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srs/trunk/src/protocol/srs_rtmp_amf0.cpp
winlin a4f51564db rename kernel stream to buffer
2015-09-22 08:48:55 +08:00

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/*
The MIT License (MIT)
Copyright (c) 2013-2015 SRS(simple-rtmp-server)
Permission is hereby granted, free of charge, to any person obtaining a copy of
this software and associated documentation files (the "Software"), to deal in
the Software without restriction, including without limitation the rights to
use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
the Software, and to permit persons to whom the Software is furnished to do so,
subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#include <srs_rtmp_amf0.hpp>
#include <utility>
#include <vector>
#include <sstream>
using namespace std;
#include <srs_kernel_log.hpp>
#include <srs_kernel_error.hpp>
#include <srs_kernel_buffer.hpp>
#include <srs_protocol_json.hpp>
using namespace _srs_internal;
// AMF0 marker
#define RTMP_AMF0_Number 0x00
#define RTMP_AMF0_Boolean 0x01
#define RTMP_AMF0_String 0x02
#define RTMP_AMF0_Object 0x03
#define RTMP_AMF0_MovieClip 0x04 // reserved, not supported
#define RTMP_AMF0_Null 0x05
#define RTMP_AMF0_Undefined 0x06
#define RTMP_AMF0_Reference 0x07
#define RTMP_AMF0_EcmaArray 0x08
#define RTMP_AMF0_ObjectEnd 0x09
#define RTMP_AMF0_StrictArray 0x0A
#define RTMP_AMF0_Date 0x0B
#define RTMP_AMF0_LongString 0x0C
#define RTMP_AMF0_UnSupported 0x0D
#define RTMP_AMF0_RecordSet 0x0E // reserved, not supported
#define RTMP_AMF0_XmlDocument 0x0F
#define RTMP_AMF0_TypedObject 0x10
// AVM+ object is the AMF3 object.
#define RTMP_AMF0_AVMplusObject 0x11
// origin array whos data takes the same form as LengthValueBytes
#define RTMP_AMF0_OriginStrictArray 0x20
// User defined
#define RTMP_AMF0_Invalid 0x3F
SrsAmf0Any::SrsAmf0Any()
{
marker = RTMP_AMF0_Invalid;
}
SrsAmf0Any::~SrsAmf0Any()
{
}
bool SrsAmf0Any::is_string()
{
return marker == RTMP_AMF0_String;
}
bool SrsAmf0Any::is_boolean()
{
return marker == RTMP_AMF0_Boolean;
}
bool SrsAmf0Any::is_number()
{
return marker == RTMP_AMF0_Number;
}
bool SrsAmf0Any::is_null()
{
return marker == RTMP_AMF0_Null;
}
bool SrsAmf0Any::is_undefined()
{
return marker == RTMP_AMF0_Undefined;
}
bool SrsAmf0Any::is_object()
{
return marker == RTMP_AMF0_Object;
}
bool SrsAmf0Any::is_ecma_array()
{
return marker == RTMP_AMF0_EcmaArray;
}
bool SrsAmf0Any::is_strict_array()
{
return marker == RTMP_AMF0_StrictArray;
}
bool SrsAmf0Any::is_date()
{
return marker == RTMP_AMF0_Date;
}
bool SrsAmf0Any::is_complex_object()
{
return is_object() || is_object_eof() || is_ecma_array() || is_strict_array();
}
string SrsAmf0Any::to_str()
{
SrsAmf0String* p = dynamic_cast<SrsAmf0String*>(this);
srs_assert(p != NULL);
return p->value;
}
const char* SrsAmf0Any::to_str_raw()
{
SrsAmf0String* p = dynamic_cast<SrsAmf0String*>(this);
srs_assert(p != NULL);
return p->value.data();
}
bool SrsAmf0Any::to_boolean()
{
SrsAmf0Boolean* p = dynamic_cast<SrsAmf0Boolean*>(this);
srs_assert(p != NULL);
return p->value;
}
double SrsAmf0Any::to_number()
{
SrsAmf0Number* p = dynamic_cast<SrsAmf0Number*>(this);
srs_assert(p != NULL);
return p->value;
}
int64_t SrsAmf0Any::to_date()
{
SrsAmf0Date* p = dynamic_cast<SrsAmf0Date*>(this);
srs_assert(p != NULL);
return p->date();
}
int16_t SrsAmf0Any::to_date_time_zone()
{
SrsAmf0Date* p = dynamic_cast<SrsAmf0Date*>(this);
srs_assert(p != NULL);
return p->time_zone();
}
SrsAmf0Object* SrsAmf0Any::to_object()
{
SrsAmf0Object* p = dynamic_cast<SrsAmf0Object*>(this);
srs_assert(p != NULL);
return p;
}
SrsAmf0EcmaArray* SrsAmf0Any::to_ecma_array()
{
SrsAmf0EcmaArray* p = dynamic_cast<SrsAmf0EcmaArray*>(this);
srs_assert(p != NULL);
return p;
}
SrsAmf0StrictArray* SrsAmf0Any::to_strict_array()
{
SrsAmf0StrictArray* p = dynamic_cast<SrsAmf0StrictArray*>(this);
srs_assert(p != NULL);
return p;
}
void SrsAmf0Any::set_number(double value)
{
SrsAmf0Number* p = dynamic_cast<SrsAmf0Number*>(this);
srs_assert(p != NULL);
p->value = value;
}
bool SrsAmf0Any::is_object_eof()
{
return marker == RTMP_AMF0_ObjectEnd;
}
void srs_fill_level_spaces(stringstream& ss, int level)
{
for (int i = 0; i < level; i++) {
