/*
* This is a URL parser, written to parse "Common Internet Scheme" URL
* syntax as described in RFC1738 and updated by RFC2396. Only absolute URLs
* are supported, using "server-based" naming authorities in the schemes.
* Support for literal IPv6 addresses is included, per RFC2732.
*
* Current "known" schemes: http, ftp, file.
*
* We can do all the parsing operations without Runes since URLs are
* defined to be composed of US-ASCII printable characters.
* See RFC1738, RFC2396.
*/
#include <u.h>
#include <libc.h>
#include <ctype.h>
#include <regexp.h>
#include <plumb.h>
#include <thread.h>
#include <fcall.h>
#include <9p.h>
#include "dat.h"
#include "fns.h"
int urldebug;
/* If set, relative paths with leading ".." segments will have them trimmed */
#define RemoveExtraRelDotDots 0
#define ExpandCurrentDocUrls 1
static char*
schemestrtab[] =
{
nil,
"http",
"https",
"ftp",
"file",
};
static int
ischeme(char *s)
{
int i;
for(i=0; i<nelem(schemestrtab); i++)
if(schemestrtab[i] && strcmp(s, schemestrtab[i])==0)
return i;
return USunknown;
}
/*
* URI splitting regexp is from RFC2396, Appendix B:
* ^(([^:/?#]+):)?(//([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))?
* 12 3 4 5 6 7 8 9
*
* Example: "http://www.ics.uci.edu/pub/ietf/uri/#Related"
* $2 = scheme "http"
* $4 = authority "www.ics.uci.edu"
* $5 = path "/pub/ietf/uri/"
* $7 = query <undefined>
* $9 = fragment "Related"
*/
/*
* RFC2396, Sec 3.1, contains:
*
* Scheme names consist of a sequence of characters beginning with a
* lower case letter and followed by any combination of lower case
* letters, digits, plus ("+"), period ("."), or hyphen ("-"). For
* resiliency, programs interpreting URI should treat upper case letters
* as equivalent to lower case in scheme names (e.g., allow "HTTP" as
* well as "http").
*/
/*
* For server-based naming authorities (RFC2396 Sec 3.2.2):
* server = [ [ userinfo "@" ] hostport ]
* userinfo = *( unreserved | escaped |
* ";" | ":" | "&" | "=" | "+" | "$" | "," )
* hostport = host [ ":" port ]
* host = hostname | IPv4address
* hostname = *( domainlabel "." ) toplabel [ "." ]
* domainlabel = alphanum | alphanum *( alphanum | "-" ) alphanum
* toplabel = alpha | alpha *( alphanum | "-" ) alphanum
* IPv4address = 1*digit "." 1*digit "." 1*digit "." 1*digit
* port = *digit
*
* The host is a domain name of a network host, or its IPv4 address as a
* set of four decimal digit groups separated by ".". Literal IPv6
* addresses are not supported.
*
* Note that literal IPv6 address support is outlined in RFC2732:
* host = hostname | IPv4address | IPv6reference
* ipv6reference = "[" IPv6address "]" (RFC2373)
*
* Since hostnames and numbers will have to be resolved by the OS anyway,
* we don't have to parse them too pedantically (counting '.'s, checking
* for well-formed literal IP addresses, etc.).
*
* In FTP/file paths, we reject most ";param"s and querys. In HTTP paths,
* we just pass them through.
*
* Instead of letting a "path" be 0-or-more characters as RFC2396 suggests,
* we'll say it's 1-or-more characters, 0-or-1 times. This way, an absent
* path yields a nil substring match, instead of an empty one.
*
* We're more restrictive than RFC2396 indicates with "userinfo" strings,
* insisting they have the form "[user[:password]]". This may need to
* change at some point, however.
