File openssl-Bleichenbachers_CAT.patch of Package openssl-1_1.12535

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File openssl-Bleichenbachers_CAT.patch of Package openssl-1_1.12535

https://github.com/openssl/openssl/issues/7739

Squash of the following commits:

PR #6915: commit a6d8fe9, db09fdc, c5c6915 and 73bebc1 (part of 1.1.0j release)
PR #7735, commit 0ba39c8, b58c44a, 43d53fa, 437b7f0, 6d405b6 and e29dcc3 (will be part of 1.1.0k)

Index: openssl-1.1.0i/crypto/bn/bn_blind.c
===================================================================
--- openssl-1.1.0i.orig/crypto/bn/bn_blind.c	2018-08-14 14:45:06.000000000 +0200
+++ openssl-1.1.0i/crypto/bn/bn_blind.c	2019-01-18 15:15:11.346099889 +0100
@@ -109,10 +109,15 @@ int BN_BLINDING_update(BN_BLINDING *b, B
         if (!BN_BLINDING_create_param(b, NULL, NULL, ctx, NULL, NULL))
             goto err;
     } else if (!(b->flags & BN_BLINDING_NO_UPDATE)) {
-        if (!BN_mod_mul(b->A, b->A, b->A, b->mod, ctx))
-            goto err;
-        if (!BN_mod_mul(b->Ai, b->Ai, b->Ai, b->mod, ctx))
-            goto err;
+        if (b->m_ctx != NULL) {
+            if (!bn_mul_mont_fixed_top(b->Ai, b->Ai, b->Ai, b->m_ctx, ctx)
+                || !bn_mul_mont_fixed_top(b->A, b->A, b->A, b->m_ctx, ctx))
+                goto err;
+        } else {
+            if (!BN_mod_mul(b->Ai, b->Ai, b->Ai, b->mod, ctx)
+                || !BN_mod_mul(b->A, b->A, b->A, b->mod, ctx))
+                goto err;
+        }
     }
 
     ret = 1;
@@ -144,13 +149,13 @@ int BN_BLINDING_convert_ex(BIGNUM *n, BI
     else if (!BN_BLINDING_update(b, ctx))
         return (0);
 
-    if (r != NULL) {
-        if (!BN_copy(r, b->Ai))
-            ret = 0;
-    }
+    if (r != NULL && (BN_copy(r, b->Ai) == NULL))
+        return 0;
 
-    if (!BN_mod_mul(n, n, b->A, b->mod, ctx))
-        ret = 0;
+    if (b->m_ctx != NULL)
+        ret = BN_mod_mul_montgomery(n, n, b->A, b->m_ctx, ctx);
+    else
+        ret = BN_mod_mul(n, n, b->A, b->mod, ctx);
 
     return ret;
 }
@@ -167,14 +172,29 @@ int BN_BLINDING_invert_ex(BIGNUM *n, con
 
     bn_check_top(n);
 
-    if (r != NULL)
-        ret = BN_mod_mul(n, n, r, b->mod, ctx);
-    else {
-        if (b->Ai == NULL) {
-            BNerr(BN_F_BN_BLINDING_INVERT_EX, BN_R_NOT_INITIALIZED);
-            return (0);
+    if (r == NULL && (r = b->Ai) == NULL) {
+        BNerr(BN_F_BN_BLINDING_INVERT_EX, BN_R_NOT_INITIALIZED);
+        return 0;
+    }
+
+    if (b->m_ctx != NULL) {
+        /* ensure that BN_mod_mul_montgomery takes pre-defined path */
+        if (n->dmax >= r->top) {
+            size_t i, rtop = r->top, ntop = n->top;
+            BN_ULONG mask;
+
+            for (i = 0; i < rtop; i++) {
+                mask = (BN_ULONG)0 - ((i - ntop) >> (8 * sizeof(i) - 1));
+                n->d[i] &= mask;
+            }
+            mask = (BN_ULONG)0 - ((rtop - ntop) >> (8 * sizeof(ntop) - 1));
+            /* always true, if (rtop >= ntop) n->top = r->top; */
+            n->top = (int)(rtop & ~mask) | (ntop & mask);
+            n->flags |= (BN_FLG_FIXED_TOP & ~mask);
         }
-        ret = BN_mod_mul(n, n, b->Ai, b->mod, ctx);
+        ret = BN_mod_mul_montgomery(n, n, r, b->m_ctx, ctx);
+    } else {
+        ret = BN_mod_mul(n, n, r, b->mod, ctx);
     }
 
     bn_check_top(n);
@@ -253,31 +273,35 @@ BN_BLINDING *BN_BLINDING_create_param(BN
         int rv;
         if (!BN_rand_range(ret->A, ret->mod))
             goto err;
-        if (!int_bn_mod_inverse(ret->Ai, ret->A, ret->mod, ctx, &rv)) {
-            /*
-             * this should almost never happen for good RSA keys
-             */
-            if (rv) {
-                if (retry_counter-- == 0) {
-                    BNerr(BN_F_BN_BLINDING_CREATE_PARAM,
-                          BN_R_TOO_MANY_ITERATIONS);
-                    goto err;
-                }
-            } else
-                goto err;
-        } else
+        if (int_bn_mod_inverse(ret->Ai, ret->A, ret->mod, ctx, &rv))
             break;
+
+        /*
+         * this should almost never happen for good RSA keys
+         */
+        if (!rv)
+            goto err;
+
+        if (retry_counter-- == 0) {
+            BNerr(BN_F_BN_BLINDING_CREATE_PARAM, BN_R_TOO_MANY_ITERATIONS);
+            goto err;
+        }
     } while (1);
 
     if (ret->bn_mod_exp != NULL && ret->m_ctx != NULL) {
-        if (!ret->bn_mod_exp
-            (ret->A, ret->A, ret->e, ret->mod, ctx, ret->m_ctx))
+        if (!ret->bn_mod_exp(ret->A, ret->A, ret->e, ret->mod, ctx, ret->m_ctx))
             goto err;
     } else {
         if (!BN_mod_exp(ret->A, ret->A, ret->e, ret->mod, ctx))
             goto err;
     }
 
+    if (ret->m_ctx != NULL) {
+        if (!bn_to_mont_fixed_top(ret->Ai, ret->Ai, ret->m_ctx, ctx)
+            || !bn_to_mont_fixed_top(ret->A, ret->A, ret->m_ctx, ctx))
+            goto err;
+    }
+
     return ret;
  err:
     if (b == NULL) {
Index: openssl-1.1.0i/crypto/bn/bn_lib.c
===================================================================
--- openssl-1.1.0i.orig/crypto/bn/bn_lib.c	2018-08-14 14:45:06.000000000 +0200
+++ openssl-1.1.0i/crypto/bn/bn_lib.c	2019-01-18 15:15:11.346099889 +0100
@@ -503,26 +503,40 @@ BIGNUM *BN_bin2bn(const unsigned char *s
 static int bn2binpad(const BIGNUM *a, unsigned char *to, int tolen)
 {
     int n;
-    size_t i, inc, lasti, j;
+    size_t i, lasti, j, atop, mask;
     BN_ULONG l;
 