ss << " ";
}
}
void srs_amf0_do_print(SrsAmf0Any* any, stringstream& ss, int level)
{
if (any->is_boolean()) {
ss << "Boolean " << (any->to_boolean()? "true":"false") << endl;
} else if (any->is_number()) {
ss << "Number " << std::fixed << any->to_number() << endl;
} else if (any->is_string()) {
ss << "String " << any->to_str() << endl;
} else if (any->is_date()) {
ss << "Date " << std::hex << any->to_date()
<< "/" << std::hex << any->to_date_time_zone() << endl;
} else if (any->is_null()) {
ss << "Null" << endl;
} else if (any->is_ecma_array()) {
SrsAmf0EcmaArray* obj = any->to_ecma_array();
ss << "EcmaArray " << "(" << obj->count() << " items)" << endl;
for (int i = 0; i < obj->count(); i++) {
srs_fill_level_spaces(ss, level + 1);
ss << "Elem '" << obj->key_at(i) << "' ";
if (obj->value_at(i)->is_complex_object()) {
srs_amf0_do_print(obj->value_at(i), ss, level + 1);
} else {
srs_amf0_do_print(obj->value_at(i), ss, 0);
}
}
} else if (any->is_strict_array()) {
SrsAmf0StrictArray* obj = any->to_strict_array();
ss << "StrictArray " << "(" << obj->count() << " items)" << endl;
for (int i = 0; i < obj->count(); i++) {
srs_fill_level_spaces(ss, level + 1);
ss << "Elem ";
if (obj->at(i)->is_complex_object()) {
srs_amf0_do_print(obj->at(i), ss, level + 1);
} else {
srs_amf0_do_print(obj->at(i), ss, 0);
}
}
} else if (any->is_object()) {
SrsAmf0Object* obj = any->to_object();
ss << "Object " << "(" << obj->count() << " items)" << endl;
for (int i = 0; i < obj->count(); i++) {
srs_fill_level_spaces(ss, level + 1);
ss << "Property '" << obj->key_at(i) << "' ";
if (obj->value_at(i)->is_complex_object()) {
srs_amf0_do_print(obj->value_at(i), ss, level + 1);
} else {
srs_amf0_do_print(obj->value_at(i), ss, 0);
}
}
} else {
ss << "Unknown" << endl;
}
}
char* SrsAmf0Any::human_print(char** pdata, int* psize)
{
stringstream ss;
ss.precision(1);
srs_amf0_do_print(this, ss, 0);
string str = ss.str();
if (str.empty()) {
return NULL;
}
char* data = new char[str.length() + 1];
memcpy(data, str.data(), str.length());
data[str.length()] = 0;
if (pdata) {
*pdata = data;
}
if (psize) {
*psize = (int)str.length();
}
return data;
}
SrsJsonAny* SrsAmf0Any::to_json()
{
switch (marker) {
case RTMP_AMF0_String: {
return SrsJsonAny::str(to_str().c_str());
}
case RTMP_AMF0_Boolean: {
return SrsJsonAny::boolean(to_boolean());
}
case RTMP_AMF0_Number: {
double dv = to_number();
int64_t iv = (int64_t)dv;
if (iv == dv) {
return SrsJsonAny::integer(iv);
} else {
return SrsJsonAny::number(dv);
}
}
case RTMP_AMF0_Null: {
return SrsJsonAny::null();
}
case RTMP_AMF0_Undefined: {
return SrsJsonAny::null();
}
case RTMP_AMF0_Object: {
// amf0 object implements it.
srs_assert(false);
}
case RTMP_AMF0_EcmaArray: {
// amf0 ecma array implements it.
srs_assert(false);
}
case RTMP_AMF0_StrictArray: {
// amf0 strict array implements it.
srs_assert(false);
}
case RTMP_AMF0_Date: {
// TODO: FIXME: implements it.
return SrsJsonAny::null();
}
default: {
return SrsJsonAny::null();
}
}
}
SrsAmf0Any* SrsAmf0Any::str(const char* value)
{
return new SrsAmf0String(value);
}
SrsAmf0Any* SrsAmf0Any::boolean(bool value)
{
return new SrsAmf0Boolean(value);
}
SrsAmf0Any* SrsAmf0Any::number(double value)
{
return new SrsAmf0Number(value);
}
SrsAmf0Any* SrsAmf0Any::null()
{
return new SrsAmf0Null();
}
SrsAmf0Any* SrsAmf0Any::undefined()
{
return new SrsAmf0Undefined();
}
SrsAmf0Object* SrsAmf0Any::object()
{
return new SrsAmf0Object();
}
SrsAmf0Any* SrsAmf0Any::object_eof()
{
return new SrsAmf0ObjectEOF();
}
SrsAmf0EcmaArray* SrsAmf0Any::ecma_array()
{
return new SrsAmf0EcmaArray();
}
SrsAmf0StrictArray* SrsAmf0Any::strict_array()
{
return new SrsAmf0StrictArray();
}
SrsAmf0Any* SrsAmf0Any::date(int64_t value)
{
return new SrsAmf0Date(value);
}
int SrsAmf0Any::discovery(SrsStream* stream, SrsAmf0Any** ppvalue)
{
int ret = ERROR_SUCCESS;
// detect the object-eof specially
if (srs_amf0_is_object_eof(stream)) {
*ppvalue = new SrsAmf0ObjectEOF();
return ret;
}
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read any marker failed. ret=%d", ret);
return ret;
}
char marker = stream->read_1bytes();
srs_verbose("amf0 any marker success");
// backward the 1byte marker.
