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wget/src/url.c

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/* URL handling.
Copyright (C) 1995, 1996, 1997, 2000, 2001, 2003, 2003
Free Software Foundation, Inc.
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This file is part of GNU Wget.
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GNU Wget is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or (at
your option) any later version.
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GNU Wget is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
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along with Wget; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
In addition, as a special exception, the Free Software Foundation
gives permission to link the code of its release of Wget with the
OpenSSL project's "OpenSSL" library (or with modified versions of it
that use the same license as the "OpenSSL" library), and distribute
the linked executables. You must obey the GNU General Public License
in all respects for all of the code used other than "OpenSSL". If you
modify this file, you may extend this exception to your version of the
file, but you are not obligated to do so. If you do not wish to do
so, delete this exception statement from your version. */
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#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#ifdef HAVE_STRING_H
# include <string.h>
#else
# include <strings.h>
#endif
#include <sys/types.h>
#ifdef HAVE_UNISTD_H
# include <unistd.h>
#endif
#include <errno.h>
#include <assert.h>
#include "wget.h"
#include "utils.h"
#include "url.h"
#ifndef errno
extern int errno;
#endif
struct scheme_data
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{
char *leading_string;
int default_port;
int enabled;
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};
/* Supported schemes: */
static struct scheme_data supported_schemes[] =
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{
{ "http://", DEFAULT_HTTP_PORT, 1 },
#ifdef HAVE_SSL
{ "https://", DEFAULT_HTTPS_PORT, 1 },
#endif
{ "ftp://", DEFAULT_FTP_PORT, 1 },
/* SCHEME_INVALID */
{ NULL, -1, 0 }
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};
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/* Forward declarations: */
static int path_simplify PARAMS ((char *));
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/* Support for encoding and decoding of URL strings. We determine
whether a character is unsafe through static table lookup. This
code assumes ASCII character set and 8-bit chars. */
enum {
/* rfc1738 reserved chars, preserved from encoding. */
urlchr_reserved = 1,
/* rfc1738 unsafe chars, plus some more. */
urlchr_unsafe = 2
};
#define urlchr_test(c, mask) (urlchr_table[(unsigned char)(c)] & (mask))
#define URL_RESERVED_CHAR(c) urlchr_test(c, urlchr_reserved)
#define URL_UNSAFE_CHAR(c) urlchr_test(c, urlchr_unsafe)
/* Shorthands for the table: */
#define R urlchr_reserved
#define U urlchr_unsafe
#define RU R|U
const static unsigned char urlchr_table[256] =
{
U, U, U, U, U, U, U, U, /* NUL SOH STX ETX EOT ENQ ACK BEL */
U, U, U, U, U, U, U, U, /* BS HT LF VT FF CR SO SI */
U, U, U, U, U, U, U, U, /* DLE DC1 DC2 DC3 DC4 NAK SYN ETB */
U, U, U, U, U, U, U, U, /* CAN EM SUB ESC FS GS RS US */
U, 0, U, RU, 0, U, R, 0, /* SP ! " # $ % & ' */
0, 0, 0, R, 0, 0, 0, R, /* ( ) * + , - . / */
0, 0, 0, 0, 0, 0, 0, 0, /* 0 1 2 3 4 5 6 7 */
0, 0, RU, R, U, R, U, R, /* 8 9 : ; < = > ? */
RU, 0, 0, 0, 0, 0, 0, 0, /* @ A B C D E F G */
0, 0, 0, 0, 0, 0, 0, 0, /* H I J K L M N O */
0, 0, 0, 0, 0, 0, 0, 0, /* P Q R S T U V W */
0, 0, 0, RU, U, RU, U, 0, /* X Y Z [ \ ] ^ _ */
U, 0, 0, 0, 0, 0, 0, 0, /* ` a b c d e f g */
0, 0, 0, 0, 0, 0, 0, 0, /* h i j k l m n o */
0, 0, 0, 0, 0, 0, 0, 0, /* p q r s t u v w */
0, 0, 0, U, U, U, U, U, /* x y z { | } ~ DEL */
U, U, U, U, U, U, U, U, U, U, U, U, U, U, U, U,
U, U, U, U, U, U, U, U, U, U, U, U, U, U, U, U,
U, U, U, U, U, U, U, U, U, U, U, U, U, U, U, U,
U, U, U, U, U, U, U, U, U, U, U, U, U, U, U, U,
U, U, U, U, U, U, U, U, U, U, U, U, U, U, U, U,
U, U, U, U, U, U, U, U, U, U, U, U, U, U, U, U,
U, U, U, U, U, U, U, U, U, U, U, U, U, U, U, U,
U, U, U, U, U, U, U, U, U, U, U, U, U, U, U, U,
};
#undef R
#undef U
#undef RU
/* URL-unescape the string S.
This is done by transforming the sequences "%HH" to the character
represented by the hexadecimal digits HH. If % is not followed by
two hexadecimal digits, it is inserted literally.
The transformation is done in place. If you need the original
string intact, make a copy before calling this function. */
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static void
url_unescape (char *s)
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{
char *t = s; /* t - tortoise */
char *h = s; /* h - hare */
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for (; *h; h++, t++)
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{
if (*h != '%')
{
copychar:
*t = *h;
}
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else
{
/* Do nothing if '%' is not followed by two hex digits. */
if (!h[1] || !h[2] || !(ISXDIGIT (h[1]) && ISXDIGIT (h[2])))
goto copychar;
*t = X2DIGITS_TO_NUM (h[1], h[2]);
h += 2;
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}
}
*t = '\0';
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}
/* The core of url_escape_* functions. Escapes the characters that
match the provided mask in urlchr_table.
If ALLOW_PASSTHROUGH is non-zero, a string with no unsafe chars
will be returned unchanged. If ALLOW_PASSTHROUGH is zero, a
freshly allocated string will be returned in all cases. */
static char *
url_escape_1 (const char *s, unsigned char mask, int allow_passthrough)
{
const char *p1;
char *p2, *newstr;
int newlen;
int addition = 0;
for (p1 = s; *p1; p1++)
if (urlchr_test (*p1, mask))
addition += 2; /* Two more characters (hex digits) */
if (!addition)
return allow_passthrough ? (char *)s : xstrdup (s);
newlen = (p1 - s) + addition;
newstr = (char *)xmalloc (newlen + 1);
p1 = s;
p2 = newstr;
while (*p1)
{
/* Quote the characters that match the test mask. */
if (urlchr_test (*p1, mask))
{
unsigned char c = *p1++;
*p2++ = '%';
*p2++ = XNUM_TO_DIGIT (c >> 4);
*p2++ = XNUM_TO_DIGIT (c & 0xf);
}
else
*p2++ = *p1++;
}
assert (p2 - newstr == newlen);
*p2 = '\0';
return newstr;
}
/* URL-escape the unsafe characters (see urlchr_table) in a given
string, returning a freshly allocated string. */
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char *
url_escape (const char *s)
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{
return url_escape_1 (s, urlchr_unsafe, 0);
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}
/* URL-escape the unsafe characters (see urlchr_table) in a given
string. If no characters are unsafe, S is returned. */
static char *
url_escape_allow_passthrough (const char *s)
{
return url_escape_1 (s, urlchr_unsafe, 1);
}
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enum copy_method { CM_DECODE, CM_ENCODE, CM_PASSTHROUGH };
/* Decide whether to encode, decode, or pass through the char at P.
