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|
/*
* Copyright (c) 2019, Redis Labs
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of Redis nor the names of its contributors may be used
* to endorse or promote products derived from this software without
* specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include "server.h"
#include "connhelpers.h"
#include "adlist.h"
#ifdef USE_OPENSSL
#include <openssl/conf.h>
#include <openssl/ssl.h>
#include <openssl/err.h>
#include <openssl/rand.h>
#include <openssl/pem.h>
#if OPENSSL_VERSION_NUMBER >= 0x30000000L
#include <openssl/decoder.h>
#endif
#include <sys/uio.h>
#define REDIS_TLS_PROTO_TLSv1 (1<<0)
#define REDIS_TLS_PROTO_TLSv1_1 (1<<1)
#define REDIS_TLS_PROTO_TLSv1_2 (1<<2)
#define REDIS_TLS_PROTO_TLSv1_3 (1<<3)
/* Use safe defaults */
#ifdef TLS1_3_VERSION
#define REDIS_TLS_PROTO_DEFAULT (REDIS_TLS_PROTO_TLSv1_2|REDIS_TLS_PROTO_TLSv1_3)
#else
#define REDIS_TLS_PROTO_DEFAULT (REDIS_TLS_PROTO_TLSv1_2)
#endif
extern ConnectionType CT_Socket;
SSL_CTX *redis_tls_ctx = NULL;
SSL_CTX *redis_tls_client_ctx = NULL;
static int parseProtocolsConfig(const char *str) {
int i, count = 0;
int protocols = 0;
if (!str) return REDIS_TLS_PROTO_DEFAULT;
sds *tokens = sdssplitlen(str, strlen(str), " ", 1, &count);
if (!tokens) {
serverLog(LL_WARNING, "Invalid tls-protocols configuration string");
return -1;
}
for (i = 0; i < count; i++) {
if (!strcasecmp(tokens[i], "tlsv1")) protocols |= REDIS_TLS_PROTO_TLSv1;
else if (!strcasecmp(tokens[i], "tlsv1.1")) protocols |= REDIS_TLS_PROTO_TLSv1_1;
else if (!strcasecmp(tokens[i], "tlsv1.2")) protocols |= REDIS_TLS_PROTO_TLSv1_2;
else if (!strcasecmp(tokens[i], "tlsv1.3")) {
#ifdef TLS1_3_VERSION
protocols |= REDIS_TLS_PROTO_TLSv1_3;
#else
serverLog(LL_WARNING, "TLSv1.3 is specified in tls-protocols but not supported by OpenSSL.");
protocols = -1;
break;
#endif
} else {
serverLog(LL_WARNING, "Invalid tls-protocols specified. "
"Use a combination of 'TLSv1', 'TLSv1.1', 'TLSv1.2' and 'TLSv1.3'.");
protocols = -1;
break;
}
}
sdsfreesplitres(tokens, count);
return protocols;
}
/* list of connections with pending data already read from the socket, but not
* served to the reader yet. */
static list *pending_list = NULL;
/**
* OpenSSL global initialization and locking handling callbacks.
* Note that this is only required for OpenSSL < 1.1.0.
*/
#if OPENSSL_VERSION_NUMBER < 0x10100000L
#define USE_CRYPTO_LOCKS
#endif
#ifdef USE_CRYPTO_LOCKS
static pthread_mutex_t *openssl_locks;
static void sslLockingCallback(int mode, int lock_id, const char *f, int line) {
pthread_mutex_t *mt = openssl_locks + lock_id;
if (mode & CRYPTO_LOCK) {
pthread_mutex_lock(mt);
} else {
pthread_mutex_unlock(mt);
}
(void)f;
(void)line;
}
static void initCryptoLocks(void) {
unsigned i, nlocks;
if (CRYPTO_get_locking_callback() != NULL) {
/* Someone already set the callback before us. Don't destroy it! */
return;
}
nlocks = CRYPTO_num_locks();
openssl_locks = zmalloc(sizeof(*openssl_locks) * nlocks);
for (i = 0; i < nlocks; i++) {
pthread_mutex_init(openssl_locks + i, NULL);
}
CRYPTO_set_locking_callback(sslLockingCallback);
}
#endif /* USE_CRYPTO_LOCKS */
void tlsInit(void) {
/* Enable configuring OpenSSL using the standard openssl.cnf
* OPENSSL_config()/OPENSSL_init_crypto() should be the first
* call to the OpenSSL* library.
