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vcpe/srcs/opendhcp183/query.cpp

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OCT 1. 移植OpenDHCP 1.83 版本, 编译通过
2023-01-28 02:20:27 +00:00
//
// Created by dongwenzhe on 2022/10/9.
//
#include <string>
#include <map>
using namespace std;
#include <sys/ioctl.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <net/if.h>
#include <arpa/inet.h>
#include <unistd.h>
#include <memory.h>
#include <cstdlib>
#include "opendhcpd.h"
#include "s2j/cJSON.h"
#include "haywire.h"
#include "misc.h"
#include <net/if_arp.h>
#include <libconfig.h>
#include <zlog.h>
#include <uv.h>
#include "config.h"
#include "proto.h"
#include "user_errno.h"
#include "uthash/uthash.h"
#include "sds/sds.h"
#include "inet_misc.h"
extern data2 cfig;
extern bool kRunning;
extern dhcpMap dhcpCache;
extern time_t t;
extern data71 lump;
typedef struct {
char iptvMAC[64];
unsigned int vni;
int isReport;
UT_hash_handle hh;
} IPTV_DEV_SET, *PIPTV_DEV_SET;
static PIPTV_DEV_SET g_iptvNewDevs = nullptr;
static PIPTV_DEV_SET g_iptvCacheDevs = nullptr;
static uv_rwlock_t g_uvCacheLock;
static int dhcp_get_user_info(data19 *req, const char *pRequest) {
char logBuff[512];
const char *pStrContent;
int k;
dhcpMap::iterator p;
dzlog_debug("Input: %s\n", pRequest);
if (pRequest == nullptr || strlen(pRequest) == 0) {
sprintf(logBuff, "Requeset Json");
logDHCPMess(logBuff, 1);
return ERR_INPUT_PARAMS;
}
pStrContent = proto_decode_context(pRequest, nullptr, nullptr);
if (pStrContent == nullptr) {
sprintf(logBuff, "Requeset Json error %s", pRequest);
logDHCPMess(logBuff, 1);
return ERR_PROTO_DECODE;
}
cJSON *pRoot = cJSON_Parse(pStrContent);
free((void *)pStrContent);
if (!pRoot) {
return ERR_JSON_PRASE_OBJ;
}
cJSON *pUserMac = cJSON_GetObjectItem(pRoot, "userMac");
if (!pUserMac) {
cJSON_Delete(pRoot);
return ERR_JSON_PRASE_OBJ;
}
req->memSize = (int)(2048 + (135 * dhcpCache.size()) + (cfig.dhcpSize * 26));
req->dp = (char *)calloc(1, req->memSize);
if (!req->dp) {
sprintf(logBuff, "Memory Error");
logDHCPMess(logBuff, 1);
return ERR_JSON_PRASE_OBJ;
}
cJSON *pRspMsg = cJSON_CreateObject();
cJSON *pMsgArray = cJSON_CreateArray();
cJSON_AddItemToObject(pRspMsg, "userInfo", pMsgArray);
k = cJSON_GetArraySize(pUserMac);
// 传入数据 userMac 为空数组时,返回所有用户数据
if (k == 0) {
for (p = dhcpCache.begin(); p != dhcpCache.end(); p++) {
char tempbuff[512];
data7 *dhcpEntry = p->second;
if (!dhcpEntry) {
continue;
}
cJSON *pRspItem = cJSON_CreateObject();
cJSON_AddStringToObject(pRspItem, "userMac", dhcpEntry->mapname);
cJSON_AddStringToObject(pRspItem, "ip", IP2String(tempbuff, dhcpEntry->ip));
cJSON_AddStringToObject(pRspItem, "hostname", dhcpEntry->hostname);
if (dhcpEntry->display && dhcpEntry->expiry >= t) {
tm *ttm = localtime(&dhcpEntry->expiry);
strftime(tempbuff, sizeof(tempbuff), "%d-%b-%y %X", ttm);
cJSON_AddStringToObject(pRspItem, "leaseExpiry", tempbuff);
} else {
cJSON_AddStringToObject(pRspItem, "leaseExpiry", "Expiry");
}
cJSON_AddNumberToObject(pRspItem, "status", ERR_SUCCESS);
cJSON_AddStringToObject(pRspItem, "message", getErrorEnumDesc(ERR_SUCCESS));
cJSON_AddItemToArray(pMsgArray, pRspItem);
}
} else {
for (int i = 0; i < k; i++) {
char tempbuff[512];
cJSON *pItem = cJSON_GetArrayItem(pUserMac, i);
cJSON *pRspItem = cJSON_CreateObject();
p = dhcpCache.find(pItem->valuestring);
cJSON_AddStringToObject(pRspItem, "userMac", pItem->valuestring);
if (p != dhcpCache.end()) {
data7 *dhcpEntry = p->second;
cJSON_AddStringToObject(pRspItem, "ip", IP2String(tempbuff, dhcpEntry->ip));
cJSON_AddStringToObject(pRspItem, "hostname", dhcpEntry->hostname);
if (dhcpEntry->display && dhcpEntry->expiry >= t) {
tm *ttm = localtime(&dhcpEntry->expiry);
strftime(tempbuff, sizeof(tempbuff), "%d-%b-%y %X", ttm);
cJSON_AddStringToObject(pRspItem, "leaseExpiry", tempbuff);
} else {
cJSON_AddStringToObject(pRspItem, "leaseExpiry", "Expiry");
}
cJSON_AddNumberToObject(pRspItem, "status", ERR_SUCCESS);
cJSON_AddStringToObject(pRspItem, "message", getErrorEnumDesc(ERR_SUCCESS));
} else {
cJSON_AddNumberToObject(pRspItem, "status", ERR_ITEM_UNEXISTS);
cJSON_AddStringToObject(pRspItem, "message", getErrorEnumDesc(ERR_ITEM_UNEXISTS));
}
cJSON_AddItemToArray(pMsgArray, pRspItem);
}
}
const char *pStrPro = proto_create_new(pRspMsg, 200);
//cJSON_AddItemToObject(pRspRoot, "msgContent", pRspMsg);
char *fp = req->dp;
//char *maxData = req->dp + (req->memSize - 512);
//fp += sprintf(fp, send200, strlen(rspBuf));
fp += sprintf(fp, "%s", pStrPro);
req->bytes = (int)(fp - req->dp);
cJSON_Delete(pRoot);