*/
/* RE character-class components -- these go in brackets */
#define PUNCT "\\-_.!~*'()"
#define RES ";/?:@&=+$,"
#define ALNUM "a-zA-Z0-9"
#define HEX "0-9a-fA-F"
#define UNRES ALNUM PUNCT
/* RE components; _N => has N parenthesized subexpressions when expanded */
#define ESCAPED_1 "(%[" HEX "][" HEX "])"
#define URIC_2 "([" RES UNRES "]|" ESCAPED_1 ")"
#define URICNOSLASH_2 "([" UNRES ";?:@&=+$,]|" ESCAPED_1 ")"
#define USERINFO_2 "([" UNRES ";:&=+$,]|" ESCAPED_1 ")"
#define PCHAR_2 "([" UNRES ":@&=+$,]|" ESCAPED_1 ")"
#define PSEGCHAR_3 "([/;]|" PCHAR_2 ")"
typedef struct Retab Retab;
struct Retab
{
char *str;
Reprog *prog;
int size;
int ind[5];
};
enum
{
REsplit = 0,
REscheme,
REunknowndata,
REauthority,
REhost,
REuserinfo,
REabspath,
REquery,
REfragment,
REhttppath,
REftppath,
REfilepath,
MaxResub= 20,
};
Retab retab[] = /* view in constant width Font */
{
[REsplit]
"^(([^:/?#]+):)?(//([^/?#]*))?([^?#]+)?(\\?([^#]*))?(#(.*))?$", nil, 0,
/* |-scheme-| |-auth.-| |path--| |query| |--|frag */
{ 2, 4, 5, 7, 9},
[REscheme]
"^[a-z][a-z0-9+-.]*$", nil, 0,
{ 0, },
[REunknowndata]
"^" URICNOSLASH_2 URIC_2 "*$", nil, 0,
{ 0, },
[REauthority]
"^(((" USERINFO_2 "*)@)?(((\\[[^\\]@]+\\])|([^:\\[@]+))(:([0-9]*))?)?)?$", nil, 0,
/* |----user info-----| |--------host----------------| |-port-| */
{ 3, 7, 11, },
[REhost]
"^(([a-zA-Z0-9\\-.]+)|(\\[([a-fA-F0-9.:]+)\\]))$", nil, 0,
/* |--regular host--| |-IPv6 literal-| */
{ 2, 4, },
[REuserinfo]
"^(([^:]*)(:([^:]*))?)$", nil, 0,
/* |user-| |pass-| */
{ 2, 4, },
[REabspath]
"^/" PSEGCHAR_3 "*$", nil, 0,
{ 0, },
[REquery]
"^" URIC_2 "*$", nil, 0,
{ 0, },
[REfragment]
"^" URIC_2 "*$", nil, 0,
{ 0, },
[REhttppath]
"^.*$", nil, 0,
{ 0, },
[REftppath]
"^(.+)(;[tT][yY][pP][eE]=([aAiIdD]))?$", nil, 0,
/*|--|-path |ftptype-| */
{ 1, 3, },
[REfilepath]
"^.*$", nil, 0,
{ 0, },
};
static int
countleftparen(char *s)
{
int n;
n = 0;
for(; *s; s++)
if(*s == '(')
n++;
return n;
}
void
initurl(void)
{
int i, j;
for(i=0; i<nelem(retab); i++){
retab[i].prog = regcomp(retab[i].str);
if(retab[i].prog == nil)
sysfatal("recomp(%s): %r", retab[i].str);
retab[i].size = countleftparen(retab[i].str)+1;
for(j=0; j<nelem(retab[i].ind); j++)
if(retab[i].ind[j] >= retab[i].size)
sysfatal("bad index in regexp table: retab[%d].ind[%d] = %d >= %d",
i, j, retab[i].ind[j], retab[i].size);
if(MaxResub < retab[i].size)
sysfatal("MaxResub too small: %d < %d", MaxResub, retab[i].size);
}
}
typedef struct SplitUrl SplitUrl;
struct SplitUrl
{
struct {
char *s;
char *e;
} url, scheme, authority, path, query, fragment;
};
/*
* Implements the algorithm in RFC2396 sec 5.2 step 6.
* Returns number of chars written, excluding NUL terminator.
* dest is known to be >= strlen(base)+rel_len.