* - OPENSSL_config() should be used for OpenSSL versions < 1.1.0
* - OPENSSL_init_crypto() should be used for OpenSSL versions >= 1.1.0
*/
#if OPENSSL_VERSION_NUMBER < 0x10100000L
OPENSSL_config(NULL);
SSL_load_error_strings();
SSL_library_init();
#elif OPENSSL_VERSION_NUMBER < 0x10101000L
OPENSSL_init_crypto(OPENSSL_INIT_LOAD_CONFIG, NULL);
#else
OPENSSL_init_crypto(OPENSSL_INIT_LOAD_CONFIG|OPENSSL_INIT_ATFORK, NULL);
#endif
#ifdef USE_CRYPTO_LOCKS
initCryptoLocks();
#endif
if (!RAND_poll()) {
serverLog(LL_WARNING, "OpenSSL: Failed to seed random number generator.");
}
pending_list = listCreate();
}
void tlsCleanup(void) {
if (redis_tls_ctx) {
SSL_CTX_free(redis_tls_ctx);
redis_tls_ctx = NULL;
}
if (redis_tls_client_ctx) {
SSL_CTX_free(redis_tls_client_ctx);
redis_tls_client_ctx = NULL;
}
#if OPENSSL_VERSION_NUMBER >= 0x10100000L && !defined(LIBRESSL_VERSION_NUMBER)
// unavailable on LibreSSL
OPENSSL_cleanup();
#endif
}
/* Callback for passing a keyfile password stored as an sds to OpenSSL */
static int tlsPasswordCallback(char *buf, int size, int rwflag, void *u) {
UNUSED(rwflag);
const char *pass = u;
size_t pass_len;
if (!pass) return -1;
pass_len = strlen(pass);
if (pass_len > (size_t) size) return -1;
memcpy(buf, pass, pass_len);
return (int) pass_len;
}
/* Create a *base* SSL_CTX using the SSL configuration provided. The base context
* includes everything that's common for both client-side and server-side connections.
*/
static SSL_CTX *createSSLContext(redisTLSContextConfig *ctx_config, int protocols, int client) {
const char *cert_file = client ? ctx_config->client_cert_file : ctx_config->cert_file;
const char *key_file = client ? ctx_config->client_key_file : ctx_config->key_file;
const char *key_file_pass = client ? ctx_config->client_key_file_pass : ctx_config->key_file_pass;
char errbuf[256];
SSL_CTX *ctx = NULL;
ctx = SSL_CTX_new(SSLv23_method());
SSL_CTX_set_options(ctx, SSL_OP_NO_SSLv2|SSL_OP_NO_SSLv3);
#ifdef SSL_OP_DONT_INSERT_EMPTY_FRAGMENTS
SSL_CTX_set_options(ctx, SSL_OP_DONT_INSERT_EMPTY_FRAGMENTS);
#endif
if (!(protocols & REDIS_TLS_PROTO_TLSv1))
SSL_CTX_set_options(ctx, SSL_OP_NO_TLSv1);
if (!(protocols & REDIS_TLS_PROTO_TLSv1_1))
SSL_CTX_set_options(ctx, SSL_OP_NO_TLSv1_1);
#ifdef SSL_OP_NO_TLSv1_2
if (!(protocols & REDIS_TLS_PROTO_TLSv1_2))
SSL_CTX_set_options(ctx, SSL_OP_NO_TLSv1_2);
#endif
#ifdef SSL_OP_NO_TLSv1_3
if (!(protocols & REDIS_TLS_PROTO_TLSv1_3))
SSL_CTX_set_options(ctx, SSL_OP_NO_TLSv1_3);
#endif
#ifdef SSL_OP_NO_COMPRESSION
SSL_CTX_set_options(ctx, SSL_OP_NO_COMPRESSION);
#endif
SSL_CTX_set_mode(ctx, SSL_MODE_ENABLE_PARTIAL_WRITE|SSL_MODE_ACCEPT_MOVING_WRITE_BUFFER);
SSL_CTX_set_verify(ctx, SSL_VERIFY_PEER|SSL_VERIFY_FAIL_IF_NO_PEER_CERT, NULL);
SSL_CTX_set_default_passwd_cb(ctx, tlsPasswordCallback);
SSL_CTX_set_default_passwd_cb_userdata(ctx, (void *) key_file_pass);
if (SSL_CTX_use_certificate_chain_file(ctx, cert_file) <= 0) {
ERR_error_string_n(ERR_get_error(), errbuf, sizeof(errbuf));
serverLog(LL_WARNING, "Failed to load certificate: %s: %s", cert_file, errbuf);
goto error;
}
if (SSL_CTX_use_PrivateKey_file(ctx, key_file, SSL_FILETYPE_PEM) <= 0) {
ERR_error_string_n(ERR_get_error(), errbuf, sizeof(errbuf));
serverLog(LL_WARNING, "Failed to load private key: %s: %s", key_file, errbuf);
goto error;
}
if ((ctx_config->ca_cert_file || ctx_config->ca_cert_dir) &&
SSL_CTX_load_verify_locations(ctx, ctx_config->ca_cert_file, ctx_config->ca_cert_dir) <= 0) {
ERR_error_string_n(ERR_get_error(), errbuf, sizeof(errbuf));
serverLog(LL_WARNING, "Failed to configure CA certificate(s) file/directory: %s", errbuf);
goto error;
}
if (ctx_config->ciphers && !SSL_CTX_set_cipher_list(ctx, ctx_config->ciphers)) {
serverLog(LL_WARNING, "Failed to configure ciphers: %s", ctx_config->ciphers);
goto error;
}
#ifdef TLS1_3_VERSION
if (ctx_config->ciphersuites && !SSL_CTX_set_ciphersuites(ctx, ctx_config->ciphersuites)) {
serverLog(LL_WARNING, "Failed to configure ciphersuites: %s", ctx_config->ciphersuites);
goto error;
}
#endif
return ctx;
error:
if (ctx) SSL_CTX_free(ctx);
return NULL;
}
/* Attempt to configure/reconfigure TLS. This operation is atomic and will
* leave the SSL_CTX unchanged if fails.