+    /*
+     * In case |a| is fixed-top, BN_num_bytes can return bogus length,
+     * but it's assumed that fixed-top inputs ought to be "nominated"
+     * even for padded output, so it works out...
+     */
     n = BN_num_bytes(a);
-    if (tolen == -1)
+    if (tolen == -1) {
         tolen = n;
-    else if (tolen < n)
-        return -1;
+    } else if (tolen < n) {     /* uncommon/unlike case */
+        BIGNUM temp = *a;
 
-    if (n == 0) {
+        bn_correct_top(&temp);
+        n = BN_num_bytes(&temp);
+        if (tolen < n)
+            return -1;
+    }
+
+    /* Swipe through whole available data and don't give away padded zero. */
+    atop = a->dmax * BN_BYTES;
+    if (atop == 0) {
         OPENSSL_cleanse(to, tolen);
         return tolen;
     }
 
-    lasti = n - 1;
-    for (i = 0, inc = 1, j = tolen; j > 0;) {
+    lasti = atop - 1;
+    atop = a->top * BN_BYTES;
+    for (i = 0, j = 0, to += tolen; j < (size_t)tolen; j++) {
         l = a->d[i / BN_BYTES];
-        to[--j] = (unsigned char)(l >> (8 * (i % BN_BYTES)) & (0 - inc));
-        inc = (i - lasti) >> (8 * sizeof(i) - 1);
-        i += inc; /* stay on top limb */
+        mask = 0 - ((j - atop) >> (8 * sizeof(i) - 1));
+        *--to = (unsigned char)(l >> (8 * (i % BN_BYTES)) & mask);
+        i += (i - lasti) >> (8 * sizeof(i) - 1); /* stay on last limb */
     }
 
     return tolen;
Index: openssl-1.1.0i/crypto/bn/bn_mod.c
===================================================================
--- openssl-1.1.0i.orig/crypto/bn/bn_mod.c	2018-08-14 14:45:06.000000000 +0200
+++ openssl-1.1.0i/crypto/bn/bn_mod.c	2019-01-18 15:15:11.346099889 +0100
@@ -58,7 +58,7 @@ int bn_mod_add_fixed_top(BIGNUM *r, cons
 
     if (mtop > sizeof(storage) / sizeof(storage[0])
         && (tp = OPENSSL_malloc(mtop * sizeof(BN_ULONG))) == NULL)
-	return 0;
+        return 0;
 
     ap = a->d != NULL ? a->d : tp;
     bp = b->d != NULL ? b->d : tp;
@@ -83,6 +83,7 @@ int bn_mod_add_fixed_top(BIGNUM *r, cons
         ((volatile BN_ULONG *)tp)[i] = 0;
     }
     r->top = mtop;
+    r->flags |= BN_FLG_FIXED_TOP;
     r->neg = 0;
 
     if (tp != storage)
@@ -111,6 +112,70 @@ int BN_mod_sub(BIGNUM *r, const BIGNUM *
 }
 
 /*
+ * BN_mod_sub variant that may be used if both a and b are non-negative,
+ * a is less than m, while b is of same bit width as m. It's implemented
+ * as subtraction followed by two conditional additions.
+ *
+ * 0 <= a < m
+ * 0 <= b < 2^w < 2*m
+ *
+ * after subtraction
+ *
+ * -2*m < r = a - b < m
+ *
+ * Thus it takes up to two conditional additions to make |r| positive.
+ */
+int bn_mod_sub_fixed_top(BIGNUM *r, const BIGNUM *a, const BIGNUM *b,
+                         const BIGNUM *m)
+{
+    size_t i, ai, bi, mtop = m->top;
+    BN_ULONG borrow, carry, ta, tb, mask, *rp;
+    const BN_ULONG *ap, *bp;
+
+    if (bn_wexpand(r, mtop) == NULL)
+        return 0;
+
+    rp = r->d;
+    ap = a->d != NULL ? a->d : rp;
+    bp = b->d != NULL ? b->d : rp;
+
+    for (i = 0, ai = 0, bi = 0, borrow = 0; i < mtop;) {
+        mask = (BN_ULONG)0 - ((i - a->top) >> (8 * sizeof(i) - 1));
+        ta = ap[ai] & mask;
+
+        mask = (BN_ULONG)0 - ((i - b->top) >> (8 * sizeof(i) - 1));
+        tb = bp[bi] & mask;
+        rp[i] = ta - tb - borrow;
+        if (ta != tb)
+            borrow = (ta < tb);
+
+        i++;
+        ai += (i - a->dmax) >> (8 * sizeof(i) - 1);
+        bi += (i - b->dmax) >> (8 * sizeof(i) - 1);
+    }
+    ap = m->d;
+    for (i = 0, mask = 0 - borrow, carry = 0; i < mtop; i++) {
+        ta = ((ap[i] & mask) + carry) & BN_MASK2;
+        carry = (ta < carry);
+        rp[i] = (rp[i] + ta) & BN_MASK2;
+        carry += (rp[i] < ta);
+    }
+    borrow -= carry;
+    for (i = 0, mask = 0 - borrow, carry = 0; i < mtop; i++) {
+        ta = ((ap[i] & mask) + carry) & BN_MASK2;
+        carry = (ta < carry);
+        rp[i] = (rp[i] + ta) & BN_MASK2;
+        carry += (rp[i] < ta);
+    }
+
+    r->top = mtop;
+    r->flags |= BN_FLG_FIXED_TOP;
+    r->neg = 0;
+
+    return 1;
+}
+
+/*
  * BN_mod_sub variant that may be used if both a and b are non-negative and
  * less than m
  */
Index: openssl-1.1.0i/crypto/bn/bn_mont.c
===================================================================
--- openssl-1.1.0i.orig/crypto/bn/bn_mont.c	2018-08-14 14:45:06.000000000 +0200
+++ openssl-1.1.0i/crypto/bn/bn_mont.c	2019-01-18 15:15:11.346099889 +0100
@@ -64,10 +64,10 @@ int bn_mul_mont_fixed_top(BIGNUM *r, con
 
     bn_check_top(tmp);
     if (a == b) {
-        if (!BN_sqr(tmp, a, ctx))
+        if (!bn_sqr_fixed_top(tmp, a, ctx))
             goto err;
     } else {
-        if (!BN_mul(tmp, a, b, ctx))
+        if (!bn_mul_fixed_top(tmp, a, b, ctx))
             goto err;
     }
     /* reduce from aRR to aR */
@@ -90,6 +90,7 @@ static int bn_from_montgomery_word(BIGNU
     BIGNUM *n;
     BN_ULONG *ap, *np, *rp, n0, v, carry;
     int nl, max, i;
+    unsigned int rtop;
 
     n = &(mont->N);
     nl = n->top;
@@ -106,10 +107,10 @@ static int bn_from_montgomery_word(BIGNU
     np = n->d;
     rp = r->d;
 
