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/*
* Mausezahn - A fast versatile traffic generator
* Copyright (C) 2010 Herbert Haas
*
* This program is free software; you can redistribute it and/or modify it under
* the terms of the GNU General Public License version 2 as published by the
* Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
* FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
* details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, see http://www.gnu.org/licenses/gpl-2.0.html
*
*/
#include "mz.h"
#include "cli.h"
#include "mops.h"
#include "llist.h"
///////////////////// TOC /////////////////////
//
// int mops_delete_sequence (char *name)
// struct mz_ll * mops_create_sequence (char *name)
// int mops_dump_sequence (char* str)
// int mops_add_packet_to_sequence (struct mz_ll *seq, struct mops *mp)
// int mops_add_delay_to_sequence (struct mz_ll *seq, struct timespec *t)
// int mops_delete_packet_from_pseq (struct mz_ll *seq, int index)
// int stop_sequence (char *name)
// int stop_all_sequences ()
// delete one sequence element (from the global packet_sequence list)
// which must be specified by its name
//
int mops_delete_sequence (char *name)
{
struct mz_ll *v;
v = mz_ll_search_name (packet_sequences, name);
if (v==NULL) return 1; // name not found
if (v->state) return 2; // sequence is currently active!
if (mz_ll_delete_element (v))
return -1; // cannot delete head element!
return 0;
}
struct mz_ll * mops_create_sequence (char *name)
{
struct mz_ll *cur;
struct pseq *seq;
int i;
cur = mz_ll_create_new_element(packet_sequences);
if (cur==NULL) return NULL;
strncpy(cur->name, name, MZ_LL_NAME_LEN);
// add data
cur->data = (struct pseq*) malloc (sizeof(struct pseq));
// initialize data
seq = (struct pseq*) cur->data;
seq->count = 0;
for (i=0; i<MAX_PACKET_SEQUENCE_LEN; i++) {
seq->packet[i] = NULL; // pointer to the packets
seq->gap[i].tv_sec = 0;
seq->gap[i].tv_nsec = 0;
}
return cur;
}
// PURPOSE: dumps all sequence objects line-by-line
//
// ARGUMENTS: Caller must provide a pointer to a string of size MZ_LL_NAME_LEN+(MAX_PACKET_SEQUENCE_LEN*6)
// (recommendation: 512 bytes !)
//
// RETURN VALUE: 0 if list is finished, 1 otherwise
//
// EXAMPLE: char str[512];
// while (mops_dump_sequence(str)
// printf("%s\n", str);
//
int mops_dump_sequence (char* str)
{
static int init=0;
static struct mz_ll *cur;
struct pseq *seq;
struct mops *pkt;
char tmp[256], t[16];
int i, c;
tmp[0]='\0';
if (init==-1) { // last turn said stop now!
init=0;
return 0;
}
if (init==0) {
cur=packet_sequences->next;
if (cur==NULL) {
str[0]='\0';
return 0;
}
init=1;
}
seq = (struct pseq*) cur->data;
if (seq==NULL) {
init=-1;
sprintf(str, "(no sequences found)");
return 1;
}
c = seq->count; // amount of currently stored packets in this sequence object
// create string with all packet IDs:
for (i=0; i<c; i++) {
pkt = seq->packet[i];
if (pkt == NULL) break;
snprintf(t, 15, "%i", pkt->id);
if (strnlen(tmp,256)>249) break;
strncat(tmp, t, 6);
if (i<c-1) strncat(tmp,", ", 2);
}
snprintf(str, 512, "%s {%s}", cur->name, tmp);
cur=cur->next;
if (cur==packet_sequences) init=-1; // stop next turn!
return 1;
}
// finds next free slot in sequence seq and adds packet mp
//
// RETURN VALUE: 0 upon success
// -1 failure: array full
// -2 failure: cannot add packets with infinite count
//
int mops_add_packet_to_sequence (struct mz_ll *seq, struct mops *mp)
{
struct pseq *cur;
int i;
if (seq==NULL) return 1;
// don't add packets with count=0
if (mp->count==0) return -2;
cur = (struct pseq*) seq->data;
if (cur->count >= MAX_PACKET_SEQUENCE_LEN) return -1; // packet array full!
