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videolan
vlc
Commits
7f9f6100
Commit
7f9f6100
authored
Jun 28, 2012
by
Jean-Baptiste Kempf
Browse files
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Plain Diff
Remove RTMP access module
parent
269bc558
Changes
7
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7 changed files
with
1 addition
and
3220 deletions
+1
-3220
NEWS
NEWS
+1
-0
modules/LIST
modules/LIST
+0
-1
modules/access/Modules.am
modules/access/Modules.am
+0
-10
modules/access/rtmp/access.c
modules/access/rtmp/access.c
+0
-557
modules/access/rtmp/rtmp_amf_flv.c
modules/access/rtmp/rtmp_amf_flv.c
+0
-2498
modules/access/rtmp/rtmp_amf_flv.h
modules/access/rtmp/rtmp_amf_flv.h
+0
-151
po/POTFILES.in
po/POTFILES.in
+0
-3
No files found.
NEWS
View file @
7f9f6100
...
@@ -63,6 +63,7 @@ Removed modules:
...
@@ -63,6 +63,7 @@ Removed modules:
* portaudio audio output
* portaudio audio output
* X11 On Screen Display notifications (xosd)
* X11 On Screen Display notifications (xosd)
* Linux Framebuffer On Screen Display interface (fbosd)
* Linux Framebuffer On Screen Display interface (fbosd)
* RTMP access: use libavformat avio instead
Changes between 2.0.0 and 2.0.1:
Changes between 2.0.0 and 2.0.1:
...
...
modules/LIST
View file @
7f9f6100
...
@@ -27,7 +27,6 @@ $Id$
...
@@ -27,7 +27,6 @@ $Id$
* access_output_udp: UDP Network access_output module
* access_output_udp: UDP Network access_output module
* access_rar: RAR access
* access_rar: RAR access
* access_realrtsp: Real RTSP access
* access_realrtsp: Real RTSP access
* access_rtmp: RTMP network access
* access_sftp: SFTP network access module
* access_sftp: SFTP network access module
* access_shm: Shared memory framebuffer access module
* access_shm: Shared memory framebuffer access module
* access_smb: SMB shares access module
* access_smb: SMB shares access module
...
...
modules/access/Modules.am
View file @
7f9f6100
...
@@ -99,16 +99,6 @@ libvlc_LTLIBRARIES += \
...
@@ -99,16 +99,6 @@ libvlc_LTLIBRARIES += \
$(NULL)
$(NULL)
endif
endif
libaccess_rtmp_plugin_la_SOURCES = \
rtmp/access.c \
rtmp/rtmp_amf_flv.c \
rtmp/rtmp_amf_flv.h \
$(NULL)
libaccess_rtmp_plugin_la_CFLAGS = $(AM_CFLAGS) \
-fno-strict-aliasing
libaccess_rtmp_plugin_la_LIBADD = $(AM_LIBADD)
libaccess_rtmp_plugin_la_DEPENDENCIES =
libvlc_LTLIBRARIES += \
libvlc_LTLIBRARIES += \
libfilesystem_plugin.la \
libfilesystem_plugin.la \
libidummy_plugin.la \
libidummy_plugin.la \
...
...
modules/access/rtmp/access.c
deleted
100644 → 0
View file @
269bc558
/*****************************************************************************
* access.c: RTMP input.
*****************************************************************************
* Copyright (C) URJC - LADyR - Luis Lopez Fernandez
*
* Author: Miguel Angel Cabrera Moya
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA.
*****************************************************************************/
/*****************************************************************************
* Preamble
*****************************************************************************/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include <vlc_common.h>
#include <vlc_plugin.h>
#include <vlc_access.h>
#include <vlc_network.h>
/* DOWN: #include <network.h> */
#include <vlc_url.h>
#include <vlc_block.h>
#include "rtmp_amf_flv.h"
/*****************************************************************************
* Module descriptor
*****************************************************************************/
#define SWFURL_TEXT N_("Default SWF Referrer URL")
#define SWFURL_LONGTEXT N_("The SFW URL to use as referrer when connecting to "\
"the server. This is the SWF file that contained " \
"the stream.")
#define PAGEURL_TEXT N_("Default Page Referrer URL")
#define PAGEURL_LONGTEXT N_("The Page URL to use as referrer when connecting to " \
"the server. This is the page housing the SWF " \
"file.")
static
int
Open
(
vlc_object_t
*
);
static
void
Close
(
vlc_object_t
*
);
vlc_module_begin
()
set_description
(
N_
(
"RTMP input"
)
)
set_shortname
(
N_
(
"RTMP"
)
)
set_category
(
CAT_INPUT
)
set_subcategory
(
SUBCAT_INPUT_ACCESS
)
add_string
(
"rtmp-swfurl"
,
"file:///player.swf"
,
SWFURL_TEXT
,
SWFURL_LONGTEXT
,
true
)
add_string
(
"rtmp-pageurl"
,
"file:///player.htm"
,
PAGEURL_TEXT
,
PAGEURL_LONGTEXT
,
true
)
set_capability
(
"access"
,
0
)
set_callbacks
(
Open
,
Close
)
add_shortcut
(
"rtmp"
)
vlc_module_end
()
/*****************************************************************************
* Local prototypes
*****************************************************************************/
static
ssize_t
Read
(
access_t
*
,
uint8_t
*
,
size_t
);
static
int
Seek
(
access_t
*
,
uint64_t
);
static
int
Control
(
access_t
*
,
int
,
va_list
);
static
void
*
ThreadControl
(
void
*
);
/*****************************************************************************
* Open: open the rtmp connection
*****************************************************************************/
static
int
Open
(
vlc_object_t
*
p_this
)
{
access_t
*
p_access
=
(
access_t
*
)
p_this
;
access_sys_t
*
p_sys
;
char
*
psz
,
*
p
;
int
length_path
,
length_media_name
;
int
i
;
STANDARD_READ_ACCESS_INIT
p_sys
->
p_thread
=
vlc_object_create
(
p_access
,
sizeof
(
rtmp_control_thread_t
)
);
if
(
!
p_sys
->
p_thread
)
return
VLC_ENOMEM
;
/* Parse URI - remove spaces */
p
=
psz
=
strdup
(
p_access
->
psz_location
);
while
(
(
p
=
strchr
(
p
,
' '
))
!=
NULL
)
*
p
=
'+'
;
vlc_UrlParse
(
&
p_sys
->
p_thread
->
url
,
psz
,
0
);
free
(
psz
);
if
(
p_sys
->
p_thread
->
url
.
psz_host
==
NULL
||
*
p_sys
->
p_thread
->
url
.
psz_host
==
'\0'
)
{
msg_Warn
(
p_access
,
"invalid host"
);
goto
error
;
}
if
(
p_sys
->
p_thread
->
url
.
i_port
<=
0
)
p_sys
->
p_thread
->
url
.
i_port
=
1935
;
if
(
p_sys
->
p_thread
->
url
.
psz_path
==
NULL
)
{
msg_Warn
(
p_access
,
"invalid path"
);
goto
error
;
}
length_path
=
strlen
(
p_sys
->
p_thread
->
url
.
psz_path
);
char
*
psz_tmp
=
strrchr
(
p_sys
->
p_thread
->
url
.
psz_path
,
'/'
);
if
(
!
psz_tmp
)
goto
error
;
length_media_name
=
strlen
(
psz_tmp
)
-
1
;
p_sys
->
p_thread
->
psz_application
=
strndup
(
p_sys
->
p_thread
->
url
.
psz_path
+
1
,
length_path
-
length_media_name
-
2
);
p_sys
->
p_thread
->
psz_media
=
strdup
(
p_sys
->
p_thread
->
url
.
psz_path
+
(
length_path
-
length_media_name
)
);
p_sys
->
p_thread
->
psz_swf_url
=
var_CreateGetString
(
p_access
,
"rtmp-swfurl"
);
p_sys
->
p_thread
->
psz_page_url
=
var_CreateGetString
(
p_access
,
"rtmp-pageurl"
);
msg_Dbg
(
p_access
,
"rtmp: host='%s' port=%d path='%s'"
,
p_sys
->
p_thread
->
url
.
psz_host
,
p_sys
->
p_thread
->
url
.
i_port
,
p_sys
->
p_thread
->
url
.
psz_path
);
if
(
p_sys
->
p_thread
->
url
.
psz_username
&&
*
p_sys
->
p_thread
->
url
.
psz_username
)
{
msg_Dbg
(
p_access
,
" user='%s'"
,
p_sys
->
p_thread
->
url
.
psz_username
);
}
/* Initialize thread variables */
p_sys
->
p_thread
->
b_error
=
0
;
p_sys
->
p_thread
->
p_fifo_input
=
block_FifoNew
();
p_sys
->
p_thread
->
p_empty_blocks
=
block_FifoNew
();
p_sys
->
p_thread
->
has_audio
=
0
;
p_sys
->
p_thread
->
has_video
=
0
;
p_sys
->
p_thread
->
metadata_received
=
0
;
p_sys
->
p_thread
->
first_media_packet
=
1
;
p_sys
->
p_thread
->
flv_tag_previous_tag_size
=
0x00000000
;
/* FLV_TAG_FIRST_PREVIOUS_TAG_SIZE */
p_sys
->
p_thread
->
chunk_size_recv
=
128
;
/* RTMP_DEFAULT_CHUNK_SIZE */
p_sys
->
p_thread
->
chunk_size_send
=
128
;
/* RTMP_DEFAULT_CHUNK_SIZE */
for
(
i
=
0
;
i
<
64
;
i
++
)
{
memset
(
&
p_sys
->
p_thread
->
rtmp_headers_recv
[
i
],
0
,
sizeof
(
rtmp_packet_t
)
);
p_sys
->
p_thread
->
rtmp_headers_send
[
i
].
length_header
=
-
1
;
p_sys
->
p_thread
->
rtmp_headers_send
[
i
].
stream_index
=
-
1
;
p_sys
->
p_thread
->
rtmp_headers_send
[
i
].
timestamp
=
-
1
;
p_sys
->
p_thread
->
rtmp_headers_send
[
i
].
timestamp_relative
=
-
1
;
p_sys
->
p_thread
->
rtmp_headers_send
[
i
].
length_encoded
=
-
1
;
p_sys
->
p_thread
->
rtmp_headers_send
[
i
].
length_body
=
-
1
;
p_sys
->
p_thread
->
rtmp_headers_send
[
i
].
content_type
=
-
1
;
p_sys
->
p_thread
->
rtmp_headers_send
[
i
].
src_dst
=
-
1
;
p_sys
->
p_thread
->
rtmp_headers_send
[
i
].
body
=
NULL
;
}
p_sys
->
p_thread
->
p_base_object
=
p_this
;
vlc_cond_init
(
&
p_sys
->
p_thread
->
wait
);
vlc_mutex_init
(
&
p_sys
->
p_thread
->
lock
);
p_sys
->
p_thread
->
result_connect
=
1
;
p_sys
->
p_thread
->
result_play
=
1
;
p_sys
->
p_thread
->
result_stop
=
0
;
/* Open connection */
p_sys
->
p_thread
->
fd
=
net_ConnectTCP
(
p_access
,
p_sys
->
p_thread
->
url
.
psz_host
,
p_sys
->
p_thread
->
url
.
i_port
);
if
(
p_sys
->
p_thread
->
fd
==
-
1
)
{
int
*
p_fd_listen
;
msg_Warn
(
p_access
,
"cannot connect to %s:%d"
,
p_sys
->
p_thread
->
url
.
psz_host
,
p_sys
->
p_thread
->
url
.
i_port
);
msg_Dbg
(
p_access
,
"switching to passive mode"
);
p_sys
->
active
=
0
;
p_fd_listen
=
net_ListenTCP
(
p_access
,
p_sys
->
p_thread
->
url
.
psz_host
,
p_sys
->
p_thread
->
url
.
i_port
);
if
(
p_fd_listen
==
NULL
)
{
msg_Err
(
p_access
,
"cannot listen to %s port %i"
,
p_sys
->
p_thread
->
url
.
psz_host
,
p_sys
->
p_thread
->
url
.
i_port
);
goto
error2
;
}
p_sys
->
p_thread
->
fd
=
net_Accept
(
p_access
,
p_fd_listen
);
net_ListenClose
(
p_fd_listen
);
if
(
rtmp_handshake_passive
(
p_this
,
p_sys
->
p_thread
->
fd
)
<
0
)
{
msg_Err
(
p_access
,
"handshake passive failed"
);
goto
error2
;
}
p_sys
->
p_thread
->
result_publish
=
1
;
}
else
{
p_sys
->
active
=
1
;
if
(
rtmp_handshake_active
(
p_this
,
p_sys
->
p_thread
->
fd
)
<
0
)
{
msg_Err
(
p_access
,
"handshake active failed"
);
goto
error2
;
}
p_sys
->
p_thread
->
result_publish
=
0
;
}
if
(
vlc_clone
(
&
p_sys
->
p_thread
->
thread
,
ThreadControl
,
p_sys
->
p_thread
,
VLC_THREAD_PRIORITY_INPUT
)
)
{
msg_Err
(
p_access
,
"cannot spawn rtmp control thread"
);
goto
error2
;
}
if
(
p_sys
->
active
)
{
if
(
rtmp_connect_active
(
p_sys
->
p_thread
)
<
0
)
{
msg_Err
(
p_access
,
"connect active failed"
);
/* Kill the running thread */
vlc_cancel
(
p_sys
->
p_thread
->
thread
);
vlc_join
(
p_sys
->
p_thread
->
thread
,
NULL
);
goto
error2
;
}
}
/* Set vars for reading from fifo */
p_access
->
p_sys
->
flv_packet
=
NULL
;
p_access
->
p_sys
->
read_packet
=
1
;
return
VLC_SUCCESS
;
error2:
vlc_cond_destroy
(
&
p_sys
->
p_thread
->
wait
);
vlc_mutex_destroy
(
&
p_sys
->
p_thread
->
lock
);
block_FifoRelease
(
p_sys
->
p_thread
->
p_fifo_input
);
block_FifoRelease
(
p_sys
->
p_thread
->
p_empty_blocks
);
free
(
p_sys
->
p_thread
->
psz_application
);
free
(
p_sys
->
p_thread
->
psz_media
);
free
(
p_sys
->
p_thread
->
psz_swf_url
);
free
(
p_sys
->
p_thread
->
psz_page_url
);
net_Close
(
p_sys
->
p_thread
->
fd
);
error:
vlc_UrlClean
(
&
p_sys
->
p_thread
->
url
);
vlc_object_release
(
p_sys
->
p_thread
);
free
(
p_sys
);
return
VLC_EGENERIC
;
}
/*****************************************************************************
* Close: close the rtmp connection
*****************************************************************************/
static
void
Close
(
vlc_object_t
*
p_this
)
{
access_t
*
p_access
=
(
access_t
*
)
p_this
;
access_sys_t
*
p_sys
=
p_access
->
p_sys
;
int
i
;
vlc_cancel
(
p_sys
->
p_thread
->
thread
);
vlc_join
(
p_sys
->
p_thread
->
thread
,
NULL
);
vlc_cond_destroy
(
&
p_sys
->
p_thread
->
wait
);
vlc_mutex_destroy
(
&
p_sys
->
p_thread
->
lock
);
block_FifoRelease
(
p_sys
->
p_thread
->
p_fifo_input
);
block_FifoRelease
(
p_sys
->
p_thread
->
p_empty_blocks
);
for
(
i
=
0
;
i
<
64
;
i
++
)
/* RTMP_HEADER_STREAM_INDEX_MASK */
{
if
(
p_sys
->
p_thread
->
rtmp_headers_recv
[
i
].
body
!=
NULL
)
{
free
(
p_sys
->
p_thread
->
rtmp_headers_recv
[
i
].
body
->
body
);
free
(
p_sys
->
p_thread
->
rtmp_headers_recv
[
i
].
body
);
}
}
net_Close
(
p_sys
->
p_thread
->
fd
);
vlc_UrlClean
(
&
p_sys
->
p_thread
->
url
);
free
(
p_sys
->
p_thread
->
psz_application
);
free
(
p_sys
->
p_thread
->
psz_media
);
free
(
p_sys
->
p_thread
->
psz_swf_url
);
free
(
p_sys
->
p_thread
->
psz_page_url
);
vlc_object_release
(
p_sys
->
p_thread
);
free
(
p_sys
);
}
/*****************************************************************************
* Read: standard read on a file descriptor.
