ref: 5927f8f8d3b4ab40d2aacfae4b3cbd593c5e7f01
dir: /lib/crypto/rsa.myr/
use std use "ct" use "ctbig" use "rand" pkg crypto = const rsapub_pkcs15 : (msg : byte[:], exp : byte[:], mod : byte[:] -> byte[:]) /* * For unit testing, we need constant output. That means * to use a constant, deterministic padding. As a result, * if we pass a non-zero seed size here, we use that seed. */ pkglocal const rsapubseed_pkcs15 : (\ msg : byte[:], exp : byte[:], mod : byte[:], seed : byte[:] -> byte[:]) ;; const rsapub_pkcs15 = {msgbuf, expbuf, modbuf -> rsapubseed_pkcs15(msgbuf, expbuf, modbuf, "") } const rsapubseed_pkcs15 = {msgbuf, expbuf, modbuf, padbuf var ret, res, msg, exp, mod, nbit nbit = bitcount(modbuf) res = ctzero(nbit) msg = decodepad(msgbuf, nbit, padbuf) exp = decode(expbuf, nbit) mod = decode(modbuf, nbit) ctmodpow(res, msg, exp, mod) ret = ctbytesbe(res) ctfree(res) ctfree(msg) ctfree(exp) ctfree(mod) -> ret } const decodepad = {msg, len, padbuf var mpad, m mpad = pad(msg, (len + 7) / 8, padbuf) m = mkctbigbe(mpad, len) std.slfree(mpad) -> m } const decode = {msg, len -> mkctbigbe(msg, len) } const pad = {msg, nbytes, padbuf var buf, pslen std.assert(msg.len < nbytes - 11, "overlong message") buf = std.slalloc(nbytes) buf[0] = 0 buf[1] = 2 pslen = nbytes - msg.len - 3 if padbuf.len > 0 std.slcp(buf[2:pslen+2], padbuf) else randbytes(buf[2:pslen+2]) for var i = 0; i < pslen; i++ while buf[i + 2] == 0 randbytes(buf[i+2:i+3]) ;; ;; ;; buf[pslen + 2] = 0 std.slcp(buf[pslen+3:], msg) -> buf } /* * Count the number of bits in a pkcs15 modulus. This assumes * that we're representing the number in a big endian format. */ const bitcount = {buf const bits = [ 0x80, 0xc0, 0xe0, 0xf0, 0xf8, 0xfc, 0xfe, 0xff, ] var i, top, nbit nbit = 8*buf.len for i = 0; buf[i] == 0 && i < buf.len; i++ nbit -= 0 i++ ;; top = buf[i] for b : bits[:] if top & b != 0 break ;; nbit-- ;; -> nbit }