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|
/*
This file is part of GNUnet.
Copyright (C) 2010,2011 GNUnet e.V.
GNUnet is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published
by the Free Software Foundation; either version 3, or (at your
option) any later version.
GNUnet 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 GNUnet; see the file COPYING. If not, write to the
Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
/**
* @file ats/perf_ats_solver.c
* @brief generic performance test for ATS solvers
* @author Christian Grothoff
* @author Matthias Wachs
*/
#include "platform.h"
#include "gnunet_util_lib.h"
#include "gnunet_statistics_service.h"
#include "gnunet-service-ats_addresses.h"
#include "gnunet-service-ats_plugins.h"
#include "gnunet-service-ats_normalization.h"
#include "gnunet-service-ats_preferences.h"
#include "gnunet_ats_service.h"
#include "gnunet_ats_plugin.h"
#include "test_ats_api_common.h"
#define DEFAULT_UPDATE_PERCENTAGE 20
#define DEFAULT_PEERS_START 10
#define DEFAULT_PEERS_END 10
#define DEFAULT_ADDRESSES 10
#define DEFAULT_ATS_COUNT 2
/**
* Handle for statistics.
*/
struct GNUNET_STATISTICS_Handle *GSA_stats;
/**
* Handle for ATS address component
*/
struct PerfHandle
{
/**
* Performance peers
*/
struct PerfPeer *peers;
/**
* Solver handle
*/
struct GNUNET_ATS_SolverFunctions *sf;
/**
* Statistics stat;
*/
struct GNUNET_STATISTICS_Handle *stat;
/**
* A multihashmap to store all addresses
*/
struct GNUNET_CONTAINER_MultiPeerMap *addresses;
/**
* Solver functions
* */
struct GNUNET_ATS_PluginEnvironment env;
/**
* Array for results for each iteration with length iterations
*/
struct Iteration *iterations_results;
/**
* The current result
*/
struct Result *current_result;
/**
* Current number of peers benchmarked
*/
int current_p;
/**
* Current number of addresses benchmarked
*/
int current_a;
/**
* Solver description as string
*/
char *ats_string;
/**
* Configured ATS solver
*/
int ats_mode;
/**
* #peers to start benchmarking with
*/
int N_peers_start;
/**
* #peers to end benchmarking with
*/
int N_peers_end;
/**
* #addresses to benchmarking with
*/
int N_address;
/**
* Percentage of peers to update
*/
int opt_update_percent;
/**
* Create gnuplot file
*/
int create_datafile;
/**
* Measure updates
*/
int measure_updates;
/**
* Number of iterations
*/
int total_iterations;
/**
* Current iteration
*/
int current_iteration;
/**
* Is a bulk operation running?
*/
int bulk_running;
/**
* Is a bulk operation running?
*/
int expecting_solution;
/**
* Was the problem just updates?
*/
int performed_update;
};
/**
* Data structure to store results for a single iteration
*/
struct Iteration
{
struct Result **results_array;
struct Result **update_results_array;
};
/**
* Result for a solver calculcation
*/
struct Result
{
/**
* Previous element in the linked list
*/
struct Result *prev;
/**
* Next element in the linked list
*/
struct Result *next;
/**
* Number of peers this solution included
*/
int peers;
/**
* Number of addresses per peer this solution included
*/
int addresses;
/**
* Is this an update or a full solution
*/
int update;
/**
* Was the solution valid or did the solver fail
*/
int valid;
/**
* Result of the solver
*/
enum GAS_Solver_Additional_Information info;
/**
* Duration of setting up the problem in the solver
*/
struct GNUNET_TIME_Relative d_setup_full;
/**
* Duration of solving the LP problem in the solver
* MLP solver only
*/
struct GNUNET_TIME_Relative d_lp_full;
/**
* Duration of solving the MLP problem in the solver
* MLP solver only
*/
struct GNUNET_TIME_Relative d_mlp_full;
/**
* Duration of solving whole problem in the solver
*/
struct GNUNET_TIME_Relative d_total_full;
/**
* Start time of setting up the problem in the solver
*/
struct GNUNET_TIME_Absolute s_setup;
/**
* Start time of solving the LP problem in the solver
* MLP solver only
*/
struct GNUNET_TIME_Absolute s_lp;
/**
* Start time of solving the MLP problem in the solver
* MLP solver only
*/
struct GNUNET_TIME_Absolute s_mlp;
/**
* Start time of solving whole problem in the solver
*/
struct GNUNET_TIME_Absolute s_total;
/**
* End time of setting up the problem in the solver
*/