stream->skip(-1);
switch (marker) {
case RTMP_AMF0_String: {
*ppvalue = SrsAmf0Any::str();
return ret;
}
case RTMP_AMF0_Boolean: {
*ppvalue = SrsAmf0Any::boolean();
return ret;
}
case RTMP_AMF0_Number: {
*ppvalue = SrsAmf0Any::number();
return ret;
}
case RTMP_AMF0_Null: {
*ppvalue = SrsAmf0Any::null();
return ret;
}
case RTMP_AMF0_Undefined: {
*ppvalue = SrsAmf0Any::undefined();
return ret;
}
case RTMP_AMF0_Object: {
*ppvalue = SrsAmf0Any::object();
return ret;
}
case RTMP_AMF0_EcmaArray: {
*ppvalue = SrsAmf0Any::ecma_array();
return ret;
}
case RTMP_AMF0_StrictArray: {
*ppvalue = SrsAmf0Any::strict_array();
return ret;
}
case RTMP_AMF0_Date: {
*ppvalue = SrsAmf0Any::date();
return ret;
}
case RTMP_AMF0_Invalid:
default: {
ret = ERROR_RTMP_AMF0_INVALID;
srs_error("invalid amf0 message type. marker=%#x, ret=%d", marker, ret);
return ret;
}
}
}
SrsUnSortedHashtable::SrsUnSortedHashtable()
{
}
SrsUnSortedHashtable::~SrsUnSortedHashtable()
{
clear();
}
int SrsUnSortedHashtable::count()
{
return (int)properties.size();
}
void SrsUnSortedHashtable::clear()
{
std::vector<SrsAmf0ObjectPropertyType>::iterator it;
for (it = properties.begin(); it != properties.end(); ++it) {
SrsAmf0ObjectPropertyType& elem = *it;
SrsAmf0Any* any = elem.second;
srs_freep(any);
}
properties.clear();
}
string SrsUnSortedHashtable::key_at(int index)
{
srs_assert(index < count());
SrsAmf0ObjectPropertyType& elem = properties[index];
return elem.first;
}
const char* SrsUnSortedHashtable::key_raw_at(int index)
{
srs_assert(index < count());
SrsAmf0ObjectPropertyType& elem = properties[index];
return elem.first.data();
}
SrsAmf0Any* SrsUnSortedHashtable::value_at(int index)
{
srs_assert(index < count());
SrsAmf0ObjectPropertyType& elem = properties[index];
return elem.second;
}
void SrsUnSortedHashtable::set(string key, SrsAmf0Any* value)
{
std::vector<SrsAmf0ObjectPropertyType>::iterator it;
for (it = properties.begin(); it != properties.end(); ++it) {
SrsAmf0ObjectPropertyType& elem = *it;
std::string name = elem.first;
SrsAmf0Any* any = elem.second;
if (key == name) {
srs_freep(any);
properties.erase(it);
break;
}
}
if (value) {
properties.push_back(std::make_pair(key, value));
}
}
SrsAmf0Any* SrsUnSortedHashtable::get_property(string name)
{
std::vector<SrsAmf0ObjectPropertyType>::iterator it;
for (it = properties.begin(); it != properties.end(); ++it) {
SrsAmf0ObjectPropertyType& elem = *it;
std::string key = elem.first;
SrsAmf0Any* any = elem.second;
if (key == name) {
return any;
}
}
return NULL;
}
SrsAmf0Any* SrsUnSortedHashtable::ensure_property_string(string name)
{
SrsAmf0Any* prop = get_property(name);
if (!prop) {
return NULL;
}
if (!prop->is_string()) {
return NULL;
}
return prop;
}
SrsAmf0Any* SrsUnSortedHashtable::ensure_property_number(string name)
{
SrsAmf0Any* prop = get_property(name);
if (!prop) {
return NULL;
}
if (!prop->is_number()) {
return NULL;
}
return prop;
}
void SrsUnSortedHashtable::copy(SrsUnSortedHashtable* src)
{
std::vector<SrsAmf0ObjectPropertyType>::iterator it;
for (it = src->properties.begin(); it != src->properties.end(); ++it) {
SrsAmf0ObjectPropertyType& elem = *it;
std::string key = elem.first;
SrsAmf0Any* any = elem.second;
set(key, any->copy());
}
}
SrsAmf0ObjectEOF::SrsAmf0ObjectEOF()
{
marker = RTMP_AMF0_ObjectEnd;
}
SrsAmf0ObjectEOF::~SrsAmf0ObjectEOF()
{
}
int SrsAmf0ObjectEOF::total_size()
{
return SrsAmf0Size::object_eof();
}
int SrsAmf0ObjectEOF::read(SrsStream* stream)
{
int ret = ERROR_SUCCESS;
// value
if (!stream->require(2)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read object eof value failed. ret=%d", ret);
return ret;
}
int16_t temp = stream->read_2bytes();
if (temp != 0x00) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read object eof value check failed. "
"must be 0x00, actual is %#x, ret=%d", temp, ret);
return ret;
}
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read object eof marker failed. ret=%d", ret);
return ret;
}
char marker = stream->read_1bytes();
if (marker != RTMP_AMF0_ObjectEnd) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 check object eof marker failed. "
"marker=%#x, required=%#x, ret=%d", marker, RTMP_AMF0_ObjectEnd, ret);
return ret;
}
srs_verbose("amf0 read object eof marker success");
srs_verbose("amf0 read object eof success");
return ret;
}
int SrsAmf0ObjectEOF::write(SrsStream* stream)
{
int ret = ERROR_SUCCESS;
// value
if (!stream->require(2)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write object eof value failed. ret=%d", ret);
return ret;
}
stream->write_2bytes(0x00);
srs_verbose("amf0 write object eof value success");
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write object eof marker failed. ret=%d", ret);
return ret;
}
stream->write_1bytes(RTMP_AMF0_ObjectEnd);
srs_verbose("amf0 read object eof success");
return ret;
}
SrsAmf0Any* SrsAmf0ObjectEOF::copy()
{
return new SrsAmf0ObjectEOF();
}
SrsAmf0Object::SrsAmf0Object()
{
properties = new SrsUnSortedHashtable();
eof = new SrsAmf0ObjectEOF();
marker = RTMP_AMF0_Object;
}
SrsAmf0Object::~SrsAmf0Object()
{
srs_freep(properties);
srs_freep(eof);
}
int SrsAmf0Object::total_size()
{
int size = 1;
for (int i = 0; i < properties->count(); i++){
std::string name = key_at(i);
SrsAmf0Any* value = value_at(i);
size += SrsAmf0Size::utf8(name);
size += SrsAmf0Size::any(value);
}
size += SrsAmf0Size::object_eof();
return size;
}
int SrsAmf0Object::read(SrsStream* stream)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read object marker failed. ret=%d", ret);
return ret;
}
char marker = stream->read_1bytes();
if (marker != RTMP_AMF0_Object) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 check object marker failed. "
"marker=%#x, required=%#x, ret=%d", marker, RTMP_AMF0_Object, ret);
return ret;
}
srs_verbose("amf0 read object marker success");
// value
while (!stream->empty()) {
// detect whether is eof.
