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ovs/lib/stream.c
Ilya Maximets 49f299313d treewide: Refer to SSL configuration as SSL/TLS. 
SSL protocol family is not actually being used or supported in OVS.
What we use is actually TLS.

Terms "SSL" and "TLS" are often used interchangeably in modern
software and refer to the same thing, which is normally just TLS.

Let's replace "SSL" with "SSL/TLS" in documentation and user-visible
messages, where it makes sense.  This may make it more clear what
is meant for a less experienced user that may look for TLS support
in OVS and not find much.

We're not changing any actual code, because, for example, most of
OpenSSL APIs are using just SSL, for historical reasons.  And our
database is using "SSL" table.  We may consider migrating to "TLS"
naming for user-visible configuration like command line arguments
and database names, but that will require extra work on making sure
upgrades can still work.  In general, a slightly more clear
documentation should be enough for now, especially since term SSL
is still widely used in the industry.

"SSL/TLS" is chosen over "TLS/SSL" simply because our user-visible
configuration knobs are using "SSL" naming, e.g. '--ssl-cyphers'
or 'ovs-vsctl set-ssl'.  So, it might be less confusing this way.
We may switch that, if we decide on re-working the user-visible
commands towards "TLS" naming, or providing both alternatives.

Some other projects did similar changes.  For example, the python ssl
library is now using "TLS/SSL" in the documentation whenever possible.
Same goes for OpenSSL itself.

Acked-by: Eelco Chaudron <echaudro@redhat.com>
Signed-off-by: Ilya Maximets <i.maximets@ovn.org>
2024-12-13 13:00:27 +01:00

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/*
* Copyright (c) 2008, 2009, 2010, 2011, 2012, 2013, 2015 Nicira, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <config.h>
#include "stream-provider.h"
#include <errno.h>
#include <inttypes.h>
#include <sys/types.h>
#include <netinet/in.h>
#include <poll.h>
#include <stdlib.h>
#include <string.h>
#include "coverage.h"
#include "fatal-signal.h"
#include "flow.h"
#include "jsonrpc.h"
#include "openflow/nicira-ext.h"
#include "openflow/openflow.h"
#include "openvswitch/dynamic-string.h"
#include "openvswitch/ofp-print.h"
#include "openvswitch/ofpbuf.h"
#include "openvswitch/vlog.h"
#include "ovs-replay.h"
#include "ovs-thread.h"
#include "packets.h"
#include "openvswitch/poll-loop.h"
#include "random.h"
#include "socket-util.h"
#include "util.h"
VLOG_DEFINE_THIS_MODULE(stream);
COVERAGE_DEFINE(pstream_open);
COVERAGE_DEFINE(stream_open);
/* State of an active stream.*/
enum stream_state {
SCS_CONNECTING, /* Underlying stream is not connected. */
SCS_CONNECTED, /* Connection established. */
SCS_DISCONNECTED /* Connection failed or connection closed. */
};
static const struct stream_class *stream_classes[] = {
&tcp_stream_class,
#ifndef _WIN32
&unix_stream_class,
#else
&windows_stream_class,
#endif
#ifdef HAVE_OPENSSL
&ssl_stream_class,
#endif
};
static const struct pstream_class *pstream_classes[] = {
&ptcp_pstream_class,
#ifndef _WIN32
&punix_pstream_class,
#else
&pwindows_pstream_class,
#endif
#ifdef HAVE_OPENSSL
&pssl_pstream_class,
#endif
};
/* Check the validity of the stream class structures. */
static void
check_stream_classes(void)
{
#ifndef NDEBUG
size_t i;
for (i = 0; i < ARRAY_SIZE(stream_classes); i++) {
const struct stream_class *class = stream_classes[i];
