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DEFINITIONS
This source file includes following definitions.
- APR_DECLARE
- APR_DECLARE
- APR_DECLARE
- APR_DECLARE
- APR_DECLARE
/* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "apr.h"
#include "apr_private.h"
#include "apr_arch_file_io.h"
#include "apr_strings.h"
#include "apr_lib.h"
#include <string.h>
#include <ctype.h>
#ifdef NETWARE
#include <unistd.h>
#include <fsio.h>
#endif
/* WinNT accepts several odd forms of a 'root' path. Under Unicode
* calls (ApiFunctionW) the //?/C:/foo or //?/UNC/mach/share/foo forms
* are accepted. Ansi and Unicode functions both accept the //./C:/foo
* form under WinNT/2K. Since these forms are handled in the utf-8 to
* unicode translation phase, we don't want the user confused by them, so
* we will accept them but always return the canonical C:/ or //mach/share/
*
* OS2 appears immune from the nonsense :)
*/
APR_DECLARE(apr_status_t) apr_filepath_root(const char **rootpath,
const char **inpath,
apr_int32_t flags,
apr_pool_t *p)
{
const char *testpath = *inpath;
char *newpath;
#ifdef NETWARE
char seperator[2] = { 0, 0};
char server[APR_PATH_MAX+1];
char volume[APR_PATH_MAX+1];
char file[APR_PATH_MAX+1];
char *volsep = NULL;
int elements;
if (inpath && *inpath)
volsep = strchr (*inpath, ':');
else
return APR_EBADPATH;
if (strlen(*inpath) > APR_PATH_MAX) {
return APR_EBADPATH;
}
seperator[0] = (flags & APR_FILEPATH_NATIVE) ? '\\' : '/';
/* Allocate and initialize each of the segment buffers
*/
server[0] = volume[0] = file[0] = '\0';
/* If we don't have a volume separator then don't bother deconstructing
the path since we won't use the deconstructed information anyway.
*/
if (volsep) {
/* Split the inpath into its separate parts. */
deconstruct(testpath, server, volume, NULL, file, NULL, &elements, PATH_UNDEF);
/* If we got a volume part then continue splitting out the root.
Otherwise we either have an incomplete or relative path
*/
if (volume && strlen(volume) > 0) {
newpath = apr_pcalloc(p, strlen(server)+strlen(volume)+5);
construct(newpath, server, volume, NULL, NULL, NULL, PATH_NETWARE);
/* NetWare doesn't add the root slash so we need to add it manually.
*/
strcat(newpath, seperator);
*rootpath = newpath;
/* Skip the inpath pointer down to the first non-root character
*/
newpath = volsep;
do {
++newpath;
} while (*newpath && ((*newpath == '/') || (*newpath == '\\')));
*inpath = newpath;
/* Need to handle APR_FILEPATH_TRUENAME checking here. */
return APR_SUCCESS;
}
else
return APR_EBADPATH;
}
else if ((**inpath == '/') || (**inpath == '\\')) {
/* if we have a root path without a volume then just split
in same manner as unix although this path will be
incomplete.
*/
*rootpath = apr_pstrdup(p, seperator);
do {
++(*inpath);
} while ((**inpath == '/') || (**inpath == '\\'));
}
else
return APR_ERELATIVE;
return APR_EINCOMPLETE;
#else /* ndef(NETWARE) */
char seperator[2];
const char *delim1;
const char *delim2;
seperator[0] = (flags & APR_FILEPATH_NATIVE) ? '\\' : '/';
seperator[1] = 0;
if (testpath[0] == '/' || testpath[0] == '\\') {
if (testpath[1] == '/' || testpath[1] == '\\') {
#ifdef WIN32 /* //server/share isn't the only // delimited syntax */
if ((testpath[2] == '?' || testpath[2] == '.')
