/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
-#include "simgrid/msg.h"
-#include "simgrid/modelchecker.h"
-#include <xbt/RngStream.h>
-#include "src/mc/mc_replay.h" // FIXME: this is an internal header
+#include "dht-chord.h"
XBT_LOG_NEW_DEFAULT_CATEGORY(msg_chord, "Messages specific for this msg example");
-#define COMM_SIZE 10
-#define COMP_SIZE 0
-#define MAILBOX_NAME_SIZE 10
-
static int nb_bits = 24;
static int nb_keys = 0;
static int timeout = 50;
static const double sleep_delay = 4.9999;
-/* Finger element. */
-typedef struct s_finger {
- int id;
- char mailbox[MAILBOX_NAME_SIZE]; // string representation of the id
-} s_finger_t, *finger_t;
-
-/* Node data. */
-typedef struct s_node {
- int id; // my id
- char mailbox[MAILBOX_NAME_SIZE]; // my mailbox name (string representation of the id)
- s_finger_t *fingers; // finger table, of size nb_bits (fingers[0] is my successor)
- int pred_id; // predecessor id
- char pred_mailbox[MAILBOX_NAME_SIZE]; // predecessor's mailbox name
- int next_finger_to_fix; // index of the next finger to fix in fix_fingers()
- msg_comm_t comm_receive; // current communication to receive
- double last_change_date; // last time I changed a finger or my predecessor
- RngStream stream; //RngStream for
-} s_node_t, *node_t;
-
-/* Types of tasks exchanged between nodes. */
-typedef enum {
- TASK_FIND_SUCCESSOR,
- TASK_FIND_SUCCESSOR_ANSWER,
- TASK_GET_PREDECESSOR,
- TASK_GET_PREDECESSOR_ANSWER,
- TASK_NOTIFY,
- TASK_SUCCESSOR_LEAVING,
- TASK_PREDECESSOR_LEAVING,
- TASK_PREDECESSOR_ALIVE,
- TASK_PREDECESSOR_ALIVE_ANSWER
-} e_task_type_t;
-
-/* Data attached with the tasks sent and received */
-typedef struct s_task_data {
- e_task_type_t type; // type of task
- int request_id; // id paramater (used by some types of tasks)
- int request_finger; // finger parameter (used by some types of tasks)
- int answer_id; // answer (used by some types of tasks)
- char answer_to[MAILBOX_NAME_SIZE]; // mailbox to send an answer to (if any)
- const char* issuer_host_name; // used for logging
-} s_task_data_t, *task_data_t;
static int *powers2;
static xbt_dynar_t host_list;
-// utility functions
-static void chord_exit(void);
-static int normalize(int id);
-static int is_in_interval(int id, int start, int end);
-static void get_mailbox(int host_id, char* mailbox);
-static void task_free(void* task);
-static void print_finger_table(node_t node);
-static void set_finger(node_t node, int finger_index, int id);
-static void set_predecessor(node_t node, int predecessor_id);
-
-// process functions
-static int node(int argc, char *argv[]);
-static void handle_task(node_t node, msg_task_t task);
-
-// Chord core
-static void create(node_t node);
-static int join(node_t node, int known_id);
-static void leave(node_t node);
-static int find_successor(node_t node, int id);
-static int remote_find_successor(node_t node, int ask_to_id, int id);
-static int remote_get_predecessor(node_t node, int ask_to_id);
-static int closest_preceding_node(node_t node, int id);
-static void stabilize(node_t node);
-static void notify(node_t node, int predecessor_candidate_id);
-static void remote_notify(node_t node, int notify_to, int predecessor_candidate_id);
-static void fix_fingers(node_t node);
-static void check_predecessor(node_t node);
-static void random_lookup(node_t);
-static void quit_notify(node_t node);
-
/* Global initialization of the Chord simulation. */
static void chord_initialize(void)
{
// compute the powers of 2 once for all
powers2 = xbt_new(int, nb_bits);
- int pow = 1;
+ unsigned int pow = 1;
unsigned i;
for (i = 0; i < nb_bits; i++) {
powers2[i] = pow;
RngStream stream;
snprintf(descr, sizeof descr, "RngSream<%s>", MSG_host_get_name(host));
stream = RngStream_CreateStream(descr);
- MSG_host_set_property_value(host, "stream", (char*)stream, NULL);
+ MSG_host_set_data(host, stream);
}
}
msg_host_t host;
unsigned i;
xbt_dynar_foreach(host_list, i, host) {
- RngStream stream = (RngStream)MSG_host_get_property_value(host, "stream");
+ RngStream stream = (RngStream)MSG_host_get_data(host);
RngStream_DeleteStream(&stream);
+ MSG_host_set_data(host, NULL);
}
xbt_dynar_free(&host_list);
/* Turns an id into an equivalent id in [0, nb_keys). */
static int normalize(int id)
{
- // like id % nb_keys, but works with negatives numbers (and faster)
- return id & (nb_keys - 1);
+ return id % nb_keys;
}
/* Returns whether an id belongs to the interval [start, end].
