NetBSD/dist/am-utils/amd/opts.c

1504 lines
32 KiB
C

/* $NetBSD: opts.c,v 1.10 2006/02/05 16:28:56 christos Exp $ */
/*
* Copyright (c) 1997-2005 Erez Zadok
* Copyright (c) 1989 Jan-Simon Pendry
* Copyright (c) 1989 Imperial College of Science, Technology & Medicine
* Copyright (c) 1989 The Regents of the University of California.
* All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* Jan-Simon Pendry at Imperial College, London.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided 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.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgment:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``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 REGENTS OR CONTRIBUTORS 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.
*
*
* File: am-utils/amd/opts.c
*
*/
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif /* HAVE_CONFIG_H */
#include <am_defs.h>
#include <amd.h>
/*
* MACROS:
*/
#define NLEN 16 /* Length of longest option name (conservative) */
#define S(x) (x) , (sizeof(x)-1)
/*
* The BUFSPACE macros checks that there is enough space
* left in the expansion buffer. If there isn't then we
* give up completely. This is done to avoid crashing the
* automounter itself (which would be a bad thing to do).
*/
#define BUFSPACE(ep, len) (((ep) + (len)) < expbuf+MAXPATHLEN)
/*
* TYPEDEFS:
*/
typedef int (*IntFuncPtr) (char *);
typedef struct opt_apply opt_apply;
enum vs_opt { SelEQ, SelNE, VarAss };
/*
* STRUCTURES
*/
struct opt {
char *name; /* Name of the option */
int nlen; /* Length of option name */
char **optp; /* Pointer to option value string */
char **sel_p; /* Pointer to selector value string */
int (*fxn_p)(char *); /* Pointer to boolean function */
int case_insensitive; /* How to do selector comparisons */
};
struct opt_apply {
char **opt;
char *val;
};
struct functable {
char *name;
IntFuncPtr func;
};
/*
* FORWARD DEFINITION:
*/
static int f_in_network(char *);
static int f_xhost(char *);
static int f_netgrp(char *);
static int f_netgrpd(char *);
static int f_exists(char *);
static int f_false(char *);
static int f_true(char *);
static inline char *expand_options(char *key);
/*
* STATICS:
*/
static char NullStr[] = "<NULL>";
static char nullstr[] = "";
static char *opt_dkey = NullStr;
static char *opt_host = nullstr; /* XXX: was the global hostname */
static char *opt_hostd = hostd;
static char *opt_key = nullstr;
static char *opt_keyd = nullstr;
static char *opt_map = nullstr;
static char *opt_path = nullstr;
char uid_str[SIZEOF_UID_STR], gid_str[SIZEOF_GID_STR];
char *opt_uid = uid_str;
char *opt_gid = gid_str;
static char *vars[8];
static char *literal_dollar = "$"; /* ${dollar}: a literal '$' in maps */
/*
* GLOBALS
*/
static struct am_opts fs_static; /* copy of the options to play with */
/*
* Options in some order corresponding to frequency of use so that
* first-match algorithm is sped up.
*/
static struct opt opt_fields[] = {
/* Name and length.