free((void *)pStrPro);
return ERR_SUCCESS;
}
static int dchp_get_all_iptv_devs(data19 *req) {
char logBuff[512];
PIPTV_DEV_SET pDev, pTemp;
cJSON *pRspMsg = cJSON_CreateObject();
cJSON *pMsgArray = cJSON_CreateArray();
cJSON_AddItemToObject(pRspMsg, "iptvDevs", pMsgArray);
uv_rwlock_wrlock(&g_uvCacheLock);
HASH_ITER(hh, g_iptvCacheDevs, pDev, pTemp) {
cJSON *pRspItem = cJSON_CreateObject();
cJSON_AddStringToObject(pRspItem, "mac", pDev->iptvMAC);
cJSON_AddNumberToObject(pRspItem, "vni", pDev->vni);
cJSON_AddBoolToObject(pRspItem, "reported", pDev->isReport);
cJSON_AddItemToArray(pMsgArray, pRspItem);
}
HASH_ITER(hh, g_iptvNewDevs, pDev, pTemp) {
cJSON *pRspItem = cJSON_CreateObject();
cJSON_AddStringToObject(pRspItem, "mac", pDev->iptvMAC);
cJSON_AddNumberToObject(pRspItem, "vni", pDev->vni);
cJSON_AddBoolToObject(pRspItem, "reported", pDev->isReport);
cJSON_AddItemToArray(pMsgArray, pRspItem);
}
uv_rwlock_wrunlock(&g_uvCacheLock);
cJSON_AddNumberToObject(pRspMsg, "status", ERR_SUCCESS);
cJSON_AddStringToObject(pRspMsg, "message", getErrorEnumDesc(ERR_SUCCESS));
const char *pStrPro = proto_create_new(pRspMsg, 200);
req->memSize = (int)strlen(pStrPro);
req->dp = strdup(pStrPro);
req->bytes = (int)strlen(pStrPro);
free((void *)pStrPro);
return ERR_SUCCESS;
}
static int dhcp_get_all_user(data19 *req) {
char logBuff[512];
data7 *dhcpEntry;
dhcpMap::iterator p;
req->memSize = (int)(2048 + (135 * dhcpCache.size()) + (cfig.dhcpSize * 26));
req->dp = (char *)calloc(1, req->memSize);
if (!req->dp) {
sprintf(logBuff, "Memory Error");
logDHCPMess(logBuff, 1);
return ERR_MALLOC_MEMORY;
}
char *fp = req->dp;
char *maxData = req->dp + (req->memSize - 512);
cJSON *pRspMsg = cJSON_CreateObject();
cJSON *pMsgArray = cJSON_CreateArray();
cJSON_AddItemToObject(pRspMsg, "users", pMsgArray);
for (p = dhcpCache.begin(); kRunning && p != dhcpCache.end() && fp < maxData; p++) {
//cJSON *pRspItem = cJSON_CreateObject();
if ((dhcpEntry = p->second)) {
cJSON_AddStringToObject(pMsgArray, "", dhcpEntry->mapname);
}
//cJSON_AddItemToArray(pMsgArray, pRspItem);
}
//cJSON_AddItemToObject(pRspRoot, "msgContent", pRspMsg);
cJSON_AddNumberToObject(pRspMsg, "status", ERR_SUCCESS);
cJSON_AddStringToObject(pRspMsg, "message", getErrorEnumDesc(ERR_SUCCESS));
const char *pStrPro = proto_create_new(pRspMsg, 200);
fp += sprintf(fp, "%s", pStrPro);
req->bytes = (int)(fp - req->dp);
free((void *)pStrPro);
return ERR_SUCCESS;
}
#define VALUE_TO_DHCP_TLV(buf, val, tag) \
do { \
int valSize; \
int numbytes = myTokenize((buf), (val), "/,.", true); \
if (numbytes <= 255) { \
char *ptr = (buf); \
valSize = 0; \
for (; *ptr; ptr = myGetToken(ptr, 1)) { \
if (isInt(ptr)) { \
hoption[valSize] = STR2INT(ptr); \
valSize++; \
} else { \
break; \
} \
} \
memcpy((val), hoption, valSize); \
if (buffSize > valSize + 2) { \
*dp = (tag); \
dp++; \
*dp = valSize; \
dp++; \
memcpy(dp, (val), valSize); \
dp += valSize; \
buffSize -= (valSize + 2); \
} \
} \
} while (0)
static int dhcp_add_rangeset_to_options(POBJ_DHCP_RNG pRange) {
int ret;
char buff[1024];
MYBYTE hoption[256];
MYBYTE *dp;
MYWORD buffSize = sizeof(dhcp_packet) - sizeof(dhcp_header);
char value[256] = {0};
MYBYTE *options = nullptr;
data20 optionData {};
if (!pRange) {
return -ERR_INPUT_PARAMS;
}
memset(&optionData, 0, sizeof(data20));
optionData.rangeSetInd = cfig.rangeCount;
cfig.rangeSet[cfig.rangeCount].active = true;
dp = optionData.options;
*dp = 0;
dp++;
//dhcp_range
ret = addDHCPRange(pRange->rangAddr);
if (ret != ERR_SUCCESS) {
return ret;
}
if (strlen(pRange->subnet) != 0) {
strcpy(value, pRange->subnet);
VALUE_TO_DHCP_TLV(buff, value, DHCP_OPTION_NETMASK);
optionData.mask = (*((MYDWORD *)value));
}
if (strlen(pRange->dnsSvr) != 0) {
strcpy(value, pRange->dnsSvr);
VALUE_TO_DHCP_TLV(buff, value, DHCP_OPTION_DNS);
}
if (strlen(pRange->gateway) != 0) {
strcpy(value, pRange->gateway);
VALUE_TO_DHCP_TLV(buff, value, DHCP_OPTION_ROUTER);
}
//lease
if (pRange->lease != 0) {
MYDWORD j;
j = pRange->lease;
if (buffSize > 6) {
*dp = DHCP_OPTION_IPADDRLEASE;
dp++;
*dp = 4;
dp++;
dp += pUInt(dp, j);
}
}
*dp = DHCP_OPTION_END;
dp++;
optionData.optionSize = (dp - optionData.options);
if (optionData.optionSize > 3) {
options = (MYBYTE *)calloc(1, optionData.optionSize);
memcpy(options, optionData.options, optionData.optionSize);
}
cfig.dhcpRanges[cfig.rangeCount].rangeSetInd = optionData.rangeSetInd;
cfig.dhcpRanges[cfig.rangeCount].options = options;
cfig.dhcpRanges[cfig.rangeCount].mask = optionData.mask;
if (!cfig.dhcpRanges[cfig.rangeCount].mask) {
cfig.dhcpRanges[cfig.rangeCount].mask = cfig.mask;