*
- * The parameters are noramlized to make sure they are between 0 and nb_keys - 1).
+ * The parameters are normalized to make sure they are between 0 and nb_keys - 1).
* 1 belongs to [62, 3]
* 1 does not belong to [3, 62]
* 63 belongs to [62, 3]
*/
static int is_in_interval(int id, int start, int end)
{
- id = normalize(id);
- start = normalize(start);
- end = normalize(end);
+ int i = normalize(id);
+ int s = normalize(start);
+ int e = normalize(end);
// make sure end >= start and id >= start
- if (end < start) {
- end += nb_keys;
+ if (e < s) {
+ e += nb_keys;
}
- if (id < start) {
- id += nb_keys;
+ if (i < s) {
+ i += nb_keys;
}
- return id <= end;
+ return i <= e;
}
/* Gets the mailbox name of a host given its chord id.
static void print_finger_table(node_t node)
{
if (XBT_LOG_ISENABLED(msg_chord, xbt_log_priority_verbose)) {
- int i;
XBT_VERB("My finger table:");
XBT_VERB("Start | Succ");
- for (i = 0; i < nb_bits; i++) {
+ for (int i = 0; i < nb_bits; i++) {
XBT_VERB(" %3d | %3d", (node->id + powers2[i]) % nb_keys, node->fingers[i].id);
}
XBT_VERB("Predecessor: %d", node->pred_id);
* - the id of a guy I know in the system (except for the first node)
* - the time to sleep before I join (except for the first node)
*/
-int node(int argc, char *argv[])
-{
-
- /* Reduce the run size for the MC */
- if(MC_is_active() || MC_record_replay_is_active()){
- periodic_stabilize_delay = 8;
- periodic_fix_fingers_delay = 8;
- periodic_check_predecessor_delay = 8;
- }
-
- double init_time = MSG_get_clock();
- msg_task_t task_received = NULL;
- int i;
- int join_success = 0;
- double deadline;
- double next_stabilize_date = init_time + periodic_stabilize_delay;
- double next_fix_fingers_date = init_time + periodic_fix_fingers_delay;
- double next_check_predecessor_date = init_time + periodic_check_predecessor_delay;
- double next_lookup_date = init_time + periodic_lookup_delay;
-
- int listen = 0;
- int no_op = 0;
- int sub_protocol = 0;
-
- xbt_assert(argc == 3 || argc == 5, "Wrong number of arguments for this node");
-
- // initialize my node
- s_node_t node = {0};
- node.id = xbt_str_parse_int(argv[1],"Invalid ID: %s");
- node.stream = (RngStream)MSG_host_get_property_value(MSG_host_self(), "stream");
- get_mailbox(node.id, node.mailbox);
- node.next_finger_to_fix = 0;
- node.fingers = xbt_new0(s_finger_t, nb_bits);
- node.last_change_date = init_time;
-
- for (i = 0; i < nb_bits; i++) {
- node.fingers[i].id = -1;
- set_finger(&node, i, node.id);
- }
-
- if (argc == 3) { // first ring
- deadline = xbt_str_parse_double(argv[2],"Invalid deadline: %s");
- create(&node);
- join_success = 1;
-
- } else {
- int known_id = xbt_str_parse_int(argv[2],"Invalid root ID: %s");
- //double sleep_time = atof(argv[3]);
- deadline = xbt_str_parse_double(argv[4],"Invalid deadline: %s");