Option str. Selector str. boolean fxn. case sensitive */
{ S("opts"),
&fs_static.opt_opts, 0, 0, FALSE },
{ S("host"),
0, &opt_host, 0, TRUE },
{ S("hostd"),
0, &opt_hostd, 0, TRUE },
{ S("type"),
&fs_static.opt_type, 0, 0, FALSE },
{ S("rhost"),
&fs_static.opt_rhost, 0, 0, TRUE },
{ S("rfs"),
&fs_static.opt_rfs, 0, 0, FALSE },
{ S("fs"),
&fs_static.opt_fs, 0, 0, FALSE },
{ S("key"),
0, &opt_key, 0, FALSE },
{ S("map"),
0, &opt_map, 0, FALSE },
{ S("sublink"),
&fs_static.opt_sublink, 0, 0, FALSE },
{ S("arch"),
0, &gopt.arch, 0, TRUE },
{ S("dev"),
&fs_static.opt_dev, 0, 0, FALSE },
{ S("pref"),
&fs_static.opt_pref, 0, 0, FALSE },
{ S("path"),
0, &opt_path, 0, FALSE },
{ S("autodir"),
0, &gopt.auto_dir, 0, FALSE },
{ S("delay"),
&fs_static.opt_delay, 0, 0, FALSE },
{ S("domain"),
0, &hostdomain, 0, TRUE },
{ S("karch"),
0, &gopt.karch, 0, TRUE },
{ S("cluster"),
0, &gopt.cluster, 0, TRUE },
{ S("wire"),
0, 0, f_in_network, TRUE },
{ S("network"),
0, 0, f_in_network, TRUE },
{ S("netnumber"),
0, 0, f_in_network, TRUE },
{ S("byte"),
0, &endian, 0, TRUE },
{ S("os"),
0, &gopt.op_sys, 0, TRUE },
{ S("osver"),
0, &gopt.op_sys_ver, 0, TRUE },
{ S("full_os"),
0, &gopt.op_sys_full, 0, TRUE },
{ S("vendor"),
0, &gopt.op_sys_vendor, 0, TRUE },
{ S("remopts"),
&fs_static.opt_remopts, 0, 0, FALSE },
{ S("mount"),
&fs_static.opt_mount, 0, 0, FALSE },
{ S("unmount"),
&fs_static.opt_unmount, 0, 0, FALSE },
{ S("umount"),
&fs_static.opt_umount, 0, 0, FALSE },
{ S("cache"),
&fs_static.opt_cache, 0, 0, FALSE },
{ S("user"),
&fs_static.opt_user, 0, 0, FALSE },
{ S("group"),
&fs_static.opt_group, 0, 0, FALSE },
{ S(".key"),
0, &opt_dkey, 0, FALSE },
{ S("key."),
0, &opt_keyd, 0, FALSE },
{ S("maptype"),
&fs_static.opt_maptype, 0, 0, FALSE },
{ S("cachedir"),
&fs_static.opt_cachedir, 0, 0, FALSE },
{ S("addopts"),
&fs_static.opt_addopts, 0, 0, FALSE },
{ S("uid"),
0, &opt_uid, 0, FALSE },
{ S("gid"),
0, &opt_gid, 0, FALSE },
{ S("mount_type"),
&fs_static.opt_mount_type, 0, 0, FALSE },
{ S("dollar"),
&literal_dollar, 0, 0, FALSE },
{ S("var0"),
&vars[0], 0, 0, FALSE },
{ S("var1"),
&vars[1], 0, 0, FALSE },
{ S("var2"),
&vars[2], 0, 0, FALSE },
{ S("var3"),
&vars[3], 0, 0, FALSE },
{ S("var4"),
&vars[4], 0, 0, FALSE },
{ S("var5"),
&vars[5], 0, 0, FALSE },
{ S("var6"),
&vars[6], 0, 0, FALSE },
{ S("var7"),
&vars[7], 0, 0, FALSE },
{ 0, 0, 0, 0, 0, FALSE },
};
static struct functable functable[] = {
{ "in_network", f_in_network },
{ "xhost", f_xhost },
{ "netgrp", f_netgrp },
{ "netgrpd", f_netgrpd },
{ "exists", f_exists },
{ "false", f_false },
{ "true", f_true },
{ 0, 0 },
};
/*
* Specially expand the remote host name first
*/
static opt_apply rhost_expansion[] =
{
{&fs_static.opt_rhost, "${host}"},
{0, 0},
};
/*
* List of options which need to be expanded
* Note that the order here _may_ be important.
