freebsd-nq/contrib/lib9p/fcall.h
Jakub Wojciech Klama 134e17798c Import lib9p 7ddb1164407da19b9b1afb83df83ae65a71a9a66.
Approved by:	trasz
MFC after:	1 month
Sponsored by:	Conclusive Engineering (development), vStack.com (funding)
2020-05-14 19:57:52 +00:00

625 lines
15 KiB
C

/*
* Copyright 2016 Jakub Klama <jceel@FreeBSD.org>
* All rights reserved
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted providing that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
* IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
*/
/*
* Based on libixp code: ©2007-2010 Kris Maglione <maglione.k at Gmail>
*/
#ifndef LIB9P_FCALL_H
#define LIB9P_FCALL_H
#include <stdint.h>
#define L9P_MAX_WELEM 256
/*
* Function call/reply (Tfoo/Rfoo) numbers.
*
* These are protocol code numbers, so the exact values
* matter. However, __FIRST and __LAST_PLUS_ONE are for
* debug code, and just need to encompass the entire range.
*
* Note that we rely (in the debug code) on Rfoo == Tfoo+1.
*/
enum l9p_ftype {
L9P__FIRST = 6, /* NB: must be <= all legal values */
L9P_TLERROR = 6, /* illegal; exists for parity with Rlerror */
L9P_RLERROR,
L9P_TSTATFS = 8,
L9P_RSTATFS,
L9P_TLOPEN = 12,
L9P_RLOPEN,
L9P_TLCREATE = 14,
L9P_RLCREATE,
L9P_TSYMLINK = 16,
L9P_RSYMLINK,
L9P_TMKNOD = 18,
L9P_RMKNOD,
L9P_TRENAME = 20,
L9P_RRENAME,
L9P_TREADLINK = 22,
L9P_RREADLINK,
L9P_TGETATTR = 24,
L9P_RGETATTR,
L9P_TSETATTR = 26,
L9P_RSETATTR,
L9P_TXATTRWALK = 30,
L9P_RXATTRWALK,
L9P_TXATTRCREATE = 32,
L9P_RXATTRCREATE,
L9P_TREADDIR = 40,
L9P_RREADDIR,
L9P_TFSYNC = 50,
L9P_RFSYNC,
L9P_TLOCK = 52,
L9P_RLOCK,
L9P_TGETLOCK = 54,
L9P_RGETLOCK,
L9P_TLINK = 70,
L9P_RLINK,
L9P_TMKDIR = 72,
L9P_RMKDIR,
L9P_TRENAMEAT = 74,
L9P_RRENAMEAT,
L9P_TUNLINKAT = 76,
L9P_RUNLINKAT,
L9P_TVERSION = 100,
L9P_RVERSION,
L9P_TAUTH = 102,
L9P_RAUTH,
L9P_TATTACH = 104,
L9P_RATTACH,
L9P_TERROR = 106, /* illegal */
L9P_RERROR,
L9P_TFLUSH = 108,
L9P_RFLUSH,
L9P_TWALK = 110,
L9P_RWALK,
L9P_TOPEN = 112,
L9P_ROPEN,
L9P_TCREATE = 114,
L9P_RCREATE,
L9P_TREAD = 116,
L9P_RREAD,
L9P_TWRITE = 118,
L9P_RWRITE,
L9P_TCLUNK = 120,
L9P_RCLUNK,
L9P_TREMOVE = 122,
L9P_RREMOVE,
L9P_TSTAT = 124,
L9P_RSTAT,
L9P_TWSTAT = 126,
L9P_RWSTAT,
L9P__LAST_PLUS_1, /* NB: must be last */
};
/*
* When a Tfoo request comes over the wire, we decode it
* (pack.c) from wire format into a request laid out in
* a "union l9p_fcall" object. This object is not in wire
* format, but rather in something more convenient for us
* to operate on.
*
* We then dispatch the request (request.c, backend/fs.c) and
* use another "union l9p_fcall" object to build a reply.
* The reply is converted to wire format on the way back out
* (pack.c again).
*
* All sub-objects start with a header containing the request
* or reply type code and two-byte tag, and whether or not it
* is needed, a four-byte fid.