-
- /*
- // sleep before starting
- XBT_DEBUG("Let's sleep during %f", sleep_time);
- MSG_process_sleep(sleep_time);
- */
- XBT_DEBUG("Hey! Let's join the system.");
-
- join_success = join(&node, known_id);
- }
-
- if (join_success) {
- while (MSG_get_clock() < init_time + deadline
-// && MSG_get_clock() < node.last_change_date + 1000
- && MSG_get_clock() < max_simulation_time) {
-
- if (node.comm_receive == NULL) {
- task_received = NULL;
- node.comm_receive = MSG_task_irecv(&task_received, node.mailbox);
- // FIXME: do not make MSG_task_irecv() calls from several functions
- }
-
- //XBT_INFO("Node %d is ring member : %d", node.id, is_ring_member(known_id, node.id) != -1);
-
- if (!MSG_comm_test(node.comm_receive)) {
-
- // no task was received: make some periodic calls
-
- if(MC_is_active() || MC_record_replay_is_active()){
- if(MC_is_active() && !MC_visited_reduction() && no_op){
- MC_cut();
- }
- if(listen == 0 && (sub_protocol = MC_random(0, 4)) > 0){
- if(sub_protocol == 1)
- stabilize(&node);
- else if(sub_protocol == 2)
- fix_fingers(&node);
- else if(sub_protocol == 3)
- check_predecessor(&node);
- else
- random_lookup(&node);
- listen = 1;
- }else{
- MSG_process_sleep(sleep_delay);
- if(!MC_visited_reduction())
- no_op = 1;
- }
- }else{
- if (MSG_get_clock() >= next_stabilize_date) {
- stabilize(&node);
- next_stabilize_date = MSG_get_clock() + periodic_stabilize_delay;
- }else if (MSG_get_clock() >= next_fix_fingers_date) {
- fix_fingers(&node);
- next_fix_fingers_date = MSG_get_clock() + periodic_fix_fingers_delay;
- }else if (MSG_get_clock() >= next_check_predecessor_date) {
- check_predecessor(&node);
- next_check_predecessor_date = MSG_get_clock() + periodic_check_predecessor_delay;
- }else if (MSG_get_clock() >= next_lookup_date) {
- random_lookup(&node);
- next_lookup_date = MSG_get_clock() + periodic_lookup_delay;
- }else {
- // nothing to do: sleep for a while
- MSG_process_sleep(sleep_delay);
- }
- }
-
- } else {
- // a transfer has occurred
-
- msg_error_t status = MSG_comm_get_status(node.comm_receive);
-
- if (status != MSG_OK) {
- XBT_DEBUG("Failed to receive a task. Nevermind.");
- MSG_comm_destroy(node.comm_receive);
- node.comm_receive = NULL;
- }
- else {
- // the task was successfully received
- MSG_comm_destroy(node.comm_receive);
- node.comm_receive = NULL;
- handle_task(&node, task_received);
- }
- }
- }
-
- if (node.comm_receive) {
- /* handle last task if any */
- if (MSG_comm_wait(node.comm_receive, 0) == MSG_OK)
- task_free(task_received);
- MSG_comm_destroy(node.comm_receive);
- node.comm_receive = NULL;
- }
-
- // leave the ring
- leave(&node);
- }
-
- // stop the simulation
- xbt_free(node.fingers);
- return 0;
-}
-
/* This function is called when the current node receives a task.