This used to be a macro, but it got a little too convoluted. */
static inline enum copy_method
decide_copy_method (const char *p)
{
if (*p == '%')
{
if (ISXDIGIT (*(p + 1)) && ISXDIGIT (*(p + 2)))
{
/* %xx sequence: decode it, unless it would decode to an
unsafe or a reserved char; in that case, leave it as
is. */
char preempt = X2DIGITS_TO_NUM (*(p + 1), *(p + 2));
if (URL_UNSAFE_CHAR (preempt) || URL_RESERVED_CHAR (preempt))
return CM_PASSTHROUGH;
else
return CM_DECODE;
}
else
/* Garbled %.. sequence: encode `%'. */
return CM_ENCODE;
}
else if (URL_UNSAFE_CHAR (*p) && !URL_RESERVED_CHAR (*p))
return CM_ENCODE;
else
return CM_PASSTHROUGH;
}
/* Translate a %-escaped (but possibly non-conformant) input string S
into a %-escaped (and conformant) output string. If no characters
are encoded or decoded, return the same string S; otherwise, return
a freshly allocated string with the new contents.
After a URL has been run through this function, the protocols that
use `%' as the quote character can use the resulting string as-is,
while those that don't call url_unescape() to get to the intended
data. This function is also stable: after an input string is
transformed the first time, all further transformations of the
result yield the same result string.
Let's discuss why this function is needed.
Imagine Wget is to retrieve `http://abc.xyz/abc def'. Since a raw
space character would mess up the HTTP request, it needs to be
quoted, like this:
GET /abc%20def HTTP/1.0
It appears that the unsafe chars need to be quoted, for example
with url_escape. But what if we're requested to download
`abc%20def'? url_escape transforms "%" to "%25", which would leave
us with `abc%2520def'. This is incorrect -- since %-escapes are
part of URL syntax, "%20" is the correct way to denote a literal
space on the Wget command line. This leaves us in the conclusion
that in that case Wget should not call url_escape, but leave the
`%20' as is.
And what if the requested URI is `abc%20 def'? If we call
url_escape, we end up with `/abc%2520%20def', which is almost
certainly not intended. If we don't call url_escape, we are left
with the embedded space and cannot complete the request. What the
user meant was for Wget to request `/abc%20%20def', and this is
where reencode_escapes kicks in.
Wget used to solve this by first decoding %-quotes, and then
encoding all the "unsafe" characters found in the resulting string.
This was wrong because it didn't preserve certain URL special
(reserved) characters. For instance, URI containing "a%2B+b" (0x2b
== '+') would get translated to "a%2B%2Bb" or "a++b" depending on
whether we considered `+' reserved (it is). One of these results
is inevitable because by the second step we would lose information
on whether the `+' was originally encoded or not. Both results
were wrong because in CGI parameters + means space, while %2B means
literal plus. reencode_escapes correctly translates the above to
"a%2B+b", i.e. returns the original string.
This function uses an algorithm proposed by Anon Sricharoenchai:
1. Encode all URL_UNSAFE and the "%" that are not followed by 2
hexdigits.
2. Decode all "%XX" except URL_UNSAFE, URL_RESERVED (";/?:@=&") and
"+".
...except that this code conflates the two steps, and decides
whether to encode, decode, or pass through each character in turn.
The function still uses two passes, but their logic is the same --
the first pass exists merely for the sake of allocation. Another
small difference is that we include `+' to URL_RESERVED.
Anon's test case:
"http://abc.xyz/%20%3F%%36%31%25aa% a?a=%61+a%2Ba&b=b%26c%3Dc"
->
"http://abc.xyz/%20%3F%2561%25aa%25%20a?a=a+a%2Ba&b=b%26c%3Dc"
Simpler test cases:
"foo bar" -> "foo%20bar"
"foo%20bar" -> "foo%20bar"
"foo %20bar" -> "foo%20%20bar"
"foo%%20bar" -> "foo%25%20bar" (0x25 == '%')
"foo%25%20bar" -> "foo%25%20bar"
"foo%2%20bar" -> "foo%252%20bar"
"foo+bar" -> "foo+bar" (plus is reserved!)
"foo%2b+bar" -> "foo%2b+bar" */
static char *
reencode_escapes (const char *s)
{
const char *p1;
char *newstr, *p2;
int oldlen, newlen;
int encode_count = 0;
int decode_count = 0;
/* First, pass through the string to see if there's anything to do,
and to calculate the new length. */
for (p1 = s; *p1; p1++)
{
switch (decide_copy_method (p1))
{
case CM_ENCODE:
++encode_count;
break;
case CM_DECODE:
++decode_count;
break;
case CM_PASSTHROUGH:
break;
}
}
if (!encode_count && !decode_count)
/* The string is good as it is. */
return (char *)s; /* C const model sucks. */
oldlen = p1 - s;
/* Each encoding adds two characters (hex digits), while each
decoding removes two characters. */
newlen = oldlen + 2 * (encode_count - decode_count);
newstr = xmalloc (newlen + 1);
p1 = s;
p2 = newstr;
while (*p1)
{
switch (decide_copy_method (p1))
{
case CM_ENCODE:
{
unsigned char c = *p1++;
*p2++ = '%';
*p2++ = XNUM_TO_DIGIT (c >> 4);
*p2++ = XNUM_TO_DIGIT (c & 0xf);
}
break;
case CM_DECODE:
*p2++ = X2DIGITS_TO_NUM (p1[1], p1[2]);
p1 += 3; /* skip %xx */
break;
case CM_PASSTHROUGH:
*p2++ = *p1++;
}
}
*p2 = '\0';
assert (p2 - newstr == newlen);
return newstr;
}
/* Returns the scheme type if the scheme is supported, or
SCHEME_INVALID if not. */
enum url_scheme
url_scheme (const char *url)
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{
int i;
for (i = 0; supported_schemes[i].leading_string; i++)
if (0 == strncasecmp (url, supported_schemes[i].leading_string,
strlen (supported_schemes[i].leading_string)))
{
if (supported_schemes[i].enabled)
return (enum url_scheme) i;
else
return SCHEME_INVALID;
}
return SCHEME_INVALID;
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}
#define SCHEME_CHAR(ch) (ISALNUM (ch) || (ch) == '-' || (ch) == '+')
/* Return 1 if the URL begins with any "scheme", 0 otherwise. As
currently implemented, it returns true if URL begins with
[-+a-zA-Z0-9]+: . */
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int
url_has_scheme (const char *url)
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{
const char *p = url;
/* The first char must be a scheme char. */
if (!*p || !SCHEME_CHAR (*p))
return 0;
++p;
/* Followed by 0 or more scheme chars. */
while (*p && SCHEME_CHAR (*p))
++p;
/* Terminated by ':'. */
return *p == ':';
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}
int
scheme_default_port (enum url_scheme scheme)
{
return supported_schemes[scheme].default_port;
}
void
scheme_disable (enum url_scheme scheme)
{
supported_schemes[scheme].enabled = 0;
}
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/* Skip the username and password, if present here. The function
should *not* be called with the complete URL, but with the part
right after the scheme.