ovs_assert(class->name != NULL);
ovs_assert(class->open != NULL);
if (class->close || class->recv || class->send || class->run
|| class->run_wait || class->wait) {
ovs_assert(class->close != NULL);
ovs_assert(class->recv != NULL);
ovs_assert(class->send != NULL);
ovs_assert(class->wait != NULL);
} else {
/* This class delegates to another one. */
}
}
for (i = 0; i < ARRAY_SIZE(pstream_classes); i++) {
const struct pstream_class *class = pstream_classes[i];
ovs_assert(class->name != NULL);
ovs_assert(class->listen != NULL);
if (class->close || class->accept || class->wait) {
ovs_assert(class->close != NULL);
ovs_assert(class->accept != NULL);
ovs_assert(class->wait != NULL);
} else {
/* This class delegates to another one. */
}
}
#endif
}
/* Prints information on active (if 'active') and passive (if 'passive')
* connection methods supported by the stream. */
void
stream_usage(const char *name, bool active, bool passive,
bool bootstrap OVS_UNUSED)
{
/* Really this should be implemented via callbacks into the stream
* providers, but that seems too heavy-weight to bother with at the
* moment. */
printf("\n");
if (active) {
printf("Active %s connection methods:\n", name);
printf(" tcp:HOST:PORT "
"PORT at remote HOST\n");
#ifdef HAVE_OPENSSL
printf(" ssl:HOST:PORT "
"SSL/TLS PORT at remote HOST\n");
#endif
printf(" unix:FILE "
"Unix domain socket named FILE\n");
}
if (passive) {
printf("Passive %s connection methods:\n", name);
printf(" ptcp:PORT[:IP] "
"listen to TCP PORT on IP\n");
#ifdef HAVE_OPENSSL
printf(" pssl:PORT[:IP] "
"listen for SSL/TLS on PORT on IP\n");
#endif
printf(" punix:FILE "
"listen on Unix domain socket FILE\n");
}
#ifdef HAVE_OPENSSL
printf("PKI configuration (required to use SSL/TLS):\n"
" -p, --private-key=FILE file with private key\n"
" -c, --certificate=FILE file with certificate for private key\n"
" -C, --ca-cert=FILE file with peer CA certificate\n");
if (bootstrap) {
printf(" --bootstrap-ca-cert=FILE file with peer CA certificate "
"to read or create\n");
}
printf("SSL/TLS options:\n"
" --ssl-protocols=PROTOS list of SSL/TLS protocols to enable\n"
" --ssl-ciphers=CIPHERS list of SSL/TLS ciphers to enable\n");
#endif
}
/* Given 'name', a stream name in the form "TYPE:ARGS", stores the class
* named "TYPE" into '*classp' and returns 0. Returns EAFNOSUPPORT and stores
* a null pointer into '*classp' if 'name' is in the wrong form or if no such
* class exists. */
static int
stream_lookup_class(const char *name, const struct stream_class **classp)
{
size_t prefix_len;
size_t i;
check_stream_classes();
*classp = NULL;
prefix_len = strcspn(name, ":");
if (name[prefix_len] == '\0') {
return EAFNOSUPPORT;
}
for (i = 0; i < ARRAY_SIZE(stream_classes); i++) {
const struct stream_class *class = stream_classes[i];
if (strlen(class->name) == prefix_len
&& !memcmp(class->name, name, prefix_len)) {
if (ovs_replay_get_state() == OVS_REPLAY_READ) {
*classp = &replay_stream_class;
} else {
*classp = class;
}
return 0;
}
}
return EAFNOSUPPORT;
}
/* Returns 0 if 'name' is a stream name in the form "TYPE:ARGS" and TYPE is
* a supported stream type, otherwise EAFNOSUPPORT. */
int
stream_verify_name(const char *name)
{
const struct stream_class *class;
return stream_lookup_class(name, &class);
}
/* Attempts to connect a stream to a remote peer. 'name' is a connection name
* in the form "TYPE:ARGS", where TYPE is an active stream class's name and
* ARGS are stream class-specific.
