freebsd-skq/sys/fs/coda/coda_venus.c
1998-09-02 19:09:53 +00:00

648 lines
17 KiB
C

/*
*
* Coda: an Experimental Distributed File System
* Release 3.1
*
* Copyright (c) 1987-1998 Carnegie Mellon University
* All Rights Reserved
*
* Permission to use, copy, modify and distribute this software and its
* documentation is hereby granted, provided that both the copyright
* notice and this permission notice appear in all copies of the
* software, derivative works or modified versions, and any portions
* thereof, and that both notices appear in supporting documentation, and
* that credit is given to Carnegie Mellon University in all documents
* and publicity pertaining to direct or indirect use of this code or its
* derivatives.
*
* CODA IS AN EXPERIMENTAL SOFTWARE SYSTEM AND IS KNOWN TO HAVE BUGS,
* SOME OF WHICH MAY HAVE SERIOUS CONSEQUENCES. CARNEGIE MELLON ALLOWS
* FREE USE OF THIS SOFTWARE IN ITS "AS IS" CONDITION. CARNEGIE MELLON
* DISCLAIMS ANY LIABILITY OF ANY KIND FOR ANY DAMAGES WHATSOEVER
* RESULTING DIRECTLY OR INDIRECTLY FROM THE USE OF THIS SOFTWARE OR OF
* ANY DERIVATIVE WORK.
*
* Carnegie Mellon encourages users of this software to return any
* improvements or extensions that they make, and to grant Carnegie
* Mellon the rights to redistribute these changes without encumbrance.
*
* @(#) src/sys/cfs/cfs_venus.c,v 1.1.1.1 1998/08/29 21:14:52 rvb Exp $
* $Id: $
*
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/malloc.h>
#include <sys/proc.h>
#include <sys/select.h>
#include <sys/ioccom.h>
#include <sys/fcntl.h>
#include <cfs/coda.h>
#include <cfs/cnode.h>
#include <cfs/cfs_venus.h>
#include <cfs/pioctl.h>
#define DECL_NO_IN(name) \
struct cfs_in_hdr *inp; \
struct name ## _out *outp; \
int name ## _size = sizeof (struct cfs_in_hdr); \
int Isize = sizeof (struct cfs_in_hdr); \
int Osize = sizeof (struct name ## _out); \
int error
#define DECL(name) \
struct name ## _in *inp; \
struct name ## _out *outp; \
int name ## _size = sizeof (struct name ## _in); \
int Isize = sizeof (struct name ## _in); \
int Osize = sizeof (struct name ## _out); \
int error
#define DECL_NO_OUT(name) \
struct name ## _in *inp; \
struct cfs_out_hdr *outp; \
int name ## _size = sizeof (struct name ## _in); \
int Isize = sizeof (struct name ## _in); \
int Osize = sizeof (struct cfs_out_hdr); \
int error
#define ALLOC_NO_IN(name) \
if (Osize > name ## _size) \
name ## _size = Osize; \
CFS_ALLOC(inp, struct cfs_in_hdr *, name ## _size);\
outp = (struct name ## _out *) inp
#define ALLOC(name) \
if (Osize > name ## _size) \
name ## _size = Osize; \
CFS_ALLOC(inp, struct name ## _in *, name ## _size);\
outp = (struct name ## _out *) inp
#define ALLOC_NO_OUT(name) \
if (Osize > name ## _size) \
name ## _size = Osize; \
CFS_ALLOC(inp, struct name ## _in *, name ## _size);\
outp = (struct cfs_out_hdr *) inp
#define STRCPY(struc, name, len) \
bcopy(name, (char *)inp + (int)inp->struc, len); \
((char*)inp + (int)inp->struc)[len++] = 0; \
Isize += len
#define INIT_IN(in, op, ident, p) \
(in)->opcode = (op); \
(in)->pid = p ? p->p_pid : -1; \
(in)->pgid = p ? p->p_pgid : -1; \
(in)->sid = (p && p->p_session && p->p_session->s_leader) ? (p->p_session->s_leader->p_pid) : -1; \