if (srs_amf0_is_object_eof(stream)) {
SrsAmf0ObjectEOF pbj_eof;
if ((ret = pbj_eof.read(stream)) != ERROR_SUCCESS) {
srs_error("amf0 object read eof failed. ret=%d", ret);
return ret;
}
srs_info("amf0 read object EOF.");
break;
}
// property-name: utf8 string
std::string property_name;
if ((ret = srs_amf0_read_utf8(stream, property_name)) != ERROR_SUCCESS) {
srs_error("amf0 object read property name failed. ret=%d", ret);
return ret;
}
// property-value: any
SrsAmf0Any* property_value = NULL;
if ((ret = srs_amf0_read_any(stream, &property_value)) != ERROR_SUCCESS) {
srs_error("amf0 object read property_value failed. "
"name=%s, ret=%d", property_name.c_str(), ret);
srs_freep(property_value);
return ret;
}
// add property
this->set(property_name, property_value);
}
return ret;
}
int SrsAmf0Object::write(SrsStream* stream)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write object marker failed. ret=%d", ret);
return ret;
}
stream->write_1bytes(RTMP_AMF0_Object);
srs_verbose("amf0 write object marker success");
// value
for (int i = 0; i < properties->count(); i++) {
std::string name = this->key_at(i);
SrsAmf0Any* any = this->value_at(i);
if ((ret = srs_amf0_write_utf8(stream, name)) != ERROR_SUCCESS) {
srs_error("write object property name failed. ret=%d", ret);
return ret;
}
if ((ret = srs_amf0_write_any(stream, any)) != ERROR_SUCCESS) {
srs_error("write object property value failed. ret=%d", ret);
return ret;
}
srs_verbose("write amf0 property success. name=%s", name.c_str());
}
if ((ret = eof->write(stream)) != ERROR_SUCCESS) {
srs_error("write object eof failed. ret=%d", ret);
return ret;
}
srs_verbose("write amf0 object success.");
return ret;
}
SrsAmf0Any* SrsAmf0Object::copy()
{
SrsAmf0Object* copy = new SrsAmf0Object();
copy->properties->copy(properties);
return copy;
}
SrsJsonAny* SrsAmf0Object::to_json()
{
SrsJsonObject* obj = SrsJsonAny::object();
for (int i = 0; i < properties->count(); i++) {
std::string name = this->key_at(i);
SrsAmf0Any* any = this->value_at(i);
obj->set(name, any->to_json());
}
return obj;
}
void SrsAmf0Object::clear()
{
properties->clear();
}
int SrsAmf0Object::count()
{
return properties->count();
}
string SrsAmf0Object::key_at(int index)
{
return properties->key_at(index);
}
const char* SrsAmf0Object::key_raw_at(int index)
{
return properties->key_raw_at(index);
}
SrsAmf0Any* SrsAmf0Object::value_at(int index)
{
return properties->value_at(index);
}
void SrsAmf0Object::set(string key, SrsAmf0Any* value)
{
properties->set(key, value);
}
SrsAmf0Any* SrsAmf0Object::get_property(string name)
{
return properties->get_property(name);
}
SrsAmf0Any* SrsAmf0Object::ensure_property_string(string name)
{
return properties->ensure_property_string(name);
}
SrsAmf0Any* SrsAmf0Object::ensure_property_number(string name)
{
return properties->ensure_property_number(name);
}
SrsAmf0EcmaArray::SrsAmf0EcmaArray()
{
_count = 0;
properties = new SrsUnSortedHashtable();
eof = new SrsAmf0ObjectEOF();
marker = RTMP_AMF0_EcmaArray;
}
SrsAmf0EcmaArray::~SrsAmf0EcmaArray()
{
srs_freep(properties);
srs_freep(eof);
}
int SrsAmf0EcmaArray::total_size()
{
int size = 1 + 4;
for (int i = 0; i < properties->count(); i++){
std::string name = key_at(i);
SrsAmf0Any* value = value_at(i);
size += SrsAmf0Size::utf8(name);
size += SrsAmf0Size::any(value);
}
size += SrsAmf0Size::object_eof();
return size;
}
int SrsAmf0EcmaArray::read(SrsStream* stream)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read ecma_array marker failed. ret=%d", ret);
return ret;
}
char marker = stream->read_1bytes();
if (marker != RTMP_AMF0_EcmaArray) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 check ecma_array marker failed. "
"marker=%#x, required=%#x, ret=%d", marker, RTMP_AMF0_EcmaArray, ret);
return ret;
}
srs_verbose("amf0 read ecma_array marker success");
// count
if (!stream->require(4)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read ecma_array count failed. ret=%d", ret);
return ret;
}
int32_t count = stream->read_4bytes();
srs_verbose("amf0 read ecma_array count success. count=%d", count);
// value
this->_count = count;
while (!stream->empty()) {
// detect whether is eof.
