diff options
author | Patrick Simianer <simianer@cl.uni-heidelberg.de> | 2013-02-18 18:31:23 +0100 |
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committer | Patrick Simianer <simianer@cl.uni-heidelberg.de> | 2013-02-18 18:31:23 +0100 |
commit | 12f2eab0e7dc7167af47cddf8ef88968656277da (patch) | |
tree | 28953cc5de058908056b319222afc60d1efb6660 /training/utils/sentserver.cc | |
parent | f051e98fb35c4ce69e489ef6550840bd6cd617fd (diff) | |
parent | 95c364f2cb002241c4a62bedb1c5ef6f1e9a7f22 (diff) |
Merge remote-tracking branch 'upstream/master'
Diffstat (limited to 'training/utils/sentserver.cc')
-rw-r--r-- | training/utils/sentserver.cc | 515 |
1 files changed, 515 insertions, 0 deletions
diff --git a/training/utils/sentserver.cc b/training/utils/sentserver.cc new file mode 100644 index 00000000..b425955f --- /dev/null +++ b/training/utils/sentserver.cc @@ -0,0 +1,515 @@ +/* Copyright (c) 2001 by David Chiang. All rights reserved.*/ + +#include <string.h> +#include <stdlib.h> +#include <unistd.h> +#include <fcntl.h> +#include <stdio.h> +#include <sys/socket.h> +#include <sys/types.h> +#include <sys/time.h> +#include <netinet/in.h> +#include <sched.h> +#include <pthread.h> +#include <errno.h> + +#include "sentserver.h" + +#define MAX_CLIENTS 64 + +struct clientinfo { + int s; + struct sockaddr_in sin; +}; + +struct line { + int id; + char *s; + int status; + struct line *next; +} *head, **ptail; + +int n_sent = 0, n_received=0, n_flushed=0; + +#define STATUS_RUNNING 0 +#define STATUS_ABORTED 1 +#define STATUS_FINISHED 2 + +pthread_mutex_t queue_mutex = PTHREAD_MUTEX_INITIALIZER; +pthread_mutex_t clients_mutex = PTHREAD_MUTEX_INITIALIZER; +pthread_mutex_t input_mutex = PTHREAD_MUTEX_INITIALIZER; + +int n_clients = 0; +int s; +int expect_multiline_output = 0; +int log_mutex = 0; +int stay_alive = 0; /* dont panic and die with zero clients */ + +void queue_finish(struct line *node, char *s, int fid); +char * read_line(int fd, int multiline); +void done (int code); + +struct line * queue_get(int fid) { + struct line *cur; + char *s, *synch; + + if (log_mutex) fprintf(stderr, "Getting for data for fid %d\n", fid); + if (log_mutex) fprintf(stderr, "Locking queue mutex (%d)\n", fid); + pthread_mutex_lock(&queue_mutex); + + /* First, check for aborted sentences. */ + + if (log_mutex) fprintf(stderr, " Checking queue for aborted jobs (fid %d)\n", fid); + for (cur = head; cur != NULL; cur = cur->next) { + if (cur->status == STATUS_ABORTED) { + cur->status = STATUS_RUNNING; + + if (log_mutex) fprintf(stderr, "Unlocking queue mutex (%d)\n", fid); + pthread_mutex_unlock(&queue_mutex); + + return cur; + } + } + if (log_mutex) fprintf(stderr, "Unlocking queue mutex (%d)\n", fid); + pthread_mutex_unlock(&queue_mutex); + + /* Otherwise, read a new one. */ + if (log_mutex) fprintf(stderr, "Locking input mutex (%d)\n", fid); + if (log_mutex) fprintf(stderr, " Reading input for new data (fid %d)\n", fid); + pthread_mutex_lock(&input_mutex); + s = read_line(0,0); + + while (s) { + if (log_mutex) fprintf(stderr, "Locking queue mutex (%d)\n", fid); + pthread_mutex_lock(&queue_mutex); + if (log_mutex) fprintf(stderr, "Unlocking