*****************************************************************************/
static
ssize_t
Read
(
access_t
*
p_access
,
uint8_t
*
p_buffer
,
size_t
i_len
)
{
access_sys_t
*
p_sys
=
p_access
->
p_sys
;
rtmp_packet_t
*
rtmp_packet
;
uint8_t
*
tmp_buffer
;
ssize_t
i_ret
;
size_t
i_len_tmp
;
i_len_tmp
=
0
;
while
(
i_len_tmp
<
i_len
)
{
if
(
p_sys
->
p_thread
->
result_stop
||
p_access
->
info
.
b_eof
||
!
vlc_object_alive
(
p_access
)
)
{
p_access
->
info
.
b_eof
=
true
;
return
0
;
}
if
(
p_sys
->
read_packet
)
{
if
(
!
p_sys
->
p_thread
->
metadata_received
)
{
/* Wait until enough data is received for extracting metadata */
#warning This is not thread-safe (because block_FifoCount() is not)!
if
(
block_FifoCount
(
p_sys
->
p_thread
->
p_fifo_input
)
<
10
)
{
#warning This is wrong!
msleep
(
100000
);
continue
;
}
p_sys
->
flv_packet
=
flv_get_metadata
(
p_access
);
p_sys
->
p_thread
->
metadata_received
=
1
;
}
else
{
p_sys
->
flv_packet
=
block_FifoGet
(
p_sys
->
p_thread
->
p_fifo_input
);
if
(
p_sys
->
flv_packet
==
NULL
)
continue
;
/* Forced wake-up */
}
if
(
p_sys
->
p_thread
->
first_media_packet
)
{
p_sys
->
flv_packet
=
flv_insert_header
(
p_access
,
p_sys
->
flv_packet
);
p_sys
->
p_thread
->
first_media_packet
=
0
;
}
}
if
(
i_len
-
i_len_tmp
>=
p_sys
->
flv_packet
->
i_buffer
)
{
p_sys
->
read_packet
=
1
;
memcpy
(
p_buffer
+
i_len_tmp
,
p_sys
->
flv_packet
->
p_buffer
,
p_sys
->
flv_packet
->
i_buffer
);
block_FifoPut
(
p_sys
->
p_thread
->
p_empty_blocks
,
p_sys
->
flv_packet
);
i_len_tmp
+=
p_sys
->
flv_packet
->
i_buffer
;
}
else
{
p_sys
->
read_packet
=
0
;
memcpy
(
p_buffer
+
i_len_tmp
,
p_sys
->
flv_packet
->
p_buffer
,
i_len
-
i_len_tmp
);
p_sys
->
flv_packet
->
i_buffer
-=
i_len
-
i_len_tmp
;
memmove
(
p_sys
->
flv_packet
->
p_buffer
,
p_sys
->
flv_packet
->
p_buffer
+
i_len
-
i_len_tmp
,
p_sys
->
flv_packet
->
i_buffer
);
i_len_tmp
+=
i_len
-
i_len_tmp
;
}
}
if
(
i_len_tmp
>
0
)
{
if
(
p_sys
->
p_thread
->
result_publish
)
{
/* Send publish onStatus event only once */
p_sys
->
p_thread
->
result_publish
=
0
;
rtmp_packet
=
rtmp_build_publish_start
(
p_sys
->
p_thread
);
tmp_buffer
=
rtmp_encode_packet
(
p_sys
->
p_thread
,
rtmp_packet
);
i_ret
=
net_Write
(
p_sys
->
p_thread
,
p_sys
->
p_thread
->
fd
,
NULL
,
tmp_buffer
,
rtmp_packet
->
length_encoded
);
if
(
i_ret
!=
rtmp_packet
->
length_encoded
)
{
msg_Err
(
p_access
,
"failed send publish start"
);
goto
error
;
}
free
(
rtmp_packet
->
body
->
body
);
free
(
rtmp_packet
->
body
);
free
(
rtmp_packet
);
free
(
tmp_buffer
);
}
p_access
->
info
.
i_pos
+=
i_len_tmp
;
rtmp_packet
=
rtmp_build_bytes_read
(
p_sys
->
p_thread
,
p_access
->
info
.
i_pos
);
tmp_buffer
=
rtmp_encode_packet
(
p_sys
->
p_thread
,
rtmp_packet
);
i_ret
=
net_Write
(
p_sys
->
p_thread
,
p_sys
->
p_thread
->
fd
,
NULL
,
tmp_buffer
,
rtmp_packet
->
length_encoded
);
if
(
i_ret
!=
rtmp_packet
->
length_encoded
)
{
msg_Err
(
p_access
,
"failed send bytes read"
);
goto
error
;
}
free
(
rtmp_packet
->
body
->
body
);
free
(
rtmp_packet
->
body
);
free
(
rtmp_packet
);
free
(
tmp_buffer
);
}
return
i_len_tmp
;
error:
free
(
rtmp_packet
->
body
->
body
);
free
(
rtmp_packet
->
body
);
free
(
rtmp_packet
);
free
(
tmp_buffer
);
return
-
1
;
}
/*****************************************************************************
* Seek: seek to a specific location in a file
*****************************************************************************/
static
int
Seek
(
access_t
*
p_access
,
uint64_t
i_pos
)
{
VLC_UNUSED
(
p_access
);
VLC_UNUSED
(
i_pos
);
/*msg_Warn ( p_access, "Seek to %lld", i_pos);
switch( rtmp_seek( p_access, i_pos ) )
{
case -1:
return VLC_EGENERIC;
case 0:
break;
default:
msg_Err( p_access, "You should not be here" );
abort();
}
*/
return
VLC_EGENERIC
;
}
/*****************************************************************************
* Control:
*****************************************************************************/
static
int
Control
(
access_t
*
p_access
,
int
i_query
,
va_list
args
)
{
bool
*
pb_bool
;
int64_t
*
pi_64
;
switch
(
i_query
)
{
/* */
case
ACCESS_CAN_SEEK
:
case
ACCESS_CAN_FASTSEEK
:
pb_bool
=
(
bool
*
)
va_arg
(
args
,
bool
*
);
*
pb_bool
=
false
;
/* TODO */
break
;
case
ACCESS_CAN_PAUSE
:
pb_bool
=
(
bool
*
)
va_arg
(
args
,
bool
*
);
*
pb_bool
=
false
;
/* TODO */
break
;
case
ACCESS_CAN_CONTROL_PACE
:
pb_bool
=
(
bool
*
)
va_arg
(
args
,
bool
*
);
*
pb_bool
=
true
;
break
;
/* */
case
ACCESS_GET_PTS_DELAY
:
pi_64
=
(
int64_t
*
)
va_arg
(
args
,
int64_t
*
);
*
pi_64
=
INT64_C
(
1000
)
*
var_InheritInteger
(
p_access
,
"network-caching"
);
break
;
/* */
case
ACCESS_SET_PAUSE_STATE
:
/* Nothing to do */
break
;
case
ACCESS_GET_TITLE_INFO
:
case
ACCESS_SET_TITLE
:
case
ACCESS_SET_SEEKPOINT
:
case
ACCESS_SET_PRIVATE_ID_STATE
:
case
ACCESS_GET_META
:
case
ACCESS_GET_CONTENT_TYPE
:
/* DOWN: comment this line */
return
VLC_EGENERIC
;
default:
msg_Warn
(
p_access
,
"unimplemented query in control"
);
return
VLC_EGENERIC
;
}
return
VLC_SUCCESS
;
}
/*****************************************************************************
* ThreadControl: manage control messages and pipe media to Read
*****************************************************************************/
static
void
*
ThreadControl
(
void
*
p_this
)
{
rtmp_control_thread_t
*
p_thread
=
p_this
;
rtmp_packet_t
*
rtmp_packet
;
int
canc
=
vlc_savecancel
();
rtmp_init_handler
(
p_thread
->
rtmp_handler
);
for
(
;;
)
{
vlc_restorecancel
(
canc
);
rtmp_packet
=
rtmp_read_net_packet
(
p_thread
);
canc
=
vlc_savecancel
(
);
if
(
rtmp_packet
!=
NULL
)
{
if
(
rtmp_packet
->
content_type
<
0x01
/* RTMP_CONTENT_TYPE_CHUNK_SIZE */
||
rtmp_packet
->
content_type
>
0x14
)
/* RTMP_CONTENT_TYPE_INVOKE */
{
free
(
rtmp_packet
->
body
->
body
);
free
(
rtmp_packet
->
body
);
free
(
rtmp_packet
);
msg_Warn
(
p_thread
,
"unknown content type received"
);
}
else
p_thread
->
rtmp_handler
[
rtmp_packet
->
content_type
](
p_thread
,
rtmp_packet
);
}
else
{
/* Sometimes server close connection too soon */
if
(
p_thread
->
result_connect
)
{
#warning There must be a bug here!
vlc_mutex_lock
(
&
p_thread
->
lock
);
vlc_cond_signal
(
&
p_thread
->
wait
);
vlc_mutex_unlock
(
&
p_thread
->
lock
);
}
#warning info cannot be accessed outside input thread!
((
access_t
*
)
p_thread
->
p_base_object
)
->
info
.
b_eof
=
true
;
block_FifoWake
(
p_thread
->
p_fifo_input
);
break
;
}
}
vlc_restorecancel
(
canc
);
return
NULL
;
}
modules/access/rtmp/rtmp_amf_flv.c
deleted
100644 → 0
View file @
269bc558
/*****************************************************************************
* rtmp_amf_flv.c: RTMP, AMF and FLV over RTMP implementation.
*****************************************************************************
* Copyright (C) URJC - LADyR - Luis Lopez Fernandez
*
* Author: Miguel Angel Cabrera Moya
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA.
*****************************************************************************/
/*****************************************************************************
* RTMP header:
******************************************************************************/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include <vlc_common.h>
#include <vlc_access.h>
#include <vlc_network.h>
/* DOWN: #include <network.h> */
#include <vlc_url.h>
#include <vlc_block.h>
#include <vlc_rand.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include "rtmp_amf_flv.h"
/* header length (including itself) */
const
uint8_t
RTMP_HEADER_SIZE_MASK
=
0xC0
;
const
uint8_t
RTMP_HEADER_SIZE_12
=
0x00
;
const
uint8_t
RTMP_HEADER_SIZE_8
=
0x40
;
const
uint8_t
RTMP_HEADER_SIZE_4
=
0x80
;
const
uint8_t
RTMP_HEADER_SIZE_1
=
0xC0
;
/* streams */
const
uint8_t
RTMP_HEADER_STREAM_MAX
=
64
;
const
uint8_t
RTMP_HEADER_STREAM_INDEX_MASK
=
0x3F
;
/* handshake */
const
uint8_t
RTMP_HANDSHAKE
=
0x03
;
const
uint16_t
RTMP_HANDSHAKE_BODY_SIZE
=
1536
;
/* content types */
const
uint8_t
RTMP_CONTENT_TYPE_CHUNK_SIZE
=
0x01
;
const
uint8_t
RTMP_CONTENT_TYPE_UNKNOWN_02
=
0x02
;
const
uint8_t
RTMP_CONTENT_TYPE_BYTES_READ
=
0x03
;
const
uint8_t
RTMP_CONTENT_TYPE_PING
=
0x04
;
const
uint8_t
RTMP_CONTENT_TYPE_SERVER_BW
=
0x05
;
const
uint8_t
RTMP_CONTENT_TYPE_CLIENT_BW
=
0x06
;
const
uint8_t
RTMP_CONTENT_TYPE_UNKNOWN_07
=
0x07
;
const
uint8_t
RTMP_CONTENT_TYPE_AUDIO_DATA
=
0x08
;
const
uint8_t
RTMP_CONTENT_TYPE_VIDEO_DATA
=
0x09
;
const
uint8_t
RTMP_CONTENT_TYPE_UNKNOWN_0A_0E
=
0x0A
;
const
uint8_t
RTMP_CONTENT_TYPE_FLEX_STREAM
=
0x0F
;
const
uint8_t
RTMP_CONTENT_TYPE_FLEX_SHARED_OBJECT
=
0x10
;
const
uint8_t
RTMP_CONTENT_TYPE_MESSAGE
=
0x11
;
const
uint8_t
RTMP_CONTENT_TYPE_NOTIFY
=
0x12
;
const
uint8_t
RTMP_CONTENT_TYPE_SHARED_OBJECT
=
0x13
;
const
uint8_t
RTMP_CONTENT_TYPE_INVOKE
=
0x14
;
/* shared object datatypes */
const
uint8_t
RTMP_SHARED_OBJECT_DATATYPE_CONNECT
=
0x01
;
const
uint8_t
RTMP_SHARED_OBJECT_DATATYPE_DISCONNECT
=
0x02
;
const
uint8_t
RTMP_SHARED_OBJECT_DATATYPE_SET_ATTRIBUTE
=
0x03
;
const
uint8_t
RTMP_SHARED_OBJECT_DATATYPE_UPDATE_DATA
=
0x04
;
const
uint8_t
RTMP_SHARED_OBJECT_DATATYPE_UPDATE_ATTRIBUTE
=
0x05
;
const
uint8_t
RTMP_SHARED_OBJECT_DATATYPE_SEND_MESSAGE
=
0x06
;
const
uint8_t
RTMP_SHARED_OBJECT_DATATYPE_STATUS
=
0x07
;
const
uint8_t
RTMP_SHARED_OBJECT_DATATYPE_CLEAR_DATA
=
0x08
;
const
uint8_t
RTMP_SHARED_OBJECT_DATATYPE_DELETE_DATA
=
0x09
;
const
uint8_t
RTMP_SHARED_OBJECT_DATATYPE_DELETE_ATTRIBUTE
=
0x0A
;
const
uint8_t
RTMP_SHARED_OBJECT_DATATYPE_INITIAL_DATA
=
0x0B
;
/* pings */
const
uint16_t
RTMP_PING_CLEAR_STREAM
=
0x0000
;
const
uint16_t
RTMP_PING_CLEAR_PLAYING_BUFFER
=
0x0001
;
const
uint16_t
RTMP_PING_BUFFER_TIME_CLIENT
=
0x0003
;
const
uint16_t
RTMP_PING_RESET_STREAM
=
0x0004
;
const
uint16_t
RTMP_PING_CLIENT_FROM_SERVER
=
0x0006
;
const
uint16_t
RTMP_PING_PONG_FROM_CLIENT
=
0x0007
;
/* pings sizes */
const
uint8_t
RTMP_PING_SIZE_CLEAR_STREAM
=
6
;
const
uint8_t
RTMP_PING_SIZE_CLEAR_PLAYING_BUFFER
=
6
;
const
uint8_t
RTMP_PING_SIZE_BUFFER_TIME_CLIENT
=
10
;
const
uint8_t
RTMP_PING_SIZE_RESET_STREAM
=
6
;
/*const uint8_t RTMP_PING_SIZE_CLIENT_FROM_SERVER = 0x0006; TODO
const uint8_t RTMP_PING_SIZE_PONG_FROM_CLIENT = 0x0007;
*/
/* default values */
const
uint8_t
RTMP_DEFAULT_STREAM_INDEX_CONTROL
=
0x02
;
const
uint8_t
RTMP_DEFAULT_STREAM_INDEX_INVOKE
=
0x03
;
const
uint8_t
RTMP_DEFAULT_STREAM_INDEX_NOTIFY
=
0x04
;
const
uint8_t
RTMP_DEFAULT_STREAM_INDEX_VIDEO_DATA
=
0x05
;
const
uint8_t
RTMP_DEFAULT_STREAM_INDEX_AUDIO_DATA
=
0x06
;
const
uint32_t
RTMP_DEFAULT_CHUNK_SIZE
=
128
;
const
double
RTMP_DEFAULT_STREAM_CLIENT_ID
=
1
.
0
;
const
double
RTMP_DEFAULT_STREAM_SERVER_ID
=
1
.
0
;
/* misc */
const
uint16_t
MAX_EMPTY_BLOCKS
=
200
;
/* empty blocks in fifo for media*/
const
uint16_t
RTMP_BODY_SIZE_ALLOC
=
1024
;
const
uint32_t
RTMP_TIME_CLIENT_BUFFER
=
2000
;
/* milliseconds */
const
uint32_t
RTMP_SERVER_BW
=
0x00000200
;
const
uint32_t
RTMP_SRC_DST_CONNECT_OBJECT
=
0x00000000
;
const
uint32_t
RTMP_SRC_DST_CONNECT_OBJECT2
=
0x00000001
;
const
uint32_t
RTMP_SRC_DST_DEFAULT
=
0x01000000
;
const
uint64_t
RTMP_AUDIOCODECS
=
0x4083380000000000
;
const
uint64_t
RTMP_VIDEOCODECS
=
0x405f000000000000
;
const
uint64_t
RTMP_VIDEOFUNCTION
=
0x3ff0000000000000
;
/*****************************************************************************
* AMF header:
******************************************************************************/
/* boolean constants */
const
uint8_t
AMF_BOOLEAN_FALSE
=
0x00
;
const
uint8_t
AMF_BOOLEAN_TRUE
=
0x01
;
/* datatypes */
const
uint8_t
AMF_DATATYPE_NUMBER
=
0x00
;
const
uint8_t
AMF_DATATYPE_BOOLEAN
=
0x01
;
const
uint8_t
AMF_DATATYPE_STRING
=
0x02
;
const
uint8_t
AMF_DATATYPE_OBJECT
=
0x03
;
const
uint8_t
AMF_DATATYPE_MOVIE_CLIP
=
0x04
;
const
uint8_t
AMF_DATATYPE_NULL
=
0x05
;
const
uint8_t
AMF_DATATYPE_UNDEFINED
=
0x06
;
const
uint8_t
AMF_DATATYPE_REFERENCE
=
0x07
;
const
uint8_t
AMF_DATATYPE_MIXED_ARRAY
=
0x08
;
const
uint8_t
AMF_DATATYPE_END_OF_OBJECT
=
0x09
;
const
uint8_t
AMF_DATATYPE_ARRAY
=
0x0A
;
const
uint8_t
AMF_DATATYPE_DATE
=
0x0B
;
const
uint8_t
AMF_DATATYPE_LONG_STRING
=
0x0C
;
const
uint8_t
AMF_DATATYPE_UNSUPPORTED
=
0x0D
;
const
uint8_t
AMF_DATATYPE_RECORDSET
=
0x0E
;
const
uint8_t
AMF_DATATYPE_XML
=
0x0F
;
const
uint8_t
AMF_DATATYPE_TYPED_OBJECT
=
0x10
;
const
uint8_t
AMF_DATATYPE_AMF3_DATA
=
0x11
;
/* datatypes sizes */
const
uint8_t
AMF_DATATYPE_SIZE_NUMBER
=
9
;
const
uint8_t
AMF_DATATYPE_SIZE_BOOLEAN
=
2
;
const
uint8_t
AMF_DATATYPE_SIZE_STRING
=
3
;
const
uint8_t
AMF_DATATYPE_SIZE_OBJECT
=
1
;
const
uint8_t
AMF_DATATYPE_SIZE_NULL
=
1
;
const
uint8_t
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
=
2
;
const
uint8_t
AMF_DATATYPE_SIZE_MIXED_ARRAY
=
5
;
const
uint8_t
AMF_DATATYPE_SIZE_END_OF_OBJECT
=
3
;
/* amf remote calls */
const
uint64_t
AMF_CALL_NETCONNECTION_CONNECT
=
0x3FF0000000000000
;
const
uint64_t
AMF_CALL_NETCONNECTION_CONNECT_AUDIOCODECS
=
0x4083380000000000
;
const
uint64_t
AMF_CALL_NETCONNECTION_CONNECT_VIDEOCODECS
=
0x405F000000000000
;
const
uint64_t
AMF_CALL_NETCONNECTION_CONNECT_VIDEOFUNCTION
=
0x3FF0000000000000
;
const
uint64_t
AMF_CALL_NETCONNECTION_CONNECT_OBJECTENCODING
=
0x0
;
const
double
AMF_CALL_STREAM_CLIENT_NUMBER
=
3
.