*
* Returns 0 if successful, otherwise a positive errno value. If successful,
* stores a pointer to the new connection in '*streamp', otherwise a null
* pointer. */
int
stream_open(const char *name, struct stream **streamp, uint8_t dscp)
{
const struct stream_class *class;
struct stream *stream = NULL;
char *suffix_copy;
int error;
COVERAGE_INC(stream_open);
/* Look up the class. */
error = stream_lookup_class(name, &class);
if (!class) {
goto error;
}
/* Call class's "open" function. */
suffix_copy = xstrdup(strchr(name, ':') + 1);
error = class->open(name, suffix_copy, &stream, dscp);
free(suffix_copy);
stream_replay_open_wfd(stream, error, name);
if (error) {
goto error;
}
/* Success. */
*streamp = stream;
return 0;
error:
*streamp = NULL;
return error;
}
/* Blocks until a previously started stream connection attempt succeeds or
* fails, but no more than 'timeout' milliseconds. 'error' should be the
* value returned by stream_open() and 'streamp' should point to the stream
* pointer set by stream_open(). Returns 0 if successful, otherwise a
* positive errno value other than EAGAIN or EINPROGRESS. If successful,
* leaves '*streamp' untouched; on error, closes '*streamp' and sets
* '*streamp' to null. Negative value of 'timeout' means infinite waiting.
*
* Typical usage:
* error = stream_open_block(stream_open("tcp:1.2.3.4:5", &stream), -1,
* &stream);
*/
int
stream_open_block(int error, long long int timeout, struct stream **streamp)
{
struct stream *stream = *streamp;
fatal_signal_run();
if (!error) {
long long int deadline = (timeout >= 0
? time_msec() + timeout
: LLONG_MAX);
while ((error = stream_connect(stream)) == EAGAIN) {
if (deadline != LLONG_MAX && time_msec() > deadline) {
error = ETIMEDOUT;
break;
}
stream_run(stream);
stream_run_wait(stream);
stream_connect_wait(stream);
if (deadline != LLONG_MAX) {
poll_timer_wait_until(deadline);
}
poll_block();
}
ovs_assert(error != EINPROGRESS);
}
if (error) {
stream_close(stream);
*streamp = NULL;
} else {
*streamp = stream;
}
return error;
}
/* Closes 'stream'. */
void
stream_close(struct stream *stream)
{
if (stream != NULL) {
char *name = stream->name;
char *peer_id = stream->peer_id;
stream_replay_close_wfd(stream);
(stream->class->close)(stream);
free(name);
free(peer_id);
}
}
/* Returns the name of 'stream', that is, the string passed to
* stream_open(). */
const char *
stream_get_name(const struct stream *stream)
{
return stream ? stream->name : "(null)";
}
static void
scs_connecting(struct stream *stream)
{
int retval = (stream->class->connect)(stream);
ovs_assert(retval != EINPROGRESS);
if (!retval) {
stream->state = SCS_CONNECTED;
} else if (retval != EAGAIN) {
stream->state = SCS_DISCONNECTED;
stream->error = retval;
}
}
/* Tries to complete the connection on 'stream'. If 'stream''s connection is
* complete, returns 0 if the connection was successful or a positive errno
* value if it failed. If the connection is still in progress, returns
* EAGAIN. */
int
stream_connect(struct stream *stream)
{
enum stream_state last_state;
do {
last_state = stream->state;
switch (stream->state) {
case SCS_CONNECTING:
scs_connecting(stream);
break;
case SCS_CONNECTED:
return 0;
case SCS_DISCONNECTED:
return stream->error;
default:
OVS_NOT_REACHED();
}
} while (stream->state != last_state);
return EAGAIN;
}
/* Tries to receive up to 'n' bytes from 'stream' into 'buffer', and returns:
*
* - If successful, the number of bytes received (between 1 and 'n').
*
* - On error, a negative errno value.
*
* - 0, if the connection has been closed in the normal fashion, or if 'n'
* is zero.
*
* The recv function will not block waiting for a packet to arrive. If no
* data have been received, it returns -EAGAIN immediately. */
int
stream_recv(struct stream *stream, void *buffer, size_t n)
{
int retval = stream_connect(stream);
retval = retval ? -retval
: n == 0 ? 0
: (stream->class->recv)(stream, buffer, n);
stream_replay_write(stream, buffer, retval, true);
return retval;
}
/* Tries to send up to 'n' bytes of 'buffer' on 'stream', and returns:
*
* - If successful, the number of bytes sent (between 1 and 'n'). 0 is
* only a valid return value if 'n' is 0.
*
* - On error, a negative errno value.
