xref: /freebsd/usr.sbin/nfsd/pnfs.4 (revision a0409676120c1e558d0ade943019934e0f15118d)
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24.\" $FreeBSD$
25.\"
26.Dd December 20, 2019
27.Dt PNFS 4
28.Os
29.Sh NAME
30.Nm pNFS
31.Nd NFS Version 4.1 and 4.2 Parallel NFS Protocol
32.Sh DESCRIPTION
33The NFSv4.1 and NFSv4.2 client and server provides support for the
34.Tn pNFS
35specification; see
36.%T "Network File System (NFS) Version 4 Minor Version 1 Protocol RFC 5661" ,
37.%T "Network File System (NFS) Version 4 Minor Version 2 Protocol RFC 7862" and
38.%T "Parallel NFS (pNFS) Flexible File Layout RFC 8435" .
39A pNFS service separates Read/Write operations from all other NFSv4.1 and
40NFSv4.2 operations, which are referred to as Metadata operations.
41The Read/Write operations are performed directly on the Data Server (DS)
42where the file's data resides, bypassing the NFS server.
43All other file operations are performed on the NFS server, which is referred to
44as a Metadata Server (MDS).
45NFS clients that do not support
46.Tn pNFS
47perform Read/Write operations on the MDS, which acts as a proxy for the
48appropriate DS(s).
49.Pp
50The NFSv4.1 and NFSv4.2 protocols provide two pieces of information to pNFS
51aware clients that allow them to perform Read/Write operations directly on
52the DS.
53.Pp
54The first is DeviceInfo, which is static information defining the DS
55server.
56The critical piece of information in DeviceInfo for the layout types
57supported by FreeBSD is the IP address that is used to perform RPCs on the DS.
58It also indicates which version of NFS the DS supports, I/O size and other
59layout specific information.
60In the DeviceInfo, there is a DeviceID which, for the FreeBSD server
61is unique to the DS configuration
62and changes whenever the
63.Xr nfsd
64daemon is restarted or the server is rebooted.
65.Pp
66The second is the layout, which is per file and references the DeviceInfo
67to use via the DeviceID.
68It is for a byte range of a file and is either Read or Read/Write.
69For the FreeBSD server, a layout covers all bytes of a file.
70A layout may be recalled by the MDS using a LayoutRecall callback.
71When a client returns a layout via the LayoutReturn operation it can
72indicate that error(s) were encountered while doing I/O on the DS,
73at least for certain layout types such as the Flexible File Layout.
74.Pp
75The FreeBSD client and server supports two layout types.
76.Pp
77The File Layout is described in RFC5661 and uses the NFSv4.1 or NFSv4.2 protocol
78to perform I/O on the DS.
79It does not support client aware DS mirroring and, as such,
80the FreeBSD server only provides File Layout support for non-mirrored
81configurations.
82.Pp
83The Flexible File Layout allows the use of the NFSv3, NFSv4.0, NFSv4.1 or
84NFSv4.2 protocol to perform I/O on the DS and does support client aware
85mirroring.
86As such, the FreeBSD server uses Flexible File Layout layouts for the
87mirrored DS configurations.
88The FreeBSD server supports the
89.Dq tightly coupled
90variant and all DSs allow use of the
91NFSv4.2 or NFSv4.1 protocol for I/O operations.
92Clients that support the Flexible File Layout will do writes and commits
93to all DS mirrors in the mirror set.
94.Pp
95A FreeBSD pNFS service consists of a single MDS server plus one or more
96DS servers, all of which are FreeBSD systems.
97For a non-mirrored configuration, the FreeBSD server will issue File Layout
98layouts by default.
99However that default can be set to the Flexible File Layout by setting the
100.Xr sysctl 1
101sysctl
102.Dq vfs.nfsd.default_flexfile
103to one.
104Mirrored server configurations will only issue Flexible File Layouts.
105.Tn pNFS
106clients mount the MDS as they would a single NFS server.
