addr-eng: suites_buf
addr-eng: suites_num
addr-eng: server_name
-\ addr-eng: version
-\ addr-eng: cipher_suite
addr-eng: client_random
addr-eng: server_random
-\ addr-eng: session_id_len
-\ addr-eng: session_id
addr-eng: ecdhe_curve
addr-eng: ecdhe_point
addr-eng: ecdhe_point_len
addr-eng: action
addr-eng: alert
addr-eng: close_received
+addr-eng: protocol_names_num
+addr-eng: selected_protocol
\ Similar to 'addr-eng:', for fields in the 'session' substructure.
: addr-session-field:
err: ERR_BAD_FINISHED
err: ERR_RESUME_MISMATCH
err: ERR_INVALID_ALGORITHM
+err: ERR_BAD_SIGNATURE
+err: ERR_WRONG_KEY_USAGE
+err: ERR_NO_CLIENT_AUTH
\ Get supported curves (bit mask).
cc: supported-curves ( -- x ) {
}
\ Get supported hash functions (bit mask and number).
+\ Note: this (on purpose) skips MD5.
cc: supported-hash-functions ( -- x num ) {
int i;
unsigned x, num;
T0_PUSH(num);
}
+\ Test support for RSA signatures.
+cc: supports-rsa-sign? ( -- bool ) {
+ T0_PUSHi(-(ENG->irsavrfy != 0));
+}
+
+\ Test support for ECDSA signatures.
+cc: supports-ecdsa? ( -- bool ) {
+ T0_PUSHi(-(ENG->iecdsa != 0));
+}
+
\ (Re)initialise the multihasher.
cc: multihash-init ( -- ) {
br_multihash_init(&ENG->mhash);
\ no_renegotiation has value 100, and we treat it
\ as a fatal alert.
dup 100 = if 256 + fail then
- 0= ret
+ 0=
endof
\ Fatal alert implies context termination.
drop 256 + fail
then
endof
- \ ChaCha20/Poly1305
- \ 5 of endof
+ \ ChaCha20+Poly1305
+ 5 of drop
+ for-input if
+ switch-chapol-in
+ else
+ switch-chapol-out
+ then
+ endof
ERR_BAD_PARAM fail
endcase
ENG->iaes_ctr, cipher_key_len);
}
+cc: switch-chapol-out ( is_client prf_id -- ) {
+ int is_client, prf_id;
+
+ prf_id = T0_POP();
+ is_client = T0_POP();
+ br_ssl_engine_switch_chapol_out(ENG, is_client, prf_id);
+}
+
+cc: switch-chapol-in ( is_client prf_id -- ) {
+ int is_client, prf_id;
+
+ prf_id = T0_POP();
+ is_client = T0_POP();
+ br_ssl_engine_switch_chapol_in(ENG, is_client, prf_id);
+}
+
\ Write Finished message.
: write-Finished ( from_client -- )
compute-Finished
22 wait-rectype-out
write-Finished
flush-record ;
+
+\ Read and parse a list of supported signature algorithms (with hash
+\ functions). The resulting bit field is returned.
+: read-list-sign-algos ( lim -- lim value )
+ 0 { hashes }
+ read16 open-elt
+ begin dup while
+ read8 { hash } read8 { sign }
+
+ \ If hash is 0x08 then this is a "new algorithm" identifier,
+ \ and we set the corresponding bit if it is in the 0..15
+ \ range. Otherwise, we keep the value only if the signature
+ \ is either 1 (RSA) or 3 (ECDSA), and the hash is one of the
+ \ SHA-* functions (2 to 6). Note that we reject MD5.
+ hash 8 = if
+ sign 15 <= if
+ 1 sign 16 + << hashes or >hashes
+ then
+ else
+ hash 2 >= hash 6 <= and
+ sign 1 = sign 3 = or
+ and if
+ hashes 1 sign 1- 2 << hash + << or >hashes
+ then
+ then
+ repeat
+ close-elt
+ hashes ;
+
+\ =======================================================================
+
+\ Compute total chain length. This includes the individual certificate
+\ headers, but not the total chain header. This also sets the cert_cur,
+\ cert_len and chain_len context fields.
+cc: total-chain-length ( -- len ) {
+ size_t u;
+ uint32_t total;
+
+ total = 0;
+ for (u = 0; u < ENG->chain_len; u ++) {
+ total += 3 + (uint32_t)ENG->chain[u].data_len;
+ }
+ T0_PUSH(total);
+}
+
+\ Get length for current certificate in the chain; if the chain end was
+\ reached, then this returns -1.
+cc: begin-cert ( -- len ) {
+ if (ENG->chain_len == 0) {
+ T0_PUSHi(-1);
+ } else {
+ ENG->cert_cur = ENG->chain->data;
+ ENG->cert_len = ENG->chain->data_len;
+ ENG->chain ++;
+ ENG->chain_len --;
+ T0_PUSH(ENG->cert_len);
+ }
+}
+
+\ Copy a chunk of certificate data into the pad. Returned value is the
+\ chunk length, or 0 if the certificate end is reached.