struct GNUNET_TIME_Absolute e_setup;
/**
* End time of solving the LP problem in the solver
* MLP solver only
*/
struct GNUNET_TIME_Absolute e_lp;
/**
* End time of solving the MLP problem in the solver
* MLP solver only
*/
struct GNUNET_TIME_Absolute e_mlp;
/**
* End time of solving whole problem in the solver
*/
struct GNUNET_TIME_Absolute e_total;
};
/**
* Peer used for the benchmarking
*/
struct PerfPeer
{
/**
* Peer identitity
*/
struct GNUNET_PeerIdentity id;
/**
* Head of linked list of addresses used with this peer
*/
struct ATS_Address *head;
/**
* Head of linked list of addresses used with this peer
*/
struct ATS_Address *tail;
};
/**
* ATS performance handle
*/
static struct PerfHandle ph;
/**
* Return value
*/
static int ret;
/**
* Do shutdown
*/
static void
end_now (int res)
{
if (NULL != ph.stat)
{
GNUNET_STATISTICS_destroy (ph.stat, GNUNET_NO);
ph.stat = NULL;
}
GNUNET_free_non_null (ph.peers);
GNUNET_free_non_null (ph.iterations_results);
GAS_normalization_stop ();
GAS_preference_done ();
ret = res;
}
/**
* Create a peer used for benchmarking
*
* @param cp the number of the peer
*/
static void
perf_create_peer (int cp)
{
GNUNET_CRYPTO_random_block (GNUNET_CRYPTO_QUALITY_WEAK,
&ph.peers[cp].id, sizeof (struct GNUNET_PeerIdentity));
GNUNET_log(GNUNET_ERROR_TYPE_DEBUG, "Creating peer #%u: %s \n", cp,
GNUNET_i2s (&ph.peers[cp].id));
}
/**
* Perform an update for an address
*
* @param cur the address to update
*/
static void
perf_update_address (struct ATS_Address *cur)
{
int r_type;
int abs_val;
double rel_val;
r_type = GNUNET_CRYPTO_random_u32 (GNUNET_CRYPTO_QUALITY_WEAK, 2);
switch (r_type)
{
case 0:
abs_val = GNUNET_CRYPTO_random_u32 (GNUNET_CRYPTO_QUALITY_WEAK, 100);
rel_val = (100 + (double) abs_val) / 100;
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Updating peer `%s' address %p type %s abs val %u rel val %.3f\n",
GNUNET_i2s (&cur->peer), cur,
"GNUNET_ATS_QUALITY_NET_DELAY",
abs_val, rel_val);
ph.sf->s_address_update_property (ph.sf->cls, cur,
GNUNET_ATS_QUALITY_NET_DELAY,
abs_val, rel_val);
break;
case 1:
abs_val = GNUNET_CRYPTO_random_u32 (GNUNET_CRYPTO_QUALITY_WEAK, 10);
rel_val = (100 + (double) abs_val) / 100;
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Updating peer `%s' address %p type %s abs val %u rel val %.3f\n",
GNUNET_i2s (&cur->peer), cur, "GNUNET_ATS_QUALITY_NET_DISTANCE",
abs_val, rel_val);
ph.sf->s_address_update_property (ph.sf->cls, cur,
GNUNET_ATS_QUALITY_NET_DISTANCE,
abs_val, rel_val);
break;
default:
break;
}
}
static void
bandwidth_changed_cb (void *cls,
struct ATS_Address *address)
{
if ( (0 == address->assigned_bw_out) && (0 == address->assigned_bw_in) )
return;
GNUNET_log (GNUNET_ERROR_TYPE_DEBUG,
"Bandwidth changed addresses %s %p to %u Bps out / %u Bps in\n",
GNUNET_i2s (&address->peer),
address,
address->assigned_bw_out,
address->assigned_bw_in);
if (GNUNET_YES == ph.bulk_running)
GNUNET_break (0);
return;
}
static const double *
get_preferences_cb (void *cls, const struct GNUNET_PeerIdentity *id)
{
return GAS_preference_get_by_peer (NULL, id);
}
static void
perf_address_initial_update (void *dead,
struct GNUNET_CONTAINER_MultiPeerMap * addresses,
struct ATS_Address *address)
{
double delay;
double distance;
uint32_t random = GNUNET_CRYPTO_random_u32 (GNUNET_CRYPTO_QUALITY_WEAK, 100);
delay = (100 + (double) random) / 100;
ph.sf->s_address_update_property (ph.sf->cls,
address, GNUNET_ATS_QUALITY_NET_DELAY,
100, delay);
random = GNUNET_CRYPTO_random_u32 (GNUNET_CRYPTO_QUALITY_WEAK, 100);
distance = (100 + (double) random) / 100;
ph.sf->s_address_update_property (ph.sf->cls, address,
GNUNET_ATS_QUALITY_NET_DISTANCE,
10, distance);
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Initial update address %p : %.2f %.2f\n",
address, delay, distance);
}
struct DUA_Ctx
{
int r;
int c_cur_a;
};
static int
do_update_address (void *cls,
const struct GNUNET_PeerIdentity *pid,
void *value)
{
struct DUA_Ctx *ctx = cls;
struct ATS_Address *addr = value;
if (ctx->c_cur_a == ctx->r)
perf_update_address (addr);
ctx->c_cur_a++;
return GNUNET_OK;
}
/**
* Update a certain percentage of peers
*
* @param cp the current number of peers
* @param ca the current number of addresses