*/
int tlsConfigure(redisTLSContextConfig *ctx_config) {
char errbuf[256];
SSL_CTX *ctx = NULL;
SSL_CTX *client_ctx = NULL;
if (!ctx_config->cert_file) {
serverLog(LL_WARNING, "No tls-cert-file configured!");
goto error;
}
if (!ctx_config->key_file) {
serverLog(LL_WARNING, "No tls-key-file configured!");
goto error;
}
if (((server.tls_auth_clients != TLS_CLIENT_AUTH_NO) || server.tls_cluster || server.tls_replication) &&
!ctx_config->ca_cert_file && !ctx_config->ca_cert_dir) {
serverLog(LL_WARNING, "Either tls-ca-cert-file or tls-ca-cert-dir must be specified when tls-cluster, tls-replication or tls-auth-clients are enabled!");
goto error;
}
int protocols = parseProtocolsConfig(ctx_config->protocols);
if (protocols == -1) goto error;
/* Create server side/generla context */
ctx = createSSLContext(ctx_config, protocols, 0);
if (!ctx) goto error;
if (ctx_config->session_caching) {
SSL_CTX_set_session_cache_mode(ctx, SSL_SESS_CACHE_SERVER);
SSL_CTX_sess_set_cache_size(ctx, ctx_config->session_cache_size);
SSL_CTX_set_timeout(ctx, ctx_config->session_cache_timeout);
SSL_CTX_set_session_id_context(ctx, (void *) "redis", 5);
} else {
SSL_CTX_set_session_cache_mode(ctx, SSL_SESS_CACHE_OFF);
}
#ifdef SSL_OP_NO_CLIENT_RENEGOTIATION
SSL_CTX_set_options(ctx, SSL_OP_NO_CLIENT_RENEGOTIATION);
#endif
if (ctx_config->prefer_server_ciphers)
SSL_CTX_set_options(ctx, SSL_OP_CIPHER_SERVER_PREFERENCE);
#if ((OPENSSL_VERSION_NUMBER < 0x30000000L) && defined(SSL_CTX_set_ecdh_auto))
SSL_CTX_set_ecdh_auto(ctx, 1);
#endif
SSL_CTX_set_options(ctx, SSL_OP_SINGLE_DH_USE);
if (ctx_config->dh_params_file) {
FILE *dhfile = fopen(ctx_config->dh_params_file, "r");
if (!dhfile) {
serverLog(LL_WARNING, "Failed to load %s: %s", ctx_config->dh_params_file, strerror(errno));
goto error;
}
#if (OPENSSL_VERSION_NUMBER >= 0x30000000L)
EVP_PKEY *pkey = NULL;
OSSL_DECODER_CTX *dctx = OSSL_DECODER_CTX_new_for_pkey(
&pkey, "PEM", NULL, "DH", OSSL_KEYMGMT_SELECT_DOMAIN_PARAMETERS, NULL, NULL);
if (!dctx) {
serverLog(LL_WARNING, "No decoder for DH params.");
fclose(dhfile);
goto error;
}
if (!OSSL_DECODER_from_fp(dctx, dhfile)) {
serverLog(LL_WARNING, "%s: failed to read DH params.", ctx_config->dh_params_file);
OSSL_DECODER_CTX_free(dctx);
fclose(dhfile);
goto error;
}
OSSL_DECODER_CTX_free(dctx);
fclose(dhfile);
if (SSL_CTX_set0_tmp_dh_pkey(ctx, pkey) <= 0) {
ERR_error_string_n(ERR_get_error(), errbuf, sizeof(errbuf));
serverLog(LL_WARNING, "Failed to load DH params file: %s: %s", ctx_config->dh_params_file, errbuf);
EVP_PKEY_free(pkey);
goto error;
}
/* Not freeing pkey, it is owned by OpenSSL now */
#else
DH *dh = PEM_read_DHparams(dhfile, NULL, NULL, NULL);
fclose(dhfile);
if (!dh) {
serverLog(LL_WARNING, "%s: failed to read DH params.", ctx_config->dh_params_file);
goto error;
}
if (SSL_CTX_set_tmp_dh(ctx, dh) <= 0) {
ERR_error_string_n(ERR_get_error(), errbuf, sizeof(errbuf));
serverLog(LL_WARNING, "Failed to load DH params file: %s: %s", ctx_config->dh_params_file, errbuf);
DH_free(dh);
goto error;
}
DH_free(dh);
#endif
} else {
#if (OPENSSL_VERSION_NUMBER >= 0x30000000L)
SSL_CTX_set_dh_auto(ctx, 1);
#endif
}
/* If a client-side certificate is configured, create an explicit client context */
if (ctx_config->client_cert_file && ctx_config->client_key_file) {
client_ctx = createSSLContext(ctx_config, protocols, 1);
if (!client_ctx) goto error;
}
SSL_CTX_free(redis_tls_ctx);
SSL_CTX_free(redis_tls_client_ctx);
redis_tls_ctx = ctx;
redis_tls_client_ctx = client_ctx;
return C_OK;
error:
if (ctx) SSL_CTX_free(ctx);
if (client_ctx) SSL_CTX_free(client_ctx);
return C_ERR;
}
/* Return 1 if TLS was already configured, 0 otherwise.
