/* Unix SMB/Netbios implementation. Version 3.0 async_io read handling using POSIX async io. Copyright (C) Jeremy Allison 2005. This program 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. This program 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 . */ #include "includes.h" #include "smbd/smbd.h" #include "smbd/globals.h" #include "../lib/util/tevent_ntstatus.h" #include "../lib/util/tevent_unix.h" #include "lib/tevent_wait.h" /**************************************************************************** The buffer we keep around whilst an aio request is in process. *****************************************************************************/ struct aio_extra { files_struct *fsp; struct smb_request *smbreq; DATA_BLOB outbuf; struct lock_struct lock; size_t nbyte; off_t offset; bool write_through; }; /**************************************************************************** Accessor function to return write_through state. *****************************************************************************/ bool aio_write_through_requested(struct aio_extra *aio_ex) { return aio_ex->write_through; } /**************************************************************************** Create the extended aio struct we must keep around for the lifetime of the aio call. *****************************************************************************/ static struct aio_extra *create_aio_extra(TALLOC_CTX *mem_ctx, files_struct *fsp, size_t buflen) { struct aio_extra *aio_ex = talloc_zero(mem_ctx, struct aio_extra); if (!aio_ex) { return NULL; } /* The output buffer stored in the aio_ex is the start of the smb return buffer. The buffer used in the acb is the start of the reply data portion of that buffer. */ if (buflen) { aio_ex->outbuf = data_blob_talloc(aio_ex, NULL, buflen); if (!aio_ex->outbuf.data) { TALLOC_FREE(aio_ex); return NULL; } } aio_ex->fsp = fsp; return aio_ex; } struct aio_req_fsp_link { files_struct *fsp; struct tevent_req *req; }; static int aio_del_req_from_fsp(struct aio_req_fsp_link *lnk) { unsigned i; files_struct *fsp = lnk->fsp; struct tevent_req *req = lnk->req; for (i=0; inum_aio_requests; i++) { if (fsp->aio_requests[i] == req) { break; } } if (i == fsp->num_aio_requests) { DEBUG(1, ("req %p not found in fsp %p\n", req, fsp)); return 0; } fsp->num_aio_requests -= 1; fsp->aio_requests[i] = fsp->aio_requests[fsp->num_aio_requests]; if (fsp->num_aio_requests == 0) { tevent_wait_done(fsp->deferred_close); } return 0; } bool aio_add_req_to_fsp(files_struct *fsp, struct tevent_req *req) { size_t array_len; struct aio_req_fsp_link *lnk; lnk = talloc(req, struct aio_req_fsp_link); if (lnk == NULL) { return false; } array_len = talloc_array_length(fsp->aio_requests); if (array_len <= fsp->num_aio_requests) { struct tevent_req **tmp; tmp = talloc_realloc( fsp, fsp->aio_requests, struct tevent_req *, fsp->num_aio_requests+1); if (tmp == NULL) { TALLOC_FREE(lnk); return false; } fsp->aio_requests = tmp; } fsp->aio_requests[fsp->num_aio_requests] = req; fsp->num_aio_requests += 1; lnk->fsp = fsp; lnk->req = req; talloc_set_destructor(lnk, aio_del_req_from_fsp); return true; } static void aio_pread_smb1_done(struct tevent_req *req); /**************************************************************************** Set up an aio request from a SMBreadX call. *****************************************************************************/ NTSTATUS