0
;
const
double
AMF_CALL_ONBWDONE
=
2
.
0
;
const
uint64_t
AMF_CALL_NETSTREAM_PLAY
=
0x0
;
/*****************************************************************************
* FLV header:
******************************************************************************/
const
uint8_t
FLV_HEADER_SIGNATURE
[
3
]
=
{
0x46
,
0x4C
,
0x56
};
/* always "FLV" */
const
uint8_t
FLV_HEADER_VERSION
=
0x01
;
const
uint8_t
FLV_HEADER_AUDIO
=
0x04
;
const
uint8_t
FLV_HEADER_VIDEO
=
0x01
;
const
uint32_t
FLV_HEADER_SIZE
=
0x00000009
;
/* always 9 for known FLV files */
const
uint32_t
FLV_TAG_FIRST_PREVIOUS_TAG_SIZE
=
0x00000000
;
const
uint8_t
FLV_TAG_PREVIOUS_TAG_SIZE
=
4
;
const
uint8_t
FLV_TAG_SIZE
=
11
;
/* audio stereo types */
const
uint8_t
FLV_AUDIO_STEREO_MASK
=
0x01
;
const
uint8_t
FLV_AUDIO_STEREO_MONO
=
0x00
;
const
uint8_t
FLV_AUDIO_STEREO_STEREO
=
0x01
;
/* audio size */
const
uint8_t
FLV_AUDIO_SIZE_MASK
=
0x02
;
const
uint8_t
FLV_AUDIO_SIZE_8_BIT
=
0x00
;
const
uint8_t
FLV_AUDIO_SIZE_16_BIT
=
0x02
;
/* audio rate */
const
uint8_t
FLV_AUDIO_RATE_MASK
=
0x0C
;
const
uint8_t
FLV_AUDIO_RATE_5_5_KHZ
=
0x00
;
const
uint8_t
FLV_AUDIO_RATE_11_KHZ
=
0x04
;
const
uint8_t
FLV_AUDIO_RATE_22_KHZ
=
0x08
;
const
uint8_t
FLV_AUDIO_RATE_44_KHZ
=
0x0C
;
/* audio codec types */
const
uint8_t
FLV_AUDIO_CODEC_ID_MASK
=
0xF0
;
const
uint8_t
FLV_AUDIO_CODEC_ID_UNCOMPRESSED
=
0x00
;
const
uint8_t
FLV_AUDIO_CODEC_ID_ADPCM
=
0x10
;
const
uint8_t
FLV_AUDIO_CODEC_ID_MP3
=
0x20
;
const
uint8_t
FLV_AUDIO_CODEC_ID_NELLYMOSER_8KHZ_MONO
=
0x50
;
const
uint8_t
FLV_AUDIO_CODEC_ID_NELLYMOSER
=
0x60
;
/* video codec types */
const
uint8_t
FLV_VIDEO_CODEC_ID_MASK
=
0x0F
;
const
uint8_t
FLV_VIDEO_CODEC_ID_SORENSEN_H263
=
0x02
;
const
uint8_t
FLV_VIDEO_CODEC_ID_SCREEN_VIDEO
=
0x03
;
const
uint8_t
FLV_VIDEO_CODEC_ID_ON2_VP6
=
0x04
;
const
uint8_t
FLV_VIDEO_CODEC_ID_ON2_VP6_ALPHA
=
0x05
;
const
uint8_t
FLV_VIDEO_CODEC_ID_SCREEN_VIDEO_2
=
0x06
;
/* video frame types */
const
uint8_t
FLV_VIDEO_FRAME_TYPE_MASK
=
0xF0
;
const
uint8_t
FLV_VIDEO_FRAME_TYPE_KEYFRAME
=
0x10
;
const
uint8_t
FLV_VIDEO_FRAME_TYPE_INTER_FRAME
=
0x20
;
const
uint8_t
FLV_VIDEO_FRAME_TYPE_DISPOSABLE_INTER_FRAME
=
0x30
;
/*****************************************************************************
* static RTMP functions:
******************************************************************************/
static
rtmp_packet_t
*
rtmp_new_packet
(
rtmp_control_thread_t
*
p_thread
,
uint8_t
stream_index
,
uint32_t
timestamp
,
uint8_t
content_type
,
uint32_t
src_dst
,
rtmp_body_t
*
body
);
static
block_t
*
rtmp_new_block
(
rtmp_control_thread_t
*
p_thread
,
uint8_t
*
buffer
,
int32_t
length_buffer
);
static
rtmp_packet_t
*
rtmp_encode_onBWDone
(
rtmp_control_thread_t
*
p_thread
,
double
number
);
static
rtmp_packet_t
*
rtmp_encode_server_bw
(
rtmp_control_thread_t
*
p_thread
,
uint32_t
number
);
static
rtmp_packet_t
*
rtmp_encode_NetConnection_connect_result
(
rtmp_control_thread_t
*
p_thread
,
double
number
);
static
rtmp_packet_t
*
rtmp_encode_createStream_result
(
rtmp_control_thread_t
*
p_thread
,
double
stream_client
,
double
stream_server
);
static
rtmp_packet_t
*
rtmp_encode_ping_reset_stream
(
rtmp_control_thread_t
*
p_thread
);
static
rtmp_packet_t
*
rtmp_encode_ping_clear_stream
(
rtmp_control_thread_t
*
p_thread
,
uint32_t
src_dst
);
static
rtmp_packet_t
*
rtmp_encode_NetStream_play_reset_onStatus
(
rtmp_control_thread_t
*
p_thread
,
char
*
psz_media
);
static
rtmp_packet_t
*
rtmp_encode_NetStream_play_start_onStatus
(
rtmp_control_thread_t
*
p_thread
,
char
*
psz_media
);
static
uint8_t
rtmp_encode_header_size
(
vlc_object_t
*
p_this
,
uint8_t
header_size
);
static
uint8_t
rtmp_decode_header_size
(
vlc_object_t
*
p_this
,
uint8_t
header_size
);
static
uint8_t
rtmp_get_stream_index
(
uint8_t
content_type
);
static
void
rtmp_body_append
(
rtmp_body_t
*
rtmp_body
,
uint8_t
*
buffer
,
uint32_t
length
);
static
uint8_t
*
rtmp_encode_ping
(
uint16_t
type
,
uint32_t
src_dst
,
uint32_t
third_arg
,
uint32_t
fourth_arg
);
/*****************************************************************************
* static AMF functions:
******************************************************************************/
static
uint8_t
*
amf_encode_element
(
uint8_t
element
,
const
void
*
value
);
static
uint8_t
*
amf_encode_object_variable
(
const
char
*
key
,
uint8_t
element
,
const
void
*
value
);
static
double
amf_decode_number
(
uint8_t
**
buffer
);
static
int
amf_decode_boolean
(
uint8_t
**
buffer
);
static
char
*
amf_decode_string
(
uint8_t
**
buffer
);
static
char
*
amf_decode_object
(
uint8_t
**
buffer
);
/*****************************************************************************
* static FLV functions:
******************************************************************************/
static
void
flv_rebuild
(
rtmp_control_thread_t
*
p_thread
,
rtmp_packet_t
*
rtmp_packet
);
static
void
flv_get_metadata_audio
(
rtmp_control_thread_t
*
p_thread
,
rtmp_packet_t
*
packet_audio
,
uint8_t
*
stereo
,
uint8_t
*
audiosamplesize
,
uint32_t
*
audiosamplerate
,
uint8_t
*
audiocodecid
);
static
void
flv_get_metadata_video
(
rtmp_control_thread_t
*
p_thread
,
rtmp_packet_t
*
packet_video
,
uint8_t
*
videocodecid
,
uint8_t
*
frametype
);
static
rtmp_packet_t
*
flv_build_onMetaData
(
access_t
*
p_access
,
uint64_t
duration
,
uint8_t
stereo
,
uint8_t
audiosamplesize
,
uint32_t
audiosamplerate
,
uint8_t
audiocodecid
,
uint8_t
videocodecid
);
/*****************************************************************************
* RTMP implementation:
******************************************************************************/
int
rtmp_handshake_passive
(
vlc_object_t
*
p_this
,
int
fd
)
{
uint8_t
p_read
[
RTMP_HANDSHAKE_BODY_SIZE
+
1
];
uint8_t
p_write
[
RTMP_HANDSHAKE_BODY_SIZE
*
2
+
1
];
ssize_t
i_ret
;
int
i
;
/* Receive handshake */
i_ret
=
net_Read
(
p_this
,
fd
,
NULL
,
p_read
,
RTMP_HANDSHAKE_BODY_SIZE
+
1
,
true
);
if
(
i_ret
!=
RTMP_HANDSHAKE_BODY_SIZE
+
1
)
{
msg_Err
(
p_this
,
"failed to receive handshake"
);
return
-
1
;
}
/* Check handshake */
if
(
p_read
[
0
]
!=
RTMP_HANDSHAKE
)
{
msg_Err
(
p_this
,
"first byte in handshake corrupt"
);
return
-
1
;
}
/* Answer handshake */
p_write
[
0
]
=
RTMP_HANDSHAKE
;
memset
(
p_write
+
1
,
0
,
RTMP_HANDSHAKE_BODY_SIZE
);
memcpy
(
p_write
+
1
+
RTMP_HANDSHAKE_BODY_SIZE
,
p_read
+
1
,
RTMP_HANDSHAKE_BODY_SIZE
);
/* Send handshake*/
i_ret
=
net_Write
(
p_this
,
fd
,
NULL
,
p_write
,
RTMP_HANDSHAKE_BODY_SIZE
*
2
+
1
);
if
(
i_ret
!=
RTMP_HANDSHAKE_BODY_SIZE
*
2
+
1
)
{
msg_Err
(
p_this
,
"failed to send handshake"
);
return
-
1
;
}
/* Receive acknowledge */
i_ret
=
net_Read
(
p_this
,
fd
,
NULL
,
p_read
,
RTMP_HANDSHAKE_BODY_SIZE
,
true
);
if
(
i_ret
!=
RTMP_HANDSHAKE_BODY_SIZE
)
{
msg_Err
(
p_this
,
"failed to receive acknowledge"
);
return
-
1
;
}
/* Check acknowledge */
for
(
i
=
8
;
i
<
RTMP_HANDSHAKE_BODY_SIZE
;
i
++
)
if
(
p_write
[
i
+
1
]
!=
p_read
[
i
]
)
{
msg_Err
(
p_this
,
"body acknowledge received corrupt"
);
return
-
1
;
}
return
0
;
}
int
rtmp_handshake_active
(
vlc_object_t
*
p_this
,
int
fd
)
{
uint8_t
p_read
[
RTMP_HANDSHAKE_BODY_SIZE
*
2
+
1
];
uint8_t
p_write
[
RTMP_HANDSHAKE_BODY_SIZE
+
1
];
ssize_t
i_ret
;
int
i
;
p_write
[
0
]
=
RTMP_HANDSHAKE
;
for
(
i
=
0
;
i
<
8
;
i
++
)
p_write
[
i
+
1
]
=
0x00
;
vlc_rand_bytes
(
p_write
+
1
+
8
,
RTMP_HANDSHAKE_BODY_SIZE
-
8
);
/* Send handshake*/
i_ret
=
net_Write
(
p_this
,
fd
,
NULL
,
p_write
,
RTMP_HANDSHAKE_BODY_SIZE
+
1
);
if
(
i_ret
!=
RTMP_HANDSHAKE_BODY_SIZE
+
1
)
{
msg_Err
(
p_this
,
"failed to send handshake"
);
return
-
1
;
}
/* Receive handshake */
i_ret
=
net_Read
(
p_this
,
fd
,
NULL
,
p_read
,
RTMP_HANDSHAKE_BODY_SIZE
*
2
+
1
,
true
);
if
(
i_ret
!=
RTMP_HANDSHAKE_BODY_SIZE
*
2
+
1
)
{
msg_Err
(
p_this
,
"failed to receive handshake"
);
return
-
1
;
}
/* Check handshake */
if
(
p_read
[
0
]
!=
RTMP_HANDSHAKE
)
{
msg_Err
(
p_this
,
"first byte in handshake received corrupt"
);
return
-
1
;
}
for
(
i
=
8
;
i
<
RTMP_HANDSHAKE_BODY_SIZE
;
i
++
)
if
(
p_write
[
i
+
1
]
!=
p_read
[
i
+
1
+
RTMP_HANDSHAKE_BODY_SIZE
]
)
{
msg_Err
(
p_this
,
"body handshake received corrupt"
);
return
-
1
;
}
/* Acknowledge handshake */
i_ret
=
net_Write
(
p_this
,
fd
,
NULL
,
p_read
+
1
,
RTMP_HANDSHAKE_BODY_SIZE
);
if
(
i_ret
!=
RTMP_HANDSHAKE_BODY_SIZE
)
{
msg_Err
(
p_this
,
"failed to acknowledge handshake"
);
return
-
1
;
}
return
0
;
}
static
int
write_rtmp
(
rtmp_control_thread_t
*
p_thread
,
uint8_t
*
buf
,
rtmp_packet_t
*
pkt
,
const
char
*
errmsg
)
{
int32_t
enclen
=
pkt
->
length_encoded
;
int
ret
=
net_Write
(
p_thread
,
p_thread
->
fd
,
NULL
,
buf
,
enclen
);
free
(
pkt
->
body
->
body
);
free
(
pkt
->
body
);
free
(
pkt
);
free
(
buf
);
if
(
ret
!=
enclen
)
{
msg_Err
(
p_thread
,
"%s"
,
errmsg
);
return
0
;
}
return
1
;
}
int
rtmp_connect_active
(
rtmp_control_thread_t
*
p_thread
)
{
rtmp_packet_t
*
rtmp_packet
;
rtmp_body_t
*
rtmp_body
;
uint8_t
*
tmp_buffer
;
char
*
tmp_url
;
/* Build NetConnection.connect call */
rtmp_body
=
rtmp_body_new
(
-
1
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_STRING
,
"connect"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"connect"
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NUMBER
,
&
AMF_CALL_NETCONNECTION_CONNECT
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_OBJECT
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"app"
,
AMF_DATATYPE_STRING
,
p_thread
->
psz_application
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"app"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
p_thread
->
psz_application
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"flashVer"
,
AMF_DATATYPE_STRING
,
"LNX 9,0,48,0"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"flashVer"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"LNX 9,0,48,0"
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"swfUrl"
,
AMF_DATATYPE_STRING
,
p_thread
->
psz_swf_url
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"swfUrl"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
p_thread
->
psz_swf_url
)
);
free
(
tmp_buffer
);
if
(
asprintf
(
&
tmp_url
,
"rtmp://%s"
,
p_thread
->
url
.
