ref: b0377e84cf31c48afed765c433abe7eebb4135a5
dir: /sys/src/cmd/auth/secstore/aescbc.c/
/* encrypt file by writing v2hdr, 16byte initialization vector, AES-CBC(key, random | file), HMAC_SHA1(md5(key), AES-CBC(random | file)) */ #include <u.h> #include <libc.h> #include <bio.h> #include <libsec.h> #include <authsrv.h> enum{ CHK = 16, BUF = 4096 }; uchar v2hdr[AESbsize+1] = "AES CBC SHA1 2\n"; Biobuf bin; Biobuf bout; void safewrite(uchar *buf, int n) { if(Bwrite(&bout, buf, n) != n) sysfatal("write error"); } void saferead(uchar *buf, int n) { if(Bread(&bin, buf, n) != n) sysfatal("read error"); } int main(int argc, char **argv) { int encrypt = 0; /* 0=decrypt, 1=encrypt */ int n, nkey, pass_stdin = 0, pass_nvram = 0; char *pass; uchar key[AESmaxkey], key2[SHA1dlen]; uchar buf[BUF+SHA1dlen]; /* assumption: CHK <= SHA1dlen */ AESstate aes; DigestState *dstate; ARGBEGIN{ case 'e': encrypt = 1; break; case 'i': pass_stdin = 1; break; case 'n': pass_nvram = 1; break; }ARGEND; if(argc!=0){ fprint(2,"usage: %s -d < cipher.aes > clear.txt\n", argv0); fprint(2," or: %s -e < clear.txt > cipher.aes\n", argv0); exits("usage"); } Binit(&bin, 0, OREAD); Binit(&bout, 1, OWRITE); if(pass_stdin){ n = readn(3, buf, (sizeof buf)-1); if(n < 1) sysfatal("usage: echo password |[3=1] auth/aescbc -i ..."); buf[n] = 0; while(buf[n-1] == '\n') buf[--n] = 0; }else if(pass_nvram){ Nvrsafe nvr; if(readnvram(&nvr, 0) < 0) sysfatal("readnvram: %r"); strecpy((char*)buf, (char*)buf+sizeof buf, (char*)nvr.config); memset(&nvr, 0, sizeof nvr); n = strlen((char*)buf); }else{ pass = readcons("aescbc key", nil, 1); if(pass == nil) sysfatal("key input aborted"); n = strlen(pass); if(n >= BUF) sysfatal("key too long"); strcpy((char*)buf, pass); memset(pass, 0, n); free(pass); } if(n <= 0) sysfatal("no key"); dstate = sha1((uchar*)"aescbc file", 11, nil, nil); sha1(buf, n, key2, dstate); memcpy(key, key2, 16); nkey = 16; md5(key, nkey, key2, 0); /* so even if HMAC_SHA1 is broken, encryption key is protected */ if(encrypt){ safewrite(v2hdr, AESbsize); genrandom(buf,2*AESbsize); /* CBC is semantically secure if IV is unpredictable. */ setupAESstate(&aes, key, nkey, buf); /* use first AESbsize bytes as IV */ aesCBCencrypt(buf+AESbsize, AESbsize, &aes); /* use second AESbsize bytes as initial plaintext */ safewrite(buf, 2*AESbsize); dstate = hmac_sha1(buf+AESbsize, AESbsize, key2, MD5dlen, 0, 0); for(;;){ n = Bread(&bin, buf, BUF); if(n < 0) sysfatal("read error"); aesCBCencrypt(buf, n, &aes); safewrite(buf, n); dstate = hmac_sha1(buf, n, key2, MD5dlen, 0, dstate); if(n < BUF) break; /* EOF */ } hmac_sha1(0, 0, key2, MD5dlen, buf, dstate); safewrite(buf, SHA1dlen); }else{ /* decrypt */ saferead(buf, AESbsize); if(memcmp(buf, v2hdr, AESbsize) == 0){ saferead(buf, 2*AESbsize); /* read IV and random initial plaintext */ setupAESstate(&aes, key, nkey, buf); dstate = hmac_sha1(buf+AESbsize, AESbsize, key2, MD5dlen, 0, 0); aesCBCdecrypt(buf+AESbsize, AESbsize, &aes); saferead(buf, SHA1dlen); while((n = Bread(&bin, buf+SHA1dlen, BUF)) > 0){ dstate = hmac_sha1(buf, n, key2, MD5dlen, 0, dstate); aesCBCdecrypt(buf, n, &aes); safewrite(buf, n); memmove(buf, buf+n, SHA1dlen); /* these bytes are not yet decrypted */ } hmac_sha1(0, 0, key2, MD5dlen, buf+SHA1dlen, dstate); if(memcmp(buf, buf+SHA1dlen, SHA1dlen) != 0) sysfatal("decrypted file failed to authenticate"); }else{ /* compatibility with past mistake */ // if file was encrypted with bad aescbc use this: // memset(key, 0, AESmaxkey); // else assume we're decrypting secstore files setupAESstate(&aes, key, AESbsize, buf); saferead(buf, CHK); aesCBCdecrypt(buf, CHK, &aes); while((n = Bread(&bin, buf+CHK, BUF)) > 0){ aesCBCdecrypt(buf+CHK, n, &aes); safewrite(buf, n); memmove(buf, buf+n, CHK); } if(memcmp(buf, "XXXXXXXXXXXXXXXX", CHK) != 0) sysfatal("decrypted file failed to authenticate"); } } if(Bflush(&bout) != 0) sysfatal("write: %r"); exits(nil); return 1; /* keep other compilers happy */ }