schedule_aio_read_and_X(connection_struct *conn, struct smb_request *smbreq, files_struct *fsp, off_t startpos, size_t smb_maxcnt) { struct aio_extra *aio_ex; size_t bufsize; size_t min_aio_read_size = lp_aio_read_size(SNUM(conn)); struct tevent_req *req; if (fsp->base_fsp != NULL) { /* No AIO on streams yet */ DEBUG(10, ("AIO on streams not yet supported\n")); return NT_STATUS_RETRY; } if ((!min_aio_read_size || (smb_maxcnt < min_aio_read_size)) && !SMB_VFS_AIO_FORCE(fsp)) { /* Too small a read for aio request. */ DEBUG(10,("schedule_aio_read_and_X: read size (%u) too small " "for minimum aio_read of %u\n", (unsigned int)smb_maxcnt, (unsigned int)min_aio_read_size )); return NT_STATUS_RETRY; } /* Only do this on non-chained and non-chaining reads */ if (req_is_in_chain(smbreq)) { return NT_STATUS_RETRY; } /* The following is safe from integer wrap as we've already checked smb_maxcnt is 128k or less. Wct is 12 for read replies */ bufsize = smb_size + 12 * 2 + smb_maxcnt + 1 /* padding byte */; if ((aio_ex = create_aio_extra(NULL, fsp, bufsize)) == NULL) { DEBUG(10,("schedule_aio_read_and_X: malloc fail.\n")); return NT_STATUS_NO_MEMORY; } construct_reply_common_req(smbreq, (char *)aio_ex->outbuf.data); srv_set_message((char *)aio_ex->outbuf.data, 12, 0, True); SCVAL(aio_ex->outbuf.data,smb_vwv0,0xFF); /* Never a chained reply. */ SCVAL(smb_buf(aio_ex->outbuf.data), 0, 0); /* padding byte */ init_strict_lock_struct(fsp, (uint64_t)smbreq->smbpid, (uint64_t)startpos, (uint64_t)smb_maxcnt, READ_LOCK, &aio_ex->lock); /* Take the lock until the AIO completes. */ if (!SMB_VFS_STRICT_LOCK_CHECK(conn, fsp, &aio_ex->lock)) { TALLOC_FREE(aio_ex); return NT_STATUS_FILE_LOCK_CONFLICT; } aio_ex->nbyte = smb_maxcnt; aio_ex->offset = startpos; req = SMB_VFS_PREAD_SEND(aio_ex, fsp->conn->sconn->ev_ctx, fsp, smb_buf(aio_ex->outbuf.data) + 1 /* pad */, smb_maxcnt, startpos); if (req == NULL) { DEBUG(0,("schedule_aio_read_and_X: aio_read failed. " "Error %s\n", strerror(errno) )); TALLOC_FREE(aio_ex); return NT_STATUS_RETRY; } tevent_req_set_callback(req, aio_pread_smb1_done, aio_ex); if (!aio_add_req_to_fsp(fsp, req)) { DEBUG(1, ("Could not add req to fsp\n")); TALLOC_FREE(aio_ex); return NT_STATUS_RETRY; } aio_ex->smbreq = talloc_move(aio_ex, &smbreq); DEBUG(10,("schedule_aio_read_and_X: scheduled aio_read for file %s, " "offset %.0f, len = %u (mid = %u)\n", fsp_str_dbg(fsp), (double)startpos, (unsigned int)smb_maxcnt, (unsigned int)aio_ex->smbreq->mid )); return NT_STATUS_OK; } static void aio_pread_smb1_done(struct tevent_req *req) { struct aio_extra *aio_ex = tevent_req_callback_data( req, struct aio_extra); files_struct *fsp = aio_ex->fsp; size_t outsize; char *outbuf = (char *)aio_ex->outbuf.data; ssize_t nread; struct vfs_aio_state vfs_aio_state; nread = SMB_VFS_PREAD_RECV(req, &vfs_aio_state); TALLOC_FREE(req); DEBUG(10, ("pread_recv returned %d, err = %s\n", (int)nread, (nread == -1) ? strerror(vfs_aio_state.error) : "no error")); if (fsp == NULL) { DEBUG( 3, ("aio_pread_smb1_done: file closed whilst " "aio outstanding (mid[%llu]).