/* * Copyright (c) 2013-2020, SUSE LLC. * * This program is licensed under the BSD license, read LICENSE.BSD * for further information */ /* simple and slow pgp signature verification code. */ #include #include #include #include "util.h" #include "solv_pgpvrfy.h" #ifndef ENABLE_PGPVRFY_ED25519 #define ENABLE_PGPVRFY_ED25519 1 #endif typedef unsigned int mp_t; typedef unsigned long long mp2_t; #define MP_T_BYTES 4 #define MP_T_BITS (MP_T_BYTES * 8) static inline mp_t * mpnew(int len) { return solv_calloc(len, MP_T_BYTES); } static inline void mpzero(int len, mp_t *target) { memset(target, 0, MP_T_BYTES * len); } static inline void mpcpy(int len, mp_t *target, mp_t *source) { memcpy(target, source, len * MP_T_BYTES); } static void mpsetfrombe(int len, mp_t *target, const unsigned char *buf, int bufl) { int i, mpl = len * MP_T_BYTES; buf += bufl; if (bufl >= mpl) bufl = mpl; if (mpl) memset(target, 0, mpl); for (i = 0; bufl > 0; bufl--, i++) target[i / MP_T_BYTES] |= (int)(*--buf) << (8 * (i % MP_T_BYTES)); } static int mpisless(int len, mp_t *a, mp_t *b) { int i; for (i = len - 1; i >= 0; i--) if (a[i] < b[i]) return 1; else if (a[i] > b[i]) return 0; return 0; } static int mpisequal(int len, mp_t *a, mp_t *b) { return memcmp(a, b, len * MP_T_BYTES) == 0; } static int mpiszero(int len, mp_t *a) { int i; for (i = 0; i < len; i++) if (a[i]) return 0; return 1; } #if 0 static void mpdump(int l, mp_t *a, char *s) { int i; if (s) fprintf(stderr, "%s", s); for (i = l - 1; i >= 0; i--) fprintf(stderr, "%0*x", MP_T_BYTES * 2, a[i]); fprintf(stderr, "\n"); } #endif /* subtract mod from target. target >= mod */ static inline void mpsubmod(int len, mp_t *target, mp_t *mod) { int i; mp2_t n; for (n = 0, i = 0; i < len; i++) { mp2_t n2 = (mp2_t)mod[i] + n; n = n2 > target[i] ? 1 : 0; target[i] -= (mp_t)n2; } } /* target[len] = x, target = target % mod * assumes that target < (mod << MP_T_BITS)! */ static void mpdomod(int len, mp_t *target, mp2_t x, mp_t *mod) { int i, j; for (i = len - 1; i >= 0; i--) { x = (x << MP_T_BITS) | target[i]; target[i] = 0; if (mod[i]) break; } if (i < 0) return; while (x >= 2 * (mp2_t)mod[i]) { /* reduce */ mp2_t z = x / ((mp2_t)mod[i] + 1); mp2_t n = 0; if ((z >> MP_T_BITS) != 0) z = (mp2_t)1 << MP_T_BITS; /* just in case... */ for (j = 0; j < i; j++) { mp_t n2; n += mod[j] * z; n2 = (mp_t)n; n >>= MP_T_BITS; if (n2 > target[j]) n++; target[j] -= n2; } n += mod[j] * z; x -= n; } target[i] = x; if (x > mod[i] || (x == mod[i] && !mpisless(i, target, mod))) mpsubmod(i + 1, target, mod); } /* target += src * m */ static void mpmul_add_int(int len, mp_t *target, mp_t *src, mp2_t m, mp_t *mod) { int i; mp2_t x = 0; for (i = 0; i < len; i++) { x += src[i] * m + target[i]; target[i] = x; x >>= MP_T_BITS; } mpdomod(len, target, x, mod); } /* target = target << MP_T_BITS */ static void mpshift(int len, mp_t *target, mp_t *mod) { mp_t x; if (len <= 0) return; x = target[len - 1]; if (len > 1) memmove(target + 1, target, (len - 1) * MP_T_BYTES); target[0] = 0; mpdomod(len, target, x, mod); } /* target += m1 * m2 */ static void mpmul_add(int len, mp_t *target, mp_t *m1, int m2len, mp_t *m2, mp_t *tmp, mp_t *mod) { int i, j; for (j = m2len - 1; j >= 0; j--) if (m2[j]) break; if (j < 0) return; mpcpy(len, tmp, m1); for (i = 0; i < j; i++) { if (m2[i]) mpmul_add_int(len, target, tmp, m2[i], mod); mpshift(len, tmp, mod); } if (m2[i]) mpmul_add_int(len, target, tmp, m2[i], mod); } /* target = target * m */ static void mpmul_inplace(int len, mp_t *target, mp_t *m, mp_t *tmp1, mp_t *tmp2, mp_t *mod) { mpzero(len, tmp1); mpmul_add(len, tmp1, target, len, m, tmp2, mod); mpcpy(len, target, tmp1); } /* target = target ^ 16 * b ^ e */ static void mppow_int(int len, mp_t *target, mp_t *t, mp_t *mod, int e) { mp_t *t2 = t + len * 16; mpmul_inplace(len, target, target, t, t2, mod); mpmul_inplace(len, target, target, t, t2, mod); mpmul_inplace(len, target, target, t, t2, mod); mpmul_inplace(len, target, target, t, t2, mod); if (e) mpmul_inplace(len, target, t + len * e, t, t2, mod); } /* target = b ^ e (b < mod) */ static void mppow(int len, mp_t *target, mp_t *b, int elen, mp_t *e, mp_t *mod) { int i, j; mp_t *t; mpzero(len, target); target[0] = 1; for (i = elen - 1; i >= 0; i--) if (e[i]) break; if (i < 0) return; t = mpnew(len * 17); mpcpy(len, t + len, b); for (j = 2; j < 16; j++) mpmul_add(len, t + len * j, b, len, t + len * j - len, t + len * 16, mod); for (; i >= 0; i--) { #if MP_T_BYTES == 4 mppow_int(len, target, t, mod, (e[i] >> 28) & 0x0f); mppow_int(len, target, t, mod, (e[i] >> 24) & 0x0f); mppow_int(len, target, t, mod, (e[i] >> 20) & 0x0f); mppow_int(len, target, t, mod, (e[i] >> 16) & 0x0f); mppow_int(len, target, t, mod, (e[i] >> 12) & 0x0f); mppow_int(len, target, t, mod, (e[i] >> 8) & 0x0f); mppow_int(len, target, t, mod, (e[i] >> 4) & 0x0f); mppow_int(len, target, t, mod, e[i] & 0x0f); #elif MP_T_BYTES == 1 mppow_int(len, target, t, mod, (e[i] >> 4) & 0x0f); mppow_int(len, target, t, mod, e[i] & 0x0f); #endif } free(t); } /* target = m1 * m2 (m1 < mod) */ static void mpmul(int len, mp_t *target, mp_t *m1, int m2len, mp_t *m2, mp_t *mod) { mp_t *tmp = mpnew(len); mpzero(len, target); mpmul_add(len, target, m1, m2len, m2, tmp, mod); free(tmp); } static void mpdec(int len, mp_t *a) { int i; for (i = 0; i < len; i++) if (a[i]--) return; } #if ENABLE_PGPVRFY_ED25519 /* target = m1 + m2 (m1, m2 < mod). target may be m1 or m2 */ static void mpadd(int len, mp_t *target, mp_t *m1, mp_t *m2, mp_t *mod) { int i; mp2_t x = 0; for (i = 0; i < len; i++) { x += (mp2_t)m1[i] + m2[i]; target[i] = x; x >>= MP_T_BITS; } if (x || target[len - 1] > mod[len - 1] || (target[len -1 ] == mod[len - 1] && !mpisless(len - 1, target, mod))) mpsubmod(len, target, mod); } /* target = m1 - m2 (m1, m2 < mod). target may be m1 or m2 */ static void mpsub(int len, mp_t *target, mp_t *m1, mp_t *m2, mp_t *mod) { int i; mp2_t x = 0; for (i = 0; i < len; i++) { x = (mp2_t)m1[i] - m2[i] - x; target[i] = x; x = x & ((mp2_t)1 << MP_T_BITS) ? 