*
* \param node the current node
* \param task the task to handle (don't touch it afterward: it will be destroyed, reused or forwarded)
*/
-static void handle_task(node_t node, msg_task_t task) {
-
+static void handle_task(node_t node, msg_task_t task)
+{
XBT_DEBUG("Handling task %p", task);
char mailbox[MAILBOX_NAME_SIZE];
task_data_t task_data = (task_data_t) MSG_task_get_data(task);
e_task_type_t type = task_data->type;
switch (type) {
-
case TASK_FIND_SUCCESSOR:
XBT_DEBUG("Receiving a 'Find Successor' request from %s for id %d",
task_data->issuer_host_name, task_data->request_id);
task_data->type = TASK_FIND_SUCCESSOR_ANSWER;
task_data->answer_id = node->fingers[0].id;
XBT_DEBUG("Sending back a 'Find Successor Answer' to %s (mailbox %s): the successor of %d is %d",
- task_data->issuer_host_name,
- task_data->answer_to,
- task_data->request_id, task_data->answer_id);
+ task_data->issuer_host_name, task_data->answer_to, task_data->request_id, task_data->answer_id);
MSG_task_dsend(task, task_data->answer_to, task_free);
- }
- else {
+ } else {
// otherwise, forward the request to the closest preceding finger in my table
int closest = closest_preceding_node(node, task_data->request_id);
XBT_DEBUG("Forwarding the 'Find Successor' request for id %d to my closest preceding finger %d",
task_data->type = TASK_GET_PREDECESSOR_ANSWER;
task_data->answer_id = node->pred_id;
XBT_DEBUG("Sending back a 'Get Predecessor Answer' to %s via mailbox '%s': my predecessor is %d",
- task_data->issuer_host_name,
- task_data->answer_to, task_data->answer_id);
+ task_data->issuer_host_name, task_data->answer_to, task_data->answer_id);
MSG_task_dsend(task, task_data->answer_to, task_free);
break;
XBT_DEBUG("Receiving a 'Predecessor Alive' request from %s", task_data->issuer_host_name);
task_data->type = TASK_PREDECESSOR_ALIVE_ANSWER;
XBT_DEBUG("Sending back a 'Predecessor Alive Answer' to %s (mailbox %s)",
- task_data->issuer_host_name,
- task_data->answer_to);
+ task_data->issuer_host_name, task_data->answer_to);
MSG_task_dsend(task, task_data->answer_to, task_free);
break;
}
/* Initializes the current node as the first one of the system */
-static void create(node_t node)
+void create(node_t node)
{
XBT_DEBUG("Create a new Chord ring...");
set_predecessor(node, -1); // -1 means that I have no predecessor
* \param known_id id of a node already in the ring
* \return 1 if the join operation succeeded, 0 otherwise
*/
-static int join(node_t node, int known_id)
+int join(node_t node, int known_id)
{
XBT_INFO("Joining the ring with id %d, knowing node %d", node->id, known_id);
set_predecessor(node, -1); // no predecessor (yet)
- /*
- for (int i = 0; i < nb_bits; i++)
- set_finger(node, i, known_id);
- */
-
int successor_id = remote_find_successor(node, known_id, node->id);
if (successor_id == -1) {
XBT_INFO("Cannot join the ring.");
}
/* Makes the current node quit the system */
-static void leave(node_t node)
+void leave(node_t node)
{
XBT_DEBUG("Well Guys! I Think it's time for me to quit ;)");
quit_notify(node);
}
/* Notifies the successor and the predecessor of the current node before leaving */
-static void quit_notify(node_t node)
+void quit_notify(node_t node)
{
char mailbox[MAILBOX_NAME_SIZE];
//send the PREDECESSOR_LEAVING to our successor
msg_task_t task_sent = MSG_task_create(NULL, COMP_SIZE, COMM_SIZE, req_data);