\n", (unsigned long long)aio_ex->smbreq->mid)); TALLOC_FREE(aio_ex); return; } if (nread < 0) { DEBUG( 3, ("handle_aio_read_complete: file %s nread == %d. " "Error = %s\n", fsp_str_dbg(fsp), (int)nread, strerror(vfs_aio_state.error))); ERROR_NT(map_nt_error_from_unix(vfs_aio_state.error)); outsize = srv_set_message(outbuf,0,0,true); } else { outsize = setup_readX_header(outbuf, nread); aio_ex->fsp->fh->pos = aio_ex->offset + nread; aio_ex->fsp->fh->position_information = aio_ex->fsp->fh->pos; DEBUG( 3, ("handle_aio_read_complete file %s max=%d " "nread=%d\n", fsp_str_dbg(fsp), (int)aio_ex->nbyte, (int)nread ) ); } if (outsize <= 4) { DBG_INFO("Invalid outsize (%zu)\n", outsize); TALLOC_FREE(aio_ex); return; } outsize -= 4; _smb_setlen_large(outbuf, outsize); show_msg(outbuf); if (!srv_send_smb(aio_ex->smbreq->xconn, outbuf, true, aio_ex->smbreq->seqnum+1, IS_CONN_ENCRYPTED(fsp->conn), NULL)) { exit_server_cleanly("handle_aio_read_complete: srv_send_smb " "failed."); } DEBUG(10, ("handle_aio_read_complete: scheduled aio_read completed " "for file %s, offset %.0f, len = %u\n", fsp_str_dbg(fsp), (double)aio_ex->offset, (unsigned int)nread)); TALLOC_FREE(aio_ex); } struct pwrite_fsync_state { struct tevent_context *ev; files_struct *fsp; bool write_through; ssize_t nwritten; }; static void pwrite_fsync_write_done(struct tevent_req *subreq); static void pwrite_fsync_sync_done(struct tevent_req *subreq); static struct tevent_req *pwrite_fsync_send(TALLOC_CTX *mem_ctx, struct tevent_context *ev, struct files_struct *fsp, const void *data, size_t n, off_t offset, bool write_through) { struct tevent_req *req, *subreq; struct pwrite_fsync_state *state; req = tevent_req_create(mem_ctx, &state, struct pwrite_fsync_state); if (req == NULL) { return NULL; } state->ev = ev; state->fsp = fsp; state->write_through = write_through; subreq = SMB_VFS_PWRITE_SEND(state, ev, fsp, data, n, offset); if (tevent_req_nomem(subreq, req)) { return tevent_req_post(req, ev); } tevent_req_set_callback(subreq, pwrite_fsync_write_done, req); return req; } static void pwrite_fsync_write_done(struct tevent_req *subreq) { struct tevent_req *req = tevent_req_callback_data( subreq, struct tevent_req); struct pwrite_fsync_state *state = tevent_req_data( req, struct pwrite_fsync_state); connection_struct *conn = state->fsp->conn; bool do_sync; struct vfs_aio_state vfs_aio_state; state->nwritten = SMB_VFS_PWRITE_RECV(subreq, &vfs_aio_state); TALLOC_FREE(subreq); if (state->nwritten == -1) { tevent_req_error(req, vfs_aio_state.error); return; } do_sync = (lp_strict_sync(SNUM(conn)) && (lp_sync_always(SNUM(conn)) || state->write_through)); if (!do_sync) { tevent_req_done(req); return; } subreq = SMB_VFS_FSYNC_SEND(state, state->ev, state->fsp); if (tevent_req_nomem(subreq, req)) { return; } tevent_req_set_callback(subreq, pwrite_fsync_sync_done, req); } static void pwrite_fsync_sync_done(struct tevent_req *subreq) { struct tevent_req *req = tevent_req_callback_data( subreq, struct tevent_req); int ret; struct vfs_aio_state vfs_aio_state; ret = SMB_VFS_FSYNC_RECV(subreq, &vfs_aio_state); TALLOC_FREE(subreq); if (ret == -1) { tevent_req_error(req, vfs_aio_state.error); return; } tevent_req_done(req); } static ssize_t pwrite_fsync_recv(struct tevent_req *req, int *perr) { struct pwrite_fsync_state *state = tevent_req_data( req, struct pwrite_fsync_state); if (tevent_req_is_unix_error(req, perr)) { return -1; } return state->nwritten; } static void aio_pwrite_smb1_done(struct tevent_req *req); /**************************************************************************** Set up an aio request from a SMBwriteX call. *****************************************************************************/ NTSTATUS