107.Pp
108A FreeBSD
109.Tn pNFS
110client must be running the
111.Xr nfscbd 8
112daemon and use the mount options
113.Dq nfsv4,minorversion=2,pnfs or
114.Dq nfsv4,minorversion=1,pnfs .
115.Pp
116When files are created, the MDS creates a file tree identical to what a
117single NFS server creates, except that all the regular (VREG) files will
118be empty.
119As such, if you look at the exported tree on the MDS directly
120on the MDS server (not via an NFS mount), the files will all be of size zero.
121Each of these files will also have two extended attributes in the system
122attribute name space:
123.Bd -literal -offset indent
124pnfsd.dsfile - This extended attrbute stores the information that the
125    MDS needs to find the data file on a DS(s) for this file.
126pnfsd.dsattr - This extended attribute stores the Size, AccessTime,
127    ModifyTime, Change and SpaceUsed attributes for the file.
128.Ed
129.Pp
130For each regular (VREG) file, the MDS creates a data file on one
131(or on N of them for the mirrored case, where N is the mirror_level)
132of the DS(s) where the file's data will be stored.
133The name of this file is
134the file handle of the file on the MDS in hexadecimal at time of file creation.
135The data file will have the same file ownership, mode and NFSv4 ACL
136(if ACLs are enabled for the file system) as the file on the MDS, so that
137permission checking can be done on the DS.
138This is referred to as
139.Dq tightly coupled
140for the Flexible File Layout.
141.Pp
142For
143.Tn pNFS
144aware clients, the service generates File Layout
145or Flexible File Layout
146layouts and associated DeviceInfo.
147For non-pNFS aware NFS clients, the pNFS service appears just like a normal
148NFS service.
149For the non-pNFS aware client, the MDS will perform I/O operations on the
150appropriate DS(s), acting as
151a proxy for the non-pNFS aware client.
152This is also true for NFSv3 and NFSv4.0 mounts, since these are always non-pNFS
153aware.
154.Pp
155It is possible to assign a DS to an MDS exported file system so that it will
156store data for files on the MDS exported file system.
157If a DS is not assigned to an MDS exported file system, it will store data
158for files on all exported file systems on the MDS.
159.Pp
160If mirroring is enabled, the pNFS service will continue to function when
161DS(s) have failed, so long is there is at least one DS still operational
162that stores data for files on all of the MDS exported file systems.
163After a disabled mirrored DS is repaired, it is possible to recover the DS
164as a mirror while the pNFS service continues to function.
165.Pp
166See
167.Xr pnfsserver 4
168for information on how to set up a FreeBSD pNFS service.
169.Sh SEE ALSO
170.Xr nfsv4 4 ,
171.Xr pnfsserver 4 ,
172.Xr exports 5 ,
173.Xr fstab 5 ,
174.Xr rc.conf 5 ,
175.Xr nfscbd 8 ,
176.Xr nfsd 8 ,
177.Xr nfsuserd 8 ,
178.Xr pnfsdscopymr 8 ,
179.Xr pnfsdsfile 8 ,
180.Xr pnfsdskill 8
181.Sh BUGS
182Linux kernel versions prior to 4.12 only supports NFSv3 DSs in its client
183and will do all I/O through the MDS.
184For Linux 4.12 kernels, support for NFSv4.1 DSs was added, but I have seen
185Linux client crashes when testing this client.
186For Linux 4.17-rc2 kernels, I have not seen client crashes during testing,
187but it only supports the
188.Dq loosely coupled
189variant.
190To make it work correctly when mounting the FreeBSD server, you must
191set the sysctl
192.Dq vfs.nfsd.flexlinuxhack
193to one so that it works around
194the Linux client driver's limitations.
195Wihout this sysctl being set, there will be access errors, since the Linux
196client will use the authenticator in the layout (uid=999, gid=999) and not
197the authenticator specified in the RPC header.
198.Pp
199Linux 5.n kernels appear to be patched so that it uses the authenticator
200in the RPC header and, as such, the above sysctl should not need to be set.
201.Pp
202Since the MDS cannot be mirrored, it is a single point of failure just
203as a non
204.Tn pNFS
205server is.
206