for (i=0; i<MAX_PACKET_SEQUENCE_LEN; i++) {
if (cur->packet[i]==NULL) { // found empty slot
cur->packet[i]=mp;
cur->count++;
return 0;
}
}
return 1; // never reach here
}
// adds the given delay 't' to the last packet in the sequence's pseq
//
// NOTE: return index number of pseq where delay had been added
// or upon failure: -1 if there is no packet yet defined
// -2 if array is full
int mops_add_delay_to_sequence (struct mz_ll *seq, struct timespec *t)
{
struct pseq *cur;
int i;
if (seq==NULL) return 1;
cur = (struct pseq*) seq->data;
i = cur->count;
if (i>= MAX_PACKET_SEQUENCE_LEN) return -2; // packet array full!
cur->gap[i-1].tv_sec = t->tv_sec;
cur->gap[i-1].tv_nsec = t->tv_nsec;
return i-1; // note: is -1 if there is no packet yet (count=0)
}
// Deletes packet and associated delay from a pseq for given index
// If index == -1 then the last packet/delay is removed
//
// NOTE: index range is {1..count}
//
// RETURN VALUES: 0 upon success
// 1 upon failure
// 2 upon failure, index too big
//
int mops_delete_packet_from_pseq (struct mz_ll *seq, int index)
{
struct pseq *cur;
int i;
if (seq==NULL) return 1;
cur = (struct pseq*) seq->data;
if (cur->count==0) return 1; // list is empty, nothing to delete
if (index>cur->count) return 2;
if ((index==0) || (index<-1)) return 1; // total invalid index values
if (index==-1) { // remove last element
cur->packet[cur->count-1]=NULL;
cur->gap[cur->count-1].tv_sec=0;
cur->gap[cur->count-1].tv_nsec=0;
} else {
for (i=index-1; i<(cur->count-1); i++) {
cur->packet[i] = cur->packet[i+1];
cur->gap[i].tv_sec = cur->gap[i+1].tv_sec;
cur->gap[i].tv_nsec=cur->gap[i+1].tv_nsec;
}
}
cur->count--;
return 0;
}
int mops_delete_all_packets_from_pseq (struct mz_ll *seq)
{
struct pseq *cur;
int i;
if (seq==NULL) return 1;
cur = (struct pseq*) seq->data;
if (cur->count==0) return 1; // list is empty, nothing to delete
// DELETE ALL:
cur->count = 0;
for (i=0; i<MAX_PACKET_SEQUENCE_LEN; i++) {
cur->packet[i] = NULL; // pointer to the packets
cur->gap[i].tv_sec = 0;
cur->gap[i].tv_nsec = 0;
}
return 0;
}
// Stops an active sequence and sets all involved packets from state SEQACT to CONFIG.
//
// RETURN VALUE: 0 upon success
// 1 if sequence does not exist
// 2 if sequence is not actice
int stop_sequence (char *name)
{
struct mz_ll *v;
struct pseq *cur;
int i;
v = mz_ll_search_name (packet_sequences, name);
if (v==NULL) return 1; // name not found
if (!v->state) return 2; // sequence is not currently active!
// now stop thread:
pthread_cancel(v->sequence_thread);
// reset packet states:
cur = (struct pseq*) v->data;
for (i=0; i<cur->count; i++)
cur->packet[i]->state=MOPS_STATE_CONFIG;
// reset sequence state:
v->state = 0;
return 0;
}
// runs through 'packet_sequences' and cancels all active sequences
// (i. e. stops threads and sets states appropriately)
//
// Comment: It might seem a bit inefficient to call 'stop_sequence' for the
// detailed work, but this is the more safer way and it is fast enough.
//
// RETURN VALUE: Number of stopped sequences.
//
int stop_all_sequences ()
{
struct mz_ll *cur=packet_sequences->next;
int i=0;
while (cur!=packet_sequences) {
if (cur!=packet_sequences) { // just for safety
if (stop_sequence(cur->name)==0) i++;
}
cur=cur->next;
}
return i;
}
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