main
hkc320 2024-09-05 16:36:20 +08:00
parent 16e9d1abf2
commit 01f27a7ec6
6 changed files with 252 additions and 183 deletions

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@ -0,0 +1,203 @@
#include "eventhandler.h"
#include <hv/hv.h>
#include <hv/hmain.h>
#include <hv/iniparser.h>
#include <hv/hloop.h>
#include <hv/hsocket.h>
#include <hv/hssl.h>
#include "kdefine.h"
#include "frame_define.h"
#include "openjson.h"
#include "iconv-utils.h"
#include "kutilities.h"
EventHandler::EventHandler()
{
}
EventHandler::~EventHandler()
{
}
void EventHandler::onRecvHandler(hio_t* io, void* buf, int readbytes)
{
__USING_NAMESPACE_HJ__;
char localaddrstr[SOCKADDR_STRLEN] = { 0 };
char peeraddrstr[SOCKADDR_STRLEN] = { 0 };
hlogi("### 1 ### on_recv fd=%d readbytes=%d [%s] <==== [%s]", hio_fd(io), readbytes,
SOCKADDR_STR(hio_localaddr(io), localaddrstr),
SOCKADDR_STR(hio_peeraddr(io), peeraddrstr));
MessageFrame respFrame;
if( readbytes > 0xFFFF - 1 )
{
hloge("too large data buffer to process: %d", readbytes);
respFrame.setErrorFrame(ERR_INVALID_BUF_LEN);
hio_write(io, (void*)&respFrame, sizeof respFrame);
return;
}
hlogi("<=== decode OK [\n%s\n]", printHex(buf, readbytes).c_str());
MessageFrame* pReadFrame = (MessageFrame*)buf;
hlogi("on_recv fd=%d frame_len=%d [0x%x] ", hio_fd(io), pReadFrame->frame_len, pReadFrame->frame_len);
if( pReadFrame->frame_len > 0xFFFF - 1 )
{
hloge("too big string buffer to process: %d, it should be less than %d", pReadFrame->frame_len, 0xFFFF);
respFrame.setErrorFrame(ERR_INVALID_LEN);
hio_write(io, (void*)&respFrame, sizeof respFrame);
return;
}
OpenJson json;
CODING buf_code = GetCoding((unsigned char*)pReadFrame->frame_content, pReadFrame->frame_len); //判断是否是utf-8
hlogi("<=== recieve buffer code is [%d]", buf_code);
std::string msg((char*)pReadFrame->frame_content, pReadFrame->frame_len);
if( buf_code == CODING::GBK
|| buf_code == CODING::UNKOWN )
{
std::string str_result;
//转换为UTF8
if( !GBKToUTF8(msg, str_result) )
{
hloge("Failed to transfer code from GBK to UTF-8");
respFrame.setErrorFrame(ERR_INVALID_UTF8);
hio_write(io, (void*)&respFrame, sizeof respFrame);
return;
}
hlogi("Successfuly transfer code from GBK to UTF-8!");
msg = str_result;
}
#ifdef _DEBUG
hlogd("<=== recieve !!VALID!! mqtt pack len =[%d] data=[%s]", msg.length(), msg.c_str()); //这里还是好的
#endif
unsigned int len = msg.length();
char* pTmp = new char[len];
memcpy(pTmp, msg.c_str(), len);
std::shared_ptr<char> ptr; //放个智能指针省得忘记删除
ptr.reset(pTmp);
//hlogi("<=== decode OK, msg=[%s]", msg.c_str());
#if 0
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 17).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 18).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 19).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 20).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 21).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 22).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 23).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 24).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 25).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 26).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 27).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 28).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 29).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 30).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 31).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 32).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 33).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 34).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 61).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 62).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 63).c_str());