}
cfig.rangeCount = (char)(cfig.rangeCount + 1);
return ERR_SUCCESS;
}
static int add_dhcpd_rangeset(data19 *req, const char *pRequest) {
char logBuff[512];
const char *pStrContent;
OBJ_DHCP_RNG range;
char *fp;
cJSON *pRspRoot;
cJSON *pExpandArray;
dzlog_debug("Input: %s\n", pRequest);
if (pRequest == nullptr || strlen(pRequest) == 0) {
sprintf(logBuff, "Requeset Json");
logDHCPMess(logBuff, 1);
return ERR_INPUT_PARAMS;
}
pStrContent = proto_decode_context(pRequest, nullptr, nullptr);
if (pStrContent == nullptr) {
sprintf(logBuff, "Requeset Json error %s", pRequest);
logDHCPMess(logBuff, 1);
return ERR_PROTO_DECODE;
}
cJSON *pRoot = cJSON_Parse(pStrContent);
free((void *)pStrContent);
if (!pRoot) {
return ERR_JSON_PRASE_OBJ;
}
cJSON *prange_set = cJSON_GetObjectItem(pRoot, "rangeSet");
req->memSize = (int)(2048 + (135 * dhcpCache.size()) + (cfig.dhcpSize * 26));
req->dp = (char *)calloc(1, req->memSize);
if (!req->dp) {
sprintf(logBuff, "Memory Error");
logDHCPMess(logBuff, 1);
cJSON_Delete(pRoot);
return ERR_MALLOC_MEMORY;
}
fp = req->dp;
pRspRoot = cJSON_CreateObject();
pExpandArray = cJSON_CreateArray();
cJSON_AddItemToObject(pRspRoot, "rangeSet", pExpandArray);
for (int i = 0; i < cJSON_GetArraySize(prange_set); i++) {
int ret;
cJSON *pItem = cJSON_GetArrayItem(prange_set, i);
cJSON *pdhcp_range = cJSON_GetObjectItem(pItem, "dhcpRange");
cJSON *pEx_range = cJSON_CreateObject();
if (!pdhcp_range) {
continue;
}
cJSON_AddStringToObject(pEx_range, "dhcpRange", pdhcp_range->valuestring);
cJSON *psubnet_mask = cJSON_GetObjectItem(pItem, "netmask");
cJSON *pdomain_server = cJSON_GetObjectItem(pItem, "domainServer");
cJSON *pgateway = cJSON_GetObjectItem(pItem, "gateway");
cJSON *please_time = cJSON_GetObjectItem(pItem, "leaseTime");
memset(&range, 0, sizeof(OBJ_DHCP_RNG));
strcpy(range.rangAddr, pdhcp_range->valuestring);
if (psubnet_mask) {
strcpy(range.subnet, psubnet_mask->valuestring);
}
if (pdomain_server) {
strcpy(range.dnsSvr, pdomain_server->valuestring);
}
if (pgateway) {
strcpy(range.gateway, pgateway->valuestring);
}
if (please_time) {
range.lease = please_time->valueint;
}
//写入cfig
ret = dhcp_add_rangeset_to_options(&range);
if (ret != ERR_SUCCESS) {
cJSON_AddNumberToObject(pEx_range, "status", ret);
cJSON_AddStringToObject(pEx_range, "message", getErrorEnumDesc(ret));
cJSON_AddItemToArray(pExpandArray, pEx_range);
continue;
}
cJSON_AddNumberToObject(pEx_range, "status", ERR_SUCCESS);
cJSON_AddStringToObject(pEx_range, "message", getErrorEnumDesc(ERR_SUCCESS));
cJSON_AddItemToArray(pExpandArray, pEx_range);
}
const char *pStrPro = proto_create_new(pRspRoot, 200);
fp += sprintf(fp, "%s", pStrPro);
cJSON_Delete(pRoot);
req->bytes = (int)(fp - req->dp);
free((void *)pStrPro);
return ERR_SUCCESS;
}
struct hash_map {
unsigned int key;
unsigned int value;
UT_hash_handle hh;
};
static int delete_dhcpd_rangeset(data19 *req, const char *pRequest) {
char logBuff[512];
const char *pStrContent;
char *fp;
cJSON *pRspRoot;
cJSON *pdelArray;
data13 dhcpRanges[MAX_DHCP_RANGES];
hash_map *delMap = nullptr;
int resCount = 0;
dzlog_debug("Input: %s\n", pRequest);
if (pRequest == nullptr || strlen(pRequest) == 0) {
sprintf(logBuff, "Requeset Json");
logDHCPMess(logBuff, 1);
return ERR_INPUT_PARAMS;
}
pStrContent = proto_decode_context(pRequest, nullptr, nullptr);
if (pStrContent == nullptr) {
sprintf(logBuff, "Requeset Json error %s", pRequest);
logDHCPMess(logBuff, 1);
return ERR_PROTO_DECODE;
}
cJSON *pRoot = cJSON_Parse(pStrContent);
free((void *)pStrContent);
if (!pRoot) {
return ERR_JSON_PRASE_OBJ;
}
cJSON *pdhcp_range = cJSON_GetObjectItem(pRoot, "dhcpRange");
req->memSize = (int)(2048 + (135 * dhcpCache.size()) + (cfig.dhcpSize * 26));
req->dp = (char *)calloc(1, req->memSize);
if (!req->dp) {
sprintf(logBuff, "Memory Error");
logDHCPMess(logBuff, 1);
cJSON_Delete(pRoot);
return ERR_MALLOC_MEMORY;
}
fp = req->dp;
pRspRoot = cJSON_CreateObject();
pdelArray = cJSON_CreateArray();
cJSON_AddItemToObject(pRspRoot, "rangeSet", pdelArray);
for (int i = 0; i < cJSON_GetArraySize(pdhcp_range); i++) {
cJSON *pdel_Item = cJSON_CreateObject();
cJSON *pdelRange = cJSON_GetArrayItem(pdhcp_range, i);
char del_range[256];
auto *delItem = (struct hash_map *)malloc(sizeof(hash_map));
if (!pdelRange) {
continue;
}
strcpy(del_range, pdelRange->valuestring);
MYDWORD st_addr;
MYDWORD en_addr;
char start[128];
char end[128];
mySplit(start, end, del_range, '-');
st_addr = htonl(inet_addr(start));
en_addr = htonl(inet_addr(end));
if (en_addr == 0) {