*/
int isTlsConfigured(void) {
return redis_tls_ctx != NULL;
}
#ifdef TLS_DEBUGGING
#define TLSCONN_DEBUG(fmt, ...) \
serverLog(LL_DEBUG, "TLSCONN: " fmt, __VA_ARGS__)
#else
#define TLSCONN_DEBUG(fmt, ...)
#endif
ConnectionType CT_TLS;
/* Normal socket connections have a simple events/handler correlation.
*
* With TLS connections we need to handle cases where during a logical read
* or write operation, the SSL library asks to block for the opposite
* socket operation.
*
* When this happens, we need to do two things:
* 1. Make sure we register for the event.
* 2. Make sure we know which handler needs to execute when the
* event fires. That is, if we notify the caller of a write operation
* that it blocks, and SSL asks for a read, we need to trigger the
* write handler again on the next read event.
*
*/
typedef enum {
WANT_READ = 1,
WANT_WRITE
} WantIOType;
#define TLS_CONN_FLAG_READ_WANT_WRITE (1<<0)
#define TLS_CONN_FLAG_WRITE_WANT_READ (1<<1)
#define TLS_CONN_FLAG_FD_SET (1<<2)
typedef struct tls_connection {
connection c;
int flags;
SSL *ssl;
char *ssl_error;
listNode *pending_list_node;
} tls_connection;
static connection *createTLSConnection(int client_side) {
SSL_CTX *ctx = redis_tls_ctx;
if (client_side && redis_tls_client_ctx)
ctx = redis_tls_client_ctx;
tls_connection *conn = zcalloc(sizeof(tls_connection));
conn->c.type = &CT_TLS;
conn->c.fd = -1;
conn->ssl = SSL_new(ctx);
return (connection *) conn;
}
connection *connCreateTLS(void) {
return createTLSConnection(1);
}
/* Fetch the latest OpenSSL error and store it in the connection */
static void updateTLSError(tls_connection *conn) {
conn->c.last_errno = 0;
if (conn->ssl_error) zfree(conn->ssl_error);
conn->ssl_error = zmalloc(512);
ERR_error_string_n(ERR_get_error(), conn->ssl_error, 512);
}
/* Create a new TLS connection that is already associated with
* an accepted underlying file descriptor.
*
* The socket is not ready for I/O until connAccept() was called and
* invoked the connection-level accept handler.
*
* Callers should use connGetState() and verify the created connection
* is not in an error state.
*/
connection *connCreateAcceptedTLS(int fd, int require_auth) {
tls_connection *conn = (tls_connection *) createTLSConnection(0);
conn->c.fd = fd;
conn->c.state = CONN_STATE_ACCEPTING;
if (!conn->ssl) {
updateTLSError(conn);
conn->c.state = CONN_STATE_ERROR;
return (connection *) conn;
}
switch (require_auth) {
case TLS_CLIENT_AUTH_NO:
SSL_set_verify(conn->ssl, SSL_VERIFY_NONE, NULL);
break;
case TLS_CLIENT_AUTH_OPTIONAL:
SSL_set_verify(conn->ssl, SSL_VERIFY_PEER, NULL);
break;
default: /* TLS_CLIENT_AUTH_YES, also fall-secure */
SSL_set_verify(conn->ssl, SSL_VERIFY_PEER|SSL_VERIFY_FAIL_IF_NO_PEER_CERT, NULL);
break;
}
SSL_set_fd(conn->ssl, conn->c.fd);
SSL_set_accept_state(conn->ssl);
return (connection *) conn;
}
static void tlsEventHandler(struct aeEventLoop *el, int fd, void *clientData, int mask);
static void updateSSLEvent(tls_connection *conn);
/* Process the return code received from OpenSSL>
* Update the want parameter with expected I/O.
* Update the connection's error state if a real error has occurred.
* Returns an SSL error code, or 0 if no further handling is required.