*/
static opt_apply expansions[] =
{
{&fs_static.opt_sublink, 0},
{&fs_static.opt_rfs, "${path}"},
{&fs_static.opt_fs, "${autodir}/${rhost}${rfs}"},
{&fs_static.opt_opts, "rw"},
{&fs_static.opt_remopts, "${opts}"},
{&fs_static.opt_mount, 0},
{&fs_static.opt_unmount, 0},
{&fs_static.opt_umount, 0},
{&fs_static.opt_cachedir, 0},
{&fs_static.opt_addopts, 0},
{0, 0},
};
/*
* List of options which need to be free'ed before re-use
*/
static opt_apply to_free[] =
{
{&fs_static.fs_glob, 0},
{&fs_static.fs_local, 0},
{&fs_static.fs_mtab, 0},
{&fs_static.opt_sublink, 0},
{&fs_static.opt_rfs, 0},
{&fs_static.opt_fs, 0},
{&fs_static.opt_rhost, 0},
{&fs_static.opt_opts, 0},
{&fs_static.opt_remopts, 0},
{&fs_static.opt_mount, 0},
{&fs_static.opt_unmount, 0},
{&fs_static.opt_umount, 0},
{&fs_static.opt_cachedir, 0},
{&fs_static.opt_addopts, 0},
{&vars[0], 0},
{&vars[1], 0},
{&vars[2], 0},
{&vars[3], 0},
{&vars[4], 0},
{&vars[5], 0},
{&vars[6], 0},
{&vars[7], 0},
{0, 0},
};
/*
* expand backslash escape sequences
* (escaped slash is handled separately in normalize_slash)
*/
static char
backslash(char **p)
{
char c;
if ((*p)[1] == '\0') {
plog(XLOG_USER, "Empty backslash escape");
return **p;
}
if (**p == '\\') {
(*p)++;
switch (**p) {
case 'g':
c = '\007'; /* Bell */
break;
case 'b':
c = '\010'; /* Backspace */
break;
case 't':
c = '\011'; /* Horizontal Tab */
break;
case 'n':
c = '\012'; /* New Line */
break;
case 'v':
c = '\013'; /* Vertical Tab */
break;
case 'f':
c = '\014'; /* Form Feed */
break;
case 'r':
c = '\015'; /* Carriage Return */
break;
case 'e':
c = '\033'; /* Escape */
break;
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
{
int cnt, val, ch;
for (cnt = 0, val = 0; cnt < 3; cnt++) {
ch = *(*p)++;
if (ch < '0' || ch > '7') {
(*p)--;
break;
}
val = (val << 3) | (ch - '0');
}
if ((val & 0xffffff00) != 0)
plog(XLOG_USER,
"Too large character constant %u\n",
val);
c = (char) val;
--(*p);
}
break;
default:
c = **p;
break;
}
} else
c = **p;
return c;
}
/*
* Skip to next option in the string
*/
static char *
opt(char **p)
{
char *cp = *p;
char *dp = cp;
char *s = cp;
top:
while (*cp && *cp != ';') {
if (*cp == '"') {
/*
* Skip past string
*/
for (cp++; *cp && *cp != '"'; cp++)
if (*cp == '\\')
*dp++ = backslash(&cp);
else
*dp++ = *cp;
if (*cp)
cp++;
} else {
*dp++ = *cp++;
}
}
/*
* Skip past any remaining ';'s
*/
while (*cp == ';')
cp++;
/*
* If we have a zero length string
* and there are more fields, then
* parse the next one. This allows
* sequences of empty fields.
*/
if (*cp && dp == s)
goto top;
*dp = '\0';
*p = cp;
return s;
}
/*
* These routines add a new style of selector; function-style boolean
* operators. To add new ones, just define functions as in true, false,
* exists (below) and add them to the functable, above.
*
* Usage example: Some people have X11R5 local, some go to a server. I do
* this:
*
* * exists(/usr/pkg/${key});type:=link;fs:=/usr/pkg/${key} || \
* -type:=nfs;rfs=/usr/pkg/${key} \
* rhost:=server1 \
* rhost:=server2
*
* -Rens Troost <rens@imsi.com>
*/
static IntFuncPtr
functable_lookup(char *key)
{
struct functable *fp;
for (fp = functable; fp->name; fp++)
if (FSTREQ(fp->name, key))
return (fp->func);
return (IntFuncPtr) NULL;
}
/*
* Fill in the global structure fs_static by
* cracking the string opts. opts may be
* scribbled on at will. Does NOT evaluate options.
* Returns 0 on error, 1 if no syntax errors were discovered.
*/
static int
split_opts(char *opts, char *mapkey)
{
char *o = opts;
char *f;
/*
* For each user-specified option
*/
for (f = opt(&o); *f; f = opt(&o)) {
struct opt *op;
char *eq = strchr(f, '=');
char *opt = NULL;
if (!eq)
continue;
if (*(eq-1) == '!' ||
eq[1] == '=' ||
eq[1] == '!') { /* != or == or =! */
continue; /* we don't care about selectors */
}
if (*(eq-1) == ':') { /* := */
*(eq-1) = '\0';
} else {
/* old style assignment */
eq[0] = '\0';
}
opt = eq + 1;
/*
* For each recognized option
*/
for (op = opt_fields; op->name; op++) {
/*
* Check whether they match
*/
if (FSTREQ(op->name, f)) {
if (op->sel_p) {
plog(XLOG_USER, "key %s: Can't assign to a selector (%s)",
mapkey, op->name);
return 0;
}
*op->optp = opt; /* actual assignment into fs_static */
break; /* break out of for loop */
} /* end of "if (FSTREQ(op->name, f))" statement */
} /* end of "for (op = opt_fields..." statement */
if (!op->name)
plog(XLOG_USER, "key %s: Unrecognized key/option \"%s\"", mapkey, f);
}
return 1;
}
/*
* Just evaluate selectors, which were split by split_opts.