-    /* clear the top words of T */
-    i = max - r->top;
-    if (i)
-        memset(&rp[r->top], 0, sizeof(*rp) * i);
+    for (rtop = r->top, i = 0; i < max; i++) {
+        v = (BN_ULONG)0 - ((i - rtop) >> (8 * sizeof(rtop) - 1));
+        rp[i] &= v;
+    }
 
     r->top = max;
     r->flags |= BN_FLG_FIXED_TOP;
@@ -160,6 +161,18 @@ static int bn_from_montgomery_word(BIGNU
 int BN_from_montgomery(BIGNUM *ret, const BIGNUM *a, BN_MONT_CTX *mont,
                        BN_CTX *ctx)
 {
+    int retn;
+
+    retn = bn_from_mont_fixed_top(ret, a, mont, ctx);
+    bn_correct_top(ret);
+    bn_check_top(ret);
+
+    return retn;
+}
+
+int bn_from_mont_fixed_top(BIGNUM *ret, const BIGNUM *a, BN_MONT_CTX *mont,
+                           BN_CTX *ctx)
+{
     int retn = 0;
 #ifdef MONT_WORD
     BIGNUM *t;
@@ -167,8 +180,6 @@ int BN_from_montgomery(BIGNUM *ret, cons
     BN_CTX_start(ctx);
     if ((t = BN_CTX_get(ctx)) && BN_copy(t, a)) {
         retn = bn_from_montgomery_word(ret, t, mont);
-        bn_correct_top(ret);
-        bn_check_top(ret);
     }
     BN_CTX_end(ctx);
 #else                           /* !MONT_WORD */
Index: openssl-1.1.0i/crypto/bn/bn_mul.c
===================================================================
--- openssl-1.1.0i.orig/crypto/bn/bn_mul.c	2018-08-14 14:45:06.000000000 +0200
+++ openssl-1.1.0i/crypto/bn/bn_mul.c	2019-01-18 15:15:11.346099889 +0100
@@ -833,6 +833,16 @@ void bn_mul_high(BN_ULONG *r, BN_ULONG *
 
 int BN_mul(BIGNUM *r, const BIGNUM *a, const BIGNUM *b, BN_CTX *ctx)
 {
+    int ret = bn_mul_fixed_top(r, a, b, ctx);
+
+    bn_correct_top(r);
+    bn_check_top(r);
+
+    return ret;
+}
+
+int bn_mul_fixed_top(BIGNUM *r, const BIGNUM *a, const BIGNUM *b, BN_CTX *ctx)
+{
     int ret = 0;
     int top, al, bl;
     BIGNUM *rr;
@@ -935,7 +945,7 @@ int BN_mul(BIGNUM *r, const BIGNUM *a, c
  end:
 #endif
     rr->neg = a->neg ^ b->neg;
-    bn_correct_top(rr);
+    rr->flags |= BN_FLG_FIXED_TOP;
     if (r != rr && BN_copy(r, rr) == NULL)
         goto err;
 
Index: openssl-1.1.0i/crypto/bn/bn_sqr.c
===================================================================
--- openssl-1.1.0i.orig/crypto/bn/bn_sqr.c	2018-08-14 14:45:06.000000000 +0200
+++ openssl-1.1.0i/crypto/bn/bn_sqr.c	2019-01-18 15:15:11.346099889 +0100
@@ -16,6 +16,16 @@
  */
 int BN_sqr(BIGNUM *r, const BIGNUM *a, BN_CTX *ctx)
 {
+    int ret = bn_sqr_fixed_top(r, a, ctx);
+
+    bn_correct_top(r);
+    bn_check_top(r);
+
+    return ret;
+}
+
+int bn_sqr_fixed_top(BIGNUM *r, const BIGNUM *a, BN_CTX *ctx)
+{
     int max, al;
     int ret = 0;
     BIGNUM *tmp, *rr;
@@ -83,7 +93,7 @@ int BN_sqr(BIGNUM *r, const BIGNUM *a, B
 
     rr->neg = 0;
     rr->top = max;
-    bn_correct_top(rr);
+    rr->flags |= BN_FLG_FIXED_TOP;
     if (r != rr && BN_copy(r, rr) == NULL)
         goto err;
 
Index: openssl-1.1.0i/crypto/err/err.c
===================================================================
--- openssl-1.1.0i.orig/crypto/err/err.c	2018-08-14 14:45:07.000000000 +0200
+++ openssl-1.1.0i/crypto/err/err.c	2019-01-18 15:15:11.346099889 +0100
@@ -19,6 +19,7 @@
 #include <openssl/bio.h>
 #include <openssl/opensslconf.h>
 #include <internal/thread_once.h>
+#include "internal/constant_time_locl.h"
 
 static void err_load_strings(int lib, ERR_STRING_DATA *str);
 
@@ -822,3 +823,42 @@ int ERR_pop_to_mark(void)
     es->err_flags[es->top] &= ~ERR_FLAG_MARK;
     return 1;
 }
+
+#ifdef UINTPTR_T
+# undef UINTPTR_T
+#endif
+/*
+ * uintptr_t is the answer, but unfortunately C89, current "least common
+ * denominator" doesn't define it. Most legacy platforms typedef it anyway,
+ * so that attempt to fill the gaps means that one would have to identify
+ * that track these gaps, which would be undesirable. Macro it is...
+ */
+#if defined(__VMS) && __INITIAL_POINTER_SIZE==64
+/*
+ * But we can't use size_t on VMS, because it adheres to sizeof(size_t)==4
+ * even in 64-bit builds, which means that it won't work as mask.
+ */
+# define UINTPTR_T unsigned long long
+#else
+# define UINTPTR_T size_t
+#endif
+
+void err_clear_last_constant_time(int clear)
+{
+    ERR_STATE *es;
+    int top;
+
+    es = ERR_get_state();
+    if (es == NULL)
+        return;
+
+    top = es->top;
+
+    es->err_flags[top] &= ~(0 - clear);
+    es->err_buffer[top] &= ~(0UL - clear);
+    es->err_file[top] = (const char *)((UINTPTR_T)es->err_file[top] &
+                                       ~((UINTPTR_T)0 - clear));
+    es->err_line[top] |= 0 - clear;
+
+    es->top = (top + ERR_NUM_ERRORS - clear) % ERR_NUM_ERRORS;
+}
Index: openssl-1.1.0i/crypto/include/internal/bn_int.h
===================================================================
--- openssl-1.1.0i.orig/crypto/include/internal/bn_int.h	2018-08-14 14:45:07.000000000 +0200
+++ openssl-1.1.0i/crypto/include/internal/bn_int.h	2019-01-18 15:15:11.346099889 +0100
@@ -85,8 +85,14 @@ int bn_mul_mont_fixed_top(BIGNUM *r, con
                           BN_MONT_CTX *mont, BN_CTX *ctx);
 int bn_to_mont_fixed_top(BIGNUM *r, const BIGNUM *a, BN_MONT_CTX *mont,
                          BN_CTX *ctx);
+int bn_from_mont_fixed_top(BIGNUM *r, const BIGNUM *a, BN_MONT_CTX *mont,
+                           BN_CTX *ctx);
 int bn_mod_add_fixed_top(BIGNUM *r, const BIGNUM *a, const BIGNUM *b,
                          const BIGNUM *m);
+int bn_mod_sub_fixed_top(BIGNUM *r, const BIGNUM *a, const BIGNUM *b,
+                         const BIGNUM *m);
+int bn_mul_fixed_top(BIGNUM *r, const BIGNUM *a, const BIGNUM *b, BN_CTX *ctx);
+int bn_sqr_fixed_top(BIGNUM *r, const BIGNUM *a, BN_CTX *ctx);
 