*/
static int handleSSLReturnCode(tls_connection *conn, int ret_value, WantIOType *want) {
if (ret_value <= 0) {
int ssl_err = SSL_get_error(conn->ssl, ret_value);
switch (ssl_err) {
case SSL_ERROR_WANT_WRITE:
*want = WANT_WRITE;
return 0;
case SSL_ERROR_WANT_READ:
*want = WANT_READ;
return 0;
case SSL_ERROR_SYSCALL:
conn->c.last_errno = errno;
if (conn->ssl_error) zfree(conn->ssl_error);
conn->ssl_error = errno ? zstrdup(strerror(errno)) : NULL;
break;
default:
/* Error! */
updateTLSError(conn);
break;
}
return ssl_err;
}
return 0;
}
/* Handle OpenSSL return code following SSL_write() or SSL_read():
*
* - Updates conn state and last_errno.
* - If update_event is nonzero, calls updateSSLEvent() when necessary.
*
* Returns ret_value, or -1 on error or dropped connection.
*/
static int updateStateAfterSSLIO(tls_connection *conn, int ret_value, int update_event) {
/* If system call was interrupted, there's no need to go through the full
* OpenSSL error handling and just report this for the caller to retry the
* operation.
*/
if (errno == EINTR) {
conn->c.last_errno = EINTR;
return -1;
}
if (ret_value <= 0) {
WantIOType want = 0;
int ssl_err;
if (!(ssl_err = handleSSLReturnCode(conn, ret_value, &want))) {
if (want == WANT_READ) conn->flags |= TLS_CONN_FLAG_WRITE_WANT_READ;
if (want == WANT_WRITE) conn->flags |= TLS_CONN_FLAG_READ_WANT_WRITE;
if (update_event) updateSSLEvent(conn);
errno = EAGAIN;
return -1;
} else {
if (ssl_err == SSL_ERROR_ZERO_RETURN ||
((ssl_err == SSL_ERROR_SYSCALL && !errno))) {
conn->c.state = CONN_STATE_CLOSED;
return -1;
} else {
conn->c.state = CONN_STATE_ERROR;
return -1;
}
}
}
return ret_value;
}
static void registerSSLEvent(tls_connection *conn, WantIOType want) {
int mask = aeGetFileEvents(server.el, conn->c.fd);
switch (want) {
case WANT_READ:
if (mask & AE_WRITABLE) aeDeleteFileEvent(server.el, conn->c.fd, AE_WRITABLE);
if (!(mask & AE_READABLE)) aeCreateFileEvent(server.el, conn->c.fd, AE_READABLE,
tlsEventHandler, conn);
break;
case WANT_WRITE:
if (mask & AE_READABLE) aeDeleteFileEvent(server.el, conn->c.fd, AE_READABLE);
if (!(mask & AE_WRITABLE)) aeCreateFileEvent(server.el, conn->c.fd, AE_WRITABLE,
tlsEventHandler, conn);
break;
default:
serverAssert(0);
break;
}
}
void updateSSLEvent(tls_connection *conn) {
int mask = aeGetFileEvents(server.el, conn->c.fd);
int need_read = conn->c.read_handler || (conn->flags & TLS_CONN_FLAG_WRITE_WANT_READ);
int need_write = conn->c.write_handler || (conn->flags & TLS_CONN_FLAG_READ_WANT_WRITE);
if (need_read && !(mask & AE_READABLE))
aeCreateFileEvent(server.el, conn->c.fd, AE_READABLE, tlsEventHandler, conn);
if (!need_read && (mask & AE_READABLE))
aeDeleteFileEvent(server.el, conn->c.fd, AE_READABLE);
if (need_write && !(mask & AE_WRITABLE))
aeCreateFileEvent(server.el, conn->c.fd, AE_WRITABLE, tlsEventHandler, conn);
if (!need_write && (mask & AE_WRITABLE))
aeDeleteFileEvent(server.el, conn->c.fd, AE_WRITABLE);
}
static void tlsHandleEvent(tls_connection *conn, int mask) {
int ret, conn_error;
TLSCONN_DEBUG("tlsEventHandler(): fd=%d, state=%d, mask=%d, r=%d, w=%d, flags=%d",
fd, conn->c.state, mask, conn->c.read_handler != NULL, conn->c.write_handler != NULL,
conn->flags);
ERR_clear_error();
switch (conn->c.state) {
case CONN_STATE_CONNECTING:
conn_error = connGetSocketError((connection *) conn);
if (conn_error) {
conn->c.last_errno = conn_error;
conn->c.state = CONN_STATE_ERROR;
} else {
if (!(conn->flags & TLS_CONN_FLAG_FD_SET)) {
SSL_set_fd(conn->ssl, conn->c.fd);
conn->flags |= TLS_CONN_FLAG_FD_SET;
}
ret = SSL_connect(conn->ssl);
if (ret <= 0) {
WantIOType want = 0;
if (!handleSSLReturnCode(conn, ret, &want)) {
registerSSLEvent(conn, want);
/* Avoid hitting UpdateSSLEvent, which knows nothing
* of what SSL_connect() wants and instead looks at our
* R/W handlers.