cJSON_AddStringToObject(pdel_Item, "dhcpRange", del_range);
cJSON_AddNumberToObject(pdel_Item, "status", ERR_INPUT_PARAMS);
cJSON_AddStringToObject(pdel_Item, "message", getErrorEnumDesc(ERR_INPUT_PARAMS));
cJSON_AddItemToArray(pdelArray, pdel_Item);
}
HASH_FIND_INT(delMap, &st_addr, delItem);
if (delItem == nullptr) {
auto *s = (struct hash_map *)malloc(sizeof(struct hash_map));
s->key = st_addr;
s->value = en_addr;
HASH_ADD_INT(delMap, key, s);
}
}
for (int i = 0; i < cfig.rangeCount; i++) {
cJSON *pdel_Item = cJSON_CreateObject();
hash_map *delRange;
char del_range[256];
char saddr[128];
char eaddr[128];
memset(del_range, 0, 256);
HASH_FIND_INT(delMap, &cfig.dhcpRanges[i].rangeStart, delRange);
if (delRange != nullptr) {
IP2String(saddr, ntohl(delRange->key));
IP2String(eaddr, ntohl(delRange->value));
sprintf(del_range, "%s-%s", saddr, eaddr);
cJSON_AddStringToObject(pdel_Item, "dhcpRange", del_range);
//judge whether the input has error
if (delRange->value == cfig.dhcpRanges[i].rangeEnd) {
cJSON_AddNumberToObject(pdel_Item, "status", ERR_SUCCESS);
cJSON_AddStringToObject(pdel_Item, "message", getErrorEnumDesc(ERR_SUCCESS));
cJSON_AddItemToArray(pdelArray, pdel_Item);
} else {
memcpy(&dhcpRanges[resCount], &cfig.dhcpRanges[i], sizeof(struct data13));
resCount++;
cJSON_AddNumberToObject(pdel_Item, "status", ERR_INPUT_PARAMS);
cJSON_AddStringToObject(pdel_Item, "message", getErrorEnumDesc(ERR_INPUT_PARAMS));
cJSON_AddItemToArray(pdelArray, pdel_Item);
}
HASH_DEL(delMap, delRange);
} else {
//write to dhcpRanges
memcpy(&dhcpRanges[resCount], &cfig.dhcpRanges[i], sizeof(struct data13));
resCount++;
}
}
//输入参数不存在的情况
if (resCount > cfig.rangeCount - cJSON_GetArraySize(pdhcp_range)) {
cJSON *pdel_Item = cJSON_CreateObject();
auto *s = (struct hash_map *)malloc(sizeof(struct hash_map));
hash_map *tmp;
char saddr[128];
char eaddr[128];
char del_range[256];
memset(del_range, 0, 256);
HASH_ITER(hh, delMap, s, tmp) {
IP2String(saddr, ntohl(s->key));
IP2String(eaddr, ntohl(s->value));
sprintf(del_range, "%s-%s", saddr, eaddr);
cJSON_AddStringToObject(pdel_Item, "dhcpRange", del_range);
cJSON_AddNumberToObject(pdel_Item, "status", ERR_ITEM_UNEXISTS);
cJSON_AddStringToObject(pdel_Item, "message", getErrorEnumDesc(ERR_ITEM_UNEXISTS));
cJSON_AddItemToArray(pdelArray, pdel_Item);
}
}
//rewite cfig.dhcpRanges
for (int i = 0; i < cfig.rangeCount; i++) {
if (i < resCount) {
memcpy(&cfig.dhcpRanges[i], &dhcpRanges[i], sizeof(struct data13));
} else {
memset(&cfig.dhcpRanges[i], 0, sizeof(struct data13));
}
}
cfig.rangeCount = (char)resCount;
const char *pStrPro = proto_create_new(pRspRoot, 200);
fp += sprintf(fp, "%s", pStrPro);
cJSON_Delete(pRoot);
req->bytes = (int)(fp - req->dp);
free((void *)pStrPro);
return ERR_SUCCESS;
}
static int query_dhcpd_rangeset(data19 *req) {
char logBuff[512];
req->memSize = (int)(2048 + (135 * dhcpCache.size()) + (cfig.dhcpSize * 26));
req->dp = (char *)calloc(1, req->memSize);
if (!req->dp) {
sprintf(logBuff, "Memory Error");
logDHCPMess(logBuff, 1);
return ERR_MALLOC_MEMORY;
}
char *fp = req->dp;
char *maxData = req->dp + (req->memSize - 512);
cJSON *pRspMsg = cJSON_CreateObject();
cJSON *pMsgArray = cJSON_CreateArray();
cJSON_AddItemToObject(pRspMsg, "rangeSet", pMsgArray);
for (char rangeInd = 0; rangeInd < cfig.rangeCount; rangeInd++) {
char addrStart[64];
char addrEnd[64];
char rangeSet[128];
char rangeMask[128];
char domainServer[128];
char gateway[128];
cJSON *pRangeItem = cJSON_CreateObject();
unsigned int lease;
memset(domainServer, 0, 128);
IP2String(addrStart, ntohl(cfig.dhcpRanges[rangeInd].rangeStart));
IP2String(addrEnd, ntohl(cfig.dhcpRanges[rangeInd].rangeEnd));
IP2String(rangeMask, cfig.dhcpRanges[rangeInd].mask);
sprintf(rangeSet, "%s-%s", addrStart, addrEnd);
cJSON_AddStringToObject(pRangeItem, "dhcpRange", rangeSet);
cJSON_AddStringToObject(pRangeItem, "netmask", rangeMask);
MYBYTE *opPointer = cfig.dhcpRanges[rangeInd].options;
data3 op {};
if (opPointer) {
opPointer++;
while (*opPointer && *opPointer != DHCP_OPTION_END) {
unsigned int tmpVal = 0;
unsigned char dnsSize;
unsigned char offset = 0;
char dns_op[64];
op.opt_code = *opPointer;
opPointer++;
op.size = *opPointer;
opPointer++;
memcpy(op.value, opPointer, op.size);
if (op.opt_code == DHCP_OPTION_DNS) {
dnsSize = op.size;
do {
tmpVal = fIP(op.value + offset);
IP2String(dns_op, htonl(ntohl(tmpVal)));
sprintf(domainServer, "%s%s", domainServer, dns_op);
if (dnsSize != 4) {
sprintf(domainServer, "%s,", domainServer);
}
dnsSize -= 4;
offset = op.size - dnsSize;
} while (dnsSize != 0);