 #ifdef  __cplusplus
 }
Index: openssl-1.1.0i/crypto/rsa/rsa_oaep.c
===================================================================
--- openssl-1.1.0i.orig/crypto/rsa/rsa_oaep.c	2018-08-14 14:45:07.000000000 +0200
+++ openssl-1.1.0i/crypto/rsa/rsa_oaep.c	2019-01-18 15:15:11.346099889 +0100
@@ -123,7 +123,7 @@ int RSA_padding_check_PKCS1_OAEP_mgf1(un
                                       const EVP_MD *mgf1md)
 {
     int i, dblen = 0, mlen = -1, one_index = 0, msg_index;
-    unsigned int good, found_one_byte;
+    unsigned int good = 0, found_one_byte, mask;
     const unsigned char *maskedseed, *maskeddb;
     /*
      * |em| is the encoded message, zero-padded to exactly |num| bytes: em =
@@ -150,8 +150,11 @@ int RSA_padding_check_PKCS1_OAEP_mgf1(un
      * the ciphertext, see PKCS #1 v2.2, section 7.1.2.
      * This does not leak any side-channel information.
      */
-    if (num < flen || num < 2 * mdlen + 2)
-        goto decoding_err;
+    if (num < flen || num < 2 * mdlen + 2) {
+        RSAerr(RSA_F_RSA_PADDING_CHECK_PKCS1_OAEP_MGF1,
+               RSA_R_OAEP_DECODING_ERROR);
+        return -1;
+    }
 
     dblen = num - mdlen - 1;
     db = OPENSSL_malloc(dblen);
@@ -160,25 +163,26 @@ int RSA_padding_check_PKCS1_OAEP_mgf1(un
         goto cleanup;
     }
 
-    if (flen != num) {
-        em = OPENSSL_zalloc(num);
-        if (em == NULL) {
-            RSAerr(RSA_F_RSA_PADDING_CHECK_PKCS1_OAEP_MGF1,
-                   ERR_R_MALLOC_FAILURE);
-            goto cleanup;
-        }
+    em = OPENSSL_malloc(num);
+    if (em == NULL) {
+        RSAerr(RSA_F_RSA_PADDING_CHECK_PKCS1_OAEP_MGF1,
+               ERR_R_MALLOC_FAILURE);
+        goto cleanup;
+    }
 
-        /*
-         * Caller is encouraged to pass zero-padded message created with
-         * BN_bn2binpad, but if it doesn't, we do this zero-padding copy
-         * to avoid leaking that information. The copy still leaks some
-         * side-channel information, but it's impossible to have a fixed
-         * memory access pattern since we can't read out of the bounds of
-         * |from|.
-         */
-        memcpy(em + num - flen, from, flen);
-        from = em;
+    /*
+     * Caller is encouraged to pass zero-padded message created with
+     * BN_bn2binpad. Trouble is that since we can't read out of |from|'s
+     * bounds, it's impossible to have an invariant memory access pattern
+     * in case |from| was not zero-padded in advance.
+     */
+    for (from += flen, em += num, i = 0; i < num; i++) {
+        mask = ~constant_time_is_zero(flen);
+        flen -= 1 & mask;
+        from -= 1 & mask;
+        *--em = *from & mask;
     }
+    from = em;
 
     /*
      * The first byte must be zero, however we must not leak if this is
@@ -225,31 +229,47 @@ int RSA_padding_check_PKCS1_OAEP_mgf1(un
      * so plaintext-awareness ensures timing side-channels are no longer a
      * concern.
      */
-    if (!good)
-        goto decoding_err;
-
     msg_index = one_index + 1;
     mlen = dblen - msg_index;
 
-    if (tlen < mlen) {
-        RSAerr(RSA_F_RSA_PADDING_CHECK_PKCS1_OAEP_MGF1, RSA_R_DATA_TOO_LARGE);
-        mlen = -1;
-    } else {
-        memcpy(to, db + msg_index, mlen);
-        goto cleanup;
+    /*
+     * For good measure, do this check in constant tine as well.
+     */
+    good &= constant_time_ge(tlen, mlen);
+
+    /*
+     * Even though we can't fake result's length, we can pretend copying
+     * |tlen| bytes where |mlen| bytes would be real. Last |tlen| of |dblen|
+     * bytes are viewed as circular buffer with start at |tlen|-|mlen'|,
+     * where |mlen'| is "saturated" |mlen| value. Deducing information
+     * about failure or |mlen| would take attacker's ability to observe
+     * memory access pattern with byte granularity *as it occurs*. It
+     * should be noted that failure is indistinguishable from normal
+     * operation if |tlen| is fixed by protocol.
+     */
+    tlen = constant_time_select_int(constant_time_lt(dblen, tlen), dblen, tlen);
+    msg_index = constant_time_select_int(good, msg_index, dblen - tlen);
+    mlen = dblen - msg_index;
+    for (from = db + msg_index, mask = good, i = 0; i < tlen; i++) {
+        unsigned int equals = constant_time_eq(i, mlen);
+
+        from -= dblen & equals; /* if (i == dblen) rewind   */
+        mask &= mask ^ equals;  /* if (i == dblen) mask = 0 */
+        to[i] = constant_time_select_8(mask, from[i], to[i]);
     }
 