*/
return;
}
/* If not handled, it's an error */
conn->c.state = CONN_STATE_ERROR;
} else {
conn->c.state = CONN_STATE_CONNECTED;
}
}
if (!callHandler((connection *) conn, conn->c.conn_handler)) return;
conn->c.conn_handler = NULL;
break;
case CONN_STATE_ACCEPTING:
ret = SSL_accept(conn->ssl);
if (ret <= 0) {
WantIOType want = 0;
if (!handleSSLReturnCode(conn, ret, &want)) {
/* Avoid hitting UpdateSSLEvent, which knows nothing
* of what SSL_connect() wants and instead looks at our
* R/W handlers.
*/
registerSSLEvent(conn, want);
return;
}
/* If not handled, it's an error */
conn->c.state = CONN_STATE_ERROR;
} else {
conn->c.state = CONN_STATE_CONNECTED;
}
if (!callHandler((connection *) conn, conn->c.conn_handler)) return;
conn->c.conn_handler = NULL;
break;
case CONN_STATE_CONNECTED:
{
int call_read = ((mask & AE_READABLE) && conn->c.read_handler) ||
((mask & AE_WRITABLE) && (conn->flags & TLS_CONN_FLAG_READ_WANT_WRITE));
int call_write = ((mask & AE_WRITABLE) && conn->c.write_handler) ||
((mask & AE_READABLE) && (conn->flags & TLS_CONN_FLAG_WRITE_WANT_READ));
/* Normally we execute the readable event first, and the writable
* event laster. This is useful as sometimes we may be able
* to serve the reply of a query immediately after processing the
* query.
*
* However if WRITE_BARRIER is set in the mask, our application is
* asking us to do the reverse: never fire the writable event
* after the readable. In such a case, we invert the calls.
* This is useful when, for instance, we want to do things
* in the beforeSleep() hook, like fsynching a file to disk,
* before replying to a client. */
int invert = conn->c.flags & CONN_FLAG_WRITE_BARRIER;
if (!invert && call_read) {
conn->flags &= ~TLS_CONN_FLAG_READ_WANT_WRITE;
if (!callHandler((connection *) conn, conn->c.read_handler)) return;
}
/* Fire the writable event. */
if (call_write) {
conn->flags &= ~TLS_CONN_FLAG_WRITE_WANT_READ;
if (!callHandler((connection *) conn, conn->c.write_handler)) return;
}
/* If we have to invert the call, fire the readable event now
* after the writable one. */
if (invert && call_read) {
conn->flags &= ~TLS_CONN_FLAG_READ_WANT_WRITE;
if (!callHandler((connection *) conn, conn->c.read_handler)) return;
}
/* If SSL has pending that, already read from the socket, we're at
* risk of not calling the read handler again, make sure to add it
* to a list of pending connection that should be handled anyway. */
if ((mask & AE_READABLE)) {
if (SSL_pending(conn->ssl) > 0) {
if (!conn->pending_list_node) {
listAddNodeTail(pending_list, conn);
conn->pending_list_node = listLast(pending_list);
}
} else if (conn->pending_list_node) {
listDelNode(pending_list, conn->pending_list_node);
conn->pending_list_node = NULL;
}
}
break;
}
default:
break;
}
updateSSLEvent(conn);
}
static void tlsEventHandler(struct aeEventLoop *el, int fd, void *clientData, int mask) {
UNUSED(el);
UNUSED(fd);
tls_connection *conn = clientData;
tlsHandleEvent(conn, mask);
}
static void connTLSClose(connection *conn_) {
tls_connection *conn = (tls_connection *) conn_;
if (conn->ssl) {
if (conn->c.state == CONN_STATE_CONNECTED)
SSL_shutdown(conn->ssl);
SSL_free(conn->ssl);
conn->ssl = NULL;
}
if (conn->ssl_error) {
zfree(conn->ssl_error);
conn->ssl_error = NULL;
}
if (conn->pending_list_node) {
listDelNode(pending_list, conn->pending_list_node);
conn->pending_list_node = NULL;
}
CT_Socket.close(conn_);
}
static int connTLSAccept(connection *_conn, ConnectionCallbackFunc accept_handler) {
tls_connection *conn = (tls_connection *) _conn;
int ret;
if (conn->c.state != CONN_STATE_ACCEPTING) return C_ERR;
ERR_clear_error();
/* Try to accept */
conn->c.conn_handler = accept_handler;
ret = SSL_accept(conn->ssl);
if (ret <= 0) {
WantIOType want = 0;
if (!handleSSLReturnCode(conn, ret, &want)) {
registerSSLEvent(conn, want); /* We'll fire back */
return C_OK;
} else {
conn->c.state = CONN_STATE_ERROR;
return C_ERR;
}
}
conn->c.state = CONN_STATE_CONNECTED;
if (!callHandler((connection *) conn, conn->c.conn_handler)) return C_OK;
conn->c.conn_handler = NULL;
return C_OK;
}
static int connTLSConnect(connection *conn_, const char *addr, int port, const char *src_addr, ConnectionCallbackFunc connect_handler) {
tls_connection *conn = (tls_connection *) conn_;
if (conn->c.state != CONN_STATE_NONE) return C_ERR;
ERR_clear_error();
/* Initiate Socket connection first */
if (CT_Socket.connect(conn_, addr, port, src_addr, connect_handler) == C_ERR) return C_ERR;
/* Return now, once the socket is connected we'll initiate
* TLS connection from the event handler.