#endif
//hlogd("<=== decode OK [\n%s\n]", printHex(pTmp, len).c_str());
if( !json.decode(msg) )
{
//delete[] pTmp;
hloge("Failed to decode json string pack , length=%d", readbytes);
hio_write(io, (void*)&respFrame, sizeof respFrame);
return;
}
hio_write(io, (void*)&respFrame, sizeof respFrame);
std::string fsucode = json["FsuCode"].s();
std::string msg_type = json["type"].s();
std::string timestamp = get_current_timestamp(); // json["TimeStamp"].s();
if( fsucode.length() == 0 )
{
//delete[] pTmp;
hlogw("!!empty fsucode recieved!");
return;
}
hlogi("<=== decode OK, recieve fsucode=[%s] type=[%s] ts=[%s]", fsucode.c_str(), msg_type.c_str(), timestamp.c_str());
#ifdef _DEBUG
hlogd("<<<<Check Mem after decode here>>>> \n[\n%s\n]\n", printHex(pTmp, len).c_str());
#endif
std::string out_compress;
int zip_ret = 0;
if( (zip_ret = CompressString(pTmp, len, out_compress, Z_DEFAULT_COMPRESSION)) != Z_OK )
{
hloge("Failed to compress source data, zip return value %d", zip_ret);
return;
}
hlogd("<<<<Compress result: string size from original [%d] to [%d]", len, out_compress.size());
#ifdef _DEBUG
hlogd("<<<<Compress string here>>>> \n[\n%s\n]\n", printHex(out_compress.c_str(), out_compress.size()).c_str());
#endif
//std::string msg2(pTmp, len);
if( msg_type == "gateway-data"
|| msg_type == "gateway-alarmdata"
|| msg_type == "gateway-writedata"
|| msg_type == "gateway-readdata"
|| msg_type == "web-write"
|| msg_type == "web-alarm" )
{
auto& IdCodeContent = json["IdCodeContent"];
if( IdCodeContent.size() <= 0 )
{
//delete[] pTmp;
hloge("invalid IdCodeContent's size: %d", IdCodeContent.size());
return;
}
auto& pNode = IdCodeContent[0]; //这是只解析第一个节点
std::string oid = pNode["OID"].s();
//OpDatabase::getInstance()->InsertMessage(timestamp, msg_type, fsucode, out_compress, (int)pData->mqtt_topic, (int)pData->device_id);
}
if( msg_type == "web-read" )
{
auto& IdCodeContent = json["IdCodes"];
if( IdCodeContent.size() <= 0 )
{
hloge("invalid IdCodes's size: %d", IdCodeContent.size());
//delete[] pTmp;
return;
}
auto& pNode = IdCodeContent[0]; //这是只解析第一个节点
std::string oid = pNode.s();
//OpDatabase::getInstance()->InsertMessage(timestamp, msg_type, fsucode, out_compress, (int)pData->mqtt_topic, (int)pData->device_id);
}
//delete[] pTmp;
}

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@ -0,0 +1,14 @@
#pragma once
#include <hv/hloop.h>
class EventHandler
{
public:
EventHandler();
virtual ~EventHandler();
public:
static void onRecvHandler(hio_t* io, void* buf, int readbytes);
};

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@ -3,7 +3,7 @@
#include "kdefine.h"
NAMESPACE_BEGIN(HJ)
__NAMESPACE_BEGIN__(HJ)
typedef enum tagErrorCode : unsigned char
{
@ -16,8 +16,8 @@ typedef enum tagErrorCode : unsigned char
typedef enum tagFrameType : unsigned char
{
Frame_Request = 0x00, //ÇëÇóÖ¡
Frame_Response = 0x01, //·µ»ØÖ¡
Frame_Response = 0x00, //·µ»ØÖ¡
Frame_Request = 0x01, //ÇëÇóÖ¡
Frame_DeviceData_Request = 0x02, //来自采集程序的数据请求包,将数据保存到数据库中
}FrameType;
@ -44,6 +44,6 @@ typedef struct tagFrame
}
}MessageFrame;
NAMESPACE_END(HJ)
__NAMESPACE_END__(HJ)
#pragma pack()

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@ -135,8 +135,11 @@ int code_convert(const char* from_charset, const char* to_charset, char* inbuf,
return -1;
}
iconv_close(cd);
*pout = '\0';
#ifndef _WIN32
* pout = '\0';
#else
*pout = (char*)'\0';
#endif
return 0;
}

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@ -33,9 +33,9 @@
#endif // __cplusplus
#define NAMESPACE_BEGIN(X) namespace X {
#define NAMESPACE_END(X) }
