mirror of
https://github.com/rn10950/RetroZilla.git
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30d33aa8e8
9934c8faef29, 3c3b381c4865, 5a67f6beee9a, 1b1eb6d77728, a8b668fd72f7, bug962760, bug743700, bug857304, bug972653, bug972450, bug971358, bug903885, bug977073, bug976111, bug949939, bug947653, bug947572, bug903885, bug979106, bug966596, bug979004, bug979752, bug980848, bug938369, bug981170, bug668130, bug974693, bug975056, bug979132, bug370717, bug979070, bug985070, bug900067, bug977673, bug519255, bug989558, bug557299, bug987263, bug369802, a751a5146718, bug992343, bug952572, bug979703, bug994883, bug994869, bug993489, bug984608, bug977869, bug667371, bug672828, bug793347, bug977869
426 lines
13 KiB
C
426 lines
13 KiB
C
/*
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* Gather (Read) entire SSL2 records from socket into buffer.
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*
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "cert.h"
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#include "ssl.h"
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#include "sslimpl.h"
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#include "sslproto.h"
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/* Forward static declarations */
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static SECStatus ssl2_HandleV3HandshakeRecord(sslSocket *ss);
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/*
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** Gather a single record of data from the receiving stream. This code
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** first gathers the header (2 or 3 bytes long depending on the value of
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** the most significant bit in the first byte) then gathers up the data
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** for the record into gs->buf. This code handles non-blocking I/O
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** and is to be called multiple times until ss->sec.recordLen != 0.
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** This function decrypts the gathered record in place, in gs_buf.
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*
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* Caller must hold RecvBufLock.
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*
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* Returns +1 when it has gathered a complete SSLV2 record.
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* Returns 0 if it hits EOF.
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* Returns -1 (SECFailure) on any error
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* Returns -2 (SECWouldBlock) when it gathers an SSL v3 client hello header.
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**
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** The SSL2 Gather State machine has 4 states:
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** GS_INIT - Done reading in previous record. Haven't begun to read in
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** next record. When ssl2_GatherData is called with the machine
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** in this state, the machine will attempt to read the first 3
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** bytes of the SSL2 record header, and will advance the state
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** to GS_HEADER.
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**
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** GS_HEADER - The machine is in this state while waiting for the completion
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** of the first 3 bytes of the SSL2 record. When complete, the
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** machine will compute the remaining unread length of this record
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** and will initiate a read of that many bytes. The machine will
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** advance to one of two states, depending on whether the record
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** is encrypted (GS_MAC), or unencrypted (GS_DATA).
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**
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** GS_MAC - The machine is in this state while waiting for the remainder
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** of the SSL2 record to be read in. When the read is completed,
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** the machine checks the record for valid length, decrypts it,
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** and checks and discards the MAC, then advances to GS_INIT.
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**
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** GS_DATA - The machine is in this state while waiting for the remainder
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** of the unencrypted SSL2 record to be read in. Upon completion,
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** the machine advances to the GS_INIT state and returns the data.