psz_buffer
)
==
-
1
)
{
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
return
-
1
;
}
tmp_buffer
=
amf_encode_object_variable
(
"tcUrl"
,
AMF_DATATYPE_STRING
,
tmp_url
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"tcUrl"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
tmp_url
)
);
free
(
tmp_url
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"fpad"
,
AMF_DATATYPE_BOOLEAN
,
&
AMF_BOOLEAN_FALSE
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"fpad"
)
+
AMF_DATATYPE_SIZE_BOOLEAN
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"audioCodecs"
,
AMF_DATATYPE_NUMBER
,
&
AMF_CALL_NETCONNECTION_CONNECT_AUDIOCODECS
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"audioCodecs"
)
+
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"videoCodecs"
,
AMF_DATATYPE_NUMBER
,
&
AMF_CALL_NETCONNECTION_CONNECT_VIDEOCODECS
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"videoCodecs"
)
+
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"videoFunction"
,
AMF_DATATYPE_NUMBER
,
&
AMF_CALL_NETCONNECTION_CONNECT_VIDEOFUNCTION
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"videoFunction"
)
+
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"pageUrl"
,
AMF_DATATYPE_STRING
,
p_thread
->
psz_page_url
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"pageUrl"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
p_thread
->
psz_page_url
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"objectEncoding"
,
AMF_DATATYPE_NUMBER
,
&
AMF_CALL_NETCONNECTION_CONNECT_OBJECTENCODING
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"objectEncoding"
)
+
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_END_OF_OBJECT
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_END_OF_OBJECT
);
free
(
tmp_buffer
);
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_INVOKE
,
0
,
RTMP_CONTENT_TYPE_INVOKE
,
0
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
tmp_buffer
=
rtmp_encode_packet
(
p_thread
,
rtmp_packet
);
/* Call NetConnection.connect */
if
(
!
write_rtmp
(
p_thread
,
tmp_buffer
,
rtmp_packet
,
"failed send call NetConnection.connect"
)
)
return
-
1
;
/* Wait for NetConnection.connect result */
vlc_mutex_lock
(
&
p_thread
->
lock
);
vlc_cond_wait
(
&
p_thread
->
wait
,
&
p_thread
->
lock
);
vlc_mutex_unlock
(
&
p_thread
->
lock
);
if
(
p_thread
->
result_connect
)
{
msg_Err
(
p_thread
,
"failed call NetConnection.connect"
);
return
-
1
;
}
/* Force control thread to stop if receive NetStream.play call and wait is not ready */
vlc_mutex_lock
(
&
p_thread
->
lock
);
/* Build NetStream.createStream call */
rtmp_body
=
rtmp_body_new
(
-
1
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_STRING
,
"createStream"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"createStream"
)
);
free
(
tmp_buffer
);
p_thread
->
stream_client_id
=
RTMP_DEFAULT_STREAM_CLIENT_ID
;
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NUMBER
,
&
AMF_CALL_STREAM_CLIENT_NUMBER
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NULL
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NULL
);
free
(
tmp_buffer
);
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_INVOKE
,
0
,
RTMP_CONTENT_TYPE_INVOKE
,
0
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
tmp_buffer
=
rtmp_encode_packet
(
p_thread
,
rtmp_packet
);
/* Call NetStream.createStream */
if
(
!
write_rtmp
(
p_thread
,
tmp_buffer
,
rtmp_packet
,
"failed send call NetStream.createStream"
)
)
return
-
1
;
/*TODO: read server stream number*/
/* Build ping packet */
rtmp_body
=
rtmp_body_new
(
-
1
);
tmp_buffer
=
rtmp_encode_ping
(
RTMP_PING_BUFFER_TIME_CLIENT
,
RTMP_SRC_DST_CONNECT_OBJECT
,
RTMP_TIME_CLIENT_BUFFER
,
0
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
RTMP_PING_SIZE_BUFFER_TIME_CLIENT
);
free
(
tmp_buffer
);
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_CONTROL
,
0
,
RTMP_CONTENT_TYPE_PING
,
0
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
tmp_buffer
=
rtmp_encode_packet
(
p_thread
,
rtmp_packet
);
/* Send ping packet */
if
(
!
write_rtmp
(
p_thread
,
tmp_buffer
,
rtmp_packet
,
"failed send ping BUFFER_TIME_CLIENT"
)
)
return
-
1
;
/* Build NetStream.play call */
rtmp_body
=
rtmp_body_new
(
-
1
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_STRING
,
"play"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"play"
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NUMBER
,
&
AMF_CALL_NETSTREAM_PLAY
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NULL
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NULL
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_STRING
,
p_thread
->
psz_media
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_STRING
+
strlen
(
p_thread
->
psz_media
)
);
free
(
tmp_buffer
);
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_INVOKE
,
0
,
RTMP_CONTENT_TYPE_INVOKE
,
RTMP_SRC_DST_DEFAULT
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
tmp_buffer
=
rtmp_encode_packet
(
p_thread
,
rtmp_packet
);
/* Call NetStream.play */
if
(
!
write_rtmp
(
p_thread
,
tmp_buffer
,
rtmp_packet
,
"failed send call NetStream.play"
)
)
return
-
1
;
/* Build ping packet */
rtmp_body
=
rtmp_body_new
(
-
1
);
tmp_buffer
=
rtmp_encode_ping
(
RTMP_PING_BUFFER_TIME_CLIENT
,
RTMP_SRC_DST_CONNECT_OBJECT2
,
RTMP_TIME_CLIENT_BUFFER
,
0
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
RTMP_PING_SIZE_BUFFER_TIME_CLIENT
);
free
(
tmp_buffer
);
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_CONTROL
,
0
,
RTMP_CONTENT_TYPE_PING
,
0
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
tmp_buffer
=
rtmp_encode_packet
(
p_thread
,
rtmp_packet
);
/* Send ping packet */
if
(
!
write_rtmp
(
p_thread
,
tmp_buffer
,
rtmp_packet
,
"failed send ping BUFFER_TIME_CLIENT"
)
)
return
-
1
;
/* Wait for NetStream.play.start result */
vlc_cond_wait
(
&
p_thread
->
wait
,
&
p_thread
->
lock
);
vlc_mutex_unlock
(
&
p_thread
->
lock
);
if
(
p_thread
->
result_play
)
{
msg_Err
(
p_thread
,
"failed call NetStream.play"
);
return
-
1
;
}
/* Next packet is the beginning of flv stream */
msg_Dbg
(
p_thread
,
"next packet is the beginning of flv stream"
);
return
0
;
}
int
rtmp_connect_passive
(
rtmp_control_thread_t
*
p_thread
)
{
/* Force control thread to stop if receive NetStream.play call and wait is not ready */
vlc_mutex_lock
(
&
p_thread
->
lock
);
/* Wait for NetStream.play.start result */
vlc_cond_wait
(
&
p_thread
->
wait
,
&
p_thread
->
lock
);
vlc_mutex_unlock
(
&
p_thread
->
lock
);
if
(
p_thread
->
result_play
)
{
msg_Err
(
p_thread
,
"failed call NetStream.play"
);
return
-
1
;
}
return
0
;
}
static
void
rtmp_packet_free
(
rtmp_packet_t
*
pkt
)
{
free
(
pkt
->
body
->
body
);
free
(
pkt
->
body
);
free
(
pkt
);
}
/* TODO
int
rtmp_seek( access_t *p_access, int64_t i_pos )
{
access_sys_t *p_sys = p_access->p_sys;
rtmp_packet_t *rtmp_packet;
rtmp_body_t *rtmp_body;
uint8_t *tmp_buffer;
uint64_t tmp_number;
ssize_t i_ret;
msg_Warn(p_access, "i_pos %lld", i_pos);
// Build NetStream.seek call //
rtmp_body = rtmp_body_new();
tmp_buffer = amf_encode_element( AMF_DATATYPE_STRING, "seek" );
rtmp_body_append( rtmp_body, tmp_buffer,
AMF_DATATYPE_SIZE_STRING + strlen( "seek" ) );
free( tmp_buffer );
tmp_number = 0;
tmp_buffer = amf_encode_element( AMF_DATATYPE_NUMBER,
&tmp_number );
rtmp_body_append( rtmp_body, tmp_buffer, AMF_DATATYPE_SIZE_NUMBER );
free( tmp_buffer );
tmp_buffer = amf_encode_element( AMF_DATATYPE_NULL, NULL );
rtmp_body_append( rtmp_body, tmp_buffer, AMF_DATATYPE_SIZE_NULL );
free( tmp_buffer );
//TODO: convert i_pos to double and see if they are milliseconds
tmp_buffer = amf_encode_element( AMF_DATATYPE_NUMBER,
&i_pos );
rtmp_body_append( rtmp_body, tmp_buffer, AMF_DATATYPE_SIZE_NUMBER );
free( tmp_buffer );
rtmp_packet = rtmp_new_packet( p_sys->p_thread, RTMP_DEFAULT_STREAM_INDEX_INVOKE,
0, RTMP_DATATYPE_INVOKE, RTMP_SRC_DST_DEFAULT, rtmp_body );
free( rtmp_body->body );
free( rtmp_body );
tmp_buffer = rtmp_encode_packet( p_access, rtmp_packet );
// Call NetStream.seek //
if( !write_rtmp( p_thread, tmp_buffer, rtmp_packet,
"failed call NetStream.seek" ) )
return -1;
// Receive TODO: see what //
rtmp_packet = rtmp_read_net_packet( p_access, p_sys->fd );
rtmp_packet_free( rtmp_packet );
return 0;
}
*/
rtmp_packet_t
*
rtmp_build_bytes_read
(
rtmp_control_thread_t
*
p_thread
,
uint32_t
reply
)
{
rtmp_packet_t
*
rtmp_packet
;
rtmp_body_t
*
rtmp_body
;
uint8_t
*
tmp_buffer
;
/* Build bytes read packet */
rtmp_body
=
rtmp_body_new
(
-
1
);
tmp_buffer
=
(
uint8_t
*
)
malloc
(
sizeof
(
uint32_t
)
);
if
(
!
tmp_buffer
)
return
NULL
;
reply
=
hton32
(
reply
);
memcpy
(
tmp_buffer
,
&
reply
,
sizeof
(
uint32_t
)
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
sizeof
(
uint32_t
)
);
free
(
tmp_buffer
);
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_CONTROL
,
0
,
RTMP_CONTENT_TYPE_BYTES_READ
,
0
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
return
rtmp_packet
;
}
rtmp_packet_t
*
rtmp_build_publish_start
(
rtmp_control_thread_t
*
p_thread
)
{
rtmp_packet_t
*
rtmp_packet
;
rtmp_body_t
*
rtmp_body
;
uint8_t
*
tmp_buffer
;
/* Build publish start event */
rtmp_body
=
rtmp_body_new
(
-
1
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_STRING
,
"onStatus"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"onStatus"
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NUMBER
,
&
p_thread
->
stream_server_id
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NULL
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NULL
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_OBJECT
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"level"
,
AMF_DATATYPE_STRING
,
"status"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"level"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"status"
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"code"
,
AMF_DATATYPE_STRING
,
"NetStream.Publish.Start"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"code"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"NetStream.Publish.Start"
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"description"
,
AMF_DATATYPE_STRING
,
""
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"description"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
""
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"details"
,
AMF_DATATYPE_STRING
,
p_thread
->
psz_publish
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"details"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
p_thread
->
psz_publish
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"clientid"
,
AMF_DATATYPE_NUMBER
,
&
p_thread
->
stream_client_id
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"clientid"
)
+
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_END_OF_OBJECT
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_END_OF_OBJECT
);
free
(
tmp_buffer
);
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_INVOKE
,
0
,
RTMP_CONTENT_TYPE_INVOKE
,
0
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
return
rtmp_packet
;
}
rtmp_packet_t
*
rtmp_build_flv_over_rtmp
(
rtmp_control_thread_t
*
p_thread
,
block_t
*
p_buffer
)
{
rtmp_packet_t
*
rtmp_packet
;
if
(
p_thread
->
flv_length_body
>
0
)
{
p_thread
->
flv_length_body
-=
p_buffer
->
i_buffer
;
rtmp_body_append
(
p_thread
->
flv_body
,
p_buffer
->
p_buffer
,
p_buffer
->
i_buffer
);
if
(
p_thread
->
flv_length_body
>
0
)
return
NULL
;
}
else
{
p_thread
->
flv_content_type
=
*
p_buffer
->
p_buffer
;
p_buffer
->
p_buffer
[
0
]
=
0
;
p_thread
->
flv_length_body
=
ntoh32
(
*
(
uint32_t
*
)
(
p_buffer
->
p_buffer
)
);
p_buffer
->
p_buffer
[
3
]
=
0
;
p_thread
->
flv_timestamp
=
ntoh32
(
*
(
uint32_t
*
)
(
p_buffer
->
p_buffer
+
3
)
);
}
if
(
p_thread
->
flv_length_body
>
p_buffer
->
i_buffer
-
FLV_TAG_SIZE
-
FLV_TAG_PREVIOUS_TAG_SIZE
)
{
p_thread
->
flv_length_body
-=
p_buffer
->
i_buffer
-
FLV_TAG_SIZE
-
FLV_TAG_PREVIOUS_TAG_SIZE
;
rtmp_body_append
(
p_thread
->
flv_body
,
p_buffer
->
p_buffer
+
FLV_TAG_SIZE
,
p_buffer
->
i_buffer
-
FLV_TAG_SIZE
);
return
NULL
;
}
else
{
rtmp_body_append
(
p_thread
->
flv_body
,
p_buffer
->
p_buffer
+
FLV_TAG_SIZE
,
p_thread
->
flv_length_body
);
}
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
rtmp_get_stream_index
(
p_thread
->
flv_content_type
),
p_thread
->
flv_timestamp
,
p_thread
->
flv_content_type
,
RTMP_SRC_DST_DEFAULT
,
p_thread
->
flv_body
);
p_thread
->
flv_length_body
=
0
;
rtmp_body_reset
(
p_thread
->
flv_body
);
return
rtmp_packet
;
}
/* This function must be cancellation-safe! */
rtmp_packet_t
*
rtmp_read_net_packet
(
rtmp_control_thread_t
*
p_thread
)
{
int
length_header
;
int
stream_index
;
size_t
bytes_left
;
uint8_t
p_read
[
12
];
rtmp_packet_t
*
header
;
ssize_t
i_ret
;
for
(;;)
{
i_ret
=
net_Read
(
p_thread
,
p_thread
->
fd
,
NULL
,
p_read
,
1
,
true
);
if
(
i_ret
!=
1
)
goto
error
;
length_header
=
rtmp_decode_header_size
(
VLC_OBJECT
(
p_thread
),
p_read
[
0
]
&
RTMP_HEADER_SIZE_MASK
);
stream_index
=
p_read
[
0
]
&
RTMP_HEADER_STREAM_INDEX_MASK
;
header
=
p_thread
->
rtmp_headers_recv
+
stream_index
;
i_ret
=
net_Read
(
p_thread
,
p_thread
->
fd
,
NULL
,
p_read
+
1
,
length_header
-
1
,
true
);
if
(
i_ret
!=
length_header
-
1
)
goto
error
;
/* Update timestamp if not is an interchunk packet */
if
(
length_header
==
1
&&
header
->
body
==
NULL
)
{
header
->
timestamp
+=
header
->
timestamp_relative
;
}
/* Length 4 and 8 headers have relative timestamp */
if
(
length_header
==
4
||
length_header
==
8
)
{
p_read
[
0
]
=
0
;
header
->
timestamp_relative
=
ntoh32
(
*
(
uint32_t
*
)
p_read
);
header
->
timestamp
+=
header
->
timestamp_relative
;
}
if
(
length_header
>=
8
)
{
p_read
[
3
]
=
0
;
header
->
length_body
=
ntoh32
(
*
(
uint32_t
*
)
(
p_read
+
3
)
);
header
->
content_type
=
p_read
[
7
];
}
/* Length 12 headers have absolute timestamp */
if
(
length_header
>=
12
)
{
p_read
[
0
]
=
0
;
header
->
timestamp
=
ntoh32
(
*
(
uint32_t
*
)
p_read
);
header
->
src_dst
=
ntoh32
(
*
(
uint32_t
*
)
(
p_read
+
8
)
);
}
if
(
header
->
body
==
NULL
)
{
header
->
body
=
rtmp_body_new
(
header
->
length_body
);
}
bytes_left
=
header
->
body
->
length_buffer
-
header
->
body
->
length_body
;
if
(
bytes_left
>
p_thread
->
chunk_size_recv
)
bytes_left
=
p_thread
->
chunk_size_recv
;
i_ret
=
net_Read
(
p_thread
,
p_thread
->
fd
,
NULL
,
header
->
body
->
body
+
header
->
body
->
length_body
,
bytes_left
,
true
);
if
(
i_ret
!=
(
ssize_t
)
bytes_left
)
goto
error
;
header
->
body
->
length_body
+=
bytes_left
;
if
(
header
->
length_body
==
header
->
body
->
length_body
)
{
rtmp_packet_t
*
rpkt
=
(
rtmp_packet_t
*
)
malloc
(
sizeof
(
rtmp_packet_t
));
if
(
!