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If no username and password are found, return 0. */
static int
url_skip_credentials (const char *url)
{
/* Look for '@' that comes before terminators, such as '/', '?',
'#', or ';'. */
const char *p = (const char *)strpbrk (url, "@/?#;");
if (!p || *p != '@')
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return 0;
return p + 1 - url;
}
/* Parse credentials contained in [BEG, END). The region is expected
to have come from a URL and is unescaped. */
static int
parse_credentials (const char *beg, const char *end, char **user, char **passwd)
{
char *colon;
const char *userend;
if (beg == end)
return 0; /* empty user name */
colon = memchr (beg, ':', end - beg);
if (colon == beg)
return 0; /* again empty user name */
if (colon)
{
*passwd = strdupdelim (colon + 1, end);
userend = colon;
url_unescape (*passwd);
}
else
{
*passwd = NULL;
userend = end;
}
*user = strdupdelim (beg, userend);
url_unescape (*user);
return 1;
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}
/* Used by main.c: detect URLs written using the "shorthand" URL forms
popularized by Netscape and NcFTP. HTTP shorthands look like this:
www.foo.com[:port]/dir/file -> http://www.foo.com[:port]/dir/file
www.foo.com[:port] -> http://www.foo.com[:port]
FTP shorthands look like this:
foo.bar.com:dir/file -> ftp://foo.bar.com/dir/file
foo.bar.com:/absdir/file -> ftp://foo.bar.com//absdir/file
If the URL needs not or cannot be rewritten, return NULL. */
char *
rewrite_shorthand_url (const char *url)
{
const char *p;
if (url_has_scheme (url))
return NULL;
/* Look for a ':' or '/'. The former signifies NcFTP syntax, the
latter Netscape. */
for (p = url; *p && *p != ':' && *p != '/'; p++)
;
if (p == url)
return NULL;
if (*p == ':')
{
const char *pp;
char *res;
/* If the characters after the colon and before the next slash
or end of string are all digits, it's HTTP. */
int digits = 0;
for (pp = p + 1; ISDIGIT (*pp); pp++)
++digits;
if (digits > 0 && (*pp == '/' || *pp == '\0'))
goto http;
/* Prepend "ftp://" to the entire URL... */
res = xmalloc (6 + strlen (url) + 1);
sprintf (res, "ftp://%s", url);
/* ...and replace ':' with '/'. */
res[6 + (p - url)] = '/';
return res;
}
else
{
char *res;
http:
/* Just prepend "http://" to what we have. */
res = xmalloc (7 + strlen (url) + 1);
sprintf (res, "http://%s", url);
return res;
}
}
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static void split_path PARAMS ((const char *, char **, char **));
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/* Like strpbrk, with the exception that it returns the pointer to the
terminating zero (end-of-string aka "eos") if no matching character
is found.
Although I normally balk at Gcc-specific optimizations, it probably
makes sense here: glibc has optimizations that detect strpbrk being
called with literal string as ACCEPT and inline the search. That
optimization is defeated if strpbrk is hidden within the call to
another function. (And no, making strpbrk_or_eos inline doesn't
help because the check for literal accept is in the
preprocessor.) */
#ifdef __GNUC__
#define strpbrk_or_eos(s, accept) ({ \
char *SOE_p = strpbrk (s, accept); \
if (!SOE_p) \
SOE_p = (char *)s + strlen (s); \
SOE_p; \
})
#else /* not __GNUC__ */
static char *
strpbrk_or_eos (const char *s, const char *accept)
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{
char *p = strpbrk (s, accept);
if (!p)
p = (char *)s + strlen (s);
return p;
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}
#endif
/* Turn STR into lowercase; return non-zero if a character was
actually changed. */
static int
lowercase_str (char *str)
{
int change = 0;
for (; *str; str++)
if (ISUPPER (*str))
{
change = 1;
*str = TOLOWER (*str);
}
return change;
}
static char *parse_errors[] = {
#define PE_NO_ERROR 0
N_("No error"),
#define PE_UNSUPPORTED_SCHEME 1
N_("Unsupported scheme"),
#define PE_EMPTY_HOST 2
N_("Empty host"),
#define PE_BAD_PORT_NUMBER 3
N_("Bad port number"),
#define PE_INVALID_USER_NAME 4
N_("Invalid user name"),
#define PE_UNTERMINATED_IPV6_ADDRESS 5
N_("Unterminated IPv6 numeric address"),
#define PE_IPV6_NOT_SUPPORTED 6
N_("IPv6 addresses not supported"),
#define PE_INVALID_IPV6_ADDRESS 7
N_("Invalid IPv6 numeric address")
};
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#ifdef ENABLE_IPV6
/* The following two functions were adapted from glibc. */
static int
is_valid_ipv4_address (const char *str, const char *end)
{
int saw_digit, octets;
int val;
saw_digit = 0;
octets = 0;
val = 0;
while (str < end) {
int ch = *str++;
if (ch >= '0' && ch <= '9') {
val = val * 10 + (ch - '0');
if (val > 255)
return 0;
if (saw_digit == 0) {
if (++octets > 4)
return 0;
saw_digit = 1;
}
} else if (ch == '.' && saw_digit == 1) {
if (octets == 4)
return 0;
val = 0;
saw_digit = 0;
} else
return 0;
}
if (octets < 4)
return 0;
return 1;
}
static const int NS_INADDRSZ = 4;
static const int NS_IN6ADDRSZ = 16;
static const int NS_INT16SZ = 2;
static int
is_valid_ipv6_address (const char *str, const char *end)
{
static const char xdigits[] = "0123456789abcdef";
const char *curtok;
int tp;
const char *colonp;
int saw_xdigit;
unsigned int val;
tp = 0;
colonp = NULL;
if (str == end)
return 0;
/* Leading :: requires some special handling. */
if (*str == ':')
{
++str;
if (str == end || *str != ':')
return 0;
}
curtok = str;
saw_xdigit = 0;
val = 0;
while (str < end) {
int ch = *str++;
const char *pch;
/* if ch is a number, add it to val. */
pch = strchr(xdigits, ch);
if (pch != NULL) {
val <<= 4;
val |= (pch - xdigits);
if (val > 0xffff)
return 0;
saw_xdigit = 1;
continue;
}
/* if ch is a colon ... */
if (ch == ':') {
curtok = str;
if (saw_xdigit == 0) {
if (colonp != NULL)
return 0;
colonp = str + tp;
continue;
} else if (str == end) {
return 0;
}
if (tp > NS_IN6ADDRSZ - NS_INT16SZ)
return 0;
tp += NS_INT16SZ;
saw_xdigit = 0;
val = 0;
continue;
}
/* if ch is a dot ... */
if (ch == '.' && (tp <= NS_IN6ADDRSZ - NS_INADDRSZ) &&
is_valid_ipv4_address(curtok, end) == 1) {
tp += NS_INADDRSZ;
saw_xdigit = 0;
break;
}
return 0;
}
if (saw_xdigit == 1) {
if (tp > NS_IN6ADDRSZ - NS_INT16SZ)
return 0;
tp += NS_INT16SZ;
}
if (colonp != NULL) {
if (tp == NS_IN6ADDRSZ)
return 0;
tp = NS_IN6ADDRSZ;
}
if (tp != NS_IN6ADDRSZ)
return 0;
return 1;
}
#endif
/* Parse a URL.