if (ident != NOCRED) { \
(in)->cred.cr_uid = ident->cr_uid; \
(in)->cred.cr_groupid = ident->cr_gid; \
} else { \
bzero(&((in)->cred),sizeof(struct coda_cred)); \
(in)->cred.cr_uid = -1; \
(in)->cred.cr_groupid = -1; \
} \
#define CNV_OFLAG(to, from) \
do { \
to = 0; \
if (from & FREAD) to |= C_O_READ; \
if (from & FWRITE) to |= C_O_WRITE; \
if (from & O_TRUNC) to |= C_O_TRUNC; \
if (from & O_EXCL) to |= C_O_EXCL; \
} while (0)
#define CNV_VV2V_ATTR(top, fromp) \
do { \
(top)->va_type = (fromp)->va_type; \
(top)->va_mode = (fromp)->va_mode; \
(top)->va_nlink = (fromp)->va_nlink; \
(top)->va_uid = (fromp)->va_uid; \
(top)->va_gid = (fromp)->va_gid; \
(top)->va_fsid = VNOVAL; \
(top)->va_fileid = (fromp)->va_fileid; \
(top)->va_size = (fromp)->va_size; \
(top)->va_blocksize = (fromp)->va_blocksize; \
(top)->va_atime = (fromp)->va_atime; \
(top)->va_mtime = (fromp)->va_mtime; \
(top)->va_ctime = (fromp)->va_ctime; \
(top)->va_gen = (fromp)->va_gen; \
(top)->va_flags = (fromp)->va_flags; \
(top)->va_rdev = (fromp)->va_rdev; \
(top)->va_bytes = (fromp)->va_bytes; \
(top)->va_filerev = (fromp)->va_filerev; \
(top)->va_vaflags = VNOVAL; \
(top)->va_spare = VNOVAL; \
} while (0)
#define CNV_V2VV_ATTR(top, fromp) \
do { \
(top)->va_type = (fromp)->va_type; \
(top)->va_mode = (fromp)->va_mode; \
(top)->va_nlink = (fromp)->va_nlink; \
(top)->va_uid = (fromp)->va_uid; \
(top)->va_gid = (fromp)->va_gid; \
(top)->va_fileid = (fromp)->va_fileid; \
(top)->va_size = (fromp)->va_size; \
(top)->va_blocksize = (fromp)->va_blocksize; \
(top)->va_atime = (fromp)->va_atime; \
(top)->va_mtime = (fromp)->va_mtime; \
(top)->va_ctime = (fromp)->va_ctime; \
(top)->va_gen = (fromp)->va_gen; \
(top)->va_flags = (fromp)->va_flags; \
(top)->va_rdev = (fromp)->va_rdev; \
(top)->va_bytes = (fromp)->va_bytes; \
(top)->va_filerev = (fromp)->va_filerev; \
} while (0)
int
venus_root(void *mdp,
struct ucred *cred, struct proc *p,
/*out*/ ViceFid *VFid)
{
DECL_NO_IN(cfs_root); /* sets Isize & Osize */
ALLOC_NO_IN(cfs_root); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(inp, CFS_ROOT, cred, p);
error = cfscall(mdp, Isize, &Osize, (char *)inp);
if (!error)
*VFid = outp->VFid;
CFS_FREE(inp, cfs_root_size);
return error;
}
int
venus_open(void *mdp, ViceFid *fid, int flag,
struct ucred *cred, struct proc *p,
/*out*/ dev_t *dev, ino_t *inode)
{
int cflag;
DECL(cfs_open); /* sets Isize & Osize */
ALLOC(cfs_open); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(&inp->ih, CFS_OPEN, cred, p);
inp->VFid = *fid;
CNV_OFLAG(cflag, flag);
inp->flags = cflag;
error = cfscall(mdp, Isize, &Osize, (char *)inp);
if (!error) {
*dev = outp->dev;
*inode = outp->inode;
}
CFS_FREE(inp, cfs_open_size);
return error;
}
int
venus_close(void *mdp, ViceFid *fid, int flag,
struct ucred *cred, struct proc *p)
{
int cflag;
DECL_NO_OUT(cfs_close); /* sets Isize & Osize */
ALLOC_NO_OUT(cfs_close); /* sets inp & outp */
INIT_IN(&inp->ih, CFS_CLOSE, cred, p);
inp->VFid = *fid;
CNV_OFLAG(cflag, flag);
inp->flags = cflag;
error = cfscall(mdp, Isize, &Osize, (char *)inp);
CFS_FREE(inp, cfs_close_size);
return error;
}
/*
* these two calls will not exist!!! the container file is read/written
* directly.