*
* The send function will not block. If no bytes can be immediately accepted
* for transmission, it returns -EAGAIN immediately. */
int
stream_send(struct stream *stream, const void *buffer, size_t n)
{
int retval = stream_connect(stream);
retval = retval ? -retval
: n == 0 ? 0
: (stream->class->send)(stream, buffer, n);
stream_replay_write(stream, buffer, retval, false);
return retval;
}
/* Allows 'stream' to perform maintenance activities, such as flushing
* output buffers. */
void
stream_run(struct stream *stream)
{
if (stream->class->run) {
(stream->class->run)(stream);
}
}
/* Arranges for the poll loop to wake up when 'stream' needs to perform
* maintenance activities. */
void
stream_run_wait(struct stream *stream)
{
if (stream->class->run_wait) {
(stream->class->run_wait)(stream);
}
}
/* Arranges for the poll loop to wake up when 'stream' is ready to take an
* action of the given 'type'. */
void
stream_wait(struct stream *stream, enum stream_wait_type wait)
{
ovs_assert(wait == STREAM_CONNECT || wait == STREAM_RECV
|| wait == STREAM_SEND);
switch (stream->state) {
case SCS_CONNECTING:
wait = STREAM_CONNECT;
break;
case SCS_DISCONNECTED:
poll_immediate_wake();
return;
}
(stream->class->wait)(stream, wait);
}
void
stream_connect_wait(struct stream *stream)
{
stream_wait(stream, STREAM_CONNECT);
}
void
stream_recv_wait(struct stream *stream)
{
stream_wait(stream, STREAM_RECV);
}
void
stream_send_wait(struct stream *stream)
{
stream_wait(stream, STREAM_SEND);
}
void
stream_set_peer_id(struct stream *stream, const char *peer_id)
{
free(stream->peer_id);
stream->peer_id = xstrdup(peer_id);
}
const char *
stream_get_peer_id(const struct stream *stream)
{
return stream->peer_id;
}
/* Given 'name', a pstream name in the form "TYPE:ARGS", stores the class
* named "TYPE" into '*classp' and returns 0. Returns EAFNOSUPPORT and stores
* a null pointer into '*classp' if 'name' is in the wrong form or if no such
* class exists. */
static int
pstream_lookup_class(const char *name, const struct pstream_class **classp)
{
size_t prefix_len;
size_t i;
check_stream_classes();
*classp = NULL;
prefix_len = strcspn(name, ":");
if (name[prefix_len] == '\0') {
return EAFNOSUPPORT;
}
for (i = 0; i < ARRAY_SIZE(pstream_classes); i++) {
const struct pstream_class *class = pstream_classes[i];
if (strlen(class->name) == prefix_len
&& !memcmp(class->name, name, prefix_len)) {
if (ovs_replay_get_state() == OVS_REPLAY_READ) {
*classp = &preplay_pstream_class;
} else {
*classp = class;
}
return 0;
}
}
return EAFNOSUPPORT;
}
/* Returns 0 if 'name' is a pstream name in the form "TYPE:ARGS" and TYPE is
* a supported pstream type, otherwise EAFNOSUPPORT. */
int
pstream_verify_name(const char *name)
{
const struct pstream_class *class;
return pstream_lookup_class(name, &class);
}
/* Returns 1 if the stream or pstream specified by 'name' needs periodic probes
* to verify connectivity. For [p]streams which need probes, it can take a
* long time to notice the connection has been dropped. Returns 0 if the
* stream or pstream does not need probes, and -1 if 'name' is not valid. */
int
stream_or_pstream_needs_probes(const char *name)
{
const struct pstream_class *pclass;
const struct stream_class *class;
if (!stream_lookup_class(name, &class)) {
return class->needs_probes;
} else if (!pstream_lookup_class(name, &pclass)) {
return pclass->needs_probes;
} else {
return -1;
}
}
/* Attempts to start listening for remote stream connections. 'name' is a
* connection name in the form "TYPE:ARGS", where TYPE is an passive stream
* class's name and ARGS are stream class-specific.