cJSON_AddStringToObject(pRangeItem, "domainServer", domainServer);
} else if (op.opt_code == DHCP_OPTION_ROUTER) {
tmpVal = fIP(op.value);
IP2String(gateway, htonl(ntohl(tmpVal)));
cJSON_AddStringToObject(pRangeItem, "gateway", gateway);
} else if (op.opt_code == DHCP_OPTION_IPADDRLEASE) {
lease = fUInt(op.value);
cJSON_AddNumberToObject(pRangeItem, "leaseTime", lease);
}
opPointer += op.size;
}
}
cJSON_AddItemToArray(pMsgArray, pRangeItem);
}
cJSON_AddNumberToObject(pRspMsg, "status", ERR_SUCCESS);
cJSON_AddStringToObject(pRspMsg, "message", getErrorEnumDesc(ERR_SUCCESS));
const char *pStrPro = proto_create_new(pRspMsg, 200);
fp += sprintf(fp, "%s", pStrPro);
req->bytes = (int)(fp - req->dp);
free((void *)pStrPro);
return ERR_SUCCESS;
}
#pragma clang diagnostic push
#pragma ide diagnostic ignored "cert-err34-c"
int getHwAddr(char *buff, char *mac) {
if (buff == nullptr || mac == nullptr) {
return -1;
}
int i;
unsigned int p[6];
if (sscanf(mac, "%x:%x:%x:%x:%x:%x", &p[0], &p[1], &p[2], &p[3], &p[4], &p[5]) < 6) {
return -1;
}
for (i = 0; i < 6; i++) {
buff[i] = (char)p[i];
}
return 0;
}
#pragma clang diagnostic pop
int arpSet(const char *ifname, char *ipStr, char *mac) {
if (ifname == nullptr || ipStr == nullptr || mac == nullptr) {
dzlog_error("para is null.\n");
return -1;
}
struct arpreq req {};
struct sockaddr_in *sin;
int ret;
int sock_fd;
memset(&req, 0, sizeof(struct arpreq));
sin = (struct sockaddr_in *)&req.arp_pa;
sin->sin_family = AF_INET;
sin->sin_addr.s_addr = inet_addr(ipStr);
//arp_dev长度为[16],注意越界
strncpy(req.arp_dev, ifname, 15);
req.arp_flags = ATF_PERM | ATF_COM;
if (getHwAddr((char *)req.arp_ha.sa_data, mac) < 0) {
dzlog_error("get mac error.\n");
return -1;
}
sock_fd = socket(AF_INET, SOCK_DGRAM, 0);
if (sock_fd < 0) {
dzlog_error("get socket error.\n");
return -1;
}
ret = ioctl(sock_fd, SIOCSARP, &req);
if (ret < 0) {
dzlog_error("ioctl error.\n");
close(sock_fd);
return -1;
}
close(sock_fd);
return 0;
}
sockaddr_in get_cliAddr(char *nicif, char *tempbuff, data9 *req) {
arpSet(nicif, IP2String(tempbuff, req->dhcpp.header.bp_yiaddr), req->chaddr);
sockaddr_in cliAddr {};
memcpy(&cliAddr, &req->remote, sizeof(sockaddr_in));
cliAddr.sin_addr.s_addr = inet_addr(IP2String(tempbuff, req->dhcpp.header.bp_yiaddr));
return cliAddr;
}
static void response_complete(void *user_data) {
auto *req = (data19 *)user_data;
if (req) {
if (req->dp) {
free(req->dp);
}
free(req);
}
}
static void proto_response_error(hw_http_response *response, int httpCode, const char *httpCodeStr, int errCode) {
cJSON *pRspMsg = cJSON_CreateObject();
cJSON_AddNumberToObject(pRspMsg, "status", errCode);
cJSON_AddStringToObject(pRspMsg, "message", getErrorEnumDesc(errCode));
const char *pStrPro = proto_create_new(pRspMsg, httpCode);
hw_http_response_send_error(response, httpCodeStr, pStrPro);
free((void *)pStrPro);
}
static void opendhcp_http_info(http_request *request, hw_http_response *response, void *UNUSED(user_data)) {
hw_string status_code;
hw_string content_type_name;
hw_string content_type_value;
hw_string body;
hw_string keep_alive_name;
hw_string keep_alive_value;
auto *req = (data19 *)malloc(sizeof(struct data19));
if (req == nullptr) {
proto_response_error(response, 500, HTTP_STATUS_500, ERR_MALLOC_MEMORY);
return;
}
if (request->method != HW_HTTP_GET) {
proto_response_error(response, 405, HTTP_STATUS_405, ERR_HTTP_UNSUP_METHOD);
free(req);
return;
}
memset(req, 0, sizeof(struct data19));
SETSTRING(content_type_name, "Content-Type");
SETSTRING(content_type_value, "text/html");
hw_set_response_header(response, &content_type_name, &content_type_value);
SETSTRING(status_code, HTTP_STATUS_200);
prepareUserHtmlRespStatus(req);
SETSTRING(body, req->dp);
hw_set_body(response, &body);
hw_set_response_status_code(response, &status_code);
if (request->keep_alive) {
SETSTRING(keep_alive_name, "Connection");
SETSTRING(keep_alive_value, "close");
hw_set_response_header(response, &keep_alive_name, &keep_alive_value);
} else {
hw_set_http_version(response, 1, 0);
}
hw_http_response_send(response, req, response_complete);
}
static void opendhcp_http_get_userinfo(http_request *request, hw_http_response *response, void *UNUSED(user_data)) {
hw_string status_code;
hw_string content_type_name;
hw_string content_type_value;
hw_string body;
hw_string keep_alive_name;
hw_string keep_alive_value;
int ret;
auto *req = (data19 *)malloc(sizeof(struct data19));
if (req == nullptr) {
proto_response_error(response, 500, HTTP_STATUS_500, ERR_MALLOC_MEMORY);
return;
}
if (request->method != HW_HTTP_POST) {