* @param percentage_peers the percentage of peers to update
*/
static void
perf_update_all_addresses (unsigned int cp, unsigned int ca, unsigned int percentage_peers)
{
int c_peer;
int c_select;
int c_cur_p;
int r;
int count;
unsigned int m[cp];
struct DUA_Ctx dua_ctx;
count = cp * ((double) percentage_peers / 100);
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Updating %u of %u peers \n", count, cp);
for (c_peer = 0; c_peer < cp; c_peer++)
m[c_peer] = 0;
c_select = 0;
while (c_select < count)
{
r = GNUNET_CRYPTO_random_u32 (GNUNET_CRYPTO_QUALITY_WEAK, cp);
if (0 == m[r])
{
m[r] = 1;
GNUNET_log(GNUNET_ERROR_TYPE_DEBUG,
"Updating peer [%u] \n", r);
c_select++;
}
}
for (c_cur_p = 0; c_cur_p < cp; c_cur_p++)
{
if (1 == m[c_cur_p])
{
r = GNUNET_CRYPTO_random_u32 (GNUNET_CRYPTO_QUALITY_WEAK, ca);
GNUNET_log(GNUNET_ERROR_TYPE_DEBUG,
"Updating peer [%u] address [%u]\n", c_cur_p, r);
dua_ctx.c_cur_a = 0;
dua_ctx.r = r;
GNUNET_CONTAINER_multipeermap_get_multiple (ph.addresses,
&ph.peers[c_cur_p].id,
&do_update_address,
&dua_ctx);
}
}
}
/**
* Create an address for a peer
*
* @param cp index of the peer
* @param ca index of the address
* @return the address
*/
static struct ATS_Address *
perf_create_address (int cp, int ca)
{
struct ATS_Address *a;
a = create_address (&ph.peers[cp].id,
"Test 1", "test 1", strlen ("test 1") + 1, 0);
GNUNET_CONTAINER_multipeermap_put (ph.addresses, &ph.peers[cp].id, a,
GNUNET_CONTAINER_MULTIHASHMAPOPTION_MULTIPLE);
return a;
}
/**
* Information callback for the solver
*
* @param op the solver operation
* @param stat status of the solver operation
* @param add additional solver information
*/
static void
solver_info_cb (void *cls,
enum GAS_Solver_Operation op,
enum GAS_Solver_Status stat,
enum GAS_Solver_Additional_Information add)
{
char *add_info;
switch (add) {
case GAS_INFO_NONE:
add_info = "GAS_INFO_NONE";
break;
case GAS_INFO_FULL:
add_info = "GAS_INFO_MLP_FULL";
break;
case GAS_INFO_UPDATED:
add_info = "GAS_INFO_MLP_UPDATED";
break;
case GAS_INFO_PROP_ALL:
add_info = "GAS_INFO_PROP_ALL";
break;
case GAS_INFO_PROP_SINGLE:
add_info = "GAS_INFO_PROP_SINGLE";
break;
default:
add_info = "INVALID";
break;
}
struct Result *tmp;
switch (op)
{
case GAS_OP_SOLVE_START:
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Solver notifies `%s' with result `%s' `%s'\n", "GAS_OP_SOLVE_START",
(GAS_STAT_SUCCESS == stat) ? "SUCCESS" : "FAIL", add_info);
if (GNUNET_NO == ph.expecting_solution)
{
/* We do not expect a solution at the moment */
GNUNET_break (0);
return;
}
if ((GAS_STAT_SUCCESS == stat) && (NULL == ph.current_result))
{
tmp = GNUNET_new (struct Result);
/* Create new result */
if ((add == GAS_INFO_UPDATED) || (GNUNET_YES == ph.performed_update))
{
ph.current_result = tmp;
//fprintf (stderr,"UPDATE %u %u\n",ph.current_iteration-1, ph.current_p);
ph.iterations_results[ph.current_iteration-1].update_results_array[ph.current_p] = tmp;
}
else
{
ph.current_result = tmp;
//fprintf (stderr,"FULL %u %u\n",ph.current_iteration-1, ph.current_p);
ph.iterations_results[ph.current_iteration-1].results_array[ph.current_p] = tmp;
}
ph.current_result->addresses = ph.current_a;
ph.current_result->peers = ph.current_p;
ph.current_result->s_total = GNUNET_TIME_absolute_get();
ph.current_result->d_total_full = GNUNET_TIME_UNIT_FOREVER_REL;
ph.current_result->d_setup_full = GNUNET_TIME_UNIT_FOREVER_REL;
ph.current_result->d_lp_full = GNUNET_TIME_UNIT_FOREVER_REL;
ph.current_result->d_mlp_full = GNUNET_TIME_UNIT_FOREVER_REL;
ph.current_result->info = add;
if ((add == GAS_INFO_UPDATED) || (GNUNET_YES == ph.performed_update))
{
ph.current_result->update = GNUNET_YES;
}
else
{
ph.current_result->update = GNUNET_NO;
}
}
return;
case GAS_OP_SOLVE_STOP:
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Solver notifies `%s' with result `%s', `%s'\n", "GAS_OP_SOLVE_STOP",
(GAS_STAT_SUCCESS == stat) ? "SUCCESS" : "FAIL", add_info);
if ((GNUNET_NO == ph.expecting_solution) || (NULL == ph.current_result))
{
/* We do not expect a solution at the moment */
GNUNET_break (0);
return;
}
if (GAS_STAT_SUCCESS == stat)
ph.current_result->valid = GNUNET_YES;
else
ph.current_result->valid = GNUNET_NO;
if (NULL != ph.current_result)