#define USING_NAMESPACE(X) using namespace X
#define USING_NAMESPACE_HJ using namespace HJ
#define __NAMESPACE_BEGIN__(X) namespace X {
#define __NAMESPACE_END__(X) }
#define __USING_NAMESPACE__(X) using namespace X
#define __USING_NAMESPACE_HJ__ using namespace HJ
#endif
#endif //__KDEFINE_INCLUDE__

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@ -1,6 +1,8 @@
#include <string>
#include <fcntl.h>
#ifndef _WIN32
#include <unistd.h>
#endif
#include <fstream>
#include <iomanip>
@ -19,6 +21,8 @@
#include <hv/hsocket.h>
#include <hv/hssl.h>
#include "eventhandler.h"
#ifndef TEST_UNPACK
#define TEST_UNPACK 1
#endif
@ -134,6 +138,7 @@ int parse_confile(const char* confile)
strncpy(g_main_ctx.logfile, str.c_str(), sizeof(g_main_ctx.logfile));
}
hlog_set_file(g_main_ctx.logfile);
#if 1
// loglevel
str = g_conf_ctx.parser->GetValue("loglevel");
if (!str.empty())
@ -158,14 +163,26 @@ int parse_confile(const char* confile)
{
logger_enable_fsync(hlog, hv_getboolean(str.c_str()));
}
// first log here
#endif
// first log here
hlogi("=========--- Welcome to the Earth ---=========");
hlogi("%s version: %s", g_main_ctx.program_name, K22_VERSION);
hlog_fsync();
#if 0
g_conf_ctx.worker_processes = 1;
g_conf_ctx.worker_threads = 1;
g_conf_ctx.host = "0.0.0.0";
g_conf_ctx.port = 44242;
g_conf_ctx.dbname = "hjems";
g_conf_ctx.dbuser = "root";
g_conf_ctx.dbserver = "tcp://127.0.0.1:3306";
#endif
// worker_processes
int worker_processes = 0;
#if 1
#ifdef DEBUG
// Disable multi-processes mode for debugging
worker_processes = 0;
@ -201,6 +218,7 @@ int parse_confile(const char* confile)
worker_threads = atoi(str.c_str());
}
}
g_conf_ctx.worker_threads = LIMIT(0, worker_threads, 64);
//host
@ -272,6 +290,7 @@ int parse_confile(const char* confile)
hlogi("dbserver = ('%s')", g_conf_ctx.dbserver.c_str());
hlogi("parse_confile('%s') OK", confile);
#endif
return 0;
}
@ -514,176 +533,6 @@ static void on_accept(hio_t* io)
//接收到数据
static void on_recv(hio_t* io, void* buf, int readbytes)
{
USING_NAMESPACE_HJ;
char localaddrstr[SOCKADDR_STRLEN] = { 0 };
char peeraddrstr[SOCKADDR_STRLEN] = { 0 };
hlogi("### 1 ### on_recv fd=%d readbytes=%d [%s] <==== [%s]", hio_fd(io), readbytes,
SOCKADDR_STR(hio_localaddr(io), localaddrstr),
SOCKADDR_STR(hio_peeraddr(io), peeraddrstr));
MessageFrame respFrame;
if( readbytes > 0xFFFF - 1 )
{
hloge("too large data buffer to process: %d", readbytes);
respFrame.setErrorFrame(ERR_INVALID_BUF_LEN);
hio_write(io, (void*)&respFrame, sizeof respFrame);
return;
}
MessageFrame *pReadFrame = (MessageFrame*)buf;
if( pReadFrame->frame_len > 0xFFFF - 1 )
{
hloge("too big string buffer to process: %d, it should be less than %d", pReadFrame->frame_len, 0xFFFF);
respFrame.setErrorFrame(ERR_INVALID_LEN);
hio_write(io, (void*)&respFrame, sizeof respFrame);
return;
}
OpenJson json;
CODING buf_code = GetCoding((unsigned char*)pReadFrame->frame_content, pReadFrame->frame_len); //判断是否是utf-8
hlogi("<=== recieve buffer code is [%d]", buf_code);
std::string msg((char*)pReadFrame->frame_content, pReadFrame->frame_len);
if( buf_code == CODING::GBK
|| buf_code == CODING::UNKOWN )
{
std::string str_result;
//转换为UTF8
if( !GBKToUTF8(msg, str_result) )
{
hloge("Failed to transfer code from GBK to UTF-8");
respFrame.setErrorFrame(ERR_INVALID_UTF8);
hio_write(io, (void*)&respFrame, sizeof respFrame);
return;
}
hlogi("Successfuly transfer code from GBK to UTF-8!");
msg = str_result;
}
#ifdef _DEBUG
hlogd("<=== recieve !!VALID!! mqtt pack len =[%d] data=[%s]", msg.length(), msg.c_str()); //这里还是好的
#endif
unsigned int len = msg.length();
char* pTmp = new char[len];
memcpy(pTmp, msg.c_str(), len);