proto_response_error(response, 405, HTTP_STATUS_405, ERR_HTTP_UNSUP_METHOD);
free(req);
return;
}
memset(req, 0, sizeof(struct data19));
SETSTRING(content_type_name, "Content-Type");
SETSTRING(content_type_value, "application/json");
hw_set_response_header(response, &content_type_name, &content_type_value);
SETSTRING(status_code, HTTP_STATUS_200);
ret = dhcp_get_user_info(req, request->body->value);
if (ret != ERR_SUCCESS) {
proto_response_error(response, 500, HTTP_STATUS_500, ret);
free(req);
return;
}
SETSTRING(body, req->dp);
hw_set_body(response, &body);
hw_set_response_status_code(response, &status_code);
if (request->keep_alive) {
SETSTRING(keep_alive_name, "Connection");
SETSTRING(keep_alive_value, "close");
hw_set_response_header(response, &keep_alive_name, &keep_alive_value);
} else {
hw_set_http_version(response, 1, 0);
}
hw_http_response_send(response, req, response_complete);
}
static void opendhcp_http_get_alluser(http_request *request, hw_http_response *response, void *UNUSED(user_data)) {
hw_string status_code;
hw_string content_type_name;
hw_string content_type_value;
hw_string body;
hw_string keep_alive_name;
hw_string keep_alive_value;
int ret;
auto *req = (data19 *)malloc(sizeof(struct data19));
if (req == nullptr) {
proto_response_error(response, 500, HTTP_STATUS_500, ERR_MALLOC_MEMORY);
return;
}
if (request->method != HW_HTTP_GET) {
proto_response_error(response, 405, HTTP_STATUS_405, ERR_HTTP_UNSUP_METHOD);
free(req);
return;
}
memset(req, 0, sizeof(struct data19));
SETSTRING(content_type_name, "Content-Type");
SETSTRING(content_type_value, "application/json");
hw_set_response_header(response, &content_type_name, &content_type_value);
SETSTRING(status_code, HTTP_STATUS_200);
ret = dhcp_get_all_user(req);
if (ret != ERR_SUCCESS) {
proto_response_error(response, 500, HTTP_STATUS_500, ret);
free(req);
return;
}
SETSTRING(body, req->dp);
hw_set_body(response, &body);
hw_set_response_status_code(response, &status_code);
if (request->keep_alive) {
SETSTRING(keep_alive_name, "Connection");
SETSTRING(keep_alive_value, "close");
hw_set_response_header(response, &keep_alive_name, &keep_alive_value);
} else {
hw_set_http_version(response, 1, 0);
}
hw_http_response_send(response, req, response_complete);
}
static void opendhcp_http_add_rangeset(http_request *request, hw_http_response *response, void *UNUSED(user_data)) {
hw_string status_code;
hw_string content_type_name;
hw_string content_type_value;
hw_string body;
hw_string keep_alive_name;
hw_string keep_alive_value;
int ret;
auto *req = (data19 *)malloc(sizeof(struct data19));
if (req == nullptr) {
proto_response_error(response, 500, HTTP_STATUS_500, ERR_MALLOC_MEMORY);
return;
}
if (request->method != HW_HTTP_POST) {
proto_response_error(response, 405, HTTP_STATUS_405, ERR_HTTP_UNSUP_METHOD);
free(req);
return;
}
memset(req, 0, sizeof(struct data19));
SETSTRING(content_type_name, "Content-Type");
SETSTRING(content_type_value, "application/json");
hw_set_response_header(response, &content_type_name, &content_type_value);
SETSTRING(status_code, HTTP_STATUS_200);
ret = add_dhcpd_rangeset(req, request->body->value);
if (ret != ERR_SUCCESS) {
proto_response_error(response, 500, HTTP_STATUS_500, ret);
free(req);
return;
}
SETSTRING(body, req->dp);
hw_set_body(response, &body);
hw_set_response_status_code(response, &status_code);
if (request->keep_alive) {
SETSTRING(keep_alive_name, "Connection");
SETSTRING(keep_alive_value, "close");
hw_set_response_header(response, &keep_alive_name, &keep_alive_value);
} else {
hw_set_http_version(response, 1, 0);
}
hw_http_response_send(response, req, response_complete);
}
static void opendhcp_http_delete_rangeset(http_request *request, hw_http_response *response, void *UNUSED(user_data)) {
hw_string status_code;
hw_string content_type_name;
hw_string content_type_value;
hw_string body;
hw_string keep_alive_name;
hw_string keep_alive_value;
int ret;
auto *req = (data19 *)malloc(sizeof(struct data19));
if (req == nullptr) {
proto_response_error(response, 500, HTTP_STATUS_500, ERR_MALLOC_MEMORY);
return;
}
if (request->method != HW_HTTP_POST) {
proto_response_error(response, 405, HTTP_STATUS_405, ERR_HTTP_UNSUP_METHOD);
free(req);
return;
}
memset(req, 0, sizeof(struct data19));
SETSTRING(content_type_name, "Content-Type");
SETSTRING(content_type_value, "application/json");
hw_set_response_header(response, &content_type_name, &content_type_value);
SETSTRING(status_code, HTTP_STATUS_200);
ret = delete_dhcpd_rangeset(req, request->body->value);
if (ret != ERR_SUCCESS) {
proto_response_error(response, 500, HTTP_STATUS_500, ret);
