boinc/client/sim_util.C

570 lines
16 KiB
C

// Berkeley Open Infrastructure for Network Computing
// http://boinc.berkeley.edu
// Copyright (C) 2006 University of California
//
// This is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation;
// either version 2.1 of the License, or (at your option) any later version.
//
// This software 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 Lesser General Public License for more details.
//
// To view the GNU Lesser General Public License visit
// http://www.gnu.org/copyleft/lesser.html
// or write to the Free Software Foundation, Inc.,
// 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
// BOINC client simulator.
//
// usage:
// sim [--duration x] [--delta x] [--dirs dir ...]
// duration = simulation duration (default 86400)
// delta = simulation time step (default 10)
//
// If no dirs are specified:
// reads input files
// sim_projects.xml, sim_host.xml, sim_prefs.xml, cc_config.xml
// and does simulation, generating output files
// sim_log.txt, sim_out.html
//
// If dirs are specified, chdir into each directory in sequence,
// do the above for each one, and write summary info to stdout
#include "error_numbers.h"
#include "str_util.h"
#include "log_flags.h"
#include "filesys.h"
#include "network.h"
#include "client_msgs.h"
#include "sim.h"
//////////////// FUNCTIONS MODIFIED OR STUBBED OUT /////////////
CLIENT_STATE::CLIENT_STATE() {
initialized = false;
}
FILE* boinc_fopen(const char* path, const char* mode) {
return fopen(path, mode);
}
void CLIENT_STATE::set_client_state_dirty(char const*) {
}
void HOST_INFO::generate_host_cpid() {}
int get_connected_state() {return CONNECTED_STATE_CONNECTED;}
int CLIENT_STATE::report_result_error(RESULT& , const char* , ...) {return 0;}
void show_message(PROJECT *p, char* msg, int priority) {
const char* x;
char message[1024];
char* time_string = time_to_string(gstate.now);
if (priority == MSG_INTERNAL_ERROR) {
strcpy(message, "[error] ");
strlcpy(message+8, msg, sizeof(message)-8);
} else {
strlcpy(message, msg, sizeof(message));
}
while (strlen(message)&&message[strlen(message)-1] == '\n') {
message[strlen(message)-1] = 0;
}
if (p) {
x = p->get_project_name();
} else {
x = "---";
}
fprintf(logfile, "%s [%s] %s\n", time_string, x, message);
}
bool RESULT::some_download_stalled() {
return false;
}
bool PROJECT::some_download_stalled() {
return false;
}
APP_CLIENT_SHM::APP_CLIENT_SHM() {}
GRAPHICS_MSG::GRAPHICS_MSG() {}
HOST_INFO::HOST_INFO() {}
//////////////// FUNCTIONS COPIED /////////////
void SIM_PROJECT::init() {
strcpy(master_url, "");
strcpy(authenticator, "");
project_specific_prefs = "";
gui_urls = "";
resource_share = 100;
strcpy(host_venue, "");
using_venue_specific_prefs = false;
scheduler_urls.clear();
strcpy(project_name, "");
strcpy(symstore, "");
strcpy(user_name, "");
strcpy(team_name, "");
strcpy(email_hash, "");
strcpy(cross_project_id, "");
user_total_credit = 0;
user_expavg_credit = 0;
user_create_time = 0;
ams_resource_share = 0;
rpc_seqno = 0;
hostid = 0;
host_total_credit = 0;
host_expavg_credit = 0;
host_create_time = 0;
nrpc_failures = 0;
master_fetch_failures = 0;
min_rpc_time = 0;
possibly_backed_off = true;
master_url_fetch_pending = false;
sched_rpc_pending = 0;
next_rpc_time = 0;
last_rpc_time = 0;
trickle_up_pending = false;
anonymous_platform = false;
non_cpu_intensive = false;
verify_files_on_app_start = false;
short_term_debt = 0;
long_term_debt = 0;
send_file_list = false;
suspended_via_gui = false;
dont_request_more_work = false;
detach_when_done = false;
attached_via_acct_mgr = false;
strcpy(code_sign_key, "");
user_files.clear();
project_files.clear();
anticipated_debt = 0;
wall_cpu_time_this_debt_interval = 0;
next_runnable_result = NULL;
work_request = 0;
work_request_urgency = WORK_FETCH_DONT_NEED;
duration_correction_factor = 1;
project_files_downloaded_time = 0;
// Initialize scratch variables.