1 : 0; } if (x) { for (x = 0, i = 0; i < len; i++) { x += (mp2_t)target[i] + mod[i]; target[i] = x; x >>= MP_T_BITS; } } } #endif static int mpdsa(int pl, mp_t *p, int ql, mp_t *q, mp_t *g, mp_t *y, mp_t *r, mp_t *s, int hl, mp_t *h) { mp_t *w; mp_t *tmp; mp_t *u1, *u2; mp_t *gu1, *yu2; int res; #if 0 mpdump(pl, p, "p = "); mpdump(ql, q, "q = "); mpdump(pl, g, "g = "); mpdump(pl, y, "y = "); mpdump(ql, r, "r = "); mpdump(ql, s, "s = "); mpdump(hl, h, "h = "); #endif if (pl < ql || !mpisless(pl, g, p) || !mpisless(pl, y, p)) return 0; /* hmm, bad pubkey? */ if (!mpisless(ql, r, q) || mpiszero(ql, r)) return 0; if (!mpisless(ql, s, q) || mpiszero(ql, s)) return 0; tmp = mpnew(pl); /* note pl */ mpcpy(ql, tmp, q); /* tmp = q */ mpdec(ql, tmp); /* tmp-- */ mpdec(ql, tmp); /* tmp-- */ w = mpnew(ql); mppow(ql, w, s, ql, tmp, q); /* w = s ^ tmp = (s ^ -1) */ u1 = mpnew(pl); /* note pl */ /* order is important here: h can be >= q */ mpmul(ql, u1, w, hl, h, q); /* u1 = w * h */ u2 = mpnew(ql); /* u2 = 0 */ mpmul(ql, u2, w, ql, r, q); /* u2 = w * r */ free(w); gu1 = mpnew(pl); yu2 = mpnew(pl); mppow(pl, gu1, g, ql, u1, p); /* gu1 = g ^ u1 */ mppow(pl, yu2, y, ql, u2, p); /* yu2 = y ^ u2 */ mpmul(pl, u1, gu1, pl, yu2, p); /* u1 = gu1 * yu2 */ free(gu1); free(yu2); mpzero(ql, u2); u2[0] = 1; /* u2 = 1 */ mpmul(ql, tmp, u2, pl, u1, q); /* tmp = u2 * u1 */ free(u1); free(u2); #if 0 mpdump(ql, tmp, "res = "); #endif res = mpisequal(ql, tmp, r); free(tmp); return res; } static int mprsa(int nl, mp_t *n, int el, mp_t *e, mp_t *m, mp_t *c) { mp_t *tmp; int res; #if 0 mpdump(nl, n, "n = "); mpdump(el, e, "e = "); mpdump(nl, m, "m = "); mpdump(nl, c, "c = "); #endif if (!mpisless(nl, m, n)) return 0; if (!mpisless(nl, c, n)) return 0; tmp = mpnew(nl); mppow(nl, tmp, m, el, e, n); /* tmp = m ^ e */ #if 0 mpdump(nl, tmp, "res = "); #endif res = mpisequal(nl, tmp, c); free(tmp); return res; } #if ENABLE_PGPVRFY_ED25519 # include "solv_ed25519.h" #endif /* create mp with size tbits from data with size dbits */ static mp_t * mpbuild(const unsigned char *d, int dbits, int tbits, int *mplp) { int l = (tbits + MP_T_BITS - 1) / MP_T_BITS; mp_t *out = mpnew(l ? l : 1); if (mplp) *mplp = l; mpsetfrombe(l, out, d, (dbits + 7) / 8); return out; } static const unsigned char * findmpi(const unsigned char **mpip, int *mpilp, int maxbits, int *outlen) { int mpil = *mpilp; const unsigned char *mpi = *mpip; int bits, l; *outlen = 0; if (mpil < 2) return 0; bits = mpi[0] << 8 | mpi[1]; l = 2 + (bits + 7) / 8; if (bits > maxbits || mpil < l || (bits && !mpi[2])) { *mpilp = 0; return 0; } *outlen = bits; *mpilp = mpil - l; *mpip = mpi + l; return mpi + 2; } /* sig: 0:algo 1:hash 2-:mpidata */ /* pub: 0:algo 1-:mpidata */ int solv_pgpvrfy(const unsigned char *pub, int publ, const unsigned char *sig, int sigl) { int hashl; unsigned char *oid = 0; const unsigned char *mpi; int mpil; int res = 0; if (!pub || !sig || publ < 1 || sigl < 2) return 0; if (pub[0] != sig[0]) return 0; /* key algo mismatch */ switch(sig[1]) { case 1: hashl = 16; /* MD5 */ oid = (unsigned char *)"\022\060\040\060\014\006\010\052\206\110\206\367\015\002\005\005\000\004\020"; break; case 2: hashl = 20; /* SHA-1 */ oid = (unsigned char *)"\017\060\041\060\011\006\005\053\016\003\002\032\005\000\004\024"; break; case 8: hashl = 32; /* SHA-256 */ oid = (unsigned char *)"\023\060\061\060\015\006\011\140\206\110\001\145\003\004\002\001\005\000\004\040"; break; case 9: hashl = 48; /* SHA-384 */ oid = (unsigned char *)"\023\060\101\060\015\006\011\140\206\110\001\145\003\004\002\002\005\000\004\060"; break; case 