*
* Returns 0 if successful, otherwise a positive errno value. If successful,
* stores a pointer to the new connection in '*pstreamp', otherwise a null
* pointer. */
int
pstream_open(const char *name, struct pstream **pstreamp, uint8_t dscp)
{
const struct pstream_class *class;
struct pstream *pstream = NULL;
char *suffix_copy;
int error;
COVERAGE_INC(pstream_open);
/* Look up the class. */
error = pstream_lookup_class(name, &class);
if (!class) {
goto error;
}
/* Call class's "open" function. */
suffix_copy = xstrdup(strchr(name, ':') + 1);
error = class->listen(name, suffix_copy, &pstream, dscp);
free(suffix_copy);
pstream_replay_open_wfd(pstream, error, name);
if (error) {
goto error;
}
/* Success. */
*pstreamp = pstream;
return 0;
error:
*pstreamp = NULL;
return error;
}
/* Returns the name that was used to open 'pstream'. The caller must not
* modify or free the name. */
const char *
pstream_get_name(const struct pstream *pstream)
{
return pstream->name;
}
/* Closes 'pstream'. */
void
pstream_close(struct pstream *pstream)
{
if (pstream != NULL) {
char *name = pstream->name;
pstream_replay_close_wfd(pstream);
(pstream->class->close)(pstream);
free(name);
}
}
/* Tries to accept a new connection on 'pstream'. If successful, stores the
* new connection in '*new_stream' and returns 0. Otherwise, returns a
* positive errno value.
*
* pstream_accept() will not block waiting for a connection. If no connection
* is ready to be accepted, it returns EAGAIN immediately. */
int
pstream_accept(struct pstream *pstream, struct stream **new_stream)
{
int retval = (pstream->class->accept)(pstream, new_stream);
if (retval) {
*new_stream = NULL;
pstream_replay_write_accept(pstream, NULL, retval);
} else {
ovs_assert((*new_stream)->state != SCS_CONNECTING
|| (*new_stream)->class->connect);
pstream_replay_write_accept(pstream, *new_stream, 0);
stream_replay_open_wfd(*new_stream, 0, (*new_stream)->name);
}
return retval;
}
/* Tries to accept a new connection on 'pstream'. If successful, stores the
* new connection in '*new_stream' and returns 0. Otherwise, returns a
* positive errno value.
*
* pstream_accept_block() blocks until a connection is ready or until an error
* occurs. It will not return EAGAIN. */
int
pstream_accept_block(struct pstream *pstream, struct stream **new_stream)
{
int error;
fatal_signal_run();
while ((error = pstream_accept(pstream, new_stream)) == EAGAIN) {
pstream_wait(pstream);
poll_block();
}
if (error) {
*new_stream = NULL;
}
return error;
}
void
pstream_wait(struct pstream *pstream)
{
(pstream->class->wait)(pstream);
}
/* Returns the transport port on which 'pstream' is listening, or 0 if the
* concept doesn't apply. */
ovs_be16
pstream_get_bound_port(const struct pstream *pstream)
{
return pstream->bound_port;
}
/* Initializes 'stream' as a new stream named 'name', implemented via 'class'.
* The initial connection status, supplied as 'connect_status', is interpreted
* as follows:
*
* - 0: 'stream' is connected. Its 'send' and 'recv' functions may be
* called in the normal fashion.
*
* - EAGAIN: 'stream' is trying to complete a connection. Its 'connect'
* function should be called to complete the connection.
*
* - Other positive errno values indicate that the connection failed with
* the specified error.
*
* After calling this function, stream_close() must be used to destroy
* 'stream', otherwise resources will be leaked.
