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36cc1fe490f7
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Merge branch 'feat-api-cmds-and-branching'
Implements the programmer-facing API to allow programmatic
specification of a synchronous round. The way in which these put/get
interactions are performed is in an initial shape. Perhaps this will
change in the future.
The second main set of changes is the addion of a 'fork' statement,
which allows explicit forking, and allowing multiple puts/gets over the
same transport link within a single sync round.
Implements the programmer-facing API to allow programmatic
specification of a synchronous round. The way in which these put/get
interactions are performed is in an initial shape. Perhaps this will
change in the future.
The second main set of changes is the addion of a 'fork' statement,
which allows explicit forking, and allowing multiple puts/gets over the
same transport link within a single sync round.
5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 5ed4a5524548 | #include <time.h>
#include "../../reowolf.h"
#include "../utility.c"
int main(int argc, char** argv) {
// bounce off tokyo to my public IP
int i, j, cid, min_putter, min_getter, ports_tot, ports_used, n_rounds;
char do_puts, do_gets;
cid = atoi(argv[1]);
min_putter = atoi(argv[2]);
min_getter = atoi(argv[3]);
ports_tot = atoi(argv[4]);
ports_used = atoi(argv[5]);
do_puts = argv[6][0]; // 't' or 'f'
do_gets = argv[7][0];
n_rounds = atoi(argv[12]);
// argv 8..12 is PEER_IP
printf("cid %d, min_putter %d, min_getter %d, ports_tot %d, ports_used %d, do_puts %c, do_gets %c, n_rounds %d\n",
cid, min_putter, min_getter, ports_tot, ports_used, do_puts, do_gets, n_rounds);
printf("peer_ip %d.%d.%d.%d\n",
atoi(argv[8]),
atoi(argv[9]),
atoi(argv[10]),
atoi(argv[11]));
printf("Error str `%s`\n", reowolf_error_peek(NULL));
unsigned char pdl[] = "";
Arc_ProtocolDescription * pd = protocol_description_parse(pdl, sizeof(pdl)-1);
Connector * c = connector_new_with_id(pd, cid);
PortId putters[ports_tot], getters[ports_tot];
for(i=0; i<ports_tot; i++) {
connector_add_net_port(c, &putters[i],
(FfiSocketAddr){
{atoi(argv[8]),atoi(argv[9]),atoi(argv[10]),atoi(argv[11]),},
min_putter+i
},
Polarity_Putter, EndpointPolarity_Active);
connector_add_net_port(c, &getters[i],
(FfiSocketAddr){
{0,0,0,0},
min_getter+i
},
Polarity_Getter, EndpointPolarity_Passive);
}
connector_connect(c, -1);
printf("connect ok!\n");
clock_t begin = clock();
char msg[] = "Hello, world!";
for (i=0; i<n_rounds; i++) {
for(j=0; j<ports_used; j++) {
if(do_gets=='y') connector_get(c, getters[j]);
if(do_puts=='y') connector_put_bytes(c, putters[j], msg, sizeof(msg)-1);
}
connector_sync(c, -1);
}
clock_t end = clock();
double time_spent = (double)(end - begin) / CLOCKS_PER_SEC;
printf("Time taken: %f\n", time_spent);
return 0;
}
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