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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=2 et sw=2 tw=80: */
/* 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/. */
/* This file contains functions for frobbing the internals of libssl */
#include "libssl_internals.h"
#include "nss.h"
#include "pk11pub.h"
#include "seccomon.h"
#include "selfencrypt.h"
SECStatus SSLInt_IncrementClientHandshakeVersion(PRFileDesc *fd) {
sslSocket *ss = ssl_FindSocket(fd);
if (!ss) {
return SECFailure;
}
++ss->clientHelloVersion;
return SECSuccess;
}
/* Use this function to update the ClientRandom of a client's handshake state
* after replacing its ClientHello message. We for example need to do this
* when replacing an SSLv3 ClientHello with its SSLv2 equivalent. */
SECStatus SSLInt_UpdateSSLv2ClientRandom(PRFileDesc *fd, uint8_t *rnd,
size_t rnd_len, uint8_t *msg,
size_t msg_len) {
sslSocket *ss = ssl_FindSocket(fd);
if (!ss) {
return SECFailure;
}
ssl3_RestartHandshakeHashes(ss);
// Ensure we don't overrun hs.client_random.
rnd_len = PR_MIN(SSL3_RANDOM_LENGTH, rnd_len);
// Zero the client_random.
PORT_Memset(ss->ssl3.hs.client_random, 0, SSL3_RANDOM_LENGTH);
// Copy over the challenge bytes.
size_t offset = SSL3_RANDOM_LENGTH - rnd_len;
PORT_Memcpy(ss->ssl3.hs.client_random + offset, rnd, rnd_len);
// Rehash the SSLv2 client hello message.
return ssl3_UpdateHandshakeHashes(ss, msg, msg_len);
}
PRBool SSLInt_ExtensionNegotiated(PRFileDesc *fd, PRUint16 ext) {
sslSocket *ss = ssl_FindSocket(fd);
return (PRBool)(ss && ssl3_ExtensionNegotiated(ss, ext));
}
void SSLInt_ClearSelfEncryptKey() { ssl_ResetSelfEncryptKeys(); }
sslSelfEncryptKeys *ssl_GetSelfEncryptKeysInt();
void SSLInt_SetSelfEncryptMacKey(PK11SymKey *key) {
sslSelfEncryptKeys *keys = ssl_GetSelfEncryptKeysInt();
PK11_FreeSymKey(keys->macKey);
keys->macKey = key;
}
SECStatus SSLInt_SetMTU(PRFileDesc *fd, PRUint16 mtu) {
sslSocket *ss = ssl_FindSocket(fd);
if (!ss) {
return SECFailure;
}
ss->ssl3.mtu = mtu;
ss->ssl3.hs.rtRetries = 0; /* Avoid DTLS shrinking the MTU any more. */
return SECSuccess;
}
PRInt32 SSLInt_CountCipherSpecs(PRFileDesc *fd) {
PRCList *cur_p;
PRInt32 ct = 0;
sslSocket *ss = ssl_FindSocket(fd);
if (!ss) {
return -1;
}
for (cur_p = PR_NEXT_LINK(&ss->ssl3.hs.cipherSpecs);
cur_p != &ss->ssl3.hs.cipherSpecs; cur_p = PR_NEXT_LINK(cur_p)) {
++ct;
}
return ct;
}
void SSLInt_PrintCipherSpecs(const char *label, PRFileDesc *fd) {
PRCList *cur_p;
sslSocket *ss = ssl_FindSocket(fd);
if (!ss) {
return;
}
fprintf(stderr, "Cipher specs for %s\n", label);
for (cur_p = PR_NEXT_LINK(&ss->ssl3.hs.cipherSpecs);
cur_p != &ss->ssl3.hs.cipherSpecs; cur_p = PR_NEXT_LINK(cur_p)) {
ssl3CipherSpec *spec = (ssl3CipherSpec *)cur_p;
fprintf(stderr, " %s spec epoch=%d (%s) refct=%d\n", SPEC_DIR(spec),
spec->epoch, spec->phase, spec->refCt);
}
}
/* Force a timer expiry by backdating when all active timers were started. We
* could set the remaining time to 0 but then backoff would not work properly if
* we decide to test it. */
