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libs-base/Source/NSURL.m
rfm 5434bd0735 osx compat tweak 
git-svn-id: svn+ssh://svn.gna.org/svn/gnustep/libs/base/trunk@28734 72102866-910b-0410-8b05-ffd578937521
2009-09-24 18:34:46 +00:00

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/** NSURL.m - Class NSURL
Copyright (C) 1999 Free Software Foundation, Inc.
Written by: Manuel Guesdon <mguesdon@sbuilders.com>
Date: Jan 1999
Rewrite by: Richard Frith-Macdonald <rfm@gnu.org>
Date: Jun 2002
This file is part of the GNUstep Library.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free
Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02111 USA.
<title>NSURL class reference</title>
$Date$ $Revision$
*/
/*
Note from Manuel Guesdon:
* I've made some test to compare apple NSURL results
and GNUstep NSURL results but as there this class is not very documented, some
function may be incorrect
* I've put 2 functions to make tests. You can add your own tests
* Some functions are not implemented
*/
#import "config.h"
#import "Foundation/NSArray.h"
#import "Foundation/NSCoder.h"
#import "Foundation/NSDebug.h"
#import "Foundation/NSDictionary.h"
#import "Foundation/NSException.h"
#import "Foundation/NSFileManager.h"
#import "Foundation/NSLock.h"
#import "Foundation/NSMapTable.h"
#import "Foundation/NSObject.h"
#import "Foundation/NSPortCoder.h"
#import "Foundation/NSRunLoop.h"
#import "Foundation/NSString.h"
#import "Foundation/NSURL.h"
#import "Foundation/NSURLHandle.h"
#import "Foundation/NSValue.h"
#import "Foundation/NSZone.h"
NSString * const NSURLErrorDomain = @"NSURLErrorDomain";
NSString * const NSErrorFailingURLStringKey = @"NSErrorFailingURLStringKey";
/*
* Structure describing a URL.
* All the char* fields may be NULL pointers, except path, which
* is *always* non-null (though it may be an empty string).
*/
typedef struct {
id absolute; // Cache absolute string or nil
char *scheme;
char *user;
char *password;
char *host;
char *port;
char *path; // May never be NULL
char *parameters;
char *query;
char *fragment;
BOOL pathIsAbsolute;
BOOL hasNoPath;
BOOL isGeneric;
BOOL isFile;
} parsedURL;
#define myData ((parsedURL*)(self->_data))
#define baseData ((self->_baseURL == 0)?0:((parsedURL*)(self->_baseURL->_data)))
static NSLock *clientsLock = nil;
/*
* Local utility functions.
*/
static char *buildURL(parsedURL *base, parsedURL *rel, BOOL standardize);
static id clientForHandle(void *data, NSURLHandle *hdl);
static char *findUp(char *str);
static char *unescape(const char *from, char * to);
/**
* Build an absolute URL as a C string
*/
static char *buildURL(parsedURL *base, parsedURL *rel, BOOL standardize)
{
char *buf;
char *ptr;
char *tmp;
unsigned int len = 1;
if (rel->scheme != 0)
{
len += strlen(rel->scheme) + 3; // scheme://
}
if (rel->user != 0)
{
len += strlen(rel->user) + 1; // user...@
}
if (rel->password != 0)
{
len += strlen(rel->password) + 1; // :password
}
if (rel->host != 0)
{
len += strlen(rel->host) + 1; // host.../
}
if (rel->port != 0)
{
len += strlen(rel->port) + 1; // :port
}
if (rel->path != 0)
{
len += strlen(rel->path) + 1; // path
}
if (base != 0 && base->path != 0)
{
len += strlen(base->path) + 1; // path
}
if (rel->parameters != 0)
{
len += strlen(rel->parameters) + 1; // ;parameters
}
if (rel->query != 0)
{
len += strlen(rel->query) + 1; // ?query
}
if (rel->fragment != 0)
{
len += strlen(rel->fragment) + 1; // #fragment
}
#if GS_WITH_GC
ptr = buf = (char*)NSAllocateCollectable(len, 0);
#else
ptr = buf = (char*)NSZoneMalloc(NSDefaultMallocZone(), len);
#endif
if (rel->scheme != 0)
{
strcpy(ptr, rel->scheme);
ptr = &ptr[strlen(ptr)];
*ptr++ = ':';
}
if (rel->isGeneric == YES
|| rel->user != 0 || rel->password != 0 || rel->host != 0 || rel->port != 0)
{
*ptr++ = '/';
*ptr++ = '/';
if (rel->user != 0 || rel->password != 0)
{
if (rel->user != 0)
{
strcpy(ptr, rel->user);
ptr = &ptr[strlen(ptr)];
}
if (rel->password != 0)
{
*ptr++ = ':';
strcpy(ptr, rel->password);
ptr = &ptr[strlen(ptr)];
}
if (rel->host != 0 || rel->port != 0)
{
*ptr++ = '@';
}
}
if (rel->host != 0)
{
strcpy(ptr, rel->host);
ptr = &ptr[strlen(ptr)];
}
if (rel->port != 0)
{
*ptr++ = ':';
strcpy(ptr, rel->port);
ptr = &ptr[strlen(ptr)];
}
}
/*
* Now build path.