if (srs_amf0_is_object_eof(stream)) {
SrsAmf0ObjectEOF pbj_eof;
if ((ret = pbj_eof.read(stream)) != ERROR_SUCCESS) {
srs_error("amf0 ecma_array read eof failed. ret=%d", ret);
return ret;
}
srs_info("amf0 read ecma_array EOF.");
break;
}
// property-name: utf8 string
std::string property_name;
if ((ret =srs_amf0_read_utf8(stream, property_name)) != ERROR_SUCCESS) {
srs_error("amf0 ecma_array read property name failed. ret=%d", ret);
return ret;
}
// property-value: any
SrsAmf0Any* property_value = NULL;
if ((ret = srs_amf0_read_any(stream, &property_value)) != ERROR_SUCCESS) {
srs_error("amf0 ecma_array read property_value failed. "
"name=%s, ret=%d", property_name.c_str(), ret);
return ret;
}
// add property
this->set(property_name, property_value);
}
return ret;
}
int SrsAmf0EcmaArray::write(SrsStream* stream)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write ecma_array marker failed. ret=%d", ret);
return ret;
}
stream->write_1bytes(RTMP_AMF0_EcmaArray);
srs_verbose("amf0 write ecma_array marker success");
// count
if (!stream->require(4)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write ecma_array count failed. ret=%d", ret);
return ret;
}
stream->write_4bytes(this->_count);
srs_verbose("amf0 write ecma_array count success. count=%d", _count);
// value
for (int i = 0; i < properties->count(); i++) {
std::string name = this->key_at(i);
SrsAmf0Any* any = this->value_at(i);
if ((ret = srs_amf0_write_utf8(stream, name)) != ERROR_SUCCESS) {
srs_error("write ecma_array property name failed. ret=%d", ret);
return ret;
}
if ((ret = srs_amf0_write_any(stream, any)) != ERROR_SUCCESS) {
srs_error("write ecma_array property value failed. ret=%d", ret);
return ret;
}
srs_verbose("write amf0 property success. name=%s", name.c_str());
}
if ((ret = eof->write(stream)) != ERROR_SUCCESS) {
srs_error("write ecma_array eof failed. ret=%d", ret);
return ret;
}
srs_verbose("write ecma_array object success.");
return ret;
}
SrsAmf0Any* SrsAmf0EcmaArray::copy()
{
SrsAmf0EcmaArray* copy = new SrsAmf0EcmaArray();
copy->properties->copy(properties);
copy->_count = _count;
return copy;
}
SrsJsonAny* SrsAmf0EcmaArray::to_json()
{
SrsJsonObject* obj = SrsJsonAny::object();
for (int i = 0; i < properties->count(); i++) {
std::string name = this->key_at(i);
SrsAmf0Any* any = this->value_at(i);
obj->set(name, any->to_json());
}
return obj;
}
void SrsAmf0EcmaArray::clear()
{
properties->clear();
}
int SrsAmf0EcmaArray::count()
{
return properties->count();
}
string SrsAmf0EcmaArray::key_at(int index)
{
return properties->key_at(index);
}
const char* SrsAmf0EcmaArray::key_raw_at(int index)
{
return properties->key_raw_at(index);
}
SrsAmf0Any* SrsAmf0EcmaArray::value_at(int index)
{
return properties->value_at(index);
}
void SrsAmf0EcmaArray::set(string key, SrsAmf0Any* value)
{
properties->set(key, value);
}
SrsAmf0Any* SrsAmf0EcmaArray::get_property(string name)
{
return properties->get_property(name);
}
SrsAmf0Any* SrsAmf0EcmaArray::ensure_property_string(string name)
{
return properties->ensure_property_string(name);
}
SrsAmf0Any* SrsAmf0EcmaArray::ensure_property_number(string name)
{
return properties->ensure_property_number(name);
}
SrsAmf0StrictArray::SrsAmf0StrictArray()
{
marker = RTMP_AMF0_StrictArray;
_count = 0;
}
SrsAmf0StrictArray::~SrsAmf0StrictArray()
{
std::vector<SrsAmf0Any*>::iterator it;
for (it = properties.begin(); it != properties.end(); ++it) {
SrsAmf0Any* any = *it;
srs_freep(any);
}
properties.clear();
}
int SrsAmf0StrictArray::total_size()
{
int size = 1 + 4;
for (int i = 0; i < (int)properties.size(); i++){
SrsAmf0Any* any = properties[i];
size += any->total_size();
}
return size;
}
int SrsAmf0StrictArray::read(SrsStream* stream)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read strict_array marker failed. ret=%d", ret);
return ret;
}
char marker = stream->read_1bytes();
if (marker != RTMP_AMF0_StrictArray) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 check strict_array marker failed. "
"marker=%#x, required=%#x, ret=%d", marker, RTMP_AMF0_StrictArray, ret);
return ret;
}
srs_verbose("amf0 read strict_array marker success");
// count
if (!stream->require(4)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read strict_array count failed. ret=%d", ret);
return ret;
}
int32_t count = stream->read_4bytes();
srs_verbose("amf0 read strict_array count success. count=%d", count);
// value
this->_count = count;
for (int i = 0; i < count && !stream->empty(); i++) {
// property-value: any
SrsAmf0Any* elem = NULL;
if ((ret = srs_amf0_read_any(stream, &elem)) != ERROR_SUCCESS) {
srs_error("amf0 strict_array read value failed. ret=%d", ret);
return ret;
}
// add property
properties.push_back(elem);
}
return ret;
}