- decoding_err:
     /*
      * To avoid chosen ciphertext attacks, the error message should not
      * reveal which kind of decoding error happened.
      */
     RSAerr(RSA_F_RSA_PADDING_CHECK_PKCS1_OAEP_MGF1,
            RSA_R_OAEP_DECODING_ERROR);
+    err_clear_last_constant_time(1 & good);
  cleanup:
     OPENSSL_clear_free(db, dblen);
     OPENSSL_clear_free(em, num);
-    return mlen;
+
+    return constant_time_select_int(good, mlen, -1);
 }
 
 int PKCS1_MGF1(unsigned char *mask, long len,
Index: openssl-1.1.0i/crypto/rsa/rsa_ossl.c
===================================================================
--- openssl-1.1.0i.orig/crypto/rsa/rsa_ossl.c	2019-01-18 15:15:10.870097140 +0100
+++ openssl-1.1.0i/crypto/rsa/rsa_ossl.c	2019-01-18 15:15:11.346099889 +0100
@@ -10,6 +10,7 @@
 #include "internal/cryptlib.h"
 #include "internal/bn_int.h"
 #include "rsa_locl.h"
+#include "internal/constant_time_locl.h"
 
 #ifdef OPENSSL_FIPS
 # include <openssl/fips.h>
@@ -153,8 +154,8 @@ static int rsa_ossl_public_encrypt(int f
     }
 
     if (rsa->flags & RSA_FLAG_CACHE_PUBLIC)
-        if (!BN_MONT_CTX_set_locked
-            (&rsa->_method_mod_n, rsa->lock, rsa->n, ctx))
+        if (!BN_MONT_CTX_set_locked(&rsa->_method_mod_n, rsa->lock,
+                                    rsa->n, ctx))
             goto err;
 
     if (!rsa->meth->bn_mod_exp(ret, f, rsa->e, rsa->n, ctx,
@@ -354,8 +355,8 @@ static int rsa_ossl_private_encrypt(int
         BN_with_flags(d, rsa->d, BN_FLG_CONSTTIME);
 
         if (rsa->flags & RSA_FLAG_CACHE_PUBLIC)
-            if (!BN_MONT_CTX_set_locked
-                (&rsa->_method_mod_n, rsa->lock, rsa->n, ctx)) {
+            if (!BN_MONT_CTX_set_locked(&rsa->_method_mod_n, rsa->lock,
+                                        rsa->n, ctx)) {
                 BN_free(d);
                 goto err;
             }
@@ -493,8 +494,8 @@ static int rsa_ossl_private_decrypt(int
         BN_with_flags(d, rsa->d, BN_FLG_CONSTTIME);
 
         if (rsa->flags & RSA_FLAG_CACHE_PUBLIC)
-            if (!BN_MONT_CTX_set_locked
-                (&rsa->_method_mod_n, rsa->lock, rsa->n, ctx)) {
+            if (!BN_MONT_CTX_set_locked(&rsa->_method_mod_n, rsa->lock,
+                                        rsa->n, ctx)) {
                 BN_free(d);
                 goto err;
             }
@@ -530,8 +531,8 @@ static int rsa_ossl_private_decrypt(int
         RSAerr(RSA_F_RSA_OSSL_PRIVATE_DECRYPT, RSA_R_UNKNOWN_PADDING_TYPE);
         goto err;
     }
-    if (r < 0)
-        RSAerr(RSA_F_RSA_OSSL_PRIVATE_DECRYPT, RSA_R_PADDING_CHECK_FAILED);
+    RSAerr(RSA_F_RSA_OSSL_PRIVATE_DECRYPT, RSA_R_PADDING_CHECK_FAILED);
+    err_clear_last_constant_time(r >= 0);
 
  err:
     if (ctx != NULL)
@@ -615,8 +616,8 @@ static int rsa_ossl_public_decrypt(int f
     }
 
     if (rsa->flags & RSA_FLAG_CACHE_PUBLIC)
-        if (!BN_MONT_CTX_set_locked
-            (&rsa->_method_mod_n, rsa->lock, rsa->n, ctx))
+        if (!BN_MONT_CTX_set_locked(&rsa->_method_mod_n, rsa->lock,
+                                    rsa->n, ctx))
             goto err;
 
     if (!rsa->meth->bn_mod_exp(ret, f, rsa->e, rsa->n, ctx,
@@ -657,7 +658,7 @@ static int rsa_ossl_public_decrypt(int f
 static int rsa_ossl_mod_exp(BIGNUM *r0, const BIGNUM *I, RSA *rsa, BN_CTX *ctx)
 {
     BIGNUM *r1, *m1, *vrfy;
-    int ret = 0;
+    int ret = 0, smooth = 0;
 
     BN_CTX_start(ctx);
 
@@ -667,43 +668,79 @@ static int rsa_ossl_mod_exp(BIGNUM *r0,
     if (vrfy == NULL)
         goto err;
 
-    {
-        BIGNUM *p = BN_new(), *q = BN_new();
+    if (rsa->flags & RSA_FLAG_CACHE_PRIVATE) {
+        BIGNUM *factor = BN_new();
+
+        if (factor == NULL)
+            goto err;
 
         /*
          * Make sure BN_mod_inverse in Montgomery initialization uses the
          * BN_FLG_CONSTTIME flag
          */
-        if (p == NULL || q == NULL) {
-            BN_free(p);
-            BN_free(q);
+        if (!(BN_with_flags(factor, rsa->p, BN_FLG_CONSTTIME),
+              BN_MONT_CTX_set_locked(&rsa->_method_mod_p, rsa->lock,
+                                     factor, ctx))
+            || !(BN_with_flags(factor, rsa->q, BN_FLG_CONSTTIME),
+                 BN_MONT_CTX_set_locked(&rsa->_method_mod_q, rsa->lock,
+                                        factor, ctx))) {
+            BN_free(factor);
             goto err;
         }
-        BN_with_flags(p, rsa->p, BN_FLG_CONSTTIME);
-        BN_with_flags(q, rsa->q, BN_FLG_CONSTTIME);
-
-        if (rsa->flags & RSA_FLAG_CACHE_PRIVATE) {
-            if (!BN_MONT_CTX_set_locked
-                (&rsa->_method_mod_p, rsa->lock, p, ctx)
-                || !BN_MONT_CTX_set_locked(&rsa->_method_mod_q,
-                                           rsa->lock, q, ctx)) {
-                BN_free(p);
-                BN_free(q);
-                goto err;
-            }
-        }
         /*
-         * We MUST free p and q before any further use of rsa->p and rsa->q
+         * We MUST free |factor| before any further use of the prime factors
          */
-        BN_free(p);
-        BN_free(q);
+        BN_free(factor);
+
+        smooth = (rsa->meth->bn_mod_exp == BN_mod_exp_mont)
+                 && (BN_num_bits(rsa->q) == BN_num_bits(rsa->p));
     }
 