{
/* Finalize result */
ph.current_result->e_total = GNUNET_TIME_absolute_get ();
ph.current_result->d_total_full = GNUNET_TIME_absolute_get_difference (
ph.current_result->s_total, ph.current_result->e_total);
}
ph.current_result = NULL;
return;
case GAS_OP_SOLVE_SETUP_START:
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Solver notifies `%s' with result `%s'\n", "GAS_OP_SOLVE_SETUP_START",
(GAS_STAT_SUCCESS == stat) ? "SUCCESS" : "FAIL");
if ((GNUNET_NO == ph.expecting_solution) || (NULL == ph.current_result))
{
GNUNET_break(0);
return;
}
if (GAS_STAT_SUCCESS == stat)
ph.current_result->valid = GNUNET_YES;
else
ph.current_result->valid = GNUNET_NO;
ph.current_result->s_setup = GNUNET_TIME_absolute_get ();
return;
case GAS_OP_SOLVE_SETUP_STOP:
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Solver notifies `%s' with result `%s'\n", "GAS_OP_SOLVE_SETUP_STOP",
(GAS_STAT_SUCCESS == stat) ? "SUCCESS" : "FAIL");
if ((GNUNET_NO == ph.expecting_solution) || (NULL == ph.current_result))
{
GNUNET_break(0);
return;
}
if (GAS_STAT_SUCCESS == stat)
ph.current_result->valid = GNUNET_YES;
else
ph.current_result->valid = GNUNET_NO;
ph.current_result->e_setup = GNUNET_TIME_absolute_get ();
ph.current_result->d_setup_full = GNUNET_TIME_absolute_get_difference (
ph.current_result->s_setup, ph.current_result->e_setup);
return;
case GAS_OP_SOLVE_MLP_LP_START:
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Solver notifies `%s' with result `%s'\n", "GAS_OP_SOLVE_LP_START",
(GAS_STAT_SUCCESS == stat) ? "SUCCESS" : "FAIL");
if ((GNUNET_NO == ph.expecting_solution) || (NULL == ph.current_result))
{
GNUNET_break(0);
return;
}
if (GAS_STAT_SUCCESS == stat)
ph.current_result->valid = GNUNET_YES;
else
ph.current_result->valid = GNUNET_NO;
ph.current_result->s_lp = GNUNET_TIME_absolute_get ();
return;
case GAS_OP_SOLVE_MLP_LP_STOP:
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Solver notifies `%s' with result `%s'\n", "GAS_OP_SOLVE_LP_STOP",
(GAS_STAT_SUCCESS == stat) ? "SUCCESS" : "FAIL");
if ((GNUNET_NO == ph.expecting_solution) || (NULL == ph.current_result))
{
GNUNET_break(0);
return;
}
if (GAS_STAT_SUCCESS == stat)
ph.current_result->valid = GNUNET_YES;
else
ph.current_result->valid = GNUNET_NO;
ph.current_result->e_lp = GNUNET_TIME_absolute_get ();
ph.current_result->d_lp_full = GNUNET_TIME_absolute_get_difference (
ph.current_result->s_lp, ph.current_result->e_lp);
return;
case GAS_OP_SOLVE_MLP_MLP_START:
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Solver notifies `%s' with result `%s'\n", "GAS_OP_SOLVE_MLP_START",
(GAS_STAT_SUCCESS == stat) ? "SUCCESS" : "FAIL");
if ((GNUNET_NO == ph.expecting_solution) || (NULL == ph.current_result))
{
GNUNET_break(0);
return;
}
if (GAS_STAT_SUCCESS == stat)
ph.current_result->valid = GNUNET_YES;
else
ph.current_result->valid = GNUNET_NO;
ph.current_result->s_mlp = GNUNET_TIME_absolute_get ();
return;
case GAS_OP_SOLVE_MLP_MLP_STOP:
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Solver notifies `%s' with result `%s'\n", "GAS_OP_SOLVE_MLP_STOP",
(GAS_STAT_SUCCESS == stat) ? "SUCCESS" : "FAIL");
if ((GNUNET_NO == ph.expecting_solution) || (NULL == ph.current_result))
{
GNUNET_break(0);
return;
}
if (GAS_STAT_SUCCESS == stat)
ph.current_result->valid = GNUNET_YES;
else
ph.current_result->valid = GNUNET_NO;
ph.current_result->e_mlp = GNUNET_TIME_absolute_get ();
ph.current_result->d_mlp_full = GNUNET_TIME_absolute_get_difference (
ph.current_result->s_mlp, ph.current_result->e_mlp);
return;
case GAS_OP_SOLVE_UPDATE_NOTIFICATION_START:
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Solver notifies `%s' with result `%s'\n", "GAS_OP_SOLVE_UPDATE_NOTIFICATION_START",
(GAS_STAT_SUCCESS == stat) ? "SUCCESS" : "FAIL");
return;
case GAS_OP_SOLVE_UPDATE_NOTIFICATION_STOP:
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Solver notifies `%s' with result `%s'\n", "GAS_OP_SOLVE_UPDATE_NOTIFICATION_STOP",
(GAS_STAT_SUCCESS == stat) ? "SUCCESS" : "FAIL");
if (GAS_STAT_SUCCESS != stat)
{
GNUNET_log(GNUNET_ERROR_TYPE_ERROR,
"Solver `%s' failed to update problem with %u peers and %u address!\n",
ph.ats_string, ph.current_p, ph.current_a);
}
return;
default:
break;
}
}