int SrsAmf0StrictArray::write(SrsStream* stream)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write strict_array marker failed. ret=%d", ret);
return ret;
}
stream->write_1bytes(RTMP_AMF0_StrictArray);
srs_verbose("amf0 write strict_array marker success");
// count
if (!stream->require(4)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write strict_array count failed. ret=%d", ret);
return ret;
}
stream->write_4bytes(this->_count);
srs_verbose("amf0 write strict_array count success. count=%d", _count);
// value
for (int i = 0; i < (int)properties.size(); i++) {
SrsAmf0Any* any = properties[i];
if ((ret = srs_amf0_write_any(stream, any)) != ERROR_SUCCESS) {
srs_error("write strict_array property value failed. ret=%d", ret);
return ret;
}
srs_verbose("write amf0 property success.");
}
srs_verbose("write strict_array object success.");
return ret;
}
SrsAmf0Any* SrsAmf0StrictArray::copy()
{
SrsAmf0StrictArray* copy = new SrsAmf0StrictArray();
std::vector<SrsAmf0Any*>::iterator it;
for (it = properties.begin(); it != properties.end(); ++it) {
SrsAmf0Any* any = *it;
copy->append(any->copy());
}
copy->_count = _count;
return copy;
}
SrsJsonAny* SrsAmf0StrictArray::to_json()
{
SrsJsonArray* arr = SrsJsonAny::array();
for (int i = 0; i < (int)properties.size(); i++) {
SrsAmf0Any* any = properties[i];
arr->append(any->to_json());
}
return arr;
}
void SrsAmf0StrictArray::clear()
{
properties.clear();
}
int SrsAmf0StrictArray::count()
{
return (int)properties.size();
}
SrsAmf0Any* SrsAmf0StrictArray::at(int index)
{
srs_assert(index < (int)properties.size());
return properties.at(index);
}
void SrsAmf0StrictArray::append(SrsAmf0Any* any)
{
properties.push_back(any);
_count = (int32_t)properties.size();
}
int SrsAmf0Size::utf8(string value)
{
return 2 + value.length();
}
int SrsAmf0Size::str(string value)
{
return 1 + SrsAmf0Size::utf8(value);
}
int SrsAmf0Size::number()
{
return 1 + 8;
}
int SrsAmf0Size::date()
{
return 1 + 8 + 2;
}
int SrsAmf0Size::null()
{
return 1;
}
int SrsAmf0Size::undefined()
{
return 1;
}
int SrsAmf0Size::boolean()
{
return 1 + 1;
}
int SrsAmf0Size::object(SrsAmf0Object* obj)
{
if (!obj) {
return 0;
}
return obj->total_size();
}
int SrsAmf0Size::object_eof()
{
return 2 + 1;
}
int SrsAmf0Size::ecma_array(SrsAmf0EcmaArray* arr)
{
if (!arr) {
return 0;
}
return arr->total_size();
}
int SrsAmf0Size::strict_array(SrsAmf0StrictArray* arr)
{
if (!arr) {
return 0;
}
return arr->total_size();
}
int SrsAmf0Size::any(SrsAmf0Any* o)
{
if (!o) {
return 0;
}
return o->total_size();
}
SrsAmf0String::SrsAmf0String(const char* _value)
{
marker = RTMP_AMF0_String;
if (_value) {
value = _value;
}
}
SrsAmf0String::~SrsAmf0String()
{
}
int SrsAmf0String::total_size()
{
return SrsAmf0Size::str(value);
}
int SrsAmf0String::read(SrsStream* stream)
{
return srs_amf0_read_string(stream, value);
}
int SrsAmf0String::write(SrsStream* stream)
{
return srs_amf0_write_string(stream, value);
}
SrsAmf0Any* SrsAmf0String::copy()
{
SrsAmf0String* copy = new SrsAmf0String(value.c_str());
return copy;
}
SrsAmf0Boolean::SrsAmf0Boolean(bool _value)
{
marker = RTMP_AMF0_Boolean;
value = _value;
}
SrsAmf0Boolean::~SrsAmf0Boolean()
{
}
int SrsAmf0Boolean::total_size()
{
return SrsAmf0Size::boolean();
}
int SrsAmf0Boolean::read(SrsStream* stream)
{
return srs_amf0_read_boolean(stream, value);
}
int SrsAmf0Boolean::write(SrsStream* stream)
{
return srs_amf0_write_boolean(stream, value);
}
SrsAmf0Any* SrsAmf0Boolean::copy()
{
SrsAmf0Boolean* copy = new SrsAmf0Boolean(value);
return copy;
}
SrsAmf0Number::SrsAmf0Number(double _value)
{
marker = RTMP_AMF0_Number;
value = _value;
}
SrsAmf0Number::~SrsAmf0Number()
{
}
int SrsAmf0Number::total_size()
{
return SrsAmf0Size::number();
}
int SrsAmf0Number::read(SrsStream* stream)
{
return srs_amf0_read_number(stream, value);
}
int SrsAmf0Number::write(SrsStream* stream)
{
return srs_amf0_write_number(stream, value);
}
SrsAmf0Any* SrsAmf0Number::copy()
{
SrsAmf0Number* copy = new SrsAmf0Number(value);
return copy;
}
SrsAmf0Date::SrsAmf0Date(int64_t value)
{
marker = RTMP_AMF0_Date;
_date_value = value;
_time_zone = 0;
}
SrsAmf0Date::~SrsAmf0Date()
{
}
int SrsAmf0Date::total_size()
{
return SrsAmf0Size::date();
}
int SrsAmf0Date::read(SrsStream* stream)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read date marker failed. ret=%d", ret);
return ret;
}
char marker = stream->read_1bytes();
if (marker != RTMP_AMF0_Date) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 check date marker failed. "
"marker=%#x, required=%#x, ret=%d", marker, RTMP_AMF0_Date, ret);
return ret;
}
srs_verbose("amf0 read date marker success");
// date value
// An ActionScript Date is serialized as the number of milliseconds
// elapsed since the epoch of midnight on 1st Jan 1970 in the UTC
// time zone.