*/
static void
merge_relative_path(char *base, char *rel_st, int rel_len, char *dest)
{
char *s, *p, *e, *pdest;
pdest = dest;
/* 6a: start with base, discard last segment */
if(base){
/* Empty paths don't match in our scheme; 'base' should be nil */
assert(base[0] == '/');
e = strrchr(base, '/');
e++;
memmove(pdest, base, e-base);
pdest += e-base;
}else{
/* Artistic license on my part */
*pdest++ = '/';
}
/* 6b: append relative component */
if(rel_st){
memmove(pdest, rel_st, rel_len);
pdest += rel_len;
}
/* 6c: remove any occurrences of "./" as a complete segment */
s = dest;
*pdest = '\0';
while(e = strstr(s, "./")){
if((e == dest) || (*(e-1) == '/')){
memmove(e, e+2, pdest+1-(e+2)); /* +1 for NUL */
pdest -= 2;
}else
s = e+1;
}
/* 6d: remove a trailing "." as a complete segment */
if(pdest>dest && *(pdest-1)=='.' &&
(pdest==dest+1 || *(pdest-2)=='/'))
*--pdest = '\0';
/* 6e: remove occurences of "seg/../", where seg != "..", left->right */
s = dest+1;
while(e = strstr(s, "/../")){
p = e - 1;
while(p >= dest && *p != '/')
p--;
if(memcmp(p, "/../", 4) != 0){
memmove(p+1, e+4, pdest+1-(e+4));
pdest -= (e+4) - (p+1);
}else
s = e+1;
}
/* 6f: remove a trailing "seg/..", where seg isn't ".." */
if(pdest-3 > dest && memcmp(pdest-3, "/..", 3)==0){
p = pdest-3 - 1;
while(p >= dest && *p != '/')
p--;
if(memcmp(p, "/../", 4) != 0){
pdest = p+1;
*pdest = '\0';
}
}
/* 6g: leading ".." segments are errors -- we'll just blat them out. */
if(RemoveExtraRelDotDots){
p = dest;
if (p[0] == '/')
p++;
s = p;
while(s[0]=='.' && s[1]=='.' && (s[2]==0 || s[2]=='/'))
s += 3;
if(s > p){
memmove(p, s, pdest+1-s);
pdest -= s-p;
}
}
USED(pdest);
if(urldebug)
fprint(2, "merge_relative_path: '%s' + '%.*s' -> '%s'\n", base, rel_len,
rel_st, dest);
}
/*
* See RFC2396 sec 5.2 for info on resolving relative URIs to absolute form.
*
* If successful, this just ends up freeing and replacing "u->url".
*/
static int
resolve_relative(SplitUrl *su, Url *base, Url *u)
{
char *url, *path;
char *purl, *ppath;
int currentdoc, ulen, plen;
if(base == nil){
werrstr("relative URI given without base");
return -1;
}
if(base->scheme == nil){
werrstr("relative URI given with no scheme");
return -1;
}
if(base->ischeme == USunknown){
werrstr("relative URI given with unknown scheme");
return -1;
}
if(base->ischeme == UScurrent){
werrstr("relative URI given with incomplete base");
return -1;
}
assert(su->scheme.s == nil);
/* Sec 5.2 step 2 */
currentdoc = 0;
if(su->path.s==nil && su->scheme.s==nil && su->authority.s==nil && su->query.s==nil){
/* Reference is to current document */
if(urldebug)
fprint(2, "url %s is relative to current document\n", u->url);
u->ischeme = UScurrent;
if(!ExpandCurrentDocUrls)
return 0;
currentdoc = 1;
}
/* Over-estimate the maximum lengths, for allocation purposes */
/* (constants are for separators) */
plen = 1;
if(base->path)
plen += strlen(base->path);
if(su->path.s)
plen += 1 + (su->path.e - su->path.s);
ulen = 0;
ulen += strlen(base->scheme) + 1;
if(su->authority.s)
ulen += 2 + (su->authority.e - su->authority.s);
else
ulen += 2 + ((base->authority) ? strlen(base->authority) : 0);
ulen += plen;
if(su->query.s)
ulen += 1 + (su->query.e - su->query.s);
else if(currentdoc && base->query)
ulen += 1 + strlen(base->query);
if(su->fragment.s)
ulen += 1 + (su->fragment.e - su->fragment.s);
else if(currentdoc && base->fragment)
ulen += 1 + strlen(base->fragment);
url = emalloc(ulen+1);
path = emalloc(plen+1);
url[0] = '\0';
purl = url;
path[0] = '\0';
ppath = path;
if(su->authority.s || (su->path.s && (su->path.s[0] == '/'))){
/* Is a "network-path" or "absolute-path"; don't merge with base path */
/* Sec 5.2 steps 4,5 */
if(su->path.s){
memmove(ppath, su->path.s, su->path.e - su->path.s);
ppath += su->path.e - su->path.s;
*ppath = '\0';
}
}else if(currentdoc){
/* Is a current-doc reference; just copy the path from the base URL */
if(base->path){
strcpy(ppath, base->path);
ppath += strlen(ppath);
}
USED(ppath);
}else{
/* Is a relative-path reference; we have to merge it */
/* Sec 5.2 step 6 */
merge_relative_path(base->path,
su->path.s, su->path.e - su->path.s, ppath);
}
/* Build new URL from pieces, inheriting from base where needed */
strcpy(purl, base->scheme);
purl += strlen(purl);
*purl++ = ':';
if(su->authority.s){
strcpy(purl, "//");
purl += strlen(purl);
memmove(purl, su->authority.s, su->authority.e - su->authority.s);
purl += su->authority.e - su->authority.s;
}else if(base->authority){
strcpy(purl, "//");
purl += strlen(purl);
strcpy(purl, base->authority);
purl += strlen(purl);
}
assert((path[0] == '\0') || (path[0] == '/'));
strcpy(purl, path);
purl += strlen(purl);
/*
* The query and fragment are not inherited from the base,
* except in case of "current document" URLs, which inherit any query
* and may inherit the fragment.