/**
* Evaluate results for a specific iteration
*
* @param iteration the iteration to evaluate
*/
static void
evaluate (int iteration)
{
struct Result *cur;
int cp;
for (cp = ph.N_peers_start; cp <= ph.N_peers_end; cp ++)
{
cur = ph.iterations_results[ph.current_iteration-1].results_array[cp];
if (0 == cp)
continue;
if (NULL == cur)
{
GNUNET_break (0);
fprintf (stderr,
"Missing result for %u peers\n", cp);
continue;
}
if (GNUNET_NO == cur->valid)
{
fprintf (stderr,
"Total time to solve %s for %u peers %u addresses: %s\n",
(GNUNET_YES == cur->update) ? "updated" : "full",
cur->peers, cur->addresses, "Failed to solve!");
continue;
}
if (GNUNET_TIME_UNIT_FOREVER_REL.rel_value_us != cur->d_total_full.rel_value_us)
{
fprintf (stderr,
"Total time to solve %s for %u peers %u addresses: %llu us\n",
(GNUNET_YES == cur->update) ? "updated" : "full",
cur->peers, cur->addresses,
(unsigned long long) cur->d_total_full.rel_value_us);
}
if (GNUNET_TIME_UNIT_FOREVER_REL.rel_value_us != cur->d_setup_full.rel_value_us)
{
GNUNET_log (GNUNET_ERROR_TYPE_INFO,
"Total time to setup %s %u peers %u addresses: %llu us\n",
(GNUNET_YES == cur->update) ? "updated" : "full",
cur->peers, cur->addresses,
(unsigned long long) cur->d_setup_full.rel_value_us);
}
if (GNUNET_TIME_UNIT_FOREVER_REL.rel_value_us != cur->d_lp_full.rel_value_us)
{
GNUNET_log (GNUNET_ERROR_TYPE_INFO,
"Total time to solve %s LP for %u peers %u addresses: %llu us\n",
(GNUNET_YES == cur->update) ? "updated" : "full",
cur->peers,
cur->addresses,
(unsigned long long )cur->d_lp_full.rel_value_us);
}
if (GNUNET_TIME_UNIT_FOREVER_REL.rel_value_us != cur->d_mlp_full.rel_value_us)
{
GNUNET_log (GNUNET_ERROR_TYPE_INFO,
"Total time to solve %s MLP for %u peers %u addresses: %llu us\n",
(GNUNET_YES == cur->update) ? "updated" : "full",
cur->peers, cur->addresses,
(unsigned long long )cur->d_mlp_full.rel_value_us);
}
}
}
static unsigned int
get_connectivity_cb (void *cls,
const struct GNUNET_PeerIdentity *peer)
{
return GNUNET_CONTAINER_multipeermap_contains (ph.addresses,
peer);
}
/**
* Evaluate average results for all iterations
*/
static void
write_all_iterations (void)
{
int c_iteration;
int c_peer;
struct GNUNET_DISK_FileHandle *f_full;
struct GNUNET_DISK_FileHandle *f_update;
char * data_fn_full;
char * data_fn_update;
char * data;
f_full = NULL;
f_update = NULL;
data_fn_full = NULL;
if (GNUNET_NO == ph.create_datafile)
return;
GNUNET_asprintf (&data_fn_full,
"perf_%s_full_%u-%u_%u_%u.data",
ph.ats_string,
ph.total_iterations,
ph.N_peers_start,
ph.N_peers_end,
ph.N_address);
GNUNET_log (GNUNET_ERROR_TYPE_ERROR,
"Using data file `%s'\n",
data_fn_full);
f_full = GNUNET_DISK_file_open (data_fn_full,
GNUNET_DISK_OPEN_WRITE | GNUNET_DISK_OPEN_CREATE,
GNUNET_DISK_PERM_USER_EXEC | GNUNET_DISK_PERM_USER_READ | GNUNET_DISK_PERM_USER_WRITE);
if (NULL == f_full)
{
GNUNET_log (GNUNET_ERROR_TYPE_ERROR,
"Cannot open data file `%s'\n",
data_fn_full);
GNUNET_free (data_fn_full);
return;
}
data = "#peers;addresses;time total in us;#time setup in us;#time lp in us;#time mlp in us;\n";
if (GNUNET_SYSERR == GNUNET_DISK_file_write(f_full, data, strlen(data)))
GNUNET_log (GNUNET_ERROR_TYPE_ERROR,
"Cannot write data to log file `%s'\n",
data_fn_full);
data_fn_update = NULL;
if (GNUNET_YES == ph.measure_updates)
{
GNUNET_asprintf (&data_fn_update, "perf_%s_update_%u-%u_%u_%u.data",
ph.ats_string,
ph.total_iterations,
ph.N_peers_start,
ph.N_peers_end,
ph.N_address);
f_update = GNUNET_DISK_file_open (data_fn_update,
GNUNET_DISK_OPEN_WRITE | GNUNET_DISK_OPEN_CREATE,
GNUNET_DISK_PERM_USER_EXEC | GNUNET_DISK_PERM_USER_READ | GNUNET_DISK_PERM_USER_WRITE);
if (NULL == f_update)
{
GNUNET_log (GNUNET_ERROR_TYPE_ERROR,
"Cannot open gnuplot file `%s'\n", data_fn_update);
GNUNET_free (data_fn_update);
if (NULL != f_full)
GNUNET_DISK_file_close (f_full);
GNUNET_free (data_fn_full);
return;
}
GNUNET_log (GNUNET_ERROR_TYPE_ERROR,
"Using update data file `%s'\n",
data_fn_update);
data = "#peers;addresses;time total in us;#time setup in us;#time lp in us;#time mlp in us;\n";
if (GNUNET_SYSERR == GNUNET_DISK_file_write (f_update, data, strlen(data)))
GNUNET_log (GNUNET_ERROR_TYPE_ERROR,
"Cannot write data to log file `%s'\n",