SECStatus SSLInt_ShiftDtlsTimers(PRFileDesc *fd, PRIntervalTime shift) {
size_t i;
sslSocket *ss = ssl_FindSocket(fd);
if (!ss) {
return SECFailure;
}
for (i = 0; i < PR_ARRAY_SIZE(ss->ssl3.hs.timers); ++i) {
if (ss->ssl3.hs.timers[i].cb) {
ss->ssl3.hs.timers[i].started -= shift;
}
}
return SECSuccess;
}
#define CHECK_SECRET(secret) \
if (ss->ssl3.hs.secret) { \
fprintf(stderr, "%s != NULL\n", #secret); \
return PR_FALSE; \
}
PRBool SSLInt_CheckSecretsDestroyed(PRFileDesc *fd) {
sslSocket *ss = ssl_FindSocket(fd);
if (!ss) {
return PR_FALSE;
}
CHECK_SECRET(currentSecret);
CHECK_SECRET(dheSecret);
CHECK_SECRET(clientEarlyTrafficSecret);
CHECK_SECRET(clientHsTrafficSecret);
CHECK_SECRET(serverHsTrafficSecret);
return PR_TRUE;
}
PRBool sslint_DamageTrafficSecret(PRFileDesc *fd, size_t offset) {
unsigned char data[32] = {0};
PK11SymKey **keyPtr;
PK11SlotInfo *slot = PK11_GetInternalSlot();
SECItem key_item = {siBuffer, data, sizeof(data)};
sslSocket *ss = ssl_FindSocket(fd);
if (!ss) {
return PR_FALSE;
}
if (!slot) {
return PR_FALSE;
}
keyPtr = (PK11SymKey **)((char *)&ss->ssl3.hs + offset);
if (!*keyPtr) {
return PR_FALSE;
}
PK11_FreeSymKey(*keyPtr);
*keyPtr = PK11_ImportSymKey(slot, CKM_NSS_HKDF_SHA256, PK11_OriginUnwrap,
CKA_DERIVE, &key_item, NULL);
PK11_FreeSlot(slot);
if (!*keyPtr) {
return PR_FALSE;
}
return PR_TRUE;
}
PRBool SSLInt_DamageClientHsTrafficSecret(PRFileDesc *fd) {
return sslint_DamageTrafficSecret(
fd, offsetof(SSL3HandshakeState, clientHsTrafficSecret));
}
PRBool SSLInt_DamageServerHsTrafficSecret(PRFileDesc *fd) {
return sslint_DamageTrafficSecret(
fd, offsetof(SSL3HandshakeState, serverHsTrafficSecret));
}
PRBool SSLInt_DamageEarlyTrafficSecret(PRFileDesc *fd) {
return sslint_DamageTrafficSecret(
fd, offsetof(SSL3HandshakeState, clientEarlyTrafficSecret));
}
SECStatus SSLInt_Set0RttAlpn(PRFileDesc *fd, PRUint8 *data, unsigned int len) {
sslSocket *ss = ssl_FindSocket(fd);
if (!ss) {
return SECFailure;
}
ss->xtnData.nextProtoState = SSL_NEXT_PROTO_EARLY_VALUE;
if (ss->xtnData.nextProto.data) {
SECITEM_FreeItem(&ss->xtnData.nextProto, PR_FALSE);
}
if (!SECITEM_AllocItem(NULL, &ss->xtnData.nextProto, len)) {
return SECFailure;
}
PORT_Memcpy(ss->xtnData.nextProto.data, data, len);
return SECSuccess;
}
PRBool SSLInt_HasCertWithAuthType(PRFileDesc *fd, SSLAuthType authType) {
sslSocket *ss = ssl_FindSocket(fd);
if (!ss) {
return PR_FALSE;
}
return (PRBool)(!!ssl_FindServerCert(ss, authType, NULL));
}
PRBool SSLInt_SendAlert(PRFileDesc *fd, uint8_t level, uint8_t type) {
sslSocket *ss = ssl_FindSocket(fd);
if (!ss) {
return PR_FALSE;
}
SECStatus rv = SSL3_SendAlert(ss, level, type);
if (rv != SECSuccess) return PR_FALSE;
return PR_TRUE;
}
SECStatus SSLInt_AdvanceReadSeqNum(PRFileDesc *fd, PRUint64 to) {
sslSocket *ss;
ssl3CipherSpec *spec;
ss = ssl_FindSocket(fd);
if (!ss) {
return SECFailure;
}
if (to >= RECORD_SEQ_MAX) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
ssl_GetSpecWriteLock(ss);
spec = ss->ssl3.crSpec;
spec->seqNum = to;
/* For DTLS, we need to fix the record sequence number. For this, we can just