Return a new struct url if successful, NULL on error. In case of
error, and if ERROR is not NULL, also set *ERROR to the appropriate
error code. */
struct url *
url_parse (const char *url, int *error)
1999-12-02 02:42:23 -05:00
{
struct url *u;
const char *p;
int path_modified, host_modified;
enum url_scheme scheme;
const char *uname_b, *uname_e;
const char *host_b, *host_e;
const char *path_b, *path_e;
const char *params_b, *params_e;
const char *query_b, *query_e;
const char *fragment_b, *fragment_e;
int port;
char *user = NULL, *passwd = NULL;
char *url_encoded = NULL;
int error_code;
scheme = url_scheme (url);
if (scheme == SCHEME_INVALID)
1999-12-02 02:42:23 -05:00
{
error_code = PE_UNSUPPORTED_SCHEME;
goto error;
1999-12-02 02:42:23 -05:00
}
url_encoded = reencode_escapes (url);
p = url_encoded;
p += strlen (supported_schemes[scheme].leading_string);
uname_b = p;
p += url_skip_credentials (p);
uname_e = p;
/* scheme://user:pass@host[:port]... */
/* ^ */
/* We attempt to break down the URL into the components path,
params, query, and fragment. They are ordered like this:
scheme://host[:port][/path][;params][?query][#fragment] */
params_b = params_e = NULL;
query_b = query_e = NULL;
fragment_b = fragment_e = NULL;
host_b = p;
if (*p == '[')
{
/* Handle IPv6 address inside square brackets. Ideally we'd
just look for the terminating ']', but rfc2732 mandates
rejecting invalid IPv6 addresses. */
/* The address begins after '['. */
host_b = p + 1;
host_e = strchr (host_b, ']');
if (!host_e)
{
error_code = PE_UNTERMINATED_IPV6_ADDRESS;
goto error;
}
2003-09-09 15:30:45 -04:00
#ifdef ENABLE_IPV6
/* Check if the IPv6 address is valid. */
if (!is_valid_ipv6_address(host_b, host_e))
{
error_code = PE_INVALID_IPV6_ADDRESS;
goto error;
}
/* Continue parsing after the closing ']'. */
p = host_e + 1;
#else
error_code = PE_IPV6_NOT_SUPPORTED;
goto error;
#endif
}
else
{
p = strpbrk_or_eos (p, ":/;?#");
host_e = p;
}
if (host_b == host_e)
{
error_code = PE_EMPTY_HOST;
goto error;
}
1999-12-02 02:42:23 -05:00
port = scheme_default_port (scheme);
if (*p == ':')
1999-12-02 02:42:23 -05:00
{
const char *port_b, *port_e, *pp;
/* scheme://host:port/tralala */
/* ^ */
++p;
port_b = p;
p = strpbrk_or_eos (p, "/;?#");
port_e = p;
if (port_b == port_e)
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{
/* http://host:/whatever */
/* ^ */
error_code = PE_BAD_PORT_NUMBER;
goto error;
1999-12-02 02:42:23 -05:00
}
for (port = 0, pp = port_b; pp < port_e; pp++)
{
if (!ISDIGIT (*pp))
{
/* http://host:12randomgarbage/blah */
/* ^ */
error_code = PE_BAD_PORT_NUMBER;
goto error;
}
port = 10 * port + (*pp - '0');
}
1999-12-02 02:42:23 -05:00
}
if (*p == '/')
{
++p;
path_b = p;
p = strpbrk_or_eos (p, ";?#");
path_e = p;
}
else
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{
/* Path is not allowed not to exist. */
path_b = path_e = p;
1999-12-02 02:42:23 -05:00
}
if (*p == ';')
1999-12-02 02:42:23 -05:00
{
++p;
params_b = p;
p = strpbrk_or_eos (p, "?#");
params_e = p;
1999-12-02 02:42:23 -05:00
}
if (*p == '?')
1999-12-02 02:42:23 -05:00
{
++p;
query_b = p;
p = strpbrk_or_eos (p, "#");
query_e = p;
/* Hack that allows users to use '?' (a wildcard character) in
FTP URLs without it being interpreted as a query string
delimiter. */
if (scheme == SCHEME_FTP)
{
query_b = query_e = NULL;
path_e = p;
}
1999-12-02 02:42:23 -05:00
}
if (*p == '#')
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{
++p;
fragment_b = p;
p += strlen (p);
fragment_e = p;
1999-12-02 02:42:23 -05:00
}
assert (*p == 0);
if (uname_b != uname_e)
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{
/* http://user:pass@host */
/* ^ ^ */
/* uname_b uname_e */
if (!parse_credentials (uname_b, uname_e - 1, &user, &passwd))
1999-12-02 02:42:23 -05:00
{
error_code = PE_INVALID_USER_NAME;
goto error;
1999-12-02 02:42:23 -05:00
}
}
u = (struct url *)xmalloc (sizeof (struct url));
memset (u, 0, sizeof (*u));
u->scheme = scheme;
u->host = strdupdelim (host_b, host_e);
u->port = port;
u->user = user;
u->passwd = passwd;
u->path = strdupdelim (path_b, path_e);
path_modified = path_simplify (u->path);
split_path (u->path, &u->dir, &u->file);
host_modified = lowercase_str (u->host);
if (params_b)
u->params = strdupdelim (params_b, params_e);
if (query_b)
u->query = strdupdelim (query_b, query_e);
if (fragment_b)
u->fragment = strdupdelim (fragment_b, fragment_e);
if (path_modified || u->fragment || host_modified || path_b == path_e)
{
/* If we suspect that a transformation has rendered what
url_string might return different from URL_ENCODED, rebuild
u->url using url_string. */
u->url = url_string (u, 0);
if (url_encoded != url)
xfree ((char *) url_encoded);
}
else
{
if (url_encoded == url)
u->url = xstrdup (url);
else
u->url = url_encoded;
}
url_encoded = NULL;
return u;
error:
/* Cleanup in case of error: */
if (url_encoded && url_encoded != url)
xfree (url_encoded);
/* Transmit the error code to the caller, if the caller wants to
know. */
if (error)
*error = error_code;
return NULL;
1999-12-02 02:42:23 -05:00
}
/* Return the error message string from ERROR_CODE, which should have
been retrieved from url_parse. The error message is translated. */
const char *
url_error (int error_code)
1999-12-02 02:42:23 -05:00
{
assert (error_code >= 0 && error_code < countof (parse_errors));
return _(parse_errors[error_code]);
1999-12-02 02:42:23 -05:00
}
/* Split PATH into DIR and FILE. PATH comes from the URL and is
expected to be URL-escaped.
The path is split into directory (the part up to the last slash)
and file (the part after the last slash), which are subsequently
unescaped. Examples:
PATH DIR FILE
"foo/bar/baz" "foo/bar" "baz"
"foo/bar/" "foo/bar" ""
"foo" "" "foo"
"foo/bar/baz%2fqux" "foo/bar" "baz/qux" (!)