*/
tmp = ptr;
if (rel->pathIsAbsolute == YES)
{
if (rel->hasNoPath == NO)
{
*tmp++ = '/';
}
strcpy(tmp, rel->path);
}
else if (base == 0)
{
strcpy(tmp, rel->path);
}
else if (rel->path[0] == 0)
{
if (base->hasNoPath == NO)
{
*tmp++ = '/';
}
strcpy(tmp, base->path);
}
else
{
char *start = base->path;
char *end = strrchr(start, '/');
if (end != 0)
{
*tmp++ = '/';
strncpy(tmp, start, end - start);
tmp += (end - start);
}
*tmp++ = '/';
strcpy(tmp, rel->path);
}
if (standardize == YES)
{
/*
* Compact '/./' to '/' and strip any trailing '/.'
*/
tmp = ptr;
while (*tmp != '\0')
{
if (tmp[0] == '/' && tmp[1] == '.'
&& (tmp[2] == '/' || tmp[2] == '\0'))
{
/*
* Ensure we don't remove the leading '/'
*/
if (tmp == ptr && tmp[2] == '\0')
{
tmp[1] = '\0';
}
else
{
strcpy(tmp, &tmp[2]);
}
}
else
{
tmp++;
}
}
/*
* Reduce any sequence of '/' characters to a single '/'
*/
tmp = ptr;
while (*tmp != '\0')
{
if (tmp[0] == '/' && tmp[1] == '/')
{
strcpy(tmp, &tmp[1]);
}
else
{
tmp++;
}
}
/*
* Reduce any '/something/../' sequence to '/' and a trailing
* "/something/.." to ""
*/
tmp = ptr;
while ((tmp = findUp(tmp)) != 0)
{
char *next = &tmp[3];
while (tmp > ptr)
{
if (*--tmp == '/')
{
break;
}
}
/*
* Ensure we don't remove the leading '/'
*/
if (tmp == ptr && *next == '\0')
{
tmp[1] = '\0';
}
else
{
strcpy(tmp, next);
}
}
/*
* if we have an empty path, we standardize to a single slash.
*/
tmp = ptr;
if (*tmp == '\0')
{
strcpy(tmp, "/");
}
}
ptr = &ptr[strlen(ptr)];
if (rel->parameters != 0)
{
*ptr++ = ';';
strcpy(ptr, rel->parameters);
ptr = &ptr[strlen(ptr)];
}
if (rel->query != 0)
{
*ptr++ = '?';
strcpy(ptr, rel->query);
ptr = &ptr[strlen(ptr)];
}
if (rel->fragment != 0)
{
*ptr++ = '#';
strcpy(ptr, rel->fragment);
ptr = &ptr[strlen(ptr)];
}
return buf;
}
static id clientForHandle(void *data, NSURLHandle *hdl)
{
id client = nil;
if (data != 0)
{
[clientsLock lock];
client = (id)NSMapGet((NSMapTable*)data, hdl);
[clientsLock unlock];
}
return client;
}
/**
* Locate a '/../ or trailing '/..'
*/
static char *findUp(char *str)
{
while (*str != '\0')
{
if (str[0] == '/' && str[1] == '.' && str[2] == '.'
&& (str[3] == '/' || str[3] == '\0'))
{
return str;
}
str++;
}
return 0;
}
/*
* Check a string to see if it contains only legal data characters
* or percent escape sequences.
*/
static BOOL legal(const char *str, const char *extras)
{
const char *mark = "-_.!~*'()";
if (str != 0)
{
while (*str != 0)
{
if (*str == '%' && isxdigit(str[1]) && isxdigit(str[2]))
{
str += 3;
}
else if (isalnum(*str))
{
str++;
}
else if (strchr(mark, *str) != 0)
{
str++;
}
else if (strchr(extras, *str) != 0)
{
str++;
}
else
{
return NO;
}
}
}
return YES;
}
/*
* Convert percent escape sequences to individual characters.
*/
static char *unescape(const char *from, char * to)
{
while (*from != '\0')
{
if (*from == '%')
{
unsigned char c;
from++;
if (isxdigit(*from))
{
if (*from <= '9')
{
c = *from - '0';
}
else if (*from <= 'F')
{
c = *from - 'A' + 10;
}
else
{
c = *from - 'a' + 10;
}
from++;
}
else
{
c = 0; // Avoid compiler warning
[NSException raise: NSGenericException
format: @"Bad percent escape sequence in URL string"];
}
c <<= 4;
if (isxdigit(*from))
{
if (*from <= '9')
{
c |= *from - '0';
}
else if (*from <= 'F')
{
c |= *from - 'A' + 10;
}
else
{
c |= *from - 'a' + 10;
}
from++;
*to++ = c;
}
else
{
[NSException raise: NSGenericException
format: @"Bad percent escape sequence in URL string"];
}
}
else
{
*to++ = *from++;
}
}
*to = '\0';
return to;
}
/**
* This class permits manipulation of URLs and the resources to which they
* refer. They can be used to represent absolute URLs or relative URLs
* which are based upon an absolute URL. The relevant RFCs describing
* how a URL is formatted, and what is legal in a URL are -
* 1808, 1738, and 2396.<br />
* Handling of the underlying resources is carried out by NSURLHandle
* objects, but NSURL provides a simplified API wrapping these objects.
*/
@implementation NSURL
static unsigned urlAlign;
/**
* Create and return a file URL with the supplied path.<br />
* The value of aPath must be a valid filesystem path.<br />
* Calls -initFileURLWithPath: which escapes characters in the
* path where necessary.