     if (rsa->flags & RSA_FLAG_CACHE_PUBLIC)
-        if (!BN_MONT_CTX_set_locked
-            (&rsa->_method_mod_n, rsa->lock, rsa->n, ctx))
+        if (!BN_MONT_CTX_set_locked(&rsa->_method_mod_n, rsa->lock,
+                                    rsa->n, ctx))
+            goto err;
+
+    if (smooth) {
+        /*
+         * Conversion from Montgomery domain, a.k.a. Montgomery reduction,
+         * accepts values in [0-m*2^w) range. w is m's bit width rounded up
+         * to limb width. So that at the very least if |I| is fully reduced,
+         * i.e. less than p*q, we can count on from-to round to perform
+         * below modulo operations on |I|. Unlike BN_mod it's constant time.
+         */
+        if (/* m1 = I moq q */
+            !bn_from_mont_fixed_top(m1, I, rsa->_method_mod_q, ctx)
+            || !bn_to_mont_fixed_top(m1, m1, rsa->_method_mod_q, ctx)
+            /* m1 = m1^dmq1 mod q */
+            || !BN_mod_exp_mont_consttime(m1, m1, rsa->dmq1, rsa->q, ctx,
+                                          rsa->_method_mod_q)
+            /* r1 = I mod p */
+            || !bn_from_mont_fixed_top(r1, I, rsa->_method_mod_p, ctx)
+            || !bn_to_mont_fixed_top(r1, r1, rsa->_method_mod_p, ctx)
+            /* r1 = r1^dmp1 mod p */
+            || !BN_mod_exp_mont_consttime(r1, r1, rsa->dmp1, rsa->p, ctx,
+                                          rsa->_method_mod_p)
+            /* r1 = (r1 - m1) mod p */
+            /*
+             * bn_mod_sub_fixed_top is not regular modular subtraction,
+             * it can tolerate subtrahend to be larger than modulus, but
+             * not bit-wise wider. This makes up for uncommon q>p case,
+             * when |m1| can be larger than |rsa->p|.
+             */
+            || !bn_mod_sub_fixed_top(r1, r1, m1, rsa->p)
+
+            /* r0 = r0 * iqmp mod p */
+            || !bn_to_mont_fixed_top(r1, r1, rsa->_method_mod_p, ctx)
+            || !bn_mul_mont_fixed_top(r1, r1, rsa->iqmp, rsa->_method_mod_p,
+                                      ctx)
+            || !bn_mul_fixed_top(r0, r1, rsa->q, ctx)
+            || !bn_mod_add_fixed_top(r0, r0, m1, rsa->n))
             goto err;
 
+        goto tail;
+    }
+
     /* compute I mod q */
     {
         BIGNUM *c = BN_new();
@@ -726,7 +763,7 @@ static int rsa_ossl_mod_exp(BIGNUM *r0,
 
             /* compute r1^dmq1 mod q */
             if (!rsa->meth->bn_mod_exp(m1, r1, dmq1, rsa->q, ctx,
-                rsa->_method_mod_q)) {
+                                       rsa->_method_mod_q)) {
                 BN_free(c);
                 BN_free(dmq1);
                 goto err;
@@ -802,10 +839,18 @@ static int rsa_ossl_mod_exp(BIGNUM *r0,
     if (!BN_add(r0, r1, m1))
         goto err;
 
+ tail:
     if (rsa->e && rsa->n) {
-        if (!rsa->meth->bn_mod_exp(vrfy, r0, rsa->e, rsa->n, ctx,
-                                   rsa->_method_mod_n))
-            goto err;
+        if (rsa->meth->bn_mod_exp == BN_mod_exp_mont) {
+            if (!BN_mod_exp_mont(vrfy, r0, rsa->e, rsa->n, ctx,
+                                 rsa->_method_mod_n))
+                goto err;
+        } else {
+            bn_correct_top(r0);
+            if (!rsa->meth->bn_mod_exp(vrfy, r0, rsa->e, rsa->n, ctx,
+                                       rsa->_method_mod_n))
+                goto err;
+        }
         /*
          * If 'I' was greater than (or equal to) rsa->n, the operation will
          * be equivalent to using 'I mod n'. However, the result of the
@@ -814,6 +859,11 @@ static int rsa_ossl_mod_exp(BIGNUM *r0,
          */
         if (!BN_sub(vrfy, vrfy, I))
             goto err;
+        if (BN_is_zero(vrfy)) {
+            bn_correct_top(r0);
+            ret = 1;
+            goto err;   /* not actually error */
+        }
         if (!BN_mod(vrfy, vrfy, rsa->n, ctx))
             goto err;
         if (BN_is_negative(vrfy))
@@ -840,6 +890,15 @@ static int rsa_ossl_mod_exp(BIGNUM *r0,
             BN_free(d);
         }
     }
+    /*
+     * It's unfortunate that we have to bn_correct_top(r0). What hopefully
+     * saves the day is that correction is highly unlike, and private key
+     * operations are customarily performed on blinded message. Which means
+     * that attacker won't observe correlation with chosen plaintext.
+     * Secondly, remaining code would still handle it in same computational
+     * time and even conceal memory access pattern around corrected top.
+     */
+    bn_correct_top(r0);
     ret = 1;
  err:
     BN_CTX_end(ctx);
Index: openssl-1.1.0i/crypto/rsa/rsa_pk1.c
===================================================================
--- openssl-1.1.0i.orig/crypto/rsa/rsa_pk1.c	2018-08-14 14:45:07.000000000 +0200
+++ openssl-1.1.0i/crypto/rsa/rsa_pk1.c	2019-01-18 15:15:11.346099889 +0100
@@ -158,7 +158,7 @@ int RSA_padding_check_PKCS1_type_2(unsig
     int i;
     /* |em| is the encoded message, zero-padded to exactly |num| bytes */
     unsigned char *em = NULL;
-    unsigned int good, found_zero_byte;
+    unsigned int good, found_zero_byte, mask;
     int zero_index = 0, msg_index, mlen = -1;
 
     if (tlen < 0 || flen < 0)
@@ -169,39 +169,41 @@ int RSA_padding_check_PKCS1_type_2(unsig
      * section 7.2.2.
      */
 
-    if (flen > num)
-        goto err;
-
-    if (num < 11)
-        goto err;
+    if (flen > num || num < 11) {
+        RSAerr(RSA_F_RSA_PADDING_CHECK_PKCS1_TYPE_2,
+               RSA_R_PKCS_DECODING_ERROR);
+        return -1;
+    }
 