*
* What this means here is that the data structures within
* the union can be shared across various requests and replies.
* For instance, replies to OPEN, CREATE, LCREATE, LOPEN, MKDIR, and
* SYMLINK are all fairly similar (providing a qid and sometimes
* an iounit) and hence can all use the l9p_f_ropen structure.
* Which structures are used for which operations is somewhat
* arbitrary; for programming ease, if an operation shares a
* data structure, it still has its own name: there are union
* members named ropen, rcreate, rlcreate, rlopen, rmkdir, and
* rsymlink, even though all use struct l9p_f_ropen.
*
* The big exception to the above rule is struct l9p_f_io, which
* is used as both request and reply for all of READ, WRITE, and
* READDIR. Moreover, the READDIR reply must be pre-packed into
* wire format (it is handled like raw data a la READ).
*
* Some request messages (e.g., TREADLINK) fit in a header, having
* just type code, tag, and fid. These have no separate data
* structure, nor union member name. Similarly, some reply
* messages (e.g., RCLUNK, RREMOVE, RRENAME) have just the type
* code and tag.
*/
/*
* Type code bits in (the first byte of) a qid.
*/
enum l9p_qid_type {
L9P_QTDIR = 0x80, /* type bit for directories */
L9P_QTAPPEND = 0x40, /* type bit for append only files */
L9P_QTEXCL = 0x20, /* type bit for exclusive use files */
L9P_QTMOUNT = 0x10, /* type bit for mounted channel */
L9P_QTAUTH = 0x08, /* type bit for authentication file */
L9P_QTTMP = 0x04, /* type bit for non-backed-up file */
L9P_QTSYMLINK = 0x02, /* type bit for symbolic link */
L9P_QTFILE = 0x00 /* type bits for plain file */
};
/*
* Extra permission bits in create and file modes (stat).
*/
#define L9P_DMDIR 0x80000000
enum {
L9P_DMAPPEND = 0x40000000,
L9P_DMEXCL = 0x20000000,
L9P_DMMOUNT = 0x10000000,
L9P_DMAUTH = 0x08000000,
L9P_DMTMP = 0x04000000,
L9P_DMSYMLINK = 0x02000000,
/* 9P2000.u extensions */
L9P_DMDEVICE = 0x00800000,
L9P_DMNAMEDPIPE = 0x00200000,
L9P_DMSOCKET = 0x00100000,
L9P_DMSETUID = 0x00080000,
L9P_DMSETGID = 0x00040000,
};
/*
* Open/create mode bits in 9P2000 and 9P2000.u operations
* (not Linux lopen and lcreate flags, which are different).
* Note that the mode field is only one byte wide.
*/
enum l9p_omode {
L9P_OREAD = 0, /* open for read */
L9P_OWRITE = 1, /* write */
L9P_ORDWR = 2, /* read and write */
L9P_OEXEC = 3, /* execute, == read but check execute permission */
L9P_OACCMODE = 3, /* mask for the above access-mode bits */
L9P_OTRUNC = 16, /* or'ed in (except for exec), truncate file first */
L9P_OCEXEC = 32, /* or'ed in, close on exec */
L9P_ORCLOSE = 64, /* or'ed in, remove on close */
L9P_ODIRECT = 128, /* or'ed in, direct access */
};
/*
* Flag bits in 9P2000.L operations (Tlopen, Tlcreate). These are
* basically just the Linux L_* flags. The bottom 3 bits are the
* same as for l9p_omode, although open-for-exec is not used:
* instead, the client does a Tgetattr and checks the mode for
* execute bits, then just opens for reading.
*
* Each L_O_xxx is just value O_xxx has on Linux in <fcntl.h>;
* not all are necessarily used. From observation, we do get
* L_O_CREAT and L_O_EXCL when creating with exclusive, and always
* get L_O_LARGEFILE. We do get L_O_APPEND when opening for
* append. We also get both L_O_DIRECT and L_O_DIRECTORY set
* when opening directories.
*
* We probably never get L_O_NOCTTY which makes no sense, and
* some of the other options may need to be handled on the client.
