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|
#include "Maat_rule.h"
#include "Maat_utils.h"
#include "Maat_command.h"
#include "Maat_rule_internal.h"
#include "cJSON.h"
#include "json2iris.h"
#include "config_monitor.h"
#include "hiredis.h"
#include <MESA/MESA_handle_logger.h>
#include <unistd.h>
#include <stdio.h>
#include <assert.h>
#include <sys/types.h>
#include <sys/stat.h>
const char* redis_dump_dir="./redis_dump";
const char* default_table_info="./table_info.conf";
void maat_tool_print_usage(void)
{
printf("maat_redis_tool manipulate rules from redis.\n");
printf("Usage:\n");
printf("\t-h [host], redis IP, 127.0.0.1 as default.\n");
printf("\t-p [port], redis port, 6379 as default.\n");
printf("\t-n [db], redis db, 0 as default.\n");
printf("\t-d [dir], dump rules from redis to [dir], %s as default.\n",redis_dump_dir);
printf("\t-v [version], dump specific [version] from redis, dump latest version as default.\n");
printf("\t-j [payload.json], add or delete rules as maat json. Must have field compile_table field, and plugin table's valid flag must be in the last column.\n");
printf("\t-t [timeout], timeout config after t seconds, default is 0 which means never timeout.\n");
printf("example: ./maat_redis_tool -h 127.0.0.1 -p 6379 -d %s\n",redis_dump_dir);
printf(" ./maat_redis_tool -h 127.0.0.1 -p 6379 -j payload.json -t 300\n");
return;
}
static int compare_serial_rule(const void *a, const void *b)
{
struct serial_rule_t *ra=(struct serial_rule_t *)a;
struct serial_rule_t *rb=(struct serial_rule_t *)b;
int ret=strcmp(ra->table_name, rb->table_name);
if(ret==0)
{
ret= ra->rule_id - rb->rule_id;
}
return ret;
}
void read_rule_from_redis(redisContext * ctx, long long desire_version, const char* output_path ,void*logger)
{
struct serial_rule_t* rule_list;
int rule_num=0,line_count=0;
int i=0,ret=0;
int update_type=CM_UPDATE_TYPE_INC;
long long version=0;
const char* cur_table=NULL;
char table_path[256],index_path[256];
FILE *table_fp=NULL, *index_fp=NULL;
rule_num=get_rm_key_list(ctx, 0, desire_version, &version, NULL, &rule_list, &update_type, logger,0);
if(rule_num==0)
{
if(desire_version!=0)
{
printf("Read desired version %lld failed.\n",desire_version);
}
else
{
printf("No Effective Rules.\n");
}
return;
}
if(rule_num<0)
{
printf("Read Redis Error.\n");
return;
}
assert(update_type==CM_UPDATE_TYPE_FULL);
printf("MAAT Version: %lld, key number: %d\n", version, rule_num);
if(rule_num==0)
{
goto clean_up;
}
printf("Reading value: ");
ret=get_maat_redis_value(ctx,rule_list,rule_num,logger,1);
if(ret<0)
{
goto clean_up;
}
printf("Sorting.\n");
qsort(rule_list,rule_num, sizeof(struct serial_rule_t),
compare_serial_rule);
if((access(output_path,F_OK)) <0)
{ if((mkdir(output_path,S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH)) < 0)
printf("mkdir %s error\n",output_path);
}
char foreign_files_dir[256];
snprintf(foreign_files_dir, sizeof(foreign_files_dir), "%s/foreign_files/",output_path);
if((access(foreign_files_dir,F_OK)) <0)
{ if((mkdir(foreign_files_dir,S_IRWXU | S_IRWXG | S_IROTH | S_IXOTH)) < 0)
printf("mkdir %s error\n",foreign_files_dir);
}
ret=get_foreign_keys_by_prefix(ctx, rule_list, rule_num, foreign_files_dir, logger);
