/* * ZMap Copyright 2013 Regents of the University of Michigan * * Licensed under the Apache License, Version 2.0 (the "License"); you may not * use this file except in compliance with the License. You may obtain a copy * of the License at http://www.apache.org/licenses/LICENSE-2.0 */ #include #include #include #include #include #include #include "types.h" #include "fieldset.h" #ifndef STATE_H #define STATE_H #define MAX_PACKET_SIZE 4096 struct probe_module; struct output_module; struct fieldset_conf { fielddefset_t defs; fielddefset_t outdefs; translation_t translation; int success_index; int classification_index; }; // global configuration struct state_conf { int log_level; port_h_t target_port; port_h_t source_port_first; port_h_t source_port_last; // maximum number of packets that the scanner will send before terminating uint32_t max_targets; // maximum number of seconds that scanner will run before terminating uint32_t max_runtime; // maximum number of results before terminating uint32_t max_results; // name of network interface that // will be utilized for sending/receiving char *iface; // rate in packets per second // that the sender will maintain int rate; // rate in bits per second uint64_t bandwidth; // how many seconds after the termination of the sender will the receiver // continue to process responses int cooldown_secs; // number of sending threads int senders; // should use CLI provided randomization seed instead of generating // a random seed. int use_seed; uint32_t seed; // generator of the cyclic multiplicative group that is utilized for // address generation uint32_t generator; int packet_streams; struct probe_module *probe_module; struct output_module *output_module; char *probe_args; char *output_args; macaddr_t gw_mac[IFHWADDRLEN]; int gw_mac_set; char *source_ip_first; char *source_ip_last; char *output_filename; char *blacklist_filename; char *whitelist_filename; char *raw_output_fields; char **output_fields; struct fieldset_conf fsconf; int output_fields_len; int dryrun; int summary; int quiet; int filter_duplicates; int filter_unsuccessful; int recv_ready; }; extern struct state_conf zconf; // global sender stats struct state_send { double start; double finish; uint32_t sent; uint32_t blacklisted; int complete; uint32_t first_scanned; uint32_t targets; uint32_t sendto_failures; }; extern struct state_send zsend; // global receiver stats struct state_recv { // valid responses classified as "success" uint32_t success_total; // unique IPs that sent valid responses classified as "success" uint32_t success_unique; // valid responses classified as "success" received during cooldown uint32_t cooldown_total; // unique IPs that first sent valid "success"es during cooldown uint32_t cooldown_unique; // valid responses NOT classified as "success" uint32_t failure_total; int complete; // has the scanner finished sending? double start; // timestamp of when recv started double finish; // timestamp of when recv terminated // number of packets captured by pcap filter uint32_t pcap_recv; // number of packets dropped because there was no room in // the operating system's buffer when they arrived, because // packets weren't being read fast enough uint32_t pcap_drop; // number of packets dropped by the network interface or its driver. uint32_t pcap_ifdrop; }; extern struct state_recv zrecv; #endif // _STATE_H