rrsim_proc_rate = 0.0;
cpu_shortfall = 0.0;
rr_sim_deadlines_missed = 0;
deadlines_missed = 0;
// sim-specific:
idle_time = 0;
idle_time_sumsq = 0;
completed_task_count = 0;
completions_ratio_mean = 0.0;
completions_ratio_s = 0.0;
completions_ratio_stdev = 0.1; // for the first couple of completions - guess.
completions_required_stdevs = 3.0;
}
void RESULT::clear() {
strcpy(name, "");
strcpy(wu_name, "");
report_deadline = 0;
output_files.clear();
_state = RESULT_NEW;
ready_to_report = false;
completed_time = 0;
got_server_ack = false;
final_cpu_time = 0;
exit_status = 0;
stderr_out = "";
suspended_via_gui = false;
rr_sim_misses_deadline = false;
last_rr_sim_missed_deadline = false;
fpops_per_cpu_sec = 0;
fpops_cumulative = 0;
intops_per_cpu_sec = 0;
intops_cumulative = 0;
app = NULL;
wup = NULL;
project = NULL;
}
static const char* task_state_name(int val) {
switch (val) {
case PROCESS_UNINITIALIZED: return "UNINITIALIZED";
case PROCESS_EXECUTING: return "EXECUTING";
case PROCESS_SUSPENDED: return "SUSPENDED";
case PROCESS_ABORT_PENDING: return "ABORT_PENDING";
case PROCESS_EXITED: return "EXITED";
case PROCESS_WAS_SIGNALED: return "WAS_SIGNALED";
case PROCESS_EXIT_UNKNOWN: return "EXIT_UNKNOWN";
case PROCESS_ABORTED: return "ABORTED";
case PROCESS_COULDNT_START: return "COULDNT_START";
case PROCESS_QUIT_PENDING: return "QUIT_PENDING";
}
return "Unknown";
}
void ACTIVE_TASK::set_task_state(int val, const char* where) {
_task_state = val;
if (log_flags.task_debug) {
msg_printf(result->project, MSG_INFO,
"[task_debug] task_state=%s for %s from %s",
task_state_name(val), result->name, where
);
}
}
char* PROJECT::get_project_name() {
if (strlen(project_name)) {
return project_name;
} else {
return master_url;
}
}
inline double drand() {
return (double)rand()/(double)RAND_MAX;
}
// return a random double in the range [rmin,rmax)
inline double rand_range(double rmin, double rmax) {
if (rmin < rmax) {
return drand() * (rmax-rmin) + rmin;
} else {
return rmin;
}
}
// return a random double in the range [MIN,min(e^n,MAX))
//
double calculate_exponential_backoff( int n, double MIN, double MAX) {
double rmax = std::min(MAX, exp((double)n));
return rand_range(MIN, rmax);
}
// amount of RAM usable now
//
double CLIENT_STATE::available_ram() {
if (user_active) {
return host_info.m_nbytes * global_prefs.ram_max_used_busy_frac;
} else {
return host_info.m_nbytes * global_prefs.ram_max_used_idle_frac;
}
}
// max amount that will ever be usable
//
double CLIENT_STATE::max_available_ram() {
return host_info.m_nbytes*std::max(
global_prefs.ram_max_used_busy_frac, global_prefs.ram_max_used_idle_frac
);
}
RESULT* CLIENT_STATE::lookup_result(PROJECT* p, const char* name) {
for (unsigned int i=0; i<results.size(); i++) {
RESULT* rp = results[i];
if (rp->project == p && !strcmp(name, rp->name)) return rp;
}
return 0;
}
//////////////// FUNCTIONS WE NEED TO IMPLEMENT /////////////
ACTIVE_TASK::ACTIVE_TASK() {
memset(this, 0, sizeof(*this));
result = NULL;
wup = NULL;
app_version = NULL;
pid = 0;
slot = 0;
_task_state = PROCESS_UNINITIALIZED;
scheduler_state = CPU_SCHED_UNINITIALIZED;
signal = 0;
strcpy(slot_dir, "");
is_ss_app = false;
graphics_mode_acked = MODE_UNSUPPORTED;
graphics_mode_before_ss = MODE_HIDE_GRAPHICS;
graphics_mode_ack_timeout = 0;
exit_requested = false;