&& (testpath[3] == '/' || testpath[3] == '\\')) {
if (IS_FNCHAR(testpath[4]) && testpath[5] == ':')
{
apr_status_t rv;
testpath += 4;
/* given '//?/C: or //./C: let us try this
* all over again from the drive designator
*/
rv = apr_filepath_root(rootpath, &testpath, flags, p);
if (!rv || rv == APR_EINCOMPLETE)
*inpath = testpath;
return rv;
}
else if (strncasecmp(testpath + 4, "UNC", 3) == 0
&& (testpath[7] == '/' || testpath[7] == '\\')
&& (testpath[2] == '?')) {
/* given '//?/UNC/machine/share, a little magic
* at the end makes this all work out by using
* 'C/machine' as the starting point and replacing
* the UNC delimiters with \'s, including the 'C'
*/
testpath += 6;
}
else
/* This must not be a path to a file, but rather
* a volume or device. Die for now.
*/
return APR_EBADPATH;
}
#endif /* WIN32 (non - //server/share syntax) */
/* Evaluate path of '//[machine/[share[/]]]' */
delim1 = testpath + 2;
do {
/* Protect against //X/ where X is illegal */
if (*delim1 && !IS_FNCHAR(*(delim1++)))
return APR_EBADPATH;
} while (*delim1 && *delim1 != '/' && *delim1 != '\\');
if (*delim1) {
apr_status_t rv;
delim2 = delim1 + 1;
while (*delim2 && *delim2 != '/' && *delim2 != '\\') {
/* Protect against //machine/X/ where X is illegal */
if (!IS_FNCHAR(*(delim2++)))
return APR_EBADPATH;
}
/* Copy the '//machine/[share[/]]' path, always providing
* an extra byte for the trailing slash.
*/
newpath = apr_pstrmemdup(p, testpath, delim2 - testpath + 1);
if (delim2 == delim1 + 1) {
/* We found simply \\machine\, so give up already
*/
*rootpath = newpath;
*inpath = delim2;
return APR_EINCOMPLETE;
}
if (flags & APR_FILEPATH_TRUENAME) {
/* Validate the \\Machine\Share\ designation,
* Win32 will argue about slashed in UNC paths,
* so use backslashes till we finish testing,
* and add the trailing backslash [required].
* apr_pstrmemdup above guarentees us the new
* trailing null character.
*/
newpath[0] = '\\';
newpath[1] = '\\';
newpath[delim1 - testpath] = '\\';
newpath[delim2 - testpath] = '\\';
rv = filepath_root_test(newpath, p);
if (rv)
return rv;
rv = filepath_root_case(&newpath, newpath, p);
if (rv)
return rv;
newpath[0] = seperator[0];
newpath[1] = seperator[0];
newpath[delim1 - testpath] = seperator[0];
newpath[delim2 - testpath] = (*delim2 ? seperator[0] : '\0');
}
else {
/* Give back the caller's own choice of delimiters
*/
newpath[0] = testpath[0];
newpath[1] = testpath[1];
newpath[delim1 - testpath] = *delim1;
newpath[delim2 - testpath] = *delim2;
}
/* If this root included the trailing / or \ designation
* then lop off multiple trailing slashes and give back
* appropriate delimiters.
*/
if (*delim2) {
*inpath = delim2 + 1;
while (**inpath == '/' || **inpath == '\\')
++*inpath;
}
else {
*inpath = delim2;
}
*rootpath = newpath;
return APR_SUCCESS;
}
/* Have path of '\\[machine]', if the machine is given,
* append same trailing slash as the leading slash
*/
delim1 = strchr(testpath, '\0');
if (delim1 > testpath + 2) {
newpath = apr_pstrndup(p, testpath, delim1 - testpath + 1);
if (flags & APR_FILEPATH_TRUENAME)
newpath[delim1 - testpath] = seperator[0];
else
newpath[delim1 - testpath] = newpath[0];
newpath[delim1 - testpath + 1] = '\0';
}
else {
newpath = apr_pstrndup(p, testpath, delim1 - testpath);
}
if (flags & APR_FILEPATH_TRUENAME) {
newpath[0] = seperator[0];
newpath[1] = seperator[0];
}
*rootpath = newpath;
*inpath = delim1;
return APR_EINCOMPLETE;
}
/* Left with a path of '/', what drive are we asking about?