*/
+ (id) fileURLWithPath: (NSString*)aPath
{
return AUTORELEASE([[NSURL alloc] initFileURLWithPath: aPath]);
}
+ (void) initialize
{
if (clientsLock == nil)
{
urlAlign = objc_alignof_type(@encode(parsedURL));
clientsLock = [NSLock new];
}
}
/**
* Create and return a URL with the supplied string, which should
* be a string (containing percent escape codes where necessary)
* conforming to the description (in RFC2396) of an absolute URL.<br />
* Calls -initWithString:
*/
+ (id) URLWithString: (NSString*)aUrlString
{
return AUTORELEASE([[NSURL alloc] initWithString: aUrlString]);
}
/**
* Create and return a URL with the supplied string, which should
* be a string (containing percent escape codes where necessary)
* conforming to the description (in RFC2396) of a relative URL.<br />
* Calls -initWithString:relativeToURL:
*/
+ (id) URLWithString: (NSString*)aUrlString
relativeToURL: (NSURL*)aBaseUrl
{
return AUTORELEASE([[NSURL alloc] initWithString: aUrlString
relativeToURL: aBaseUrl]);
}
/**
* Initialise by building a URL string from the supplied parameters
* and calling -initWithString:relativeToURL:<br />
* This method adds percent escapes to aPath if it contains characters
* which need escaping.<br />
* Accepts RFC2732 style IPv6 host addresses either with or without the
* enclosing square brackets (MacOS-X at least up to version 10.5 does
* not handle these correctly, but GNUstep does).<br />
* Permits the 'aHost' part to contain 'username:password@host:port' or
* 'host:port' in addition to a simple host name or address.
*/
- (id) initWithScheme: (NSString*)aScheme
host: (NSString*)aHost
path: (NSString*)aPath
{
NSString *aUrlString = [NSString alloc];
aPath
= [aPath stringByAddingPercentEscapesUsingEncoding: NSUTF8StringEncoding];
if ([aHost length] > 0)
{
NSRange r = [aHost rangeOfString: @"@"];
NSString *auth = nil;
/* Allow for authentication (username:password) before actual host.
*/
if (r.length > 0)
{
auth = [aHost substringToIndex: r.location];
aHost = [aHost substringFromIndex: NSMaxRange(r)];
}
/* Add square brackets around ipv6 address if necessary
*/
if ([[aHost componentsSeparatedByString: @":"] count] > 2
&& [aHost hasPrefix: @"["] == NO)
{
aHost = [NSString stringWithFormat: @"[%@]", aHost];
}
if (auth != nil)
{
aHost = [NSString stringWithFormat: @"%@@%@", auth, aHost];
}
if ([aPath length] > 0)
{
/*
* For MacOS-X compatibility, assume a path component with
* a leading slash is intended to have that slash separating
* the host from the path as specified in the RFC1738
*/
if ([aPath hasPrefix: @"/"] == YES)
{
aUrlString = [aUrlString initWithFormat: @"%@://%@%@",
aScheme, aHost, aPath];
}
else
{
aUrlString = [aUrlString initWithFormat: @"%@://%@/%@",
aScheme, aHost, aPath];
}
}
else
{
aUrlString = [aUrlString initWithFormat: @"%@://%@/",
aScheme, aHost];
}
}
else
{
if ([aPath length] > 0)
{
aUrlString = [aUrlString initWithFormat: @"%@:%@",
aScheme, aPath];
}
else
{
aUrlString = [aUrlString initWithFormat: @"%@:",
aScheme];
}
}
self = [self initWithString: aUrlString relativeToURL: nil];
RELEASE(aUrlString);
return self;
}
/**
* Initialise as a file URL with the specified path (which must
* be a valid path on the local filesystem).<br />
* Converts relative paths to absolute ones.<br />
* Appends a trailing slash to the path when necessary if it
* specifies a directory.<br />
* Calls -initWithScheme:host:path:
*/
- (id) initFileURLWithPath: (NSString*)aPath
{
NSFileManager *mgr = [NSFileManager defaultManager];
BOOL flag = NO;
if ([aPath isAbsolutePath] == NO)
{
aPath = [[mgr currentDirectoryPath]
stringByAppendingPathComponent: aPath];
}
if ([mgr fileExistsAtPath: aPath isDirectory: &flag] == YES)
{
if ([aPath isAbsolutePath] == NO)
{
aPath = [aPath stringByStandardizingPath];
}
if (flag == YES && [aPath hasSuffix: @"/"] == NO)
{
aPath = [aPath stringByAppendingString: @"/"];
}
}
self = [self initWithScheme: NSURLFileScheme
host: @"localhost"
path: aPath];
return self;
}
/**
* Initialise as an absolute URL.<br />
* Calls -initWithString:relativeToURL:
*/
- (id) initWithString: (NSString*)aUrlString
{
self = [self initWithString: aUrlString relativeToURL: nil];
return self;
}
/** <init />
* Initialised using aUrlString and aBaseUrl. The value of aBaseUrl
* may be nil, but aUrlString must be non-nil.<br />
* Accepts RFC2732 style IPv6 host addresses.<br />
* Parses a string wihthout a scheme as a simple path.<br />
* If the string cannot be parsed the method returns nil.
*/
- (id) initWithString: (NSString*)aUrlString
relativeToURL: (NSURL*)aBaseUrl
{
/* RFC 2396 'reserved' characters ...
