/* * Gather (Read) entire SSL3 records from socket into buffer. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "cert.h" #include "ssl.h" #include "sslimpl.h" #include "ssl3prot.h" /* * Attempt to read in an entire SSL3 record. * Blocks here for blocking sockets, otherwise returns -1 with * PR_WOULD_BLOCK_ERROR when socket would block. * * returns 1 if received a complete SSL3 record. * returns 0 if recv returns EOF * returns -1 if recv returns < 0 * (The error value may have already been set to PR_WOULD_BLOCK_ERROR) * * Caller must hold the recv buf lock. * * The Gather state machine has 3 states: GS_INIT, GS_HEADER, GS_DATA. * GS_HEADER: waiting for the 5-byte SSL3 record header to come in. * GS_DATA: waiting for the body of the SSL3 record to come in. * * This loop returns when either * (a) an error or EOF occurs, * (b) PR_WOULD_BLOCK_ERROR, * (c) data (entire SSL3 record) has been received. */ static int ssl3_GatherData(sslSocket *ss, sslGather *gs, int flags) { unsigned char *bp; unsigned char *lbp; int nb; int err; int rv = 1; PORT_Assert( ss->opt.noLocks || ssl_HaveRecvBufLock(ss) ); if (gs->state == GS_INIT) { gs->state = GS_HEADER; gs->remainder = 5; gs->offset = 0; gs->writeOffset = 0; gs->readOffset = 0; gs->inbuf.len = 0; } lbp = gs->inbuf.buf; for(;;) { SSL_TRC(30, ("%d: SSL3[%d]: gather state %d (need %d more)", SSL_GETPID(), ss->fd, gs->state, gs->remainder)); bp = ((gs->state != GS_HEADER) ? lbp : gs->hdr) + gs->offset; nb = ssl_DefRecv(ss, bp, gs->remainder, flags); if (nb > 0) { PRINT_BUF(60, (ss, "raw gather data:", bp, nb)); } else if (nb == 0) { /* EOF */ SSL_TRC(30, ("%d: SSL3[%d]: EOF", SSL_GETPID(), ss->fd)); rv = 0; break; } else /* if (nb < 0) */ { SSL_DBG(("%d: SSL3[%d]: recv error %d", SSL_GETPID(), ss->fd, PR_GetError())); rv = SECFailure; break; } PORT_Assert( nb <= gs->remainder ); if (nb > gs->remainder) { /* ssl_DefRecv is misbehaving! this error is fatal to SSL. */ gs->state = GS_INIT; /* so we don't crash next time */ rv = SECFailure; break; } gs->offset += nb; gs->remainder -= nb; if (gs->state == GS_DATA) gs->inbuf.len += nb; /* if there's more to go, read some more. */ if (gs->remainder > 0) { continue; } /* have received entire record header, or entire record. */ switch (gs->state) { case GS_HEADER: /* ** Have received SSL3 record header in gs->hdr. ** Now extract the length of the following encrypted data, ** and then read in the rest of the SSL3 record into gs->inbuf. */ gs->remainder = (gs->hdr[3] << 8) | gs->hdr[4]; /* This is the max fragment length for an encrypted fragment ** plus the size of the record header. */ if(gs->remainder > (MAX_FRAGMENT_LENGTH + 2048 + 5)) { SSL3_SendAlert(ss, alert_fatal, unexpected_message); gs->state = GS_INIT; PORT_SetError(SSL_ERROR_RX_RECORD_TOO_LONG); return SECFailure; } gs->state = GS_DATA; gs->offset = 0; gs->inbuf.len = 0; if (gs->remainder > gs->inbuf.space) { err = sslBuffer_Grow(&gs->inbuf, gs->remainder); if (err) { /* realloc has set error code to no mem. */ return err; } lbp = gs->inbuf.buf; } break; /* End this case. Continue around the loop. */ case GS_DATA: /* ** SSL3 record has been completely received. */ gs->state = GS_INIT; return 1; } } return rv; } /* * Read in an entire DTLS record. * * Blocks here for blocking sockets, otherwise returns -1 with * PR_WOULD_BLOCK_ERROR when socket would block. * * This is simpler than SSL because we are reading on a datagram socket * and datagrams must contain >=1 complete records. * * returns 1 if received a complete DTLS record. * returns 0 if recv returns EOF * returns -1 if recv returns < 0 * (The error value may have already been set to PR_WOULD_BLOCK_ERROR) * * Caller must hold the recv buf lock. * * This loop returns when either * (a) an error or EOF occurs, * (b) PR_WOULD_BLOCK_ERROR, * (c) data (entire DTLS record) has been received. */ static int dtls_GatherData(sslSocket *ss, sslGather *gs, int flags) { int nb; int err; int rv = 1; SSL_TRC(30, ("dtls_GatherData")); PORT_Assert( ss->opt.noLocks || ssl_HaveRecvBufLock(ss) ); gs->state = GS_HEADER; gs->offset = 0; if (gs->dtlsPacketOffset == gs->dtlsPacket.len) { /* No