*/
*inpath = testpath + 1;
newpath = apr_palloc(p, 2);
if (flags & APR_FILEPATH_TRUENAME)
newpath[0] = seperator[0];
else
newpath[0] = testpath[0];
newpath[1] = '\0';
*rootpath = newpath;
return APR_EINCOMPLETE;
}
/* Evaluate path of 'd:[/]' */
if (IS_FNCHAR(*testpath) && testpath[1] == ':')
{
apr_status_t rv;
/* Validate that D:\ drive exists, test must be rooted
* Note that posix/win32 insists a drive letter is upper case,
* so who are we to argue with a 'feature'.
* It is a safe fold, since only A-Z is legal, and has no
* side effects of legal mis-mapped non-us-ascii codes.
*/
newpath = apr_palloc(p, 4);
newpath[0] = testpath[0];
newpath[1] = testpath[1];
newpath[2] = seperator[0];
newpath[3] = '\0';
if (flags & APR_FILEPATH_TRUENAME) {
newpath[0] = apr_toupper(newpath[0]);
rv = filepath_root_test(newpath, p);
if (rv)
return rv;
}
/* Just give back the root the user handed to us.
*/
if (testpath[2] != '/' && testpath[2] != '\\') {
newpath[2] = '\0';
*rootpath = newpath;
*inpath = testpath + 2;
return APR_EINCOMPLETE;
}
/* strip off remaining slashes that designate the root,
* give the caller back their original choice of slash
* unless this is TRUENAME'ed
*/
*inpath = testpath + 3;
while (**inpath == '/' || **inpath == '\\')
++*inpath;
if (!(flags & APR_FILEPATH_TRUENAME))
newpath[2] = testpath[2];
*rootpath = newpath;
return APR_SUCCESS;
}
/* Nothing interesting */
return APR_ERELATIVE;
#endif /* ndef(NETWARE) */
}
APR_DECLARE(apr_status_t) apr_filepath_merge(char **newpath,
const char *basepath,
const char *addpath,
apr_int32_t flags,
apr_pool_t *p)
{
char path[APR_PATH_MAX]; /* isn't null term */
const char *baseroot = NULL;
const char *addroot;
apr_size_t rootlen; /* the length of the root portion of path, d:/ is 3 */
apr_size_t baselen; /* the length of basepath (excluding baseroot) */
apr_size_t keptlen; /* the length of the retained basepath (incl root) */
apr_size_t pathlen; /* the length of the result path */
apr_size_t segend; /* the end of the current segment */
apr_size_t seglen; /* the length of the segment (excl trailing chars) */
apr_status_t basetype = 0; /* from parsing the basepath's baseroot */
apr_status_t addtype; /* from parsing the addpath's addroot */
apr_status_t rv;
#ifndef NETWARE
int fixunc = 0; /* flag to complete an incomplete UNC basepath */
#endif
/* Treat null as an empty path, otherwise split addroot from the addpath
*/
if (!addpath) {
addpath = addroot = "";
addtype = APR_ERELATIVE;
}
else {
/* This call _should_ test the path
*/
addtype = apr_filepath_root(&addroot, &addpath,
APR_FILEPATH_TRUENAME
| (flags & APR_FILEPATH_NATIVE),
p);
if (addtype == APR_SUCCESS) {
addtype = APR_EABSOLUTE;
}
else if (addtype == APR_ERELATIVE) {
addroot = "";
}
else if (addtype != APR_EINCOMPLETE) {
/* apr_filepath_root was incomprehensible so fail already
*/
return addtype;
}
}
/* If addpath is (even partially) rooted, then basepath is
* unused. Ths violates any APR_FILEPATH_SECUREROOTTEST
* and APR_FILEPATH_NOTABSOLUTE flags specified.