rpkt
)
return
NULL
;
rpkt
->
stream_index
=
stream_index
;
rpkt
->
timestamp
=
header
->
timestamp
;
rpkt
->
timestamp_relative
=
header
->
timestamp_relative
;
rpkt
->
content_type
=
header
->
content_type
;
rpkt
->
src_dst
=
header
->
src_dst
;
rpkt
->
length_body
=
header
->
length_body
;
rpkt
->
body
=
header
->
body
;
header
->
body
=
NULL
;
return
rpkt
;
}
}
error:
msg_Err
(
p_thread
,
"rtmp_read_net_packet: net_Read error"
);
return
NULL
;
}
static
void
rtmp_handler_null
(
rtmp_control_thread_t
*
p_thread
,
rtmp_packet_t
*
rtmp_packet
)
{
VLC_UNUSED
(
p_thread
);
rtmp_packet_free
(
rtmp_packet
);
}
static
void
rtmp_handler_chunk_size
(
rtmp_control_thread_t
*
p_thread
,
rtmp_packet_t
*
rtmp_packet
)
{
p_thread
->
chunk_size_recv
=
ntoh32
(
*
(
uint32_t
*
)
(
rtmp_packet
->
body
->
body
)
);
rtmp_packet_free
(
rtmp_packet
);
}
static
void
rtmp_handler_audio_data
(
rtmp_control_thread_t
*
p_thread
,
rtmp_packet_t
*
rtmp_packet
)
{
block_t
*
p_buffer
;
if
(
!
p_thread
->
has_audio
)
{
p_thread
->
has_audio
=
1
;
flv_get_metadata_audio
(
p_thread
,
rtmp_packet
,
&
p_thread
->
metadata_stereo
,
&
p_thread
->
metadata_samplesize
,
&
p_thread
->
metadata_samplerate
,
&
p_thread
->
metadata_audiocodecid
);
}
flv_rebuild
(
p_thread
,
rtmp_packet
);
p_buffer
=
rtmp_new_block
(
p_thread
,
rtmp_packet
->
body
->
body
,
rtmp_packet
->
body
->
length_body
);
block_FifoPut
(
p_thread
->
p_fifo_input
,
p_buffer
);
rtmp_packet_free
(
rtmp_packet
);
}
static
void
rtmp_handler_video_data
(
rtmp_control_thread_t
*
p_thread
,
rtmp_packet_t
*
rtmp_packet
)
{
block_t
*
p_buffer
;
if
(
!
p_thread
->
has_video
)
{
p_thread
->
has_video
=
1
;
flv_get_metadata_video
(
p_thread
,
rtmp_packet
,
&
p_thread
->
metadata_videocodecid
,
&
p_thread
->
metadata_frametype
);
}
flv_rebuild
(
p_thread
,
rtmp_packet
);
p_buffer
=
rtmp_new_block
(
p_thread
,
rtmp_packet
->
body
->
body
,
rtmp_packet
->
body
->
length_body
);
block_FifoPut
(
p_thread
->
p_fifo_input
,
p_buffer
);
rtmp_packet_free
(
rtmp_packet
);
}
static
void
rtmp_handler_notify
(
rtmp_control_thread_t
*
p_thread
,
rtmp_packet_t
*
rtmp_packet
)
{
block_t
*
p_buffer
;
p_thread
->
metadata_received
=
1
;
flv_rebuild
(
p_thread
,
rtmp_packet
);
p_buffer
=
rtmp_new_block
(
p_thread
,
rtmp_packet
->
body
->
body
,
rtmp_packet
->
body
->
length_body
);
block_FifoPut
(
p_thread
->
p_fifo_input
,
p_buffer
);
rtmp_packet_free
(
rtmp_packet
);
}
static
void
rtmp_handler_invoke
(
rtmp_control_thread_t
*
p_thread
,
rtmp_packet_t
*
rtmp_packet
)
{
rtmp_packet_t
*
tmp_rtmp_packet
;
uint8_t
*
i
,
*
end
,
*
tmp_buffer
;
double
number
;
char
*
string
,
*
string2
;
ssize_t
i_ret
;
i
=
rtmp_packet
->
body
->
body
;
end
=
rtmp_packet
->
body
->
body
+
rtmp_packet
->
body
->
length_body
;
i
++
;
/* Pass over AMF_DATATYPE_STRING */
string
=
amf_decode_string
(
&
i
);
if
(
!
string
)
{
msg_Err
(
p_thread
,
"Seriously broken stream"
);
return
;
}
i
++
;
/* Pass over AMF_DATATYPE_NUMBER */
number
=
amf_decode_number
(
&
i
);
msg_Dbg
(
p_thread
,
"%s %.1f"
,
string
,
number
);
if
(
strcmp
(
"connect"
,
string
)
==
0
)
{
/* Connection bandwith */
tmp_rtmp_packet
=
rtmp_encode_onBWDone
(
p_thread
,
AMF_CALL_ONBWDONE
);
tmp_buffer
=
rtmp_encode_packet
(
p_thread
,
tmp_rtmp_packet
);
i_ret
=
net_Write
(
p_thread
,
p_thread
->
fd
,
NULL
,
tmp_buffer
,
tmp_rtmp_packet
->
length_encoded
);
if
(
i_ret
!=
tmp_rtmp_packet
->
length_encoded
)
{
msg_Err
(
p_thread
,
"failed send connection bandwith"
);
goto
error
;
}
rtmp_packet_free
(
rtmp_packet
);
free
(
tmp_buffer
);
/* Server bandwith */
tmp_rtmp_packet
=
rtmp_encode_server_bw
(
p_thread
,
RTMP_SERVER_BW
);
tmp_buffer
=
rtmp_encode_packet
(
p_thread
,
tmp_rtmp_packet
);
i_ret
=
net_Write
(
p_thread
,
p_thread
->
fd
,
NULL
,
tmp_buffer
,
tmp_rtmp_packet
->
length_encoded
);
if
(
i_ret
!=
tmp_rtmp_packet
->
length_encoded
)
{
msg_Err
(
p_thread
,
"failed send server bandwith"
);
goto
error
;
}
rtmp_packet_free
(
rtmp_packet
);
free
(
tmp_buffer
);
/* Clear stream */
tmp_rtmp_packet
=
rtmp_encode_ping_clear_stream
(
p_thread
,
RTMP_SRC_DST_CONNECT_OBJECT
);
tmp_buffer
=
rtmp_encode_packet
(
p_thread
,
tmp_rtmp_packet
);
i_ret
=
net_Write
(
p_thread
,
p_thread
->
fd
,
NULL
,
tmp_buffer
,
tmp_rtmp_packet
->
length_encoded
);
if
(
i_ret
!=
tmp_rtmp_packet
->
length_encoded
)
{
msg_Err
(
p_thread
,
"failed send clear stream"
);
goto
error
;
}
rtmp_packet_free
(
rtmp_packet
);
free
(
tmp_buffer
);
/* Reply NetConnection.connect */
tmp_rtmp_packet
=
rtmp_encode_NetConnection_connect_result
(
p_thread
,
number
);
tmp_buffer
=
rtmp_encode_packet
(
p_thread
,
tmp_rtmp_packet
);
i_ret
=
net_Write
(
p_thread
,
p_thread
->
fd
,
NULL
,
tmp_buffer
,
tmp_rtmp_packet
->
length_encoded
);
if
(
i_ret
!=
tmp_rtmp_packet
->
length_encoded
)
{
msg_Err
(
p_thread
,
"failed send reply NetConnection.connect"
);
goto
error
;
}
rtmp_packet_free
(
rtmp_packet
);
free
(
tmp_buffer
);
}
else
if
(
strcmp
(
"createStream"
,
string
)
==
0
)
{
p_thread
->
stream_client_id
=
number
;
p_thread
->
stream_server_id
=
RTMP_DEFAULT_STREAM_SERVER_ID
;
/* Reply createStream */
tmp_rtmp_packet
=
rtmp_encode_createStream_result
(
p_thread
,
p_thread
->
stream_client_id
,
p_thread
->
stream_server_id
);
tmp_buffer
=
rtmp_encode_packet
(
p_thread
,
tmp_rtmp_packet
);
i_ret
=
net_Write
(
p_thread
,
p_thread
->
fd
,
NULL
,
tmp_buffer
,
tmp_rtmp_packet
->
length_encoded
);
if
(
i_ret
!=
tmp_rtmp_packet
->
length_encoded
)
{
msg_Err
(
p_thread
,
"failed send reply createStream"
);
goto
error
;
}
rtmp_packet_free
(
rtmp_packet
);
free
(
tmp_buffer
);
/* Reset stream */
tmp_rtmp_packet
=
rtmp_encode_ping_reset_stream
(
p_thread
);
tmp_buffer
=
rtmp_encode_packet
(
p_thread
,
tmp_rtmp_packet
);
i_ret
=
net_Write
(
p_thread
,
p_thread
->
fd
,
NULL
,
tmp_buffer
,
tmp_rtmp_packet
->
length_encoded
);
if
(
i_ret
!=
tmp_rtmp_packet
->
length_encoded
)
{
msg_Err
(
p_thread
,
"failed send reset stream"
);
goto
error
;
}
rtmp_packet_free
(
rtmp_packet
);
free
(
tmp_buffer
);
/* Clear stream */
tmp_rtmp_packet
=
rtmp_encode_ping_clear_stream
(
p_thread
,
RTMP_SRC_DST_CONNECT_OBJECT2
);
tmp_buffer
=
rtmp_encode_packet
(
p_thread
,
tmp_rtmp_packet
);
i_ret
=
net_Write
(
p_thread
,
p_thread
->
fd
,
NULL
,
tmp_buffer
,
tmp_rtmp_packet
->
length_encoded
);
if
(
i_ret
!=
tmp_rtmp_packet
->
length_encoded
)
{
msg_Err
(
p_thread
,
"failed send clear stream"
);
goto
error
;
}
rtmp_packet_free
(
rtmp_packet
);
free
(
tmp_buffer
);
}
else
if
(
strcmp
(
"publish"
,
string
)
==
0
)
{
i
++
;
msg_Dbg
(
p_thread
,
"null"
);
i
++
;
string2
=
amf_decode_string
(
&
i
);
msg_Dbg
(
p_thread
,
"string: %s"
,
string2
);
p_thread
->
psz_publish
=
strdup
(
string2
);
free
(
string2
);
}
else
if
(
strcmp
(
"play"
,
string
)
==
0
)
{
i
++
;
msg_Dbg
(
p_thread
,
"null"
);
i
++
;
string2
=
amf_decode_string
(
&
i
);
msg_Dbg
(
p_thread
,
"string: %s"
,
string2
);
/* Reply NetStream.play.reset */
tmp_rtmp_packet
=
rtmp_encode_NetStream_play_reset_onStatus
(
p_thread
,
string2
);
tmp_buffer
=
rtmp_encode_packet
(
p_thread
,
tmp_rtmp_packet
);
i_ret
=
net_Write
(
p_thread
,
p_thread
->
fd
,
NULL
,
tmp_buffer
,
tmp_rtmp_packet
->
length_encoded
);
if
(
i_ret
!=
tmp_rtmp_packet
->
length_encoded
)
{
msg_Err
(
p_thread
,
"failed send reply NetStream.play.reset"
);
goto
error
;
}
rtmp_packet_free
(
rtmp_packet
);
free
(
tmp_buffer
);
/* Reply NetStream.play.start */
tmp_rtmp_packet
=
rtmp_encode_NetStream_play_start_onStatus
(
p_thread
,
string2
);
tmp_buffer
=
rtmp_encode_packet
(
p_thread
,
tmp_rtmp_packet
);
i_ret
=
net_Write
(
p_thread
,
p_thread
->
fd
,
NULL
,
tmp_buffer
,
tmp_rtmp_packet
->
length_encoded
);
if
(
i_ret
!=
tmp_rtmp_packet
->
length_encoded
)
{
msg_Err
(
p_thread
,
"failed send reply NetStream.play.start"
);
goto
error
;
}
rtmp_packet_free
(
rtmp_packet
);
free
(
tmp_buffer
);
free
(
string2
);
p_thread
->
result_play
=
0
;
vlc_mutex_lock
(
&
p_thread
->
lock
);
vlc_cond_signal
(
&
p_thread
->
wait
);
vlc_mutex_unlock
(
&
p_thread
->
lock
);
}
free
(
string
);
while
(
i
<
end
)
{
if
(
*
i
==
AMF_DATATYPE_NUMBER
)
{
i
++
;
msg_Dbg
(
p_thread
,
"number: %le"
,
amf_decode_number
(
&
i
)
);
}
else
if
(
*
i
==
AMF_DATATYPE_BOOLEAN
)
{
i
++
;
msg_Dbg
(
p_thread
,
"boolean: %s"
,
amf_decode_boolean
(
&
i
)
?
"true"
:
"false"
);
}
else
if
(
*
i
==
AMF_DATATYPE_STRING
)
{
i
++
;
string
=
amf_decode_string
(
&
i
);
msg_Dbg
(
p_thread
,
"string: %s"
,
string
);
free
(
string
);
}
else
if
(
*
i
==
AMF_DATATYPE_OBJECT
)
{
i
++
;
msg_Dbg
(
p_thread
,
"object"
);
while
(
(
string
=
amf_decode_object
(
&
i
)
)
!=
NULL
)
{
if
(
*
i
==
AMF_DATATYPE_NUMBER
)
{
i
++
;
msg_Dbg
(
p_thread
,
"key: %s value: %le"
,
string
,
amf_decode_number
(
&
i
)
);
}
else
if
(
*
i
==
AMF_DATATYPE_BOOLEAN
)
{
i
++
;
msg_Dbg
(
p_thread
,
"key: %s value: %s"
,
string
,
amf_decode_boolean
(
&
i
)
?
"true"
:
"false"
);
}
else
if
(
*
i
==
AMF_DATATYPE_STRING
)
{
i
++
;
string2
=
amf_decode_string
(
&
i
);
msg_Dbg
(
p_thread
,
"key: %s value: %s"
,
string
,
string2
);
if
(
strcmp
(
"code"
,
string
)
==
0
)
{
#warning Locking bugs here.
if
(
strcmp
(
"NetConnection.Connect.Success"
,
string2
)
==
0
)
{
p_thread
->
result_connect
=
0
;
vlc_mutex_lock
(
&
p_thread
->
lock
);
vlc_cond_signal
(
&
p_thread
->
wait
);
vlc_mutex_unlock
(
&
p_thread
->
lock
);
}
else
if
(
strcmp
(
"NetConnection.Connect.InvalidApp"
,
string2
)
==
0
)
{
vlc_mutex_lock
(
&
p_thread
->
lock
);
vlc_cond_signal
(
&
p_thread
->
wait
);
vlc_mutex_unlock
(
&
p_thread
->
lock
);
}
else
if
(
strcmp
(
"NetStream.Play.Start"
,
string2
)
==
0
)
{
p_thread
->
result_play
=
0
;
vlc_mutex_lock
(
&
p_thread
->
lock
);
vlc_cond_signal
(
&
p_thread
->
wait
);
vlc_mutex_unlock
(
&
p_thread
->
lock
);
}
else
if
(
strcmp
(
"NetStream.Play.Stop"
,
string2
)
==
0
)
{
p_thread
->
result_stop
=
1
;
block_FifoWake
(
p_thread
->
p_fifo_input
);
}
}
free
(
string2
);
}
else
if
(
*
i
==
AMF_DATATYPE_NULL
)
{
i
++
;
msg_Dbg
(
p_thread
,
"key: %s value: Null"
,
string
);
}
else
if
(
*
i
==
AMF_DATATYPE_UNDEFINED
)
{
i
++
;
msg_Dbg
(
p_thread
,
"key: %s value: undefined (Null)"
,
string
);
}
else
{
i
++
;
msg_Warn
(
p_thread
,
"key: %s value: undefined AMF type"
,
string
);
}
free
(
string
);
}
msg_Dbg
(
p_thread
,
"end of object"
);
}
else
if
(
*
i
==
AMF_DATATYPE_NULL
)
{
i
++
;
msg_Dbg
(
p_thread
,
"null"
);
}
else
if
(
*
i
==
AMF_DATATYPE_UNDEFINED
)
{
i
++
;
msg_Dbg
(
p_thread
,
"undefined (null)"
);
}
else
{
i
++
;
msg_Warn
(
p_thread
,
"undefined AMF type"
);
}
}
rtmp_packet_free
(
rtmp_packet
);
return
;
error:
free
(
string
);
rtmp_packet_free
(
rtmp_packet
);
free
(
tmp_buffer
);
}
/* length header calculated automatically based on last packet in the same channel */
/* timestamps passed are always absolute */
static
rtmp_packet_t
*
rtmp_new_packet
(
rtmp_control_thread_t
*
p_thread
,
uint8_t
stream_index
,
uint32_t
timestamp
,
uint8_t
content_type
,
uint32_t
src_dst
,
rtmp_body_t
*
body
)
{
int
interchunk_headers
;
rtmp_packet_t
*
rtmp_packet
;
rtmp_packet_t
*
rtmp_send
=
p_thread
->
rtmp_headers_send
+
stream_index
;
rtmp_packet
=
(
rtmp_packet_t
*
)
malloc
(
sizeof
(
rtmp_packet_t
)
);
if
(
!