*/
if(su->query.s){
*purl++ = '?';
memmove(purl, su->query.s, su->query.e - su->query.s);
purl += su->query.e - su->query.s;
}else if(currentdoc && base->query){
*purl++ = '?';
strcpy(purl, base->query);
purl += strlen(purl);
}
if(su->fragment.s){
*purl++ = '#';
memmove(purl, su->query.s, su->query.e - su->query.s);
purl += su->fragment.e - su->fragment.s;
}else if(currentdoc && base->fragment){
*purl++ = '#';
strcpy(purl, base->fragment);
purl += strlen(purl);
}
USED(purl);
if(urldebug)
fprint(2, "resolve_relative: '%s' + '%s' -> '%s'\n", base->url, u->url, url);
free(u->url);
u->url = url;
free(path);
return 0;
}
int
regx(Reprog *prog, char *s, Resub *m, int nm)
{
int i;
if(s == nil)
s = m[0].sp; /* why is this necessary? */
i = regexec(prog, s, m, nm);
/*
if(i >= 0)
for(j=0; j<nm; j++)
fprint(2, "match%d: %.*s\n", j, utfnlen(m[j].sp, m[j].ep-m[j].sp), m[j].sp);
*/
return i;
}
static int
ismatch(int i, char *s, char *desc)
{
Resub m[1];
m[0].sp = m[0].ep = nil;
if(!regx(retab[i].prog, s, m, 1)){
werrstr("malformed %s: %q", desc, s);
return 0;
}
return 1;
}
static int
spliturl(char *url, SplitUrl *su)
{
Resub m[MaxResub];
Retab *t;
/*
* Newlines are not valid in a URI, but regexp(2) treats them specially
* so it's best to make sure there are none before proceeding.
*/
if(strchr(url, '\n')){
werrstr("newline in URI");
return -1;
}
/*
* Because we use NUL-terminated strings, as do many client and server
* implementations, an escaped NUL ("%00") will quite likely cause problems
* when unescaped. We can check for such a sequence once before examining
* the components because, per RFC2396 sec. 2.4.1 - 2.4.2, '%' is reserved
* in URIs to _always_ indicate escape sequences. Something like "%2500"
* will still get by, but that's legitimate, and if it ends up causing
* a NUL then someone is unescaping too many times.