-    if (flen != num) {
-        em = OPENSSL_zalloc(num);
-        if (em == NULL) {
-            RSAerr(RSA_F_RSA_PADDING_CHECK_PKCS1_TYPE_2, ERR_R_MALLOC_FAILURE);
-            return -1;
-        }
-        /*
-         * Caller is encouraged to pass zero-padded message created with
-         * BN_bn2binpad, but if it doesn't, we do this zero-padding copy
-         * to avoid leaking that information. The copy still leaks some
-         * side-channel information, but it's impossible to have a fixed
-         * memory access pattern since we can't read out of the bounds of
-         * |from|.
-         */
-        memcpy(em + num - flen, from, flen);
-        from = em;
+    em = OPENSSL_malloc(num);
+    if (em == NULL) {
+        RSAerr(RSA_F_RSA_PADDING_CHECK_PKCS1_TYPE_2, ERR_R_MALLOC_FAILURE);
+        return -1;
+    }
+    /*
+     * Caller is encouraged to pass zero-padded message created with
+     * BN_bn2binpad. Trouble is that since we can't read out of |from|'s
+     * bounds, it's impossible to have an invariant memory access pattern
+     * in case |from| was not zero-padded in advance.
+     */
+    for (from += flen, em += num, i = 0; i < num; i++) {
+        mask = ~constant_time_is_zero(flen);
+        flen -= 1 & mask;
+        from -= 1 & mask;
+        *--em = *from & mask;
     }
+    from = em;
 
     good = constant_time_is_zero(from[0]);
     good &= constant_time_eq(from[1], 2);
 
+    /* scan over padding data */
     found_zero_byte = 0;
     for (i = 2; i < num; i++) {
         unsigned int equals0 = constant_time_is_zero(from[i]);
-        zero_index =
-            constant_time_select_int(~found_zero_byte & equals0, i,
-                                     zero_index);
+
+        zero_index = constant_time_select_int(~found_zero_byte & equals0,
+                                              i, zero_index);
         found_zero_byte |= equals0;
     }
 
@@ -210,7 +212,7 @@ int RSA_padding_check_PKCS1_type_2(unsig
      * If we never found a 0-byte, then |zero_index| is 0 and the check
      * also fails.
      */
-    good &= constant_time_ge((unsigned int)(zero_index), 2 + 8);
+    good &= constant_time_ge(zero_index, 2 + 8);
 
     /*
      * Skip the zero byte. This is incorrect if we never found a zero-byte
@@ -220,27 +222,34 @@ int RSA_padding_check_PKCS1_type_2(unsig
     mlen = num - msg_index;
 
     /*
-     * For good measure, do this check in constant time as well; it could
-     * leak something if |tlen| was assuming valid padding.
+     * For good measure, do this check in constant time as well.
      */
-    good &= constant_time_ge((unsigned int)(tlen), (unsigned int)(mlen));
+    good &= constant_time_ge(tlen, mlen);
 
     /*
-     * We can't continue in constant-time because we need to copy the result
-     * and we cannot fake its length. This unavoidably leaks timing
-     * information at the API boundary.
+     * Even though we can't fake result's length, we can pretend copying
+     * |tlen| bytes where |mlen| bytes would be real. Last |tlen| of |num|
+     * bytes are viewed as circular buffer with start at |tlen|-|mlen'|,
+     * where |mlen'| is "saturated" |mlen| value. Deducing information
+     * about failure or |mlen| would take attacker's ability to observe
+     * memory access pattern with byte granularity *as it occurs*. It
+     * should be noted that failure is indistinguishable from normal
+     * operation if |tlen| is fixed by protocol.
      */
-    if (!good) {
-        mlen = -1;
-        goto err;
-    }
+    tlen = constant_time_select_int(constant_time_lt(num, tlen), num, tlen);
+    msg_index = constant_time_select_int(good, msg_index, num - tlen);
+    mlen = num - msg_index;
+    for (from += msg_index, mask = good, i = 0; i < tlen; i++) {
+        unsigned int equals = constant_time_eq(i, mlen);
 
-    memcpy(to, from + msg_index, mlen);
+        from -= tlen & equals;  /* if (i == mlen) rewind   */
+        mask &= mask ^ equals;  /* if (i == mlen) mask = 0 */
+        to[i] = constant_time_select_8(mask, from[i], to[i]);
+    }
 
- err:
     OPENSSL_clear_free(em, num);
-    if (mlen == -1)
-        RSAerr(RSA_F_RSA_PADDING_CHECK_PKCS1_TYPE_2,
-               RSA_R_PKCS_DECODING_ERROR);
-    return mlen;
+    RSAerr(RSA_F_RSA_PADDING_CHECK_PKCS1_TYPE_2, RSA_R_PKCS_DECODING_ERROR);
+    err_clear_last_constant_time(1 & good);
+
+    return constant_time_select_int(good, mlen, -1);
 }
Index: openssl-1.1.0i/crypto/rsa/rsa_ssl.c
===================================================================
--- openssl-1.1.0i.orig/crypto/rsa/rsa_ssl.c	2018-08-14 14:45:07.000000000 +0200
+++ openssl-1.1.0i/crypto/rsa/rsa_ssl.c	2019-01-18 15:15:11.346099889 +0100
@@ -12,6 +12,7 @@
 #include <openssl/bn.h>
 #include <openssl/rsa.h>
 #include <openssl/rand.h>
+#include "internal/constant_time_locl.h"
 
 int RSA_padding_add_SSLv23(unsigned char *to, int tlen,
                            const unsigned char *from, int flen)
@@ -52,57 +53,115 @@ int RSA_padding_add_SSLv23(unsigned char
     return (1);
 }
 
+/*
+ * Copy of RSA_padding_check_PKCS1_type_2 with a twist that rejects padding
+ * if nul delimiter is preceded by 8 consecutive 0x03 bytes. It also
+ * preserves error code reporting for backward compatibility.
+ */
 int RSA_padding_check_SSLv23(unsigned char *to, int tlen,
                              const unsigned char *from, int flen, int num)
 {
-    int i, j, k;
-    const unsigned char *p;
+    int i;
+    /* |em| is the encoded message, zero-padded to exactly |num| bytes */
+    unsigned char *em = NULL;
+    unsigned int good, found_zero_byte, mask, threes_in_row;
+    int zero_index = 0, msg_index, mlen = -1, err;
 
-    p = from;
     if (flen < 10) {
         RSAerr(RSA_F_RSA_PADDING_CHECK_SSLV23, RSA_R_DATA_TOO_SMALL);
         return (-1);
     }
-    /* Accept even zero-padded input */
-    if (flen == num) {
-        if (*(p++) != 0) {
-            RSAerr(RSA_F_RSA_PADDING_CHECK_SSLV23, RSA_R_BLOCK_TYPE_IS_NOT_02);
-            return -1;
-        }
-        flen--;
-    }
-    if ((num != (flen + 1)) || (*(p++) != 02)) {
-        RSAerr(RSA_F_RSA_PADDING_CHECK_SSLV23, RSA_R_BLOCK_TYPE_IS_NOT_02);
-        return (-1);
-    }
 