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*/
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int
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ssl2_GatherData(sslSocket *ss, sslGather *gs, int flags)
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{
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unsigned char * bp;
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unsigned char * pBuf;
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int nb, err, rv;
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PORT_Assert( ss->opt.noLocks || ssl_HaveRecvBufLock(ss) );
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if (gs->state == GS_INIT) {
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/* Initialize gathering engine */
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gs->state = GS_HEADER;
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gs->remainder = 3;
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gs->count = 3;
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gs->offset = 0;
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gs->recordLen = 0;
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gs->recordPadding = 0;
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gs->hdr[2] = 0;
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gs->writeOffset = 0;
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gs->readOffset = 0;
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}
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if (gs->encrypted) {
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PORT_Assert(ss->sec.hash != 0);
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}
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pBuf = gs->buf.buf;
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for (;;) {
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SSL_TRC(30, ("%d: SSL[%d]: gather state %d (need %d more)",
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SSL_GETPID(), ss->fd, gs->state, gs->remainder));
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bp = ((gs->state != GS_HEADER) ? pBuf : gs->hdr) + gs->offset;
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nb = ssl_DefRecv(ss, bp, gs->remainder, flags);
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if (nb > 0) {
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PRINT_BUF(60, (ss, "raw gather data:", bp, nb));
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}
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if (nb == 0) {
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/* EOF */
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SSL_TRC(30, ("%d: SSL[%d]: EOF", SSL_GETPID(), ss->fd));
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rv = 0;
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break;
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}
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if (nb < 0) {
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SSL_DBG(("%d: SSL[%d]: recv error %d", SSL_GETPID(), ss->fd,
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PR_GetError()));
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rv = SECFailure;
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break;
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}
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gs->offset += nb;
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gs->remainder -= nb;
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if (gs->remainder > 0) {
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continue;
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}
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/* Probably finished this piece */
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switch (gs->state) {
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case GS_HEADER:
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if (!SSL3_ALL_VERSIONS_DISABLED(&ss->vrange) && !ss->firstHsDone) {
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PORT_Assert( ss->opt.noLocks || ssl_Have1stHandshakeLock(ss) );
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/* If this looks like an SSL3 handshake record,
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** and we're expecting an SSL2 Hello message from our peer,
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** handle it here.
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*/
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if (gs->hdr[0] == content_handshake) {
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if ((ss->nextHandshake == ssl2_HandleClientHelloMessage) ||
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(ss->nextHandshake == ssl2_HandleServerHelloMessage)) {
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rv = ssl2_HandleV3HandshakeRecord(ss);
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if (rv == SECFailure) {
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return SECFailure;
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}
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}
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/* XXX_1 The call stack to here is:
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* ssl_Do1stHandshake -> ssl_GatherRecord1stHandshake ->
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* ssl2_GatherRecord -> here.
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* We want to return all the way out to ssl_Do1stHandshake,
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* and have it call ssl_GatherRecord1stHandshake again.
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* ssl_GatherRecord1stHandshake will call
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* ssl3_GatherCompleteHandshake when it is called again.
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*
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* Returning SECWouldBlock here causes
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* ssl_GatherRecord1stHandshake to return without clearing
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* ss->handshake, ensuring that ssl_Do1stHandshake will
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* call it again immediately.
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*
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* If we return 1 here, ssl_GatherRecord1stHandshake will
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* clear ss->handshake before returning, and thus will not
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* be called again by ssl_Do1stHandshake.
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*/
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return SECWouldBlock;
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} else if (gs->hdr[0] == content_alert) {
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if (ss->nextHandshake == ssl2_HandleServerHelloMessage) {
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/* XXX This is a hack. We're assuming that any failure
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* XXX on the client hello is a failure to match
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* XXX ciphers.
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*/
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PORT_SetError(SSL_ERROR_NO_CYPHER_OVERLAP);
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return SECFailure;
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}
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}
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}
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/* we've got the first 3 bytes. The header may be two or three. */
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if (gs->hdr[0] & 0x80) {
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/* This record has a 2-byte header, and no padding */
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gs->count = ((gs->hdr[0] & 0x7f) << 8) | gs->hdr[1];
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gs->recordPadding = 0;
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} else {
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/* This record has a 3-byte header that is all read in now. */
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gs->count = ((gs->hdr[0] & 0x3f) << 8) | gs->hdr[1];
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/* is_escape = (gs->hdr[0] & 0x40) != 0; */
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gs->recordPadding = gs->hdr[2];
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}
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if (!gs->count) {
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PORT_SetError(SSL_ERROR_RX_RECORD_TOO_LONG);
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goto cleanup;
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}
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if (gs->count > gs->buf.space) {
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err = sslBuffer_Grow(&gs->buf, gs->count);
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if (err) {
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return err;
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}
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pBuf = gs->buf.buf;
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}
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if (gs->hdr[0] & 0x80) {
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/* we've already read in the first byte of the body.
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** Put it into the buffer.