* Returns 0 on error or no match, 1 if matched.
*/
static int
eval_selectors(char *opts, char *mapkey)
{
char *o, *old_o;
char *f;
int ret = 0;
o = old_o = strdup(opts);
/*
* For each user-specified option
*/
for (f = opt(&o); *f; f = opt(&o)) {
struct opt *op;
enum vs_opt vs_opt;
char *eq = strchr(f, '=');
char *fx;
IntFuncPtr func;
char *opt = NULL;
char *arg;
if (!eq) {
/*
* No value, is it a function call?
*/
arg = strchr(f, '(');
if (!arg || arg[1] == '\0' || arg == f) {
/*
* No, just continue
*/
plog(XLOG_USER, "key %s: No value component in \"%s\"", mapkey, f);
continue;
}
/* null-terminate the argument */
*arg++ = '\0';
fx = strchr(arg, ')');
if (!arg || fx == arg) {
plog(XLOG_USER, "key %s: Malformed function in \"%s\"", mapkey, f);
continue;
}
*fx = '\0';
if (f[0] == '!') {
vs_opt = SelNE;
f++;
} else {
vs_opt = SelEQ;
}
/*
* look up f in functable and pass it arg.
* func must return 0 on failure, and 1 on success.
*/
if ((func = functable_lookup(f))) {
int funok;
/* this allocates memory, don't forget to free */
arg = expand_options(arg);
funok = func(arg);
XFREE(arg);
if (vs_opt == SelNE)
funok = !funok;
if (!funok)
goto out;
continue;
} else {
plog(XLOG_USER, "key %s: unknown function \"%s\"", mapkey, f);
goto out;
}
} else {
if (eq[1] == '\0' || eq == f) {
/* misformed selector */
plog(XLOG_USER, "key %s: Bad selector \"%s\"", mapkey, f);
continue;
}
}
/*
* Check what type of operation is happening
* !=, =! is SelNE
* == is SelEQ
* =, := is VarAss
*/
if (*(eq-1) == '!') { /* != */
vs_opt = SelNE;
*(eq-1) = '\0';
opt = eq + 1;
} else if (*(eq-1) == ':') { /* := */
continue;
} else if (eq[1] == '=') { /* == */
vs_opt = SelEQ;
eq[0] = '\0';
opt = eq + 2;
} else if (eq[1] == '!') { /* =! */
vs_opt = SelNE;
eq[0] = '\0';
opt = eq + 2;
} else {
/* old style assignment */
continue;
}
/*
* For each recognized option
*/
for (op = opt_fields; op->name; op++) {
/*
* Check whether they match
*/
if (FSTREQ(op->name, f)) {
opt = expand_options(opt);
if (op->sel_p != NULL) {
int selok;
if (op->case_insensitive) {
selok = STRCEQ(*op->sel_p, opt);
} else {
selok = STREQ(*op->sel_p, opt);
}
if (vs_opt == SelNE)
selok = !selok;
if (!selok) {
plog(XLOG_MAP, "key %s: map selector %s (=%s) did not %smatch %s",
mapkey,
op->name,
*op->sel_p,
vs_opt == SelNE ? "mis" : "",
opt);
XFREE(opt);
goto out;
}
XFREE(opt);
}
/* check if to apply a function */
if (op->fxn_p) {
int funok;
funok = op->fxn_p(opt);
if (vs_opt == SelNE)
funok = !funok;
if (!funok) {
plog(XLOG_MAP, "key %s: map function %s did not %smatch %s",
mapkey,
op->name,
vs_opt == SelNE ? "mis" : "",
opt);
XFREE(opt);
goto out;
}
XFREE(opt);
}
break; /* break out of for loop */
}
}
if (!op->name)
plog(XLOG_USER, "key %s: Unrecognized key/option \"%s\"", mapkey, f);
}
/* all is ok */
ret = 1;
out:
free(old_o);
return ret;
}
/*
* Skip to next option in the string, but don't scribble over the string.
