--- Read this first This version 2 of the libnfs API. It is not compatible with the earlier API. All rpc___async() functions have been changed to rpc___task(). The _task() functions return a struct rpc_pdu * which can later be used to cancel an inflight command. nfs_[]read and nfs_[p]write functions have new signatures. Pay attention to any compiler warnings when compiling against this new API. The symbol LIBNFS_API_V2 can be used to identify that the library uses the new API. This version of the library supports zero-copy read and write for NFS v3/4 --- LIBNFS is a client library for accessing NFS shares over a network. LIBNFS offers three different APIs, for different use : 1, RAW : A fully async low level RPC library for NFS protocols This API is described in include/libnfs-raw.h it offers a fully async interface to raw XDR encoded blobs. This API provides very flexible and precise control of the RPC issued. examples/nfsclient-raw.c provides examples on how to use the raw API 2, NFS ASYNC : A fully asynchronous library for high level vfs functions This API is described by the *_async() functions in include/libnfs.h. This API provides a fully async access to posix vfs like functions such as stat(), read(), ... examples/nfsclient-async.c provides examples on how to use this API 3, NFS SYNC : A synchronous library for high level vfs functions This API is described by the *_sync() functions in include/libnfs.h. This API provides access to posix vfs like functions such as stat(), read(), ... examples/nfsclient-sync.c provides examples on how to use this API NFSv4: ====== NFSv3 is the default but NFSv4 can be selected either by using the URL argument version=4 or programatically calling nfs_set_version(nfs, NFS_V4) before connecting to the server/share. SERVER SUPPORT: =============== Libnfs supports building RPC servers. Examples/portmapper-server.c is a small "portmapper" example written using libnfs. URL-FORMAT: =========== Libnfs uses RFC2224 style URLs extended with some minor libnfs extensions. The basic syntax of these URLs is : nfs://[@][:]/path[?arg=val[&arg=val]*] Special characters in 'path' are escaped using %-hex-hex syntax. For example '?' must be escaped if it occurs in a path as '?' is also used to separate the path from the optional list of url arguments. Example: nfs://127.0.0.1/my?path/?version=4 must be escaped as nfs://127.0.0.1/my%3Fpath/?version=4 Arguments supported by libnfs are : tcp-syncnt= : Number of SYNs to send during the session establish before failing setting up the tcp connection to the server. uid= : UID value to use when talking to the server. default it 65534 on Windows and getuid() on unixen. gid= : GID value to use when talking to the server. default it 65534 on Windows and getgid() on unixen. debug= : Debug level used by libnfs. Default is 0 which is quiet. Higher values increase verbosity. timeo= : The time in deciseconds (tenths of a second) libnfs client will wait for a response before it retries an RPC request. Default value of 'timeo' is 600, i.e., 60 seconds. Values less than 100, i.e., 10 seconds, are not allowed. retrans= : After 'retrans' failed retries libnfs will generate a "server not responding" message and then attempt further recovery action. If no successful RPC response has been received over the connection for the last 'timeo' period, then the connection would be terminated and all queued RPCs will be retried over the new connection. If other RPC responses are being received then it means connection is fine and this is likely a problem with this specific RPC, in that case it'll simply keep retrying the RPC for ever at 'timeo' interval. This mimics the 'hard' mount behaviour of NFS clients. If 'retrans' is 0, then RPC is not retried on timeout but instead failed with RPC_STATUS_TIMEOUT. This will roughly mimic the 'soft' mount behaviour of NFS clients. Default value of 'retrans' is 2. sec= : Specify the security mode. xprtsec= : Specify the transport security mode. none : No TLS security. tls : TLS with server authentication only. mtls : Mutual TLS, both server and client authentication. See CERTIFICATES for details about specifying certificates/keys that libnfs must use when using "tls" or "mtls" security. auto-traverse-mounts=<0|1> : Should libnfs try to traverse across nested mounts automatically or not. Default is 1 == enabled. dircache=<0|1> : Disable/enable directory caching. Enabled by default. autoreconnect=<-1|0|>=1> : Control the auto-reconnect behaviour to the NFS session. -1 : Try to reconnect forever on session failures. Just like normal NFS clients do. 0 : Disable auto-reconnect completely and immediately return a failure to the application. >=1 : Retry to connect back to the server this many times before failing and returing an error back to the application. if= : Interface name (e.g., eth1) to bind; requires `root` version=<3|4> : NFS Version. Default is 3. nfsport= : Use this port for NFS instead of using the portmapper. mountport= : Use this port for the MOUNT protocol instead of using portmapper. This argument is ignored for NFSv4 as it does not use the MOUNT protocol. rsize= : This is the maximum number of bytes libnfs client will ask in a single READ request. The actual value is the minimum of this and the 'rtmax' value shared by the server in the FSINFO response. The largest rsize value supported is 4,194,304 bytes, i.e., 4MiB. The smallest rsize value supported is 8192 bytes, i.e., 8KiB. The provided value must be a multiple of 4096, else it's rounded down to the nearest 4096 bytes. Default value used when rsize option is not specified, is 1,048,576 bytes, i.e., 1MiB. wsize= : This is the maximum number of bytes libnfs client will send in a single WRITE request. The actual value is