if (!stream->require(8)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read date failed. ret=%d", ret);
return ret;
}
_date_value = stream->read_8bytes();
srs_verbose("amf0 read date success. date=%"PRId64, _date_value);
// time zone
// While the design of this type reserves room for time zone offset
// information, it should not be filled in, nor used, as it is unconventional
// to change time zones when serializing dates on a network. It is suggested
// that the time zone be queried independently as needed.
if (!stream->require(2)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read time zone failed. ret=%d", ret);
return ret;
}
_time_zone = stream->read_2bytes();
srs_verbose("amf0 read time zone success. zone=%d", _time_zone);
return ret;
}
int SrsAmf0Date::write(SrsStream* stream)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write date marker failed. ret=%d", ret);
return ret;
}
stream->write_1bytes(RTMP_AMF0_Date);
srs_verbose("amf0 write date marker success");
// date value
if (!stream->require(8)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write date failed. ret=%d", ret);
return ret;
}
stream->write_8bytes(_date_value);
srs_verbose("amf0 write date success. date=%"PRId64, _date_value);
// time zone
if (!stream->require(2)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write time zone failed. ret=%d", ret);
return ret;
}
stream->write_2bytes(_time_zone);
srs_verbose("amf0 write time zone success. date=%d", _time_zone);
srs_verbose("write date object success.");
return ret;
}
SrsAmf0Any* SrsAmf0Date::copy()
{
SrsAmf0Date* copy = new SrsAmf0Date(0);
copy->_date_value = _date_value;
copy->_time_zone = _time_zone;
return copy;
}
int64_t SrsAmf0Date::date()
{
return _date_value;
}
int16_t SrsAmf0Date::time_zone()
{
return _time_zone;
}
SrsAmf0Null::SrsAmf0Null()
{
marker = RTMP_AMF0_Null;
}
SrsAmf0Null::~SrsAmf0Null()
{
}
int SrsAmf0Null::total_size()
{
return SrsAmf0Size::null();
}
int SrsAmf0Null::read(SrsStream* stream)
{
return srs_amf0_read_null(stream);
}
int SrsAmf0Null::write(SrsStream* stream)
{
return srs_amf0_write_null(stream);
}
SrsAmf0Any* SrsAmf0Null::copy()
{
SrsAmf0Null* copy = new SrsAmf0Null();
return copy;
}
SrsAmf0Undefined::SrsAmf0Undefined()
{
marker = RTMP_AMF0_Undefined;
}
SrsAmf0Undefined::~SrsAmf0Undefined()
{
}
int SrsAmf0Undefined::total_size()
{
return SrsAmf0Size::undefined();
}
int SrsAmf0Undefined::read(SrsStream* stream)
{
return srs_amf0_read_undefined(stream);
}
int SrsAmf0Undefined::write(SrsStream* stream)
{
return srs_amf0_write_undefined(stream);
}
SrsAmf0Any* SrsAmf0Undefined::copy()
{
SrsAmf0Undefined* copy = new SrsAmf0Undefined();
return copy;
}
int srs_amf0_read_any(SrsStream* stream, SrsAmf0Any** ppvalue)
{
int ret = ERROR_SUCCESS;
if ((ret = SrsAmf0Any::discovery(stream, ppvalue)) != ERROR_SUCCESS) {
srs_error("amf0 discovery any elem failed. ret=%d", ret);
return ret;
}
srs_assert(*ppvalue);
if ((ret = (*ppvalue)->read(stream)) != ERROR_SUCCESS) {
srs_error("amf0 parse elem failed. ret=%d", ret);
srs_freep(*ppvalue);
return ret;
}
return ret;
}
int srs_amf0_read_string(SrsStream* stream, string& value)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read string marker failed. ret=%d", ret);
return ret;
}
char marker = stream->read_1bytes();
if (marker != RTMP_AMF0_String) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 check string marker failed. "
"marker=%#x, required=%#x, ret=%d", marker, RTMP_AMF0_String, ret);
return ret;
}
srs_verbose("amf0 read string marker success");
return srs_amf0_read_utf8(stream, value);
}
int srs_amf0_write_string(SrsStream* stream, string value)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write string marker failed. ret=%d", ret);
return ret;
}
stream->write_1bytes(RTMP_AMF0_String);
srs_verbose("amf0 write string marker success");
return srs_amf0_write_utf8(stream, value);
}
int srs_amf0_read_boolean(SrsStream* stream, bool& value)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read bool marker failed. ret=%d", ret);
return ret;
}
char marker = stream->read_1bytes();
if (marker != RTMP_AMF0_Boolean) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 check bool marker failed. "
"marker=%#x, required=%#x, ret=%d", marker, RTMP_AMF0_Boolean, ret);
return ret;
}
srs_verbose("amf0 read bool marker success");
// value
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read bool value failed. ret=%d", ret);
return ret;
}
value = (stream->read_1bytes() != 0);
srs_verbose("amf0 read bool value success. value=%d", value);
return ret;
}
int srs_amf0_write_boolean(SrsStream* stream, bool value)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write bool marker failed. ret=%d", ret);
return ret;
}
stream->write_1bytes(RTMP_AMF0_Boolean);
srs_verbose("amf0 write bool marker success");
// value
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write bool value failed. ret=%d", ret);
return ret;
}
if (value) {
stream->write_1bytes(0x01);
} else {
stream->write_1bytes(0x00);
}
srs_verbose("amf0 write bool value success. value=%d", value);
return ret;
}
int srs_amf0_read_number(SrsStream* stream, double& value)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read number marker failed. ret=%d", ret);
return ret;
}
char marker = stream->read_1bytes();