* However, *p gets repointed to the start of the next string past ';'.
*/
static char *
opt_no_scribble(char **p)
{
char *cp = *p;
char *dp = cp;
char *s = cp;
top:
while (*cp && *cp != ';') {
if (*cp == '\"') {
/*
* Skip past string
*/
cp++;
while (*cp && *cp != '\"')
*dp++ = *cp++;
if (*cp)
cp++;
} else {
*dp++ = *cp++;
}
}
/*
* Skip past any remaining ';'s
*/
while (*cp == ';')
cp++;
/*
* If we have a zero length string
* and there are more fields, then
* parse the next one. This allows
* sequences of empty fields.
*/
if (*cp && dp == s)
goto top;
*p = cp;
return s;
}
/*
* Strip any selectors from a string. Selectors are all assumed to be
* first in the string. This is used for the new /defaults method which will
* use selectors as well.
*/
char *
strip_selectors(char *opts, char *mapkey)
{
/*
* Fill in the global structure fs_static by
* cracking the string opts. opts may be
* scribbled on at will.
*/
char *o = opts;
char *oo = opts;
char *f;
/*
* Scan options. Note that the opt() function scribbles on the opt string.
*/
while (*(f = opt_no_scribble(&o))) {
enum vs_opt vs_opt = VarAss;
char *eq = strchr(f, '=');
if (!eq || eq[1] == '\0' || eq == f) {
/*
* No option or assignment? Return as is.
*/
plog(XLOG_USER, "key %s: No option or assignment in \"%s\"", mapkey, f);
return o;
}
/*
* Check what type of operation is happening
* !=, =! is SelNE
* == is SelEQ
* := is VarAss
*/
if (*(eq-1) == '!') { /* != */
vs_opt = SelNE;
} else if (*(eq-1) == ':') { /* := */
vs_opt = VarAss;
} else if (eq[1] == '=') { /* == */
vs_opt = SelEQ;
} else if (eq[1] == '!') { /* =! */
vs_opt = SelNE;
}
switch (vs_opt) {
case SelEQ:
case SelNE:
/* Skip this selector, maybe there's another one following it */
plog(XLOG_USER, "skipping selector to \"%s\"", o);
/* store previous match. it may have been the first assignment */
oo = o;
break;
case VarAss:
/* found the first assignment, return the string starting with it */
dlog("found first assignment past selectors \"%s\"", o);
return oo;
}
}
/* return the same string by default. should not happen. */
return oo;
}
/*****************************************************************************
*** BOOLEAN FUNCTIONS (return 0 if false, 1 if true): ***
*****************************************************************************/
/* test if arg is any of this host's network names or numbers */
static int
f_in_network(char *arg)
{
int status;
if (!arg)
return 0;
status = is_network_member(arg);
dlog("%s is %son a local network", arg, (status ? "" : "not "));
return status;
}
/*
* Test if arg is any of this host's names or aliases (CNAMES).
* Note: this function compares against the fully expanded host name (hostd).
* XXX: maybe we also need to compare against the stripped host name?