data left */ gs->dtlsPacketOffset = 0; gs->dtlsPacket.len = 0; /* Resize to the maximum possible size so we can fit a full datagram */ /* This is the max fragment length for an encrypted fragment ** plus the size of the record header. ** This magic constant is copied from ssl3_GatherData, with 5 changed ** to 13 (the size of the record header). */ if (gs->dtlsPacket.space < MAX_FRAGMENT_LENGTH + 2048 + 13) { err = sslBuffer_Grow(&gs->dtlsPacket, MAX_FRAGMENT_LENGTH + 2048 + 13); if (err) { /* realloc has set error code to no mem. */ return err; } } /* recv() needs to read a full datagram at a time */ nb = ssl_DefRecv(ss, gs->dtlsPacket.buf, gs->dtlsPacket.space, flags); if (nb > 0) { PRINT_BUF(60, (ss, "raw gather data:", gs->dtlsPacket.buf, nb)); } else if (nb == 0) { /* EOF */ SSL_TRC(30, ("%d: SSL3[%d]: EOF", SSL_GETPID(), ss->fd)); rv = 0; return rv; } else /* if (nb < 0) */ { SSL_DBG(("%d: SSL3[%d]: recv error %d", SSL_GETPID(), ss->fd, PR_GetError())); rv = SECFailure; return rv; } gs->dtlsPacket.len = nb; } /* At this point we should have >=1 complete records lined up in * dtlsPacket. Read off the header. */ if ((gs->dtlsPacket.len - gs->dtlsPacketOffset) < 13) { SSL_DBG(("%d: SSL3[%d]: rest of DTLS packet " "too short to contain header", SSL_GETPID(), ss->fd)); PR_SetError(PR_WOULD_BLOCK_ERROR, 0); gs->dtlsPacketOffset = 0; gs->dtlsPacket.len = 0; rv = SECFailure; return rv; } memcpy(gs->hdr, gs->dtlsPacket.buf + gs->dtlsPacketOffset, 13); gs->dtlsPacketOffset += 13; /* Have received SSL3 record header in gs->hdr. */ gs->remainder = (gs->hdr[11] << 8) | gs->hdr[12]; if ((gs->dtlsPacket.len - gs->dtlsPacketOffset) < gs->remainder) { SSL_DBG(("%d: SSL3[%d]: rest of DTLS packet too short " "to contain rest of body", SSL_GETPID(), ss->fd)); PR_SetError(PR_WOULD_BLOCK_ERROR, 0); gs->dtlsPacketOffset = 0; gs->dtlsPacket.len = 0; rv = SECFailure; return rv; } /* OK, we have at least one complete packet, copy into inbuf */ if (gs->remainder > gs->inbuf.space) { err = sslBuffer_Grow(&gs->inbuf, gs->remainder); if (err) { /* realloc has set error code to no mem. */ return err; } } memcpy(gs->inbuf.buf, gs->dtlsPacket.buf + gs->dtlsPacketOffset, gs->remainder); gs->inbuf.len = gs->remainder; gs->offset = gs->remainder; gs->dtlsPacketOffset += gs->remainder; gs->state = GS_INIT; return 1; } /* Gather in a record and when complete, Handle that record. * Repeat this until the handshake is complete, * or until application data is available. * * Returns 1 when the handshake is completed without error, or * application data is available. * Returns 0 if ssl3_GatherData hits EOF. * Returns -1 on read error, or PR_WOULD_BLOCK_ERROR, or handleRecord error. * Returns -2 on SECWouldBlock return from ssl3_HandleRecord. * * Called from ssl_GatherRecord1stHandshake in sslcon.c, * and from SSL_ForceHandshake in sslsecur.c * and from ssl3_GatherAppDataRecord below (<- DoRecv in sslsecur.c). * * Caller must hold the recv buf lock. */ int ssl3_GatherCompleteHandshake(sslSocket *ss, int flags) { SSL3Ciphertext cText; int rv; PRBool keepGoing = PR_TRUE; SSL_TRC(30, ("ssl3_GatherCompleteHandshake")); /* ssl3_HandleRecord may end up eventually calling ssl_FinishHandshake, * which requires the 1stHandshakeLock, which must be acquired before the * RecvBufLock. */ PORT_Assert( ss->opt.noLocks || ssl_Have1stHandshakeLock(ss) ); PORT_Assert( ss->opt.noLocks || ssl_HaveRecvBufLock(ss) ); do { PRBool handleRecordNow = PR_FALSE; ssl_GetSSL3HandshakeLock(ss); /* Without this, we may end up wrongly reporting * SSL_ERROR_RX_UNEXPECTED_* errors if we receive any records from the * peer while we are waiting to be restarted. */ if (ss->ssl3.hs.restartTarget) { ssl_ReleaseSSL3HandshakeLock(ss); PORT_SetError(PR_WOULD_BLOCK_ERROR); return (int) SECFailure; } /* Treat an empty msgState like a NULL msgState. (Most of the time * when ssl3_HandleHandshake returns SECWouldBlock, it leaves * behind a non-NULL but zero-length msgState). * Test: async_cert_restart_server_sends_hello_request_first_in_separate_record */ if (ss->ssl3.hs.msgState.buf) { if (ss->ssl3.hs.msgState.len == 