*/
if (addtype == APR_EABSOLUTE || addtype == APR_EINCOMPLETE)
{
if (flags & APR_FILEPATH_SECUREROOTTEST)
return APR_EABOVEROOT;
if (flags & APR_FILEPATH_NOTABSOLUTE)
return addtype;
}
/* Optimized tests before we query the current working path
*/
if (!basepath) {
/* If APR_FILEPATH_NOTABOVEROOT wasn't specified,
* we won't test the root again, it's ignored.
* Waste no CPU retrieving the working path.
*/
if (addtype == APR_EABSOLUTE && !(flags & APR_FILEPATH_NOTABOVEROOT)) {
basepath = baseroot = "";
basetype = APR_ERELATIVE;
}
/* If APR_FILEPATH_NOTABSOLUTE is specified, the caller
* requires an absolutely relative result, So do not retrieve
* the working path.
*/
if (addtype == APR_ERELATIVE && (flags & APR_FILEPATH_NOTABSOLUTE)) {
basepath = baseroot = "";
basetype = APR_ERELATIVE;
}
}
if (!basepath)
{
/* Start with the current working path. This is bass akwards,
* but required since the compiler (at least vc) doesn't like
* passing the address of a char const* for a char** arg.
* We must grab the current path of the designated drive
* if addroot is given in drive-relative form (e.g. d:foo)
*/
char *getpath;
#ifndef NETWARE
if (addtype == APR_EINCOMPLETE && addroot[1] == ':')
rv = filepath_drive_get(&getpath, addroot[0], flags, p);
else
#endif
rv = apr_filepath_get(&getpath, flags, p);
if (rv != APR_SUCCESS)
return rv;
basepath = getpath;
}
if (!baseroot) {
/* This call should _not_ test the path
*/
basetype = apr_filepath_root(&baseroot, &basepath,
(flags & APR_FILEPATH_NATIVE), p);
if (basetype == APR_SUCCESS) {
basetype = APR_EABSOLUTE;
}
else if (basetype == APR_ERELATIVE) {
baseroot = "";
}
else if (basetype != APR_EINCOMPLETE) {
/* apr_filepath_root was incomprehensible so fail already
*/
return basetype;
}
}
baselen = strlen(basepath);
/* If APR_FILEPATH_NOTABSOLUTE is specified, the caller
* requires an absolutely relative result. If the given
* basepath is not relative then fail.
*/
if ((flags & APR_FILEPATH_NOTABSOLUTE) && basetype != APR_ERELATIVE)
return basetype;
/* The Win32 nightmare on unc street... start combining for
* many possible root combinations.
*/
if (addtype == APR_EABSOLUTE)
{
/* Ignore the given root path, and start with the addroot
*/
if ((flags & APR_FILEPATH_NOTABOVEROOT)
&& strncmp(baseroot, addroot, strlen(baseroot)))
return APR_EABOVEROOT;
keptlen = 0;
rootlen = pathlen = strlen(addroot);
memcpy(path, addroot, pathlen);
}
else if (addtype == APR_EINCOMPLETE)
{
/* There are several types of incomplete paths,
* incomplete UNC paths (//foo/ or //),
* drives without rooted paths (d: as in d:foo),
* and simple roots (/ as in /foo).
* Deal with these in significantly different manners...
*/
#ifndef NETWARE
if ((addroot[0] == '/' || addroot[0] == '\\') &&
(addroot[1] == '/' || addroot[1] == '\\'))
{
/* Ignore the given root path if the incomplete addpath is UNC,
* (note that the final result will be incomplete).
*/
if (flags & APR_FILEPATH_NOTRELATIVE)
return addtype;
if ((flags & APR_FILEPATH_NOTABOVEROOT)
&& strncmp(baseroot, addroot, strlen(baseroot)))
return APR_EABOVEROOT;
fixunc = 1;
keptlen = 0;
rootlen = pathlen = strlen(addroot);
memcpy(path, addroot, pathlen);
}
else
#endif
if ((addroot[0] == '/' || addroot[0] == '\\') && !addroot[1])
{
/* Bring together the drive or UNC root from the baseroot
* if the addpath is a simple root and basepath is rooted,
* otherwise disregard the basepath entirely.