DIR and FILE are freshly allocated. */
static void
split_path (const char *path, char **dir, char **file)
1999-12-02 02:42:23 -05:00
{
char *last_slash = strrchr (path, '/');
if (!last_slash)
1999-12-02 02:42:23 -05:00
{
*dir = xstrdup ("");
*file = xstrdup (path);
1999-12-02 02:42:23 -05:00
}
else
{
*dir = strdupdelim (path, last_slash);
*file = xstrdup (last_slash + 1);
}
url_unescape (*dir);
url_unescape (*file);
1999-12-02 02:42:23 -05:00
}
/* Note: URL's "full path" is the path with the query string and
params appended. The "fragment" (#foo) is intentionally ignored,
but that might be changed. For example, if the original URL was
"http://host:port/foo/bar/baz;bullshit?querystring#uselessfragment",
the full path will be "/foo/bar/baz;bullshit?querystring". */
/* Return the length of the full path, without the terminating
zero. */
static int
full_path_length (const struct url *url)
{
int len = 0;
#define FROB(el) if (url->el) len += 1 + strlen (url->el)
FROB (path);
FROB (params);
FROB (query);
#undef FROB
return len;
}
/* Write out the full path. */
static void
full_path_write (const struct url *url, char *where)
{
#define FROB(el, chr) do { \
char *f_el = url->el; \
if (f_el) { \
int l = strlen (f_el); \
*where++ = chr; \
memcpy (where, f_el, l); \
where += l; \
} \
} while (0)
FROB (path, '/');
FROB (params, ';');
FROB (query, '?');
#undef FROB
}
/* Public function for getting the "full path". E.g. if u->path is
"foo/bar" and u->query is "param=value", full_path will be
"/foo/bar?param=value". */
1999-12-02 02:42:23 -05:00
char *
url_full_path (const struct url *url)
1999-12-02 02:42:23 -05:00
{
int length = full_path_length (url);
char *full_path = (char *)xmalloc(length + 1);
1999-12-02 02:42:23 -05:00
full_path_write (url, full_path);
full_path[length] = '\0';
1999-12-02 02:42:23 -05:00
return full_path;
}
/* Escape unsafe and reserved characters, except for the slash
characters. */
static char *
url_escape_dir (const char *dir)
{
char *newdir = url_escape_1 (dir, urlchr_unsafe | urlchr_reserved, 1);
char *h, *t;
if (newdir == dir)
return (char *)dir;
/* Unescape slashes in NEWDIR. */
h = newdir; /* hare */
t = newdir; /* tortoise */
for (; *h; h++, t++)
1999-12-02 02:42:23 -05:00
{
/* url_escape_1 having converted '/' to "%2F" exactly. */
if (*h == '%' && h[1] == '2' && h[2] == 'F')
{
*t = '/';
h += 2;
}
else
*t = *h;
1999-12-02 02:42:23 -05:00
}
*t = '\0';
return newdir;
}
/* Sync u->path and u->url with u->dir and u->file. Called after
u->file or u->dir have been changed, typically by the FTP code. */
static void
sync_path (struct url *u)
{
char *newpath, *efile, *edir;
xfree (u->path);
/* u->dir and u->file are not escaped. URL-escape them before
reassembling them into u->path. That way, if they contain
separators like '?' or even if u->file contains slashes, the
path will be correctly assembled. (u->file can contain slashes
if the URL specifies it with %2f, or if an FTP server returns
it.) */
edir = url_escape_dir (u->dir);
efile = url_escape_1 (u->file, urlchr_unsafe | urlchr_reserved, 1);
if (!*edir)
newpath = xstrdup (efile);
else
{
int dirlen = strlen (edir);
int filelen = strlen (efile);
/* Copy "DIR/FILE" to newpath. */
char *p = newpath = xmalloc (dirlen + 1 + filelen + 1);
memcpy (p, edir, dirlen);
p += dirlen;
*p++ = '/';
memcpy (p, efile, filelen);
p += filelen;
*p++ = '\0';
}
u->path = newpath;
if (edir != u->dir)
xfree (edir);
if (efile != u->file)
xfree (efile);
/* Regenerate u->url as well. */
xfree (u->url);
u->url = url_string (u, 0);
1999-12-02 02:42:23 -05:00
}
/* Mutators. Code in ftp.c insists on changing u->dir and u->file.
This way we can sync u->path and u->url when they get changed. */
1999-12-02 02:42:23 -05:00
void
url_set_dir (struct url *url, const char *newdir)
1999-12-02 02:42:23 -05:00
{
xfree (url->dir);
url->dir = xstrdup (newdir);
sync_path (url);
}
1999-12-02 02:42:23 -05:00
void
url_set_file (struct url *url, const char *newfile)
{
xfree (url->file);
url->file = xstrdup (newfile);
sync_path (url);
}
void
url_free (struct url *url)
{
xfree (url->host);
xfree (url->path);
xfree (url->url);
FREE_MAYBE (url->params);
FREE_MAYBE (url->query);
FREE_MAYBE (url->fragment);
FREE_MAYBE (url->user);
FREE_MAYBE (url->passwd);
xfree (url->dir);
xfree (url->file);
xfree (url);
1999-12-02 02:42:23 -05:00
}
/* Create all the necessary directories for PATH (a file). Calls
mkdirhier() internally. */
int
mkalldirs (const char *path)
{
const char *p;
char *t;
struct stat st;
int res;
p = path + strlen (path);
for (; *p != '/' && p != path; p--)
;
1999-12-02 02:42:23 -05:00
/* Don't create if it's just a file. */
if ((p == path) && (*p != '/'))
return 0;
t = strdupdelim (path, p);
1999-12-02 02:42:23 -05:00
/* Check whether the directory exists. */
if ((stat (t, &st) == 0))
{
if (S_ISDIR (st.st_mode))
{
xfree (t);
1999-12-02 02:42:23 -05:00
return 0;
}
else
{
/* If the dir exists as a file name, remove it first. This
is *only* for Wget to work with buggy old CERN http
servers. Here is the scenario: When Wget tries to
retrieve a directory without a slash, e.g.
http://foo/bar (bar being a directory), CERN server will
not redirect it too http://foo/bar/ -- it will generate a
directory listing containing links to bar/file1,
bar/file2, etc. Wget will lose because it saves this
HTML listing to a file `bar', so it cannot create the
directory. To work around this, if the file of the same
name exists, we just remove it and create the directory
anyway. */
DEBUGP (("Removing %s because of directory danger!\n", t));
unlink (t);
}
}
res = make_directory (t);
if (res != 0)
logprintf (LOG_NOTQUIET, "%s: %s", t, strerror (errno));
xfree (t);
1999-12-02 02:42:23 -05:00
return res;
}
/* Functions for constructing the file name out of URL components. */
1999-12-02 02:42:23 -05:00
/* A growable string structure, used by url_file_name and friends.
This should perhaps be moved to utils.c.
The idea is to have a convenient and efficient way to construct a
string by having various functions append data to it. Instead of
passing the obligatory BASEVAR, SIZEVAR and TAILPOS to all the
functions in questions, we pass the pointer to this struct. */
struct growable {
char *base;
int size;
int tail;
};
/* Ensure that the string can accept APPEND_COUNT more characters past
the current TAIL position. If necessary, this will grow the string
and update its allocated size. If the string is already large
enough to take TAIL+APPEND_COUNT characters, this does nothing. */
#define GROW(g, append_size) do { \
struct growable *G_ = g; \
DO_REALLOC (G_->base, G_->size, G_->tail + append_size, char); \
} while (0)
/* Return the tail position of the string. */
#define TAIL(r) ((r)->base + (r)->tail)
/* Move the tail position by APPEND_COUNT characters. */
#define TAIL_INCR(r, append_count) ((r)->tail += append_count)
/* Append the string STR to DEST. NOTICE: the string in DEST is not
terminated. */
static void
append_string (const char *str, struct growable *dest)
1999-12-02 02:42:23 -05:00
{
int l = strlen (str);
GROW (dest, l);
memcpy (TAIL (dest), str, l);
TAIL_INCR (dest, l);
1999-12-02 02:42:23 -05:00
}
/* Append CH to DEST. For example, append_char (0, DEST)
zero-terminates DEST. */
static void
append_char (char ch, struct growable *dest)
1999-12-02 02:42:23 -05:00
{
GROW (dest, 1);
*TAIL (dest) = ch;
TAIL_INCR (dest, 1);
}
1999-12-02 02:42:23 -05:00
enum {
filechr_not_unix = 1, /* unusable on Unix, / and \0 */
filechr_not_windows = 2, /* unusable on Windows, one of \|/<>?:*" */
filechr_control = 4, /* a control character, e.g. 0-31 */
};
1999-12-02 02:42:23 -05:00
#define FILE_CHAR_TEST(c, mask) (filechr_table[(unsigned char)(c)] & (mask))
/* Shorthands for the table: */
#define U filechr_not_unix
#define W filechr_not_windows
#define C filechr_control
1999-12-02 02:42:23 -05:00
#define UW U|W
#define UWC U|W|C
/* Table of characters unsafe under various conditions (see above).