rtmp_packet
)
return
NULL
;
interchunk_headers
=
body
->
length_body
/
p_thread
->
chunk_size_send
;
if
(
body
->
length_body
%
p_thread
->
chunk_size_send
==
0
)
interchunk_headers
--
;
if
(
src_dst
!=
rtmp_send
->
src_dst
)
{
rtmp_send
->
timestamp
=
timestamp
;
rtmp_send
->
length_body
=
body
->
length_body
;
rtmp_send
->
content_type
=
content_type
;
rtmp_send
->
src_dst
=
src_dst
;
rtmp_packet
->
length_header
=
12
;
}
else
if
(
content_type
!=
rtmp_send
->
content_type
||
body
->
length_body
!=
rtmp_send
->
length_body
)
{
rtmp_send
->
timestamp_relative
=
timestamp
-
rtmp_send
->
timestamp
;
rtmp_send
->
timestamp
=
timestamp
;
rtmp_send
->
length_body
=
body
->
length_body
;
rtmp_send
->
content_type
=
content_type
;
rtmp_packet
->
length_header
=
8
;
}
else
if
(
timestamp
!=
rtmp_send
->
timestamp
)
{
rtmp_send
->
timestamp_relative
=
timestamp
-
rtmp_send
->
timestamp
;
rtmp_send
->
timestamp
=
timestamp
;
rtmp_packet
->
length_header
=
4
;
}
else
{
rtmp_packet
->
length_header
=
1
;
}
/*TODO: puede que no haga falta guardar el timestamp relative */
rtmp_packet
->
stream_index
=
stream_index
;
if
(
rtmp_packet
->
length_header
==
12
)
{
rtmp_packet
->
timestamp
=
timestamp
;
rtmp_packet
->
timestamp_relative
=
0
;
}
else
{
rtmp_packet
->
timestamp
=
timestamp
;
rtmp_packet
->
timestamp_relative
=
rtmp_send
->
timestamp_relative
;
}
rtmp_packet
->
length_encoded
=
rtmp_packet
->
length_header
+
body
->
length_body
+
interchunk_headers
;
rtmp_packet
->
length_body
=
body
->
length_body
;
rtmp_packet
->
content_type
=
content_type
;
rtmp_packet
->
src_dst
=
src_dst
;
rtmp_packet
->
body
=
(
rtmp_body_t
*
)
malloc
(
sizeof
(
rtmp_body_t
)
);
if
(
!
rtmp_packet
->
body
)
{
free
(
rtmp_packet
);
return
NULL
;
}
rtmp_packet
->
body
->
length_body
=
body
->
length_body
;
rtmp_packet
->
body
->
length_buffer
=
body
->
length_body
;
rtmp_packet
->
body
->
body
=
(
uint8_t
*
)
malloc
(
rtmp_packet
->
body
->
length_buffer
*
sizeof
(
uint8_t
)
);
if
(
!
rtmp_packet
->
body
->
body
)
{
free
(
rtmp_packet
->
body
);
free
(
rtmp_packet
);
return
NULL
;
}
memcpy
(
rtmp_packet
->
body
->
body
,
body
->
body
,
rtmp_packet
->
body
->
length_body
);
return
rtmp_packet
;
}
static
block_t
*
rtmp_new_block
(
rtmp_control_thread_t
*
p_thread
,
uint8_t
*
buffer
,
int32_t
length_buffer
)
{
block_t
*
p_buffer
;
/* DOWN: p_thread->p_empty_blocks->i_depth */
while
(
block_FifoCount
(
p_thread
->
p_empty_blocks
)
>
MAX_EMPTY_BLOCKS
)
{
p_buffer
=
block_FifoGet
(
p_thread
->
p_empty_blocks
);
block_Release
(
p_buffer
);
}
/* DOWN: p_thread->p_empty_blocks->i_depth */
if
(
block_FifoCount
(
p_thread
->
p_empty_blocks
)
==
0
)
{
p_buffer
=
block_New
(
p_thread
,
length_buffer
);
}
else
{
p_buffer
=
block_FifoGet
(
p_thread
->
p_empty_blocks
);
p_buffer
=
block_Realloc
(
p_buffer
,
0
,
length_buffer
);
}
p_buffer
->
i_buffer
=
length_buffer
;
memcpy
(
p_buffer
->
p_buffer
,
buffer
,
p_buffer
->
i_buffer
);
return
p_buffer
;
}
/* Call sequence for each packet:
* rtmp_new_packet -> rtmp_encode_packet -> send .
* No parallelism allowed because of optimization in header length. */
uint8_t
*
rtmp_encode_packet
(
rtmp_control_thread_t
*
p_thread
,
rtmp_packet_t
*
rtmp_packet
)
{
uint8_t
*
out
;
int
interchunk_headers
;
uint32_t
timestamp
,
length_body
,
src_dst
;
int
i
,
j
;
out
=
(
uint8_t
*
)
malloc
(
rtmp_packet
->
length_encoded
*
sizeof
(
uint8_t
)
);
if
(
!
out
)
return
NULL
;
interchunk_headers
=
rtmp_packet
->
body
->
length_body
/
p_thread
->
chunk_size_send
;
if
(
rtmp_packet
->
body
->
length_body
%
p_thread
->
chunk_size_send
==
0
)
interchunk_headers
--
;
if
(
rtmp_packet
->
length_header
==
12
)
{
/* Timestamp absolute */
timestamp
=
hton32
(
rtmp_packet
->
timestamp
);
memcpy
(
out
,
&
timestamp
,
sizeof
(
uint32_t
)
);
src_dst
=
hton32
(
rtmp_packet
->
src_dst
);
memcpy
(
out
+
8
,
&
src_dst
,
sizeof
(
uint32_t
)
);
}
if
(
rtmp_packet
->
length_header
>=
8
)
{
/* Length without inter chunk headers */
length_body
=
hton32
(
rtmp_packet
->
body
->
length_body
);
memcpy
(
out
+
3
,
&
length_body
,
sizeof
(
uint32_t
)
);
out
[
7
]
=
rtmp_packet
->
content_type
;
}
if
(
rtmp_packet
->
length_header
>=
4
&&
rtmp_packet
->
length_header
!=
12
)
{
/* Timestamp relative */
timestamp
=
hton32
(
rtmp_packet
->
timestamp_relative
);
memcpy
(
out
,
&
timestamp
,
sizeof
(
uint32_t
)
);
}
out
[
0
]
=
rtmp_encode_header_size
(
(
vlc_object_t
*
)
p_thread
,
rtmp_packet
->
length_header
)
+
rtmp_packet
->
stream_index
;
/* Insert inter chunk headers */
for
(
i
=
0
,
j
=
0
;
i
<
rtmp_packet
->
body
->
length_body
+
interchunk_headers
;
i
++
,
j
++
)
{
if
(
j
%
p_thread
->
chunk_size_send
==
0
&&
j
!=
0
)
out
[
rtmp_packet
->
length_header
+
i
++
]
=
RTMP_HEADER_SIZE_1
+
rtmp_packet
->
stream_index
;
out
[
rtmp_packet
->
length_header
+
i
]
=
rtmp_packet
->
body
->
body
[
j
];
}
return
out
;
}
static
rtmp_packet_t
*
rtmp_encode_onBWDone
(
rtmp_control_thread_t
*
p_thread
,
double
number
)
{
rtmp_packet_t
*
rtmp_packet
;
rtmp_body_t
*
rtmp_body
;
uint8_t
*
tmp_buffer
;
/* Build onBWDone */
rtmp_body
=
rtmp_body_new
(
-
1
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_STRING
,
"onBWDone"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"onBWDone"
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NUMBER
,
&
number
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NULL
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NULL
);
free
(
tmp_buffer
);
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_INVOKE
,
0
,
RTMP_CONTENT_TYPE_INVOKE
,
RTMP_SRC_DST_CONNECT_OBJECT
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
return
rtmp_packet
;
}
static
rtmp_packet_t
*
rtmp_encode_server_bw
(
rtmp_control_thread_t
*
p_thread
,
uint32_t
number
)
{
rtmp_packet_t
*
rtmp_packet
;
rtmp_body_t
*
rtmp_body
;
/* Build server bw */
rtmp_body
=
rtmp_body_new
(
-
1
);
rtmp_body_append
(
rtmp_body
,
(
uint8_t
*
)
&
number
,
sizeof
(
uint32_t
)
);
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_CONTROL
,
0
,
RTMP_CONTENT_TYPE_SERVER_BW
,
RTMP_SRC_DST_CONNECT_OBJECT
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
return
rtmp_packet
;
}
static
rtmp_packet_t
*
rtmp_encode_NetConnection_connect_result
(
rtmp_control_thread_t
*
p_thread
,
double
number
)
{
rtmp_packet_t
*
rtmp_packet
;
rtmp_body_t
*
rtmp_body
;
uint8_t
*
tmp_buffer
;
/* Build NetConnection.connect result */
rtmp_body
=
rtmp_body_new
(
-
1
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_STRING
,
"_result"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"_result"
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NUMBER
,
&
number
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NULL
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NULL
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_OBJECT
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"level"
,
AMF_DATATYPE_STRING
,
"status"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"level"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"status"
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"code"
,
AMF_DATATYPE_STRING
,
"NetConnection.Connect.Success"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"code"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"NetConnection.Connect.Success"
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"description"
,
AMF_DATATYPE_STRING
,
"Connection succeeded."
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"description"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"Connection succeeded."
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_END_OF_OBJECT
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_END_OF_OBJECT
);
free
(
tmp_buffer
);
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_INVOKE
,
0
,
RTMP_CONTENT_TYPE_INVOKE
,
0
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
return
rtmp_packet
;
}
static
rtmp_packet_t
*
rtmp_encode_createStream_result
(
rtmp_control_thread_t
*
p_thread
,
double
stream_client_id
,
double
stream_server_id
)
{
rtmp_packet_t
*
rtmp_packet
;
rtmp_body_t
*
rtmp_body
;
uint8_t
*
tmp_buffer
;
/* Build createStream result */
rtmp_body
=
rtmp_body_new
(
-
1
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_STRING
,
"_result"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"_result"
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NUMBER
,
&
stream_client_id
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NULL
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NULL
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NUMBER
,
&
stream_server_id
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_INVOKE
,
0
,
RTMP_CONTENT_TYPE_INVOKE
,
0
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
return
rtmp_packet
;
}
static
rtmp_packet_t
*
rtmp_encode_ping_reset_stream
(
rtmp_control_thread_t
*
p_thread
)
{
rtmp_packet_t
*
rtmp_packet
;
rtmp_body_t
*
rtmp_body
;
uint8_t
*
tmp_buffer
;
/* Build ping reset stream */
rtmp_body
=
rtmp_body_new
(
-
1
);
tmp_buffer
=
rtmp_encode_ping
(
RTMP_PING_RESET_STREAM
,
RTMP_SRC_DST_CONNECT_OBJECT2
,
0
,
0
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
RTMP_PING_SIZE_RESET_STREAM
);
free
(
tmp_buffer
);
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_CONTROL
,
0
,
RTMP_CONTENT_TYPE_PING
,
0
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
return
rtmp_packet
;
}
static
rtmp_packet_t
*
rtmp_encode_ping_clear_stream
(
rtmp_control_thread_t
*
p_thread
,
uint32_t
src_dst
)
{
rtmp_packet_t
*
rtmp_packet
;
rtmp_body_t
*
rtmp_body
;
uint8_t
*
tmp_buffer
;
/* Build ping clear stream */
rtmp_body
=
rtmp_body_new
(
-
1
);
tmp_buffer
=
rtmp_encode_ping
(
RTMP_PING_CLEAR_STREAM
,
src_dst
,
0
,
0
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
RTMP_PING_SIZE_CLEAR_STREAM
);
free
(
tmp_buffer
);
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_CONTROL
,
0
,
RTMP_CONTENT_TYPE_PING
,
0
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
return
rtmp_packet
;
}
static
rtmp_packet_t
*
rtmp_encode_NetStream_play_reset_onStatus
(
rtmp_control_thread_t
*
p_thread
,
char
*
psz_media
)
{
rtmp_packet_t
*
rtmp_packet
;
rtmp_body_t
*
rtmp_body
;
uint8_t
*
tmp_buffer
;
double
number
;
char
*
description
;
/* Build NetStream.play.reset onStatus */
rtmp_body
=
rtmp_body_new
(
-
1
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_STRING
,
"onStatus"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"onStatus"
)
);
free
(
tmp_buffer
);
number
=
1
;
/* TODO: review this number*/
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NUMBER
,
&
number
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NULL
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NULL
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_OBJECT
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"level"
,
AMF_DATATYPE_STRING
,
"status"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"level"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"status"
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"code"
,
AMF_DATATYPE_STRING
,
"NetStream.Play.Reset"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"code"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"NetStream.Play.Reset"
)
);
free
(
tmp_buffer
);
if
(
asprintf
(
&
description
,
"Playing and resetting %s."
,
psz_media
)
==
-
1
)
{
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
return
NULL
;
}
tmp_buffer
=
amf_encode_object_variable
(
"description"
,
AMF_DATATYPE_STRING
,
description
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"description"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
description
)
);
free
(
tmp_buffer
);
free
(
description
);
tmp_buffer
=
amf_encode_object_variable
(
"details"
,
AMF_DATATYPE_STRING
,
psz_media
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"details"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
psz_media
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"clientid"
,
AMF_DATATYPE_NUMBER
,
&
p_thread
->
stream_client_id
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"clientid"
)
+
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_END_OF_OBJECT
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_END_OF_OBJECT
);
free
(
tmp_buffer
);
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_NOTIFY
,
0
,
RTMP_CONTENT_TYPE_INVOKE
,
RTMP_SRC_DST_DEFAULT
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
return
rtmp_packet
;
}
static
rtmp_packet_t
*
rtmp_encode_NetStream_play_start_onStatus
(
rtmp_control_thread_t
*
p_thread
,
char
*
psz_media
)
{
rtmp_packet_t
*
rtmp_packet
;
rtmp_body_t
*
rtmp_body
;
uint8_t
*
tmp_buffer
;
double
number
;
char
*
description
;
/* Build NetStream.play.start onStatus */
rtmp_body
=
rtmp_body_new
(
-
1
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_STRING
,
"onStatus"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"onStatus"
)
);
free
(
tmp_buffer
);
number
=
1
;
/* TODO: review this number*/
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NUMBER
,
&
number
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_NULL
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_NULL
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_OBJECT
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"level"
,
AMF_DATATYPE_STRING
,
"status"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"level"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"status"
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"code"
,
AMF_DATATYPE_STRING
,
"NetStream.Play.Start"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"code"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"NetStream.Play.Start"
)
);
free
(
tmp_buffer
);
if
(
asprintf
(
&
description
,
"Started playing %s."
,
psz_media
)
==
-
1
)
{
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
return
NULL
;
}
tmp_buffer
=
amf_encode_object_variable
(
"description"
,
AMF_DATATYPE_STRING
,
description
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"description"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
description
)
);
free
(
tmp_buffer
);
free
(
description
);
tmp_buffer
=
amf_encode_object_variable
(
"details"
,
AMF_DATATYPE_STRING
,
psz_media
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"details"
)
+
AMF_DATATYPE_SIZE_STRING
+
strlen
(
psz_media
)
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"clientid"
,
AMF_DATATYPE_NUMBER
,
&
p_thread
->
stream_client_id
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"clientid"
)
+
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_END_OF_OBJECT
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_END_OF_OBJECT
);
free
(
tmp_buffer
);
rtmp_packet
=
rtmp_new_packet
(
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_NOTIFY
,
0
,
RTMP_CONTENT_TYPE_INVOKE
,
RTMP_SRC_DST_DEFAULT
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
return
rtmp_packet
;
}
static
uint8_t
rtmp_encode_header_size
(
vlc_object_t
*
p_this
,
uint8_t
header_size
)
{
if
(
header_size
==
1
)
return
RTMP_HEADER_SIZE_1
;
else
if
(
header_size
==
4
)
return
RTMP_HEADER_SIZE_4
;
else
if
(
header_size
==
8
)
return
RTMP_HEADER_SIZE_8
;
else
if
(
header_size
==
12
)
return
RTMP_HEADER_SIZE_12
;
else
{
msg_Err
(
p_this
,
"invalid header size for encoding"
);
return
0
;
}
}
static
uint8_t
rtmp_decode_header_size
(
vlc_object_t
*
p_this
,
uint8_t
header_size
)
{
if
(
header_size
==
RTMP_HEADER_SIZE_1
)
return
1
;
else
if
(
header_size
==
RTMP_HEADER_SIZE_4
)
return
4
;
else
if
(
header_size
==
RTMP_HEADER_SIZE_8
)
return
8
;
else
if
(
header_size
==
RTMP_HEADER_SIZE_12
)
return
12
;
else
{
msg_Err
(
p_this
,
"invalid RTMP_HEADER_SIZE_XX "
);
return
0
;
}
}
static
uint8_t
rtmp_get_stream_index
(
uint8_t
content_type
)
{
if
(
content_type
==
RTMP_CONTENT_TYPE_AUDIO_DATA
)
return
RTMP_DEFAULT_STREAM_INDEX_AUDIO_DATA
;
else
if
(
content_type
==
RTMP_CONTENT_TYPE_VIDEO_DATA
)
return
RTMP_DEFAULT_STREAM_INDEX_VIDEO_DATA
;
else
if
(
content_type
==
RTMP_CONTENT_TYPE_NOTIFY
)
return
RTMP_DEFAULT_STREAM_INDEX_NOTIFY
;
else
return
-
1
;
}
/*****************************************************************************
* Body handling implementation:
******************************************************************************/
rtmp_body_t
*
rtmp_body_new
(
int
length_buffer
)
{
rtmp_body_t
*
rtmp_body
;
rtmp_body
=
(
rtmp_body_t
*
)
malloc
(
sizeof
(
rtmp_body_t
)
);
if
(
!