-    /* scan over padding data */
-    j = flen - 1;               /* one for type */
-    for (i = 0; i < j; i++)
-        if (*(p++) == 0)
-            break;
-
-    if ((i == j) || (i < 8)) {
-        RSAerr(RSA_F_RSA_PADDING_CHECK_SSLV23,
-               RSA_R_NULL_BEFORE_BLOCK_MISSING);
-        return (-1);
-    }
-    for (k = -9; k < -1; k++) {
-        if (p[k] != 0x03)
-            break;
-    }
-    if (k == -1) {
-        RSAerr(RSA_F_RSA_PADDING_CHECK_SSLV23, RSA_R_SSLV3_ROLLBACK_ATTACK);
-        return (-1);
-    }
+    em = OPENSSL_malloc(num);
+    if (em == NULL) {
+        RSAerr(RSA_F_RSA_PADDING_CHECK_SSLV23, ERR_R_MALLOC_FAILURE);
+        return -1;
+    }
+    /*
+     * Caller is encouraged to pass zero-padded message created with
+     * BN_bn2binpad. Trouble is that since we can't read out of |from|'s
+     * bounds, it's impossible to have an invariant memory access pattern
+     * in case |from| was not zero-padded in advance.
+     */
+    for (from += flen, em += num, i = 0; i < num; i++) {
+        mask = ~constant_time_is_zero(flen);
+        flen -= 1 & mask;
+        from -= 1 & mask;
+        *--em = *from & mask;
+    }
+    from = em;
+
+    good = constant_time_is_zero(from[0]);
+    good &= constant_time_eq(from[1], 2);
+    err = constant_time_select_int(good, 0, RSA_R_BLOCK_TYPE_IS_NOT_02);
+    mask = ~good;
 
-    i++;                        /* Skip over the '\0' */
-    j -= i;
-    if (j > tlen) {
-        RSAerr(RSA_F_RSA_PADDING_CHECK_SSLV23, RSA_R_DATA_TOO_LARGE);
-        return (-1);
-    }
-    memcpy(to, p, (unsigned int)j);
+    /* scan over padding data */
+    found_zero_byte = 0;
+    threes_in_row = 0;
+    for (i = 2; i < num; i++) {
+        unsigned int equals0 = constant_time_is_zero(from[i]);
+
+        zero_index = constant_time_select_int(~found_zero_byte & equals0,
+                                              i, zero_index);
+        found_zero_byte |= equals0;
+
+        threes_in_row += 1 & ~found_zero_byte;
+        threes_in_row &= found_zero_byte | constant_time_eq(from[i], 3);
+    }
+
+    /*
+     * PS must be at least 8 bytes long, and it starts two bytes into |from|.
+     * If we never found a 0-byte, then |zero_index| is 0 and the check
+     * also fails.
+     */
+    good &= constant_time_ge(zero_index, 2 + 8);
+    err = constant_time_select_int(mask | good, err,
+                                   RSA_R_NULL_BEFORE_BLOCK_MISSING);
+    mask = ~good;
+
+    good &= constant_time_lt(threes_in_row, 8);
+    err = constant_time_select_int(mask | good, err,
+                                   RSA_R_SSLV3_ROLLBACK_ATTACK);
+    mask = ~good;
+
+    /*
+     * Skip the zero byte. This is incorrect if we never found a zero-byte
+     * but in this case we also do not copy the message out.
+     */
+    msg_index = zero_index + 1;
+    mlen = num - msg_index;
+
+    /*
+     * For good measure, do this check in constant time as well.
+     */
+    good &= constant_time_ge(tlen, mlen);
+    err = constant_time_select_int(mask | good, err, RSA_R_DATA_TOO_LARGE);
+
+    /*
+     * Even though we can't fake result's length, we can pretend copying
+     * |tlen| bytes where |mlen| bytes would be real. Last |tlen| of |num|
+     * bytes are viewed as circular buffer with start at |tlen|-|mlen'|,
+     * where |mlen'| is "saturated" |mlen| value. Deducing information
+     * about failure or |mlen| would take attacker's ability to observe
+     * memory access pattern with byte granularity *as it occurs*. It
+     * should be noted that failure is indistinguishable from normal
+     * operation if |tlen| is fixed by protocol.
+     */
+    tlen = constant_time_select_int(constant_time_lt(num, tlen), num, tlen);
+    msg_index = constant_time_select_int(good, msg_index, num - tlen);
+    mlen = num - msg_index;
+    for (from += msg_index, mask = good, i = 0; i < tlen; i++) {
+        unsigned int equals = constant_time_eq(i, mlen);
+
+        from -= tlen & equals;  /* if (i == mlen) rewind   */
+        mask &= mask ^ equals;  /* if (i == mlen) mask = 0 */
+        to[i] = constant_time_select_8(mask, from[i], to[i]);
+    }
+
+    OPENSSL_clear_free(em, num);
+    RSAerr(RSA_F_RSA_PADDING_CHECK_SSLV23, err);
+    err_clear_last_constant_time(1 & good);
 
-    return (j);
+    return constant_time_select_int(good, mlen, -1);
 }
Index: openssl-1.1.0i/doc/crypto/RSA_padding_add_PKCS1_type_1.pod
===================================================================
--- openssl-1.1.0i.orig/doc/crypto/RSA_padding_add_PKCS1_type_1.pod	2018-08-14 14:45:08.000000000 +0200
+++ openssl-1.1.0i/doc/crypto/RSA_padding_add_PKCS1_type_1.pod	2019-01-18 15:15:11.346099889 +0100
@@ -109,7 +109,12 @@ L<ERR_get_error(3)>.
 The RSA_padding_check_PKCS1_type_2() padding check leaks timing
 information which can potentially be used to mount a Bleichenbacher
 padding oracle attack. This is an inherent weakness in the PKCS #1
-v1.5 padding design. Prefer PKCS1_OAEP padding.
+v1.5 padding design. Prefer PKCS1_OAEP padding. Otherwise it can
+be recommended to pass zero-padded B<f>, so that B<fl> equals to
+B<rsa_len>, and if fixed by protocol, B<tlen> being set to the
+expected length. In such case leakage would be minimal, it would
+take attacker's ability to observe memory access pattern with byte
+granilarity as it occurs, post-factum timing analysis won't do.
 
 =head1 SEE ALSO
 
Index: openssl-1.1.0i/include/internal/constant_time_locl.h
===================================================================
--- openssl-1.1.0i.orig/include/internal/constant_time_locl.h	2018-08-14 14:45:09.000000000 +0200
+++ openssl-1.1.0i/include/internal/constant_time_locl.h	2019-01-18 15:15:11.346099889 +0100
@@ -178,6 +178,12 @@ static ossl_inline int constant_time_sel
     return (int)(constant_time_select(mask, (unsigned)(a), (unsigned)(b)));
 }
 
+/*
+ * Expected usage pattern is to unconditionally set error and then
+ * wipe it if there was no actual error. |clear| is 1 or 0.
+ */
+void err_clear_last_constant_time(int clear);
+
 #ifdef __cplusplus
 }
 #endif

Places

File openssl-Bleichenbachers_CAT.patch of Package openssl-1_1.12535

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