XBT_DEBUG("Sending a 'PREDECESSOR_LEAVING' to my successor %d",node->fingers[0].id);
- if (MSG_task_send_with_timeout(task_sent, node->fingers[0].mailbox, timeout)==
- MSG_TIMEOUT) {
- XBT_DEBUG("Timeout expired when sending a 'PREDECESSOR_LEAVING' to my successor %d",
- node->fingers[0].id);
+ if (MSG_task_send_with_timeout(task_sent, node->fingers[0].mailbox, timeout)== MSG_TIMEOUT) {
+ XBT_DEBUG("Timeout expired when sending a 'PREDECESSOR_LEAVING' to my successor %d", node->fingers[0].id);
task_free(task_sent);
}
msg_task_t task_sent_s = MSG_task_create(NULL, COMP_SIZE, COMM_SIZE, req_data_s);
XBT_DEBUG("Sending a 'SUCCESSOR_LEAVING' to my predecessor %d",node->pred_id);
- if (MSG_task_send_with_timeout(task_sent_s, mailbox, timeout)==
- MSG_TIMEOUT) {
- XBT_DEBUG("Timeout expired when sending a 'SUCCESSOR_LEAVING' to my predecessor %d",
- node->pred_id);
+ if (MSG_task_send_with_timeout(task_sent_s, mailbox, timeout)== MSG_TIMEOUT) {
+ XBT_DEBUG("Timeout expired when sending a 'SUCCESSOR_LEAVING' to my predecessor %d", node->pred_id);
task_free(task_sent_s);
}
-
}
/* Makes the current node find the successor node of an id.
* \param id the id to find
* \return the id of the successor node, or -1 if the request failed
*/
-static int find_successor(node_t node, int id)
+int find_successor(node_t node, int id)
{
// is my successor the successor?
if (is_in_interval(id, node->id + 1, node->fingers[0].id)) {
* \param id the id to find
* \return the id of the successor node, or -1 if the request failed
*/
-static int remote_find_successor(node_t node, int ask_to, int id)
+int remote_find_successor(node_t node, int ask_to, int id)
{
int successor = -1;
int stop = 0;
msg_error_t res = MSG_task_send_with_timeout(task_sent, mailbox, timeout);
if (res != MSG_OK) {
- XBT_DEBUG("Failed to send the 'Find Successor' request (task %p) to %d for id %d",
- task_sent, ask_to, id);
+ XBT_DEBUG("Failed to send the 'Find Successor' request (task %p) to %d for id %d", task_sent, ask_to, id);
task_free(task_sent);
- }
- else {
-
+ } else {
// receive the answer
XBT_DEBUG("Sent a 'Find Successor' request (task %p) to %d for key %d, waiting for the answer",
task_sent, ask_to, id);
-
do {
if (node->comm_receive == NULL) {
msg_task_t task_received = NULL;
* \return the id of its predecessor node, or -1 if the request failed
* (or if the node does not know its predecessor)
*/
-static int remote_get_predecessor(node_t node, int ask_to)
+int remote_get_predecessor(node_t node, int ask_to)
{
int predecessor_id = -1;
int stop = 0;
}
/* This function is called periodically. It checks the immediate successor of the current node. */
-static void stabilize(node_t node)
+void stabilize(node_t node)
{
XBT_DEBUG("Stabilizing node");
set_finger(node, 0, candidate_id);
}
if (successor_id != node->id) {
- remote_notify(node, successor_id, node->id);
+ remote_notify(successor_id, node->id);
}
}
/* Notifies the current node that its predecessor may have changed. */
-static void notify(node_t node, int predecessor_candidate_id) {
+void notify(node_t node, int predecessor_candidate_id) {
if (node->pred_id == -1
|| is_in_interval(predecessor_candidate_id, node->pred_id + 1, node->id - 1)) {
}
/* Notifies a remote node that its predecessor may have changed. */
-static void remote_notify(node_t node, int notify_id, int predecessor_candidate_id) {