*/
return C_OK;
}
static int connTLSWrite(connection *conn_, const void *data, size_t data_len) {
tls_connection *conn = (tls_connection *) conn_;
int ret;
if (conn->c.state != CONN_STATE_CONNECTED) return -1;
ERR_clear_error();
ret = SSL_write(conn->ssl, data, data_len);
return updateStateAfterSSLIO(conn, ret, 1);
}
static int connTLSWritev(connection *conn_, const struct iovec *iov, int iovcnt) {
if (iovcnt == 1) return connTLSWrite(conn_, iov[0].iov_base, iov[0].iov_len);
/* Accumulate the amount of bytes of each buffer and check if it exceeds NET_MAX_WRITES_PER_EVENT. */
size_t iov_bytes_len = 0;
for (int i = 0; i < iovcnt; i++) {
iov_bytes_len += iov[i].iov_len;
if (iov_bytes_len > NET_MAX_WRITES_PER_EVENT) break;
}
/* The amount of all buffers is greater than NET_MAX_WRITES_PER_EVENT,
* which is not worth doing so much memory copying to reduce system calls,
* therefore, invoke connTLSWrite() multiple times to avoid memory copies. */
if (iov_bytes_len > NET_MAX_WRITES_PER_EVENT) {
ssize_t tot_sent = 0;
for (int i = 0; i < iovcnt; i++) {
ssize_t sent = connTLSWrite(conn_, iov[i].iov_base, iov[i].iov_len);
if (sent <= 0) return tot_sent > 0 ? tot_sent : sent;
tot_sent += sent;
if ((size_t) sent != iov[i].iov_len) break;
}
return tot_sent;
}
/* The amount of all buffers is less than NET_MAX_WRITES_PER_EVENT,
* which is worth doing more memory copies in exchange for fewer system calls,
* so concatenate these scattered buffers into a contiguous piece of memory
* and send it away by one call to connTLSWrite(). */
char buf[iov_bytes_len];
size_t offset = 0;
for (int i = 0; i < iovcnt; i++) {
memcpy(buf + offset, iov[i].iov_base, iov[i].iov_len);
offset += iov[i].iov_len;
}
return connTLSWrite(conn_, buf, iov_bytes_len);
}
static int connTLSRead(connection *conn_, void *buf, size_t buf_len) {
tls_connection *conn = (tls_connection *) conn_;
int ret;
if (conn->c.state != CONN_STATE_CONNECTED) return -1;
ERR_clear_error();
ret = SSL_read(conn->ssl, buf, buf_len);
return updateStateAfterSSLIO(conn, ret, 1);
}
static const char *connTLSGetLastError(connection *conn_) {
tls_connection *conn = (tls_connection *) conn_;
if (conn->ssl_error) return conn->ssl_error;
return NULL;
}
int connTLSSetWriteHandler(connection *conn, ConnectionCallbackFunc func, int barrier) {
conn->write_handler = func;
if (barrier)
conn->flags |= CONN_FLAG_WRITE_BARRIER;
else
conn->flags &= ~CONN_FLAG_WRITE_BARRIER;
updateSSLEvent((tls_connection *) conn);
return C_OK;
}
int connTLSSetReadHandler(connection *conn, ConnectionCallbackFunc func) {
conn->read_handler = func;
updateSSLEvent((tls_connection *) conn);
return C_OK;
}
static void setBlockingTimeout(tls_connection *conn, long long timeout) {
anetBlock(NULL, conn->c.fd);
anetSendTimeout(NULL, conn->c.fd, timeout);
anetRecvTimeout(NULL, conn->c.fd, timeout);
}
static void unsetBlockingTimeout(tls_connection *conn) {
anetNonBlock(NULL, conn->c.fd);
anetSendTimeout(NULL, conn->c.fd, 0);
anetRecvTimeout(NULL, conn->c.fd, 0);
}
static int connTLSBlockingConnect(connection *conn_, const char *addr, int port, long long timeout) {
tls_connection *conn = (tls_connection *) conn_;
int ret;
if (conn->c.state != CONN_STATE_NONE) return C_ERR;
/* Initiate socket blocking connect first */
if (CT_Socket.blocking_connect(conn_, addr, port, timeout) == C_ERR) return C_ERR;
/* Initiate TLS connection now. We set up a send/recv timeout on the socket,
* which means the specified timeout will not be enforced accurately. */
SSL_set_fd(conn->ssl, conn->c.fd);
setBlockingTimeout(conn, timeout);
if ((ret = SSL_connect(conn->ssl)) <= 0) {
