/* tap-srt.c * * Wireshark - Network traffic analyzer * By Gerald Combs * Copyright 1998 Gerald Combs * * SPDX-License-Identifier: GPL-2.0-or-later */ #include "config.h" #include #include #include #include #include #include #include #include #include #define NANOSECS_PER_SEC 1000000000 typedef struct _srt_t { const char *type; const char *filter; srt_data_t data; } srt_t; static void draw_srt_table_data(srt_stat_table *rst, gboolean draw_footer, const char *subfilter) { int i; guint64 td; guint64 sum; if (rst->num_procs > 0) { if (rst->filter_string != NULL && subfilter != NULL) { printf("Filter: %s and (%s)\n", rst->filter_string, subfilter); } else if (subfilter != NULL) { /* Print (subfilter) to disambiguate from just rst->filter_string. */ printf("Filter: (%s)\n", subfilter); } else { printf("Filter: %s\n", rst->filter_string ? rst->filter_string : ""); } printf("Index %-22s Calls Min SRT Max SRT Avg SRT Sum SRT\n", (rst->proc_column_name != NULL) ? rst->proc_column_name : "Procedure"); } for(i=0;inum_procs;i++){ /* ignore procedures with no calls (they don't have rows) */ if(rst->procedures[i].stats.num==0){ continue; } /* Scale the average SRT in units of 1us and round to the nearest us. tot.secs is a time_t which may be 32 or 64 bits (or even floating) depending uon the platform. After casting tot.secs to 64 bits, it would take a capture with a duration of over 136 *years* to overflow the secs portion of td. */ td = ((guint64)(rst->procedures[i].stats.tot.secs))*NANOSECS_PER_SEC + rst->procedures[i].stats.tot.nsecs; sum = (td + 500) / 1000; td = ((td / rst->procedures[i].stats.num) + 500) / 1000; printf("%5d %-22s %6u %3d.%06d %3d.%06d %3d.%06d %3d.%06d\n", i, rst->procedures[i].procedure, rst->procedures[i].stats.num, (int)rst->procedures[i].stats.min.secs, (rst->procedures[i].stats.min.nsecs+500)/1000, (int)rst->procedures[i].stats.max.secs, (rst->procedures[i].stats.max.nsecs+500)/1000, (int)(td/1000000), (int)(td%1000000), (int)(sum/1000000), (int)(sum%1000000) ); } if (draw_footer) printf("==================================================================\n"); } static void srt_draw(void *arg) { guint i = 0; srt_data_t* data = (srt_data_t*)arg; srt_t *ui = (srt_t *)data->user_data; srt_stat_table *srt_table; gboolean need_newline = FALSE; printf("\n"); printf("===================================================================\n"); printf("%s SRT Statistics:\n", ui->type); srt_table = g_array_index(data->srt_array, srt_stat_table*, i); draw_srt_table_data(srt_table, data->srt_array->len == 1, ui->filter); if (srt_table->num_procs > 0) { need_newline = TRUE; } for (i = 1; i < data->srt_array->len; i++) { if (need_newline) { printf("\n"); need_newline = FALSE; } srt_table = g_array_index(data->srt_array, srt_stat_table*, i); draw_srt_table_data(srt_table, i == data->srt_array->len-1, ui->filter); if (srt_table->num_procs > 0) { need_newline = TRUE; } } } static GArray* global_srt_array; static void init_srt_tables(register_srt_t* srt, const char *filter) { srt_t *ui; GString *error_string; ui = g_new0(srt_t, 1); ui->type = proto_get_protocol_short_name(find_protocol_by_id(get_srt_proto_id(srt))); ui->filter = g_strdup(filter); ui->data.srt_array = global_srt_array; ui->data.user_data = ui; error_string = register_tap_listener(get_srt_tap_listener_name(srt), &ui->data, filter, 0, NULL, get_srt_packet_func(srt), srt_draw, NULL); if (error_string) { free_srt_table(srt, global_srt_array); g_free(ui); cmdarg_err("Couldn't register srt tap: %s", error_string->str); g_string_free(error_string, TRUE); exit(1); } } static void dissector_srt_init(const char *opt_arg, void* userdata) { register_srt_t *srt = (register_srt_t*)userdata; const char *filter=NULL; char* err; srt_table_get_filter(srt, opt_arg, &filter, &err); if (err != NULL) { gchar* cmd_str = srt_table_get_tap_string(srt); cmdarg_err("invalid \"-z %s,%s\" argument", cmd_str, err); g_free(cmd_str); g_free(err); exit(1); } /* Need to create the SRT array now */ global_srt_array = g_array_new(FALSE, TRUE, sizeof(srt_stat_table*)); srt_table_dissector_init(srt, global_srt_array); init_srt_tables(srt, filter); } /* Set GUI fields for register_srt list */ bool register_srt_tables(const void *key _U_, void *value, void *userdata _U_) { register_srt_t *srt = (register_srt_t*)value; const char* short_name = proto_get_protocol_short_name(find_protocol_by_id(get_srt_proto_id(srt))); stat_tap_ui ui_info; gchar *cli_string; /* XXX - CAMEL dissector hasn't been converted over due seemingly different tap packet handling functions. So let the existing TShark CAMEL tap keep its registration */ if (strcmp(short_name, "CAMEL") == 0) return FALSE; cli_string = srt_table_get_tap_string(srt); ui_info.group = REGISTER_STAT_GROUP_RESPONSE_TIME; ui_info.title = NULL; /* construct this from the protocol info? */ ui_info.cli_string = cli_string; ui_info.tap_init_cb = dissector_srt_init; ui_info.nparams = 0; ui_info.params = NULL; register_stat_tap_ui(&ui_info, srt); g_free(cli_string); return FALSE; } /* * Editor modelines - https://www.wireshark.org/tools/modelines.html * * Local variables: * c-basic-offset: 8 * tab-width: 8 * indent-tabs-mode: t * End: * * vi: set shiftwidth=8 tabstop=8 noexpandtab: * :indentSize=8:tabSize=8:noTabs=false: */