*/
if (basetype != APR_EABSOLUTE && (flags & APR_FILEPATH_NOTRELATIVE))
return basetype;
if (basetype != APR_ERELATIVE) {
#ifndef NETWARE
if (basetype == APR_INCOMPLETE
&& (baseroot[0] == '/' || baseroot[0] == '\\')
&& (baseroot[1] == '/' || baseroot[1] == '\\'))
fixunc = 1;
#endif
keptlen = rootlen = pathlen = strlen(baseroot);
memcpy(path, baseroot, pathlen);
}
else {
if (flags & APR_FILEPATH_NOTABOVEROOT)
return APR_EABOVEROOT;
keptlen = 0;
rootlen = pathlen = strlen(addroot);
memcpy(path, addroot, pathlen);
}
}
#ifdef NETWARE
else if (filepath_has_drive(addroot, DRIVE_ONLY, p))
{
/* If the addroot is a drive (without a volume root)
* use the basepath _if_ it matches this drive letter!
* Otherwise we must discard the basepath.
*/
if (!filepath_compare_drive(addroot, baseroot, p) &&
filepath_has_drive(baseroot, 0, p)) {
#else
else if (addroot[0] && addroot[1] == ':' && !addroot[2])
{
/* If the addroot is a drive (without a volume root)
* use the basepath _if_ it matches this drive letter!
* Otherwise we must discard the basepath.
*/
if (addroot[0] == baseroot[0] && baseroot[1] == ':') {
#endif
/* Base the result path on the basepath
*/
if (basetype != APR_EABSOLUTE && (flags & APR_FILEPATH_NOTRELATIVE))
return basetype;
rootlen = strlen(baseroot);
keptlen = pathlen = rootlen + baselen;
if (keptlen >= sizeof(path))
return APR_ENAMETOOLONG;
memcpy(path, baseroot, rootlen);
memcpy(path + rootlen, basepath, baselen);
}
else {
if (flags & APR_FILEPATH_NOTRELATIVE)
return addtype;
if (flags & APR_FILEPATH_NOTABOVEROOT)
return APR_EABOVEROOT;
keptlen = 0;
rootlen = pathlen = strlen(addroot);
memcpy(path, addroot, pathlen);
}
}
else {
/* Now this is unexpected, we aren't aware of any other
* incomplete path forms! Fail now.
*/
return APR_EBADPATH;
}
}
else { /* addtype == APR_ERELATIVE */
/* If both paths are relative, fail early
*/
if (basetype != APR_EABSOLUTE && (flags & APR_FILEPATH_NOTRELATIVE))
return basetype;
#ifndef NETWARE
/* An incomplete UNC path must be completed
*/
if (basetype == APR_INCOMPLETE
&& (baseroot[0] == '/' || baseroot[0] == '\\')
&& (baseroot[1] == '/' || baseroot[1] == '\\'))
fixunc = 1;
#endif
/* Base the result path on the basepath
*/
rootlen = strlen(baseroot);
keptlen = pathlen = rootlen + baselen;
if (keptlen >= sizeof(path))
return APR_ENAMETOOLONG;
memcpy(path, baseroot, rootlen);
memcpy(path + rootlen, basepath, baselen);
}
/* '/' terminate the given root path unless it's already terminated
* or is an incomplete drive root. Correct the trailing slash unless
* we have an incomplete UNC path still to fix.