rtmp_body
)
return
NULL
;
rtmp_body
->
length_body
=
0
;
if
(
length_buffer
<
0
)
rtmp_body
->
length_buffer
=
RTMP_BODY_SIZE_ALLOC
;
else
rtmp_body
->
length_buffer
=
length_buffer
;
rtmp_body
->
body
=
(
uint8_t
*
)
malloc
(
rtmp_body
->
length_buffer
*
sizeof
(
uint8_t
)
);
if
(
!
rtmp_body
->
body
)
{
free
(
rtmp_body
);
return
NULL
;
}
return
rtmp_body
;
}
void
rtmp_body_reset
(
rtmp_body_t
*
rtmp_body
)
{
rtmp_body
->
length_body
=
0
;
}
static
void
rtmp_body_append
(
rtmp_body_t
*
rtmp_body
,
uint8_t
*
buffer
,
uint32_t
length
)
{
if
(
(
rtmp_body
->
length_body
+
length
)
>
rtmp_body
->
length_buffer
)
{
uint8_t
*
tmp
;
rtmp_body
->
length_buffer
=
rtmp_body
->
length_body
+
length
;
tmp
=
realloc
(
rtmp_body
->
body
,
rtmp_body
->
length_buffer
*
sizeof
(
uint8_t
)
);
if
(
!
tmp
)
return
;
rtmp_body
->
body
=
tmp
;
}
memcpy
(
rtmp_body
->
body
+
rtmp_body
->
length_body
,
buffer
,
length
);
rtmp_body
->
length_body
+=
length
;
}
/*****************************************************************************
* RTMP ping implementation:
******************************************************************************/
static
uint8_t
*
rtmp_encode_ping
(
uint16_t
type
,
uint32_t
src_dst
,
uint32_t
third_arg
,
uint32_t
fourth_arg
)
{
uint8_t
*
out
=
NULL
;
VLC_UNUSED
(
fourth_arg
);
if
(
type
==
RTMP_PING_CLEAR_STREAM
)
out
=
(
uint8_t
*
)
malloc
(
RTMP_PING_SIZE_CLEAR_STREAM
*
sizeof
(
uint8_t
)
);
else
if
(
type
==
RTMP_PING_CLEAR_PLAYING_BUFFER
)
out
=
(
uint8_t
*
)
malloc
(
RTMP_PING_SIZE_CLEAR_PLAYING_BUFFER
*
sizeof
(
uint8_t
)
);
else
if
(
type
==
RTMP_PING_BUFFER_TIME_CLIENT
)
{
out
=
(
uint8_t
*
)
malloc
(
RTMP_PING_SIZE_BUFFER_TIME_CLIENT
*
sizeof
(
uint8_t
)
);
if
(
!
out
)
goto
error
;
third_arg
=
hton32
(
third_arg
);
memcpy
(
out
+
6
,
&
third_arg
,
sizeof
(
uint32_t
)
);
}
else
if
(
type
==
RTMP_PING_RESET_STREAM
)
{
out
=
(
uint8_t
*
)
malloc
(
RTMP_PING_SIZE_RESET_STREAM
*
sizeof
(
uint8_t
)
);
}
/* else if( type == RTMP_PING_CLIENT_FROM_SERVER ) TODO: research this
{
}
else if( type == RTMP_PING_PONG_FROM_CLIENT )
{
}
*/
else
{
out
=
(
uint8_t
*
)
malloc
(
RTMP_PING_SIZE_BUFFER_TIME_CLIENT
*
sizeof
(
uint8_t
)
);
if
(
!
out
)
goto
error
;
out
[
6
]
=
0x0D
;
out
[
7
]
=
0x0E
;
out
[
8
]
=
0x0A
;
out
[
9
]
=
0x0D
;
}
if
(
!
out
)
goto
error
;
type
=
hton16
(
type
);
memcpy
(
out
,
&
type
,
sizeof
(
uint16_t
)
);
src_dst
=
hton32
(
src_dst
);
memcpy
(
out
+
2
,
&
src_dst
,
sizeof
(
uint32_t
)
);
return
out
;
error:
return
NULL
;
}
/*****************************************************************************
* AMF implementation:
******************************************************************************/
static
uint8_t
*
amf_encode_element
(
uint8_t
element
,
const
void
*
value
)
{
uint8_t
*
out
;
if
(
element
==
AMF_DATATYPE_NUMBER
)
{
uint64_t
number
=
*
(
uint64_t
*
)
value
;
out
=
(
uint8_t
*
)
malloc
(
AMF_DATATYPE_SIZE_NUMBER
*
sizeof
(
uint8_t
)
);
if
(
!
out
)
return
NULL
;
number
=
hton64
(
number
);
out
[
0
]
=
AMF_DATATYPE_NUMBER
;
memcpy
(
out
+
1
,
&
number
,
sizeof
(
uint64_t
)
);
}
else
if
(
element
==
AMF_DATATYPE_BOOLEAN
)
{
out
=
(
uint8_t
*
)
malloc
(
AMF_DATATYPE_SIZE_BOOLEAN
*
sizeof
(
uint8_t
)
);
if
(
!
out
)
return
NULL
;
out
[
0
]
=
AMF_DATATYPE_BOOLEAN
;
out
[
1
]
=
*
(
uint8_t
*
)
value
;
}
else
if
(
element
==
AMF_DATATYPE_STRING
)
{
uint16_t
length_psz
,
length_psz_cpy
;
length_psz
=
length_psz_cpy
=
strlen
(
(
char
*
)
value
);
out
=
(
uint8_t
*
)
malloc
(
(
AMF_DATATYPE_SIZE_STRING
+
length_psz
)
*
sizeof
(
uint8_t
)
);
if
(
!
out
)
return
NULL
;
out
[
0
]
=
AMF_DATATYPE_STRING
;
length_psz
=
hton16
(
length_psz
);
memcpy
(
out
+
1
,
&
length_psz
,
sizeof
(
uint16_t
)
);
memcpy
(
out
+
3
,
value
,
length_psz_cpy
);
}
else
if
(
element
==
AMF_DATATYPE_OBJECT
)
{
out
=
(
uint8_t
*
)
malloc
(
AMF_DATATYPE_SIZE_OBJECT
*
sizeof
(
uint8_t
)
);
if
(
!
out
)
return
NULL
;
out
[
0
]
=
AMF_DATATYPE_OBJECT
;
}
else
if
(
element
==
AMF_DATATYPE_NULL
)
{
out
=
(
uint8_t
*
)
malloc
(
AMF_DATATYPE_SIZE_NULL
*
sizeof
(
uint8_t
)
);
if
(
!
out
)
return
NULL
;
out
[
0
]
=
AMF_DATATYPE_NULL
;
}
else
if
(
element
==
AMF_DATATYPE_MIXED_ARRAY
)
{
uint32_t
highest_index
=
*
(
uint32_t
*
)
value
;
out
=
(
uint8_t
*
)
malloc
(
AMF_DATATYPE_SIZE_MIXED_ARRAY
*
sizeof
(
uint8_t
)
);
if
(
!
out
)
return
NULL
;
highest_index
=
hton32
(
highest_index
);
out
[
0
]
=
AMF_DATATYPE_MIXED_ARRAY
;
memcpy
(
out
+
1
,
&
highest_index
,
sizeof
(
uint32_t
)
);
}
else
if
(
element
==
AMF_DATATYPE_END_OF_OBJECT
)
{
out
=
(
uint8_t
*
)
calloc
(
AMF_DATATYPE_SIZE_END_OF_OBJECT
,
sizeof
(
uint8_t
)
);
out
[
AMF_DATATYPE_SIZE_END_OF_OBJECT
-
1
]
=
AMF_DATATYPE_END_OF_OBJECT
;
}
else
{
out
=
(
uint8_t
*
)
malloc
(
AMF_DATATYPE_SIZE_NUMBER
*
sizeof
(
uint8_t
)
);
if
(
!
out
)
return
NULL
;
out
[
0
]
=
AMF_DATATYPE_NUMBER
;
out
[
1
]
=
0x0D
;
out
[
2
]
=
0x0E
;
out
[
3
]
=
0x0A
;
out
[
4
]
=
0x0D
;
out
[
5
]
=
0x0B
;
out
[
6
]
=
0x0E
;
out
[
7
]
=
0x0E
;
out
[
8
]
=
0x0F
;
}
return
out
;
}
static
uint8_t
*
amf_encode_object_variable
(
const
char
*
key
,
uint8_t
element
,
const
void
*
value
)
{
uint8_t
*
out
,
*
out_value
;
int
length_value
;
uint16_t
length_psz
,
length_psz_cpy
;
length_psz
=
length_psz_cpy
=
strlen
(
key
);
if
(
element
==
AMF_DATATYPE_NUMBER
)
length_value
=
AMF_DATATYPE_SIZE_NUMBER
;
else
if
(
element
==
AMF_DATATYPE_BOOLEAN
)
length_value
=
AMF_DATATYPE_SIZE_BOOLEAN
;
else
if
(
element
==
AMF_DATATYPE_STRING
)
length_value
=
AMF_DATATYPE_SIZE_STRING
+
strlen
(
(
char
*
)
value
);
else
if
(
element
==
AMF_DATATYPE_NULL
)
length_value
=
AMF_DATATYPE_SIZE_NULL
;
else
{
out
=
(
uint8_t
*
)
malloc
(
AMF_DATATYPE_SIZE_NUMBER
*
sizeof
(
uint8_t
)
);
if
(
!
out
)
return
NULL
;
out
[
0
]
=
AMF_DATATYPE_NUMBER
;
out
[
1
]
=
0xD
;
out
[
2
]
=
0xE
;
out
[
3
]
=
0xA
;
out
[
4
]
=
0xD
;
out
[
5
]
=
0xB
;
out
[
6
]
=
0xE
;
out
[
7
]
=
0xE
;
out
[
8
]
=
0xF
;
return
out
;
}
out
=
(
uint8_t
*
)
malloc
(
(
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
length_psz
+
length_value
)
*
sizeof
(
uint8_t
)
);
if
(
!
out
)
return
NULL
;
length_psz
=
hton16
(
length_psz
);
memcpy
(
out
,
&
length_psz
,
sizeof
(
uint16_t
)
);
memcpy
(
out
+
2
,
key
,
length_psz_cpy
);
out_value
=
amf_encode_element
(
element
,
value
);
memcpy
(
out
+
2
+
length_psz_cpy
,
out_value
,
length_value
);
free
(
out_value
);
return
out
;
}
static
double
amf_decode_number
(
uint8_t
**
buffer
)
{
uint64_t
number
;
double
out
;
number
=
ntoh64
(
*
(
uint64_t
*
)
*
buffer
);
memcpy
(
&
out
,
&
number
,
sizeof
(
uint64_t
)
);
*
buffer
+=
sizeof
(
uint64_t
);
return
out
;
}
static
int
amf_decode_boolean
(
uint8_t
**
buffer
)
{
int
out
;
out
=
**
buffer
;
*
buffer
+=
1
;
return
out
;
}
/* return value allocated dinamically */
static
char
*
amf_decode_string
(
uint8_t
**
buffer
)
{
char
*
out
;
int
length
;
int
i
;
length
=
ntoh16
(
*
(
uint16_t
*
)
*
buffer
);
*
buffer
+=
sizeof
(
uint16_t
);
#error This size is wrong and breaks just about everything.
if
(
length
>
sizeof
(
*
buffer
)
/
sizeof
(
uint8_t
))
return
NULL
;
out
=
(
char
*
)
malloc
(
length
+
1
);
/* '\0' terminated */
if
(
!
out
)
return
NULL
;
for
(
i
=
0
;
i
<
length
;
i
++
)
out
[
i
]
=
(
*
buffer
)[
i
];
*
buffer
+=
length
;
out
[
i
]
=
'\0'
;
return
out
;
}
/* returns in each call next key, at end of object returns NULL */
/* need to decode value of key after call */
static
char
*
amf_decode_object
(
uint8_t
**
buffer
)
{
if
(
**
buffer
==
0x0
&&
*
(
*
buffer
+
1
)
==
0x00
&&
*
(
*
buffer
+
2
)
==
0x09
)
{
*
buffer
+=
3
;
return
NULL
;
}
else
return
amf_decode_string
(
buffer
);
}
/*****************************************************************************
* FLV rebuilding implementation:
******************************************************************************/
static
void
flv_rebuild
(
rtmp_control_thread_t
*
p_thread
,
rtmp_packet_t
*
rtmp_packet
)
{
uint32_t
length_tag
,
timestamp
;
uint8_t
*
tmp
;
tmp
=
(
uint8_t
*
)
realloc
(
rtmp_packet
->
body
->
body
,
rtmp_packet
->
body
->
length_body
+
FLV_TAG_PREVIOUS_TAG_SIZE
+
FLV_TAG_SIZE
);
if
(
!