std::shared_ptr<char> ptr; //放个智能指针省得忘记删除
ptr.reset(pTmp);
//hlogi("<=== decode OK, msg=[%s]", msg.c_str());
#if 0
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 17).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 18).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 19).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 20).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 21).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 22).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 23).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 24).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 25).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 26).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 27).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 28).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 29).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 30).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 31).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 32).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 33).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 34).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 61).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 62).c_str());
hlogi("<=== decode OK [\n%s\n]", printHex(pTmp, 63).c_str());
#endif
//hlogd("<=== decode OK [\n%s\n]", printHex(pTmp, len).c_str());
if( !json.decode(msg) )
{
//delete[] pTmp;
hloge("Failed to decode json string pack , length=%d", readbytes);
hio_write(io, (void*)&respFrame, sizeof respFrame);
return;
}
hio_write(io, (void*)&respFrame, sizeof respFrame);
std::string fsucode = json["FsuCode"].s();
std::string msg_type = json["type"].s();
std::string timestamp = get_current_timestamp(); // json["TimeStamp"].s();
if( fsucode.length() == 0 )
{
//delete[] pTmp;
hlogw("!!empty fsucode recieved!");
return;
}
hlogi("<=== decode OK, recieve fsucode=[%s] type=[%s] ts=[%s]", fsucode.c_str(), msg_type.c_str(), timestamp.c_str());
#ifdef _DEBUG
hlogd("<<<<Check Mem after decode here>>>> \n[\n%s\n]\n", printHex(pTmp, len).c_str());
#endif
std::string out_compress;
int zip_ret = 0;
if( (zip_ret = CompressString(pTmp, len, out_compress, Z_DEFAULT_COMPRESSION)) != Z_OK )
{
hloge("Failed to compress source data, zip return value %d", zip_ret);
return;
}
hlogd("<<<<Compress result: string size from original [%d] to [%d]", len, out_compress.size());
#ifdef _DEBUG
hlogd("<<<<Compress string here>>>> \n[\n%s\n]\n", printHex(out_compress.c_str(), out_compress.size()).c_str());
#endif
//std::string msg2(pTmp, len);
if( msg_type == "gateway-data"
|| msg_type == "gateway-alarmdata"
|| msg_type == "gateway-writedata"
|| msg_type == "gateway-readdata"
|| msg_type == "web-write"
|| msg_type == "web-alarm" )
{
auto& IdCodeContent = json["IdCodeContent"];
if( IdCodeContent.size() <= 0 )
{
//delete[] pTmp;
hloge("invalid IdCodeContent's size: %d", IdCodeContent.size());
return;
}
auto& pNode = IdCodeContent[0]; //这是只解析第一个节点
std::string oid = pNode["OID"].s();
//OpDatabase::getInstance()->InsertMessage(timestamp, msg_type, fsucode, out_compress, (int)pData->mqtt_topic, (int)pData->device_id);
}
if( msg_type == "web-read" )
{
auto& IdCodeContent = json["IdCodes"];
if( IdCodeContent.size() <= 0 )
{
hloge("invalid IdCodes's size: %d", IdCodeContent.size());
//delete[] pTmp;
return;
}
auto& pNode = IdCodeContent[0]; //这是只解析第一个节点
std::string oid = pNode.s();
//OpDatabase::getInstance()->InsertMessage(timestamp, msg_type, fsucode, out_compress, (int)pData->mqtt_topic, (int)pData->device_id);
}
//delete[] pTmp;
EventHandler::onRecvHandler(io, buf, readbytes);
}