the minimum of this and the 'wtmax' value shared by the server in the FSINFO response. The largest wsize value supported is 4,194,304 bytes, i.e., 4MiB. The smallest wsize value supported is 8192 bytes, i.e., 8KiB. The provided value must be a multiple of 4096, else it's rounded down to the nearest 4096 bytes. Default value used when wsize option is not specified, is 1,048,576 bytes, i.e., 1MiB. readdir-buffer= | readdir-buffer=, : Set the buffer size for READDIRPLUS, where dircount is the maximum amount of bytes the server should use to retrieve the entry names and maxcount is the maximum size of the response buffer (including attributes). If only one is given it will be used for both. The provided value(s) must be multiple of 4096, else they are rounded down to the nearest 4096 bytes. The actual value is the minimum of this and the 'dtpref' value shared by the server in the FSINFO response. Default is 8192 for both. Auto_traverse_mounts ==================== Normally in NFSv3 if a server has nested exports, for example if it would export both /data and /data/tmp then a client would need to mount both these exports as well. The reason is because the NFSv3 protocol does not allow a client request to return data for an object in a different filesystem/mount. (legacy, but it is what it is. One reason for this restriction is to guarantee that inodes are unique across the mounted system.) This option, when enabled, will make libnfs perform all these mounts internally for you. This means that one libnfs mount may now have files with duplicate inode values so if you cache files based on inode make sure you cache files based on BOTH st.st_ino and st.st_dev. ROOT vs NON-ROOT ================ When running as root, libnfs tries to allocate a system port for its connection to the NFS server. When running as non-root it will use a normal ephemeral port. Many NFS servers default to a mode where they do not allow non-system ports from connecting. These servers require you use the "insecure" export option in /etc/exports in order to allow libnfs clients to be able to connect. On Linux we can get around this restriction by setting the NET_BIND_SERVICE capability for the application binary. This is set up by running sudo setcap 'cap_net_bind_service=+ep' /path/to/executable This capability allows the binary to use systems ports like this even when not running as root. Thus if you set this capability for your application you no longer need to edit the export on the NFS server to set "insecure". I do not know what equivalent "capability" support is available on other platforms. Please drop me an email if your os of choice has something similar and I can add it to the README. CERTIFICATES ============ libnfs reads CA certs from the following places, so make sure your server's CA cert is present in at least one of these: - default system trust store (/etc/ssl/certs/ca-certificates.crt on most systems). - all PEM format certs in the directory specified by env variable LIBNFS_TLS_TRUSTED_CA_DIR. - cert(s) present in the PEM file specified by env variable LIBNFS_TLS_TRUSTED_CA_PEM. If you want to use mutual TLS (xprtsec=mtls) then you will need a client certificate too. You need to provide the client's public certificate and the private key using the following environment variables. - LIBNFS_TLS_CLIENT_CERT_PEM - this is the public certificate. - LIBNFS_TLS_CLIENT_KEY_PEM - this is the private key. DOCUMENTATION ============= libnfs sources ship with prebuilt manpage(s) in the doc directory. If you change the manpage sources you need to manually regenerate the new manpages by running cd doc make doc PLATFORM support ================= This is a truly multiplatform library. Linux: - tested with Ubuntu 10.04 - should work with others as well Cygwin: - tested under 64bit win2k8. MacOSX: - tested with SDK 10.4 (under Snow Leopard) - should also work with later SDKs and 64Bit iOS: - tested with iOS SDK 4.2 - running on iOS 4.3.x FreeBSD:- tested with 8.2 Solaris Windows:- tested on Windows 7 64 and Windows XP 32 using Visual Studio 10 - tested on Windows 7 64 using MingW on Linux to cross-compile (Debian and Ubuntu tested) Android:- tested with NDK r10e - running on Android 4.4 (should work starting from 2.3.3) AROS: - Build with 'make -f aros/Makefile.AROS' Playstation 2: - Build and install with 'cd ps2_ee; make -f Makefile.PS2_EE install' PlayStation 3: - Build and install the library with 'make -f ps3_ppu/Makefile.PS3_PPU install' LD_PRELOAD ========== examples/ld_nfs.c contains a LD_PRELOADable module that can be used to make several standard utilities nfs aware. It is still very incomplete but can be used for basic things such as cat and cp. Patches to add more coverage is welcome. Compile with : gcc -fPIC -shared -o ld_nfs.so examples/ld_nfs.c -ldl -lnfs Then try things like LD_NFS_DEBUG=9 LD_PRELOAD=./ld_nfs.so cat nfs://127.0.0.1//data/tmp/foo123 LD_NFS_DEBUG=9 LD_PRELOAD=./ld_nfs.so cp nfs://127.0.0.1//data/tmp/foo123 nfs://127.0.0.1//data/tmp/foo123.copy LD_NFS_UID and LD_NFS_GID can be used to fake the uid and the gid in the nfs context. This can be useful on "insecure" enabled NFS share to make the server trust you as a root. You can try to run as a normal user things like : LD_NFS_DEBUG=9 LD_NFS_UID=0 LD_NFS_GID=0 LD_PRELOAD=./ld_nfs.so chown root:root nfs://127.0.0.1//data/tmp/foo123 This is just a toy preload module. Don't open bugs if it does not work. Send patches to make it better instead. RELEASE TARBALLS ================ Release tarballs are available at https://sites.google.com/site/libnfstarballs/li MAILING LIST ============ A libnfs mailing list is available at http://groups.google.com/group/libnfs Announcements of new versions of libnfs will be posted to this list.