*/
static int
f_xhost(char *arg)
{
struct hostent *hp;
char **cp;
if (!arg)
return 0;
/* simple test: does it match main host name? */
if (STREQ(arg, opt_hostd))
return 1;
/* now find all of the names of "arg" and compare against opt_hostd */
hp = gethostbyname(arg);
if (hp == NULL) {
#ifdef HAVE_HSTRERROR
plog(XLOG_ERROR, "gethostbyname xhost(%s): %s", arg, hstrerror(h_errno));
#else /* not HAVE_HSTRERROR */
plog(XLOG_ERROR, "gethostbyname xhost(%s): h_errno %d", arg, h_errno);
#endif /* not HAVE_HSTRERROR */
return 0;
}
/* check primary name */
if (hp->h_name) {
dlog("xhost: compare %s==%s", hp->h_name, opt_hostd);
if (STREQ(hp->h_name, opt_hostd)) {
plog(XLOG_INFO, "xhost(%s): matched h_name %s", arg, hp->h_name);
return 1;
}
}
/* check all aliases, if any */
if (hp->h_aliases == NULL) {
dlog("gethostbyname(%s) has no aliases", arg);
return 0;
}
cp = hp->h_aliases;
while (*cp) {
dlog("xhost: compare alias %s==%s", *cp, opt_hostd);
if (STREQ(*cp, opt_hostd)) {
plog(XLOG_INFO, "xhost(%s): matched alias %s", arg, *cp);
return 1;
}
cp++;
}
/* nothing matched */
return 0;
}
/* test if this host (short hostname form) is in netgroup (arg) */
static int
f_netgrp(char *arg)
{
int status;
status = innetgr(arg, opt_host, NULL, NULL);
dlog("netgrp = %s status = %d host = %s", arg, status, opt_host);
return status;
}
/* test if this host (fully-qualified name) is in netgroup (arg) */
static int
f_netgrpd(char *arg)
{
int status;
status = innetgr(arg, opt_hostd, NULL, NULL);
dlog("netgrp = %s status = %d hostd = %s", arg, status, opt_hostd);
return status;
}
/* test if file (arg) exists via lstat */
static int
f_exists(char *arg)
{
struct stat buf;
if (lstat(arg, &buf) < 0)
return (0);
else
return (1);
}
/* always false */
static int
f_false(char *arg)
{
return (0);
}
/* always true */
static int
f_true(char *arg)
{
return (1);
}
/*
* Free an option
*/
static void
free_op(opt_apply *p, int b)
{
if (*p->opt) {
XFREE(*p->opt);
}
}
/*
* Normalize slashes in the string.
*/
void
normalize_slash(char *p)
{
char *f, *f0;
if (!(gopt.flags & CFM_NORMALIZE_SLASHES))
return;
f0 = f = strchr(p, '/');
if (f) {
char *t = f;
do {
/* assert(*f == '/'); */
if (f == f0 && f[0] == '/' && f[1] == '/') {
/* copy double slash iff first */
*t++ = *f++;
*t++ = *f++;
} else {
/* copy a single / across */
*t++ = *f++;
}
/* assert(f[-1] == '/'); */
/* skip past more /'s */
while (*f == '/')
f++;
/* assert(*f != '/'); */
/* keep copying up to next / */
while (*f && *f != '/') {
/* support escaped slashes '\/' */
if (f[0] == '\\' && f[1] == '/')
f++; /* skip backslash */
*t++ = *f++;
}
/* assert(*f == 0 || *f == '/'); */
} while (*f);
*t = 0; /* derived from fix by Steven Glassman */
}
}
/*
* Macro-expand an option. Note that this does not
* handle recursive expansions. They will go badly wrong.
* If sel_p is true then old expand selectors, otherwise
* don't expand selectors.
*/
static char *
expand_op(char *opt, int sel_p)
{
#define EXPAND_ERROR "No space to expand \"%s\""
char expbuf[MAXPATHLEN + 1];
char nbuf[NLEN + 1];
char *ep = expbuf;
char *cp = opt;
char *dp;
struct opt *op;
char *cp_orig = opt;
while ((dp = strchr(cp, '$'))) {
char ch;
/*
* First copy up to the $
*/
{
int len = dp - cp;
if (len > 0) {
if (BUFSPACE(ep, len)) {
/*
* We use strncpy (not xstrlcpy) because 'ep' relies on its
* semantics. BUFSPACE guarantees that ep can hold len.
*/
strncpy(ep, cp, len);
ep += len;
} else {
plog(XLOG_ERROR, EXPAND_ERROR, opt);
goto out;
}
}
}
cp = dp + 1;
ch = *cp++;
if (ch == '$') {
if (BUFSPACE(ep, 1)) {
*ep++ = '$';
} else {
plog(XLOG_ERROR, EXPAND_ERROR, opt);
goto out;
}
} else if (ch == '{') {
/* Expansion... */
enum {
E_All, E_Dir, E_File, E_Domain, E_Host
} todo;
/*
* Find closing brace
*/
char *br_p = strchr(cp, '}');
int len;
/*
* Check we found it
*/
if (!br_p) {
/*
* Just give up
*/
plog(XLOG_USER, "No closing '}' in \"%s\"", opt);
goto out;
}
len = br_p - cp;
/*
* Figure out which part of the variable to grab.