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*/
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pBuf[0] = gs->hdr[2];
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gs->offset = 1;
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gs->remainder = gs->count - 1;
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} else {
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gs->offset = 0;
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gs->remainder = gs->count;
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}
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if (gs->encrypted) {
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gs->state = GS_MAC;
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gs->recordLen = gs->count - gs->recordPadding
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- ss->sec.hash->length;
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} else {
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gs->state = GS_DATA;
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gs->recordLen = gs->count;
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}
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break;
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case GS_MAC:
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/* Have read in entire rest of the ciphertext.
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** Check for valid length.
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** Decrypt it.
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** Check the MAC.
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*/
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PORT_Assert(gs->encrypted);
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{
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unsigned int macLen;
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int nout;
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unsigned char mac[SSL_MAX_MAC_BYTES];
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ssl_GetSpecReadLock(ss); /**********************************/
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/* If this is a stream cipher, blockSize will be 1,
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* and this test will always be false.
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* If this is a block cipher, this will detect records
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* that are not a multiple of the blocksize in length.
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*/
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if (gs->count & (ss->sec.blockSize - 1)) {
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/* This is an error. Sender is misbehaving */
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SSL_DBG(("%d: SSL[%d]: sender, count=%d blockSize=%d",
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SSL_GETPID(), ss->fd, gs->count,
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ss->sec.blockSize));
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PORT_SetError(SSL_ERROR_BAD_BLOCK_PADDING);
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rv = SECFailure;
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goto spec_locked_done;
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}
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PORT_Assert(gs->count == gs->offset);
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if (gs->offset == 0) {
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rv = 0; /* means EOF. */
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goto spec_locked_done;
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}
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/* Decrypt the portion of data that we just received.
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** Decrypt it in place.
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*/
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rv = (*ss->sec.dec)(ss->sec.readcx, pBuf, &nout, gs->offset,
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pBuf, gs->offset);
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if (rv != SECSuccess) {
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goto spec_locked_done;
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}
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/* Have read in all the MAC portion of record
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**
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** Prepare MAC by resetting it and feeding it the shared secret
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*/
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macLen = ss->sec.hash->length;
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if (gs->offset >= macLen) {
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PRUint32 sequenceNumber = ss->sec.rcvSequence++;
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unsigned char seq[4];
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seq[0] = (unsigned char) (sequenceNumber >> 24);
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seq[1] = (unsigned char) (sequenceNumber >> 16);
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seq[2] = (unsigned char) (sequenceNumber >> 8);
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seq[3] = (unsigned char) (sequenceNumber);
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(*ss->sec.hash->begin)(ss->sec.hashcx);
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(*ss->sec.hash->update)(ss->sec.hashcx, ss->sec.rcvSecret.data,
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ss->sec.rcvSecret.len);
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(*ss->sec.hash->update)(ss->sec.hashcx, pBuf + macLen,
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gs->offset - macLen);
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(*ss->sec.hash->update)(ss->sec.hashcx, seq, 4);
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(*ss->sec.hash->end)(ss->sec.hashcx, mac, &macLen, macLen);
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PORT_Assert(macLen == ss->sec.hash->length);
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ssl_ReleaseSpecReadLock(ss); /******************************/
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if (NSS_SecureMemcmp(mac, pBuf, macLen) != 0) {
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/* MAC's didn't match... */
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SSL_DBG(("%d: SSL[%d]: mac check failed, seq=%d",
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SSL_GETPID(), ss->fd, ss->sec.rcvSequence));
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PRINT_BUF(1, (ss, "computed mac:", mac, macLen));
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PRINT_BUF(1, (ss, "received mac:", pBuf, macLen));
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PORT_SetError(SSL_ERROR_BAD_MAC_READ);
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rv = SECFailure;
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goto cleanup;
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}
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} else {
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ssl_ReleaseSpecReadLock(ss); /******************************/
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}
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if (gs->recordPadding + macLen <= gs->offset) {
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gs->recordOffset = macLen;
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gs->readOffset = macLen;
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gs->writeOffset = gs->offset - gs->recordPadding;
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rv = 1;
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} else {
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PORT_SetError(SSL_ERROR_BAD_BLOCK_PADDING);
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cleanup:
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/* nothing in the buffer any more. */
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gs->recordOffset = 0;
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gs->readOffset = 0;
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gs->writeOffset = 0;