schedule_aio_write_and_X(connection_struct *conn, struct smb_request *smbreq, files_struct *fsp, const char *data, off_t startpos, size_t numtowrite) { struct aio_extra *aio_ex; size_t bufsize; size_t min_aio_write_size = lp_aio_write_size(SNUM(conn)); struct tevent_req *req; if (fsp->base_fsp != NULL) { /* No AIO on streams yet */ DEBUG(10, ("AIO on streams not yet supported\n")); return NT_STATUS_RETRY; } if ((!min_aio_write_size || (numtowrite < min_aio_write_size)) && !SMB_VFS_AIO_FORCE(fsp)) { /* Too small a write for aio request. */ DEBUG(10,("schedule_aio_write_and_X: write size (%u) too " "small for minimum aio_write of %u\n", (unsigned int)numtowrite, (unsigned int)min_aio_write_size )); return NT_STATUS_RETRY; } /* Only do this on non-chained and non-chaining writes */ if (req_is_in_chain(smbreq)) { return NT_STATUS_RETRY; } bufsize = smb_size + 6*2; if (!(aio_ex = create_aio_extra(NULL, fsp, bufsize))) { DEBUG(0,("schedule_aio_write_and_X: malloc fail.\n")); return NT_STATUS_NO_MEMORY; } aio_ex->write_through = BITSETW(smbreq->vwv+7,0); construct_reply_common_req(smbreq, (char *)aio_ex->outbuf.data); srv_set_message((char *)aio_ex->outbuf.data, 6, 0, True); SCVAL(aio_ex->outbuf.data,smb_vwv0,0xFF); /* Never a chained reply. */ init_strict_lock_struct(fsp, (uint64_t)smbreq->smbpid, (uint64_t)startpos, (uint64_t)numtowrite, WRITE_LOCK, &aio_ex->lock); /* Take the lock until the AIO completes. */ if (!SMB_VFS_STRICT_LOCK_CHECK(conn, fsp, &aio_ex->lock)) { TALLOC_FREE(aio_ex); return NT_STATUS_FILE_LOCK_CONFLICT; } aio_ex->nbyte = numtowrite; aio_ex->offset = startpos; req = pwrite_fsync_send(aio_ex, fsp->conn->sconn->ev_ctx, fsp, data, numtowrite, startpos, aio_ex->write_through); if (req == NULL) { DEBUG(3,("schedule_aio_wrote_and_X: aio_write failed. " "Error %s\n", strerror(errno) )); TALLOC_FREE(aio_ex); return NT_STATUS_RETRY; } tevent_req_set_callback(req, aio_pwrite_smb1_done, aio_ex); if (!aio_add_req_to_fsp(fsp, req)) { DEBUG(1, ("Could not add req to fsp\n")); TALLOC_FREE(aio_ex); return NT_STATUS_RETRY; } aio_ex->smbreq = talloc_move(aio_ex, &smbreq); /* This should actually be improved to span the write. */ contend_level2_oplocks_begin(fsp, LEVEL2_CONTEND_WRITE); contend_level2_oplocks_end(fsp, LEVEL2_CONTEND_WRITE); if (!aio_ex->write_through && !lp_sync_always(SNUM(fsp->conn)) && fsp->aio_write_behind) { /* Lie to the client and immediately claim we finished the * write. */ SSVAL(aio_ex->outbuf.data,smb_vwv2,numtowrite); SSVAL(aio_ex->outbuf.data,smb_vwv4,(numtowrite>>16)&1); show_msg((char *)aio_ex->outbuf.data); if (!srv_send_smb(aio_ex->smbreq->xconn, (char *)aio_ex->outbuf.data, true, aio_ex->smbreq->seqnum+1, IS_CONN_ENCRYPTED(fsp->conn), &aio_ex->smbreq->pcd)) { exit_server_cleanly("schedule_aio_write_and_X: " "srv_send_smb failed."); } DEBUG(10,("schedule_aio_write_and_X: scheduled aio_write " "behind for file %s\n", fsp_str_dbg(fsp))); } DEBUG(10,("schedule_aio_write_and_X: scheduled aio_write for file " "%s, offset %.0f, len = %u (mid = %u)\n", fsp_str_dbg(fsp), (double)startpos, (unsigned int)numtowrite, (unsigned int)aio_ex->smbreq->mid)); return NT_STATUS_OK; } static void aio_pwrite_smb1_done(struct tevent_req *req) { struct aio_extra *aio_ex = tevent_req_callback_data( req, struct aio_extra); files_struct *fsp = aio_ex->fsp; char *outbuf = (char *)aio_ex->outbuf.data; ssize_t numtowrite = aio_ex->nbyte; ssize_t nwritten; int err; nwritten = pwrite_fsync_recv(req, &err); TALLOC_FREE(req); DEBUG(10, ("pwrite_recv returned %d, err = %s\n", (int)nwritten, (nwritten == -1) ? strerror(err) : "no error")); if (fsp == NULL) { DEBUG( 3, ("aio_pwrite_smb1_done: file closed whilst " "aio outstanding (mid[%llu]).