* as modified by RFC2732
*/
static const char *reserved = ";/?:@&=+$,[]";
if ([aUrlString isKindOfClass: [NSString class]] == NO)
{
[NSException raise: NSInvalidArgumentException
format: @"[%@ %@] nil string parameter",
NSStringFromClass([self class]), NSStringFromSelector(_cmd)];
}
if (aBaseUrl != nil
&& [aBaseUrl isKindOfClass: [NSURL class]] == NO)
{
[NSException raise: NSInvalidArgumentException
format: @"[%@ %@] bad base URL parameter",
NSStringFromClass([self class]), NSStringFromSelector(_cmd)];
}
if ([aUrlString length] == 0)
{
RELEASE(self);
return nil;
}
ASSIGNCOPY(_urlString, aUrlString);
ASSIGN(_baseURL, [aBaseUrl absoluteURL]);
NS_DURING
{
parsedURL *buf;
parsedURL *base = baseData;
unsigned size = [_urlString length];
char *end;
char *start;
char *ptr;
BOOL usesFragments = YES;
BOOL usesParameters = YES;
BOOL usesQueries = YES;
BOOL canBeGeneric = YES;
size += sizeof(parsedURL) + urlAlign + 1;
#if GS_WITH_GC
buf = _data = (parsedURL*)NSAllocateCollectable(size, 0);
#else
buf = _data = (parsedURL*)NSZoneMalloc(NSDefaultMallocZone(), size);
#endif
memset(buf, '\0', size);
start = end = ptr = (char*)&buf[1];
[_urlString getCString: start
maxLength: size
encoding: NSASCIIStringEncoding];
/*
* Parse the scheme if possible.
*/
ptr = start;
if (isalpha(*ptr))
{
ptr++;
while (isalnum(*ptr) || *ptr == '+' || *ptr == '-' || *ptr == '.')
{
ptr++;
}
if (*ptr == ':')
{
buf->scheme = start; // Got scheme.
*ptr = '\0'; // Terminate it.
end = &ptr[1];
/*
* Standardise uppercase to lower.
*/
while (--ptr > start)
{
if (isupper(*ptr))
{
*ptr = tolower(*ptr);
}
}
if (base != 0 && base->scheme != 0
&& strcmp(base->scheme, buf->scheme) != 0)
{
[NSException raise: NSInvalidArgumentException
format: @"[%@ %@](%@, %@) "
@"scheme of base and relative parts does not match",
NSStringFromClass([self class]),
NSStringFromSelector(_cmd),
aUrlString, aBaseUrl];
}
}
}
start = end;
if (buf->scheme == 0 && base != 0)
{
buf->scheme = base->scheme;
}
/*
* Set up scheme specific parsing options.
*/
if (buf->scheme != 0)
{
if (strcmp(buf->scheme, "file") == 0)
{
usesFragments = NO;
usesParameters = NO;
usesQueries = NO;
buf->isFile = YES;
}
else if (strcmp(buf->scheme, "mailto") == 0)
{
usesFragments = NO;
usesParameters = NO;
usesQueries = NO;
}
}
if (canBeGeneric == YES)
{
/*
* Parse the 'authority'
* //user:password@host:port
*/
if (start[0] == '/' && start[1] == '/')
{
buf->isGeneric = YES;
start = end = &end[2];
/*
* Set 'end' to point to the start of the path, or just past
* the 'authority' if there is no path.
*/
end = strchr(start, '/');
if (end == 0)
{
buf->hasNoPath = YES;
end = &start[strlen(start)];
}
else
{
*end++ = '\0';
}
/*
* Parser username:password part
*/
ptr = strchr(start, '@');
if (ptr != 0)
{
buf->user = start;
*ptr++ = '\0';
start = ptr;
if (legal(buf->user, ";:&=+$,") == NO)
{
[NSException raise: NSInvalidArgumentException
format: @"[%@ %@](%@, %@) "
@"illegal character in user/password part",
NSStringFromClass([self class]),
NSStringFromSelector(_cmd),
aUrlString, aBaseUrl];
}
ptr = strchr(buf->user, ':');
if (ptr != 0)
{
*ptr++ = '\0';
buf->password = ptr;
}
}
/*
* Parse host:port part
*/
buf->host = start;
if (*start == '[')
{
ptr = strchr(buf->host, ']');
if (ptr == 0)
{
[NSException raise: NSInvalidArgumentException
format: @"[%@ %@](%@, %@) "
@"illegal ipv6 host address",
NSStringFromClass([self class]),
NSStringFromSelector(_cmd),
aUrlString, aBaseUrl];
}
else
{
ptr = start + 1;
while (*ptr != ']')
{
if (*ptr != ':' && *ptr != '.' && !isxdigit(*ptr))
{
[NSException raise: NSInvalidArgumentException
format: @"[%@ %@](%@, %@) "
@"illegal ipv6 host address",
NSStringFromClass([self class]),
NSStringFromSelector(_cmd),
aUrlString, aBaseUrl];
}
ptr++;
}
}
ptr = strchr(ptr, ':');
}
else
{
ptr = strchr(buf->host, ':');
}
if (ptr != 0)
{
const char *str;
*ptr++ = '\0';
buf->port = ptr;
str = buf->port;
while (*str != 0)
{
if (*str == '%' && isxdigit(str[1]) && isxdigit(str[2]))
{
unsigned char c;
str++;
if (*str <= '9')
{
c = *str - '0';
}
else if (*str <= 'A')
{
c = *str - 'A' + 10;
}
else
{
c = *str - 'a' + 10;
}
c <<= 4;
str++;
if (*str <= '9')
{
c |= *str - '0';
}
else if (*str <= 'A')
{
c |= *str - 'A' + 10;
}
else
{
c |= *str - 'a' + 10;
}
if (isdigit(c))
{
str++;
}
else
{
[NSException raise: NSInvalidArgumentException
format: @"[%@ %@](%@, %@) "
@"illegal port part",
NSStringFromClass([self class]),
NSStringFromSelector(_cmd),
aUrlString, aBaseUrl];
}
}
else if (isdigit(*str))
{
str++;
}
else
{
[NSException raise: NSInvalidArgumentException
format: @"[%@ %@](%@, %@) "
@"illegal character in port part",
NSStringFromClass([self class]),
NSStringFromSelector(_cmd),
aUrlString, aBaseUrl];
}
}
}
start = end;
/* Check for a legal host, unless it's an ipv6 address
* (which would have been checked earlier).