*/
if (pathlen && path[pathlen - 1] != ':') {
if (path[pathlen - 1] != '/' && path[pathlen - 1] != '\\') {
if (pathlen + 1 >= sizeof(path))
return APR_ENAMETOOLONG;
path[pathlen++] = ((flags & APR_FILEPATH_NATIVE) ? '\\' : '/');
}
/* XXX: wrong, but gotta figure out what I intended;
* else if (!fixunc)
* path[pathlen++] = ((flags & APR_FILEPATH_NATIVE) ? '\\' : '/');
*/
}
while (*addpath)
{
/* Parse each segment, find the closing '/'
*/
seglen = 0;
while (addpath[seglen] && addpath[seglen] != '/'
&& addpath[seglen] != '\\')
++seglen;
/* Truncate all trailing spaces and all but the first two dots */
segend = seglen;
while (seglen && (addpath[seglen - 1] == ' '
|| addpath[seglen - 1] == '.')) {
if (seglen > 2 || addpath[seglen - 1] != '.' || addpath[0] != '.')
--seglen;
else
break;
}
if (seglen == 0 || (seglen == 1 && addpath[0] == '.'))
{
/* NOTE: win32 _hates_ '/ /' and '/. /' (yes, with spaces in there)
* so eliminate all preconceptions that it is valid.
*/
if (seglen < segend)
return APR_EBADPATH;
#ifndef NETWARE
/* This isn't legal unless the unc path is completed
*/
if (fixunc)
return APR_EBADPATH;
#endif
/* Otherwise, this is a noop segment (/ or ./) so ignore it
*/
}
else if (seglen == 2 && addpath[0] == '.' && addpath[1] == '.')
{
/* NOTE: win32 _hates_ '/.. /' (yes, with a space in there)
* and '/..../', some functions treat it as ".", and some
* fail! Eliminate all preconceptions that they are valid.
*/
if (seglen < segend && (seglen != 3 || addpath[2] != '.'))
return APR_EBADPATH;
#ifndef NETWARE
/* This isn't legal unless the unc path is completed
*/
if (fixunc)
return APR_EBADPATH;
#endif
/* backpath (../) when an absolute path is given */
if (rootlen && (pathlen <= rootlen))
{
/* Attempt to move above root. Always die if the
* APR_FILEPATH_SECUREROOTTEST flag is specified.
*/
if (flags & APR_FILEPATH_SECUREROOTTEST)
return APR_EABOVEROOT;
/* Otherwise this is simply a noop, above root is root.
*/
}
else if (pathlen == 0
|| (pathlen >= 3
&& (pathlen == 3
|| path[pathlen - 4] == ':'
|| path[pathlen - 4] == '/'
|| path[pathlen - 4] == '\\')
&& path[pathlen - 3] == '.'
&& path[pathlen - 2] == '.'
&& (path[pathlen - 1] == '/'
|| path[pathlen - 1] == '\\')))
{
/* Verified path is empty, exactly "..[/\]", or ends
* in "[:/\]..[/\]" - these patterns we will not back
* over since they aren't 'prior segements'.
*
* If APR_FILEPATH_SECUREROOTTEST.was given, die now.
*/
if (flags & APR_FILEPATH_SECUREROOTTEST)
return APR_EABOVEROOT;
/* Otherwise append another backpath.
*/
if (pathlen + 3 >= sizeof(path))
return APR_ENAMETOOLONG;
path[pathlen++] = '.';
path[pathlen++] = '.';
if (addpath[segend]) {
path[pathlen++] = ((flags & APR_FILEPATH_NATIVE)
? '\\' : ((flags & APR_FILEPATH_TRUENAME)
? '/' : addpath[segend]));
}
/* The 'root' part of this path now includes the ../ path,
* because that backpath will not be parsed by the truename
* code below.
*/
keptlen = pathlen;
}
else
{
/* otherwise crop the prior segment
*/
do {
--pathlen;
} while (pathlen && path[pathlen - 1] != '/'
&& path[pathlen - 1] != '\\');
/* Now test if we are above where we started and back up
* the keptlen offset to reflect the added/altered path.