\n", (unsigned long long)aio_ex->smbreq->mid)); TALLOC_FREE(aio_ex); return; } mark_file_modified(fsp); if (fsp->aio_write_behind) { if (nwritten != numtowrite) { if (nwritten == -1) { DEBUG(5,("handle_aio_write_complete: " "aio_write_behind failed ! File %s " "is corrupt ! Error %s\n", fsp_str_dbg(fsp), strerror(err))); } else { DEBUG(0,("handle_aio_write_complete: " "aio_write_behind failed ! File %s " "is corrupt ! Wanted %u bytes but " "only wrote %d\n", fsp_str_dbg(fsp), (unsigned int)numtowrite, (int)nwritten )); } } else { DEBUG(10,("handle_aio_write_complete: " "aio_write_behind completed for file %s\n", fsp_str_dbg(fsp))); } /* TODO: should no return success in case of an error !!! */ TALLOC_FREE(aio_ex); return; } /* We don't need outsize or set_message here as we've already set the fixed size length when we set up the aio call. */ if (nwritten == -1) { DEBUG(3, ("handle_aio_write: file %s wanted %u bytes. " "nwritten == %d. Error = %s\n", fsp_str_dbg(fsp), (unsigned int)numtowrite, (int)nwritten, strerror(err))); ERROR_NT(map_nt_error_from_unix(err)); srv_set_message(outbuf,0,0,true); } else { SSVAL(outbuf,smb_vwv2,nwritten); SSVAL(outbuf,smb_vwv4,(nwritten>>16)&1); if (nwritten < (ssize_t)numtowrite) { SCVAL(outbuf,smb_rcls,ERRHRD); SSVAL(outbuf,smb_err,ERRdiskfull); } DEBUG(3,("handle_aio_write: %s, num=%d wrote=%d\n", fsp_fnum_dbg(fsp), (int)numtowrite, (int)nwritten)); aio_ex->fsp->fh->pos = aio_ex->offset + nwritten; } show_msg(outbuf); if (!srv_send_smb(aio_ex->smbreq->xconn, outbuf, true, aio_ex->smbreq->seqnum+1, IS_CONN_ENCRYPTED(fsp->conn), NULL)) { exit_server_cleanly("handle_aio_write_complete: " "srv_send_smb failed."); } DEBUG(10, ("handle_aio_write_complete: scheduled aio_write completed " "for file %s, offset %.0f, requested %u, written = %u\n", fsp_str_dbg(fsp), (double)aio_ex->offset, (unsigned int)numtowrite, (unsigned int)nwritten)); TALLOC_FREE(aio_ex); } bool cancel_smb2_aio(struct smb_request *smbreq) { struct smbd_smb2_request *smb2req = smbreq->smb2req; struct aio_extra *aio_ex = NULL; if (smb2req) { aio_ex = talloc_get_type(smbreq->async_priv, struct aio_extra); } if (aio_ex == NULL) { return false; } if (aio_ex->fsp == NULL) { return false; } /* * We let the aio request run and don't try to cancel it which means * processing of the SMB2 request must continue as normal, cf MS-SMB2 * 3.3.5.16: * * If the target request is not successfully canceled, processing of * the target request MUST continue and no response is sent to the * cancel request. */ return false; } static void aio_pread_smb2_done(struct tevent_req *req); /**************************************************************************** Set up an aio request from a SMB2 read call. *****************************************************************************/ NTSTATUS schedule_smb2_aio_read(connection_struct *conn, struct smb_request *smbreq, files_struct *fsp, TALLOC_CTX *ctx, DATA_BLOB *preadbuf, off_t startpos, size_t smb_maxcnt) { struct aio_extra *aio_ex; size_t min_aio_read_size = lp_aio_read_size(SNUM(conn)); struct tevent_req *req; if (fsp->base_fsp != NULL) { /* No AIO on streams yet */ DEBUG(10, ("AIO on streams not yet supported\n")); return NT_STATUS_RETRY; } if (fsp->op == NULL) { /* No AIO on internal opens. */ return NT_STATUS_RETRY; } if ((!min_aio_read_size || (smb_maxcnt < min_aio_read_size)) && !SMB_VFS_AIO_FORCE(fsp)) { /* Too small a read for aio request. */ DEBUG(10,("smb2: read size (%u) too small " "for minimum aio_read of %u\n", (unsigned int)smb_maxcnt, (unsigned int)min_aio_read_size )); return NT_STATUS_RETRY; } if (smbd_smb2_is_compound(smbreq->smb2req)) { return NT_STATUS_RETRY; } /* Create the out buffer. */ *preadbuf = data_blob_talloc(ctx, NULL, smb_maxcnt); if (preadbuf->data == NULL) { return NT_STATUS_NO_MEMORY; } if (!(aio_ex = create_aio_extra(smbreq->smb2req, fsp, 0))) { return NT_STATUS_NO_MEMORY; } init_strict_lock_struct(fsp, fsp->op->global->open_persistent_id, (uint64_t)startpos, (uint64_t)smb_maxcnt, READ_LOCK, &aio_ex->lock); /* Take the lock until the AIO completes. */ if (!SMB_VFS_STRICT_LOCK_CHECK(conn, fsp, &aio_ex->lock)) { TALLOC_FREE(aio_ex); return NT_STATUS_FILE_LOCK_CONFLICT; } aio_ex->nbyte = smb_maxcnt; aio_ex->offset = startpos; req = SMB_VFS_PREAD_SEND(aio_ex, fsp->conn->sconn->ev_ctx, fsp, preadbuf->data, smb_maxcnt, startpos); if (req == NULL) { DEBUG(0, ("smb2: SMB_VFS_PREAD_SEND failed. " "Error %s\n", strerror(errno))); TALLOC_FREE(aio_ex); return NT_STATUS_RETRY; } tevent_req_set_callback(req, aio_pread_smb2_done, aio_ex); if (!aio_add_req_to_fsp(fsp, req)) { DEBUG(1, ("Could not add req to fsp\n")); TALLOC_FREE(aio_ex); return NT_STATUS_RETRY; } /* We don't need talloc_move here as both aio_ex and * smbreq are children of smbreq->smb2req. */ aio_ex->smbreq = smbreq; smbreq->async_priv = aio_ex; DEBUG(10,("smb2: scheduled aio_read for file %s, " "offset %.0f, len = %u (mid = %u)\n", fsp_str_dbg(fsp), (double)startpos, (unsigned int)smb_maxcnt, (unsigned int)aio_ex->smbreq->mid )); return NT_STATUS_OK; } static void aio_pread_smb2_done(struct tevent_req *req) { struct aio_extra *aio_ex = tevent_req_callback_data( req, struct aio_extra); struct tevent_req *subreq = aio_ex->smbreq->smb2req->subreq; files_struct *fsp = aio_ex->fsp; NTSTATUS status; ssize_t nread; struct vfs_aio_state vfs_aio_state = { 0 }; nread = SMB_VFS_PREAD_RECV(req, &vfs_aio_state); TALLOC_FREE(req); DEBUG(10, ("pread_recv returned %d, err = %s\n", (int)nread, (nread == -1) ? strerror(vfs_aio_state.error) : "no error")); /* Common error or success code processing for async or sync read returns. */ status = smb2_read_complete(subreq, nread, vfs_aio_state.error); if (nread > 0) { fsp->fh->pos = aio_ex->offset + nread; fsp->fh->position_information = fsp->fh->pos; } DEBUG(10, ("smb2: scheduled aio_read completed " "for file %s, offset %.0f, len = %u " "(errcode = %d, NTSTATUS = %s)\n", fsp_str_dbg(aio_ex->fsp), (double)aio_ex->offset, (unsigned int)nread, vfs_aio_state.error, nt_errstr(status))); if (!NT_STATUS_IS_OK(status)) { tevent_req_nterror(subreq, status); return; } tevent_req_done(subreq); } static void aio_pwrite_smb2_done(struct tevent_req *req); /**************************************************************************** Set up an aio request from a SMB2write call. *****************************************************************************/ NTSTATUS schedule_aio_smb2_write(connection_struct *conn, struct smb_request *smbreq, files_struct *fsp, uint64_t