free(req);
return;
}
SETSTRING(body, req->dp);
hw_set_body(response, &body);
hw_set_response_status_code(response, &status_code);
if (request->keep_alive) {
SETSTRING(keep_alive_name, "Connection");
SETSTRING(keep_alive_value, "close");
hw_set_response_header(response, &keep_alive_name, &keep_alive_value);
} else {
hw_set_http_version(response, 1, 0);
}
hw_http_response_send(response, req, response_complete);
}
static void opendhcp_http_query_iptv_devs(http_request *request, hw_http_response *response, void *UNUSED(user_data)) {
hw_string status_code;
hw_string content_type_name;
hw_string content_type_value;
hw_string body;
hw_string keep_alive_name;
hw_string keep_alive_value;
int ret;
auto *req = (data19 *)malloc(sizeof(struct data19));
if (req == nullptr) {
proto_response_error(response, 500, HTTP_STATUS_500, ERR_MALLOC_MEMORY);
return;
}
if (request->method != HW_HTTP_GET) {
proto_response_error(response, 405, HTTP_STATUS_405, ERR_HTTP_UNSUP_METHOD);
response_complete(req);
return;
}
memset(req, 0, sizeof(struct data19));
SETSTRING(content_type_name, "Content-Type");
SETSTRING(content_type_value, "application/json");
hw_set_response_header(response, &content_type_name, &content_type_value);
SETSTRING(status_code, HTTP_STATUS_200);
ret = dchp_get_all_iptv_devs(req);
if (ret != ERR_SUCCESS) {
proto_response_error(response, 500, HTTP_STATUS_500, ret);
response_complete(req);
return;
}
SETSTRING(body, req->dp);
hw_set_body(response, &body);
hw_set_response_status_code(response, &status_code);
if (request->keep_alive) {
SETSTRING(keep_alive_name, "Connection");
SETSTRING(keep_alive_value, "close");
hw_set_response_header(response, &keep_alive_name, &keep_alive_value);
} else {
hw_set_http_version(response, 1, 0);
}
hw_http_response_send(response, req, response_complete);
}
static void opendhcp_http_query_rangeset(http_request *request, hw_http_response *response, void *UNUSED(user_data)) {
hw_string status_code;
hw_string content_type_name;
hw_string content_type_value;
hw_string body;
hw_string keep_alive_name;
hw_string keep_alive_value;
int ret;
auto *req = (data19 *)malloc(sizeof(struct data19));
if (req == nullptr) {
proto_response_error(response, 500, HTTP_STATUS_500, ERR_MALLOC_MEMORY);
return;
}
if (request->method != HW_HTTP_GET) {
proto_response_error(response, 405, HTTP_STATUS_405, ERR_HTTP_UNSUP_METHOD);
free(req);
return;
}
memset(req, 0, sizeof(struct data19));
SETSTRING(content_type_name, "Content-Type");
SETSTRING(content_type_value, "application/json");
hw_set_response_header(response, &content_type_name, &content_type_value);
SETSTRING(status_code, HTTP_STATUS_200);
ret = query_dhcpd_rangeset(req);
if (ret != ERR_SUCCESS) {
proto_response_error(response, 500, HTTP_STATUS_500, ret);
free(req);
return;
}
SETSTRING(body, req->dp);
hw_set_body(response, &body);
hw_set_response_status_code(response, &status_code);
if (request->keep_alive) {
SETSTRING(keep_alive_name, "Connection");
SETSTRING(keep_alive_value, "close");
hw_set_response_header(response, &keep_alive_name, &keep_alive_value);
} else {
hw_set_http_version(response, 1, 0);
}
hw_http_response_send(response, req, response_complete);
}
unsigned int opendhcp_set_lease_time() {
return config_get_dhcp_server_lease_time();
}
/**
*
* @return
*/
int opendhcp_add_listener() {
int i;
c_vector listen_ip = config_get_dhcp_listen_on();
for (i = 0; listen_ip && i < vect_size(listen_ip); i++) {
const char *pIp = (const char *)vect_get_at(listen_ip, i);
if (pIp && strlen(pIp) > 0) {
MYDWORD addr = inet_addr(pIp);
addServer(cfig.specifiedServers, MAX_SERVERS, addr);
}
}
return i;
}
OCT 1. 修正一处可能存在的内存异常问题 2. 增加服务上线,下线通知Agent进程消息
2023-01-30 02:43:20 +00:00
static void on_http_response_cb(void *pData,
unsigned int size,
const char *pReqUrl,
const char *pDlPath,
const char *pTaskUuid,
int iFinished,
void *pUserData) {
OCT 1. 移植OpenDHCP 1.83 版本, 编译通过
2023-01-28 02:20:27 +00:00
if (iFinished == 0) {
dzlog_debug("Request(%s): [%s] Response: [%u] OK:\n", pTaskUuid, pReqUrl, size);
} else if (iFinished == 1) {
dzlog_error("Request(%s): [%s] Response: [%u] Error\n", pTaskUuid, pReqUrl, size);
} else {
dzlog_error("Download Error Code: %d\n", iFinished);
}
OCT 1. 修正一处可能存在的内存异常问题 2. 增加服务上线,下线通知Agent进程消息
2023-01-30 02:43:20 +00:00
free(pUserData);
OCT 1. 移植OpenDHCP 1.83 版本, 编译通过
2023-01-28 02:20:27 +00:00
}
void iptvCacheCb(void *UNUSED(pArg)) {
do {
bool isReport = false;
const char *pUrl = config_get_agent_iptv_report_url();
PIPTV_DEV_SET report = nullptr;
PIPTV_DEV_SET pDev, pTmp = nullptr;
