parameters dictionary * * not for external reference */ int server_stat (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { call_stub_t *stat_stub = NULL; gf_fop_stat_req_t *req = NULL; server_state_t *state = NULL; int32_t ret = -1; size_t pathlen = 0; req = gf_param (hdr); state = CALL_STATE(frame); state->ino = ntoh64 (req->ino); state->path = req->path; pathlen = STRLEN_0(state->path); ret = server_loc_fill (&(state->loc), state, state->ino, state->par, state->bname, state->path); stat_stub = fop_stat_stub (frame, server_stat_resume, &(state->loc)); GF_VALIDATE_OR_GOTO(bound_xl->name, stat_stub, fail); if (((state->loc.parent == NULL) && IS_NOT_ROOT(pathlen)) || (state->loc.inode == NULL)) { do_path_lookup (stat_stub, &(state->loc)); } else { call_resume (stat_stub); } return 0; fail: server_stat_cbk (frame, NULL, frame->this, -1, EINVAL, NULL); return 0; } int server_readlink_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, size_t size) { server_state_t *state = NULL; state = CALL_STATE(frame); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": READLINK \'%s (%"PRId64")\'", frame->root->unique, state->loc.path, state->loc.ino); STACK_WIND (frame, server_readlink_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->readlink, loc, size); return 0; } /* * server_readlink - readlink function for server * @frame: call frame * @bound_xl: translator this server is bound to * @params: parameters dictionary * * not for external reference */ int server_readlink (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { call_stub_t *readlink_stub = NULL; gf_fop_readlink_req_t *req = NULL; server_state_t *state = NULL; int32_t ret = -1; req = gf_param (hdr); state = CALL_STATE(frame); state->size = ntoh32 (req->size); state->ino = ntoh64 (req->ino); state->path = req->path; ret = server_loc_fill (&(state->loc), state, state->ino, 0, NULL, state->path); readlink_stub = fop_readlink_stub (frame, server_readlink_resume, &(state->loc), state->size); GF_VALIDATE_OR_GOTO(bound_xl->name, readlink_stub, fail); if ((state->loc.parent == NULL) || (state->loc.inode == NULL)) { do_path_lookup (readlink_stub, &(state->loc)); } else { call_resume (readlink_stub); } return 0; fail: server_readlink_cbk (frame, NULL,frame->this, -1, EINVAL, NULL); return 0; } int server_create_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, int32_t flags, mode_t mode, fd_t *fd) { server_state_t *state = NULL; state = CALL_STATE(frame); if (state->loc.parent == NULL) state->loc.parent = inode_ref (loc->parent); state->loc.inode = inode_new (state->itable); GF_VALIDATE_OR_GOTO(BOUND_XL(frame)->name, state->loc.inode, fail); state->fd = fd_create (state->loc.inode, frame->root->pid); GF_VALIDATE_OR_GOTO(BOUND_XL(frame)->name, state->fd, fail); state->fd->flags = flags; state->fd = fd_ref (state->fd); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": CREATE \'%"PRId64"/%s\'", frame->root->unique, state->par, state->bname); STACK_WIND (frame, server_create_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->create, &(state->loc), flags, mode, state->fd); return 0; fail: server_create_cbk (frame, NULL, frame->this, -1, EINVAL, NULL, NULL, NULL); return 0; } /* * server_create - create function for server * @frame: call frame * @bound_xl: translator this server is bound to * @params: parameters dictionary * * not for external reference */ int server_create (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_create_req_t *req = NULL; server_state_t *state = NULL; call_stub_t *create_stub = NULL; int32_t ret = -1; size_t pathlen = 0; req = gf_param (hdr); state = CALL_STATE(frame); { pathlen = STRLEN_0(req->path); state->par = ntoh64 (req->par); state->path = req->path; if (IS_NOT_ROOT(pathlen)) state->bname = req->bname + pathlen; state->mode = ntoh32 (req->mode); state->flags = gf_flags_to_flags (ntoh32 (req->flags)); } ret = server_loc_fill (&(state->loc), state, 0, state->par, state->bname, state->path); create_stub = fop_create_stub (frame, server_create_resume, &(state->loc), state->flags, state->mode, state->fd); GF_VALIDATE_OR_GOTO(bound_xl->name, create_stub, fail); if (state->loc.parent == NULL) { do_path_lookup (create_stub, &state->loc); } else { call_resume (create_stub); } return 0; fail: server_create_cbk (frame, NULL, frame->this, -1, EINVAL, NULL, NULL, NULL); return 0; } int server_open_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, int32_t flags, fd_t *fd) { server_state_t *state = NULL; fd_t *new_fd = NULL; state = CALL_STATE(frame); new_fd = fd_create (loc->inode, frame->root->pid); GF_VALIDATE_OR_GOTO(BOUND_XL(frame)->name, new_fd, fail); new_fd->flags = flags; state->fd = fd_ref (new_fd); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": OPEN \'%s (%"PRId64")\'", frame->root->unique, state->path, state->ino); STACK_WIND (frame, server_open_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->open, loc, flags, state->fd); return 0; fail: server_open_cbk (frame, NULL, frame->this, -1, EINVAL, NULL); return 0; } /* * server_open - open function for server protocol * @frame: call frame * @bound_xl: translator this server protocol is bound to * @params: parameters dictionary * * not for external reference */ int server_open (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { call_stub_t *open_stub = NULL; gf_fop_open_req_t *req = NULL; server_state_t *state = NULL; int32_t ret = -1; size_t pathlen = 0; req = gf_param (hdr); state = CALL_STATE (frame); { state->ino = ntoh64 (req->ino); state->path = req->path; pathlen = STRLEN_0(state->path); state->flags = gf_flags_to_flags (ntoh32 (req->flags)); } ret = server_loc_fill (&(state->loc), state, state->ino, 0, NULL, state->path); open_stub = fop_open_stub (frame, server_open_resume, &(state->loc), state->flags, NULL); GF_VALIDATE_OR_GOTO(bound_xl->name, open_stub, fail); if (((state->loc.parent == NULL) && IS_NOT_ROOT(pathlen)) || (state->loc.inode == NULL)) { do_path_lookup (open_stub, &state->loc); } else { call_resume (open_stub); } return 0; fail: server_open_cbk (frame, NULL, frame->this, -1, EINVAL, NULL); return 0; } /* * server_readv - readv function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_readv (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_read_req_t *req = NULL; server_state_t *state = NULL; server_connection_t *conn = NULL; conn = SERVER_CONNECTION (frame); req = gf_param (hdr); state = CALL_STATE(frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); state->size = ntoh32 (req->size); state->offset = ntoh64 (req->offset); } GF_VALIDATE_OR_GOTO(bound_xl->name, state->fd, fail); gf_log (bound_xl->name, GF_LOG_TRACE, "%"PRId64": READV \'fd=%"PRId64" (%"PRId64"); " "offset=%"PRId64"; size=%"PRId64, frame->root->unique, state->fd_no, state->fd->inode->ino, state->offset, (int64_t)state->size); STACK_WIND (frame, server_readv_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->readv, state->fd, state->size, state->offset); return 0; fail: server_readv_cbk (frame, NULL, frame->this, -1, EINVAL, NULL, 0, NULL, NULL); return 0; } /* * server_writev - writev function for server * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_writev (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { server_connection_t *conn = NULL; gf_fop_write_req_t *req = NULL; struct iovec iov = {0, }; struct iobref *iobref = NULL; server_state_t *state = NULL; conn = SERVER_CONNECTION(frame); req = gf_param (hdr); state = CALL_STATE(frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); state->offset = ntoh64 (req->offset); state->size = ntoh32 (req->size); } GF_VALIDATE_OR_GOTO(bound_xl->name, state->fd, fail); if (iobuf) iov.iov_base = iobuf->ptr; iov.iov_len = state->size; iobref = iobref_new (); GF_VALIDATE_OR_GOTO(bound_xl->name, iobref, fail); iobref_add (iobref, iobuf); gf_log (bound_xl->name, GF_LOG_TRACE, "%"PRId64": WRITEV \'fd=%"PRId64" (%"PRId64"); " "offset=%"PRId64"; size=%"PRId32, frame->root->unique, state->fd_no, state->fd->inode->ino, state->offset, (int32_t)state->size); STACK_WIND (frame, server_writev_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->writev, state->fd, &iov, 1, state->offset, iobref); if (iobref) iobref_unref (iobref); if (iobuf) iobuf_unref (iobuf); return 0; fail: server_writev_cbk (frame, NULL, frame->this, -1, EINVAL, NULL); if (iobref) iobref_unref (iobref); if (iobuf) iobuf_unref (iobuf); return 0; } /* * server_release - release function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_release (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_cbk_release_req_t *req = NULL; server_state_t *state = NULL; server_connection_t *conn = NULL; conn = SERVER_CONNECTION(frame); req = gf_param (hdr); state = CALL_STATE(frame); state->fd_no = ntoh64 (req->fd); gf_fd_put (conn->fdtable, state->fd_no); gf_log (bound_xl->name, GF_LOG_TRACE, "%"PRId64": RELEASE \'fd=%"PRId64"\'", frame->root->unique, state->fd_no); server_release_cbk (frame, NULL, frame->this, 0, 0); return 0; } /* * server_fsync - fsync function for server protocol * @frame: call frame * @bound_xl: * @params: parameters dictionary * * not for external reference */ int server_fsync (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_fsync_req_t *req = NULL; server_state_t *state = NULL; server_connection_t *conn = NULL; conn = SERVER_CONNECTION(frame); req = gf_param (hdr); state = CALL_STATE(frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); state->flags = ntoh32 (req->data); } GF_VALIDATE_OR_GOTO(bound_xl->name, state->fd, fail); gf_log (bound_xl->name, GF_LOG_TRACE, "%"PRId64": FSYNC \'fd=%"PRId64" (%"PRId64")\'", frame->root->unique, state->fd_no, state->fd->inode->ino); STACK_WIND (frame, server_fsync_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->fsync, state->fd, state->flags); return 0; fail: server_fsync_cbk (frame, NULL, frame->this, -1, EINVAL); return 0; } /* * server_flush - flush function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_flush (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_flush_req_t *req = NULL; server_state_t *state = NULL; server_connection_t *conn = NULL; conn = SERVER_CONNECTION (frame); req = gf_param (hdr); state = CALL_STATE(frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); } GF_VALIDATE_OR_GOTO (bound_xl->name, state->fd, fail); gf_log (bound_xl->name, GF_LOG_TRACE, "%"PRId64": FLUSH \'fd=%"PRId64" (%"PRId64")\'", frame->root->unique, state->fd_no, state->fd->inode->ino); STACK_WIND (frame, server_flush_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->flush, state->fd); return 0; fail: server_flush_cbk (frame, NULL, frame->this, -1, EINVAL); return 0; } /* * server_ftruncate - ftruncate function for server protocol * @frame: call frame * @bound_xl: * @params: parameters dictionary * * not for external reference */ int server_ftruncate (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_ftruncate_req_t *req = NULL; server_state_t *state = NULL; server_connection_t *conn = NULL; conn = SERVER_CONNECTION(frame); req = gf_param (hdr); state = CALL_STATE(frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); state->offset = ntoh64 (req->offset); } GF_VALIDATE_OR_GOTO(bound_xl->name, state->fd, fail); gf_log (bound_xl->name, GF_LOG_TRACE, "%"PRId64": FTRUNCATE \'fd=%"PRId64" (%"PRId64"); " "offset=%"PRId64"\'", frame->root->unique, state->fd_no, state->fd->inode->ino, state->offset); STACK_WIND (frame, server_ftruncate_cbk, bound_xl, bound_xl->fops->ftruncate, state->fd, state->offset); return 0; fail: server_ftruncate_cbk (frame, NULL, frame->this, -1, EINVAL, NULL); return 0; } /* * server_fstat - fstat function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_fstat (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_fstat_req_t *req = NULL; server_state_t *state = NULL; server_connection_t *conn = NULL; conn = SERVER_CONNECTION (frame); req = gf_param (hdr); state = CALL_STATE(frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); } if (state->fd == NULL) { gf_log (frame->this->name, GF_LOG_WARNING, "fd - %"PRId64": unresolved fd", state->fd_no); server_fstat_cbk (frame, NULL, frame->this, -1, EBADF, NULL); goto out; } gf_log (bound_xl->name, GF_LOG_TRACE, "%"PRId64": FSTAT \'fd=%"PRId64" (%"PRId64")\'", frame->root->unique, state->fd_no, state->fd->inode->ino); STACK_WIND (frame, server_fstat_cbk, bound_xl, bound_xl->fops->fstat, state->fd); out: return 0; } int server_truncate_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, off_t offset) { server_state_t *state = NULL; state = CALL_STATE(frame); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": TRUNCATE \'%s (%"PRId64")\'", frame->root->unique, state->path, state->ino); STACK_WIND (frame, server_truncate_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->truncate, loc, offset); return 0; } /* * server_truncate - truncate function for server protocol * @frame: call frame * @bound_xl: * @params: * * not for external reference */ int server_truncate (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { call_stub_t *truncate_stub = NULL; gf_fop_truncate_req_t *req = NULL; server_state_t *state = NULL; int32_t ret = -1; size_t pathlen = 0; req = gf_param (hdr); state = CALL_STATE(frame); { pathlen = STRLEN_0(req->path); state->offset = ntoh64 (req->offset); state->path = req->path; state->ino = ntoh64 (req->ino); } ret = server_loc_fill (&(state->loc), state, state->ino, 0, NULL, state->path); truncate_stub = fop_truncate_stub (frame, server_truncate_resume, &(state->loc), state->offset); if ((state->loc.parent == NULL) || (state->loc.inode == NULL)) { do_path_lookup (truncate_stub, &(state->loc)); } else { call_resume (truncate_stub); } return 0; } int server_unlink_resume (call_frame_t *frame, xlator_t *this, loc_t *loc) { server_state_t *state = NULL; state = CALL_STATE(frame); if (state->loc.parent == NULL) state->loc.parent = inode_ref (loc->parent); if (state->loc.inode == NULL) state->loc.inode = inode_ref (loc->inode); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": UNLINK \'%"PRId64"/%s (%"PRId64")\'", frame->root->unique, state->par, state->path, state->loc.inode->ino); STACK_WIND (frame, server_unlink_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->unlink, loc); return 0; } /* * server_unlink - unlink function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_unlink (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { call_stub_t *unlink_stub = NULL; gf_fop_unlink_req_t *req = NULL; server_state_t *state = NULL; int32_t ret = -1; size_t pathlen = 0; req = gf_param (hdr); state = CALL_STATE (frame); pathlen = STRLEN_0(req->path); state->par = ntoh64 (req->par); state->path = req->path; if (IS_NOT_ROOT(pathlen)) state->bname = req->bname + pathlen; ret = server_loc_fill (&(state->loc), state, 0, state->par, state->bname, state->path); unlink_stub = fop_unlink_stub (frame, server_unlink_resume, &(state->loc)); if ((state->loc.parent == NULL) || (state->loc.inode == NULL)) { do_path_lookup (unlink_stub, &state->loc); } else { call_resume (unlink_stub); } return 0; } int server_setxattr_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, dict_t *dict, int32_t flags) { server_state_t *state = NULL; state = CALL_STATE(frame); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": SETXATTR \'%s (%"PRId64")\'", frame->root->unique, state->path, state->ino); STACK_WIND (frame, server_setxattr_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->setxattr, loc, dict, flags); return 0; } /* * server_setxattr - setxattr function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_setxattr (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { call_stub_t *setxattr_stub = NULL; gf_fop_setxattr_req_t *req = NULL; dict_t *dict = NULL; server_state_t *state = NULL; int32_t ret = -1; size_t pathlen = 0; size_t dict_len = 0; char *req_dictbuf = NULL; req = gf_param (hdr); state = CALL_STATE(frame); { dict_len = ntoh32 (req->dict_len); state->path = req->path + dict_len; pathlen = STRLEN_0(state->path); state->ino = ntoh64 (req->ino); state->flags = ntoh32 (req->flags); } ret = server_loc_fill (&(state->loc), state, state->ino, 0, NULL, state->path); { /* Unserialize the dictionary */ req_dictbuf = memdup (req->dict, dict_len); GF_VALIDATE_OR_GOTO(bound_xl->name, req_dictbuf, fail); dict = dict_new (); GF_VALIDATE_OR_GOTO(bound_xl->name, dict, fail); ret = dict_unserialize (req_dictbuf, dict_len, &dict); if (ret < 0) { gf_log (bound_xl->name, GF_LOG_ERROR, "%"PRId64": %s (%"PRId64"): failed to " "unserialize request buffer to dictionary", frame->root->unique, state->loc.path, state->ino); free (req_dictbuf); goto fail; } else{ dict->extra_free = req_dictbuf; } } setxattr_stub = fop_setxattr_stub (frame, server_setxattr_resume, &(state->loc), dict, state->flags); GF_VALIDATE_OR_GOTO(bound_xl->name, setxattr_stub, fail); if (((state->loc.parent == NULL) && IS_NOT_ROOT(pathlen)) || (state->loc.inode == NULL)) { do_path_lookup (setxattr_stub, &(state->loc)); } else { call_resume (setxattr_stub); } if (dict) dict_unref (dict); return 0; fail: if (dict) dict_unref (dict); server_setxattr_cbk (frame, NULL, frame->this, -1, ENOENT); return 0; } int server_fsetxattr (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { server_connection_t *conn = NULL; gf_fop_fsetxattr_req_t *req = NULL; dict_t *dict = NULL; server_state_t *state = NULL; int32_t ret = -1; size_t pathlen = 0; size_t dict_len = 0; char *req_dictbuf = NULL; conn = SERVER_CONNECTION (frame); req = gf_param (hdr); state = CALL_STATE(frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); dict_len = ntoh32 (req->dict_len); pathlen = STRLEN_0(state->path); state->ino = ntoh64 (req->ino); state->flags = ntoh32 (req->flags); } /* Unserialize the dictionary */ req_dictbuf = memdup (req->dict, dict_len); GF_VALIDATE_OR_GOTO(bound_xl->name, req_dictbuf, fail); dict = dict_new (); GF_VALIDATE_OR_GOTO(bound_xl->name, dict, fail); ret = dict_unserialize (req_dictbuf, dict_len, &dict); if (ret < 0) { gf_log (bound_xl->name, GF_LOG_ERROR, "%"PRId64": %s (%"PRId64"): failed to " "unserialize request buffer to dictionary", frame->root->unique, state->loc.path, state->ino); free (req_dictbuf); goto fail; } else{ dict->extra_free = req_dictbuf; } STACK_WIND (frame, server_setxattr_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->fsetxattr, state->fd, dict, state->flags); if (dict) dict_unref (dict); return 0; fail: if (dict) dict_unref (dict); server_fsetxattr_cbk (frame, NULL, frame->this, -1, ENOENT); return 0; } int server_fxattrop (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { server_connection_t *conn = NULL; gf_fop_fxattrop_req_t *req = NULL; dict_t *dict = NULL; server_state_t *state = NULL; size_t dict_len = 0; char *req_dictbuf = NULL; int32_t ret = -1; conn = SERVER_CONNECTION(frame); req = gf_param (hdr); state = CALL_STATE(frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); dict_len = ntoh32 (req->dict_len); state->ino = ntoh64 (req->ino); state->flags = ntoh32 (req->flags); } if (dict_len) { /* Unserialize the dictionary */ req_dictbuf = memdup (req->dict, dict_len); GF_VALIDATE_OR_GOTO(bound_xl->name, req_dictbuf, fail); dict = dict_new (); GF_VALIDATE_OR_GOTO(bound_xl->name, dict, fail); ret = dict_unserialize (req_dictbuf, dict_len, &dict); if (ret < 0) { gf_log (bound_xl->name, GF_LOG_ERROR, "fd - %"PRId64" (%"PRId64"): failed to unserialize " "request buffer to dictionary", state->fd_no, state->fd->inode->ino); free (req_dictbuf); goto fail; } else { dict->extra_free = req_dictbuf; } } gf_log (bound_xl->name, GF_LOG_TRACE, "%"PRId64": FXATTROP \'fd=%"PRId64" (%"PRId64")\'", frame->root->unique, state->fd_no, state->fd->inode->ino); STACK_WIND (frame, server_fxattrop_cbk, bound_xl, bound_xl->fops->fxattrop, state->fd, state->flags, dict); if (dict) dict_unref (dict); return 0; fail: if (dict) dict_unref (dict); server_fxattrop_cbk (frame, NULL, frame->this, -1, EINVAL, NULL); return 0; } int server_xattrop_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, gf_xattrop_flags_t flags, dict_t *dict) { server_state_t *state = NULL; state = CALL_STATE(frame); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": XATTROP \'%s (%"PRId64")\'", frame->root->unique, state->path, state->ino); STACK_WIND (frame, server_xattrop_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->xattrop, loc, flags, dict); return 0; } int server_xattrop (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_xattrop_req_t *req = NULL; dict_t *dict = NULL; server_state_t *state = NULL; call_stub_t *xattrop_stub = NULL; int32_t ret = -1; size_t pathlen = 0; size_t dict_len = 0; char *req_dictbuf = NULL; req = gf_param (hdr); state = CALL_STATE(frame); { dict_len = ntoh32 (req->dict_len); state->ino = ntoh64 (req->ino); state->path = req->path + dict_len; pathlen = STRLEN_0(state->path); state->flags = ntoh32 (req->flags); } ret = server_loc_fill (&(state->loc), state, state->ino, 0, NULL, state->path); if (dict_len) { /* Unserialize the dictionary */ req_dictbuf = memdup (req->dict, dict_len); GF_VALIDATE_OR_GOTO(bound_xl->name, req_dictbuf, fail); dict = dict_new (); GF_VALIDATE_OR_GOTO(bound_xl->name, dict, fail); ret = dict_unserialize (req_dictbuf, dict_len, &dict); if (ret < 0) { gf_log (bound_xl->name, GF_LOG_ERROR, "%s (%"PRId64"): failed to unserialize " "request buffer to dictionary", state->loc.path, state->ino); goto fail; } else { dict->extra_free = req_dictbuf; } } xattrop_stub = fop_xattrop_stub (frame, server_xattrop_resume, &(state->loc), state->flags, dict); GF_VALIDATE_OR_GOTO(bound_xl->name, xattrop_stub, fail); if (((state->loc.parent == NULL) && IS_NOT_ROOT(pathlen)) || (state->loc.inode == NULL)) { do_path_lookup (xattrop_stub, &(state->loc)); } else { call_resume (xattrop_stub); } if (dict) dict_unref (dict); return 0; fail: if (dict) dict_unref (dict); server_xattrop_cbk (frame, NULL, frame->this, -1, EINVAL, NULL); return 0; } int server_getxattr_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, const char *name) { server_state_t *state = NULL; state = CALL_STATE(frame); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": GETXATTR \'%s (%"PRId64")\'", frame->root->unique, state->path, state->ino); STACK_WIND (frame, server_getxattr_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->getxattr, loc, name); return 0; } /* * server_getxattr - getxattr function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_getxattr (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_getxattr_req_t *req = NULL; call_stub_t *getxattr_stub = NULL; server_state_t *state = NULL; int32_t ret = -1; size_t namelen = 0; size_t pathlen = 0; req = gf_param (hdr); state = CALL_STATE(frame); { pathlen = STRLEN_0(req->path); state->path = req->path; state->ino = ntoh64 (req->ino); namelen = ntoh32 (req->namelen); if (namelen) state->name = (req->name + pathlen); } ret = server_loc_fill (&(state->loc), state, state->ino, 0, NULL, state->path); getxattr_stub = fop_getxattr_stub (frame, server_getxattr_resume, &(state->loc), state->name); if (((state->loc.parent == NULL) && IS_NOT_ROOT(pathlen)) || (state->loc.inode == NULL)) { do_path_lookup (getxattr_stub, &(state->loc)); } else { call_resume (getxattr_stub); } return 0; } int server_fgetxattr (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { server_connection_t *conn = NULL; gf_fop_fgetxattr_req_t *req = NULL; server_state_t *state = NULL; size_t namelen = 0; conn = SERVER_CONNECTION (frame); req = gf_param (hdr); state = CALL_STATE(frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); state->ino = ntoh64 (req->ino); namelen = ntoh32 (req->namelen); if (namelen) state->name = (req->name); } STACK_WIND (frame, server_fgetxattr_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->fgetxattr, state->fd, state->name); return 0; } int server_removexattr_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, const char *name) { server_state_t *state = NULL; state = CALL_STATE (frame); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": REMOVEXATTR \'%s (%"PRId64")\'", frame->root->unique, state->path, state->ino); STACK_WIND (frame, server_removexattr_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->removexattr, loc, name); return 0; } /* * server_removexattr - removexattr function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_removexattr (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_removexattr_req_t *req = NULL; call_stub_t *removexattr_stub = NULL; server_state_t *state = NULL; int32_t ret = -1; size_t pathlen = 0; req = gf_param (hdr); state = CALL_STATE(frame); { pathlen = STRLEN_0(req->path); state->path = req->path; state->ino = ntoh64 (req->ino); state->name = (req->name + pathlen); } ret = server_loc_fill (&(state->loc), state, state->ino, 0, NULL, state->path); removexattr_stub = fop_removexattr_stub (frame, server_removexattr_resume, &(state->loc), state->name); if (((state->loc.parent == NULL) && IS_NOT_ROOT(pathlen)) || (state->loc.inode == NULL)) { do_path_lookup (removexattr_stub, &(state->loc)); } else { call_resume (removexattr_stub); } return 0; } /* * server_statfs - statfs function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_statfs (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_statfs_req_t *req = NULL; server_state_t *state = NULL; int32_t ret = -1; req = gf_param (hdr); state = CALL_STATE(frame); state->ino = ntoh64 (req->ino); state->path = req->path; ret = server_loc_fill (&state->loc, state, state->ino, 0, NULL, state->path); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": STATFS \'%s (%"PRId64")\'", frame->root->unique, state->path, state->ino); STACK_WIND (frame, server_statfs_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->statfs, &(state->loc)); return 0; } int server_opendir_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, fd_t *fd) { server_state_t *state = NULL; fd_t *new_fd = NULL; state = CALL_STATE (frame); new_fd = fd_create (loc->inode, frame->root->pid); state->fd = fd_ref (new_fd); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": OPENDIR \'%s (%"PRId64")\'", frame->root->unique, state->path, state->ino); STACK_WIND (frame, server_opendir_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->opendir, loc, state->fd); return 0; } /* * server_opendir - opendir function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_opendir (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { call_stub_t *opendir_stub = NULL; gf_fop_opendir_req_t *req = NULL; server_state_t *state = NULL; int32_t ret = -1; size_t pathlen = 0; req = gf_param (hdr); state = CALL_STATE(frame); { state->path = req->path; pathlen = STRLEN_0(state->path); state->ino = ntoh64 (req->ino); } ret = server_loc_fill (&state->loc, state, state->ino, 0, NULL, state->path); opendir_stub = fop_opendir_stub (frame, server_opendir_resume, &(state->loc), NULL); if (((state->loc.parent == NULL) && IS_NOT_ROOT(pathlen)) || (state->loc.inode == NULL)) { do_path_lookup (opendir_stub, &(state->loc)); } else { call_resume (opendir_stub); } return 0; } /* * server_releasedir - releasedir function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_releasedir (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_cbk_releasedir_req_t *req = NULL; server_state_t *state = NULL; server_connection_t *conn = NULL; conn = SERVER_CONNECTION(frame); req = gf_param (hdr); state = CALL_STATE(frame); state->fd_no = ntoh64 (req->fd); state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); if (state->fd == NULL) { gf_log (frame->this->name, GF_LOG_ERROR, "fd - %"PRId64": unresolved fd", state->fd_no); server_releasedir_cbk (frame, NULL, frame->this, -1, EBADF); goto out; } gf_log (bound_xl->name, GF_LOG_TRACE, "%"PRId64": RELEASEDIR \'fd=%"PRId64" (%"PRId64")\'", frame->root->unique, state->fd_no, state->fd->inode->ino); gf_fd_put (conn->fdtable, state->fd_no); server_releasedir_cbk (frame, NULL, frame->this, 0, 0); out: return 0; } /* * server_readdir - readdir function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_getdents (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_getdents_req_t *req = NULL; server_state_t *state = NULL; server_connection_t *conn = NULL; conn = SERVER_CONNECTION (frame); req = gf_param (hdr); state = CALL_STATE(frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); state->size = ntoh32 (req->size); state->offset = ntoh64 (req->offset); state->flags = ntoh32 (req->flags); } if (state->fd == NULL) { gf_log (frame->this->name, GF_LOG_ERROR, "fd - %"PRId64": unresolved fd", state->fd_no); server_getdents_cbk (frame, NULL, frame->this, -1, EBADF, NULL, 0); goto out; } gf_log (bound_xl->name, GF_LOG_TRACE, "%"PRId64": GETDENTS \'fd=%"PRId64" (%"PRId64"); " "offset=%"PRId64"; size=%"PRId64, frame->root->unique, state->fd_no, state->fd->inode->ino, state->offset, (int64_t)state->size); STACK_WIND (frame, server_getdents_cbk, bound_xl, bound_xl->fops->getdents, state->fd, state->size, state->offset, state->flags); out: return 0; } /* * server_readdir - readdir function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_readdir (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_readdir_req_t *req = NULL; server_state_t *state = NULL; server_connection_t *conn = NULL; conn = SERVER_CONNECTION(frame); req = gf_param (hdr); state = CALL_STATE(frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); state->size = ntoh32 (req->size); state->offset = ntoh64 (req->offset); } if (state->fd == NULL) { gf_log (frame->this->name, GF_LOG_ERROR, "fd - %"PRId64": unresolved fd", state->fd_no); server_readdir_cbk (frame, NULL, frame->this, -1, EBADF, NULL); goto out; } gf_log (bound_xl->name, GF_LOG_TRACE, "%"PRId64": READDIR \'fd=%"PRId64" (%"PRId64"); " "offset=%"PRId64"; size=%"PRId64, frame->root->unique, state->fd_no, state->fd->inode->ino, state->offset, (int64_t)state->size); STACK_WIND (frame, server_readdir_cbk, bound_xl, bound_xl->fops->readdir, state->fd, state->size, state->offset); out: return 0; } /* * server_fsyncdir - fsyncdir function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_fsyncdir (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_fsyncdir_req_t *req = NULL; server_state_t *state = NULL; server_connection_t *conn = NULL; conn = SERVER_CONNECTION (frame); req = gf_param (hdr); state = CALL_STATE(frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); state->flags = ntoh32 (req->data); } if (state->fd == NULL) { gf_log (frame->this->name, GF_LOG_ERROR, "fd - %"PRId64": unresolved fd", state->fd_no); server_fsyncdir_cbk (frame, NULL, frame->this, -1, EBADF); goto out; } gf_log (bound_xl->name, GF_LOG_TRACE, "%"PRId64": FSYNCDIR \'fd=%"PRId64" (%"PRId64")\'", frame->root->unique, state->fd_no, state->fd->inode->ino); STACK_WIND (frame, server_fsyncdir_cbk, bound_xl, bound_xl->fops->fsyncdir, state->fd, state->flags); out: return 0; } int server_mknod_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, mode_t mode, dev_t dev) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->loc.parent == NULL) state->loc.parent = inode_ref (loc->parent); state->loc.inode = inode_new (state->itable); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": MKNOD \'%"PRId64"/%s\'", frame->root->unique, state->par, state->bname); STACK_WIND (frame, server_mknod_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->mknod, &(state->loc), mode, dev); return 0; } /* * server_mknod - mknod function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_mknod (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_mknod_req_t *req = NULL; server_state_t *state = NULL; call_stub_t *mknod_stub = NULL; int32_t ret = -1; size_t pathlen = 0; req = gf_param (hdr); state = CALL_STATE (frame); { pathlen = STRLEN_0(req->path); state->par = ntoh64 (req->par); state->path = req->path; if (IS_NOT_ROOT(pathlen)) state->bname = req->bname + pathlen; state->mode = ntoh32 (req->mode); state->dev = ntoh64 (req->dev); } ret = server_loc_fill (&(state->loc), state, 0, state->par, state->bname, state->path); mknod_stub = fop_mknod_stub (frame, server_mknod_resume, &(state->loc), state->mode, state->dev); if (state->loc.parent == NULL) { do_path_lookup (mknod_stub, &(state->loc)); } else { call_resume (mknod_stub); } return 0; } int server_mkdir_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, mode_t mode) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->loc.parent == NULL) state->loc.parent = inode_ref (loc->parent); state->loc.inode = inode_new (state->itable); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": MKDIR \'%"PRId64"/%s\'", frame->root->unique, state->par, state->bname); STACK_WIND (frame, server_mkdir_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->mkdir, &(state->loc), state->mode); return 0; } /* * server_mkdir - mkdir function for server protocol * @frame: call frame * @bound_xl: * @params: * * not for external reference */ int server_mkdir (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_mkdir_req_t *req = NULL; server_state_t *state = NULL; call_stub_t *mkdir_stub = NULL; int32_t ret = -1; size_t pathlen = 0; req = gf_param (hdr); state = CALL_STATE(frame); { pathlen = STRLEN_0(req->path); state->mode = ntoh32 (req->mode); state->path = req->path; state->bname = req->bname + pathlen; state->par = ntoh64 (req->par); } ret = server_loc_fill (&(state->loc), state, 0, state->par, state->bname, state->path); mkdir_stub = fop_mkdir_stub (frame, server_mkdir_resume, &(state->loc), state->mode); if (state->loc.parent == NULL) { do_path_lookup (mkdir_stub, &(state->loc)); } else { call_resume (mkdir_stub); } return 0; } int server_rmdir_resume (call_frame_t *frame, xlator_t *this, loc_t *loc) { server_state_t *state = NULL; state = CALL_STATE(frame); if (state->loc.parent == NULL) state->loc.parent = inode_ref (loc->parent); if (state->loc.inode == NULL) state->loc.inode = inode_ref (loc->inode); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": RMDIR \'%"PRId64"/%s\'", frame->root->unique, state->par, state->bname); STACK_WIND (frame, server_rmdir_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->rmdir, loc); return 0; } /* * server_rmdir - rmdir function for server protocol * @frame: call frame * @bound_xl: * @params: * * not for external reference */ int server_rmdir (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { call_stub_t *rmdir_stub = NULL; gf_fop_rmdir_req_t *req = NULL; server_state_t *state = NULL; int32_t ret = -1; size_t pathlen = 0; req = gf_param (hdr); state = CALL_STATE(frame); { pathlen = STRLEN_0(req->path); state->path = req->path; state->par = ntoh64 (req->par); state->bname = req->bname + pathlen; } ret = server_loc_fill (&(state->loc), state, state->ino, state->par, state->bname, state->path); rmdir_stub = fop_rmdir_stub (frame, server_rmdir_resume, &(state->loc)); if ((state->loc.parent == NULL) || (state->loc.inode == NULL)) { do_path_lookup (rmdir_stub, &(state->loc)); } else { call_resume (rmdir_stub); } return 0; } int server_chown_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, uid_t uid, gid_t gid) { server_state_t *state = NULL; state = CALL_STATE (frame); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": CHOWN \'%s (%"PRId64")\'", frame->root->unique, state->path, state->ino); STACK_WIND (frame, server_chown_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->chown, loc, uid, gid); return 0; } /* * server_chown - chown function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_chown (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { call_stub_t *chown_stub = NULL; gf_fop_chown_req_t *req = NULL; server_state_t *state = NULL; int32_t ret = -1; size_t pathlen = 0; req = gf_param (hdr); state = CALL_STATE(frame); { state->ino = ntoh64 (req->ino); state->path = req->path; pathlen = STRLEN_0(state->path); state->uid = ntoh32 (req->uid); state->gid = ntoh32 (req->gid); } ret = server_loc_fill (&(state->loc), state, state->ino, 0, NULL, state->path); chown_stub = fop_chown_stub (frame, server_chown_resume, &(state->loc), state->uid, state->gid); if (((state->loc.parent == NULL) && IS_NOT_ROOT(pathlen)) || (state->loc.inode == NULL)) { do_path_lookup (chown_stub, &(state->loc)); } else { call_resume (chown_stub); } return 0; } int server_chmod_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, mode_t mode) { server_state_t *state = NULL; state = CALL_STATE(frame); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": CHMOD \'%s (%"PRId64")\'", frame->root->unique, state->path, state->ino); STACK_WIND (frame, server_chmod_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->chmod, loc, mode); return 0; } /* * server_chmod - chmod function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_chmod (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { call_stub_t *chmod_stub = NULL; gf_fop_chmod_req_t *req = NULL; server_state_t *state = NULL; int32_t ret = -1; size_t pathlen = 0; req = gf_param (hdr); state = CALL_STATE(frame); { state->ino = ntoh64 (req->ino); state->path = req->path; pathlen = STRLEN_0(state->path); state->mode = ntoh32 (req->mode); } ret = server_loc_fill (&(state->loc), state, state->ino, 0, NULL, state->path); chmod_stub = fop_chmod_stub (frame, server_chmod_resume, &(state->loc), state->mode); if (((state->loc.parent == NULL) && IS_NOT_ROOT(pathlen)) || (state->loc.inode == NULL)) { do_path_lookup (chmod_stub, &(state->loc)); } else { call_resume (chmod_stub); } return 0; } int server_utimens_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, struct timespec *tv) { server_state_t *state = NULL; state = CALL_STATE(frame); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": UTIMENS \'%s (%"PRId64")\'", frame->root->unique, state->path, state->ino); STACK_WIND (frame, server_utimens_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->utimens, loc, tv); return 0; } /* * server_utimens - utimens function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_utimens (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { call_stub_t *utimens_stub = NULL; gf_fop_utimens_req_t *req = NULL; server_state_t *state = NULL; int32_t ret = -1; size_t pathlen = 0; req = gf_param (hdr); state = CALL_STATE(frame); { state->ino = ntoh64 (req->ino); state->path = req->path; pathlen = STRLEN_0(state->path); gf_timespec_to_timespec (req->tv, state->tv); } ret = server_loc_fill (&(state->loc), state, state->ino, 0, NULL, state->path); utimens_stub = fop_utimens_stub (frame, server_utimens_resume, &(state->loc), state->tv); if (((state->loc.parent == NULL) && IS_NOT_ROOT(pathlen)) || (state->loc.inode == NULL)) { do_path_lookup (utimens_stub, &(state->loc)); } else { call_resume (utimens_stub); } return 0; } int server_inodelk_resume (call_frame_t *frame, xlator_t *this, const char *volume, loc_t *loc, int32_t cmd, struct flock *flock) { server_state_t *state = NULL; state = CALL_STATE(frame); if (state->loc.inode == NULL) { state->loc.inode = inode_ref (loc->inode); } if ((state->loc.parent == NULL) && (loc->parent)) { state->loc.parent = inode_ref (loc->parent); } gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": INODELK \'%s (%"PRId64")\'", frame->root->unique, state->path, state->ino); STACK_WIND (frame, server_inodelk_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->inodelk, volume, loc, cmd, flock); return 0; } int server_inodelk (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { call_stub_t *inodelk_stub = NULL; gf_fop_inodelk_req_t *req = NULL; server_state_t *state = NULL; size_t pathlen = 0; size_t vollen = 0; req = gf_param (hdr); state = CALL_STATE(frame); { state->cmd = ntoh32 (req->cmd); 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 = ntoh32 (req->type); pathlen = STRLEN_0(req->path); vollen = STRLEN_0(req->volume + vollen); state->path = req->path; state->volume = strdup (req->volume + vollen); state->ino = ntoh64 (req->ino); gf_flock_to_flock (&req->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; } } server_loc_fill (&(state->loc), state, state->ino, 0, NULL, state->path); inodelk_stub = fop_inodelk_stub (frame, server_inodelk_resume, state->volume, &state->loc, state->cmd, &state->flock); if (state->loc.inode == NULL) { do_path_lookup (inodelk_stub, &(state->loc)); } else { call_resume (inodelk_stub); } return 0; } int server_finodelk (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_finodelk_req_t *req = NULL; server_state_t *state = NULL; server_connection_t *conn = NULL; conn = SERVER_CONNECTION(frame); req = gf_param (hdr); state = CALL_STATE(frame); { state->volume = strdup (req->volume); state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); state->cmd = ntoh32 (req->cmd); 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 = ntoh32 (req->type); gf_flock_to_flock (&req->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; } } if (state->fd == NULL) { gf_log (frame->this->name, GF_LOG_ERROR, "fd - %"PRId64": unresolved fd", state->fd_no); server_finodelk_cbk (frame, NULL, frame->this, -1, EBADF); return -1; } gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": FINODELK \'fd=%"PRId64" (%"PRId64")\'", frame->root->unique, state->fd_no, state->fd->inode->ino); STACK_WIND (frame, server_finodelk_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->finodelk, state->volume, state->fd, state->cmd, &state->flock); return 0; } int server_entrylk_resume (call_frame_t *frame, xlator_t *this, const char *volume, loc_t *loc, const char *name, entrylk_cmd cmd, entrylk_type type) { server_state_t *state = NULL; state = CALL_STATE(frame); if (state->loc.inode == NULL) state->loc.inode = inode_ref (loc->inode); if ((state->loc.parent == NULL) && (loc->parent)) state->loc.parent = inode_ref (loc->parent); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": ENTRYLK \'%s (%"PRId64") \'", frame->root->unique, state->path, state->ino); STACK_WIND (frame, server_entrylk_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->entrylk, volume, loc, name, cmd, type); return 0; } /* * server_entrylk - entrylk function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_entrylk (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_entrylk_req_t *req = NULL; server_state_t *state = NULL; call_stub_t *entrylk_stub = NULL; size_t pathlen = 0; size_t namelen = 0; size_t vollen = 0; req = gf_param (hdr); state = CALL_STATE (frame); { pathlen = STRLEN_0(req->path); state->path = req->path; state->ino = ntoh64 (req->ino); namelen = ntoh64 (req->namelen); if (namelen) state->name = req->name + pathlen; vollen = STRLEN_0(req->volume + pathlen + namelen); state->volume = strdup (req->volume + pathlen + namelen); state->cmd = ntoh32 (req->cmd); state->type = ntoh32 (req->type); } server_loc_fill (&(state->loc), state, state->ino, 0, NULL, state->path); entrylk_stub = fop_entrylk_stub (frame, server_entrylk_resume, state->volume, &state->loc, state->name, state->cmd, state->type); if (state->loc.inode == NULL) { do_path_lookup (entrylk_stub, &(state->loc)); } else { call_resume (entrylk_stub); } return 0; } int server_fentrylk (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_fentrylk_req_t *req = NULL; server_state_t *state = NULL; size_t namelen = 0; size_t vollen = 0; server_connection_t *conn = NULL; conn = SERVER_CONNECTION (frame); req = gf_param (hdr); state = CALL_STATE(frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); state->cmd = ntoh32 (req->cmd); state->type = ntoh32 (req->type); namelen = ntoh64 (req->namelen); if (namelen) state->name = req->name; vollen = STRLEN_0(req->volume + namelen); state->volume = strdup (req->volume + namelen); } if (state->fd == NULL) { gf_log (frame->this->name, GF_LOG_ERROR, "fd - %"PRId64": unresolved fd", state->fd_no); server_fentrylk_cbk (frame, NULL, frame->this, -1, EBADF); return -1; } gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": FENTRYLK \'fd=%"PRId64" (%"PRId64")\'", frame->root->unique, state->fd_no, state->fd->inode->ino); STACK_WIND (frame, server_fentrylk_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->fentrylk, state->volume, state->fd, state->name, state->cmd, state->type); return 0; } int server_access_resume (call_frame_t *frame, xlator_t *this, loc_t *loc, int32_t mask) { server_state_t *state = NULL; state = CALL_STATE (frame); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": ACCESS \'%s (%"PRId64")\'", frame->root->unique, state->path, state->ino); STACK_WIND (frame, server_access_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->access, loc, mask); return 0; } /* * server_access - access function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_access (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { call_stub_t *access_stub = NULL; gf_fop_access_req_t *req = NULL; server_state_t *state = NULL; int32_t ret = -1; size_t pathlen = 0; req = gf_param (hdr); state = CALL_STATE(frame); state->mask = ntoh32 (req->mask); state->ino = ntoh64 (req->ino); state->path = req->path; pathlen = STRLEN_0(state->path); ret = server_loc_fill (&(state->loc), state, state->ino, 0, NULL, state->path); access_stub = fop_access_stub (frame, server_access_resume, &(state->loc), state->mask); if (((state->loc.parent == NULL) && IS_NOT_ROOT(pathlen)) || (state->loc.inode == NULL)) { do_path_lookup (access_stub, &(state->loc)); } else { call_resume (access_stub); } return 0; } int server_symlink_resume (call_frame_t *frame, xlator_t *this, const char *linkname, loc_t *loc) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->loc.parent == NULL) state->loc.parent = inode_ref (loc->parent); state->loc.inode = inode_new (BOUND_XL(frame)->itable); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": SYMLINK \'%"PRId64"/%s \'", frame->root->unique, state->par, state->bname); STACK_WIND (frame, server_symlink_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->symlink, linkname, &(state->loc)); return 0; } /* * server_symlink- symlink function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_symlink (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { server_state_t *state = NULL; gf_fop_symlink_req_t *req = NULL; call_stub_t *symlink_stub = NULL; int32_t ret = -1; size_t pathlen = 0; size_t baselen = 0; req = gf_param (hdr); state = CALL_STATE(frame); { pathlen = STRLEN_0(req->path); baselen = STRLEN_0(req->bname + pathlen); state->par = ntoh64 (req->par); state->path = req->path; state->bname = req->bname + pathlen; state->name = (req->linkname + pathlen + baselen); } ret = server_loc_fill (&(state->loc), state, 0, state->par, state->bname, state->path); symlink_stub = fop_symlink_stub (frame, server_symlink_resume, state->name, &(state->loc)); if (state->loc.parent == NULL) { do_path_lookup (symlink_stub, &(state->loc)); } else { call_resume (symlink_stub); } return 0; } int server_link_resume (call_frame_t *frame, xlator_t *this, loc_t *oldloc, loc_t *newloc) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->loc.parent == NULL) state->loc.parent = inode_ref (oldloc->parent); if (state->loc.inode == NULL) { state->loc.inode = inode_ref (oldloc->inode); } else if (state->loc.inode != oldloc->inode) { if (state->loc.inode) inode_unref (state->loc.inode); state->loc.inode = inode_ref (oldloc->inode); } if (state->loc2.parent == NULL) state->loc2.parent = inode_ref (newloc->parent); state->loc2.inode = inode_ref (state->loc.inode); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": LINK \'%"PRId64"/%s ==> %s (%"PRId64")\'", frame->root->unique, state->par2, state->bname2, state->path, state->ino); STACK_WIND (frame, server_link_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->link, &(state->loc), &(state->loc2)); return 0; } /* * server_link - link function for server protocol * @frame: call frame * @bound_xl: * @params: * * not for external reference */ int server_link (call_frame_t *frame, xlator_t *this, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_link_req_t *req = NULL; server_state_t *state = NULL; call_stub_t *link_stub = NULL; int32_t ret = -1; size_t oldpathlen = 0; size_t newpathlen = 0; size_t newbaselen = 0; req = gf_param (hdr); state = CALL_STATE(frame); { oldpathlen = STRLEN_0(req->oldpath); newpathlen = STRLEN_0(req->newpath + oldpathlen); newbaselen = STRLEN_0(req->newbname + oldpathlen + newpathlen); state->path = req->oldpath; state->path2 = req->newpath + oldpathlen; state->bname2 = req->newbname + oldpathlen + newpathlen; state->ino = ntoh64 (req->oldino); state->par2 = ntoh64 (req->newpar); } ret = server_loc_fill (&(state->loc), state, state->ino, 0, NULL, state->path); ret = server_loc_fill (&(state->loc2), state, 0, state->par2, state->bname2, state->path2); link_stub = fop_link_stub (frame, server_link_resume, &(state->loc), &(state->loc2)); if ((state->loc.parent == NULL) || (state->loc.inode == NULL)) { do_path_lookup (link_stub, &(state->loc)); } else if (state->loc2.parent == NULL) { do_path_lookup (link_stub, &(state->loc2)); } else { call_resume (link_stub); } return 0; } int server_rename_resume (call_frame_t *frame, xlator_t *this, loc_t *oldloc, loc_t *newloc) { server_state_t *state = NULL; state = CALL_STATE (frame); if (state->loc.parent == NULL) state->loc.parent = inode_ref (oldloc->parent); if (state->loc.inode == NULL) { state->loc.inode = inode_ref (oldloc->inode); } if (state->loc2.parent == NULL) state->loc2.parent = inode_ref (newloc->parent); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": RENAME %s (%"PRId64"/%s) ==> %s (%"PRId64"/%s)", frame->root->unique, state->path, state->par, state->bname, state->path2, state->par2, state->bname2); STACK_WIND (frame, server_rename_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->rename, &(state->loc), &(state->loc2)); return 0; } /* * server_rename - rename function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_rename (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_fop_rename_req_t *req = NULL; server_state_t *state = NULL; call_stub_t *rename_stub = NULL; int32_t ret = -1; size_t oldpathlen = 0; size_t oldbaselen = 0; size_t newpathlen = 0; size_t newbaselen = 0; req = gf_param (hdr); state = CALL_STATE (frame); { oldpathlen = STRLEN_0(req->oldpath); oldbaselen = STRLEN_0(req->oldbname + oldpathlen); newpathlen = STRLEN_0(req->newpath + oldpathlen + oldbaselen); newbaselen = STRLEN_0(req->newbname + oldpathlen + oldbaselen + newpathlen); state->path = req->oldpath; state->bname = req->oldbname + oldpathlen; state->path2 = req->newpath + oldpathlen + oldbaselen; state->bname2 = (req->newbname + oldpathlen + oldbaselen + newpathlen); state->par = ntoh64 (req->oldpar); state->par2 = ntoh64 (req->newpar); } ret = server_loc_fill (&(state->loc), state, 0, state->par, state->bname, state->path); ret = server_loc_fill (&(state->loc2), state, 0, state->par2, state->bname2, state->path2); rename_stub = fop_rename_stub (frame, server_rename_resume, &(state->loc), &(state->loc2)); if ((state->loc.parent == NULL) || (state->loc.inode == NULL)){ do_path_lookup (rename_stub, &(state->loc)); } else if ((state->loc2.parent == NULL)){ do_path_lookup (rename_stub, &(state->loc2)); } else { /* we have found inode for both oldpath and newpath in * inode cache. lets continue with fops->rename() */ call_resume (rename_stub); } return 0; } /* * server_lk - lk function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * * not for external reference */ int server_lk (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { struct flock lock = {0, }; gf_fop_lk_req_t *req = NULL; server_state_t *state = NULL; server_connection_t *conn = NULL; conn = SERVER_CONNECTION (frame); req = gf_param (hdr); state = CALL_STATE (frame); { state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); state->cmd = ntoh32 (req->cmd); state->type = ntoh32 (req->type); } if (state->fd == NULL) { gf_log (frame->this->name, GF_LOG_ERROR, "fd - %"PRId64": unresolved fd", state->fd_no); server_lk_cbk (frame, NULL, frame->this, -1, EBADF, NULL); goto out; } 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; } switch (state->type) { case GF_LK_F_RDLCK: lock.l_type = F_RDLCK; break; case GF_LK_F_WRLCK: lock.l_type = F_WRLCK; break; case GF_LK_F_UNLCK: lock.l_type = F_UNLCK; break; default: gf_log (bound_xl->name, GF_LOG_ERROR, "fd - %"PRId64" (%"PRId64"): Unknown lock type: %"PRId32"!", state->fd_no, state->fd->inode->ino, state->type); break; } gf_flock_to_flock (&req->flock, &lock); gf_log (BOUND_XL(frame)->name, GF_LOG_TRACE, "%"PRId64": LK \'fd=%"PRId64" (%"PRId64")\'", frame->root->unique, state->fd_no, state->fd->inode->ino); STACK_WIND (frame, server_lk_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->lk, state->fd, state->cmd, &lock); out: return 0; } /* * server_writedir - * * @frame: * @bound_xl: * @params: * */ int server_setdents (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { server_connection_t *conn = NULL; gf_fop_setdents_req_t *req = NULL; server_state_t *state = NULL; dir_entry_t *entry = NULL; dir_entry_t *trav = NULL; dir_entry_t *prev = NULL; int32_t count = 0; int32_t i = 0; int32_t