in_offset, DATA_BLOB in_data, bool write_through) { struct aio_extra *aio_ex = NULL; size_t min_aio_write_size = lp_aio_write_size(SNUM(conn)); struct tevent_req *req; if (fsp->base_fsp != NULL) { /* No AIO on streams yet */ DEBUG(10, ("AIO on streams not yet supported\n")); return NT_STATUS_RETRY; } if (fsp->op == NULL) { /* No AIO on internal opens. */ return NT_STATUS_RETRY; } if ((!min_aio_write_size || (in_data.length < min_aio_write_size)) && !SMB_VFS_AIO_FORCE(fsp)) { /* Too small a write for aio request. */ DEBUG(10,("smb2: write size (%u) too " "small for minimum aio_write of %u\n", (unsigned int)in_data.length, (unsigned int)min_aio_write_size )); return NT_STATUS_RETRY; } if (smbd_smb2_is_compound(smbreq->smb2req)) { return NT_STATUS_RETRY; } if (smbreq->unread_bytes) { /* Can't do async with recvfile. */ return NT_STATUS_RETRY; } if (!(aio_ex = create_aio_extra(smbreq->smb2req, fsp, 0))) { return NT_STATUS_NO_MEMORY; } aio_ex->write_through = write_through; init_strict_lock_struct(fsp, fsp->op->global->open_persistent_id, in_offset, (uint64_t)in_data.length, WRITE_LOCK, &aio_ex->lock); /* Take the lock until the AIO completes. */ if (!SMB_VFS_STRICT_LOCK_CHECK(conn, fsp, &aio_ex->lock)) { TALLOC_FREE(aio_ex); return NT_STATUS_FILE_LOCK_CONFLICT; } aio_ex->nbyte = in_data.length; aio_ex->offset = in_offset; req = pwrite_fsync_send(aio_ex, fsp->conn->sconn->ev_ctx, fsp, in_data.data, in_data.length, in_offset, write_through); if (req == NULL) { DEBUG(3, ("smb2: SMB_VFS_PWRITE_SEND failed. " "Error %s\n", strerror(errno))); TALLOC_FREE(aio_ex); return NT_STATUS_RETRY; } tevent_req_set_callback(req, aio_pwrite_smb2_done, aio_ex); if (!aio_add_req_to_fsp(fsp, req)) { DEBUG(1, ("Could not add req to fsp\n")); TALLOC_FREE(aio_ex); return NT_STATUS_RETRY; } /* We don't need talloc_move here as both aio_ex and * smbreq are children of smbreq->smb2req. */ aio_ex->smbreq = smbreq; smbreq->async_priv = aio_ex; /* This should actually be improved to span the write. */ contend_level2_oplocks_begin(fsp, LEVEL2_CONTEND_WRITE); contend_level2_oplocks_end(fsp, LEVEL2_CONTEND_WRITE); /* * We don't want to do write behind due to ownership * issues of the request structs. Maybe add it if I * figure those out. JRA. */ DEBUG(10,("smb2: scheduled aio_write for file " "%s, offset %.0f, len = %u (mid = %u)\n", fsp_str_dbg(fsp), (double)in_offset, (unsigned int)in_data.length, (unsigned int)aio_ex->smbreq->mid)); return NT_STATUS_OK; } static void aio_pwrite_smb2_done(struct tevent_req *req) { struct aio_extra *aio_ex = tevent_req_callback_data( req, struct aio_extra); ssize_t numtowrite = aio_ex->nbyte; struct tevent_req *subreq = aio_ex->smbreq->smb2req->subreq; files_struct *fsp = aio_ex->fsp; NTSTATUS status; ssize_t nwritten; int err = 0; nwritten = pwrite_fsync_recv(req, &err); TALLOC_FREE(req); DEBUG(10, ("pwrite_recv returned %d, err = %s\n", (int)nwritten, (nwritten == -1) ? strerror(err) : "no error")); mark_file_modified(fsp); status = smb2_write_complete_nosync(subreq, nwritten, err); DEBUG(10, ("smb2: scheduled aio_write completed " "for file %s, offset %.0f, requested %u, " "written = %u (errcode = %d, NTSTATUS = %s)\n", fsp_str_dbg(fsp), (double)aio_ex->offset, (unsigned int)numtowrite, (unsigned int)nwritten, err, nt_errstr(status))); if (!NT_STATUS_IS_OK(status)) { tevent_req_nterror(subreq, status); return; } tevent_req_done(subreq); }