#include "conf.h" char *strncpy_(char *dest, const char *src, size_t n) { int size = sizeof(char) * (n + 1); char *tmp = (char *)malloc(size); // 开辟大小为n+1的临时内存tmp if (tmp) { memset(tmp, '\0', size); // 将内存初始化为0 memcpy(tmp, src, size - 1); // 将src的前n个字节拷贝到tmp memcpy(dest, tmp, size); // 将临时空间tmp的内容拷贝到dest free(tmp); // 释放内存 return dest; } else { return NULL; } } /* 在content中,设置变量(var)的首地址,值(val)的位置首地址和末地址,返回下一行指针 */ static char *set_var_val_lineEnd(char *content, char **var, char **val_begin, char **val_end) { char *p, *pn, *lineEnd; ; int val_len; while (1) { if (content == NULL) return NULL; for (; *content == ' ' || *content == '\t' || *content == '\r' || *content == '\n'; content++) ; if (*content == '\0') return NULL; *var = content; pn = strchr(content, '\n'); p = strchr(content, '='); if (p == NULL) { if (pn) { content = pn + 1; continue; } else return NULL; } content = p; //将变量以\0结束 for (p--; *p == ' ' || *p == '\t'; p--) ; *(p + 1) = '\0'; //值的首地址 for (content++; *content == ' ' || *content == '\t'; content++) ; if (*content == '\0') return NULL; //双引号引起来的值支持换行 if (*content == '"') { *val_begin = content + 1; *val_end = strstr(*val_begin, "\";"); if (*val_end != NULL) break; } else *val_begin = content; *val_end = strchr(content, ';'); if (pn && *val_end > pn) { content = pn + 1; continue; } break; } if (*val_end) { **val_end = '\0'; val_len = *val_end - *val_begin; lineEnd = *val_end; } else { val_len = strlen(*val_begin); *val_end = lineEnd = *val_begin + val_len; } *val_end = *val_begin + val_len; //printf("var[%s]\nbegin[%s]\n\n", *var, *val_begin); return lineEnd; } /* 在buff中读取模块(global http https httpdns httpudp)内容 */ static char *read_module(char *buff, const char *module_name) { int len; char *p, *p0; len = strlen(module_name); p = buff; while (1) { while (*p == ' ' || *p == '\t' || *p == '\r' || *p == '\n') p++; if (strncasecmp(p, module_name, len) == 0) { p += len; while (*p == ' ' || *p == '\t' || *p == '\r' || *p == '\n') p++; if (*p == '{') break; } if ((p = strchr(p, '\n')) == NULL) return NULL; } if ((p0 = strchr(++p, '}')) == NULL) return NULL; return strndup(p, p0 - p); } static void parse_global_module(char *content, conf * p) { char *var, *val_begin, *val_end, *lineEnd; while ((lineEnd = set_var_val_lineEnd(content, &var, &val_begin, &val_end)) != NULL) { if (strcasecmp(var, "uid") == 0) { p->uid = atoi(val_begin); } else if (strcasecmp(var, "process") == 0) { p->process = atoi(val_begin); } else if (strcasecmp(var, "timeout") == 0) { p->timeout = atoi(val_begin); } else if (strcasecmp(var, "encode") == 0) { p->sslencoding = atoi(val_begin); } else if (strcasecmp(var, "tcp_listen") == 0) { p->tcp_listen = atoi(val_begin); } else if (strcasecmp(var, "tcp6_listen") == 0) { p->tcp6_listen = atoi(val_begin); } else if (strcasecmp(var, "dns_listen") == 0) { p->dns_listen = atoi(val_begin); } content = strchr(lineEnd + 1, '\n'); } } static void parse_http_module(char *content, conf * p) { char *var, *val_begin, *val_end, *lineEnd; int val_begin_len; while ((lineEnd = set_var_val_lineEnd(content, &var, &val_begin, &val_end)) != NULL) { if (strcasecmp(var, "http_ip") == 0) { val_begin_len = strlen(val_begin) + 1; p->http_ip = (char *)malloc(val_begin_len); memset(p->http_ip, 0, val_begin_len); memcpy(p->http_ip, val_begin, val_begin_len); } else if (strcasecmp(var, "http_port") == 0) { p->http_port = atoi(val_begin); } else if (strcasecmp(var, "http_del") == 0) { val_begin_len = strlen(val_begin) + 1; p->http_del = (char *)malloc(val_begin_len); memset(p->http_del, 0, val_begin_len); memcpy(p->http_del, val_begin, val_begin_len); p->http_del_len = val_begin_len; } else if (strcasecmp(var, "http_first") == 0) { val_begin_len = strlen(val_begin) + 1; p->http_first = (char *)malloc(val_begin_len); memset(p->http_first, 0, val_begin_len); memcpy(p->http_first, val_begin, val_begin_len); p->http_first_len = val_begin_len; } else if (strcasecmp(var, "strrep") == 0) { val_begin_len = strlen(val_begin) + 1; p->http_strrep = (char *)malloc(val_begin_len); if (p->http_strrep == NULL) free(p->http_strrep); memset(p->http_strrep, 0, val_begin_len); memcpy(p->http_strrep, val_begin, val_begin_len); char *p1 = strstr(val_begin, "->"); p->http_strrep_aim = (char *)malloc(val_begin_len - strlen(p1 + 2) - 2 + 1); if (p->http_strrep_aim == NULL) { free(p->http_strrep_aim); } memset(p->http_strrep_aim, 0, val_begin_len - strlen(p1 + 2) - 2 + 1); strncpy_(p->http_strrep_aim, val_begin, val_begin_len - strlen(p1 + 2) - 3); // 实际 val_begin_len 多1 p->http_strrep_obj = (char *)malloc(strlen(p1 + 2) + 1); if (p->http_strrep_obj == NULL) { free(p->http_strrep_obj); } memset(p->http_strrep_obj, 0, strlen(p1 + 2) + 1); strncpy_(p->http_strrep_obj, p1 + 2, strlen(p1 + 2)); p->http_strrep_aim_len = strlen(p->http_strrep_aim); p->http_strrep_obj_len = strlen(p->http_strrep_obj); } else if (strcasecmp(var, "regrep") == 0) { val_begin_len = strlen(val_begin) + 1; p->http_regrep = (char *)malloc(val_begin_len); if (p->http_regrep == NULL) free(p->http_regrep); memset(p->http_regrep, 0, val_begin_len); memcpy(p->http_regrep, val_begin, val_begin_len); char *p1 = strstr(val_begin, "->"); p->http_regrep_aim = (char *)malloc(val_begin_len - strlen(p1 + 2) - 2 + 1); if (p->http_regrep_aim == NULL) { free(p->http_regrep_aim); } memset(p->http_regrep_aim, 0, val_begin_len - strlen(p1 + 2) - 2 + 1); strncpy_(p->http_regrep_aim, val_begin, val_begin_len - strlen(p1 + 2) - 3); p->http_regrep_obj = (char *)malloc(strlen(p1 + 2) + 1); if (p->http_regrep_obj == NULL) { free(p->http_regrep_obj); } memset(p->http_regrep_obj, 0, strlen(p1 + 2) + 1); strncpy_(p->http_regrep_obj, p1 + 2, strlen(p1 + 2)); p->http_regrep_aim_len = strlen(p->http_regrep_aim); p->http_regrep_obj_len = strlen(p->http_regrep_obj); } content = strchr(lineEnd + 1, '\n'); } } static void parse_https_module(char *content, conf * p) { char *var, *val_begin, *val_end, *lineEnd; int val_begin_len; while ((lineEnd = set_var_val_lineEnd(content, &var, &val_begin, &val_end)) != NULL) { if (strcasecmp(var, "https_ip") == 0) { val_begin_len = strlen(val_begin) + 1; p->https_ip = (char *)malloc(val_begin_len); memset(p->https_ip, 0, val_begin_len); memcpy(p->https_ip, val_begin, val_begin_len); } else if (strcasecmp(var, "https_port") == 0) { p->https_port = atoi(val_begin); } else if (strcasecmp(var, "https_del") == 0) { val_begin_len = strlen(val_begin) + 1; p->https_del = (char *)malloc(val_begin_len); memset(p->https_del, 0, val_begin_len); memcpy(p->https_del, val_begin, val_begin_len); p->https_del_len = val_begin_len; } else if (strcasecmp(var, "https_first") == 0) { val_begin_len = strlen(val_begin) + 1; p->https_first = (char *)malloc(val_begin_len); memset(p->https_first, 0, val_begin_len); memcpy(p->https_first, val_begin, val_begin_len); p->https_first_len = val_begin_len; } else if (strcasecmp(var, "strrep") == 0) { val_begin_len = strlen(val_begin) + 1; p->https_strrep = (char *)malloc(val_begin_len); if (p->https_strrep == NULL) free(p->https_strrep); memset(p->https_strrep, 0, val_begin_len); memcpy(p->https_strrep, val_begin, val_begin_len); char *p1 = strstr(val_begin, "->"); p->https_strrep_aim = (char *)malloc(val_begin_len - strlen(p1 + 2) - 2 + 1); if (p->https_strrep_aim == NULL) { free(p->https_strrep_aim); } memset(p->https_strrep_aim, 0, val_begin_len - strlen(p1 + 2) - 2 + 1); strncpy_(p->https_strrep_aim, val_begin, val_begin_len - strlen(p1 + 2) - 3); p->https_strrep_obj = (char *)malloc(strlen(p1 + 2) + 1); if (p->https_strrep_obj == NULL) { free(p->https_strrep_obj); } memset(p->https_strrep_obj, 0, strlen(p1 + 2) + 1); strncpy_(p->https_strrep_obj, p1 + 2, strlen(p1 + 2)); p->https_strrep_aim_len = strlen(p->https_strrep_aim); p->https_strrep_obj_len = strlen(p->https_strrep_obj); } else if (strcasecmp(var, "regrep") == 0) { val_begin_len = strlen(val_begin) + 1; p->https_regrep = (char *)malloc(val_begin_len); if (p->https_regrep == NULL) free(p->https_regrep); memset(p->https_regrep, 0, val_begin_len); memcpy(p->https_regrep, val_begin, val_begin_len); char *p1 = strstr(val_begin, "->"); p->https_regrep_aim = (char *)malloc(val_begin_len - strlen(p1 + 2) - 2 + 1); if (p->https_regrep_aim == NULL) free(p->https_regrep_aim); memset(p->https_regrep_aim, 0, val_begin_len - strlen(p1 + 2) - 2 + 1); strncpy_(p->https_regrep_aim, val_begin, val_begin_len - strlen(p1 + 2) - 3); p->https_regrep_obj = (char *)malloc(strlen(p1 + 2) + 1); if (p->https_regrep_obj == NULL) free(p->https_regrep_obj); memset(p->https_regrep_obj, 0, strlen(p1 + 2) + 1); strncpy_(p->https_regrep_obj, p1 + 2, strlen(p1 + 2)); p->https_regrep_aim_len = strlen(p->https_regrep_aim); p->https_regrep_obj_len = strlen(p->https_regrep_obj); } content = strchr(lineEnd + 1, '\n'); } } static void parse_httpdns_module(char *content, conf * p) { char *var, *val_begin, *val_end, *lineEnd; int val_begin_len; while ((lineEnd = set_var_val_lineEnd(content, &var, &val_begin, &val_end)) != NULL) { if (strcasecmp(var, "addr") == 0) { val_begin_len = strlen(val_begin) + 1; p->addr = (char *)malloc(val_begin_len); memset(p->addr, 0, val_begin_len); memcpy(p->addr, val_begin, val_begin_len); } else if (strcasecmp(var, "http_req") == 0) { val_begin_len = strlen(val_begin) + 1; p->http_req = (char *)malloc(val_begin_len); memset(p->http_req, 0, val_begin_len); memcpy(p->http_req, val_begin, val_begin_len); p->http_req_len = val_begin_len; } else if (strcasecmp(var, "encode") == 0) { p->encode = atoi(val_begin); } content = strchr(lineEnd + 1, '\n'); } } void free_conf(conf * p) { if (p->http_ip) free(p->http_ip); if (p->http_del) free(p->http_del); if (p->http_first) free(p->http_first); if (p->http_strrep) free(p->http_strrep); if (p->http_strrep_aim) free(p->http_strrep_aim); if (p->http_strrep_obj) free(p->http_strrep_obj); if (p->http_regrep) free(p->http_regrep); if (p->http_regrep_aim) free(p->http_regrep_aim); if (p->http_regrep_obj) free(p->http_regrep_obj); if (p->https_ip) free(p->https_ip); if (p->https_del) free(p->https_del); if (p->https_first) free(p->https_first); if (p->https_strrep) free(p->https_strrep); if (p->https_strrep_aim) free(p->https_strrep_aim); if (p->https_strrep_obj) free(p->https_strrep_obj); if (p->https_regrep) free(p->https_regrep); if (p->https_regrep_aim) free(p->https_regrep_aim); if (p->https_regrep_obj) free(p->https_regrep_obj); if (p->addr) free(p->addr); if (p->http_req) free(p->http_req); return; } void read_conf(char *filename, conf * configure) { char *buff, *global_content, *http_content, *https_content, *httpdns_content; FILE *file; long file_size; file = fopen(filename, "r"); if (file == NULL) { printf("cannot open config file."); exit(-1); } fseek(file, 0, SEEK_END); file_size = ftell(file); buff = (char *)alloca(file_size + 1); if (buff == NULL) perror("out of memory."); rewind(file); if (fread(buff, file_size, 1, file) < 1) { perror("fread"); } fclose(file); buff[file_size] = '\0'; if ((global_content = read_module(buff, "global")) == NULL) perror("read global module error"); parse_global_module(global_content, configure); free(global_content); if ((http_content = read_module(buff, "http")) == NULL) perror("read http module error"); parse_http_module(http_content, configure); free(http_content); if ((https_content = read_module(buff, "https")) == NULL) perror("read https module error"); parse_https_module(https_content, configure); free(https_content); if ((httpdns_content = read_module(buff, "httpdns")) == NULL) perror("read httpdns module error"); parse_httpdns_module(httpdns_content, configure); free(httpdns_content); }