if(ret>0)
{
printf("%d lines has foreign content.\n", ret);
get_foreign_conts(ctx, rule_list, rule_num, 1, logger);
}
snprintf(index_path,sizeof(index_path),"%s/full_config_index.%020lld",output_path,version);
index_fp=fopen(index_path,"w");
if(index_fp==NULL)
{
printf("Open %s failed.\n",index_path);
goto clean_up;
}
for(i=0;i<rule_num;i++)
{
if(rule_list[i].n_foreign>0)
{
rewrite_table_line_with_foreign(rule_list+i);
}
if(cur_table==NULL||0!=strcmp(cur_table,rule_list[i].table_name))
{
if(table_fp!=NULL)
{
fprintf(index_fp,"%s\t%d\t%s\n",cur_table,line_count,table_path);
fclose(table_fp);
table_fp=NULL;
set_file_rulenum(table_path,line_count, logger);
line_count=0;
printf("Written table %s\n",table_path);
}
snprintf(table_path,sizeof(table_path),"%s/%s.%020lld",output_path,rule_list[i].table_name,version);
set_file_rulenum(table_path, 0, logger);
table_fp=fopen(table_path,"a");
if(table_fp==NULL)
{
printf("Open %s failed.\n",table_path);
goto clean_up;
}
cur_table=rule_list[i].table_name;
}
fprintf(table_fp,"%s\tkey=%ld\n",rule_list[i].table_line,rule_list[i].rule_id);
line_count++;
}
fclose(table_fp);
table_fp=NULL;
fprintf(index_fp,"%s\t%d\t%s\n",cur_table,line_count,table_path);
set_file_rulenum(table_path,line_count, logger);
printf("Written table %s\n",table_path);
printf("Written complete: %s\n",index_path);
clean_up:
for(i=0;i<rule_num;i++)
{
empty_serial_rules(rule_list+i);
}
free(rule_list);
rule_list=NULL;
if(ctx!=NULL)
{
redisFree(ctx);
}
if(index_fp!=NULL)
{
fclose(index_fp);
}
if(table_fp!=NULL)
{
fclose(table_fp);
}
return;
}
int count_line_num(const char* table_name,const char* line,void *u_para)
{
(*((unsigned int *)u_para))++;
return 0;
}
int line_idx=0;
long long server_time=0,absolute_expire_time=0;
char compile_table_name[128];
int make_serial_rule(const char* table_name,const char* line,void *u_para)
{
struct serial_rule_t* s_rule=(struct serial_rule_t*)u_para;
int rule_id=0,is_valid=0;
char *str1=NULL, *token=NULL;
char *saveptr1=NULL,*last1=NULL;
int j=0;
char *buff=(char*)malloc(strlen(line)+1);
memcpy(buff,line, strlen(line)+1);
while(buff[strlen(buff)-1]=='\n'||buff[strlen(buff)-1]=='\t')
{
buff[strlen(buff)-1]='\0';
}
for (j = 0,str1=buff; ; j++, str1 = NULL) {
token = strtok_r(str1, "\t ", &saveptr1);
if (token == NULL)
break;
if(j==0)
{
sscanf(token,"%d",&rule_id);
}
last1=token;
}
sscanf(last1,"%d",&is_valid);
memcpy(buff,line, strlen(line)+1);
while(buff[strlen(buff)-1]=='\n'||buff[strlen(buff)-1]=='\t')
{
buff[strlen(buff)-1]='\0';
}
//printf("Writing table %s, rule_id=%d, timeout=%lld, is_valid=%d\n", table_name, rule_id,absolute_expire_time,is_valid);
set_serial_rule(s_rule+line_idx, (enum MAAT_OPERATION)is_valid, rule_id, 0, table_name, buff, absolute_expire_time);
line_idx++;
free(str1);
return 0;
}
#define WORK_MODE_DUMP 0
#define WORK_MODE_JSON 1
int main(int argc, char * argv[])
{
int oc=0,ret=0;
int model=0;
char redis_ip[64];
int redis_port=6379;
int redis_db=0;
strncpy(redis_ip,"127.0.0.1",sizeof(redis_ip));
char dump_dir[128], json_file[128], tmp_iris_path[128];
strncpy(dump_dir,redis_dump_dir,sizeof(dump_dir));
redisContext * ctx=NULL;
unsigned int total_line_cnt=0, success_cnt=0, i=0;
int timeout=0;