uv_rwlock_wrlock(&g_uvCacheLock);
HASH_ITER(hh, g_iptvNewDevs, pDev, pTmp) {
PIPTV_DEV_SET pTemp;
const char *pDevMac = strdup(pDev->iptvMAC);
HASH_FIND_STR(g_iptvCacheDevs, pDevMac, pTemp);
// 新发现设备没有被上报过
if (!pTemp) {
auto pCacheDev = (PIPTV_DEV_SET)malloc(sizeof(IPTV_DEV_SET));
memcpy(pCacheDev, pDev, sizeof(IPTV_DEV_SET));
HASH_ADD_STR(report, iptvMAC, pCacheDev);
isReport = true;
// 添加到缓存列表供后续查询
HASH_ADD_STR(g_iptvCacheDevs, iptvMAC, pCacheDev);
dzlog_debug("Add IPTV device %s vni %d to cache\n", pCacheDev->iptvMAC, pCacheDev->vni);
}
HASH_DEL(g_iptvNewDevs, pDev);
free(pDev);
free((void *)pDevMac);
}
uv_rwlock_wrunlock(&g_uvCacheLock);
if (isReport && pUrl && strlen(pUrl) > 0) {
cJSON *pRspMsg = cJSON_CreateObject();
cJSON *pMsgArray = cJSON_CreateArray();
cJSON_AddItemToObject(pRspMsg, "iptvDevs", pMsgArray);
HASH_ITER(hh, report, pDev, pTmp) {
cJSON *pRspItem = cJSON_CreateObject();
cJSON_AddStringToObject(pRspItem, "mac", pDev->iptvMAC);
cJSON_AddNumberToObject(pRspItem, "vni", pDev->vni);
pDev->isReport = 1;
cJSON_AddItemToArray(pMsgArray, pRspItem);
}
const char *pStrPro = proto_create_new(pRspMsg, 200);
// Report new IPTV device MAC
OCT 1. 修正一处可能存在的内存异常问题 2. 增加服务上线,下线通知Agent进程消息
2023-01-30 02:43:20 +00:00
inet_http_post_async(pUrl, pStrPro, on_http_response_cb, (void *)pStrPro);
OCT 1. 移植OpenDHCP 1.83 版本, 编译通过
2023-01-28 02:20:27 +00:00
}
uv_sleep(10);
} while (true);
}
/**
* DHCP Server HTTP服务接口
*/
void opendhcp_init_http_server() {
static int added = FALSE;
static uv_thread_t uvThread;
if (!added) {
hw_http_add_route("/", opendhcp_http_info, nullptr);
hw_http_add_route("dhcp/info/getuser", opendhcp_http_get_userinfo, nullptr);
hw_http_add_route("dhcp/info/allusers", opendhcp_http_get_alluser, nullptr);
hw_http_add_route("dhcp/config/rangeset", opendhcp_http_add_rangeset, nullptr);
hw_http_add_route("dhcp/delete/rangeset", opendhcp_http_delete_rangeset, nullptr);
hw_http_add_route("dhcp/query/rangeset", opendhcp_http_query_rangeset, nullptr);
hw_http_add_route("dhcp/query/iptvdevice", opendhcp_http_query_iptv_devs, nullptr);
uv_rwlock_init(&g_uvCacheLock);
uv_thread_create(&uvThread, iptvCacheCb, nullptr);
added = TRUE;
#ifdef USER_VNI
dzlog_info("User VxLan Id: [%d]\n", cfg_get_user_vni_id());
#endif
}
}
/**
* DHCP
*/
void opendhcp_set_replication_svr() {
c_vector replication = config_get_dhcp_replication_svr();
if (replication && vect_size(replication) == 2) {
cfig.zoneServers[0] = inet_addr((const char *)vect_get_at(replication, 0));
cfig.zoneServers[1] = inet_addr((const char *)vect_get_at(replication, 1));
}
}
/**
* DHCP
*/
void opendhcp_add_ip_pool_set() {
c_vector pool = config_get_dhcp_server_range_set();
for (int i = 0; (pool && i < vect_size(pool)); i++) {
auto pRange = (POBJ_DHCP_RNG)vect_get_at(pool, i);
if (pRange) {
if (dhcp_add_rangeset_to_options(pRange) != ERR_SUCCESS) {
dzlog_error("Add rangeset(\"%s\") failed!\n", pRange->rangAddr);
}
}
}
}
int process_iptv_multicast(const unsigned char *p, int size, const char *mac) {
char ipTvId[16] = {0};
memcpy(ipTvId, &p[4], 10);
if (strcmp(ipTvId, "JSCMCC-OTT") == 0) {
PIPTV_DEV_SET pTmp;
HASH_FIND_STR(g_iptvNewDevs, mac, pTmp);
if (!pTmp) {
auto pDev = (PIPTV_DEV_SET)malloc(sizeof(IPTV_DEV_SET));
if (pDev) {
memset(pDev, 0, sizeof(IPTV_DEV_SET));
strcpy(pDev->iptvMAC, mac);
#ifdef USER_VNI
pDev->vni = cfg_get_user_vni_id();
#else
pDev->vni = 0;
#endif
pDev->isReport = 0;
uv_rwlock_wrlock(&g_uvCacheLock);
HASH_ADD_STR(g_iptvNewDevs, iptvMAC, pDev);
uv_rwlock_wrunlock(&g_uvCacheLock);
}
}
dzlog_debug("Found IPTV %s\n", mac);
return 0;
}
return 1;
}
/**
* MAC地址黑名单
*/
void opendhcp_add_mac_filter() {
c_vector pool = config_get_dhcp_mac_filter();
data20 optionData {};
optionData.options[0] = 0;
optionData.options[1] = DHCP_OPTION_END;
sds add = sdsempty();
sds err = sdsempty();
for (int i = 0; (pool && i < vect_size(pool)); i++) {
auto pRange = (char *)vect_get_at(pool, i);
if (pRange) {
data7 *dhcpEntry;
memset(&lump, 0, sizeof(data71));
lump.mapname = pRange;
lump.optionSize = 2;
lump.options = optionData.options;
dhcpEntry = createCache(&lump);
if (dhcpEntry) {
dhcpEntry->ip = 0;
dhcpEntry->rangeInd = -1;
dhcpEntry->fixed = 1;
dhcpEntry->expiry = 0;
dhcpCache[dhcpEntry->mapname] = dhcpEntry;
add = sdscatfmt(add, "\"%s\", ", pRange);
} else {
err = sdscatfmt(err, "\"%s\", ", pRange);
}
}
}
if (sdslen(add) > 0) {
sdsrange(add, 0, -3);
dzlog_debug("Add MAC [%s] for black list\n", add);
}
if (sdslen(err) > 0) {
sdsrange(err, 0, -2);
dzlog_debug("Add MAC [%s] for black list error\n", err);
}
sdsfree(add);
sdsfree(err);
}