ref: a5cb451b299b03f44154fac5780b6a57ca130ce0
dir: /appl/cmd/auth/aescbc.b/
implement Aescbc; # # broadly transliterated from the Plan 9 command # include "sys.m"; sys: Sys; include "draw.m"; include "bufio.m"; bufio: Bufio; Iobuf: import bufio; include "keyring.m"; kr: Keyring; AESbsize, MD5dlen, SHA1dlen: import Keyring; include "arg.m"; Aescbc: module { init: fn(nil: ref Draw->Context, nil: list of string); }; # # encrypted file: v2hdr, 16 byte IV, AES-CBC(key, random || file), HMAC_SHA1(md5(key), AES-CBC(random || file)) # Checkpat: con "XXXXXXXXXXXXXXXX"; Checklen: con len Checkpat; Bufsize: con 4096; AESmaxkey: con 32; V2hdr: con "AES CBC SHA1 2\n"; bin: ref Iobuf; bout: ref Iobuf; stderr: ref Sys->FD; init(nil: ref Draw->Context, args: list of string) { sys = load Sys Sys->PATH; kr = load Keyring Keyring->PATH; bufio = load Bufio Bufio->PATH; sys->pctl(Sys->FORKFD, nil); stderr = sys->fildes(2); arg := load Arg Arg->PATH; arg->init(args); arg->setusage("auth/aescbc -d [-k key] [-f keyfile] <file.aes >clear.txt\n or: auth/aescbc -e [-k key] [-f keyfile] <clear.txt >file.aes"); encrypt := -1; keyfile: string; pass: string; while((o := arg->opt()) != 0) case o { 'd' or 'e' => if(encrypt >= 0) arg->usage(); encrypt = o == 'e'; 'f' => keyfile = arg->earg(); 'k' => pass = arg->earg(); * => arg->usage(); } args = arg->argv(); if(args != nil || encrypt < 0) arg->usage(); arg = nil; bin = bufio->fopen(sys->fildes(0), Bufio->OREAD); bout = bufio->fopen(sys->fildes(1), Bufio->OWRITE); buf := array[Bufsize+SHA1dlen] of byte; # Checklen <= SHA1dlen pwd: array of byte; if(keyfile != nil){ fd := sys->open(keyfile, Sys->OREAD); if(fd == nil) error(sys->sprint("can't open %q: %r", keyfile), "keyfile"); n := sys->readn(fd, buf, len buf); while(n > 0 && buf[n-1] == byte '\n') n--; if(n <= 0) error("no key", "no key"); pwd = buf[0:n]; }else{ if(pass == nil) pass = readpassword("password"); if(pass == nil) error("no key", "no key"); pwd = array of byte pass; for(i := 0; i < len pass; i++) pass[i] = 0; } key := array[AESmaxkey] of byte; key2 := array[SHA1dlen] of byte; dstate := kr->sha1(array of byte "aescbc file", 11, nil, nil); kr->sha1(pwd, len pwd, key2, dstate); for(i := 0; i < len pwd; i++) pwd[i] = byte 0; key[0:] = key2[0:MD5dlen]; nkey := MD5dlen; kr->md5(key, nkey, key2, nil); # protect key even if HMAC_SHA1 is broken key2 = key2[0:MD5dlen]; if(encrypt){ Write(array of byte V2hdr, AESbsize); genrandom(buf, 2*AESbsize); # CBC is semantically secure if IV is unpredictable. aes := kr->aessetup(key[0:nkey], buf); # use first AESbsize bytes as IV kr->aescbc(aes, buf[AESbsize:], AESbsize, Keyring->Encrypt); # use second AESbsize bytes as initial plaintext Write(buf, 2*AESbsize); dstate = kr->hmac_sha1(buf[AESbsize:], AESbsize, key2, nil, nil); while((n := bin.read(buf, Bufsize)) > 0){ kr->aescbc(aes, buf, n, Keyring->Encrypt); Write(buf, n); dstate = kr->hmac_sha1(buf, n, key2, nil, dstate); if(n < Bufsize) break; } if(n < 0) error(sys->sprint("read error: %r"), "read error"); kr->hmac_sha1(nil, 0, key2, buf, dstate); Write(buf, SHA1dlen); }else{ # decrypt Read(buf, AESbsize); if(string buf[0:AESbsize] == V2hdr){ Read(buf, 2*AESbsize); # read IV and random initial plaintext aes := kr->aessetup(key[0:nkey], buf); dstate = kr->hmac_sha1(buf[AESbsize:], AESbsize, key2, nil, nil); kr->aescbc(aes, buf[AESbsize:], AESbsize, Keyring->Decrypt); Read(buf, SHA1dlen); while((n := bin.read(buf[SHA1dlen:], Bufsize)) > 0){ dstate = kr->hmac_sha1(buf, n, key2, nil, dstate); kr->aescbc(aes, buf, n, Keyring->Decrypt); Write(buf, n); buf[0:] = buf[n:n+SHA1dlen]; # these bytes are not yet decrypted } kr->hmac_sha1(nil, 0, key2, buf[SHA1dlen:], dstate); if(!eqbytes(buf, buf[SHA1dlen:], SHA1dlen)) error("decrypted file failed to authenticate", "failed to authenticate"); }else{ # compatibility with past mistake; assume we're decrypting secstore files aes := kr->aessetup(key[0:AESbsize], buf); Read(buf, Checklen); kr->aescbc(aes, buf, Checklen, Keyring->Decrypt); while((n := bin.read(buf[Checklen:], Bufsize)) > 0){ kr->aescbc(aes, buf[Checklen:], n, Keyring->Decrypt); Write(buf, n); buf[0:] = buf[n:n+Checklen]; } if(string buf[0:Checklen] != Checkpat) error("decrypted file failed to authenticate", "failed to authenticate"); } } bout.flush(); } error(s: string, why: string) { bout.flush(); sys->fprint(stderr, "aescbc: %s\n", s); raise "fail:"+why; } eqbytes(a: array of byte, b: array of byte, n: int): int { if(len a < n || len b < n) return 0; for(i := 0; i < n; i++) if(a[i] != b[i]) return 0; return 1; } Read(buf: array of byte, n: int) { if(bin.read(buf, n) != n){ sys->fprint(sys->fildes(2), "aescbc: unexpectedly short read\n"); raise "fail:read error"; } } Write(buf: array of byte, n: int) { if(bout.write(buf, n) != n){ sys->fprint(sys->fildes(2), "aescbc: write error: %r\n"); raise "fail:write error"; } } readpassword(prompt: string): string { cons := sys->open("/dev/cons", Sys->ORDWR); if(cons == nil) return nil; stdin := bufio->fopen(cons, Sys->OREAD); if(stdin == nil) return nil; cfd := sys->open("/dev/consctl", Sys->OWRITE); if (cfd == nil || sys->fprint(cfd, "rawon") <= 0) sys->fprint(stderr, "aescbc: warning: cannot hide typed password\n"); s: string; L: for(;;){ sys->fprint(cons, "%s: ", prompt); s = ""; while ((c := stdin.getc()) >= 0){ case c { '\n' => break L; '\b' or 8r177 => if(len s > 0) s = s[0:len s - 1]; 'u' & 8r037 => sys->fprint(cons, "\n"); continue L; * => s[len s] = c; } } } sys->fprint(cons, "\n"); return s; } genrandom(b: array of byte, n: int) { fd := sys->open("/dev/notquiterandom", Sys->OREAD); if(fd == nil){ sys->fprint(stderr, "aescbc: can't open /dev/notquiterandom: %r\n"); raise "fail:random"; } if(sys->read(fd, b, n) != n){ sys->fprint(stderr, "aescbc: can't read random numbers: %r\n"); raise "fail:read random"; } }