FILE* json_fp=NULL;
cJSON *json=NULL, *tmp_obj=NULL;
struct stat fstat_buf;
unsigned long json_file_size=0,read_size=0;
long long desired_version=0;
char* json_buff=NULL;
size_t json_buff_sz=0;
while((oc=getopt(argc,argv,"h:p:n:d:v:f:j:t:"))!=-1)
{
switch(oc)
{
case 'h':
strncpy(redis_ip,optarg,sizeof(redis_ip));
break;
case 'p':
sscanf(optarg,"%d",&redis_port);
break;
case 'n':
sscanf(optarg,"%d",&redis_db);
break;
case 'd':
model=WORK_MODE_DUMP;
strncpy(dump_dir,optarg,sizeof(dump_dir));
if(dump_dir[strlen(dump_dir)-1]=='/')
{
dump_dir[strlen(dump_dir)-1]='\0';
}
break;
case 'v':
sscanf(optarg,"%lld",&desired_version);
break;
case 'j':
strncpy(json_file, optarg,sizeof(json_file));
model=WORK_MODE_JSON;
ret=stat(json_file, &fstat_buf);
if(ret!=0)
{
printf("fstat file %s error.\n",json_file);
return -1;
}
json_fp=fopen(json_file,"r");
if(json_fp==NULL)
{
printf("fopen file %s error %s.\n",json_file,strerror(errno));
return -1;
}
json_file_size=fstat_buf.st_size;
json_buff=(char*)calloc(1,json_file_size);
read_size=fread(json_buff,1,json_file_size,json_fp);
if(read_size!=json_file_size)
{
printf("fread file %s error.",json_file);
return -1;
}
json=cJSON_Parse(json_buff);
if (!json)
{
printf("%s format is error before: %-200.200s",json_file,cJSON_GetErrorPtr());
return -1;
}
tmp_obj=cJSON_GetObjectItem(json,"compile_table");
if(tmp_obj==NULL)
{
printf("No \"compile_table\" in %s.\n",json_file);
return -1;
}
strncpy(compile_table_name,tmp_obj->valuestring,sizeof(compile_table_name));
free(json_buff);
cJSON_Delete(json);
fclose(json_fp);
break;
case 't':
sscanf(optarg,"%d",&timeout);
break;
case '?':
default:
maat_tool_print_usage();
return 0;
break;
}
}
ctx=connect_redis(redis_ip,redis_port, redis_db, NULL);
if(ctx==NULL)
{
return -1;
}
if(model==WORK_MODE_DUMP)
{
printf("Reading key list from %s:%d db%d.\n",redis_ip,redis_port,redis_db);
read_rule_from_redis(ctx,desired_version,dump_dir, NULL);
}
else if(model==WORK_MODE_JSON)
{
ret=load_file_to_memory(json_file, (unsigned char**)&json_buff, &json_buff_sz);
if(ret<0)
{
printf("open %s failed.\n", json_file);
}
ret=json2iris(json_buff, json_file, NULL, NULL, NULL, ctx, tmp_iris_path, sizeof(tmp_iris_path), NULL, NULL, NULL);
if(ret<0)
{
printf("Invalid json format.\n");
}
total_line_cnt=0;
config_monitor_traverse(0, tmp_iris_path, NULL, count_line_num, NULL, &total_line_cnt,NULL, NULL);
printf("Serialize %s to %d lines, write temp file to %s .\n",json_file, total_line_cnt, tmp_iris_path);
struct serial_rule_t * s_rule=(struct serial_rule_t *)calloc(sizeof(struct serial_rule_t),total_line_cnt);
server_time=redis_server_time(ctx);
if(!server_time)
{
printf("Get Redis Time failed.\n");
}
if(timeout>0)
{
absolute_expire_time=server_time+timeout;
}
config_monitor_traverse(0, tmp_iris_path, NULL, make_serial_rule, NULL, s_rule,NULL, NULL);
printf("Timeout=%lld\n",absolute_expire_time);
ret=0;
do
{
success_cnt=exec_serial_rule(ctx,s_rule, total_line_cnt, server_time, NULL);
}while(success_cnt<0);
if(success_cnt!=total_line_cnt)
{
printf("Only Add %d of %d, rule id maybe conflicts.\n",success_cnt,total_line_cnt);
}
for(i=0;i<total_line_cnt;i++)
{
empty_serial_rules(s_rule+i);
}
free(s_rule);
redisFree(ctx);
}
return 0;
}
|