fraction_done = 0;
episode_start_cpu_time = 0;
run_interval_start_wall_time = gstate.now;
debt_interval_start_cpu_time = 0;
checkpoint_cpu_time = 0;
checkpoint_wall_time = 0;
current_cpu_time = 0;
have_trickle_down = false;
send_upload_file_status = false;
too_large = false;
want_network = 0;
}
int ACTIVE_TASK::suspend() {
if (task_state() != PROCESS_EXECUTING) {
msg_printf(0, MSG_INFO, "Internal error: expected process to be executing");
}
set_task_state(PROCESS_SUSPENDED, "suspend");
return 0;
}
int ACTIVE_TASK::request_exit() {
set_task_state(PROCESS_UNINITIALIZED, "request_exit");
return 0;
}
int ACTIVE_TASK::resume_or_start(bool first_time) {
if (log_flags.task) {
msg_printf(result->project, MSG_INFO,
"[task] %s task %s",
first_time?"Starting":"Resuming", result->name
);
}
set_task_state(PROCESS_EXECUTING, "start");
char buf[256];
sprintf(buf, "Starting %s: %f<br>", result->name, cpu_time_left);
gstate.html_msg += buf;
return 0;
}
int ACTIVE_TASK_SET::get_free_slot(){
return 0;
}
int ACTIVE_TASK::init(RESULT* rp) {
result = rp;
wup = rp->wup;
app_version = rp->avp;
max_cpu_time = rp->wup->rsc_fpops_bound/gstate.host_info.p_fpops;
max_disk_usage = rp->wup->rsc_disk_bound;
max_mem_usage = rp->wup->rsc_memory_bound;
cpu_time_left = rp->final_cpu_time;
_task_state = PROCESS_UNINITIALIZED;
scheduler_state = CPU_SCHED_UNINITIALIZED;
return 0;
}
void CLIENT_STATE::print_project_results(FILE* f) {
for (unsigned int i=0; i<projects.size(); i++) {
SIM_PROJECT* p = (SIM_PROJECT*) projects[i];
p->print_results(f, sim_results);
}
}
//////////////// OTHER
PROJECT::PROJECT() {
}
// http://www.cs.wm.edu/~va/software/park/rvgs.c
double NORMAL_DIST::sample() {
const double p0 = 0.322232431088; const double q0 = 0.099348462606;
const double p1 = 1.0; const double q1 = 0.588581570495;
const double p2 = 0.342242088547; const double q2 = 0.531103462366;
const double p3 = 0.204231210245e-1; const double q3 = 0.103537752850;
const double p4 = 0.453642210148e-4; const double q4 = 0.385607006340e-2;
double u, t, p, q, z;
u = drand();
if (u < 0.5)
t = sqrt(-2.0 * log(u));
else
t = sqrt(-2.0 * log(1.0 - u));
p = p0 + t * (p1 + t * (p2 + t * (p3 + t * p4)));
q = q0 + t * (q1 + t * (q2 + t * (q3 + t * q4)));
if (u < 0.5)
z = (p / q) - t;
else
z = t - (p / q);
return (mean + stdev * z);
}
inline double exponential(double mean) {
return -mean*log(1-drand());
}
bool RANDOM_PROCESS::sample(double t) {
if (frac==1) return true;
double diff = t-last_time;
last_time = t;
time_left -= diff;
if (time_left < 0) {
if (value) {
time_left += exponential(off_lambda);
value = false;
} else {
time_left += exponential(lambda);
value = true;
}
}
return value;
}
RANDOM_PROCESS::RANDOM_PROCESS() {
frac = 1;
}
void RANDOM_PROCESS::init() {
value = true;
time_left = exponential(lambda);
off_lambda = lambda/frac - lambda;
}
int NORMAL_DIST::parse(XML_PARSER& xp, char* end_tag) {
char tag[256];
bool is_tag;
while(!xp.get(tag, sizeof(tag), is_tag)) {
if (!is_tag) return ERR_XML_PARSE;
if (xp.parse_double(tag, "mean", mean)) continue;
else if (xp.parse_double(tag, "stdev", stdev)) continue;
else if (!strcmp(tag, end_tag)) return 0;
else {
printf("unrecognized: %s\n", tag);
return ERR_XML_PARSE;
}
}
return ERR_XML_PARSE;
}
int UNIFORM_DIST::parse(XML_PARSER& xp, char* end_tag) {
char tag[256];
bool is_tag;