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rv = SECFailure;
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}
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gs->recordLen = gs->writeOffset - gs->readOffset;
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gs->recordPadding = 0; /* forget we did any padding. */
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gs->state = GS_INIT;
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if (rv > 0) {
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PRINT_BUF(50, (ss, "recv clear record:",
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pBuf + gs->recordOffset, gs->recordLen));
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}
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return rv;
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spec_locked_done:
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ssl_ReleaseSpecReadLock(ss);
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return rv;
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}
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case GS_DATA:
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/* Have read in all the DATA portion of record */
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gs->recordOffset = 0;
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gs->readOffset = 0;
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gs->writeOffset = gs->offset;
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PORT_Assert(gs->recordLen == gs->writeOffset - gs->readOffset);
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gs->recordLen = gs->offset;
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gs->recordPadding = 0;
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gs->state = GS_INIT;
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++ss->sec.rcvSequence;
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PRINT_BUF(50, (ss, "recv clear record:",
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pBuf + gs->recordOffset, gs->recordLen));
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return 1;
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} /* end switch gs->state */
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} /* end gather loop. */
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return rv;
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}
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/*
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** Gather a single record of data from the receiving stream. This code
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** first gathers the header (2 or 3 bytes long depending on the value of
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** the most significant bit in the first byte) then gathers up the data
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** for the record into the readBuf. This code handles non-blocking I/O
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** and is to be called multiple times until ss->sec.recordLen != 0.
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*
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* Returns +1 when it has gathered a complete SSLV2 record.
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* Returns 0 if it hits EOF.
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* Returns -1 (SECFailure) on any error
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* Returns -2 (SECWouldBlock)
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*
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* Called by ssl_GatherRecord1stHandshake in sslcon.c,
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* and by DoRecv in sslsecur.c
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* Caller must hold RecvBufLock.
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*/
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int
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ssl2_GatherRecord(sslSocket *ss, int flags)
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{
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return ssl2_GatherData(ss, &ss->gs, flags);
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}
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/* Caller should hold RecvBufLock. */
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SECStatus
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ssl_InitGather(sslGather *gs)
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{
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SECStatus status;
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gs->state = GS_INIT;
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gs->writeOffset = 0;
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gs->readOffset = 0;
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gs->dtlsPacketOffset = 0;
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gs->dtlsPacket.len = 0;
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status = sslBuffer_Grow(&gs->buf, 4096);
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return status;
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}
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/* Caller must hold RecvBufLock. */
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void
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ssl_DestroyGather(sslGather *gs)
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{
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if (gs) { /* the PORT_*Free functions check for NULL pointers. */
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PORT_ZFree(gs->buf.buf, gs->buf.space);
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PORT_Free(gs->inbuf.buf);
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PORT_Free(gs->dtlsPacket.buf);
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}
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}
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/* Caller must hold RecvBufLock. */
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static SECStatus
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ssl2_HandleV3HandshakeRecord(sslSocket *ss)
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{
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SECStatus rv;
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PORT_Assert( ss->opt.noLocks || ssl_HaveRecvBufLock(ss) );
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PORT_Assert( ss->opt.noLocks || ssl_Have1stHandshakeLock(ss) );
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/* We've read in 3 bytes, there are 2 more to go in an ssl3 header. */
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ss->gs.remainder = 2;
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ss->gs.count = 0;
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/* Clearing these handshake pointers ensures that
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* ssl_Do1stHandshake won't call ssl2_HandleMessage when we return.
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*/
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ss->nextHandshake = 0;
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ss->securityHandshake = 0;
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/* Setting ss->version to an SSL 3.x value will cause
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** ssl_GatherRecord1stHandshake to invoke ssl3_GatherCompleteHandshake()
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** the next time it is called.
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**/
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rv = ssl3_NegotiateVersion(ss, SSL_LIBRARY_VERSION_MAX_SUPPORTED,
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PR_TRUE);
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if (rv != SECSuccess) {
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return rv;
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}
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ss->sec.send = ssl3_SendApplicationData;
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return SECSuccess;
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}
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