*/
void
venus_read(void)
{
}
void
venus_write(void)
{
}
/*
* this is a bit sad too. the ioctl's are for the control file, not for
* normal files.
*/
int
venus_ioctl(void *mdp, ViceFid *fid,
int com, int flag, caddr_t data,
struct ucred *cred, struct proc *p)
{
DECL(cfs_ioctl); /* sets Isize & Osize */
struct PioctlData *iap = (struct PioctlData *)data;
int tmp;
cfs_ioctl_size = VC_MAXMSGSIZE;
ALLOC(cfs_ioctl); /* sets inp & outp */
INIT_IN(&inp->ih, CFS_IOCTL, cred, p);
inp->VFid = *fid;
/* command was mutated by increasing its size field to reflect the
* path and follow args. we need to subtract that out before sending
* the command to venus.
*/
inp->cmd = (com & ~(IOCPARM_MASK << 16));
tmp = ((com >> 16) & IOCPARM_MASK) - sizeof (char *) - sizeof (int);
inp->cmd |= (tmp & IOCPARM_MASK) << 16;
inp->rwflag = flag;
inp->len = iap->vi.in_size;
inp->data = (char *)(sizeof (struct cfs_ioctl_in));
error = copyin(iap->vi.in, (char*)inp + (int)inp->data,
iap->vi.in_size);
if (error) {
CFS_FREE(inp, cfs_ioctl_size);
return(error);
}
Osize = VC_MAXMSGSIZE;
error = cfscall(mdp, Isize + iap->vi.in_size, &Osize, (char *)inp);
/* copy out the out buffer. */
if (!error) {
if (outp->len > iap->vi.out_size) {
error = EINVAL;
} else {
error = copyout((char *)outp + (int)outp->data,
iap->vi.out, iap->vi.out_size);
}
}
CFS_FREE(inp, cfs_ioctl_size);
return error;
}
int
venus_getattr(void *mdp, ViceFid *fid,
struct ucred *cred, struct proc *p,
/*out*/ struct vattr *vap)
{
DECL(cfs_getattr); /* sets Isize & Osize */
ALLOC(cfs_getattr); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(&inp->ih, CFS_GETATTR, cred, p);
inp->VFid = *fid;
error = cfscall(mdp, Isize, &Osize, (char *)inp);
if (!error) {
CNV_VV2V_ATTR(vap, &outp->attr);
}
CFS_FREE(inp, cfs_getattr_size);
return error;
}
int
venus_setattr(void *mdp, ViceFid *fid, struct vattr *vap,
struct ucred *cred, struct proc *p)
{
DECL_NO_OUT(cfs_setattr); /* sets Isize & Osize */
ALLOC_NO_OUT(cfs_setattr); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(&inp->ih, CFS_SETATTR, cred, p);
inp->VFid = *fid;
CNV_V2VV_ATTR(&inp->attr, vap);
error = cfscall(mdp, Isize, &Osize, (char *)inp);
CFS_FREE(inp, cfs_setattr_size);
return error;
}
int
venus_access(void *mdp, ViceFid *fid, int mode,
struct ucred *cred, struct proc *p)
{
DECL_NO_OUT(cfs_access); /* sets Isize & Osize */
ALLOC_NO_OUT(cfs_access); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(&inp->ih, CFS_ACCESS, cred, p);
inp->VFid = *fid;
/* NOTE:
* NetBSD and Venus internals use the "data" in the low 3 bits.
* Hence, the conversion.
