* specific name. It must be noted that since the engine context is the
* first field of the br_ssl_server_context structure ('eng'), then
* pointers values of both types are interchangeable, modulo an
- * appropriate cast. This also means that "adresses" computed as offsets
+ * appropriate cast. This also means that "addresses" computed as offsets
* within the structure work for both kinds of context.
*/
#define CTX ((br_ssl_server_context *)ENG)
/*
* Decrypt the PMS.
*/
- x = (*ctx->policy_vtable)->do_keyx(ctx->policy_vtable, epms, len);
+ x = (*ctx->policy_vtable)->do_keyx(ctx->policy_vtable, epms, &len);
/*
* Set the first two bytes to the maximum supported client
*/
static void
ecdh_common(br_ssl_server_context *ctx, int prf_id,
- unsigned char *cpoint, size_t cpoint_len, uint32_t ctl)
+ unsigned char *xcoor, size_t xcoor_len, uint32_t ctl)
{
unsigned char rpms[80];
- size_t pms_len;
- /*
- * The point length is supposed to be 1+2*Xlen, where Xlen is
- * the length (in bytes) of the X coordinate, i.e. the pre-master
- * secret. If the provided point is too large, then it is
- * obviously incorrect (i.e. everybody can see that it is
- * incorrect), so leaking that fact is not a problem.
- */
- pms_len = cpoint_len >> 1;
- if (pms_len > sizeof rpms) {
- pms_len = sizeof rpms;
+ if (xcoor_len > sizeof rpms) {
+ xcoor_len = sizeof rpms;
ctl = 0;
}
* decryption failed. Note that we use a constant-time conditional
* copy.
*/
- br_hmac_drbg_generate(&ctx->eng.rng, rpms, pms_len);
- br_ccopy(ctl ^ 1, cpoint + 1, rpms, pms_len);
+ br_hmac_drbg_generate(&ctx->eng.rng, rpms, xcoor_len);
+ br_ccopy(ctl ^ 1, xcoor, rpms, xcoor_len);
/*
* Compute master secret.
*/
- br_ssl_engine_compute_master(&ctx->eng, prf_id, cpoint + 1, pms_len);
+ br_ssl_engine_compute_master(&ctx->eng, prf_id, xcoor, xcoor_len);
/*
* Clear the pre-master secret from RAM: it is normally a buffer
* in the context, hence potentially long-lived.
*/
- memset(cpoint, 0, cpoint_len);
+ memset(xcoor, 0, xcoor_len);
}
/*
* Finalise the key exchange.
*/
x = (*ctx->policy_vtable)->do_keyx(ctx->policy_vtable,
- cpoint, cpoint_len);
+ cpoint, &cpoint_len);
ecdh_common(ctx, prf_id, cpoint, cpoint_len, x);
}
unsigned char *cpoint, size_t cpoint_len)
{
int curve;
- uint32_t x;
+ uint32_t ctl;
+ size_t xoff, xlen;
curve = ctx->eng.ecdhe_curve;
/*
* Finalise the key exchange.
*/
- x = ctx->eng.iec->mul(cpoint, cpoint_len,
+ ctl = ctx->eng.iec->mul(cpoint, cpoint_len,
ctx->ecdhe_key, ctx->ecdhe_key_len, curve);
- ecdh_common(ctx, prf_id, cpoint, cpoint_len, x);
+ xoff = ctx->eng.iec->xoff(curve, &xlen);
+ ecdh_common(ctx, prf_id, cpoint + xoff, xlen, ctl);
/*
* Clear the ECDHE private key. Forward Secrecy is achieved insofar
}
}
+\ Read and drop ClientHello. This is used when a client-triggered
+\ renegotiation attempt is rejected.
+: skip-ClientHello ( -- )
+ read-handshake-header-core
+ 1 = ifnot ERR_UNEXPECTED fail then
+ dup skip-blob drop ;
+
\ Read ClientHello. If the session is resumed, then -1 is returned.
: read-ClientHello ( -- resume )
\ Get header, and check message type.
\ we should mark the client as "supporting secure renegotiation".
reneg-scsv if 2 addr-reneg set8 then
+ \ If, at that point, the 'reneg' value is still 0, then the client
+ \ did not send the extension or the SCSV, so we have to assume
+ \ that secure renegotiation is not supported by that client.
+ addr-reneg get8 ifnot 1 addr-reneg set8 then
+
\ Check compression.
ok-compression ifnot 40 fail-alert then
\ suites are filtered out. In particular:
\ -- ECDHE suites are removed if there is no common hash function
\ (for the relevant signature algorithm) or no common curve.
- \ -- TLS-1.2-only suites are removed if the negociated version is
+ \ -- TLS-1.2-only suites are removed if the negotiated version is
\ TLS-1.1 or lower.
addr-client_suites dup >css-off
begin dup css-max < while
T0_PUSHi(do_ecdhe_part1(CTX, curve));
}
+\ Get index of first bit set to 1 (in low to high order).
+: lowest-1 ( bits -- n )
+ dup ifnot drop -1 ret then
+ 0 begin dup2 >> 1 and 0= while 1+ repeat
+ swap drop ;
+
\ Write the Server Key Exchange message (if applicable).
: write-ServerKeyExchange ( -- )
addr-cipher_suite get16 use-ecdhe? ifnot ret then
\ We must select an appropriate curve among the curves that
- \ are supported both by us and the peer. Right now we use
- \ the one with the smallest ID, which in practice means P-256.
+ \ are supported both by us and the peer. Right now, we apply
+ \ a fixed preference order: Curve25519, P-256, P-384, P-521,
+ \ then the common curve with the lowest ID.
\ (TODO: add some option to make that behaviour configurable.)
\
\ This loop always terminates because previous processing made
\ sure that ECDHE suites are not selectable if there is no common
\ curve.
- addr-curves get32 0
- begin dup2 >> 1 and 0= while 1+ repeat
- { curve-id } drop
+ addr-curves get32
+ dup 0x20000000 and if
+ drop 29
+ else
+ dup 0x38000000 and dup if swap then
+ drop lowest-1
+ then
+ { curve-id }
\ Compute the signed curve point to send.
curve-id do-ecdhe-part1 dup 0< if neg fail then { sig-len }
\ The best we can do is ask for a
\ renegotiation, then wait for it
\ to happen.
+ 0 addr-application_data set8
send-HelloRequest
then
endof
\ "no renegotiation" flag is set.
drop
addr-reneg get8 1 = 1 flag? or if
+ skip-ClientHello
flush-record
begin can-output? not while
wait-co drop
repeat
100 send-warning
+ \ Put back connection in "application
+ \ data" state: it's not dead yet.
+ 1 addr-application_data set8
+ 23 addr-record_type_out set8
else
0 do-handshake
then