*
* Takes ownership of 'name'. */
void
stream_init(struct stream *stream, const struct stream_class *class,
int connect_status, char *name)
{
memset(stream, 0, sizeof *stream);
stream->class = class;
stream->state = (connect_status == EAGAIN ? SCS_CONNECTING
: !connect_status ? SCS_CONNECTED
: SCS_DISCONNECTED);
stream->error = connect_status;
stream->name = name;
ovs_assert(stream->state != SCS_CONNECTING || class->connect);
}
/* Takes ownership of 'name'. */
void
pstream_init(struct pstream *pstream, const struct pstream_class *class,
char *name)
{
memset(pstream, 0, sizeof *pstream);
pstream->class = class;
pstream->name = name;
}
void
pstream_set_bound_port(struct pstream *pstream, ovs_be16 port)
{
pstream->bound_port = port;
}
static int
count_fields(const char *s_)
{
char *s, *field, *save_ptr;
int n = 0;
save_ptr = NULL;
s = xstrdup(s_);
for (field = strtok_r(s, ":", &save_ptr); field != NULL;
field = strtok_r(NULL, ":", &save_ptr)) {
n++;
}
free(s);
return n;
}
/* Like stream_open(), but the port defaults to 'default_port' if no port
* number is given. */
int
stream_open_with_default_port(const char *name_,
uint16_t default_port,
struct stream **streamp,
uint8_t dscp)
{
char *name;
int error;
if ((!strncmp(name_, "tcp:", 4) || !strncmp(name_, "ssl:", 4))
&& count_fields(name_) < 3) {
if (default_port == OFP_PORT) {
VLOG_WARN_ONCE("The default OpenFlow port number has changed "
"from %d to %d",
OFP_OLD_PORT, OFP_PORT);
} else if (default_port == OVSDB_PORT) {
VLOG_WARN_ONCE("The default OVSDB port number has changed "
"from %d to %d",
OVSDB_OLD_PORT, OVSDB_PORT);
}
name = xasprintf("%s:%d", name_, default_port);
} else {
name = xstrdup(name_);
}
error = stream_open(name, streamp, dscp);
free(name);
return error;
}
/* Like pstream_open(), but port defaults to 'default_port' if no port
* number is given. */
int
pstream_open_with_default_port(const char *name_,
uint16_t default_port,
struct pstream **pstreamp,
uint8_t dscp)
{
char *name;
int error;
if ((!strncmp(name_, "ptcp:", 5) || !strncmp(name_, "pssl:", 5))
&& count_fields(name_) < 2) {
name = xasprintf("%s%d", name_, default_port);
} else {
name = xstrdup(name_);
}
error = pstream_open(name, pstreamp, dscp);
free(name);
return error;
}
/*
* This function extracts IP address and port from the target string.
*
* - On success, function returns true and fills *ss structure with port
* and IP address. If port was absent in target string then it will use
* corresponding default port value.
* - On error, function returns false and *ss contains garbage.
*/
bool
stream_parse_target_with_default_port(const char *target, int default_port,
struct sockaddr_storage *ss)
{
return ((!strncmp(target, "tcp:", 4) || !strncmp(target, "ssl:", 4))
&& inet_parse_active(target + 4, default_port, ss, true, NULL));
}
/* Attempts to guess the content type of a stream whose first few bytes were
* the 'size' bytes of 'data'. */
static enum stream_content_type
stream_guess_content(const uint8_t *data, ssize_t size)
{
if (size >= 2) {
#define PAIR(A, B) (((A) << 8) | (B))
switch (PAIR(data[0], data[1])) {
case PAIR(0x16, 0x03): /* Handshake, version 3. */
return STREAM_SSL;
case PAIR('{', '"'):
return STREAM_JSONRPC;
case PAIR(OFP10_VERSION, 0 /* OFPT_HELLO */):
return STREAM_OPENFLOW;
}
}
return STREAM_UNKNOWN;
}
/* Returns a string represenation of 'type'. */
static const char *
stream_content_type_to_string(enum stream_content_type type)
{
switch (type) {
case STREAM_UNKNOWN:
default:
return "unknown";
case STREAM_JSONRPC:
return "JSON-RPC";
case STREAM_OPENFLOW:
return "OpenFlow";
case STREAM_SSL:
return "SSL/TLS";
}
}
/* Attempts to guess the content type of a stream whose first few bytes were
* the 'size' bytes of 'data'. If this is done successfully, and the guessed
* content type is other than 'expected_type', then log a message in vlog
* module 'module', naming 'stream_name' as the source, explaining what
* content was expected and what was actually received. */
void
stream_report_content(const void *data, ssize_t size,
enum stream_content_type expected_type,
struct vlog_module *module, const char *stream_name)
{
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(5, 5);
enum stream_content_type actual_type;
actual_type = stream_guess_content(data, size);
if (actual_type != expected_type && actual_type != STREAM_UNKNOWN) {
vlog_rate_limit(module, VLL_WARN, &rl,
"%s: received %s data on %s channel",
stream_name,
stream_content_type_to_string(actual_type),
stream_content_type_to_string(expected_type));
}
}
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