*/
if (pathlen < keptlen)
{
if (flags & APR_FILEPATH_SECUREROOTTEST)
return APR_EABOVEROOT;
keptlen = pathlen;
}
}
}
else /* not empty or dots */
{
#ifndef NETWARE
if (fixunc) {
const char *testpath = path;
const char *testroot;
apr_status_t testtype;
apr_size_t i = (addpath[segend] != '\0');
/* This isn't legal unless the unc path is complete!
*/
if (seglen < segend)
return APR_EBADPATH;
if (pathlen + seglen + 1 >= sizeof(path))
return APR_ENAMETOOLONG;
memcpy(path + pathlen, addpath, seglen + i);
/* Always add the trailing slash to a UNC segment
*/
path[pathlen + seglen] = ((flags & APR_FILEPATH_NATIVE)
? '\\' : '/');
pathlen += seglen + 1;
/* Recanonicalize the UNC root with the new UNC segment,
* and if we succeed, reset this test and the rootlen,
* and replace our path with the canonical UNC root path
*/
path[pathlen] = '\0';
/* This call _should_ test the path
*/
testtype = apr_filepath_root(&testroot, &testpath,
APR_FILEPATH_TRUENAME
| (flags & APR_FILEPATH_NATIVE),
p);
if (testtype == APR_SUCCESS) {
rootlen = pathlen = (testpath - path);
memcpy(path, testroot, pathlen);
fixunc = 0;
}
else if (testtype != APR_EINCOMPLETE) {
/* apr_filepath_root was very unexpected so fail already
*/
return testtype;
}
}
else
#endif
{
/* An actual segment, append it to the destination path
*/
apr_size_t i = (addpath[segend] != '\0');
if (pathlen + seglen + i >= sizeof(path))
return APR_ENAMETOOLONG;
memcpy(path + pathlen, addpath, seglen + i);
if (i)
path[pathlen + seglen] = ((flags & APR_FILEPATH_NATIVE)
? '\\' : '/');
pathlen += seglen + i;
}
}
/* Skip over trailing slash to the next segment
*/
if (addpath[segend])
++segend;
addpath += segend;
}
/* keptlen will be the baselen unless the addpath contained
* backpath elements. If so, and APR_FILEPATH_NOTABOVEROOT
* is specified (APR_FILEPATH_SECUREROOTTEST was caught above),
* compare the string beyond the root to assure the result path
* is still within given basepath. Note that the root path
* segment is thoroughly tested prior to path parsing.
*/
if ((flags & APR_FILEPATH_NOTABOVEROOT) && baselen) {
if (memcmp(basepath, path + rootlen, baselen) != 0)
return APR_EABOVEROOT;
/* Ahem... if we have a basepath without a trailing slash,
* we better be sure that /foo wasn't replaced with /foobar!
*/
if (basepath[baselen - 1] != '/' && basepath[baselen - 1] != '\\'
&& path[rootlen + baselen] && path[rootlen + baselen] != '/'
&& path[rootlen + baselen] != '\\')
return APR_EABOVEROOT;
}
if (addpath && (flags & APR_FILEPATH_TRUENAME)) {
/* We can always skip the root, it's already true-named. */
if (rootlen > keptlen)
keptlen = rootlen;
if ((path[keptlen] == '/') || (path[keptlen] == '\\')) {
/* By rights, keptlen may grown longer than pathlen.
* we wont' use it again (in that case) so we don't care.