bread = 0; char *ender = NULL; char *buffer_ptr = NULL; char tmp_buf[512] = {0,}; conn = SERVER_CONNECTION(frame); req = gf_param (hdr); state = CALL_STATE(frame); state->fd_no = ntoh64 (req->fd); if (state->fd_no >= 0) state->fd = gf_fd_fdptr_get (conn->fdtable, state->fd_no); state->nr_count = ntoh32 (req->count); if (state->fd == NULL) { gf_log (frame->this->name, GF_LOG_ERROR, "fd - %"PRId64": unresolved fd", state->fd_no); server_setdents_cbk (frame, NULL, frame->this, -1, EBADF); goto out; } if (iobuf == NULL) { gf_log (frame->this->name, GF_LOG_ERROR, "fd - %"PRId64" (%"PRId64"): received a null buffer, " "returning EINVAL", state->fd_no, state->fd->inode->ino); server_setdents_cbk (frame, NULL, frame->this, -1, ENOMEM); goto out; } entry = CALLOC (1, sizeof (dir_entry_t)); ERR_ABORT (entry); prev = entry; buffer_ptr = iobuf->ptr; for (i = 0; i < state->nr_count ; i++) { bread = 0; trav = CALLOC (1, sizeof (dir_entry_t)); ERR_ABORT (trav); ender = strchr (buffer_ptr, '/'); if (!ender) break; count = ender - buffer_ptr; trav->name = CALLOC (1, count + 2); ERR_ABORT (trav->name); strncpy (trav->name, buffer_ptr, count); bread = count + 1; buffer_ptr += bread; ender = strchr (buffer_ptr, '\n'); if (!ender) break; count = ender - buffer_ptr; strncpy (tmp_buf, buffer_ptr, count); bread = count + 1; buffer_ptr += bread; /* TODO: use str_to_stat instead */ { uint64_t dev; uint64_t ino; uint32_t mode; uint32_t nlink; uint32_t uid; uint32_t gid; uint64_t rdev; uint64_t size; uint32_t blksize; uint64_t blocks; uint32_t atime; uint32_t atime_nsec; uint32_t mtime; uint32_t mtime_nsec; uint32_t ctime; uint32_t ctime_nsec; sscanf (tmp_buf, GF_STAT_PRINT_FMT_STR, &dev, &ino, &mode, &nlink, &uid, &gid, &rdev, &size, &blksize, &blocks, &atime, &atime_nsec, &mtime, &mtime_nsec, &ctime, &ctime_nsec); trav->buf.st_dev = dev; trav->buf.st_ino = ino; trav->buf.st_mode = mode; trav->buf.st_nlink = nlink; trav->buf.st_uid = uid; trav->buf.st_gid = gid; trav->buf.st_rdev = rdev; trav->buf.st_size = size; trav->buf.st_blksize = blksize; trav->buf.st_blocks = blocks; trav->buf.st_atime = atime; trav->buf.st_mtime = mtime; trav->buf.st_ctime = ctime; ST_ATIM_NSEC_SET(&trav->buf, atime_nsec); ST_MTIM_NSEC_SET(&trav->buf, mtime_nsec); ST_CTIM_NSEC_SET(&trav->buf, ctime_nsec); } ender = strchr (buffer_ptr, '\n'); if (!ender) break; count = ender - buffer_ptr; *ender = '\0'; if (S_ISLNK (trav->buf.st_mode)) { trav->link = strdup (buffer_ptr); } else trav->link = ""; bread = count + 1; buffer_ptr += bread; prev->next = trav; prev = trav; } gf_log (bound_xl->name, GF_LOG_TRACE, "%"PRId64": SETDENTS \'fd=%"PRId64" (%"PRId64"); count=%"PRId64, frame->root->unique, state->fd_no, state->fd->inode->ino, (int64_t)state->nr_count); STACK_WIND (frame, server_setdents_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->setdents, state->fd, state->flags, entry, state->nr_count); /* Free the variables allocated in this fop here */ trav = entry->next; prev = entry; while (trav) { prev->next = trav->next; FREE (trav->name); if (S_ISLNK (trav->buf.st_mode)) FREE (trav->link); FREE (trav); trav = prev->next; } FREE (entry); out: if (iobuf) iobuf_unref (iobuf); return 0; } /* xxx_MOPS */ int _volfile_update_checksum (xlator_t *this, char *key, uint32_t checksum) { server_conf_t *conf = NULL; struct _volfile_ctx *temp_volfile = NULL; conf = this->private; temp_volfile = conf->volfile; while (temp_volfile) { if ((NULL == key) && (NULL == temp_volfile->key)) break; if ((NULL == key) || (NULL == temp_volfile->key)) { temp_volfile = temp_volfile->next; continue; } if (strcmp (temp_volfile->key, key) == 0) break; temp_volfile = temp_volfile->next; } if (!temp_volfile) { temp_volfile = CALLOC (1, sizeof (struct _volfile_ctx)); temp_volfile->next = conf->volfile; temp_volfile->key = (key)? strdup (key): NULL; temp_volfile->checksum = checksum; conf->volfile = temp_volfile; goto out; } if (temp_volfile->checksum != checksum) { gf_log (this->name, GF_LOG_CRITICAL, "the volume file got modified between earlier access " "and now, this may lead to inconsistency between " "clients, advised to remount client"); temp_volfile->checksum = checksum; } out: return 0; } size_t build_volfile_path (xlator_t *this, const char *key, char *path, size_t path_len) { int ret = -1; int free_filename = 0; char *filename = NULL; char data_key[256] = {0,}; /* Inform users that this option is changed now */ ret = dict_get_str (this->options, "client-volume-filename", &filename); if (ret == 0) { gf_log (this->name, GF_LOG_WARNING, "option 'client-volume-filename' is changed to " "'volume-filename.' which now takes 'key' as an " "option to choose/fetch different files from server. " "Refer documentation or contact developers for more " "info. Currently defaulting to given file '%s'", filename); } if (key && !filename) { sprintf (data_key, "volume-filename.%s", key); ret = dict_get_str (this->options, data_key, &filename); if (ret < 0) { /* Make sure that key doesn't contain * "../" in path */ if (!strstr (key, "../")) { asprintf (&filename, "%s/%s.vol", CONFDIR, key); free_filename = 1; } else { gf_log (this->name, GF_LOG_DEBUG, "%s: invalid key", key); } } } if (!filename) { ret = dict_get_str (this->options, "volume-filename.default", &filename); if (ret < 0) { gf_log (this->name, GF_LOG_DEBUG, "no default volume filename given, " "defaulting to %s", DEFAULT_VOLUME_FILE_PATH); filename = DEFAULT_VOLUME_FILE_PATH; } } ret = -1; if ((filename) && (path_len > strlen (filename))) { strcpy (path, filename); ret = strlen (filename); } if (free_filename) free (filename); return ret; } int _validate_volfile_checksum (xlator_t *this, char *key, uint32_t checksum) { char filename[ZR_PATH_MAX] = {0,}; server_conf_t *conf = NULL; struct _volfile_ctx *temp_volfile = NULL; int ret = 0; uint32_t local_checksum = 0; conf = this->private; temp_volfile = conf->volfile; if (!checksum) goto out; if (!temp_volfile) { ret = build_volfile_path (this, key, filename, sizeof (filename)); if (ret <= 0) goto out; ret = open (filename, O_RDONLY); if (-1 == ret) { ret = 0; gf_log (this->name, GF_LOG_DEBUG, "failed to open volume file (%s) : %s", filename, strerror (errno)); goto out; } get_checksum_for_file (ret, &local_checksum); _volfile_update_checksum (this, key, local_checksum); close (ret); } temp_volfile = conf->volfile; while (temp_volfile) { if ((NULL == key) && (NULL == temp_volfile->key)) break; if ((NULL == key) || (NULL == temp_volfile->key)) { temp_volfile = temp_volfile->next; continue; } if (strcmp (temp_volfile->key, key) == 0) break; temp_volfile = temp_volfile->next; } if (!temp_volfile) goto out; if ((temp_volfile->checksum) && (checksum != temp_volfile->checksum)) ret = -1; out: return ret; } /* Management Calls */ /* * mop_getspec - getspec function for server protocol * @frame: call frame * @bound_xl: * @params: * */ int mop_getspec (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_hdr_common_t *_hdr = NULL; gf_mop_getspec_rsp_t *rsp = NULL; int32_t ret = -1; int32_t op_errno = ENOENT; int32_t gf_errno = 0; int32_t spec_fd = -1; size_t file_len = 0; size_t _hdrlen = 0; char filename[ZR_PATH_MAX] = {0,}; struct stat stbuf = {0,}; gf_mop_getspec_req_t *req = NULL; uint32_t checksum = 0; uint32_t flags = 0; uint32_t keylen = 0; char *key = NULL; server_conf_t *conf = NULL; req = gf_param (hdr); flags = ntoh32 (req->flags); keylen = ntoh32 (req->keylen); if (keylen) { key = req->key; } conf = frame->this->private; ret = build_volfile_path (frame->this, key, filename, sizeof (filename)); if (ret > 0) { /* to allocate the proper buffer to hold the file data */ ret = stat (filename, &stbuf); if (ret < 0){ gf_log (frame->this->name, GF_LOG_ERROR, "Unable to stat %s (%s)", filename, strerror (errno)); goto fail; } spec_fd = open (filename, O_RDONLY); if (spec_fd < 0) { gf_log (frame->this->name, GF_LOG_ERROR, "Unable to open %s (%s)", filename, strerror (errno)); goto fail; } ret = 0; file_len = stbuf.st_size; if (conf->verify_volfile_checksum) { get_checksum_for_file (spec_fd, &checksum); _volfile_update_checksum (frame->this, key, checksum); } } else { errno = ENOENT; } fail: op_errno = errno; _hdrlen = gf_hdr_len (rsp, file_len + 1); _hdr = gf_hdr_new (rsp, file_len + 1); rsp = gf_param (_hdr); _hdr->rsp.op_ret = hton32 (ret); gf_errno = gf_errno_to_error (op_errno); _hdr->rsp.op_errno = hton32 (gf_errno); if (file_len) { ret = read (spec_fd, rsp->spec, file_len); close (spec_fd); } protocol_server_reply (frame, GF_OP_TYPE_MOP_REPLY, GF_MOP_GETSPEC, _hdr, _hdrlen, NULL, 0, NULL); return 0; } int server_checksum_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno, uint8_t *fchecksum, uint8_t *dchecksum) { gf_hdr_common_t *hdr = NULL; gf_fop_checksum_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; hdrlen = gf_hdr_len (rsp, ZR_FILENAME_MAX + 1 + ZR_FILENAME_MAX + 1); hdr = gf_hdr_new (rsp, ZR_FILENAME_MAX + 1 + ZR_FILENAME_MAX + 1); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); if (op_ret >= 0) { memcpy (rsp->fchecksum, fchecksum, ZR_FILENAME_MAX); rsp->fchecksum[ZR_FILENAME_MAX] = '\0'; memcpy (rsp->dchecksum + ZR_FILENAME_MAX, dchecksum, ZR_FILENAME_MAX); rsp->dchecksum[ZR_FILENAME_MAX + ZR_FILENAME_MAX] = '\0'; } protocol_server_reply (frame, GF_OP_TYPE_FOP_REPLY, GF_FOP_CHECKSUM, hdr, hdrlen, NULL, 0, NULL); return 0; } int server_checksum (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { loc_t loc = {0,}; int32_t flag = 0; gf_fop_checksum_req_t *req = NULL; req = gf_param (hdr); loc.path = req->path; loc.ino = ntoh64 (req->ino); loc.inode = NULL; flag = ntoh32 (req->flag); gf_log (bound_xl->name, GF_LOG_TRACE, "%"PRId64": CHECKSUM \'%s (%"PRId64")\'", frame->root->unique, loc.path, loc.ino); STACK_WIND (frame, server_checksum_cbk, BOUND_XL(frame), BOUND_XL(frame)->fops->checksum, &loc, flag); return 0; } /* * mop_unlock - unlock management function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * */ int mop_getvolume (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { return 0; } struct __get_xl_struct { const char *name; xlator_t *reply; }; void __check_and_set (xlator_t *each, void *data) { if (!strcmp (each->name, ((struct __get_xl_struct *) data)->name)) ((struct __get_xl_struct *) data)->reply = each; } static xlator_t * get_xlator_by_name (xlator_t *some_xl, const char *name) { struct __get_xl_struct get = { .name = name, .reply = NULL }; xlator_foreach (some_xl, __check_and_set, &get); return get.reply; } /* * mop_setvolume - setvolume management function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * */ int mop_setvolume (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *req_hdr, size_t req_hdrlen, struct iobuf *iobuf) { server_connection_t *conn = NULL; server_conf_t *conf = NULL; gf_hdr_common_t *rsp_hdr = NULL; gf_mop_setvolume_req_t *req = NULL; gf_mop_setvolume_rsp_t *rsp = NULL; peer_info_t *peerinfo = NULL; int32_t ret = -1; int32_t op_ret = -1; int32_t op_errno = EINVAL; int32_t gf_errno = 0; dict_t *reply = NULL; dict_t *config_params = NULL; dict_t *params = NULL; char *name = NULL; char *version = NULL; char *process_uuid = NULL; xlator_t *xl = NULL; transport_t *trans = NULL; size_t rsp_hdrlen = -1; size_t dict_len = -1; size_t req_dictlen = -1; char *msg = NULL; char *volfile_key = NULL; uint32_t checksum = 0; int32_t lru_limit = 1024; params = dict_new (); reply = dict_new (); req = gf_param (req_hdr); req_dictlen = ntoh32 (req->dict_len); ret = dict_unserialize (req->buf, req_dictlen, ¶ms); config_params = dict_copy_with_ref (frame->this->options, NULL); trans = TRANSPORT_FROM_FRAME(frame); conf = SERVER_CONF(frame); if (ret < 0) { ret = dict_set_str (reply, "ERROR", "Internal error: failed to unserialize " "request dictionary"); if (ret < 0) gf_log (bound_xl->name, GF_LOG_DEBUG, "failed to set error msg \"%s\"", "Internal error: failed to unserialize " "request dictionary"); op_ret = -1; op_errno = EINVAL; goto fail; } ret = dict_get_str (params, "process-uuid", &process_uuid); if (ret < 0) { ret = dict_set_str (reply, "ERROR", "UUID not specified"); if (ret < 0) gf_log (bound_xl->name, GF_LOG_DEBUG, "failed to set error msg"); op_ret = -1; op_errno = EINVAL; goto fail; } conn = server_connection_get (frame->this, process_uuid); if (trans->xl_private != conn) trans->xl_private = conn; ret = dict_get_str (params, "protocol-version", &version); if (ret < 0) { ret = dict_set_str (reply, "ERROR", "No version number specified"); if (ret < 0) gf_log (trans->xl->name, GF_LOG_DEBUG, "failed to set error msg"); op_ret = -1; op_errno = EINVAL; goto fail; } ret = strcmp (version, GF_PROTOCOL_VERSION); if (ret != 0) { asprintf (&msg, "protocol version mismatch: client(%s) - server(%s)", version, GF_PROTOCOL_VERSION); ret = dict_set_dynstr (reply, "ERROR", msg); if (ret < 0) gf_log (trans->xl->name, GF_LOG_DEBUG, "failed to set error msg"); op_ret = -1; op_errno = EINVAL; goto fail; } ret = dict_get_str (params, "remote-subvolume", &name); if (ret < 0) { ret = dict_set_str (reply, "ERROR", "No remote-subvolume option specified"); if (ret < 0) gf_log (trans->xl->name, GF_LOG_DEBUG, "failed to set error msg"); op_ret = -1; op_errno = EINVAL; goto fail; } xl = get_xlator_by_name (frame->this, name); if (xl == NULL) { asprintf (&msg, "remote-subvolume \"%s\" is not found", name); ret = dict_set_dynstr (reply, "ERROR", msg); if (ret < 0) gf_log (trans->xl->name, GF_LOG_DEBUG, "failed to set error msg"); op_ret = -1; op_errno = ENOENT; goto fail; } if (conf->verify_volfile_checksum) { ret = dict_get_uint32 (params, "volfile-checksum", &checksum); if (ret == 0) { ret = dict_get_str (params, "volfile-key", &volfile_key); ret = _validate_volfile_checksum (trans->xl, volfile_key, checksum); if (-1 == ret) { ret = dict_set_str (reply, "ERROR", "volume-file checksum " "varies from earlier " "access"); if (ret < 0) gf_log (trans->xl->name, GF_LOG_DEBUG, "failed to set error msg"); op_ret = -1; op_errno = ESTALE; goto fail; } } } peerinfo = &trans->peerinfo; ret = dict_set_static_ptr (params, "peer-info", peerinfo); if (ret < 0) gf_log (trans->xl->name, GF_LOG_DEBUG, "failed to set peer-info"); if (conf->auth_modules == NULL) { gf_log (trans->xl->name, GF_LOG_ERROR, "Authentication module not initialized"); } ret = gf_authenticate (params, config_params, conf->auth_modules); if (ret == AUTH_ACCEPT) { gf_log (trans->xl->name, GF_LOG_INFO, "accepted client from %s", peerinfo->identifier); op_ret = 0; conn->bound_xl = xl; ret = dict_set_str (reply, "ERROR", "Success"); if (ret < 0) gf_log (trans->xl->name, GF_LOG_DEBUG, "failed to set error msg"); } else { gf_log (trans->xl->name, GF_LOG_ERROR, "Cannot authenticate client from %s", peerinfo->identifier); op_ret = -1; op_errno = EACCES; ret = dict_set_str (reply, "ERROR", "Authentication failed"); if (ret < 0) gf_log (bound_xl->name, GF_LOG_DEBUG, "failed to set error msg"); goto fail; } if (conn->bound_xl == NULL) { ret = dict_set_str (reply, "ERROR", "Check volfile and handshake " "options in protocol/client"); if (ret < 0) gf_log (trans->xl->name, GF_LOG_DEBUG, "failed to set error msg"); op_ret = -1; op_errno = EACCES; goto fail; } if ((conn->bound_xl != NULL) && (ret >= 0) && (conn->bound_xl->itable == NULL)) { /* create inode table for this bound_xl, if one doesn't already exist */ lru_limit = INODE_LRU_LIMIT (frame->this); gf_log (trans->xl->name, GF_LOG_TRACE, "creating inode table with lru_limit=%"PRId32", " "xlator=%s", lru_limit, conn->bound_xl->name); conn->bound_xl->itable = inode_table_new (lru_limit, conn->bound_xl); } ret = dict_set_str (reply, "process-uuid", xl->ctx->process_uuid); ret = dict_set_uint64 (reply, "transport-ptr", ((uint64_t) (long) trans)); fail: dict_len = dict_serialized_length (reply); if (dict_len < 0) { gf_log (xl->name, GF_LOG_DEBUG, "failed to get serialized length of reply dict"); op_ret = -1; op_errno = EINVAL; dict_len = 0; } rsp_hdr = gf_hdr_new (rsp, dict_len); rsp_hdrlen = gf_hdr_len (rsp, dict_len); rsp = gf_param (rsp_hdr); if (dict_len) { ret = dict_serialize (reply, rsp->buf); if (ret < 0) { gf_log (xl->name, GF_LOG_DEBUG, "failed to serialize reply dict"); op_ret = -1; op_errno = -ret; } } rsp->dict_len = hton32 (dict_len); rsp_hdr->rsp.op_ret = hton32 (op_ret); gf_errno = gf_errno_to_error (op_errno); rsp_hdr->rsp.op_errno = hton32 (gf_errno); protocol_server_reply (frame, GF_OP_TYPE_MOP_REPLY, GF_MOP_SETVOLUME, rsp_hdr, rsp_hdrlen, NULL, 0, NULL); dict_unref (params); dict_unref (reply); dict_unref (config_params); return 0; } /* * server_mop_stats_cbk - stats callback for server management operation * @frame: call frame * @cookie: * @this: * @op_ret: return value * @op_errno: errno * @stats:err * * not for external reference */ int server_mop_stats_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t ret, int32_t op_errno, struct xlator_stats *stats) { /* TODO: get this information from somewhere else, not extern */ gf_hdr_common_t *hdr = NULL; gf_mop_stats_rsp_t *rsp = NULL; char buffer[256] = {0,}; int64_t glusterfsd_stats_nr_clients = 0; size_t hdrlen = 0; size_t buf_len = 0; int32_t gf_errno = 0; if (ret >= 0) { sprintf (buffer, "%"PRIx64",%"PRIx64",%"PRIx64 ",%"PRIx64",%"PRIx64",%"PRIx64 ",%"PRIx64",%"PRIx64"\n", stats->nr_files, stats->disk_usage, stats->free_disk, stats->total_disk_size, stats->read_usage, stats->write_usage, stats->disk_speed, glusterfsd_stats_nr_clients); buf_len = strlen (buffer); } hdrlen = gf_hdr_len (rsp, buf_len + 1); hdr = gf_hdr_new (rsp, buf_len + 1); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (ret); gf_errno = gf_errno_to_error (op_errno); hdr->rsp.op_errno = hton32 (gf_errno); strcpy (rsp->buf, buffer); protocol_server_reply (frame, GF_OP_TYPE_MOP_REPLY, GF_MOP_STATS, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * mop_unlock - unlock management function for server protocol * @frame: call frame * @bound_xl: * @params: parameter dictionary * */ int mop_stats (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { int32_t flag = 0; gf_mop_stats_req_t *req = NULL; req = gf_param (hdr); flag = ntoh32 (req->flags); STACK_WIND (frame, server_mop_stats_cbk, bound_xl, bound_xl->mops->stats, flag); return 0; } int mop_ping (call_frame_t *frame, xlator_t *bound_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf) { gf_hdr_common_t *rsp_hdr = NULL; gf_mop_ping_rsp_t *rsp = NULL; size_t rsp_hdrlen = 0; rsp_hdrlen = gf_hdr_len (rsp, 0); rsp_hdr = gf_hdr_new (rsp, 0); hdr->rsp.op_ret = 0; protocol_server_reply (frame, GF_OP_TYPE_MOP_REPLY, GF_MOP_PING, rsp_hdr, rsp_hdrlen, NULL, 0, NULL); return 0; } /* * unknown_op_cbk - This function is called when a opcode for unknown * type is called. Helps to keep the backward/forward * compatiblity * @frame: call frame * @type: * @opcode: * */ int unknown_op_cbk (call_frame_t *frame, int32_t type, int32_t opcode) { gf_hdr_common_t *hdr = NULL; gf_fop_flush_rsp_t *rsp = NULL; size_t hdrlen = 0; int32_t gf_errno = 0; hdrlen = gf_hdr_len (rsp, 0); hdr = gf_hdr_new (rsp, 0); rsp = gf_param (hdr); hdr->rsp.op_ret = hton32 (-1); gf_errno = gf_errno_to_error (ENOSYS); hdr->rsp.op_errno = hton32 (gf_errno); protocol_server_reply (frame, type, opcode, hdr, hdrlen, NULL, 0, NULL); return 0; } /* * get_frame_for_transport - get call frame for specified transport object * * @trans: transport object * */ static call_frame_t * get_frame_for_transport (transport_t *trans) { call_frame_t *frame = NULL; call_pool_t *pool = NULL; server_connection_t *conn = NULL; server_state_t *state = NULL;; GF_VALIDATE_OR_GOTO("server", trans, out); if (trans->xl && trans->xl->ctx) pool = trans->xl->ctx->pool; GF_VALIDATE_OR_GOTO("server", pool, out); frame = create_frame (trans->xl, pool); GF_VALIDATE_OR_GOTO("server", frame, out); state = CALLOC (1, sizeof (*state)); GF_VALIDATE_OR_GOTO("server", state, out); conn = trans->xl_private; if (conn) { if (conn->bound_xl) state->itable = conn->bound_xl->itable; state->bound_xl = conn->bound_xl; } state->trans = transport_ref (trans); frame->root->trans = conn; frame->root->state = state; /* which socket */ frame->root->unique = 0; /* which call */ out: return frame; } /* * get_frame_for_call - create a frame into the capable of * generating and replying the reply packet by itself. * By making a call with this frame, the last UNWIND * function will have all needed state from its * frame_t->root to send reply. * @trans: * @blk: * @params: * * not for external reference */ static call_frame_t * get_frame_for_call (transport_t *trans, gf_hdr_common_t *hdr) { call_frame_t *frame = NULL; frame = get_frame_for_transport (trans); frame->root->op = ntoh32 (hdr->op); frame->root->type = ntoh32 (hdr->type); frame->root->uid = ntoh32 (hdr->req.uid); frame->root->unique = ntoh64 (hdr->callid); /* which call */ frame->root->gid = ntoh32 (hdr->req.gid); frame->root->pid = ntoh32 (hdr->req.pid); return frame; } /* * prototype of operations function for each of mop and * fop at server protocol level * * @frame: call frame pointer * @bound_xl: the xlator that this frame is bound to * @params: parameters dictionary * * to be used by protocol interpret, _not_ for exterenal reference */ typedef int32_t (*gf_op_t) (call_frame_t *frame, xlator_t *bould_xl, gf_hdr_common_t *hdr, size_t hdrlen, struct iobuf *iobuf); static gf_op_t gf_fops[] = { [GF_FOP_STAT] = server_stat, [GF_FOP_READLINK] = server_readlink, [GF_FOP_MKNOD] = server_mknod, [GF_FOP_MKDIR] = server_mkdir, [GF_FOP_UNLINK] = server_unlink, [GF_FOP_RMDIR] = server_rmdir, [GF_FOP_SYMLINK] = server_symlink, [GF_FOP_RENAME] = server_rename, [GF_FOP_LINK] = server_link, [GF_FOP_CHMOD] = server_chmod, [GF_FOP_CHOWN] = server_chown, [GF_FOP_TRUNCATE] = server_truncate, [GF_FOP_OPEN] = server_open, [GF_FOP_READ] = server_readv, [GF_FOP_WRITE] = server_writev, [GF_FOP_STATFS] = server_statfs, [GF_FOP_FLUSH] = server_flush, [GF_FOP_FSYNC] = server_fsync, [GF_FOP_SETXATTR] = server_setxattr, [GF_FOP_GETXATTR] = server_getxattr, [GF_FOP_FGETXATTR] = server_fgetxattr, [GF_FOP_FSETXATTR] = server_fsetxattr, [GF_FOP_REMOVEXATTR] = server_removexattr, [GF_FOP_OPENDIR] = server_opendir, [GF_FOP_GETDENTS] = server_getdents, [GF_FOP_FSYNCDIR] = server_fsyncdir, [GF_FOP_ACCESS] = server_access, [GF_FOP_CREATE] = server_create, [GF_FOP_FTRUNCATE] = server_ftruncate, [GF_FOP_FSTAT] = server_fstat, [GF_FOP_LK] = server_lk, [GF_FOP_UTIMENS] = server_utimens, [GF_FOP_FCHMOD] = server_fchmod, [GF_FOP_FCHOWN] = server_fchown, [GF_FOP_LOOKUP] = server_lookup, [GF_FOP_SETDENTS] = server_setdents, [GF_FOP_READDIR] = server_readdir, [GF_FOP_INODELK] = server_inodelk, [GF_FOP_FINODELK] = server_finodelk, [GF_FOP_ENTRYLK] = server_entrylk, [GF_FOP_FENTRYLK] = server_fentrylk, [GF_FOP_CHECKSUM] = server_checksum, [GF_FOP_XATTROP] = server_xattrop, [GF_FOP_FXATTROP] = server_fxattrop, }; static gf_op_t gf_mops[] = { [GF_MOP_SETVOLUME] = mop_setvolume, [GF_MOP_GETVOLUME] = mop_getvolume, [GF_MOP_STATS] = mop_stats, [GF_MOP_GETSPEC] = mop_getspec, [GF_MOP_PING] = mop_ping, }; static gf_op_t gf_cbks[] = { [GF_CBK_FORGET] = server_forget, [GF_CBK_RELEASE] = server_release, [GF_CBK_RELEASEDIR] = server_releasedir }; int protocol_server_interpret (xlator_t *this, transport_t *trans, char *hdr_p, size_t hdrlen, struct iobuf *iobuf) { server_connection_t *conn = NULL; gf_hdr_common_t *hdr = NULL; xlator_t *bound_xl = NULL; call_frame_t *frame = NULL; peer_info_t *peerinfo = NULL; int32_t type = -1; int32_t op = -1; int32_t ret = -1; hdr = (gf_hdr_common_t *)hdr_p; type = ntoh32 (hdr->type); op = ntoh32 (hdr->op); conn = trans->xl_private; if (conn) bound_xl = conn->bound_xl; peerinfo = &trans->peerinfo; switch (type) { case GF_OP_TYPE_FOP_REQUEST: if ((op < 0) || (op >= GF_FOP_MAXVALUE)) { gf_log (this->name, GF_LOG_ERROR, "invalid fop %"PRId32" from client %s", op, peerinfo->identifier); break; } if (bound_xl == NULL) { gf_log (this->name, GF_LOG_ERROR, "Received fop %"PRId32" before " "authentication.", op); break; } frame = get_frame_for_call (trans, hdr); ret = gf_fops[op] (frame, bound_xl, hdr, hdrlen, iobuf); break; case GF_OP_TYPE_MOP_REQUEST: if ((op < 0) || (op >= GF_MOP_MAXVALUE)) { gf_log (this->name, GF_LOG_ERROR, "invalid mop %"PRId32" from client %s", op, peerinfo->identifier); break; } frame = get_frame_for_call (trans, hdr); ret = gf_mops[op] (frame, bound_xl, hdr, hdrlen, iobuf); break; case GF_OP_TYPE_CBK_REQUEST: if ((op < 0) || (op >= GF_CBK_MAXVALUE)) { gf_log (this->name, GF_LOG_ERROR, "invalid cbk %"PRId32" from client %s", op, peerinfo->identifier); break; } if (bound_xl == NULL) { gf_log (this->name, GF_LOG_ERROR, "Received cbk %d before authentication.", op); break; } frame = get_frame_for_call (trans, hdr); ret = gf_cbks[op] (frame, bound_xl, hdr, hdrlen, iobuf); break; default: break; } return ret; } /* * server_nop_cbk - nop callback for server protocol * @frame: call frame * @cookie: * @this: * @op_ret: return value * @op_errno: errno * * not for external reference */ int server_nop_cbk (call_frame_t *frame, void *cookie, xlator_t *this, int32_t op_ret, int32_t op_errno) { server_state_t *state = NULL; state = CALL_STATE(frame); if (state) free_state (state); STACK_DESTROY (frame->root); return 0; } static void get_auth_types (dict_t *this, char *key, data_t *value, void *data) { dict_t *auth_dict = NULL; char *saveptr = NULL; char *tmp = NULL; char *key_cpy = NULL; int32_t ret = -1; auth_dict = data; key_cpy = strdup (key); GF_VALIDATE_OR_GOTO("server", key_cpy, out); tmp = strtok_r (key_cpy, ".", &saveptr); ret = strcmp (tmp, "auth"); if (ret == 0) { tmp = strtok_r (NULL, ".", &saveptr); if (strcmp (tmp, "ip") == 0) { /* TODO: backward compatibility, remove when newer versions are available */ tmp = "addr"; gf_log ("server", GF_LOG_WARNING, "assuming 'auth.ip' to be 'auth.addr'"); } ret = dict_set_dynptr (auth_dict, tmp, NULL, 0); if (ret < 0) { gf_log ("server", GF_LOG_DEBUG, "failed to dict_set_dynptr"); } } FREE (key_cpy); out: return; } int validate_auth_options (xlator_t *this, dict_t *dict) { int ret = -1; int error = 0; xlator_list_t *trav = NULL; data_pair_t *pair = NULL; char *saveptr = NULL; char *tmp = NULL; char *key_cpy = NULL; trav = this->children; while (trav) { error = -1; for (pair = dict->members_list; pair; pair = pair->next) { key_cpy = strdup (pair->key); tmp = strtok_r (key_cpy, ".", &saveptr); ret = strcmp (tmp, "auth"); if (ret == 0) { /* for module type */ tmp = strtok_r (NULL, ".", &saveptr); /* for volume name */ tmp = strtok_r (NULL, ".", &saveptr); } if (strcmp (tmp, trav->xlator->name) == 0) { error = 0; free (key_cpy); break; } free (key_cpy); } if (-1 == error) { gf_log (this->name, GF_LOG_ERROR, "volume '%s' defined as subvolume, but no " "authentication defined for the same", trav->xlator->name); break; } trav = trav->next; } return error; } /* * init - called during server protocol initialization * * @this: * */ int init (xlator_t *this) { int32_t ret = -1; transport_t *trans = NULL; server_conf_t *conf = NULL; data_t *data = NULL; if (this->children == NULL) { gf_log (this->name, GF_LOG_ERROR, "protocol/server should have subvolume"); goto out; } trans = transport_load (this->options, this); if (trans == NULL) { gf_log (this->name, GF_LOG_ERROR, "failed to load transport"); goto out; } ret = transport_listen (trans); if (ret == -1) { gf_log (this->name, GF_LOG_ERROR, "failed to bind/listen on socket"); goto out; } conf = CALLOC (1, sizeof (server_conf_t)); GF_VALIDATE_OR_GOTO(this->name, conf, out); INIT_LIST_HEAD (&conf->conns); pthread_mutex_init (&conf->mutex, NULL); conf->trans = trans; conf->auth_modules = dict_new (); GF_VALIDATE_OR_GOTO(this->name, conf->auth_modules, out); dict_foreach (this->options, get_auth_types, conf->auth_modules); ret = validate_auth_options (this, this->options); if (ret == -1) { /* logging already done in validate_auth_options function. */ goto out; } ret = gf_auth_init (this, conf->auth_modules); if (ret) { dict_unref (conf->auth_modules); goto out; } this->private = conf; ret = dict_get_int32 (this->options, "inode-lru-limit", &conf->inode_lru_limit); if (ret < 0) { conf->inode_lru_limit = 1024; } ret = dict_get_int32 (this->options, "limits.transaction-size", &conf->max_block_size); if (ret < 0) { gf_log (this->name, GF_LOG_TRACE, "defaulting limits.transaction-size to %d", DEFAULT_BLOCK_SIZE); conf->max_block_size = DEFAULT_BLOCK_SIZE; } conf->verify_volfile_checksum = 1; data = dict_get (this->options, "verify-volfile-checksum"); if (data) { ret = gf_string2boolean(data->data, &conf->verify_volfile_checksum); if (ret != 0) { gf_log (this->name, GF_LOG_DEBUG, "wrong value for verify-volfile-checksum"); conf->verify_volfile_checksum = 1; } } #ifndef GF_DARWIN_HOST_OS { struct rlimit lim; lim.rlim_cur = 1048576; lim.rlim_max = 1048576; if (setrlimit (RLIMIT_NOFILE, &lim) == -1) { gf_log (this->name, GF_LOG_WARNING, "WARNING: Failed to set 'ulimit -n 1M': %s", strerror(errno)); lim.rlim_cur = 65536; lim.rlim_max = 65536; if (setrlimit (RLIMIT_NOFILE, &lim) == -1) { gf_log (this->name, GF_LOG_WARNING, "Failed to set max open fd to 64k: %s", strerror(errno)); } else { gf_log (this->name, GF_LOG_TRACE, "max open fd set to 64k"); } } } #endif this->ctx->top = this; ret = 0; out: return ret; } int protocol_server_pollin (xlator_t *this, transport_t *trans) { char *hdr = NULL; size_t hdrlen = 0; int ret = -1; struct iobuf *iobuf = NULL; ret = transport_receive (trans, &hdr, &hdrlen, &iobuf); if (ret == 0) ret = protocol_server_interpret (this, trans, hdr, hdrlen, iobuf); /* TODO: use mem-pool */ FREE (hdr); return ret; } /* * fini - finish function for server protocol, called before * unloading server protocol. * * @this: * */ void fini (xlator_t *this) { server_conf_t *conf = this->private; GF_VALIDATE_OR_GOTO(this->name, conf, out); if (conf->auth_modules) { dict_unref (conf->auth_modules); } FREE (conf); this->private = NULL; out: return; } /* * server_protocol_notify - notify function for server protocol * @this: * @trans: * @event: * */ int notify (xlator_t *this, int32_t event, void *data, ...) { int ret = 0; transport_t *trans = data; peer_info_t *peerinfo = NULL; peer_info_t *myinfo = NULL; if (trans != NULL) { peerinfo = &(trans->peerinfo); myinfo = &(trans->myinfo); } switch (event) { case GF_EVENT_POLLIN: ret = protocol_server_pollin (this, trans); break; case GF_EVENT_POLLERR: { gf_log (trans->xl->name, GF_LOG_INFO, "%s disconnected", peerinfo->identifier); ret = -1; transport_disconnect (trans); if (trans->xl_private == NULL) { gf_log (this->name, GF_LOG_DEBUG, "POLLERR received on (%s) even before " "handshake with (%s) is successful", myinfo->identifier, peerinfo->identifier); } else { /* * FIXME: shouldn't we check for return value? * what should be done if cleanup fails? */ server_connection_cleanup (this, trans->xl_private); } } break; case GF_EVENT_TRANSPORT_CLEANUP: { if (trans->xl_private) { server_connection_put (this, trans->xl_private); } else { gf_log (this->name, GF_LOG_DEBUG, "transport (%s) cleaned up even before " "handshake with (%s) is successful", myinfo->identifier, peerinfo->identifier); } } break; default: default_notify (this, event, data); break; } return ret; } struct xlator_mops mops = { }; struct xlator_fops fops = { }; struct xlator_cbks cbks = { }; struct volume_options options[] = { { .key = {"transport-type"}, .value = {"tcp", "socket", "ib-verbs", "unix", "ib-sdp", "tcp/server", "ib-verbs/server"}, .type = GF_OPTION_TYPE_STR }, { .key = {"volume-filename.*"}, .type = GF_OPTION_TYPE_PATH, }, { .key = {"inode-lru-limit"}, .type = GF_OPTION_TYPE_INT, .min = 0, .max = (1 * GF_UNIT_MB) }, { .key = {"client-volume-filename"}, .type = GF_OPTION_TYPE_PATH }, { .key = {"verify-volfile-checksum"}, .type = GF_OPTION_TYPE_BOOL }, { .key = {NULL} }, };