#include "EXTERN.h" #include "perl.h" #include "XSUB.h" #include "des.h" #define deschar char static STRLEN len; static int not_here(s) char *s; { croak("%s not implemented on this architecture", s); return -1; } MODULE = DES PACKAGE = DES PREFIX = des_ char * des_crypt(buf,salt) char * buf char * salt void des_set_odd_parity(key) des_cblock * key PPCODE: { SV *s; s=sv_newmortal(); sv_setpvn(s,(char *)key,8); des_set_odd_parity((des_cblock *)SvPV(s,na)); PUSHs(s); } int des_is_weak_key(key) des_cblock * key des_key_schedule des_set_key(key) des_cblock * key CODE: des_set_key(key,RETVAL); OUTPUT: RETVAL des_cblock des_ecb_encrypt(input,ks,encrypt) des_cblock * input des_key_schedule * ks int encrypt CODE: des_ecb_encrypt(input,&RETVAL,*ks,encrypt); OUTPUT: RETVAL void des_cbc_encrypt(input,ks,ivec,encrypt) char * input des_key_schedule * ks des_cblock * ivec int encrypt PPCODE: { SV *s; STRLEN len,l; char *c; l=SvCUR(ST(0)); len=((((unsigned long)l)+7)/8)*8; s=sv_newmortal(); sv_setpvn(s,"",0); SvGROW(s,len); SvCUR_set(s,len); c=(char *)SvPV(s,na); des_cbc_encrypt((des_cblock *)input,(des_cblock *)c, l,*ks,ivec,encrypt); sv_setpvn(ST(2),(char *)c[len-8],8); PUSHs(s); } void des_cbc3_encrypt(input,ks1,ks2,ivec1,ivec2,encrypt) char * input des_key_schedule * ks1 des_key_schedule * ks2 des_cblock * ivec1 des_cblock * ivec2 int encrypt PPCODE: { SV *s; STRLEN len,l; l=SvCUR(ST(0)); len=((((unsigned long)l)+7)/8)*8; s=sv_newmortal(); sv_setpvn(s,"",0); SvGROW(s,len); SvCUR_set(s,len); des_3cbc_encrypt((des_cblock *)input,(des_cblock *)SvPV(s,na), l,*ks1,*ks2,ivec1,ivec2,encrypt); sv_setpvn(ST(3),(char *)ivec1,8); sv_setpvn(ST(4),(char *)ivec2,8); PUSHs(s); } void des_cbc_cksum(input,ks,ivec) char * input des_key_schedule * ks des_cblock * ivec PPCODE: { SV *s1,*s2; STRLEN len,l; des_cblock c; unsigned long i1,i2; s1=sv_newmortal(); s2=sv_newmortal(); l=SvCUR(ST(0)); des_cbc_cksum((des_cblock *)input,(des_cblock *)c, l,*ks,ivec); i1=c[4]|(c[5]<<8)|(c[6]<<16)|(c[7]<<24); i2=c[0]|(c[1]<<8)|(c[2]<<16)|(c[3]<<24); sv_setiv(s1,i1); sv_setiv(s2,i2); sv_setpvn(ST(2),(char *)c,8); PUSHs(s1); PUSHs(s2); } void des_cfb_encrypt(input,numbits,ks,ivec,encrypt) char * input int numbits des_key_schedule * ks des_cblock * ivec int encrypt PPCODE: { SV *s; STRLEN len; char *c; len=SvCUR(ST(0)); s=sv_newmortal(); sv_setpvn(s,"",0); SvGROW(s,len); SvCUR_set(s,len); c=(char *)SvPV(s,na); des_cfb_encrypt((unsigned char *)input,(unsigned char *)c, (int)numbits,(long)len,*ks,ivec,encrypt); sv_setpvn(ST(3),(char *)ivec,8); PUSHs(s); } des_cblock * des_ecb3_encrypt(input,ks1,ks2,encrypt) des_cblock * input des_key_schedule * ks1 des_key_schedule * ks2 int encrypt CODE: { des_cblock c; des_ecb3_encrypt((des_cblock *)input,(des_cblock *)&c, *ks1,*ks2,encrypt); RETVAL= &c; } OUTPUT: RETVAL void des_ofb_encrypt(input,numbits,ks,ivec) unsigned char * input int numbits des_key_schedule * ks des_cblock * ivec PPCODE: { SV *s; STRLEN len,l; unsigned char *c; len=SvCUR(ST(0)); s=sv_newmortal(); sv_setpvn(s,"",0); SvGROW(s,len); SvCUR_set(s,len); c=(unsigned char *)SvPV(s,na); des_ofb_encrypt((unsigned char *)input,(unsigned char *)c, numbits,len,*ks,ivec); sv_setpvn(ST(3),(char *)ivec,8); PUSHs(s); } void des_pcbc_encrypt(input,ks,ivec,encrypt) char * input des_key_schedule * ks des_cblock * ivec int encrypt PPCODE: { SV *s; STRLEN len,l; char *c; l=SvCUR(ST(0)); len=((((unsigned long)l)+7)/8)*8; s=sv_newmortal(); sv_setpvn(s,"",0); SvGROW(s,len); SvCUR_set(s,len); c=(char *)SvPV(s,na); des_pcbc_encrypt((des_cblock *)input,(des_cblock *)c, l,*ks,ivec,encrypt); sv_setpvn(ST(2),(char *)c[len-8],8); PUSHs(s); } des_cblock * des_random_key() CODE: { des_cblock c; des_random_key(c); RETVAL=&c; } OUTPUT: RETVAL des_cblock * des_string_to_key(str) char * str CODE: { des_cblock c; des_string_to_key(str,&c); RETVAL=&c; } OUTPUT: RETVAL void des_string_to_2keys(str) char * str PPCODE: { des_cblock c1,c2; SV *s1,*s2; des_string_to_2keys(str,&c1,&c2); EXTEND(sp,2); s1=sv_newmortal(); sv_setpvn(s1,(char *)c1,8); s2=sv_newmortal(); sv_setpvn(s2,(char *)c2,8); PUSHs(s1); PUSHs(s2); }