*/
enum l9p_l_o_flags {
L9P_L_O_CREAT = 000000100U,
L9P_L_O_EXCL = 000000200U,
L9P_L_O_NOCTTY = 000000400U,
L9P_L_O_TRUNC = 000001000U,
L9P_L_O_APPEND = 000002000U,
L9P_L_O_NONBLOCK = 000004000U,
L9P_L_O_DSYNC = 000010000U,
L9P_L_O_FASYNC = 000020000U,
L9P_L_O_DIRECT = 000040000U,
L9P_L_O_LARGEFILE = 000100000U,
L9P_L_O_DIRECTORY = 000200000U,
L9P_L_O_NOFOLLOW = 000400000U,
L9P_L_O_NOATIME = 001000000U,
L9P_L_O_CLOEXEC = 002000000U,
L9P_L_O_SYNC = 004000000U,
L9P_L_O_PATH = 010000000U,
L9P_L_O_TMPFILE = 020000000U,
};
struct l9p_hdr {
uint8_t type;
uint16_t tag;
uint32_t fid;
};
struct l9p_qid {
uint8_t type;
uint32_t version;
uint64_t path;
};
struct l9p_stat {
uint16_t type;
uint32_t dev;
struct l9p_qid qid;
uint32_t mode;
uint32_t atime;
uint32_t mtime;
uint64_t length;
char *name;
char *uid;
char *gid;
char *muid;
char *extension;
uint32_t n_uid;
uint32_t n_gid;
uint32_t n_muid;
};
#define L9P_FSTYPE 0x01021997
struct l9p_statfs {
uint32_t type; /* file system type */
uint32_t bsize; /* block size for I/O */
uint64_t blocks; /* file system size (bsize-byte blocks) */
uint64_t bfree; /* free blocks in fs */
uint64_t bavail; /* free blocks avail to non-superuser*/
uint64_t files; /* file nodes in file system (# inodes) */
uint64_t ffree; /* free file nodes in fs */
uint64_t fsid; /* file system identifier */
uint32_t namelen; /* maximum length of filenames */
};
struct l9p_f_version {
struct l9p_hdr hdr;
uint32_t msize;
char *version;
};
struct l9p_f_tflush {
struct l9p_hdr hdr;
uint16_t oldtag;
};
struct l9p_f_error {
struct l9p_hdr hdr;
char *ename;
uint32_t errnum;
};
struct l9p_f_ropen {
struct l9p_hdr hdr;
struct l9p_qid qid;
uint32_t iounit;
};
struct l9p_f_rauth {
struct l9p_hdr hdr;
struct l9p_qid aqid;
};
struct l9p_f_attach {
struct l9p_hdr hdr;
uint32_t afid;
char *uname;
char *aname;
uint32_t n_uname;
};
#define L9P_NOFID ((uint32_t)-1) /* in Tattach, no auth fid */
#define L9P_NONUNAME ((uint32_t)-1) /* in Tattach, no n_uname */
struct l9p_f_tcreate {
struct l9p_hdr hdr;
uint32_t perm;
char *name;
uint8_t mode; /* +Topen */
char *extension;
};
struct l9p_f_twalk {
struct l9p_hdr hdr;
uint32_t newfid;
uint16_t nwname;
char *wname[L9P_MAX_WELEM];
};
struct l9p_f_rwalk {
struct l9p_hdr hdr;
uint16_t nwqid;
struct l9p_qid wqid[L9P_MAX_WELEM];
};
struct l9p_f_io {
struct l9p_hdr hdr;
uint64_t offset; /* Tread, Twrite, Treaddir */
uint32_t count; /* Tread, Twrite, Rread, Treaddir, Rreaddir */
};
struct l9p_f_rstat {
struct l9p_hdr hdr;
struct l9p_stat stat;
};
struct l9p_f_twstat {
struct l9p_hdr hdr;
struct l9p_stat stat;
};
struct l9p_f_rstatfs {
struct l9p_hdr hdr;
struct l9p_statfs statfs;
};
/* Used for Tlcreate, Tlopen, Tmkdir, Tunlinkat. */