*/
/*
if(strstr(url, "%00")){
werrstr("escaped NUL in URI");
return -1;
}
*/
m[0].sp = m[0].ep = nil;
t = &retab[REsplit];
if(!regx(t->prog, url, m, t->size)){
werrstr("malformed URI: %q", url);
return -1;
}
su->url.s = m[0].sp;
su->url.e = m[0].ep;
su->scheme.s = m[t->ind[0]].sp;
su->scheme.e = m[t->ind[0]].ep;
su->authority.s = m[t->ind[1]].sp;
su->authority.e = m[t->ind[1]].ep;
su->path.s = m[t->ind[2]].sp;
su->path.e = m[t->ind[2]].ep;
su->query.s = m[t->ind[3]].sp;
su->query.e = m[t->ind[3]].ep;
su->fragment.s = m[t->ind[4]].sp;
su->fragment.e = m[t->ind[4]].ep;
if(urldebug)
fprint(2, "split url %s into %.*q %.*q %.*q %.*q %.*q %.*q\n",
url,
su->url.s ? utfnlen(su->url.s, su->url.e-su->url.s) : 10, su->url.s ? su->url.s : "",
su->scheme.s ? utfnlen(su->scheme.s, su->scheme.e-su->scheme.s) : 10, su->scheme.s ? su->scheme.s : "",
su->authority.s ? utfnlen(su->authority.s, su->authority.e-su->authority.s) : 10, su->authority.s ? su->authority.s : "",
su->path.s ? utfnlen(su->path.s, su->path.e-su->path.s) : 10, su->path.s ? su->path.s : "",
su->query.s ? utfnlen(su->query.s, su->query.e-su->query.s) : 10, su->query.s ? su->query.s : "",
su->fragment.s ? utfnlen(su->fragment.s, su->fragment.e-su->fragment.s) : 10, su->fragment.s ? su->fragment.s : "");
return 0;
}
static int
parse_scheme(SplitUrl *su, Url *u)
{
if(su->scheme.s == nil){
werrstr("missing scheme");
return -1;
}
u->scheme = estredup(su->scheme.s, su->scheme.e);
strlower(u->scheme);
if(!ismatch(REscheme, u->scheme, "scheme"))
return -1;
u->ischeme = ischeme(u->scheme);
if(urldebug)
fprint(2, "parse_scheme %s => %d\n", u->scheme, u->ischeme);
return 0;
}
static int
parse_unknown_part(SplitUrl *su, Url *u)
{
char *s, *e;
assert(u->ischeme == USunknown);
assert(su->scheme.e[0] == ':');
s = su->scheme.e+1;
if(su->fragment.s){
e = su->fragment.s-1;
assert(*e == '#');
}else
e = s+strlen(s);
u->schemedata = estredup(s, e);
if(!ismatch(REunknowndata, u->schemedata, "unknown scheme data"))
return -1;
return 0;
}
static int
parse_userinfo(char *s, char *e, Url *u)
{
Resub m[MaxResub];
Retab *t;
m[0].sp = s;
m[0].ep = e;
t = &retab[REuserinfo];
if(!regx(t->prog, nil, m, t->size)){
werrstr("malformed userinfo: %.*q", utfnlen(s, e-s), s);
return -1;
}
if(m[t->ind[0]].sp)
u->user = estredup(m[t->ind[0]].sp, m[t->ind[0]].ep);
if(m[t->ind[1]].sp)
u->user = estredup(m[t->ind[1]].sp, m[t->ind[1]].ep);
return 0;
}
static int
parse_host(char *s, char *e, Url *u)
{
Resub m[MaxResub];
Retab *t;
m[0].sp = s;
m[0].ep = e;
t = &retab[REhost];
if(!regx(t->prog, nil, m, t->size)){
werrstr("malformed host: %.*q", utfnlen(s, e-s), s);
return -1;
}
assert(m[t->ind[0]].sp || m[t->ind[1]].sp);
if(m[t->ind[0]].sp) /* regular */
u->host = estredup(m[t->ind[0]].sp, m[t->ind[0]].ep);
else
u->host = estredup(m[t->ind[1]].sp, m[t->ind[1]].ep);
return 0;
}
static int
parse_authority(SplitUrl *su, Url *u)
{
Resub m[MaxResub];
Retab *t;
char *host;
char *userinfo;
if(su->authority.s == nil)
return 0;
u->authority = estredup(su->authority.s, su->authority.e);
m[0].sp = m[0].ep = nil;
t = &retab[REauthority];
if(!regx(t->prog, u->authority, m, t->size)){
werrstr("malformed authority: %q", u->authority);
return -1;
}
if(m[t->ind[0]].sp)
if(parse_userinfo(m[t->ind[0]].sp, m[t->ind[0]].ep, u) < 0)
return -1;
if(m[t->ind[1]].sp)
if(parse_host(m[t->ind[1]].sp, m[t->ind[1]].ep, u) < 0)
return -1;