10: hashl = 64; /* SHA-512 */ oid = (unsigned char *)"\023\060\121\060\015\006\011\140\206\110\001\145\003\004\002\003\005\000\004\100"; break; case 11: hashl = 28; /* SHA-224 */ oid = (unsigned char *)"\023\060\061\060\015\006\011\140\206\110\001\145\003\004\002\004\005\000\004\034"; break; default: return 0; /* unsupported hash algo */ } if (sigl < 2 + hashl) return 0; switch (pub[0]) { case 1: /* RSA */ { const unsigned char *n, *e, *m; unsigned char *c; int nlen, elen, mlen, clen; mp_t *nx, *ex, *mx, *cx; int nxl, exl; mpi = pub + 1; mpil = publ - 1; n = findmpi(&mpi, &mpil, 8192, &nlen); e = findmpi(&mpi, &mpil, 1024, &elen); mpi = sig + 2 + hashl; mpil = sigl - (2 + hashl); m = findmpi(&mpi, &mpil, nlen, &mlen); if (!n || !e || !m || !nlen || !elen) return 0; /* build padding block */ clen = (nlen - 1) / 8; if (hashl + *oid + 2 > clen) return 0; c = solv_malloc(clen); memset(c, 0xff, clen); c[0] = 1; memcpy(c + clen - hashl, sig + 2, hashl); memcpy(c + clen - hashl - *oid, oid + 1, *oid); c[clen - hashl - *oid - 1] = 0; clen = clen * 8 - 7; /* always <= nlen */ nx = mpbuild(n, nlen, nlen, &nxl); ex = mpbuild(e, elen, elen, &exl); mx = mpbuild(m, mlen, nlen, 0); cx = mpbuild(c, clen, nlen, 0); free(c); res = mprsa(nxl, nx, exl, ex, mx, cx); free(nx); free(ex); free(mx); free(cx); break; } case 17: /* DSA */ { const unsigned char *p, *q, *g, *y, *r, *s; int plen, qlen, glen, ylen, rlen, slen, hlen; mp_t *px, *qx, *gx, *yx, *rx, *sx, *hx; int pxl, qxl, hxl; mpi = pub + 1; mpil = publ - 1; p = findmpi(&mpi, &mpil, 8192, &plen); q = findmpi(&mpi, &mpil, 1024, &qlen); g = findmpi(&mpi, &mpil, plen, &glen); y = findmpi(&mpi, &mpil, plen, &ylen); mpi = sig + 2 + hashl; mpil = sigl - (2 + hashl); r = findmpi(&mpi, &mpil, qlen, &rlen); s = findmpi(&mpi, &mpil, qlen, &slen); if (!p || !q || !g || !y || !r || !s || !plen || !qlen) return 0; hlen = (qlen + 7) & ~7; if (hlen > hashl * 8) return 0; px = mpbuild(p, plen, plen, &pxl); qx = mpbuild(q, qlen, qlen, &qxl); gx = mpbuild(g, glen, plen, 0); yx = mpbuild(y, ylen, plen, 0); rx = mpbuild(r, rlen, qlen, 0); sx = mpbuild(s, slen, qlen, 0); hx = mpbuild(sig + 2, hlen, hlen, &hxl); res = mpdsa(pxl, px, qxl, qx, gx, yx, rx, sx, hxl, hx); free(px); free(qx); free(gx); free(yx); free(rx); free(sx); free(hx); break; } #if ENABLE_PGPVRFY_ED25519 case 22: /* EdDSA */ { unsigned char sigdata[64]; const unsigned char *r, *s; int rlen, slen; /* check the curve */ if (publ < 11 || memcmp(pub + 1, "\011\053\006\001\004\001\332\107\017\001", 10) != 0) return 0; /* we only support the Ed25519 curve */ /* the pubkey always has 7 + 256 bits */ if (publ != 1 + 10 + 2 + 1 + 32 || pub[1 + 10 + 0] != 1 || pub[1 + 10 + 1] != 7 || pub[1 + 10 + 2] != 0x40) return 0; mpi = sig + 2 + hashl; mpil = sigl - (2 + hashl); r = findmpi(&mpi, &mpil, 256, &rlen); s = findmpi(&mpi, &mpil, 256, &slen); if (!r || !s) return 0; memset(sigdata, 0, 64); rlen = (rlen + 7) / 8; slen = (slen + 7) / 8; if (rlen) memcpy(sigdata + 32 - rlen, r, rlen); if (slen) memcpy(sigdata + 64 - slen, s, rlen); res = mped25519(pub + 1 + 10 + 2 + 1, sigdata, sig + 2, hashl); break; } #endif default: return 0; /* unsupported pubkey algo */ } return res; }