ref: 1216c06c3bdf3f3fb953ec96de99e026ef318360
dir: /sys/src/cmd/auth/convkeys.c/
#include <u.h> #include <libc.h> #include <ctype.h> #include <authsrv.h> #include <mp.h> #include <libsec.h> #include <bio.h> #include "authcmdlib.h" Authkey okey, nkey; int verb; int usepass; int convaes; uchar zeros[16]; int convert(char**, int); void usage(void); void main(int argc, char *argv[]) { Dir *d; char *p, *file; int fd, len; ARGBEGIN{ case 'p': usepass = 1; break; case 'v': verb = 1; break; case 'a': convaes = 1; break; default: usage(); }ARGEND if(argc != 1) usage(); file = argv[0]; private(); /* get original key */ if(usepass){ print("enter password file is encoded with\n"); getpass(&okey, nil, 0, 1); } else { getauthkey(&okey); } if(!verb){ print("enter password to reencode with\n"); getpass(&nkey, nil, 0, 1); } fd = open(file, ORDWR); if(fd < 0) error("can't open %s: %r\n", file); d = dirfstat(fd); if(d == nil) error("can't stat %s: %r\n", file); len = d->length; p = malloc(len); if(p == nil) error("out of memory"); if(read(fd, p, len) != len) error("can't read key file: %r\n"); len = convert(&p, len); if(pwrite(fd, p, len, 0) != len) error("can't write key file: %r\n"); close(fd); exits(nil); } int badname(char *s) { int n; Rune r; for (; *s != '\0'; s += n) { n = chartorune(&r, s); if (r == Runeerror) return 1; } return 0; } int convert(char **db, int len) { int i, nu, keydblen, keydboff, keydbaes; char *p = *db; keydblen = KEYDBLEN; keydboff = KEYDBOFF; keydbaes = len > 24 && memcmp(p, "AES KEYS", 8) == 0; if(keydbaes){ keydblen += AESKEYLEN; keydboff = 8+16; /* signature[8] + iv[16] */ } len -= keydboff; if(len % keydblen){ fprint(2, "%s: file odd length; not converting %d bytes\n", argv0, len % keydblen); len -= len % keydblen; } len += keydboff; if(keydbaes){ AESstate s; /* make sure we have aes key for decryption */ if(memcmp(okey.aes, zeros, AESKEYLEN) == 0){ fprint(2, "%s: no aes key in NVRAM\n", argv0); exits("no aes key"); } setupAESstate(&s, okey.aes, AESKEYLEN, zeros); aesCBCdecrypt((uchar*)p+8, len-8, &s); } else { DESstate s; uchar k[8]; des56to64((uchar*)okey.des, k); setupDESstate(&s, k, zeros); desCBCdecrypt((uchar*)p, len, &s); } nu = 0; for(i = keydboff; i < len; i += keydblen) { if (badname(&p[i])) { fprint(2, "%s: bad name %.30s... - aborting\n", argv0, &p[i]); exits("bad name"); } nu++; } if(verb){ for(i = keydboff; i < len; i += keydblen) print("%s\n", &p[i]); exits(nil); } if(convaes && !keydbaes){ char *s, *d; keydboff = 8+16; keydblen += AESKEYLEN; len = keydboff + keydblen*nu; p = realloc(p, len); if(p == nil) error("out of memory"); *db = p; s = p + KEYDBOFF + nu*KEYDBLEN; d = p + keydboff + nu*keydblen; for(i=0; i<nu; i++){ s -= KEYDBLEN; d -= keydblen; memmove(d, s, KEYDBLEN); memset(d + KEYDBLEN, 0, keydblen-KEYDBLEN); } keydbaes = 1; } genrandom((uchar*)p, keydboff); if(keydbaes){ AESstate s; memmove(p, "AES KEYS", 8); setupAESstate(&s, nkey.aes, AESKEYLEN, zeros); aesCBCencrypt((uchar*)p+8, len-8, &s); } else { DESstate s; uchar k[8]; des56to64((uchar*)nkey.des, k); setupDESstate(&s, k, zeros); desCBCencrypt((uchar*)p, len, &s); } return len; } void usage(void) { fprint(2, "usage: %s [-pva] keyfile\n", argv0); exits("usage"); }