if(m[t->ind[2]].sp)
u->port = estredup(m[t->ind[2]].sp, m[t->ind[2]].ep);
if(urldebug > 0){
userinfo = estredup(m[t->ind[0]].sp, m[t->ind[0]].ep);
host = estredup(m[t->ind[1]].sp, m[t->ind[1]].ep);
fprint(2, "port: %q, authority %q\n", u->port, u->authority);
fprint(2, "host %q, userinfo %q\n", host, userinfo);
free(host);
free(userinfo);
}
return 0;
}
static int
parse_abspath(SplitUrl *su, Url *u)
{
if(su->path.s == nil)
return 0;
u->path = estredup(su->path.s, su->path.e);
if(!ismatch(REabspath, u->path, "absolute path"))
return -1;
return 0;
}
static int
parse_query(SplitUrl *su, Url *u)
{
if(su->query.s == nil)
return 0;
u->query = estredup(su->query.s, su->query.e);
if(!ismatch(REquery, u->query, "query"))
return -1;
return 0;
}
static int
parse_fragment(SplitUrl *su, Url *u)
{
if(su->fragment.s == nil)
return 0;
u->fragment = estredup(su->fragment.s, su->fragment.e);
if(!ismatch(REfragment, u->fragment, "fragment"))
return -1;
return 0;
}
static int
postparse_http(Url *u)
{
u->open = httpopen;
u->read = httpread;
u->close = httpclose;
if(u->authority==nil){
werrstr("missing authority (hostname, port, etc.)");
return -1;
}
if(u->host == nil){
werrstr("missing host specification");
return -1;
}
if(u->path == nil){
u->http.page_spec = estrdup("/");
return 0;
}
if(!ismatch(REhttppath, u->path, "http path"))
return -1;
if(u->query){
u->http.page_spec = emalloc(strlen(u->path)+1+strlen(u->query)+1);
strcpy(u->http.page_spec, u->path);
strcat(u->http.page_spec, "?");
strcat(u->http.page_spec, u->query);
}else
u->http.page_spec = estrdup(u->path);
return 0;
}
static int
postparse_ftp(Url *u)
{
Resub m[MaxResub];
Retab *t;
if(u->authority==nil){
werrstr("missing authority (hostname, port, etc.)");
return -1;
}
if(u->query){
werrstr("unexpected \"?query\" in ftp path");
return -1;
}
if(u->host == nil){
werrstr("missing host specification");
return -1;
}
if(u->path == nil){
u->ftp.path_spec = estrdup("/");
return 0;
}
m[0].sp = m[0].ep = nil;
t = &retab[REftppath];
if(!regx(t->prog, u->path, m, t->size)){
werrstr("malformed ftp path: %q", u->path);
return -1;
}
if(m[t->ind[0]].sp){
u->ftp.path_spec = estredup(m[t->ind[0]].sp, m[t->ind[0]].ep);
if(strchr(u->ftp.path_spec, ';')){
werrstr("unexpected \";param\" in ftp path");
return -1;
}
}else
u->ftp.path_spec = estrdup("/");
if(m[t->ind[1]].sp){
u->ftp.type = estredup(m[t->ind[1]].sp, m[t->ind[1]].ep);
strlower(u->ftp.type);
}
return 0;
}
static int
postparse_file(Url *u)
{
if(u->user || u->passwd){
werrstr("user information not valid with file scheme");
return -1;
}
if(u->query){
werrstr("unexpected \"?query\" in file path");
return -1;
}
if(u->port){
werrstr("port not valid with file scheme");
return -1;
}
if(u->path == nil){
werrstr("missing path in file scheme");
return -1;
}
if(strchr(u->path, ';')){
werrstr("unexpected \";param\" in file path");
return -1;
}
if(!ismatch(REfilepath, u->path, "file path"))
return -1;
/* "localhost" is equivalent to no host spec, we'll chose the latter */
if(u->host && cistrcmp(u->host, "localhost") == 0){
free(u->host);
u->host = nil;
}
return 0;
}
static int (*postparse[])(Url*) = {
nil,
postparse_http,
postparse_http,
postparse_ftp,
postparse_file,
};
Url*
parseurl(char *url, Url *base)
{
Url *u;
SplitUrl su;
if(urldebug)
fprint(2, "parseurl %s with base %s\n", url, base ? base->url : "<none>");
u = emalloc(sizeof(Url));