struct l9p_f_tlcreate {
struct l9p_hdr hdr;
char *name; /* Tlcreate, Tmkdir, Tunlinkat */
uint32_t flags; /* Tlcreate, Tlopen, Tmkdir, Tunlinkat */
uint32_t mode; /* Tlcreate, Tmkdir */
uint32_t gid; /* Tlcreate, Tmkdir */
};
struct l9p_f_tsymlink {
struct l9p_hdr hdr;
char *name;
char *symtgt;
uint32_t gid;
};
struct l9p_f_tmknod {
struct l9p_hdr hdr;
char *name;
uint32_t mode;
uint32_t major;
uint32_t minor;
uint32_t gid;
};
struct l9p_f_trename {
struct l9p_hdr hdr;
uint32_t dfid;
char *name;
};
struct l9p_f_rreadlink {
struct l9p_hdr hdr;
char *target;
};
struct l9p_f_tgetattr {
struct l9p_hdr hdr;
uint64_t request_mask;
};
struct l9p_f_rgetattr {
struct l9p_hdr hdr;
uint64_t valid;
struct l9p_qid qid;
uint32_t mode;
uint32_t uid;
uint32_t gid;
uint64_t nlink;
uint64_t rdev;
uint64_t size;
uint64_t blksize;
uint64_t blocks;
uint64_t atime_sec;
uint64_t atime_nsec;
uint64_t mtime_sec;
uint64_t mtime_nsec;
uint64_t ctime_sec;
uint64_t ctime_nsec;
uint64_t btime_sec;
uint64_t btime_nsec;
uint64_t gen;
uint64_t data_version;
};
/* Fields in req->request_mask and reply->valid for Tgetattr, Rgetattr. */
enum l9pl_getattr_flags {
L9PL_GETATTR_MODE = 0x00000001,
L9PL_GETATTR_NLINK = 0x00000002,
L9PL_GETATTR_UID = 0x00000004,
L9PL_GETATTR_GID = 0x00000008,
L9PL_GETATTR_RDEV = 0x00000010,
L9PL_GETATTR_ATIME = 0x00000020,
L9PL_GETATTR_MTIME = 0x00000040,
L9PL_GETATTR_CTIME = 0x00000080,
L9PL_GETATTR_INO = 0x00000100,
L9PL_GETATTR_SIZE = 0x00000200,
L9PL_GETATTR_BLOCKS = 0x00000400,
/* everything up to and including BLOCKS is BASIC */
L9PL_GETATTR_BASIC = L9PL_GETATTR_MODE |
L9PL_GETATTR_NLINK |
L9PL_GETATTR_UID |
L9PL_GETATTR_GID |
L9PL_GETATTR_RDEV |
L9PL_GETATTR_ATIME |
L9PL_GETATTR_MTIME |
L9PL_GETATTR_CTIME |
L9PL_GETATTR_INO |
L9PL_GETATTR_SIZE |
L9PL_GETATTR_BLOCKS,
L9PL_GETATTR_BTIME = 0x00000800,
L9PL_GETATTR_GEN = 0x00001000,
L9PL_GETATTR_DATA_VERSION = 0x00002000,
/* BASIC + birthtime + gen + data-version = ALL */
L9PL_GETATTR_ALL = L9PL_GETATTR_BASIC |
L9PL_GETATTR_BTIME |
L9PL_GETATTR_GEN |
L9PL_GETATTR_DATA_VERSION,
};
struct l9p_f_tsetattr {
struct l9p_hdr hdr;
uint32_t valid;
uint32_t mode;
uint32_t uid;
uint32_t gid;
uint64_t size;
uint64_t atime_sec; /* if valid & L9PL_SETATTR_ATIME_SET */
uint64_t atime_nsec; /* (else use on-server time) */
uint64_t mtime_sec; /* if valid & L9PL_SETATTR_MTIME_SET */
uint64_t mtime_nsec; /* (else use on-server time) */
};
/* Fields in req->valid for Tsetattr. */
enum l9pl_setattr_flags {
L9PL_SETATTR_MODE = 0x00000001,
L9PL_SETATTR_UID = 0x00000002,
L9PL_SETATTR_GID = 0x00000004,
L9PL_SETATTR_SIZE = 0x00000008,
L9PL_SETATTR_ATIME = 0x00000010,
L9PL_SETATTR_MTIME = 0x00000020,
L9PL_SETATTR_CTIME = 0x00000040,