1999-12-02 02:42:23 -05:00
Arguably we could also claim `%' to be unsafe, since we use it as
the escape character. If we ever want to be able to reliably
translate file name back to URL, this would become important
crucial. Right now, it's better to be minimal in escaping. */
const static unsigned char filechr_table[256] =
{
UWC, C, C, C, C, C, C, C, /* NUL SOH STX ETX EOT ENQ ACK BEL */
C, C, C, C, C, C, C, C, /* BS HT LF VT FF CR SO SI */
C, C, C, C, C, C, C, C, /* DLE DC1 DC2 DC3 DC4 NAK SYN ETB */
C, C, C, C, C, C, C, C, /* CAN EM SUB ESC FS GS RS US */
0, 0, W, 0, 0, 0, 0, 0, /* SP ! " # $ % & ' */
0, 0, W, 0, 0, 0, 0, UW, /* ( ) * + , - . / */
0, 0, 0, 0, 0, 0, 0, 0, /* 0 1 2 3 4 5 6 7 */
0, 0, W, 0, W, 0, W, W, /* 8 9 : ; < = > ? */
0, 0, 0, 0, 0, 0, 0, 0, /* @ A B C D E F G */
0, 0, 0, 0, 0, 0, 0, 0, /* H I J K L M N O */
0, 0, 0, 0, 0, 0, 0, 0, /* P Q R S T U V W */
0, 0, 0, 0, W, 0, 0, 0, /* X Y Z [ \ ] ^ _ */
0, 0, 0, 0, 0, 0, 0, 0, /* ` a b c d e f g */
0, 0, 0, 0, 0, 0, 0, 0, /* h i j k l m n o */
0, 0, 0, 0, 0, 0, 0, 0, /* p q r s t u v w */
0, 0, 0, 0, 0, 0, 0, 0, /* x y z { | } ~ DEL */
1999-12-02 02:42:23 -05:00
C, C, C, C, C, C, C, C, C, C, C, C, C, C, C, C, /* 128-143 */
C, C, C, C, C, C, C, C, C, C, C, C, C, C, C, C, /* 144-159 */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
};
2003-09-16 21:59:46 -04:00
#undef U
#undef W
#undef C
#undef UW
#undef UWC
/* FN_PORT_SEP is the separator between host and port in file names
for non-standard port numbers. On Unix this is normally ':', as in
"www.xemacs.org:4001/index.html". Under Windows, we set it to +
because Windows can't handle ':' in file names. */
#define FN_PORT_SEP (opt.restrict_files_os != restrict_windows ? ':' : '+')
/* FN_QUERY_SEP is the separator between the file name and the URL
query, normally '?'. Since Windows cannot handle '?' as part of
file name, we use '@' instead there. */
#define FN_QUERY_SEP (opt.restrict_files_os != restrict_windows ? '?' : '@')
/* Quote path element, characters in [b, e), as file name, and append
the quoted string to DEST. Each character is quoted as per
file_unsafe_char and the corresponding table. */
static void
append_uri_pathel (const char *b, const char *e, struct growable *dest)
{
char *pathel;
int pathlen;
const char *p;
int quoted, outlen;
int mask;
if (opt.restrict_files_os == restrict_unix)
mask = filechr_not_unix;
else
mask = filechr_not_windows;
if (opt.restrict_files_ctrl)
mask |= filechr_control;
/* Copy [b, e) to PATHEL and URL-unescape it. */
BOUNDED_TO_ALLOCA (b, e, pathel);
url_unescape (pathel);
pathlen = strlen (pathel);
/* Go through PATHEL and check how many characters we'll need to
add for file quoting. */
quoted = 0;
for (p = pathel; *p; p++)
if (FILE_CHAR_TEST (*p, mask))
++quoted;
/* p - pathel is the string length. Each quoted char means two
additional characters in the string, hence 2*quoted. */
outlen = (p - pathel) + (2 * quoted);
GROW (dest, outlen);
if (!quoted)
{
/* If there's nothing to quote, we don't need to go through the
string the second time. */
memcpy (TAIL (dest), pathel, outlen);
}
else
{
char *q = TAIL (dest);
for (p = pathel; *p; p++)
{
if (!FILE_CHAR_TEST (*p, mask))
*q++ = *p;
else
{
unsigned char ch = *p;
*q++ = '%';
*q++ = XNUM_TO_DIGIT (ch >> 4);
*q++ = XNUM_TO_DIGIT (ch & 0xf);
}
}
assert (q - TAIL (dest) == outlen);
}
TAIL_INCR (dest, outlen);
}
/* Append to DEST the directory structure that corresponds the
directory part of URL's path. For example, if the URL is
http://server/dir1/dir2/file, this appends "/dir1/dir2".
Each path element ("dir1" and "dir2" in the above example) is
examined, url-unescaped, and re-escaped as file name element.
Additionally, it cuts as many directories from the path as
specified by opt.cut_dirs. For example, if opt.cut_dirs is 1, it
will produce "bar" for the above example. For 2 or more, it will
produce "".
Each component of the path is quoted for use as file name. */
static void
append_dir_structure (const struct url *u, struct growable *dest)
{
char *pathel, *next;
int cut = opt.cut_dirs;
/* Go through the path components, de-URL-quote them, and quote them
(if necessary) as file names. */
pathel = u->path;
for (; (next = strchr (pathel, '/')) != NULL; pathel = next + 1)
{
if (cut-- > 0)
continue;
if (pathel == next)
/* Ignore empty pathels. path_simplify should remove
occurrences of "//" from the path, but it has special cases
for starting / which generates an empty pathel here. */
continue;
if (dest->tail)
append_char ('/', dest);
append_uri_pathel (pathel, next, dest);
}
}
/* Return a unique file name that matches the given URL as good as
possible. Does not create directories on the file system. */
1999-12-02 02:42:23 -05:00
char *
url_file_name (const struct url *u)
1999-12-02 02:42:23 -05:00
{
struct growable fnres;
char *u_file, *u_query;
char *fname, *unique;
1999-12-02 02:42:23 -05:00
fnres.base = NULL;
fnres.size = 0;
fnres.tail = 0;
/* Start with the directory prefix, if specified. */
if (opt.dir_prefix)
append_string (opt.dir_prefix, &fnres);
/* If "dirstruct" is turned on (typically the case with -r), add
the host and port (unless those have been turned off) and
directory structure. */
1999-12-02 02:42:23 -05:00
if (opt.dirstruct)
{
if (opt.add_hostdir)
1999-12-02 02:42:23 -05:00
{
if (fnres.tail)
append_char ('/', &fnres);
append_string (u->host, &fnres);
if (u->port != scheme_default_port (u->scheme))
{
char portstr[24];
number_to_string (portstr, u->port);
append_char (FN_PORT_SEP, &fnres);
append_string (portstr, &fnres);
}
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}
append_dir_structure (u, &fnres);
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}
/* Add the file name. */
if (fnres.tail)
append_char ('/', &fnres);
u_file = *u->file ? u->file : "index.html";
append_uri_pathel (u_file, u_file + strlen (u_file), &fnres);
/* Append "?query" to the file name. */
u_query = u->query && *u->query ? u->query : NULL;
if (u_query)
{
append_char (FN_QUERY_SEP, &fnres);
append_uri_pathel (u_query, u_query + strlen (u_query), &fnres);
}
/* Zero-terminate the file name. */
append_char ('\0', &fnres);
fname = fnres.base;
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/* Check the cases in which the unique extensions are not used:
1) Clobbering is turned off (-nc).
2) Retrieval with regetting.
3) Timestamping is used.
4) Hierarchy is built.