data_fn_update);
}
for (c_peer = ph.N_peers_start; c_peer <= ph.N_peers_end; c_peer ++)
{
char * data_str;
char * data_tmp;
char * data_upd_str;
char * data_upd_tmp;
GNUNET_asprintf(&data_str, "%u;%u",c_peer, ph.N_address);
if (ph.measure_updates)
GNUNET_asprintf(&data_upd_str, "%u;%u",c_peer, ph.N_address);
for (c_iteration = 0; c_iteration < ph.total_iterations; c_iteration ++)
{
struct Result *cur_full_res;
struct Result *cur_upd_res;
//fprintf (stderr, "P: %u I: %u == %p \n", c_peer, c_iteration, cur_res);
cur_full_res = ph.iterations_results[c_iteration].results_array[c_peer];
if (c_peer == 0)
continue;
if (NULL == cur_full_res)
continue;
if (ph.measure_updates)
{
cur_upd_res = ph.iterations_results[c_iteration].update_results_array[c_peer];
data_upd_tmp = GNUNET_strdup (data_upd_str);
GNUNET_free (data_upd_str);
if (GNUNET_YES == cur_full_res->valid)
{
GNUNET_asprintf (&data_upd_str, "%s;%llu", data_upd_tmp,
(NULL == cur_upd_res) ? 0 : cur_upd_res->d_total_full.rel_value_us);
}
else
{
GNUNET_asprintf (&data_upd_str, "%s;", data_upd_tmp);
}
GNUNET_free (data_upd_tmp);
}
//fprintf (stderr, "P: %u I: %u: P %i A %i\n", c_peer, c_iteration, cur_res->peers, cur_res->addresses);
//fprintf (stderr, "D total: %llu\n", (long long unsigned int) cur_res->d_total.rel_value_us);
data_tmp = GNUNET_strdup (data_str);
GNUNET_free (data_str);
if (GNUNET_YES == cur_full_res->valid)
{
GNUNET_asprintf (&data_str, "%s;%llu", data_tmp,
cur_full_res->d_total_full.rel_value_us);
}
else
{
GNUNET_asprintf (&data_str, "%s;", data_tmp);
}
GNUNET_free (data_tmp);
}
data_tmp = GNUNET_strdup (data_str);
GNUNET_free (data_str);
GNUNET_asprintf (&data_str, "%s\n", data_tmp);
GNUNET_free (data_tmp);
fprintf (stderr, "Result full solution: %s\n", data_str);
if (GNUNET_SYSERR == GNUNET_DISK_file_write (f_full, data_str, strlen(data_str)))
GNUNET_break (0);
GNUNET_free (data_str);
if (ph.measure_updates)
{
data_upd_tmp = GNUNET_strdup (data_upd_str);
GNUNET_free (data_upd_str);
GNUNET_asprintf (&data_upd_str, "%s\n", data_upd_tmp);
GNUNET_free (data_upd_tmp);
fprintf (stderr, "Result updated solution: `%s'\n", data_upd_str);
if (GNUNET_SYSERR == GNUNET_DISK_file_write (f_update, data_upd_str, strlen(data_upd_str)))
GNUNET_break (0);
GNUNET_free (data_upd_str);
}
}
if ((NULL != f_full) && (GNUNET_SYSERR == GNUNET_DISK_file_close (f_full)))
GNUNET_log(GNUNET_ERROR_TYPE_ERROR, "Cannot close log file `%s'\n",
data_fn_full);
GNUNET_free_non_null (data_fn_full);
if ((NULL != f_update) && (GNUNET_SYSERR == GNUNET_DISK_file_close (f_update)))
GNUNET_log(GNUNET_ERROR_TYPE_ERROR, "Cannot close log file `%s'\n",
data_fn_update);
GNUNET_free_non_null (data_fn_update);
}
static int
do_delete_address (void *cls,
const struct GNUNET_PeerIdentity *pid,
void *value)
{
struct ATS_Address *cur = value;
GNUNET_log(GNUNET_ERROR_TYPE_DEBUG,
"Deleting addresses for peer %u\n",
pid);
GNUNET_assert (GNUNET_OK ==
GNUNET_CONTAINER_multipeermap_remove (ph.addresses,
pid,
cur));
ph.sf->s_del (ph.sf->cls, cur);
GNUNET_free_non_null (cur->atsi);
GNUNET_free (cur);
return GNUNET_OK;
}
/**
* Run a performance iteration
*/
static void
perf_run_iteration (void)
{
int cp;
int ca;
int count_p = ph.N_peers_end;
int count_a = ph.N_address;
struct ATS_Address * cur_addr;
uint32_t net;
ph.iterations_results[ph.current_iteration-1].results_array = GNUNET_malloc ((count_p + 1) * sizeof (struct Result *));
if (ph.measure_updates)
ph.iterations_results[ph.current_iteration-1].update_results_array = GNUNET_malloc ((count_p + 1) * sizeof (struct Result *));
ph.peers = GNUNET_malloc ((count_p) * sizeof (struct PerfPeer));
for (cp = 0; cp < count_p; cp++)
perf_create_peer (cp);
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Iteration %u of %u, added %u peers\n", ph.current_iteration, ph.total_iterations, cp);
for (cp = 0; cp < count_p; cp++)
{
fprintf (stderr,"%u..", cp);
if (GNUNET_NO == ph.bulk_running)
{
ph.bulk_running = GNUNET_YES;
ph.sf->s_bulk_start (ph.sf->cls);
}
ph.current_p = cp + 1;
for (ca = 0; ca < count_a; ca++)
{
cur_addr = perf_create_address (cp, ca);
/* Add address */
/* Random network selection */
//net = 1 + GNUNET_CRYPTO_random_u32(GNUNET_CRYPTO_QUALITY_WEAK, GNUNET_ATS_NetworkTypeCount - 1);