* scrub the entire structure on the assumption that the new sequence number
* is far enough past the last received sequence number. */
if (spec->seqNum <= spec->recvdRecords.right + DTLS_RECVD_RECORDS_WINDOW) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
dtls_RecordSetRecvd(&spec->recvdRecords, spec->seqNum);
ssl_ReleaseSpecWriteLock(ss);
return SECSuccess;
}
SECStatus SSLInt_AdvanceWriteSeqNum(PRFileDesc *fd, PRUint64 to) {
sslSocket *ss;
ss = ssl_FindSocket(fd);
if (!ss) {
return SECFailure;
}
if (to >= RECORD_SEQ_MAX) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
ssl_GetSpecWriteLock(ss);
ss->ssl3.cwSpec->seqNum = to;
ssl_ReleaseSpecWriteLock(ss);
return SECSuccess;
}
SECStatus SSLInt_AdvanceWriteSeqByAWindow(PRFileDesc *fd, PRInt32 extra) {
sslSocket *ss;
sslSequenceNumber to;
ss = ssl_FindSocket(fd);
if (!ss) {
return SECFailure;
}
ssl_GetSpecReadLock(ss);
to = ss->ssl3.cwSpec->seqNum + DTLS_RECVD_RECORDS_WINDOW + extra;
ssl_ReleaseSpecReadLock(ss);
return SSLInt_AdvanceWriteSeqNum(fd, to);
}
SSLKEAType SSLInt_GetKEAType(SSLNamedGroup group) {
const sslNamedGroupDef *groupDef = ssl_LookupNamedGroup(group);
if (!groupDef) return ssl_kea_null;
return groupDef->keaType;
}
SECStatus SSLInt_SetCipherSpecChangeFunc(PRFileDesc *fd,
sslCipherSpecChangedFunc func,
void *arg) {
sslSocket *ss;
ss = ssl_FindSocket(fd);
if (!ss) {
return SECFailure;
}
ss->ssl3.changedCipherSpecFunc = func;
ss->ssl3.changedCipherSpecArg = arg;
return SECSuccess;
}
PK11SymKey *SSLInt_CipherSpecToKey(const ssl3CipherSpec *spec) {
return spec->keyMaterial.key;
}
SSLCipherAlgorithm SSLInt_CipherSpecToAlgorithm(const ssl3CipherSpec *spec) {
return spec->cipherDef->calg;
}
const PRUint8 *SSLInt_CipherSpecToIv(const ssl3CipherSpec *spec) {
return spec->keyMaterial.iv;
}
PRUint16 SSLInt_CipherSpecToEpoch(const ssl3CipherSpec *spec) {
return spec->epoch;
}
void SSLInt_SetTicketLifetime(uint32_t lifetime) {
ssl_ticket_lifetime = lifetime;
}
void SSLInt_SetMaxEarlyDataSize(uint32_t size) {
ssl_max_early_data_size = size;
}
SECStatus SSLInt_SetSocketMaxEarlyDataSize(PRFileDesc *fd, uint32_t size) {
sslSocket *ss;
ss = ssl_FindSocket(fd);
if (!ss) {
return SECFailure;
}
/* This only works when resuming. */
if (!ss->statelessResume) {
PORT_SetError(SEC_INTERNAL_ONLY);
return SECFailure;
}
/* Modifying both specs allows this to be used on either peer. */
ssl_GetSpecWriteLock(ss);
ss->ssl3.crSpec->earlyDataRemaining = size;
ss->ssl3.cwSpec->earlyDataRemaining = size;
ssl_ReleaseSpecWriteLock(ss);
return SECSuccess;
}
void SSLInt_RolloverAntiReplay(void) {
tls13_AntiReplayRollover(ssl_TimeUsec());
}
SECStatus SSLInt_GetEpochs(PRFileDesc *fd, PRUint16 *readEpoch,
PRUint16 *writeEpoch) {
sslSocket *ss = ssl_FindSocket(fd);
if (!ss || !readEpoch || !writeEpoch) {
return SECFailure;
}
ssl_GetSpecReadLock(ss);
*readEpoch = ss->ssl3.crSpec->epoch;
*writeEpoch = ss->ssl3.cwSpec->epoch;
ssl_ReleaseSpecReadLock(ss);
return SECSuccess;
}
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