conn->c.state = CONN_STATE_ERROR;
return C_ERR;
}
unsetBlockingTimeout(conn);
conn->c.state = CONN_STATE_CONNECTED;
return C_OK;
}
static ssize_t connTLSSyncWrite(connection *conn_, char *ptr, ssize_t size, long long timeout) {
tls_connection *conn = (tls_connection *) conn_;
setBlockingTimeout(conn, timeout);
SSL_clear_mode(conn->ssl, SSL_MODE_ENABLE_PARTIAL_WRITE);
ERR_clear_error();
int ret = SSL_write(conn->ssl, ptr, size);
ret = updateStateAfterSSLIO(conn, ret, 0);
SSL_set_mode(conn->ssl, SSL_MODE_ENABLE_PARTIAL_WRITE);
unsetBlockingTimeout(conn);
return ret;
}
static ssize_t connTLSSyncRead(connection *conn_, char *ptr, ssize_t size, long long timeout) {
tls_connection *conn = (tls_connection *) conn_;
setBlockingTimeout(conn, timeout);
ERR_clear_error();
int ret = SSL_read(conn->ssl, ptr, size);
ret = updateStateAfterSSLIO(conn, ret, 0);
unsetBlockingTimeout(conn);
return ret;
}
static ssize_t connTLSSyncReadLine(connection *conn_, char *ptr, ssize_t size, long long timeout) {
tls_connection *conn = (tls_connection *) conn_;
ssize_t nread = 0;
setBlockingTimeout(conn, timeout);
size--;
while(size) {
char c;
ERR_clear_error();
int ret = SSL_read(conn->ssl, &c, 1);
ret = updateStateAfterSSLIO(conn, ret, 0);
if (ret <= 0) {
nread = -1;
goto exit;
}
if (c == '\n') {
*ptr = '\0';
if (nread && *(ptr-1) == '\r') *(ptr-1) = '\0';
goto exit;
} else {
*ptr++ = c;
*ptr = '\0';
nread++;
}
size--;
}
exit:
unsetBlockingTimeout(conn);
return nread;
}
static int connTLSGetType(connection *conn_) {
(void) conn_;
return CONN_TYPE_TLS;
}
ConnectionType CT_TLS = {
.ae_handler = tlsEventHandler,
.accept = connTLSAccept,
.connect = connTLSConnect,
.blocking_connect = connTLSBlockingConnect,
.read = connTLSRead,
.write = connTLSWrite,
.writev = connTLSWritev,
.close = connTLSClose,
.set_write_handler = connTLSSetWriteHandler,
.set_read_handler = connTLSSetReadHandler,
.get_last_error = connTLSGetLastError,
.sync_write = connTLSSyncWrite,
.sync_read = connTLSSyncRead,
.sync_readline = connTLSSyncReadLine,
.get_type = connTLSGetType
};
int tlsHasPendingData() {
if (!pending_list)
return 0;
return listLength(pending_list) > 0;
}
int tlsProcessPendingData() {
listIter li;
listNode *ln;
int processed = listLength(pending_list);
listRewind(pending_list,&li);
while((ln = listNext(&li))) {
tls_connection *conn = listNodeValue(ln);
tlsHandleEvent(conn, AE_READABLE);
}
return processed;
}
/* Fetch the peer certificate used for authentication on the specified
* connection and return it as a PEM-encoded sds.
*/
sds connTLSGetPeerCert(connection *conn_) {
tls_connection *conn = (tls_connection *) conn_;
if (conn_->type->get_type(conn_) != CONN_TYPE_TLS || !conn->ssl) return NULL;
X509 *cert = SSL_get_peer_certificate(conn->ssl);
if (!cert) return NULL;
BIO *bio = BIO_new(BIO_s_mem());
if (bio == NULL || !PEM_write_bio_X509(bio, cert)) {
if (bio != NULL) BIO_free(bio);
return NULL;
}
const char *bio_ptr;
long long bio_len = BIO_get_mem_data(bio, &bio_ptr);
sds cert_pem = sdsnewlen(bio_ptr, bio_len);
BIO_free(bio);
return cert_pem;
}
#else /* USE_OPENSSL */
void tlsInit(void) {
}
void tlsCleanup(void) {
}
int tlsConfigure(redisTLSContextConfig *ctx_config) {
UNUSED(ctx_config);
return C_OK;
}
connection *connCreateTLS(void) {
return NULL;
}
connection *connCreateAcceptedTLS(int fd, int require_auth) {
UNUSED(fd);
UNUSED(require_auth);
return NULL;
}
int tlsHasPendingData() {
return 0;
}
int tlsProcessPendingData() {
return 0;
}
sds connTLSGetPeerCert(connection *conn_) {
(void) conn_;
return NULL;
}
#endif
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