/* Random equally distributed network selection */
net = 1 + (ca % (GNUNET_ATS_NetworkTypeCount - 1));
/* fprintf (stderr, "Network: %u `%s'\n",
* mod_net , GNUNET_ATS_print_network_type(mod_net)); */
cur_addr->atsi = GNUNET_new (struct GNUNET_ATS_Information);
cur_addr->atsi_count = 1;
cur_addr->atsi[0].type = htonl (GNUNET_ATS_NETWORK_TYPE);
cur_addr->atsi[0].value = htonl (net);
ph.sf->s_add (ph.sf->cls, cur_addr, net);
ph.current_a = ca + 1;
perf_address_initial_update (NULL, ph.addresses, cur_addr);
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Adding address for peer %u address %u in network %s\n", cp, ca,
GNUNET_ATS_print_network_type(net));
}
/* Notify solver about request */
ph.sf->s_get (ph.sf->cls, &ph.peers[cp].id);
if (cp + 1 >= ph.N_peers_start)
{
/* Disable bulk to solve the problem */
if (GNUNET_YES == ph.bulk_running)
{
ph.expecting_solution = GNUNET_YES;
ph.bulk_running = GNUNET_NO;
ph.sf->s_bulk_stop (ph.sf->cls);
}
else
GNUNET_break (0);
/* Problem is solved by the solver here due to unlocking */
ph.expecting_solution = GNUNET_NO;
/* Update the problem */
if ((0 < ph.opt_update_percent) && (GNUNET_YES == ph.measure_updates))
{
/* Update */
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Updating problem with %u peers and %u addresses\n", cp + 1, ca);
ph.expecting_solution = GNUNET_YES;
ph.performed_update = GNUNET_YES;
if (GNUNET_NO == ph.bulk_running)
{
ph.bulk_running = GNUNET_YES;
ph.sf->s_bulk_start (ph.sf->cls);
}
perf_update_all_addresses (cp + 1, ca, ph.opt_update_percent);
ph.bulk_running = GNUNET_NO;
ph.sf->s_bulk_stop (ph.sf->cls);
/* Problem is solved by the solver here due to unlocking */
ph.performed_update = GNUNET_NO;
ph.expecting_solution = GNUNET_NO;
}
GNUNET_assert (GNUNET_NO == ph.bulk_running);
}
}
fprintf (stderr,"\n");
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Done, cleaning up addresses\n");
if (GNUNET_NO == ph.bulk_running)
{
ph.sf->s_bulk_start (ph.sf->cls);
ph.bulk_running = GNUNET_YES;
}
for (cp = 0; cp < count_p; cp++)
{
GNUNET_CONTAINER_multipeermap_get_multiple (ph.addresses,
&ph.peers[cp].id,
&do_delete_address,
NULL);
}
if (GNUNET_NO == ph.bulk_running)
{
ph.sf->s_bulk_stop (ph.sf->cls);
ph.bulk_running = GNUNET_NO;
}
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
"Iteration done\n");
GNUNET_free(ph.peers);
}
static void
run (void *cls, char * const *args, const char *cfgfile,
const struct GNUNET_CONFIGURATION_Handle *cfg)
{
GNUNET_log_setup ("perf-ats-solver", "WARNING", NULL);
char *sep;
char *src_filename = GNUNET_strdup (__FILE__);
char *test_filename = cls;
char *solver;
char *plugin;
struct GNUNET_CONFIGURATION_Handle *solver_cfg;
unsigned long long quotas_in[GNUNET_ATS_NetworkTypeCount];
unsigned long long quotas_out[GNUNET_ATS_NetworkTypeCount];
int c;
int c2;
/* Extract test name */
if (NULL == (sep = (strstr (src_filename,".c"))))
{
GNUNET_free (src_filename);
GNUNET_break (0);
ret = 1;
return ;
}
sep[0] = '\0';
if (NULL != (sep = strstr (test_filename, ".exe")))
sep[0] = '\0';
if (NULL == (solver = strstr (test_filename, src_filename)))
{
GNUNET_free (src_filename);
GNUNET_break (0);
ret = 1;
return ;
}
solver += strlen (src_filename) +1;
if (0 == strcmp(solver, "proportional"))
{
ph.ats_string = "proportional";
}
else if (0 == strcmp(solver, "mlp"))
{
ph.ats_string = "mlp";
}
else if ((0 == strcmp(solver, "ril")))
{
ph.ats_string = "ril";
}
else
{
GNUNET_free (src_filename);
GNUNET_break (0);
ret = 1;
return ;
}
GNUNET_free (src_filename);
/* Calculcate peers */
if ((0 == ph.N_peers_start) && (0 == ph.N_peers_end))
{
ph.N_peers_start = DEFAULT_PEERS_START;
ph.N_peers_end = DEFAULT_PEERS_END;
}
if (0 == ph.N_address)
ph.N_address = DEFAULT_ADDRESSES;
if (ph.N_peers_start != ph.N_peers_end)
fprintf (stderr, "Benchmarking solver `%s' with %u to %u peers and %u addresses in %u iterations\n",
ph.ats_string, ph.N_peers_start, ph.N_peers_end, ph.N_address, ph.total_iterations);
else
fprintf (stderr, "Benchmarking solver `%s' with %u peers and %u addresses in %u iterations\n",
ph.ats_string, ph.N_peers_end, ph.N_address, ph.total_iterations);
if (0 == ph.opt_update_percent)
ph.opt_update_percent = DEFAULT_UPDATE_PERCENTAGE;