u->url = estrdup(url);
if(spliturl(u->url, &su) < 0){
Fail:
freeurl(u);
return nil;
}
/* RFC2396 sec 3.1 says relative URIs are distinguished by absent scheme */
if(su.scheme.s==nil){
if(urldebug)
fprint(2, "parseurl has nil scheme\n");
if(resolve_relative(&su, base, u) < 0 || spliturl(u->url, &su) < 0)
goto Fail;
if(u->ischeme == UScurrent){
/* 'u.url' refers to current document; set fragment and return */
if(parse_fragment(&su, u) < 0)
goto Fail;
return u;
}
}
if(parse_scheme(&su, u) < 0
|| parse_fragment(&su, u) < 0)
goto Fail;
if(u->ischeme == USunknown){
if(parse_unknown_part(&su, u) < 0)
goto Fail;
return u;
}
if(parse_query(&su, u) < 0
|| parse_authority(&su, u) < 0
|| parse_abspath(&su, u) < 0)
goto Fail;
if(u->ischeme < nelem(postparse) && postparse[u->ischeme])
if((*postparse[u->ischeme])(u) < 0)
goto Fail;
setmalloctag(u, getcallerpc(&url));
return u;
}
void
freeurl(Url *u)
{
if(u == nil)
return;
free(u->url);
free(u->scheme);
free(u->schemedata);
free(u->authority);
free(u->user);
free(u->passwd);
free(u->host);
free(u->port);
free(u->path);
free(u->query);
free(u->fragment);
switch(u->ischeme){
case UShttp:
free(u->http.page_spec);
break;
case USftp:
free(u->ftp.path_spec);
free(u->ftp.type);
break;
}
free(u);
}
void
rewriteurl(Url *u)
{
char *s;
if(u->schemedata)
s = estrmanydup(u->scheme, ":", u->schemedata, nil);
else
s = estrmanydup(u->scheme, "://",
u->user ? u->user : "",
u->passwd ? ":" : "", u->passwd ? u->passwd : "",
u->user ? "@" : "", u->host ? u->host : "",
u->port ? ":" : "", u->port ? u->port : "",
u->path,
u->query ? "?" : "", u->query ? u->query : "",
u->fragment ? "#" : "", u->fragment ? u->fragment : "",
nil);
free(u->url);
u->url = s;
}
int
seturlquery(Url *u, char *query)
{
if(query == nil){
free(u->query);
u->query = nil;
return 0;
}
if(!ismatch(REquery, query, "query"))
return -1;
free(u->query);
u->query = estrdup(query);
return 0;
}
static void
dupp(char **p)
{
if(*p)
*p = estrdup(*p);
}
Url*
copyurl(Url *u)
{
Url *v;
v = emalloc(sizeof(Url));
*v = *u;
dupp(&v->url);
dupp(&v->scheme);
dupp(&v->schemedata);
dupp(&v->authority);
dupp(&v->user);
dupp(&v->passwd);
dupp(&v->host);
dupp(&v->port);
dupp(&v->path);
dupp(&v->query);
dupp(&v->fragment);
switch(v->ischeme){
case UShttp:
dupp(&v->http.page_spec);
break;
case USftp:
dupp(&v->ftp.path_spec);
dupp(&v->ftp.type);
break;
}
return v;
}
static int
dhex(char c)
{
if('0' <= c && c <= '9')
return c-'0';
if('a' <= c && c <= 'f')
return c-'a'+10;
if('A' <= c && c <= 'F')
return c-'A'+10;
return 0;
}
char*
escapeurl(char *s, int (*needesc)(int))
{
int n;
char *t, *u;
Rune r;
static char *hex = "0123456789abcdef";
n = 0;
for(t=s; *t; t++)
if((*needesc)(*t))
n++;
u = emalloc(strlen(s)+2*n+1);
t = u;
for(; *s; s++){
s += chartorune(&r, s);
if(r >= 0xFF){
werrstr("URLs cannot contain Runes > 0xFF");
free(t);
return nil;
}
if((*needesc)(r)){
*u++ = '%';
*u++ = hex[(r>>4)&0xF];
*u++ = hex[r&0xF];
}else
*u++ = r;
}
*u = '\0';
return t;
}
char*
unescapeurl(char *s)
{
char *r, *w;
Rune rune;
s = estrdup(s);
for(r=w=s; *r; r++){
if(*r=='%'){
r++;
if(!isxdigit(r[0]) || !isxdigit(r[1])){
werrstr("bad escape sequence '%.3s' in URL", r);
return nil;
}
if(r[0]=='0' && r[2]=='0'){
werrstr("escaped NUL in URL");
return nil;
}
rune = (dhex(r[0])<<4)|dhex(r[1]); /* latin1 */
w += runetochar(w, &rune);
r += 2;
}else
*w++ = *r;
}
*w = '\0';
return s;
}
|