while(!xp.get(tag, sizeof(tag), is_tag)) {
if (!is_tag) return ERR_XML_PARSE;
if (xp.parse_double(tag, "lo", lo)) continue;
else if (xp.parse_double(tag, "hi", hi)) continue;
else if (!strcmp(tag, end_tag)) return 0;
else {
printf("unrecognized: %s\n", tag);
return ERR_XML_PARSE;
}
}
return ERR_XML_PARSE;
}
int RANDOM_PROCESS::parse(XML_PARSER& xp, char* end_tag) {
char tag[256];
bool is_tag;
while(!xp.get(tag, sizeof(tag), is_tag)) {
if (!is_tag) return ERR_XML_PARSE;
if (xp.parse_double(tag, "frac", frac)) continue;
else if (xp.parse_double(tag, "lambda", lambda)) continue;
else if (!strcmp(tag, end_tag)) return 0;
else {
printf("unrecognized: %s\n", tag);
return ERR_XML_PARSE;
}
}
return ERR_XML_PARSE;
}
int SIM_PROJECT::parse(XML_PARSER& xp) {
char tag[256];
bool is_tag;
int retval;
max_infeasible_count = 0;
while(!xp.get(tag, sizeof(tag), is_tag)) {
if (!is_tag) return ERR_XML_PARSE;
if (!strcmp(tag, "/project")) return 0;
else if (xp.parse_str(tag, "project_name", project_name, sizeof(project_name))) continue;
else if (!strcmp(tag, "app")) {
SIM_APP* sap = new SIM_APP;
retval = sap->parse(xp);
if (retval) return retval;
sap->project = this;
gstate.apps.push_back(sap);
} else if (!strcmp(tag, "available")) {
retval = available.parse(xp, "/available");
if (retval) return retval;
} else if (xp.parse_double(tag, "resource_share", resource_share)) {
continue;
} else if (xp.parse_int(tag, "max_infeasible_count", max_infeasible_count)) {
continue;
} else {
printf("unrecognized: %s\n", tag);
return ERR_XML_PARSE;
}
}
return ERR_XML_PARSE;
}
int SIM_HOST::parse(XML_PARSER& xp) {
char tag[256];
bool is_tag;
int retval;
p_ncpus = 1;
connection_interval = 0;
while(!xp.get(tag, sizeof(tag), is_tag)) {
if (!is_tag) return ERR_XML_PARSE;
if (!strcmp(tag, "/host")) return 0;
else if (xp.parse_double(tag, "p_fpops", p_fpops)) continue;
else if (xp.parse_double(tag, "m_nbytes", m_nbytes)) continue;
else if (xp.parse_double(tag, "connection_interval", connection_interval)) continue;
else if (xp.parse_int(tag, "p_ncpus", p_ncpus)) continue;
else if (!strcmp(tag, "available")) {
retval = available.parse(xp, "/available");
if (retval) return retval;
available.init();
} else if (!strcmp(tag, "idle")) {
retval = idle.parse(xp, "/idle");
if (retval) return retval;
idle.init();
} else {
printf("unrecognized: %s\n", tag);
return ERR_XML_PARSE;
}
}
return ERR_XML_PARSE;
}
int CLIENT_STATE::parse_projects(char* name) {
char tag[256];
bool is_tag;
MIOFILE mf;
int retval, index=0;
FILE* f = fopen(name, "r");
if (!f) return ERR_FOPEN;
mf.init_file(f);
XML_PARSER xp(&mf);
if (!xp.parse_start("projects")) return ERR_XML_PARSE;
while(!xp.get(tag, sizeof(tag), is_tag)) {
if (!is_tag) return ERR_XML_PARSE;
if (!strcmp(tag, "project")) {
SIM_PROJECT *p = new SIM_PROJECT;
p->init();
retval = p->parse(xp);
if (retval) return retval;
p->index = index++;
p->result_index = 0;
projects.push_back(p);
} else if (!strcmp(tag, "/projects")) {
return 0;
} else {
printf("unrecognized: %s\n", tag);
return ERR_XML_PARSE;
}
}
return ERR_XML_PARSE;
}
int CLIENT_STATE::parse_host(char* name) {
MIOFILE mf;
FILE* f = fopen(name, "r");
if (!f) return ERR_FOPEN;
mf.init_file(f);
XML_PARSER xp(&mf);
if (!xp.parse_start("host")) return ERR_XML_PARSE;
return host_info.parse(xp);
}
int IP_RESULT::parse(FILE*) {
return 0;
}