+void remote_notify(int notify_id, int predecessor_candidate_id) {
task_data_t req_data = xbt_new0(s_task_data_t, 1);
req_data->type = TASK_NOTIFY;
}
/* refreshes the finger table of the current node (called periodically) */
-static void fix_fingers(node_t node) {
+ void fix_fingers(node_t node) {
XBT_DEBUG("Fixing fingers");
int i = node->next_finger_to_fix;
}
/* checks whether the predecessor has failed (called periodically) */
-static void check_predecessor(node_t node)
+void check_predecessor(node_t node)
{
XBT_DEBUG("Checking whether my predecessor is alive");
if (res != MSG_OK) {
XBT_DEBUG("Failed to send the 'Predecessor Alive' request (task %p) to %d", task_sent, node->pred_id);
task_free(task_sent);
- }else{
-
+ } else {
// receive the answer
XBT_DEBUG("Sent 'Predecessor Alive' request (task %p) to %d, waiting for the answer on my mailbox '%s'",
task_sent, node->pred_id, req_data->answer_to);
MSG_comm_destroy(node->comm_receive);
node->comm_receive = NULL;
node->pred_id = -1;
- }else {
+ } else {
msg_task_t task_received = MSG_comm_get_task(node->comm_receive);
if (task_received != task_sent) {
MSG_comm_destroy(node->comm_receive);
}
/* Performs a find successor request to a random id */
-static void random_lookup(node_t node)
+void random_lookup(node_t node)
{
int random_index = RngStream_RandInt (node->stream, 0, nb_bits - 1);
int random_id = node->fingers[random_index].id;
XBT_DEBUG("Making a lookup request for id %d", random_id);
int res = find_successor(node, random_id);
XBT_DEBUG("The successor of node %d is %d", random_id, res);
+}
+
+static int node(int argc, char *argv[])
+{
+ /* Reduce the run size for the MC */
+ if(MC_is_active() || MC_record_replay_is_active()){
+ periodic_stabilize_delay = 8;
+ periodic_fix_fingers_delay = 8;
+ periodic_check_predecessor_delay = 8;
+ }
+
+ double init_time = MSG_get_clock();
+ msg_task_t task_received = NULL;
+ int i;
+ int join_success = 0;
+ double deadline;
+ double next_stabilize_date = init_time + periodic_stabilize_delay;
+ double next_fix_fingers_date = init_time + periodic_fix_fingers_delay;
+ double next_check_predecessor_date = init_time + periodic_check_predecessor_delay;
+ double next_lookup_date = init_time + periodic_lookup_delay;
+
+ xbt_assert(argc == 3 || argc == 5, "Wrong number of arguments for this node");
+
+ // initialize my node
+ s_node_t node = {0};
+ node.id = xbt_str_parse_int(argv[1],"Invalid ID: %s");
+ node.stream = (RngStream)MSG_host_get_data(MSG_host_self());
+ get_mailbox(node.id, node.mailbox);
+ node.next_finger_to_fix = 0;
+ node.fingers = xbt_new0(s_finger_t, nb_bits);
+ node.last_change_date = init_time;
+
+ for (i = 0; i < nb_bits; i++) {
+ node.fingers[i].id = -1;
+ set_finger(&node, i, node.id);
+ }
+
+ if (argc == 3) { // first ring
+ deadline = xbt_str_parse_double(argv[2],"Invalid deadline: %s");
+ create(&node);
+ join_success = 1;
+ } else {
+ int known_id = xbt_str_parse_int(argv[2],"Invalid root ID: %s");
+ deadline = xbt_str_parse_double(argv[4],"Invalid deadline: %s");
+
+ XBT_DEBUG("Hey! Let's join the system.");
+
+ join_success = join(&node, known_id);
+ }
+
+ if (join_success) {
+ double now = MSG_get_clock();
+ int listen = 0;
+ int no_op = 0;
+ while (now < init_time + deadline && now < max_simulation_time) {
+ if (node.comm_receive == NULL) {
+ task_received = NULL;
+ node.comm_receive = MSG_task_irecv(&task_received, node.mailbox);