*/
if (*buf->host != '[' && legal(buf->host, "-") == NO)
{
[NSException raise: NSInvalidArgumentException
format: @"[%@ %@](%@, %@) "
@"illegal character in host part",
NSStringFromClass([self class]),
NSStringFromSelector(_cmd),
aUrlString, aBaseUrl];
}
/*
* If we have an authority component,
* this must be an absolute URL
*/
buf->pathIsAbsolute = YES;
base = 0;
}
else
{
if (base != 0)
{
buf->isGeneric = base->isGeneric;
}
if (*start == '/')
{
buf->pathIsAbsolute = YES;
start++;
}
}
if (usesFragments == YES)
{
/*
* Strip fragment string from end of url.
*/
ptr = strchr(start, '#');
if (ptr != 0)
{
*ptr++ = '\0';
if (*ptr != 0)
{
buf->fragment = ptr;
}
}
if (buf->fragment == 0 && base != 0)
{
buf->fragment = base->fragment;
if (legal(buf->fragment, reserved) == NO)
{
[NSException raise: NSInvalidArgumentException
format: @"[%@ %@](%@, %@) "
@"illegal character in fragment part",
NSStringFromClass([self class]),
NSStringFromSelector(_cmd),
aUrlString, aBaseUrl];
}
}
}
if (usesQueries == YES)
{
/*
* Strip query string from end of url.
*/
ptr = strchr(start, '?');
if (ptr != 0)
{
*ptr++ = '\0';
if (*ptr != 0)
{
buf->query = ptr;
}
}
if (buf->query == 0 && base != 0)
{
buf->query = base->query;
if (legal(buf->query, reserved) == NO)
{
[NSException raise: NSInvalidArgumentException
format: @"[%@ %@](%@, %@) "
@"illegal character in query part",
NSStringFromClass([self class]),
NSStringFromSelector(_cmd),
aUrlString, aBaseUrl];
}
}
}
if (usesParameters == YES)
{
/*
* Strip parameters string from end of url.
*/
ptr = strchr(start, ';');
if (ptr != 0)
{
*ptr++ = '\0';
if (*ptr != 0)
{
buf->parameters = ptr;
}
}
if (buf->parameters == 0 && base != 0)
{
buf->parameters = base->parameters;
if (legal(buf->parameters, reserved) == NO)
{
[NSException raise: NSInvalidArgumentException
format: @"[%@ %@](%@, %@) "
@"illegal character in parameters part",
NSStringFromClass([self class]),
NSStringFromSelector(_cmd),
aUrlString, aBaseUrl];
}
}
}
if (buf->isFile == YES)
{
buf->user = 0;
buf->password = 0;
buf->host = (char*) "localhost";
buf->port = 0;
buf->isGeneric = YES;
}
else if (base != 0
&& buf->user == 0 && buf->password == 0
&& buf->host == 0 && buf->port == 0)
{
buf->user = base->user;
buf->password = base->password;
buf->host = base->host;
buf->port = base->port;
}
}
/*
* Store the path.
*/
buf->path = start;
if (legal(buf->path, reserved) == NO)
{
[NSException raise: NSInvalidArgumentException
format: @"[%@ %@](%@, %@) "
@"illegal character in path part",
NSStringFromClass([self class]),
NSStringFromSelector(_cmd),
aUrlString, aBaseUrl];
}
}
NS_HANDLER
{
NSDebugLog(@"%@", localException);
DESTROY(self);
}
NS_ENDHANDLER
return self;
}
- (void) dealloc
{
if (_clients != 0)
{
NSFreeMapTable(_clients);
_clients = 0;
}
if (_data != 0)
{
DESTROY(myData->absolute);
NSZoneFree(GSObjCZone(self), _data);
_data = 0;
}
DESTROY(_urlString);
DESTROY(_baseURL);
[super dealloc];
}
- (id) copyWithZone: (NSZone*)zone
{
if (NSShouldRetainWithZone(self, zone) == NO)
{
return [[isa allocWithZone: zone] initWithString: _urlString
relativeToURL: _baseURL];
}
else
{
return RETAIN(self);
}
}
- (NSString*) description
{
NSString *dscr = _urlString;
if (_baseURL != nil)
{
dscr = [dscr stringByAppendingFormat: @" -- %@", _baseURL];
}
return dscr;
}
- (void) encodeWithCoder: (NSCoder*)aCoder
{
[aCoder encodeObject: _urlString];
[aCoder encodeObject: _baseURL];
}
- (NSUInteger) hash
{
return [[self absoluteString] hash];
}
- (id) initWithCoder: (NSCoder*)aCoder
{
NSURL *base;
NSString *rel;
[aCoder decodeValueOfObjCType: @encode(id) at: &rel];
[aCoder decodeValueOfObjCType: @encode(id) at: &base];
self = [self initWithString: rel relativeToURL: base];
RELEASE(rel);
RELEASE(base);
return self;
}
- (BOOL) isEqual: (id)other
{
if (other == nil || [other isKindOfClass: [NSURL class]] == NO)
{
return NO;
}
return [[self absoluteString] isEqualToString: [other absoluteString]];
}
/**
* Returns the full string describing the receiver resolved against its base.