tmp
)
return
;
rtmp_packet
->
body
->
body
=
tmp
;
memmove
(
rtmp_packet
->
body
->
body
+
FLV_TAG_PREVIOUS_TAG_SIZE
+
FLV_TAG_SIZE
,
rtmp_packet
->
body
->
body
,
rtmp_packet
->
body
->
length_body
);
/* Insert tag */
p_thread
->
flv_tag_previous_tag_size
=
hton32
(
p_thread
->
flv_tag_previous_tag_size
);
memcpy
(
rtmp_packet
->
body
->
body
,
&
p_thread
->
flv_tag_previous_tag_size
,
sizeof
(
uint32_t
)
);
/* Fill backwards because of overlapping*/
rtmp_packet
->
body
->
body
[
11
]
=
0x00
;
timestamp
=
hton32
(
rtmp_packet
->
timestamp
);
memcpy
(
rtmp_packet
->
body
->
body
+
7
,
&
timestamp
,
sizeof
(
uint32_t
)
);
length_tag
=
hton32
(
rtmp_packet
->
body
->
length_body
);
memcpy
(
rtmp_packet
->
body
->
body
+
4
,
&
length_tag
,
sizeof
(
uint32_t
)
);
rtmp_packet
->
body
->
body
[
4
]
=
rtmp_packet
->
content_type
;
rtmp_packet
->
body
->
body
[
12
]
=
0x00
;
rtmp_packet
->
body
->
body
[
13
]
=
0x00
;
rtmp_packet
->
body
->
body
[
14
]
=
0x00
;
p_thread
->
flv_tag_previous_tag_size
=
rtmp_packet
->
body
->
length_body
+
FLV_TAG_SIZE
;
/* Update size */
rtmp_packet
->
body
->
length_body
+=
FLV_TAG_PREVIOUS_TAG_SIZE
+
FLV_TAG_SIZE
;
rtmp_packet
->
body
->
length_buffer
=
rtmp_packet
->
body
->
length_body
;
}
static
void
flv_get_metadata_audio
(
rtmp_control_thread_t
*
p_thread
,
rtmp_packet_t
*
packet_audio
,
uint8_t
*
stereo
,
uint8_t
*
audiosamplesize
,
uint32_t
*
audiosamplerate
,
uint8_t
*
audiocodecid
)
{
uint8_t
data_audio
;
data_audio
=
*
packet_audio
->
body
->
body
;
if
(
(
data_audio
&
FLV_AUDIO_STEREO_MASK
)
==
FLV_AUDIO_STEREO_MONO
)
*
stereo
=
FLV_AUDIO_STEREO_MONO
;
else
if
(
(
data_audio
&
FLV_AUDIO_STEREO_MASK
)
==
FLV_AUDIO_STEREO_STEREO
)
*
stereo
=
FLV_AUDIO_STEREO_STEREO
;
else
msg_Warn
(
p_thread
,
"unknown metadata audio stereo"
);
if
(
(
data_audio
&
FLV_AUDIO_SIZE_MASK
)
==
FLV_AUDIO_SIZE_8_BIT
)
*
audiosamplesize
=
FLV_AUDIO_SIZE_8_BIT
>>
1
;
else
if
(
(
data_audio
&
FLV_AUDIO_SIZE_MASK
)
==
FLV_AUDIO_SIZE_16_BIT
)
*
audiosamplesize
=
FLV_AUDIO_SIZE_16_BIT
>>
1
;
else
msg_Warn
(
p_thread
,
"unknown metadata audio sample size"
);
if
(
(
data_audio
&
FLV_AUDIO_RATE_MASK
)
==
FLV_AUDIO_RATE_5_5_KHZ
)
*
audiosamplerate
=
5512
;
else
if
(
(
data_audio
&
FLV_AUDIO_RATE_MASK
)
==
FLV_AUDIO_RATE_11_KHZ
)
*
audiosamplerate
=
11025
;
else
if
(
(
data_audio
&
FLV_AUDIO_RATE_MASK
)
==
FLV_AUDIO_RATE_22_KHZ
)
*
audiosamplerate
=
22050
;
else
if
(
(
data_audio
&
FLV_AUDIO_RATE_MASK
)
==
FLV_AUDIO_RATE_44_KHZ
)
*
audiosamplerate
=
44100
;
else
msg_Warn
(
p_thread
,
"unknown metadata audio sample rate"
);
if
(
(
data_audio
&
FLV_AUDIO_CODEC_ID_MASK
)
==
FLV_AUDIO_CODEC_ID_UNCOMPRESSED
)
*
audiocodecid
=
FLV_AUDIO_CODEC_ID_UNCOMPRESSED
>>
4
;
else
if
(
(
data_audio
&
FLV_AUDIO_CODEC_ID_MASK
)
==
FLV_AUDIO_CODEC_ID_ADPCM
)
*
audiocodecid
=
FLV_AUDIO_CODEC_ID_ADPCM
>>
4
;
else
if
(
(
data_audio
&
FLV_AUDIO_CODEC_ID_MASK
)
==
FLV_AUDIO_CODEC_ID_MP3
)
*
audiocodecid
=
FLV_AUDIO_CODEC_ID_MP3
>>
4
;
else
if
(
(
data_audio
&
FLV_AUDIO_CODEC_ID_MASK
)
==
FLV_AUDIO_CODEC_ID_NELLYMOSER_8KHZ_MONO
)
*
audiocodecid
=
FLV_AUDIO_CODEC_ID_NELLYMOSER_8KHZ_MONO
>>
4
;
else
if
(
(
data_audio
&
FLV_AUDIO_CODEC_ID_MASK
)
==
FLV_AUDIO_CODEC_ID_NELLYMOSER
)
*
audiocodecid
=
FLV_AUDIO_CODEC_ID_NELLYMOSER
>>
4
;
else
msg_Warn
(
p_thread
,
"unknown metadata audio codec id"
);
}
static
void
flv_get_metadata_video
(
rtmp_control_thread_t
*
p_thread
,
rtmp_packet_t
*
packet_video
,
uint8_t
*
videocodecid
,
uint8_t
*
frametype
)
{
uint8_t
data_video
;
data_video
=
*
packet_video
->
body
->
body
;
if
(
(
data_video
&
FLV_VIDEO_CODEC_ID_MASK
)
==
FLV_VIDEO_CODEC_ID_SORENSEN_H263
)
*
videocodecid
=
FLV_VIDEO_CODEC_ID_SORENSEN_H263
;
else
if
(
(
data_video
&
FLV_VIDEO_CODEC_ID_MASK
)
==
FLV_VIDEO_CODEC_ID_SCREEN_VIDEO
)
*
videocodecid
=
FLV_VIDEO_CODEC_ID_SCREEN_VIDEO
;
else
if
(
(
data_video
&
FLV_VIDEO_CODEC_ID_MASK
)
==
FLV_VIDEO_CODEC_ID_ON2_VP6
)
*
videocodecid
=
FLV_VIDEO_CODEC_ID_ON2_VP6
;
else
if
(
(
data_video
&
FLV_VIDEO_CODEC_ID_MASK
)
==
FLV_VIDEO_CODEC_ID_ON2_VP6_ALPHA
)
*
videocodecid
=
FLV_VIDEO_CODEC_ID_ON2_VP6_ALPHA
;
else
if
(
(
data_video
&
FLV_VIDEO_CODEC_ID_MASK
)
==
FLV_VIDEO_CODEC_ID_SCREEN_VIDEO_2
)
*
videocodecid
=
FLV_VIDEO_CODEC_ID_SCREEN_VIDEO_2
;
else
msg_Warn
(
p_thread
,
"unknown metadata video codec id"
);
if
(
(
data_video
&
FLV_VIDEO_FRAME_TYPE_MASK
)
==
FLV_VIDEO_FRAME_TYPE_KEYFRAME
)
*
frametype
=
FLV_VIDEO_FRAME_TYPE_KEYFRAME
>>
4
;
else
if
(
(
data_video
&
FLV_VIDEO_FRAME_TYPE_MASK
)
==
FLV_VIDEO_FRAME_TYPE_INTER_FRAME
)
*
frametype
=
FLV_VIDEO_FRAME_TYPE_INTER_FRAME
>>
4
;
else
if
(
(
data_video
&
FLV_VIDEO_FRAME_TYPE_MASK
)
==
FLV_VIDEO_FRAME_TYPE_DISPOSABLE_INTER_FRAME
)
*
frametype
=
FLV_VIDEO_FRAME_TYPE_DISPOSABLE_INTER_FRAME
>>
4
;
else
msg_Warn
(
p_thread
,
"unknown metadata video frame type"
);
}
static
rtmp_packet_t
*
flv_build_onMetaData
(
access_t
*
p_access
,
uint64_t
duration
,
uint8_t
stereo
,
uint8_t
audiosamplesize
,
uint32_t
audiosamplerate
,
uint8_t
audiocodecid
,
uint8_t
videocodecid
)
{
rtmp_packet_t
*
rtmp_packet
;
rtmp_body_t
*
rtmp_body
;
uint8_t
*
tmp_buffer
;
double
number
;
rtmp_body
=
rtmp_body_new
(
-
1
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_STRING
,
"onMetaData"
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_STRING
+
strlen
(
"onMetaData"
)
);
free
(
tmp_buffer
);
number
=
0
;
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_MIXED_ARRAY
,
&
number
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_MIXED_ARRAY
);
free
(
tmp_buffer
);
number
=
duration
;
tmp_buffer
=
amf_encode_object_variable
(
"duration"
,
AMF_DATATYPE_NUMBER
,
&
number
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"duration"
)
+
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_object_variable
(
"stereo"
,
AMF_DATATYPE_BOOLEAN
,
&
stereo
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"stereo"
)
+
AMF_DATATYPE_SIZE_BOOLEAN
);
free
(
tmp_buffer
);
number
=
audiosamplesize
;
tmp_buffer
=
amf_encode_object_variable
(
"audiosamplesize"
,
AMF_DATATYPE_NUMBER
,
&
number
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"audiosamplesize"
)
+
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
number
=
audiosamplerate
;
tmp_buffer
=
amf_encode_object_variable
(
"audiosamplerate"
,
AMF_DATATYPE_NUMBER
,
&
number
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"audiosamplerate"
)
+
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
number
=
audiocodecid
;
tmp_buffer
=
amf_encode_object_variable
(
"audiocodecid"
,
AMF_DATATYPE_NUMBER
,
&
number
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"audiocodecid"
)
+
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
number
=
videocodecid
;
tmp_buffer
=
amf_encode_object_variable
(
"videocodecid"
,
AMF_DATATYPE_NUMBER
,
&
number
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_OBJECT_VARIABLE
+
strlen
(
"videocodecid"
)
+
AMF_DATATYPE_SIZE_NUMBER
);
free
(
tmp_buffer
);
tmp_buffer
=
amf_encode_element
(
AMF_DATATYPE_END_OF_OBJECT
,
NULL
);
rtmp_body_append
(
rtmp_body
,
tmp_buffer
,
AMF_DATATYPE_SIZE_END_OF_OBJECT
);
free
(
tmp_buffer
);
rtmp_packet
=
rtmp_new_packet
(
p_access
->
p_sys
->
p_thread
,
RTMP_DEFAULT_STREAM_INDEX_INVOKE
,
0
,
RTMP_CONTENT_TYPE_NOTIFY
,
0
,
rtmp_body
);
free
(
rtmp_body
->
body
);
free
(
rtmp_body
);
return
rtmp_packet
;
}
block_t
*
flv_get_metadata
(
access_t
*
p_access
)
{
rtmp_control_thread_t
*
p_thread
=
p_access
->
p_sys
->
p_thread
;
block_t
*
p_buf
;
rtmp_packet_t
*
p_md
=
flv_build_onMetaData
(
p_access
,
0
,
p_thread
->
metadata_stereo
,
p_thread
->
metadata_samplesize
,
p_thread
->
metadata_samplerate
,
p_thread
->
metadata_audiocodecid
,
p_thread
->
metadata_videocodecid
);
flv_rebuild
(
p_thread
,
p_md
);
p_buf
=
rtmp_new_block
(
p_thread
,
p_md
->
body
->
body
,
p_md
->
body
->
length_buffer
);
rtmp_packet_free
(
p_md
);
return
p_buf
;
}
block_t
*
flv_insert_header
(
access_t
*
p_access
,
block_t
*
first_packet
)
{
access_sys_t
*
p_sys
=
p_access
->
p_sys
;
int
old_buffer_size
;
uint32_t
tmp_number
;
old_buffer_size
=
first_packet
->
i_buffer
;
first_packet
=
block_Realloc
(
first_packet
,
0
,
first_packet
->
i_buffer
+
FLV_HEADER_SIZE
);
memmove
(
first_packet
->
p_buffer
+
FLV_HEADER_SIZE
,
first_packet
->
p_buffer
,
old_buffer_size
);
memcpy
(
first_packet
->
p_buffer
,
FLV_HEADER_SIGNATURE
,
sizeof
(
FLV_HEADER_SIGNATURE
)
);
first_packet
->
p_buffer
[
3
]
=
FLV_HEADER_VERSION
;
if
(
p_sys
->
p_thread
->
has_audio
&&
p_sys
->
p_thread
->
has_video
)
first_packet
->
p_buffer
[
4
]
=
FLV_HEADER_AUDIO
|
FLV_HEADER_VIDEO
;
else
if
(
p_sys
->
p_thread
->
has_audio
)
first_packet
->
p_buffer
[
4
]
=
FLV_HEADER_AUDIO
;
else
first_packet
->
p_buffer
[
4
]
=
FLV_HEADER_VIDEO
;
tmp_number
=
hton32
(
FLV_HEADER_SIZE
);
memcpy
(
first_packet
->
p_buffer
+
5
,
&
tmp_number
,
sizeof
(
uint32_t
)
);
return
first_packet
;
}
void
rtmp_init_handler
(
rtmp_handler_t
*
rtmp_handler
)
{
rtmp_handler
[
RTMP_CONTENT_TYPE_CHUNK_SIZE
]
=
rtmp_handler_chunk_size
;
rtmp_handler
[
RTMP_CONTENT_TYPE_UNKNOWN_02
]
=
rtmp_handler_null
;
rtmp_handler
[
RTMP_CONTENT_TYPE_BYTES_READ
]
=
rtmp_handler_null
;
rtmp_handler
[
RTMP_CONTENT_TYPE_PING
]
=
rtmp_handler_null
;
rtmp_handler
[
RTMP_CONTENT_TYPE_SERVER_BW
]
=
rtmp_handler_null
;
rtmp_handler
[
RTMP_CONTENT_TYPE_CLIENT_BW
]
=
rtmp_handler_null
;
rtmp_handler
[
RTMP_CONTENT_TYPE_UNKNOWN_07
]
=
rtmp_handler_null
;
rtmp_handler
[
RTMP_CONTENT_TYPE_AUDIO_DATA
]
=
rtmp_handler_audio_data
;
rtmp_handler
[
RTMP_CONTENT_TYPE_VIDEO_DATA
]
=
rtmp_handler_video_data
;
rtmp_handler
[
RTMP_CONTENT_TYPE_UNKNOWN_0A_0E
]
=
rtmp_handler_null
;
rtmp_handler
[
RTMP_CONTENT_TYPE_FLEX_STREAM
]
=
rtmp_handler_null
;
rtmp_handler
[
RTMP_CONTENT_TYPE_FLEX_SHARED_OBJECT
]
=
rtmp_handler_null
;
rtmp_handler
[
RTMP_CONTENT_TYPE_MESSAGE
]
=
rtmp_handler_null
;
rtmp_handler
[
RTMP_CONTENT_TYPE_NOTIFY
]
=
rtmp_handler_notify
;
rtmp_handler
[
RTMP_CONTENT_TYPE_SHARED_OBJECT
]
=
rtmp_handler_null
;
rtmp_handler
[
RTMP_CONTENT_TYPE_INVOKE
]
=
rtmp_handler_invoke
;
}
modules/access/rtmp/rtmp_amf_flv.h
deleted
100644 → 0
View file @
269bc558
/*****************************************************************************
* rtmp_amf_flv.h: RTMP, AMF and FLV over RTMP implementation.
*****************************************************************************
* Copyright (C) URJC - LADyR - Luis Lopez Fernandez
*
* Author: Miguel Angel Cabrera Moya
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA.
*****************************************************************************/
/*****************************************************************************
* Local prototypes (continued from access.c)
*****************************************************************************/
typedef
struct
rtmp_packet_t
rtmp_packet_t
;
typedef
struct
rtmp_body_t
rtmp_body_t
;
typedef
struct
rtmp_control_thread_t
rtmp_control_thread_t
;
typedef
void
(
*
rtmp_handler_t
)(
rtmp_control_thread_t
*
p_thread
,
rtmp_packet_t
*
rtmp_packet
);
struct
rtmp_packet_t
{
int
length_header
;
int
stream_index
;
uint32_t
timestamp
;
uint32_t
timestamp_relative
;
int32_t
length_encoded
;
int32_t
length_body
;
uint8_t
content_type
;
uint32_t
src_dst
;
rtmp_body_t
*
body
;
};
struct
rtmp_body_t
{
int32_t
length_body
;
/* without interchunk headers */
int32_t
length_buffer
;
uint8_t
*
body
;
};
struct
rtmp_control_thread_t
{
VLC_COMMON_MEMBERS
int
fd
;
bool
b_error
;
vlc_url_t
url
;
char
*
psz_application
;
char
*
psz_media
;
char
*
psz_swf_url
;
char
*
psz_page_url
;
block_fifo_t
*
p_fifo_input
;
block_fifo_t
*
p_empty_blocks
;
vlc_mutex_t
lock
;
vlc_cond_t
wait
;
vlc_thread_t
thread
;
int
result_connect
;
int
result_publish
;
int
result_play
;
int
result_stop
;
double
stream_client_id
;
double
stream_server_id
;
char
*
psz_publish
;
/* Rebuild FLV variables (access) */
int
has_audio
;
int
has_video
;
int
metadata_received
;
uint8_t
metadata_stereo
;
uint8_t
metadata_samplesize
;
uint32_t
metadata_samplerate
;
uint8_t
metadata_audiocodecid
;
uint8_t
metadata_videocodecid
;
uint8_t
metadata_frametype
;
int
first_media_packet
;
uint32_t
flv_tag_previous_tag_size
;
/* Vars for rebuilding FLV (access_output) */
rtmp_body_t
*
flv_body
;
uint8_t
flv_content_type
;
uint32_t
flv_length_body
;
uint32_t
flv_timestamp
;
/* vars for channel state */
uint32_t
chunk_size_recv
;
uint32_t
chunk_size_send
;
rtmp_packet_t
rtmp_headers_recv
[
64
];
/* RTMP_HEADER_STREAM_MAX */
rtmp_packet_t
rtmp_headers_send
[
64
];
rtmp_handler_t
rtmp_handler
[
21
];
/* index by RTMP_CONTENT_TYPE */
/* Pointer to base module object (later needs to casted) */
void
*
p_base_object
;
};
struct
access_sys_t
{
int
active
;
/* vars for reading from fifo */
block_t
*
flv_packet
;
int
read_packet
;
/* thread for filtering and handling control messages */
rtmp_control_thread_t
*
p_thread
;
};
/*****************************************************************************
* RTMP header:
******************************************************************************/
int
rtmp_handshake_active
(
vlc_object_t
*
p_this
,
int
fd
);
int
rtmp_handshake_passive
(
vlc_object_t
*
p_this
,
int
fd
);
int
rtmp_connect_active
(
rtmp_control_thread_t
*
p_thread
);
int
rtmp_connect_passive
(
rtmp_control_thread_t
*
p_thread
);
//int rtmp_seek( access_t *p_access, int64_t i_pos ); TODO
//
rtmp_packet_t
*
rtmp_build_bytes_read
(
rtmp_control_thread_t
*
p_thread
,
uint32_t
reply
);
rtmp_packet_t
*
rtmp_build_publish_start
(
rtmp_control_thread_t
*
p_thread
);
rtmp_packet_t
*
rtmp_build_flv_over_rtmp
(
rtmp_control_thread_t
*
p_thread
,
block_t
*
p_buffer
);
rtmp_packet_t
*
rtmp_read_net_packet
(
rtmp_control_thread_t
*
p_thread
);
uint8_t
*
rtmp_encode_packet
(
rtmp_control_thread_t
*
p_thread
,
rtmp_packet_t
*
rtmp_packet
);
void
rtmp_init_handler
(
rtmp_handler_t
*
rtmp_handler
);
/*****************************************************************************
* FLV header:
******************************************************************************/
block_t
*
flv_get_metadata
(
access_t
*
p_access
);
block_t
*
flv_insert_header
(
access_t
*
p_access
,
block_t
*
first_packet
);
/*****************************************************************************
* RTMP body header:
******************************************************************************/
rtmp_body_t
*
rtmp_body_new
(
int
length_buffer
);
void
rtmp_body_reset
(
rtmp_body_t
*
);
po/POTFILES.in
View file @
7f9f6100
...
@@ -242,9 +242,6 @@ modules/access/rar/access.c
...
@@ -242,9 +242,6 @@ modules/access/rar/access.c
modules/access/rar/rar.c
modules/access/rar/rar.c
modules/access/rar/rar.h
modules/access/rar/rar.h
modules/access/rar/stream.c
modules/access/rar/stream.c
modules/access/rtmp/access.c
modules/access/rtmp/rtmp_amf_flv.c
modules/access/rtmp/rtmp_amf_flv.h
modules/access/rtp/input.c
modules/access/rtp/input.c
modules/access/rtp/rtp.c
modules/access/rtp/rtp.c
modules/access/rtp/rtp.h
modules/access/rtp/rtp.h
...
...
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