+cc: copy-cert-chunk ( -- len ) {
+ size_t clen;
+
+ clen = ENG->cert_len;
+ if (clen > sizeof ENG->pad) {
+ clen = sizeof ENG->pad;
+ }
+ memcpy(ENG->pad, ENG->cert_cur, clen);
+ ENG->cert_cur += clen;
+ ENG->cert_len -= clen;
+ T0_PUSH(clen);
+}
+
+\ Write a Certificate message. Total chain length (excluding the 3-byte
+\ header) is returned; it is 0 if the chain is empty.
+: write-Certificate ( -- total_chain_len )
+ 11 write8
+ total-chain-length dup
+ dup 3 + write24 write24
+ begin
+ begin-cert
+ dup 0< if drop ret then write24
+ begin copy-cert-chunk dup while
+ addr-pad swap write-blob
+ repeat
+ drop
+ again ;
+
+cc: x509-start-chain ( by_client -- ) {
+ const br_x509_class *xc;
+ uint32_t bc;
+
+ bc = T0_POP();
+ xc = *(ENG->x509ctx);
+ xc->start_chain(ENG->x509ctx, bc ? ENG->server_name : NULL);
+}
+
+cc: x509-start-cert ( length -- ) {
+ const br_x509_class *xc;
+
+ xc = *(ENG->x509ctx);
+ xc->start_cert(ENG->x509ctx, T0_POP());
+}
+
+cc: x509-append ( length -- ) {
+ const br_x509_class *xc;
+ size_t len;
+
+ xc = *(ENG->x509ctx);
+ len = T0_POP();
+ xc->append(ENG->x509ctx, ENG->pad, len);
+}
+
+cc: x509-end-cert ( -- ) {
+ const br_x509_class *xc;
+
+ xc = *(ENG->x509ctx);
+ xc->end_cert(ENG->x509ctx);
+}
+
+cc: x509-end-chain ( -- err ) {
+ const br_x509_class *xc;
+
+ xc = *(ENG->x509ctx);
+ T0_PUSH(xc->end_chain(ENG->x509ctx));
+}
+
+cc: get-key-type-usages ( -- key-type-usages ) {
+ const br_x509_class *xc;
+ const br_x509_pkey *pk;
+ unsigned usages;
+
+ xc = *(ENG->x509ctx);
+ pk = xc->get_pkey(ENG->x509ctx, &usages);
+ if (pk == NULL) {
+ T0_PUSH(0);
+ } else {
+ T0_PUSH(pk->key_type | usages);
+ }
+}
+
+\ Read a Certificate message.
+\ Parameter: non-zero if this is a read by the client of a certificate
+\ sent by the server; zero otherwise.
+\ Returned value:
+\ - Empty: 0
+\ - Valid: combination of key type and allowed key usages.
+\ - Invalid: negative (-x for error code x)
+: read-Certificate ( by_client -- key-type-usages )
+ \ Get header, and check message type.
+ read-handshake-header 11 = ifnot ERR_UNEXPECTED fail then
+
+ \ If the chain is empty, do some special processing.
+ dup 3 = if
+ read24 if ERR_BAD_PARAM fail then
+ swap drop ret
+ then
+
+ \ Start processing the chain through the X.509 engine.
+ swap x509-start-chain
+
+ \ Total chain length is a 24-bit integer.
+ read24 open-elt
+ begin
+ dup while
+ read24 open-elt
+ dup x509-start-cert
+
+ \ We read the certificate by chunks through the pad, so
+ \ as to use the existing reading function (read-blob)
+ \ that also ensures proper hashing.
+ begin
+ dup while
+ dup 256 > if 256 else dup then { len }
+ addr-pad len read-blob
+ len x509-append
+ repeat
+ close-elt
+ x509-end-cert
+ repeat
+
+ \ We must close the chain AND the handshake message.
+ close-elt
+ close-elt
+
+ \ Chain processing is finished; get the error code.
+ x509-end-chain
+ dup if neg ret then drop
+
+ \ Return key type and usages.
+ get-key-type-usages ;
+
+\ =======================================================================
+
+\ Copy a specific protocol name from the list to the pad. The byte
+\ length is returned.
+cc: copy-protocol-name ( idx -- len ) {
+ size_t idx = T0_POP();
+ size_t len = strlen(ENG->protocol_names[idx]);
+ memcpy(ENG->pad, ENG->protocol_names[idx], len);
+ T0_PUSH(len);
+}
+
+\ Compare name in pad with the configured list of protocol names.
+\ If a match is found, then the index is returned; otherwise, -1
+\ is returned.
+cc: test-protocol-name ( len -- n ) {
+ size_t len = T0_POP();
+ size_t u;
+
+ for (u = 0; u < ENG->protocol_names_num; u ++) {
+ const char *name;
+
+ name = ENG->protocol_names[u];
+ if (len == strlen(name) && memcmp(ENG->pad, name, len) == 0) {
+ T0_PUSH(u);
+ T0_RET();
+ }
+ }
+ T0_PUSHi(-1);
+}