*/
- (NSString*) absoluteString
{
NSString *absString = myData->absolute;
if (absString == nil)
{
char *url = buildURL(baseData, myData, NO);
unsigned len = strlen(url);
absString = [[NSString alloc] initWithCStringNoCopy: url
length: len
freeWhenDone: YES];
myData->absolute = absString;
}
return absString;
}
/**
* If the receiver is an absolute URL, returns self. Otherwise returns an
* absolute URL referring to the same resource as the receiver.
*/
- (NSURL*) absoluteURL
{
if (_baseURL != nil)
{
return self;
}
else
{
return [NSURL URLWithString: [self absoluteString]];
}
}
/**
* If the receiver is a relative URL, returns its base URL.<br />
* Otherwise, returns nil.
*/
- (NSURL*) baseURL
{
return _baseURL;
}
/**
* Returns the fragment portion of the receiver or nil if there is no
* fragment supplied in the URL.<br />
* The fragment is everything in the original URL string after a '#'<br />
* File URLs do not have fragments.
*/
- (NSString*) fragment
{
NSString *fragment = nil;
if (myData->fragment != 0)
{
fragment = [NSString stringWithUTF8String: myData->fragment];
}
return fragment;
}
- (char*) _path: (char*)buf
{
char *ptr = buf;
char *tmp = buf;
if (myData->pathIsAbsolute == YES)
{
if (myData->hasNoPath == NO)
{
*tmp++ = '/';
}
if (myData->path != 0)
{
strcpy(tmp, myData->path);
}
}
else if (_baseURL == nil)
{
if (myData->path != 0)
{
strcpy(tmp, myData->path);
}
}
else if (*myData->path == 0)
{
if (baseData->hasNoPath == NO)
{
*tmp++ = '/';
}
if (baseData->path != 0)
{
strcpy(tmp, baseData->path);
}
}
else
{
char *start = baseData->path;
char *end = (start == 0) ? 0 : strrchr(start, '/');
if (end != 0)
{
*tmp++ = '/';
strncpy(tmp, start, end - start);
tmp += end - start;
}
*tmp++ = '/';
if (myData->path != 0)
{
strcpy(tmp, myData->path);
}
}
unescape(buf, buf);
#if defined(__MINGW32__)
/* On windows a file URL path may be of the form C:\xxx (ie we should
* not insert the leading slash).
* Also the vertical bar symbol may have been used instead of the
* colon, so we need to convert that.
*/
if (myData->isFile == YES)
{
if (ptr[1] && isalpha(ptr[1]))
{
if (ptr[2] == ':' || ptr[2] == '|')
{
if (ptr[3] == '\0' || ptr[3] == '/' || ptr[3] == '\\')
{
ptr[2] = ':';
ptr++;
}
}
}
}
#endif
return ptr;
}
- (NSString*) fullPath
{
NSString *path = nil;
unsigned int len = 3;
if (_baseURL != nil)
{
if (baseData->path && *baseData->path)
{
len += strlen(baseData->path);
}
else if (baseData->hasNoPath == NO)
{
len++;
}
}
if (myData->path && *myData->path)
{
len += strlen(myData->path);
}
else if (myData->hasNoPath == NO)
{
len++;
}
if (len > 3)
{
char buf[len];
char *ptr;
ptr = [self _path: buf];
path = [NSString stringWithUTF8String: ptr];
}
return path;
}
/**
* Returns the host portion of the receiver or nil if there is no
* host supplied in the URL.<br />
* Percent escape sequences in the user string are translated and the string
* treated as UTF8.<br />
* Returns IPv6 addresses <em>without</em> the enclosing square brackets
* required (by RFC2732) in URL strings.
*/
- (NSString*) host
{
NSString *host = nil;
if (myData->host != 0)
{
char buf[strlen(myData->host)+1];
if (*myData->host == '[')
{
char *end = unescape(myData->host + 1, buf);
if (end[-1] == ']')
{
end[-1] = '\0';
}
}
else
{
unescape(myData->host, buf);
}
host = [NSString stringWithUTF8String: buf];
}
return host;
}
/**
* Returns YES if the receiver is a file URL, NO otherwise.
*/
- (BOOL) isFileURL
{
return myData->isFile;
}
/**
* Loads resource data for the specified client.
* <p>
* If shouldUseCache is YES then an attempt
* will be made to locate a cached NSURLHandle to provide the
* resource data, otherwise a new handle will be created and
* cached.
* </p>
* <p>
* If the handle does not have the data available, it will be
* asked to load the data in the background by calling its
* loadInBackground method.
* </p>
* <p>
* The specified client (if non-nil) will be set up to receive
* notifications of the progress of the background load process.
* </p>
* <p>
* The processes current run loop must be run in order for the
* background load operation to operate!
* </p>
*/
- (void) loadResourceDataNotifyingClient: (id)client
usingCache: (BOOL)shouldUseCache
{
NSURLHandle *handle = [self URLHandleUsingCache: YES];
NSData *d;
if (shouldUseCache == YES && (d = [handle availableResourceData]) != nil)
{
/*
* We already have cached data we should use.