*/
++keptlen;
}
/* Go through all the new segments */
while (keptlen < pathlen) {
apr_finfo_t finfo;
char saveslash = 0;
seglen = 0;
/* find any slash and set it aside for a minute. */
for (seglen = 0; keptlen + seglen < pathlen; ++seglen) {
if ((path[keptlen + seglen] == '/') ||
(path[keptlen + seglen] == '\\')) {
saveslash = path[keptlen + seglen];
break;
}
}
/* Null term for stat! */
path[keptlen + seglen] = '\0';
if ((rv = apr_stat(&finfo, path,
APR_FINFO_LINK | APR_FINFO_TYPE | APR_FINFO_NAME, p))
== APR_SUCCESS) {
apr_size_t namelen = strlen(finfo.name);
#if defined(OS2) /* only has case folding, never aliases that change the length */
if (memcmp(finfo.name, path + keptlen, seglen) != 0) {
memcpy(path + keptlen, finfo.name, namelen);
}
#else /* WIN32 || NETWARE; here there be aliases that gire and gimble and change length */
if ((namelen != seglen) ||
(memcmp(finfo.name, path + keptlen, seglen) != 0))
{
if (namelen <= seglen) {
memcpy(path + keptlen, finfo.name, namelen);
if ((namelen < seglen) && saveslash) {
memmove(path + keptlen + namelen + 1,
path + keptlen + seglen + 1,
pathlen - keptlen - seglen);
pathlen += namelen - seglen;
seglen = namelen;
}
}
else { /* namelen > seglen */
if (pathlen + namelen - seglen >= sizeof(path))
return APR_ENAMETOOLONG;
if (saveslash) {
memmove(path + keptlen + namelen + 1,
path + keptlen + seglen + 1,
pathlen - keptlen - seglen);
}
memcpy(path + keptlen, finfo.name, namelen);
pathlen += namelen - seglen;
seglen = namelen;
}
}
#endif /* !OS2 (Whatever that alias was we're over it) */
/* That's it, the rest is path info.
* I don't know how we aught to handle this. Should
* we define a new error to indicate 'more info'?
* Should we split out the rest of the path?
*/
if ((finfo.filetype != APR_DIR) &&
(finfo.filetype != APR_LNK) && saveslash)
rv = APR_ENOTDIR;
#ifdef XXX_FIGURE_THIS_OUT
{
/* the example inserts a null between the end of
* the filename and the next segment, and increments
* the path length so we would return both segments.
*/
if (saveslash) {
keptlen += seglen;
path[keptlen] = saveslash;
if (pathlen + 1 >= sizeof(path))
return APR_ENAMETOOLONG;
memmove(path + keptlen + 1,
path + keptlen,
pathlen - keptlen);
path[keptlen] = '\0';
++pathlen;
break;
}
}
#endif
}
/* put back the '/' */
if (saveslash) {
path[keptlen + seglen] = saveslash;
++seglen;
}
keptlen += seglen;
if (rv != APR_SUCCESS) {
if (APR_STATUS_IS_ENOENT(rv))
break;
if (APR_STATUS_IS_EPATHWILD(rv))
/* This path included wildcards. The path elements
* that did not contain wildcards are canonicalized,
* so we will return the path, although later elements
* don't necessarily exist, and aren't canonical.
*/
break;
else if (APR_STATUS_IS_ENOTDIR(rv))
/* This is a little more serious, we just added a name
* onto a filename (think http's PATH_INFO)
* If the caller is foolish enough to do this, we expect
* the've already canonicalized the root) that they knew
* what they are doing :(
*/
break;
else
return rv;
}
}
}
*newpath = apr_pmemdup(p, path, pathlen + 1);
(*newpath)[pathlen] = '\0';
return APR_SUCCESS;
}
APR_DECLARE(apr_status_t) apr_filepath_list_split(apr_array_header_t **pathelts,
const char *liststr,
apr_pool_t *p)
{
return apr_filepath_list_split_impl(pathelts, liststr, ';', p);
}
APR_DECLARE(apr_status_t) apr_filepath_list_merge(char **liststr,
apr_array_header_t *pathelts,
apr_pool_t *p)
{
return apr_filepath_list_merge_impl(liststr, pathelts, ';', p);
}
APR_DECLARE(apr_status_t) apr_filepath_encoding(int *style, apr_pool_t *p)
{
#if APR_HAS_UNICODE_FS
IF_WIN_OS_IS_UNICODE
{
*style = APR_FILEPATH_ENCODING_UTF8;
return APR_SUCCESS;
}
#endif
*style = APR_FILEPATH_ENCODING_LOCALE;
return APR_SUCCESS;
}