+ // FIXME: do not make MSG_task_irecv() calls from several functions
+ }
+
+ if (!MSG_comm_test(node.comm_receive)) { // no task was received: make some periodic calls
+ if(MC_is_active() || MC_record_replay_is_active()){
+ int sub_protocol = MC_random(0, 4);
+ if(MC_is_active() && !MC_visited_reduction() && no_op)
+ MC_cut();
+ if(listen == 0 && (sub_protocol > 0)){
+ if(sub_protocol == 1)
+ stabilize(&node);
+ else if(sub_protocol == 2)
+ fix_fingers(&node);
+ else if(sub_protocol == 3)
+ check_predecessor(&node);
+ else
+ random_lookup(&node);
+ listen = 1;
+ } else {
+ MSG_process_sleep(sleep_delay);
+ if(!MC_visited_reduction())
+ no_op = 1;
+ }
+ }else{
+ if (now >= next_stabilize_date) {
+ stabilize(&node);
+ next_stabilize_date = MSG_get_clock() + periodic_stabilize_delay;
+ }else if (now >= next_fix_fingers_date) {
+ fix_fingers(&node);
+ next_fix_fingers_date = MSG_get_clock() + periodic_fix_fingers_delay;
+ }else if (now >= next_check_predecessor_date) {
+ check_predecessor(&node);
+ next_check_predecessor_date = MSG_get_clock() + periodic_check_predecessor_delay;
+ }else if (now >= next_lookup_date) {
+ random_lookup(&node);
+ next_lookup_date = MSG_get_clock() + periodic_lookup_delay;
+ }else {
+ // nothing to do: sleep for a while
+ MSG_process_sleep(sleep_delay);
+ }
+ }
+ } else { // a transfer has occurred
+ msg_error_t status = MSG_comm_get_status(node.comm_receive);
+ MSG_comm_destroy(node.comm_receive);
+ node.comm_receive = NULL;
+
+ if (status == MSG_OK)
+ handle_task(&node, task_received);
+ else
+ XBT_DEBUG("Failed to receive a task. Nevermind.");
+ }
+ now = MSG_get_clock();
+ }
+ if (node.comm_receive) {
+ /* handle last task if any */
+ if (MSG_comm_wait(node.comm_receive, 0) == MSG_OK)
+ task_free(task_received);
+ MSG_comm_destroy(node.comm_receive);
+ node.comm_receive = NULL;
+ }
+
+ // leave the ring
+ leave(&node);
+ }
+
+ // stop the simulation
+ xbt_free(node.fingers);
+ return 0;
}
int main(int argc, char *argv[])
{
MSG_init(&argc, argv);
- xbt_assert(argc > 2,
- "Usage: %s [-nb_bits=n] [-timeout=t] platform_file deployment_file\n"
- "\tExample: %s ../msg_platform.xml chord.xml\n", argv[0], argv[0]);
+ xbt_assert(argc > 2, "Usage: %s [-nb_bits=n] [-timeout=t] platform_file deployment_file\n"
+ "\tExample: %s ../msg_platform.xml chord.xml\n", argv[0], argv[0]);
char **options = &argv[1];
while (!strncmp(options[0], "-", 1)) {
-
int length = strlen("-nb_bits=");
if (!strncmp(options[0], "-nb_bits=", length) && strlen(options[0]) > length) {
nb_bits = xbt_str_parse_int(options[0] + length, "Invalid nb_bits parameter: %s");
XBT_DEBUG("Set nb_bits to %d", nb_bits);
- }
- else {
-
+ } else {
length = strlen("-timeout=");
if (!strncmp(options[0], "-timeout=", length) && strlen(options[0]) > length) {
timeout = xbt_str_parse_int(options[0] + length, "Invalid timeout parameter: %s");
XBT_DEBUG("Set timeout to %d", timeout);
- }
- else {
+ } else {
xbt_die("Invalid chord option '%s'", options[0]);
}
}
options++;
}
- const char* platform_file = options[0];
- const char* application_file = options[1];
-
- MSG_create_environment(platform_file);
+ MSG_create_environment(options[0]);
chord_initialize();
MSG_function_register("node", node);
- MSG_launch_application(application_file);
+ MSG_launch_application(options[1]);
msg_error_t res = MSG_main();
XBT_INFO("Simulated time: %g", MSG_get_clock());