*/
if (*cp == '/') {
/*
* Just take the last component
*/
todo = E_File;
cp++;
--len;
} else if (*(br_p-1) == '/') {
/*
* Take all but the last component
*/
todo = E_Dir;
--len;
} else if (*cp == '.') {
/*
* Take domain name
*/
todo = E_Domain;
cp++;
--len;
} else if (*(br_p-1) == '.') {
/*
* Take host name
*/
todo = E_Host;
--len;
} else {
/*
* Take the whole lot
*/
todo = E_All;
}
/*
* Truncate if too long. Since it won't
* match anyway it doesn't matter that
* it has been cut short.
*/
if (len > NLEN)
len = NLEN;
/*
* Put the string into another buffer so
* we can do comparisons.
*
* We use strncpy here (not xstrlcpy) because the dest is meant
* to be truncated and we don't want to log it as an error. The
* use of the BUFSPACE macro above guarantees the safe use of
* strncpy with nbuf.
*/
strncpy(nbuf, cp, len);
nbuf[len] = '\0';
/*
* Advance cp
*/
cp = br_p + 1;
/*
* Search the option array
*/
for (op = opt_fields; op->name; op++) {
/*
* Check for match
*/
if (len == op->nlen && STREQ(op->name, nbuf)) {
char xbuf[NLEN + 3];
char *val;
/*
* Found expansion. Copy
* the correct value field.
*/
if (!(!op->sel_p == !sel_p)) {
/*
* Copy the string across unexpanded
*/
xsnprintf(xbuf, sizeof(xbuf), "${%s%s%s}",
todo == E_File ? "/" :
todo == E_Domain ? "." : "",
nbuf,
todo == E_Dir ? "/" :
todo == E_Host ? "." : "");
val = xbuf;
/*
* Make sure expansion doesn't
* munge the value!
*/
todo = E_All;
} else if (op->sel_p) {
val = *op->sel_p;
} else {
val = *op->optp;
}
if (val) {
/*
* Do expansion:
* ${/var} means take just the last part
* ${var/} means take all but the last part
* ${.var} means take all but first part
* ${var.} means take just the first part
* ${var} means take the whole lot
*/
int vlen = strlen(val);
char *vptr = val;
switch (todo) {
case E_Dir:
vptr = strrchr(val, '/');
if (vptr)
vlen = vptr - val;
vptr = val;
break;
case E_File:
vptr = strrchr(val, '/');
if (vptr) {
vptr++;
vlen = strlen(vptr);
} else
vptr = val;
break;
case E_Domain:
vptr = strchr(val, '.');
if (vptr) {
vptr++;
vlen = strlen(vptr);
} else {
vptr = "";
vlen = 0;
}
break;
case E_Host:
vptr = strchr(val, '.');
if (vptr)
vlen = vptr - val;
vptr = val;
break;
case E_All:
break;
}
if (BUFSPACE(ep, vlen+1)) {
xstrlcpy(ep, vptr, vlen+1);
ep += vlen;
} else {
plog(XLOG_ERROR, EXPAND_ERROR, opt);
goto out;
}
}
/*
* Done with this variable
*/
break;
}
}
/*
* Check that the search was successful
*/
if (!op->name) {
/*
* If it wasn't then scan the
* environment for that name
* and use any value found
*/
char *env = getenv(nbuf);
if (env) {
int vlen = strlen(env);
if (BUFSPACE(ep, vlen+1)) {
xstrlcpy(ep, env, vlen+1);
ep += vlen;
} else {
plog(XLOG_ERROR, EXPAND_ERROR, opt);
goto out;
}
if (amuDebug(D_STR))
plog(XLOG_DEBUG, "Environment gave \"%s\" -> \"%s\"", nbuf, env);
} else {
plog(XLOG_USER, "Unknown sequence \"${%s}\"", nbuf);
}
}
} else {
/*
* Error, error
*/
plog(XLOG_USER, "Unknown $ sequence in \"%s\"", opt);
}
}
out:
/*
* Handle common case - no expansion
*/
if (cp == opt) {
opt = strdup(cp);
} else {
/*
* Finish off the expansion
*/
int vlen = strlen(cp);
if (BUFSPACE(ep, vlen+1)) {
xstrlcpy(ep, cp, vlen+1);
/* ep += vlen; */
} else {
plog(XLOG_ERROR, EXPAND_ERROR, opt);
}
/*
* Save the expansion
*/
opt = strdup(expbuf);
}
normalize_slash(opt);
if (amuDebug(D_STR)) {
plog(XLOG_DEBUG, "Expansion of \"%s\"...", cp_orig);
plog(XLOG_DEBUG, "......... is \"%s\"", opt);
}
return opt;
}
/*
* Wrapper for expand_op
*/
static void
expand_opts(opt_apply *p, int sel_p)
{
if (*p->opt) {
*p->opt = expand_op(*p->opt, sel_p);
} else if (p->val) {
/*
* Do double expansion, remembering
* to free the string from the first
* expansion...