*/
inp->flags = mode>>6;
error = cfscall(mdp, Isize, &Osize, (char *)inp);
CFS_FREE(inp, cfs_access_size);
return error;
}
int
venus_readlink(void *mdp, ViceFid *fid,
struct ucred *cred, struct proc *p,
/*out*/ char **str, int *len)
{
DECL(cfs_readlink); /* sets Isize & Osize */
cfs_readlink_size += CFS_MAXPATHLEN;
ALLOC(cfs_readlink); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(&inp->ih, CFS_READLINK, cred, p);
inp->VFid = *fid;
Osize += CFS_MAXPATHLEN;
error = cfscall(mdp, Isize, &Osize, (char *)inp);
if (!error) {
CFS_ALLOC(*str, char *, outp->count);
*len = outp->count;
bcopy((char *)outp + (int)outp->data, *str, *len);
}
CFS_FREE(inp, cfs_readlink_size);
return error;
}
int
venus_fsync(void *mdp, ViceFid *fid,
struct ucred *cred, struct proc *p)
{
DECL_NO_OUT(cfs_fsync); /* sets Isize & Osize */
ALLOC_NO_OUT(cfs_fsync); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(&inp->ih, CFS_FSYNC, cred, p);
inp->VFid = *fid;
error = cfscall(mdp, Isize, &Osize, (char *)inp);
CFS_FREE(inp, cfs_fsync_size);
return error;
}
int
venus_lookup(void *mdp, ViceFid *fid,
const char *nm, int len,
struct ucred *cred, struct proc *p,
/*out*/ ViceFid *VFid, int *vtype)
{
DECL(cfs_lookup); /* sets Isize & Osize */
cfs_lookup_size += len + 1;
ALLOC(cfs_lookup); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(&inp->ih, CFS_LOOKUP, cred, p);
inp->VFid = *fid;
inp->name = Isize;
STRCPY(name, nm, len); /* increments Isize */
error = cfscall(mdp, Isize, &Osize, (char *)inp);
if (!error) {
*VFid = outp->VFid;
*vtype = outp->vtype;
}
CFS_FREE(inp, cfs_lookup_size);
return error;
}
int
venus_create(void *mdp, ViceFid *fid,
const char *nm, int len, int exclusive, int mode, struct vattr *va,
struct ucred *cred, struct proc *p,
/*out*/ ViceFid *VFid, struct vattr *attr)
{
DECL(cfs_create); /* sets Isize & Osize */
cfs_create_size += len + 1;
ALLOC(cfs_create); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(&inp->ih, CFS_CREATE, cred, p);
inp->VFid = *fid;
inp->excl = exclusive ? C_O_EXCL : 0;
inp->mode = mode;
CNV_V2VV_ATTR(&inp->attr, va);
inp->name = Isize;
STRCPY(name, nm, len); /* increments Isize */
error = cfscall(mdp, Isize, &Osize, (char *)inp);
if (!error) {
*VFid = outp->VFid;
CNV_VV2V_ATTR(attr, &outp->attr);
}
CFS_FREE(inp, cfs_create_size);
return error;
}
int
venus_remove(void *mdp, ViceFid *fid,
const char *nm, int len,
struct ucred *cred, struct proc *p)
{
DECL_NO_OUT(cfs_remove); /* sets Isize & Osize */
cfs_remove_size += len + 1;
ALLOC_NO_OUT(cfs_remove); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(&inp->ih, CFS_REMOVE, cred, p);
inp->VFid = *fid;
inp->name = Isize;
STRCPY(name, nm, len); /* increments Isize */
error = cfscall(mdp, Isize, &Osize, (char *)inp);
CFS_FREE(inp, cfs_remove_size);
return error;
}
int
venus_link(void *mdp, ViceFid *fid, ViceFid *tfid,
const char *nm, int len,
struct ucred *cred, struct proc *p)
{
DECL_NO_OUT(cfs_link); /* sets Isize & Osize */
cfs_link_size += len + 1;
ALLOC_NO_OUT(cfs_link); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(&inp->ih, CFS_LINK, cred, p);
inp->sourceFid = *fid;
inp->destFid = *tfid;
inp->tname = Isize;
STRCPY(tname, nm, len); /* increments Isize */
error = cfscall(mdp, Isize, &Osize, (char *)inp);
CFS_FREE(inp, cfs_link_size);
return error;
}
int
venus_rename(void *mdp, ViceFid *fid, ViceFid *tfid,