*/
if ([client respondsToSelector:
@selector(URL:resourceDataDidBecomeAvailable:)])
{
[client URL: self resourceDataDidBecomeAvailable: d];
}
if ([client respondsToSelector: @selector(URLResourceDidFinishLoading:)])
{
[client URLResourceDidFinishLoading: self];
}
}
else
{
if (client != nil)
{
[clientsLock lock];
if (_clients == 0)
{
_clients = NSCreateMapTable (NSObjectMapKeyCallBacks,
NSNonRetainedObjectMapValueCallBacks, 0);
}
NSMapInsert((NSMapTable*)_clients, (void*)handle, (void*)client);
[clientsLock unlock];
[handle addClient: self];
}
/*
* Kick off the load process.
*/
[handle loadInBackground];
}
}
/**
* Returns the parameter portion of the receiver or nil if there is no
* parameter supplied in the URL.<br />
* The parameters are everything in the original URL string after a ';'
* but before the query.<br />
* File URLs do not have parameters.
*/
- (NSString*) parameterString
{
NSString *parameters = nil;
if (myData->parameters != 0)
{
parameters = [NSString stringWithUTF8String: myData->parameters];
}
return parameters;
}
/**
* Returns the password portion of the receiver or nil if there is no
* password supplied in the URL.<br />
* Percent escape sequences in the user string are translated and the string
* treated as UTF8 in GNUstep but this appears to be broken in MacOS-X.<br />
* NB. because of its security implications it is recommended that you
* do not use URLs with users and passwords unless necessary.
*/
- (NSString*) password
{
NSString *password = nil;
if (myData->password != 0)
{
char buf[strlen(myData->password)+1];
unescape(myData->password, buf);
password = [NSString stringWithUTF8String: buf];
}
return password;
}
/**
* Returns the path portion of the receiver.<br />
* Replaces percent escapes with unescaped values, interpreting non-ascii
* character sequences as UTF8.<br />
* NB. This does not conform strictly to the RFCs, in that it includes a
* leading slash ('/') character (whereas the path part of a URL strictly
* should not) and the interpretation of non-ascii character is (strictly
* speaking) undefined.<br />
* Also, this breaks strict conformance in that a URL of file scheme is
* treated as having a path (contrary to RFCs)
*/
- (NSString*) path
{
NSString *path = nil;
unsigned int len = 3;
if (_baseURL != nil)
{
if (baseData->path && *baseData->path)
{
len += strlen(baseData->path);
}
else if (baseData->hasNoPath == NO)
{
len++;
}
}
if (myData->path && *myData->path)
{
len += strlen(myData->path);
}
else if (myData->hasNoPath == NO)
{
len++;
}
if (len > 3)
{
char buf[len];
char *ptr;
char *tmp;
ptr = [self _path: buf];
/* Remove any trailing '/' from the path for MacOS-X compatibility.
*/
tmp = ptr + strlen(ptr) - 1;
if (tmp > ptr && *tmp == '/')
{
*tmp = '\0';
}
path = [NSString stringWithUTF8String: ptr];
}
return path;
}
/**
* Returns the port portion of the receiver or nil if there is no
* port supplied in the URL.<br />
* Percent escape sequences in the user string are translated in GNUstep
* but this appears to be broken in MacOS-X.
*/
- (NSNumber*) port
{
NSNumber *port = nil;
if (myData->port != 0)
{
char buf[strlen(myData->port)+1];
unescape(myData->port, buf);
port = [NSNumber numberWithUnsignedShort: atol(buf)];
}
return port;
}
/**
* Asks a URL handle to return the property for the specified key and
* returns the result.
*/
- (id) propertyForKey: (NSString*)propertyKey
{
NSURLHandle *handle = [self URLHandleUsingCache: YES];
return [handle propertyForKey: propertyKey];
}
/**
* Returns the query portion of the receiver or nil if there is no
* query supplied in the URL.<br />
* The query is everything in the original URL string after a '?'
* but before the fragment.<br />
* File URLs do not have queries.
*/
- (NSString*) query
{
NSString *query = nil;
if (myData->query != 0)
{
query = [NSString stringWithUTF8String: myData->query];
}
return query;
}
/**
* Returns the path of the receiver, without taking any base URL into account.
* If the receiver is an absolute URL, -relativePath is the same as -path.<br />
* Returns nil if there is no path specified for the URL.
*/
- (NSString*) relativePath
{
NSString *path = nil;
if (myData->path != 0)
{
path = [NSString stringWithUTF8String: myData->path];
}
return path;
}
/**
* Returns the relative portion of the URL string. If the receiver is not
* a relative URL, this returns the same as absoluteString.
*/
- (NSString*) relativeString
{
return _urlString;
}
/* Encode bycopy unless explicitly requested otherwise.
*/
- (id) replacementObjectForPortCoder: (NSPortCoder*)aCoder
{
if ([aCoder isByref] == NO)
return self;
return [super replacementObjectForPortCoder: aCoder];
}
/**
* Loads the resource data for the represented URL and returns the result.
* The shouldUseCache flag determines whether data previously retrieved by
* an existing NSURLHandle can be used to provide the data, or if it should
* be refetched.
*/
- (NSData*) resourceDataUsingCache: (BOOL)shouldUseCache
{
NSURLHandle *handle = [self URLHandleUsingCache: YES];
NSData *data;
if (shouldUseCache == NO || [handle status] != NSURLHandleLoadSucceeded)
{
[handle loadInForeground];
}
data = [handle availableResourceData];
return data;
}
/**
* Returns the resource specifier of the URL ... the part which lies
* after the scheme.
*/
- (NSString*) resourceSpecifier
{
NSRange range = [_urlString rangeOfString: @"://"];
if (range.length > 0)
{
return [_urlString substringFromIndex: range.location + 1];
}
else
{
/*
* Cope with URLs missing net_path info - <scheme>:/<path>...