*/
char *s = expand_op(p->val, TRUE);
*p->opt = expand_op(s, sel_p);
XFREE(s);
}
}
/*
* Apply a function to a list of options
*/
static void
apply_opts(void (*op) (opt_apply *, int), opt_apply ppp[], int b)
{
opt_apply *pp;
for (pp = ppp; pp->opt; pp++)
(*op) (pp, b);
}
/*
* Free the option table
*/
void
free_opts(am_opts *fo)
{
/*
* Copy in the structure we are playing with
*/
fs_static = *fo;
/*
* Free previously allocated memory
*/
apply_opts(free_op, to_free, FALSE);
}
/*
* Expand selectors (variables that cannot be assigned to or overridden)
*/
char *
expand_selectors(char *key)
{
return expand_op(key, TRUE);
}
/*
* Expand options (i.e. non-selectors, see above for definition)
*/
static inline char *
expand_options(char *key)
{
return expand_op(key, FALSE);
}
/*
* Remove trailing /'s from a string
* unless the string is a single / (Steven Glassman)
* or unless it is two slashes // (Kevin D. Bond)
* or unless amd.conf says not to touch slashes.
*/
void
deslashify(char *s)
{
if (!(gopt.flags & CFM_NORMALIZE_SLASHES))
return;
if (s && *s) {
char *sl = s + strlen(s);
while (*--sl == '/' && sl > s)
*sl = '\0';
}
}
int
eval_fs_opts(am_opts *fo, char *opts, char *g_opts, char *path, char *key, char *map)
{
int ok = TRUE;
free_opts(fo);
/*
* Clear out the option table
*/
memset((voidp) &fs_static, 0, sizeof(fs_static));
memset((voidp) vars, 0, sizeof(vars));
memset((voidp) fo, 0, sizeof(*fo));
/* set hostname */
opt_host = (char *) am_get_hostname();
/*
* Set key, map & path before expansion
*/
opt_key = key;
opt_map = map;
opt_path = path;
opt_dkey = strchr(key, '.');
if (!opt_dkey) {
opt_dkey = NullStr;
opt_keyd = key;
} else {
opt_keyd = strnsave(key, opt_dkey - key);
opt_dkey++;
if (*opt_dkey == '\0') /* check for 'host.' */
opt_dkey = NullStr;
}
/*
* Expand global options
*/
fs_static.fs_glob = expand_selectors(g_opts);
/*
* Expand local options
*/
fs_static.fs_local = expand_selectors(opts);
/* break global options into fs_static fields */
if ((ok = split_opts(fs_static.fs_glob, key))) {
dlog("global split_opts ok");
/*
* evaluate local selectors
*/
if ((ok = eval_selectors(fs_static.fs_local, key))) {
dlog("local eval_selectors ok");
/* if the local selectors matched, then do the local overrides */
ok = split_opts(fs_static.fs_local, key);
if (ok)
dlog("local split_opts ok");
}
}
/*
* Normalize remote host name.
* 1. Expand variables
* 2. Normalize relative to host tables
* 3. Strip local domains from the remote host
* name before using it in other expansions.
* This makes mount point names and other things
* much shorter, while allowing cross domain
* sharing of mount maps.
*/
apply_opts(expand_opts, rhost_expansion, FALSE);
if (ok && fs_static.opt_rhost && *fs_static.opt_rhost)
host_normalize(&fs_static.opt_rhost);
/*
* Macro expand the options.
* Do this regardless of whether we are accepting
* this mount - otherwise nasty things happen
* with memory allocation.
*/
apply_opts(expand_opts, expansions, FALSE);
/*
* Strip trailing slashes from local pathname...
*/
deslashify(fs_static.opt_fs);
/*
* ok... copy the data back out.
*/
*fo = fs_static;
/*
* Clear defined options
*/
if (opt_keyd != key && opt_keyd != nullstr)
XFREE(opt_keyd);
opt_keyd = nullstr;
opt_dkey = NullStr;
opt_key = opt_map = opt_path = nullstr;
return ok;
}