0) { ss->ssl3.hs.msgState.buf = NULL; } else { handleRecordNow = PR_TRUE; } } ssl_ReleaseSSL3HandshakeLock(ss); if (handleRecordNow) { /* ssl3_HandleHandshake previously returned SECWouldBlock and the * as-yet-unprocessed plaintext of that previous handshake record. * We need to process it now before we overwrite it with the next * handshake record. */ rv = ssl3_HandleRecord(ss, NULL, &ss->gs.buf); } else { /* bring in the next sslv3 record. */ if (ss->recvdCloseNotify) { /* RFC 5246 Section 7.2.1: * Any data received after a closure alert is ignored. */ return 0; } if (!IS_DTLS(ss)) { rv = ssl3_GatherData(ss, &ss->gs, flags); } else { rv = dtls_GatherData(ss, &ss->gs, flags); /* If we got a would block error, that means that no data was * available, so we check the timer to see if it's time to * retransmit */ if (rv == SECFailure && (PORT_GetError() == PR_WOULD_BLOCK_ERROR)) { ssl_GetSSL3HandshakeLock(ss); dtls_CheckTimer(ss); ssl_ReleaseSSL3HandshakeLock(ss); /* Restore the error in case something succeeded */ PORT_SetError(PR_WOULD_BLOCK_ERROR); } } if (rv <= 0) { return rv; } /* decipher it, and handle it if it's a handshake. * If it's application data, ss->gs.buf will not be empty upon return. * If it's a change cipher spec, alert, or handshake message, * ss->gs.buf.len will be 0 when ssl3_HandleRecord returns SECSuccess. */ cText.type = (SSL3ContentType)ss->gs.hdr[0]; cText.version = (ss->gs.hdr[1] << 8) | ss->gs.hdr[2]; if (IS_DTLS(ss)) { int i; cText.version = dtls_DTLSVersionToTLSVersion(cText.version); /* DTLS sequence number */ cText.seq_num.high = 0; cText.seq_num.low = 0; for (i = 0; i < 4; i++) { cText.seq_num.high <<= 8; cText.seq_num.low <<= 8; cText.seq_num.high |= ss->gs.hdr[3 + i]; cText.seq_num.low |= ss->gs.hdr[7 + i]; } } cText.buf = &ss->gs.inbuf; rv = ssl3_HandleRecord(ss, &cText, &ss->gs.buf); } if (rv < 0) { return ss->recvdCloseNotify ? 0 : rv; } if (ss->gs.buf.len > 0) { /* We have application data to return to the application. This * prioritizes returning application data to the application over * completing any renegotiation handshake we may be doing. */ PORT_Assert(ss->firstHsDone); PORT_Assert(cText.type == content_application_data); break; } PORT_Assert(keepGoing); ssl_GetSSL3HandshakeLock(ss); if (ss->ssl3.hs.ws == idle_handshake) { /* We are done with the current handshake so stop trying to * handshake. Note that it would be safe to test ss->firstHsDone * instead of ss->ssl3.hs.ws. By testing ss->ssl3.hs.ws instead, * we prioritize completing a renegotiation handshake over sending * application data. */ PORT_Assert(ss->firstHsDone); PORT_Assert(!ss->ssl3.hs.canFalseStart); keepGoing = PR_FALSE; } else if (ss->ssl3.hs.canFalseStart) { /* Prioritize sending application data over trying to complete * the handshake if we're false starting. * * If we were to do this check at the beginning of the loop instead * of here, then this function would become be a no-op after * receiving the ServerHelloDone in the false start case, and we * would never complete the handshake. */ PORT_Assert(!ss->firstHsDone); if (ssl3_WaitingForStartOfServerSecondRound(ss)) { keepGoing = PR_FALSE; } else { ss->ssl3.hs.canFalseStart = PR_FALSE; } } ssl_ReleaseSSL3HandshakeLock(ss); } while (keepGoing); ss->gs.readOffset = 0; ss->gs.writeOffset = ss->gs.buf.len; return 1; } /* Repeatedly gather in a record and when complete, Handle that record. * Repeat this until some application data is received. * * Returns 1 when application data is available. * Returns 0 if ssl3_GatherData hits EOF. * Returns -1 on read error, or PR_WOULD_BLOCK_ERROR, or handleRecord error. * Returns -2 on SECWouldBlock return from ssl3_HandleRecord. * * Called from DoRecv in sslsecur.c * Caller must hold the recv buf lock. */ int ssl3_GatherAppDataRecord(sslSocket *ss, int flags) { int rv; /* ssl3_GatherCompleteHandshake requires both of these locks. */ PORT_Assert( ss->opt.noLocks || ssl_Have1stHandshakeLock(ss) ); PORT_Assert( ss->opt.noLocks || ssl_HaveRecvBufLock(ss) ); do { rv = ssl3_GatherCompleteHandshake(ss, flags); } while (rv > 0 && ss->gs.buf.len == 0); return rv; }