The exception is the case when file does exist and is a
directory (see `mkalldirs' for explanation). */
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if ((opt.noclobber || opt.always_rest || opt.timestamping || opt.dirstruct)
&& !(file_exists_p (fname) && !file_non_directory_p (fname)))
return fname;
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unique = unique_name (fname, 1);
if (unique != fname)
xfree (fname);
return unique;
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}
/* Return the length of URL's path. Path is considered to be
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terminated by one of '?', ';', '#', or by the end of the
string. */
static int
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path_length (const char *url)
{
const char *q = strpbrk_or_eos (url, "?;#");
return q - url;
}
/* Find the last occurrence of character C in the range [b, e), or
2001-12-14 10:46:00 -05:00
NULL, if none are present. This is equivalent to strrchr(b, c),
except that it accepts an END argument instead of requiring the
string to be zero-terminated. Why is there no memrchr()? */
static const char *
find_last_char (const char *b, const char *e, char c)
{
for (; e > b; e--)
if (*e == c)
return e;
return NULL;
}
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/* Resolve "." and ".." elements of PATH by destructively modifying
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PATH and return non-zero if PATH has been modified, zero otherwise.
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2003-09-22 08:03:34 -04:00
The algorithm is in spirit similar to the one described in rfc1808,
although implemented differently, in one pass. To recap, path
elements containing only "." are removed, and ".." is taken to mean
"back up one element". Single leading and trailing slashes are
preserved.
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2003-09-22 08:07:20 -04:00
This function does not handle URL escapes explicitly. If you're
passing paths from URLs, make sure to unquote "%2e" and "%2E" to
".", so that this function can find the dots. (Wget's URL parser
calls reencode_escapes, which see.)
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For example, "a/b/c/./../d/.." will yield "a/b/". More exhaustive
test examples are provided below. If you change anything in this
function, run test_path_simplify to make sure you haven't broken a
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test case. */
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static int
path_simplify (char *path)
{
char *h, *t, *end;
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/* Preserve the leading '/'. */
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if (path[0] == '/')
++path;
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h = path; /* hare */
t = path; /* tortoise */
end = path + strlen (path);
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while (h < end)
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{
/* Hare should be at the beginning of a path element. */
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if (h[0] == '.' && (h[1] == '/' || h[1] == '\0'))
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{
/* Ignore "./". */
h += 2;
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}
else if (h[0] == '.' && h[1] == '.' && (h[2] == '/' || h[2] == '\0'))
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{
/* Handle "../" by retreating the tortoise by one path
element -- but not past beggining of PATH. */
if (t > path)
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{
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/* Move backwards until T hits the beginning of the
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previous path element or the beginning of path. */
for (--t; t > path && t[-1] != '/'; t--)
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;
}
h += 3;
}
else if (*h == '/')
{
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/* Ignore empty path elements. Supporting them well is hard
(where do you save "http://x.com///y.html"?), and they
don't bring any practical gain. Plus, they break our
filesystem-influenced assumptions: allowing them would
make "x/y//../z" simplify to "x/y/z", whereas most people
would expect "x/z". */
++h;
}
else
{
/* A regular path element. If H hasn't advanced past T,
simply skip to the next path element. Otherwise, copy
the path element until the next slash. */
if (t == h)
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{
/* Skip the path element, including the slash. */
while (h < end && *h != '/')
t++, h++;
if (h < end)
t++, h++;
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}
else
{
/* Copy the path element, including the final slash. */
while (h < end && *h != '/')
*t++ = *h++;
if (h < end)
*t++ = *h++;
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}
}
}
if (t != h)
*t = '\0';
return t != h;
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}
/* Merge BASE with LINK and return the resulting URI.
Either of the URIs may be absolute or relative, complete with the
host name, or path only. This tries to reasonably handle all
foreseeable cases. It only employs minimal URL parsing, without
knowledge of the specifics of schemes.
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Perhaps this function should call path_simplify so that the callers
don't have to call url_parse unconditionally. */
char *
uri_merge (const char *base, const char *link)
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{
int linklength;
const char *end;
char *merge;
if (url_has_scheme (link))
return xstrdup (link);
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/* We may not examine BASE past END. */
end = base + path_length (base);
linklength = strlen (link);
if (!*link)
{
/* Empty LINK points back to BASE, query string and all. */
return xstrdup (base);
}
else if (*link == '?')
{
/* LINK points to the same location, but changes the query
string. Examples: */
/* uri_merge("path", "?new") -> "path?new" */
/* uri_merge("path?foo", "?new") -> "path?new" */
/* uri_merge("path?foo#bar", "?new") -> "path?new" */
/* uri_merge("path#foo", "?new") -> "path?new" */
int baselength = end - base;
merge = xmalloc (baselength + linklength + 1);
memcpy (merge, base, baselength);
memcpy (merge + baselength, link, linklength);
merge[baselength + linklength] = '\0';
}
else if (*link == '#')
{
/* uri_merge("path", "#new") -> "path#new" */
/* uri_merge("path#foo", "#new") -> "path#new" */
/* uri_merge("path?foo", "#new") -> "path?foo#new" */
/* uri_merge("path?foo#bar", "#new") -> "path?foo#new" */
int baselength;
const char *end1 = strchr (base, '#');
if (!end1)
end1 = base + strlen (base);
baselength = end1 - base;
merge = xmalloc (baselength + linklength + 1);
memcpy (merge, base, baselength);
memcpy (merge + baselength, link, linklength);
merge[baselength + linklength] = '\0';
}
else if (*link == '/' && *(link + 1) == '/')
{
/* LINK begins with "//" and so is a net path: we need to
replace everything after (and including) the double slash
with LINK. */
/* uri_merge("foo", "//new/bar") -> "//new/bar" */
/* uri_merge("//old/foo", "//new/bar") -> "//new/bar" */
/* uri_merge("http://old/foo", "//new/bar") -> "http://new/bar" */
int span;
const char *slash;
const char *start_insert;
/* Look for first slash. */
slash = memchr (base, '/', end - base);
/* If found slash and it is a double slash, then replace
from this point, else default to replacing from the
beginning. */
if (slash && *(slash + 1) == '/')
start_insert = slash;
else
start_insert = base;
span = start_insert - base;
merge = (char *)xmalloc (span + linklength + 1);
if (span)
memcpy (merge, base, span);
memcpy (merge + span, link, linklength);
merge[span + linklength] = '\0';
}
else if (*link == '/')
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{
/* LINK is an absolute path: we need to replace everything
after (and including) the FIRST slash with LINK.
So, if BASE is "http://host/whatever/foo/bar", and LINK is
"/qux/xyzzy", our result should be
"http://host/qux/xyzzy". */
int span;
const char *slash;
const char *start_insert = NULL; /* for gcc to shut up. */
const char *pos = base;
int seen_slash_slash = 0;
/* We're looking for the first slash, but want to ignore
double slash. */
again:
slash = memchr (pos, '/', end - pos);
if (slash && !seen_slash_slash)
if (*(slash + 1) == '/')
{
pos = slash + 2;
seen_slash_slash = 1;
goto again;
}
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/* At this point, SLASH is the location of the first / after
"//", or the first slash altogether. START_INSERT is the
pointer to the location where LINK will be inserted. When
examining the last two examples, keep in mind that LINK
begins with '/'. */
if (!slash && !seen_slash_slash)
/* example: "foo" */
/* ^ */
start_insert = base;
else if (!slash && seen_slash_slash)
/* example: "http://foo" */
/* ^ */
start_insert = end;
else if (slash && !seen_slash_slash)
/* example: "foo/bar" */
/* ^ */
start_insert = base;
else if (slash && seen_slash_slash)
/* example: "http://something/" */
/* ^ */
start_insert = slash;
span = start_insert - base;
merge = (char *)xmalloc (span + linklength + 1);
if (span)
memcpy (merge, base, span);
memcpy (merge + span, link, linklength);
merge[span + linklength] = '\0';
}
else
{
/* LINK is a relative URL: we need to replace everything
after last slash (possibly empty) with LINK.