const char *nm, int len, const char *tnm, int tlen,
struct ucred *cred, struct proc *p)
{
DECL_NO_OUT(cfs_rename); /* sets Isize & Osize */
cfs_rename_size += len + 1 + tlen + 1;
ALLOC_NO_OUT(cfs_rename); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(&inp->ih, CFS_RENAME, cred, p);
inp->sourceFid = *fid;
inp->destFid = *tfid;
inp->srcname = Isize;
STRCPY(srcname, nm, len); /* increments Isize */
inp->destname = Isize;
STRCPY(destname, tnm, tlen); /* increments Isize */
error = cfscall(mdp, Isize, &Osize, (char *)inp);
CFS_FREE(inp, cfs_rename_size);
return error;
}
int
venus_mkdir(void *mdp, ViceFid *fid,
const char *nm, int len, struct vattr *va,
struct ucred *cred, struct proc *p,
/*out*/ ViceFid *VFid, struct vattr *ova)
{
DECL(cfs_mkdir); /* sets Isize & Osize */
cfs_mkdir_size += len + 1;
ALLOC(cfs_mkdir); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(&inp->ih, CFS_MKDIR, cred, p);
inp->VFid = *fid;
CNV_V2VV_ATTR(&inp->attr, va);
inp->name = Isize;
STRCPY(name, nm, len); /* increments Isize */
error = cfscall(mdp, Isize, &Osize, (char *)inp);
if (!error) {
*VFid = outp->VFid;
CNV_VV2V_ATTR(ova, &outp->attr);
}
CFS_FREE(inp, cfs_mkdir_size);
return error;
}
int
venus_rmdir(void *mdp, ViceFid *fid,
const char *nm, int len,
struct ucred *cred, struct proc *p)
{
DECL_NO_OUT(cfs_rmdir); /* sets Isize & Osize */
cfs_rmdir_size += len + 1;
ALLOC_NO_OUT(cfs_rmdir); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(&inp->ih, CFS_RMDIR, cred, p);
inp->VFid = *fid;
inp->name = Isize;
STRCPY(name, nm, len); /* increments Isize */
error = cfscall(mdp, Isize, &Osize, (char *)inp);
CFS_FREE(inp, cfs_rmdir_size);
return error;
}
int
venus_symlink(void *mdp, ViceFid *fid,
const char *lnm, int llen, const char *nm, int len, struct vattr *va,
struct ucred *cred, struct proc *p)
{
DECL_NO_OUT(cfs_symlink); /* sets Isize & Osize */
cfs_symlink_size += llen + 1 + len + 1;
ALLOC_NO_OUT(cfs_symlink); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(&inp->ih, CFS_SYMLINK, cred, p);
inp->VFid = *fid;
CNV_V2VV_ATTR(&inp->attr, va);
inp->srcname = Isize;
STRCPY(srcname, lnm, llen); /* increments Isize */
inp->tname = Isize;
STRCPY(tname, nm, len); /* increments Isize */
error = cfscall(mdp, Isize, &Osize, (char *)inp);
CFS_FREE(inp, cfs_symlink_size);
return error;
}
int
venus_readdir(void *mdp, ViceFid *fid,
int count, int offset,
struct ucred *cred, struct proc *p,
/*out*/ char *buffer, int *len)
{
DECL(cfs_readdir); /* sets Isize & Osize */
cfs_readdir_size = VC_MAXMSGSIZE;
ALLOC(cfs_readdir); /* sets inp & outp */
/* send the open to venus. */
INIT_IN(&inp->ih, CFS_READDIR, cred, p);
inp->VFid = *fid;
inp->count = count;
inp->offset = offset;
Osize = VC_MAXMSGSIZE;
error = cfscall(mdp, Isize, &Osize, (char *)inp);
if (!error) {
bcopy((char *)outp + (int)outp->data, buffer, outp->size);
*len = outp->size;
}
CFS_FREE(inp, cfs_readdir_size);
return error;
}
int
venus_fhtovp(void *mdp, ViceFid *fid,
struct ucred *cred, struct proc *p,
/*out*/ ViceFid *VFid, int *vtype)
{
DECL(cfs_vget); /* sets Isize & Osize */
ALLOC(cfs_vget); /* sets inp & outp */
/* Send the open to Venus. */
INIT_IN(&inp->ih, CFS_VGET, cred, p);
inp->VFid = *fid;
error = cfscall(mdp, Isize, &Osize, (char *)inp);
if (!error) {
*VFid = outp->VFid;
*vtype = outp->vtype;
}
CFS_FREE(inp, cfs_vget_size);
return error;
}