L9PL_SETATTR_ATIME_SET = 0x00000080,
L9PL_SETATTR_MTIME_SET = 0x00000100,
};
struct l9p_f_txattrwalk {
struct l9p_hdr hdr;
uint32_t newfid;
char *name;
};
struct l9p_f_rxattrwalk {
struct l9p_hdr hdr;
uint64_t size;
};
struct l9p_f_txattrcreate {
struct l9p_hdr hdr;
char *name;
uint64_t attr_size;
uint32_t flags;
};
struct l9p_f_tlock {
struct l9p_hdr hdr;
uint8_t type; /* from l9pl_lock_type */
uint32_t flags; /* from l9pl_lock_flags */
uint64_t start;
uint64_t length;
uint32_t proc_id;
char *client_id;
};
enum l9pl_lock_type {
L9PL_LOCK_TYPE_RDLOCK = 0,
L9PL_LOCK_TYPE_WRLOCK = 1,
L9PL_LOCK_TYPE_UNLOCK = 2,
};
enum l9pl_lock_flags {
L9PL_LOCK_TYPE_BLOCK = 1,
L9PL_LOCK_TYPE_RECLAIM = 2,
};
struct l9p_f_rlock {
struct l9p_hdr hdr;
uint8_t status; /* from l9pl_lock_status */
};
enum l9pl_lock_status {
L9PL_LOCK_SUCCESS = 0,
L9PL_LOCK_BLOCKED = 1,
L9PL_LOCK_ERROR = 2,
L9PL_LOCK_GRACE = 3,
};
struct l9p_f_getlock {
struct l9p_hdr hdr;
uint8_t type; /* from l9pl_lock_type */
uint64_t start;
uint64_t length;
uint32_t proc_id;
char *client_id;
};
struct l9p_f_tlink {
struct l9p_hdr hdr;
uint32_t dfid;
char *name;
};
struct l9p_f_trenameat {
struct l9p_hdr hdr;
char *oldname;
uint32_t newdirfid;
char *newname;
};
/*
* Flags in Tunlinkat (which re-uses f_tlcreate data structure but
* with different meaning).
*/
enum l9p_l_unlinkat_flags {
/* not sure if any other AT_* flags are passed through */
L9PL_AT_REMOVEDIR = 0x0200,
};
union l9p_fcall {
struct l9p_hdr hdr;
struct l9p_f_version version;
struct l9p_f_tflush tflush;
struct l9p_f_ropen ropen;
struct l9p_f_ropen rcreate;
struct l9p_f_ropen rattach;
struct l9p_f_error error;
struct l9p_f_rauth rauth;
struct l9p_f_attach tattach;
struct l9p_f_attach tauth;
struct l9p_f_tcreate tcreate;
struct l9p_f_tcreate topen;
struct l9p_f_twalk twalk;
struct l9p_f_rwalk rwalk;
struct l9p_f_twstat twstat;
struct l9p_f_rstat rstat;
struct l9p_f_rstatfs rstatfs;
struct l9p_f_tlcreate tlopen;
struct l9p_f_ropen rlopen;
struct l9p_f_tlcreate tlcreate;
struct l9p_f_ropen rlcreate;
struct l9p_f_tsymlink tsymlink;
struct l9p_f_ropen rsymlink;
struct l9p_f_tmknod tmknod;
struct l9p_f_ropen rmknod;
struct l9p_f_trename trename;
struct l9p_f_rreadlink rreadlink;
struct l9p_f_tgetattr tgetattr;
struct l9p_f_rgetattr rgetattr;
struct l9p_f_tsetattr tsetattr;
struct l9p_f_txattrwalk txattrwalk;
struct l9p_f_rxattrwalk rxattrwalk;
struct l9p_f_txattrcreate txattrcreate;
struct l9p_f_tlock tlock;
struct l9p_f_rlock rlock;
struct l9p_f_getlock getlock;
struct l9p_f_tlink tlink;
struct l9p_f_tlcreate tmkdir;
struct l9p_f_ropen rmkdir;
struct l9p_f_trenameat trenameat;
struct l9p_f_tlcreate tunlinkat;
struct l9p_f_io io;
};
#endif /* LIB9P_FCALL_H */