if (marker != RTMP_AMF0_Number) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 check number marker failed. "
"marker=%#x, required=%#x, ret=%d", marker, RTMP_AMF0_Number, ret);
return ret;
}
srs_verbose("amf0 read number marker success");
// value
if (!stream->require(8)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read number value failed. ret=%d", ret);
return ret;
}
int64_t temp = stream->read_8bytes();
memcpy(&value, &temp, 8);
srs_verbose("amf0 read number value success. value=%.2f", value);
return ret;
}
int srs_amf0_write_number(SrsStream* stream, double value)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write number marker failed. ret=%d", ret);
return ret;
}
stream->write_1bytes(RTMP_AMF0_Number);
srs_verbose("amf0 write number marker success");
// value
if (!stream->require(8)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write number value failed. ret=%d", ret);
return ret;
}
int64_t temp = 0x00;
memcpy(&temp, &value, 8);
stream->write_8bytes(temp);
srs_verbose("amf0 write number value success. value=%.2f", value);
return ret;
}
int srs_amf0_read_null(SrsStream* stream)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read null marker failed. ret=%d", ret);
return ret;
}
char marker = stream->read_1bytes();
if (marker != RTMP_AMF0_Null) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 check null marker failed. "
"marker=%#x, required=%#x, ret=%d", marker, RTMP_AMF0_Null, ret);
return ret;
}
srs_verbose("amf0 read null success");
return ret;
}
int srs_amf0_write_null(SrsStream* stream)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write null marker failed. ret=%d", ret);
return ret;
}
stream->write_1bytes(RTMP_AMF0_Null);
srs_verbose("amf0 write null marker success");
return ret;
}
int srs_amf0_read_undefined(SrsStream* stream)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read undefined marker failed. ret=%d", ret);
return ret;
}
char marker = stream->read_1bytes();
if (marker != RTMP_AMF0_Undefined) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 check undefined marker failed. "
"marker=%#x, required=%#x, ret=%d", marker, RTMP_AMF0_Undefined, ret);
return ret;
}
srs_verbose("amf0 read undefined success");
return ret;
}
int srs_amf0_write_undefined(SrsStream* stream)
{
int ret = ERROR_SUCCESS;
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write undefined marker failed. ret=%d", ret);
return ret;
}
stream->write_1bytes(RTMP_AMF0_Undefined);
srs_verbose("amf0 write undefined marker success");
return ret;
}
namespace _srs_internal
{
int srs_amf0_read_utf8(SrsStream* stream, string& value)
{
int ret = ERROR_SUCCESS;
// len
if (!stream->require(2)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read string length failed. ret=%d", ret);
return ret;
}
int16_t len = stream->read_2bytes();
srs_verbose("amf0 read string length success. len=%d", len);
// empty string
if (len <= 0) {
srs_verbose("amf0 read empty string. ret=%d", ret);
return ret;
}
// data
if (!stream->require(len)) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("amf0 read string data failed. ret=%d", ret);
return ret;
}
std::string str = stream->read_string(len);
// support utf8-1 only
// 1.3.1 Strings and UTF-8
// UTF8-1 = %x00-7F
// TODO: support other utf-8 strings
/*for (int i = 0; i < len; i++) {
char ch = *(str.data() + i);
if ((ch & 0x80) != 0) {
ret = ERROR_RTMP_AMF0_DECODE;
srs_error("ignored. only support utf8-1, 0x00-0x7F, actual is %#x. ret=%d", (int)ch, ret);
ret = ERROR_SUCCESS;
}
}*/
value = str;
srs_verbose("amf0 read string data success. str=%s", str.c_str());
return ret;
}
int srs_amf0_write_utf8(SrsStream* stream, string value)
{
int ret = ERROR_SUCCESS;
// len
if (!stream->require(2)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write string length failed. ret=%d", ret);
return ret;
}
stream->write_2bytes(value.length());
srs_verbose("amf0 write string length success. len=%d", (int)value.length());
// empty string
if (value.length() <= 0) {
srs_verbose("amf0 write empty string. ret=%d", ret);
return ret;
}
// data
if (!stream->require(value.length())) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write string data failed. ret=%d", ret);
return ret;
}
stream->write_string(value);
srs_verbose("amf0 write string data success. str=%s", value.c_str());
return ret;
}
bool srs_amf0_is_object_eof(SrsStream* stream)
{
// detect the object-eof specially
if (stream->require(3)) {
int32_t flag = stream->read_3bytes();
stream->skip(-3);
return 0x09 == flag;
}
return false;
}
int srs_amf0_write_object_eof(SrsStream* stream, SrsAmf0ObjectEOF* value)
{
int ret = ERROR_SUCCESS;
srs_assert(value != NULL);
// value
if (!stream->require(2)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write object eof value failed. ret=%d", ret);
return ret;
}
stream->write_2bytes(0x00);
srs_verbose("amf0 write object eof value success");
// marker
if (!stream->require(1)) {
ret = ERROR_RTMP_AMF0_ENCODE;
srs_error("amf0 write object eof marker failed. ret=%d", ret);
return ret;
}
stream->write_1bytes(RTMP_AMF0_ObjectEnd);
srs_verbose("amf0 read object eof success");
return ret;
}
int srs_amf0_write_any(SrsStream* stream, SrsAmf0Any* value)
{
srs_assert(value != NULL);
return value->write(stream);
}
}
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