*/
range = [_urlString rangeOfString: @":"];
if (range.length > 0)
{
return [_urlString substringFromIndex: range.location + 1];
}
else
{
return _urlString;
}
}
}
/**
* Returns the scheme of the receiver.
*/
- (NSString*) scheme
{
NSString *scheme = nil;
if (myData->scheme != 0)
{
scheme = [NSString stringWithUTF8String: myData->scheme];
}
return scheme;
}
/**
* Calls [NSURLHandle-writeProperty:forKey:] to set the named property.
*/
- (BOOL) setProperty: (id)property
forKey: (NSString*)propertyKey
{
NSURLHandle *handle = [self URLHandleUsingCache: YES];
return [handle writeProperty: property forKey: propertyKey];
}
/**
* Calls [NSURLHandle-writeData:] to write the specified data object
* to the resource identified by the receiver URL.<br />
* Returns the result.
*/
- (BOOL) setResourceData: (NSData*)data
{
NSURLHandle *handle = [self URLHandleUsingCache: YES];
if (handle == nil)
{
return NO;
}
if ([handle writeData: data] == NO)
{
return NO;
}
if ([handle loadInForeground] == nil)
{
return NO;
}
return YES;
}
/**
* Returns a URL with '/./' and '/../' sequences resolved etc.
*/
- (NSURL*) standardizedURL
{
char *url = buildURL(baseData, myData, YES);
unsigned len = strlen(url);
NSString *str;
NSURL *tmp;
str = [[NSString alloc] initWithCStringNoCopy: url
length: len
freeWhenDone: YES];
tmp = [NSURL URLWithString: str];
RELEASE(str);
return tmp;
}
/**
* Returns an NSURLHandle instance which may be used to write data to the
* resource represented by the receiver URL, or read data from it.<br />
* The shouldUseCache flag indicates whether a cached handle may be returned
* or a new one should be created.
*/
- (NSURLHandle*) URLHandleUsingCache: (BOOL)shouldUseCache
{
NSURLHandle *handle = nil;
if (shouldUseCache)
{
handle = [NSURLHandle cachedHandleForURL: self];
}
if (handle == nil)
{
Class c = [NSURLHandle URLHandleClassForURL: self];
if (c != 0)
{
handle = [[c alloc] initWithURL: self cached: shouldUseCache];
IF_NO_GC([handle autorelease];)
}
}
return handle;
}
/**
* Returns the user portion of the receiver or nil if there is no
* user supplied in the URL.<br />
* Percent escape sequences in the user string are translated and
* the whole is treated as UTF8 data.<br />
* NB. because of its security implications it is recommended that you
* do not use URLs with users and passwords unless necessary.
*/
- (NSString*) user
{
NSString *user = nil;
if (myData->user != 0)
{
char buf[strlen(myData->user)+1];
unescape(myData->user, buf);
user = [NSString stringWithUTF8String: buf];
}
return user;
}
- (void) URLHandle: (NSURLHandle*)sender
resourceDataDidBecomeAvailable: (NSData*)newData
{
id c = clientForHandle(_clients, sender);
if ([c respondsToSelector: @selector(URL:resourceDataDidBecomeAvailable:)])
{
[c URL: self resourceDataDidBecomeAvailable: newData];
}
}
- (void) URLHandle: (NSURLHandle*)sender
resourceDidFailLoadingWithReason: (NSString*)reason
{
id c = clientForHandle(_clients, sender);
if (c != nil)
{
if ([c respondsToSelector:
@selector(URL:resourceDidFailLoadingWithReason:)])
{
[c URL: self resourceDidFailLoadingWithReason: reason];
}
[clientsLock lock];
NSMapRemove((NSMapTable*)_clients, (void*)sender);
[clientsLock unlock];
}
[sender removeClient: self];
}
- (void) URLHandleResourceDidBeginLoading: (NSURLHandle*)sender
{
}
- (void) URLHandleResourceDidCancelLoading: (NSURLHandle*)sender
{
id c = clientForHandle(_clients, sender);
if (c != nil)
{
if ([c respondsToSelector: @selector(URLResourceDidCancelLoading:)])
{
[c URLResourceDidCancelLoading: self];
}
[clientsLock lock];
NSMapRemove((NSMapTable*)_clients, (void*)sender);
[clientsLock unlock];
}
[sender removeClient: self];
}
- (void) URLHandleResourceDidFinishLoading: (NSURLHandle*)sender
{
id c = clientForHandle(_clients, sender);
IF_NO_GC([self retain];)
[sender removeClient: self];
if (c != nil)
{
if ([c respondsToSelector: @selector(URLResourceDidFinishLoading:)])
{
[c URLResourceDidFinishLoading: self];
}
[clientsLock lock];
NSMapRemove((NSMapTable*)_clients, (void*)sender);
[clientsLock unlock];
}
RELEASE(self);
}
@end
/**
* An informal protocol to which clients may conform if they wish to be
* notified of the progress in loading a URL for them. NSURL conforms to
* this protocol but all methods are implemented as no-ops. See also
* the [(NSURLHandleClient)] protocol.
*/
@implementation NSObject (NSURLClient)
- (void) URL: (NSURL*)sender
resourceDataDidBecomeAvailable: (NSData*)newBytes
{
}
- (void) URL: (NSURL*)sender
resourceDidFailLoadingWithReason: (NSString*)reason
{
}
- (void) URLResourceDidCancelLoading: (NSURL*)sender
{
}
- (void) URLResourceDidFinishLoading: (NSURL*)sender
{
}
@end
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