/* Load quotas */
solver_cfg = GNUNET_CONFIGURATION_create();
if ((NULL == solver_cfg) || (GNUNET_SYSERR == (GNUNET_CONFIGURATION_load ( solver_cfg, "perf_ats_solver.conf"))))
{
GNUNET_break(0);
end_now (1);
return;
}
if (GNUNET_ATS_NetworkTypeCount != load_quotas (solver_cfg,
quotas_out, quotas_in, GNUNET_ATS_NetworkTypeCount))
{
GNUNET_break(0);
end_now (1);
return;
}
/* Create array of DLL to store results for iterations */
ph.iterations_results = GNUNET_malloc (sizeof (struct Iteration) * ph.total_iterations);
/* Load solver */
ph.env.cfg = solver_cfg;
ph.stat = GNUNET_STATISTICS_create ("ats", cfg);
ph.env.stats = ph.stat;
ph.addresses = GNUNET_CONTAINER_multipeermap_create (128, GNUNET_NO);
ph.env.addresses = ph.addresses;
ph.env.bandwidth_changed_cb = bandwidth_changed_cb;
ph.env.get_connectivity = &get_connectivity_cb;
ph.env.get_preferences = &get_preferences_cb;
ph.env.network_count = GNUNET_ATS_NetworkTypeCount;
ph.env.info_cb = &solver_info_cb;
for (c = 0; c < GNUNET_ATS_NetworkTypeCount; c++)
{
ph.env.out_quota[c] = quotas_out[c];
ph.env.in_quota[c] = quotas_in[c];
GNUNET_log (GNUNET_ERROR_TYPE_INFO,
"Loading network quotas: `%s' %llu %llu \n",
GNUNET_ATS_print_network_type (c),
ph.env.out_quota[c],
ph.env.in_quota[c]);
}
GAS_normalization_start ();
GAS_preference_init ();
GNUNET_asprintf (&plugin,
"libgnunet_plugin_ats_%s",
ph.ats_string);
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
_("Initializing solver `%s'\n"),
ph.ats_string);
if (NULL == (ph.sf = GNUNET_PLUGIN_load (plugin, &ph.env)))
{
GNUNET_log (GNUNET_ERROR_TYPE_ERROR,
_("Failed to initialize solver `%s'!\n"),
plugin);
ret = 1;
return;
}
/* Do the benchmark */
for (ph.current_iteration = 1; ph.current_iteration <= ph.total_iterations; ph.current_iteration++)
{
fprintf (stderr,
"Iteration %u of %u starting\n",
ph.current_iteration,
ph.total_iterations);
perf_run_iteration ();
evaluate (ph.current_iteration);
fprintf (stderr,
"Iteration %u of %u done\n",
ph.current_iteration,
ph.total_iterations);
}
if (ph.create_datafile)
write_all_iterations ();
/* Unload solver*/
GNUNET_log(GNUNET_ERROR_TYPE_INFO,
_("Unloading solver `%s'\n"),
ph.ats_string);
GNUNET_PLUGIN_unload (plugin, ph.sf);
ph.sf = NULL;
GNUNET_free (plugin);
for (c = 0; c < ph.total_iterations; c++ )
{
for (c2 = ph.N_peers_start; c2 < ph.N_peers_end; c2++ )
{
if (0 == c2)
continue;
if (ph.measure_updates)
GNUNET_free_non_null (ph.iterations_results[c].update_results_array[c2]);
GNUNET_free (ph.iterations_results[c].results_array[c2]);
}
if (ph.measure_updates)
GNUNET_free (ph.iterations_results[c].update_results_array);
GNUNET_free(ph.iterations_results[c].results_array);
}
GNUNET_free (ph.iterations_results);
GNUNET_CONFIGURATION_destroy (solver_cfg);
GNUNET_STATISTICS_destroy (ph.stat, GNUNET_NO);
}
/**
* Main function of the benchmark
*
* @param argc argument count
* @param argv argument values
*/
int
main (int argc, char *argv[])
{
/* extract command line arguments */
ph.opt_update_percent = 0;
ph.N_peers_start = 0;
ph.N_peers_end = 0;
ph.N_address = 0;
ph.ats_string = NULL;
ph.create_datafile = GNUNET_NO;
ph.measure_updates = GNUNET_NO;
ph.total_iterations = 1;
static struct GNUNET_GETOPT_CommandLineOption options[] = {
GNUNET_GETOPT_option_uint ('a',
"addresses",
gettext_noop ("addresses to use"),
&ph.N_address),
GNUNET_GETOPT_option_uint ('s',
"start",
gettext_noop ("start with peer"),
&ph.N_peers_start),
GNUNET_GETOPT_option_uint ('e',
"end",
gettext_noop ("end with peer"),
&ph.N_peers_end),
GNUNET_GETOPT_option_uint ('i',
"iterations",
gettext_noop ("number of iterations used for averaging (default: 1)"),
&ph.total_iterations),
GNUNET_GETOPT_option_uint ('p',
"percentage",
gettext_noop ("update a fix percentage of addresses"),
&ph.opt_update_percent),
GNUNET_GETOPT_option_flag ('d',
"data",
gettext_noop ("create data file"),
&ph.create_datafile),
GNUNET_GETOPT_option_flag ('u',
"update",
gettext_noop ("measure updates"),
&ph.measure_updates),
GNUNET_GETOPT_OPTION_END
};
GNUNET_PROGRAM_run (argc, argv, argv[0], NULL, options, &run, argv[0]);
return ret;
}
/* end of file perf_ats_solver.c */
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