So, if BASE is "whatever/foo/bar", and LINK is "qux/xyzzy",
our result should be "whatever/foo/qux/xyzzy". */
int need_explicit_slash = 0;
int span;
const char *start_insert;
const char *last_slash = find_last_char (base, end, '/');
if (!last_slash)
{
/* No slash found at all. Append LINK to what we have,
but we'll need a slash as a separator.
Example: if base == "foo" and link == "qux/xyzzy", then
we cannot just append link to base, because we'd get
"fooqux/xyzzy", whereas what we want is
"foo/qux/xyzzy".
To make sure the / gets inserted, we set
need_explicit_slash to 1. We also set start_insert
to end + 1, so that the length calculations work out
correctly for one more (slash) character. Accessing
that character is fine, since it will be the
delimiter, '\0' or '?'. */
/* example: "foo?..." */
/* ^ ('?' gets changed to '/') */
start_insert = end + 1;
need_explicit_slash = 1;
}
else if (last_slash && last_slash >= base + 2
&& last_slash[-2] == ':' && last_slash[-1] == '/')
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{
/* example: http://host" */
/* ^ */
start_insert = end + 1;
need_explicit_slash = 1;
}
else
{
/* example: "whatever/foo/bar" */
/* ^ */
start_insert = last_slash + 1;
}
span = start_insert - base;
merge = (char *)xmalloc (span + linklength + 1);
if (span)
memcpy (merge, base, span);
if (need_explicit_slash)
merge[span - 1] = '/';
memcpy (merge + span, link, linklength);
merge[span + linklength] = '\0';
1999-12-02 02:42:23 -05:00
}
return merge;
}
1999-12-02 02:42:23 -05:00
#define APPEND(p, s) do { \
int len = strlen (s); \
memcpy (p, s, len); \
p += len; \
} while (0)
/* Use this instead of password when the actual password is supposed
to be hidden. We intentionally use a generic string without giving
away the number of characters in the password, like previous
versions did. */
#define HIDDEN_PASSWORD "*password*"
/* Recreate the URL string from the data in URL.
If HIDE is non-zero (as it is when we're calling this on a URL we
plan to print, but not when calling it to canonicalize a URL for
use within the program), password will be hidden. Unsafe
characters in the URL will be quoted. */
char *
url_string (const struct url *url, int hide_password)
1999-12-02 02:42:23 -05:00
{
int size;
char *result, *p;
char *quoted_user = NULL, *quoted_passwd = NULL;
int scheme_port = supported_schemes[url->scheme].default_port;
char *scheme_str = supported_schemes[url->scheme].leading_string;
int fplen = full_path_length (url);
int brackets_around_host = 0;
assert (scheme_str != NULL);
/* Make sure the user name and password are quoted. */
if (url->user)
{
quoted_user = url_escape_allow_passthrough (url->user);
if (url->passwd)
{
if (hide_password)
quoted_passwd = HIDDEN_PASSWORD;
else
quoted_passwd = url_escape_allow_passthrough (url->passwd);
}
}
if (strchr (url->host, ':'))
brackets_around_host = 1;
size = (strlen (scheme_str)
+ strlen (url->host)
+ (brackets_around_host ? 2 : 0)
+ fplen
+ 1);
if (url->port != scheme_port)
size += 1 + numdigit (url->port);
if (quoted_user)
{
size += 1 + strlen (quoted_user);
if (quoted_passwd)
size += 1 + strlen (quoted_passwd);
}
p = result = xmalloc (size);
APPEND (p, scheme_str);
if (quoted_user)
{
APPEND (p, quoted_user);
if (quoted_passwd)
{
*p++ = ':';
APPEND (p, quoted_passwd);
}
*p++ = '@';
}
if (brackets_around_host)
*p++ = '[';
APPEND (p, url->host);
if (brackets_around_host)
*p++ = ']';
if (url->port != scheme_port)
{
*p++ = ':';
p = number_to_string (p, url->port);
}
full_path_write (url, p);
p += fplen;
*p++ = '\0';
assert (p - result == size);
if (quoted_user && quoted_user != url->user)
xfree (quoted_user);
if (quoted_passwd && !hide_password
&& quoted_passwd != url->passwd)
xfree (quoted_passwd);
return result;
1999-12-02 02:42:23 -05:00
}
/* Return non-zero if scheme a is similar to scheme b.
Schemes are similar if they are equal. If SSL is supported, schemes
are also similar if one is http (SCHEME_HTTP) and the other is https
(SCHEME_HTTPS). */
int
schemes_are_similar_p (enum url_scheme a, enum url_scheme b)
{
if (a == b)
return 1;
#ifdef HAVE_SSL
if ((a == SCHEME_HTTP && b == SCHEME_HTTPS)
|| (a == SCHEME_HTTPS && b == SCHEME_HTTP))
return 1;
#endif
return 0;
}
2001-12-14 10:46:00 -05:00
#if 0
/* Debugging and testing support for path_simplify. */
/* Debug: run path_simplify on PATH and return the result in a new
string. Useful for calling from the debugger. */
static char *
ps (char *path)
{
char *copy = xstrdup (path);
path_simplify (copy);
return copy;
}
static void
run_test (char *test, char *expected_result, int expected_change)
{
char *test_copy = xstrdup (test);
int modified = path_simplify (test_copy);
if (0 != strcmp (test_copy, expected_result))
{
printf ("Failed path_simplify(\"%s\"): expected \"%s\", got \"%s\".\n",
test, expected_result, test_copy);
}
if (modified != expected_change)
{
if (expected_change == 1)
printf ("Expected no modification with path_simplify(\"%s\").\n",
test);
else
printf ("Expected modification with path_simplify(\"%s\").\n",
test);
}
xfree (test_copy);
}
static void
test_path_simplify (void)
{
static struct {
char *test, *result;
int should_modify;
} tests[] = {
{ "", "", 0 },
{ ".", "", 1 },
{ "..", "", 1 },
{ "foo", "foo", 0 },
{ "foo/bar", "foo/bar", 0 },
{ "foo///bar", "foo/bar", 1 },
{ "foo/.", "foo/", 1 },
{ "foo/./", "foo/", 1 },
{ "foo./", "foo./", 0 },
{ "foo/../bar", "bar", 1 },
{ "foo/../bar/", "bar/", 1 },
{ "foo/bar/..", "foo/", 1 },
{ "foo/bar/../x", "foo/x", 1 },
{ "foo/bar/../x/", "foo/x/", 1 },
{ "foo/..", "", 1 },
{ "foo/../..", "", 1 },
{ "a/b/../../c", "c", 1 },
{ "./a/../b", "b", 1 }
};
int i;
for (i = 0; i < countof (tests); i++)
2001-12-14 10:46:00 -05:00
{
char *test = tests[i].test;
char *expected_result = tests[i].result;
int expected_change = tests[i].should_modify;
run_test (test, expected_result, expected_change);
}
/* Now run all the tests with a leading slash before the test case,
to prove that the slash is being preserved. */
for (i = 0; i < countof (tests); i++)
2001-12-14 10:46:00 -05:00
{
char *test, *expected_result;
int expected_change = tests[i].should_modify;
test = xmalloc (1 + strlen (tests[i].test) + 1);
sprintf (test, "/%s", tests[i].test);
expected_result = xmalloc (1 + strlen (tests[i].result) + 1);
sprintf (expected_result, "/%s", tests[i].result);
run_test (test, expected_result, expected_change);
xfree (test);
xfree (expected_result);
}
}
#endif