input mutex (%d)\n", fid); + pthread_mutex_unlock(&input_mutex); + + cur = (line*)malloc(sizeof (struct line)); + cur->id = n_sent; + cur->s = s; + cur->next = NULL; + + *ptail = cur; + ptail = &cur->next; + + n_sent++; + + if (strcmp(s,"===SYNCH===\n")==0){ + fprintf(stderr, "Received ===SYNCH=== signal (fid %d)\n", fid); + // Note: queue_finish calls free(cur->s). + // Therefore we need to create a new string here. + synch = (char*)malloc((strlen("===SYNCH===\n")+2) * sizeof (char)); + synch = strcpy(synch, s); + + if (log_mutex) fprintf(stderr, "Unlocking queue mutex (%d)\n", fid); + pthread_mutex_unlock(&queue_mutex); + queue_finish(cur, synch, fid); /* handles its own lock */ + + if (log_mutex) fprintf(stderr, "Locking input mutex (%d)\n", fid); + if (log_mutex) fprintf(stderr, " Reading input for new data (fid %d)\n", fid); + pthread_mutex_lock(&input_mutex); + + s = read_line(0,0); + } else { + if (log_mutex) fprintf(stderr, " Received new data %d (fid %d)\n", cur->id, fid); + cur->status = STATUS_RUNNING; + if (log_mutex) fprintf(stderr, "Unlocking queue mutex (%d)\n", fid); + pthread_mutex_unlock(&queue_mutex); + return cur; + } + } + + if (log_mutex) fprintf(stderr, "Unlocking input mutex (%d)\n", fid); + pthread_mutex_unlock(&input_mutex); + /* Only way to reach this point: no more output */ + + if (log_mutex) fprintf(stderr, "Locking queue mutex (%d)\n", fid); + pthread_mutex_lock(&queue_mutex); + if (head == NULL) { + fprintf(stderr, "Reached end of file. Exiting.\n"); + done(0); + } else + ptail = NULL; /* This serves as a signal that there is no more input */ + if (log_mutex) fprintf(stderr, "Unlocking queue mutex (%d)\n", fid); + pthread_mutex_unlock(&queue_mutex); + + return NULL; +} + +void queue_panic() { + struct line *next; + while (head && head->status == STATUS_FINISHED) { + /* Write out finished sentences */ + if (head->status == STATUS_FINISHED) { + fputs(head->s, stdout); + fflush(stdout); + } + /* Write out blank line for unfinished sentences */ + if (head->status == STATUS_ABORTED) { + fputs("\n", stdout); + fflush(stdout); + } + /* By defition, there cannot be any RUNNING sentences, since + function is only called when n_clients == 0 */ + free(head->s); + next = head->next; + free(head); + head = next; + n_flushed++; + } + fclose(stdout); + fprintf(stderr, "All clients died. Panicking, flushing completed sentences and exiting.\n"); + done(1); +} + +void queue_abort(struct line *node, int fid) { + if (log_mutex) fprintf(stderr, "Locking queue mutex (%d)\n", fid); + pthread_mutex_lock(&queue_mutex); + node->status = STATUS_ABORTED; + if (n_clients == 0) { + if (stay_alive) { + fprintf(stderr, "Warning! No live clients detected! Staying alive, will retry soon.\n"); + } else { + queue_panic(); + } + } + if (log_mutex) fprintf(stderr, "Unlocking queue mutex (%d)\n", fid); + pthread_mutex_unlock(&queue_mutex); +} + + +void queue_print() { + struct line *cur; + + fprintf(stderr, " Queue\n"); + + for (cur = head; cur != NULL; cur = cur->next) { + switch(cur->status) { + case STATUS_RUNNING: + fprintf(stderr, " %d running ", cur->id); break; + case STATUS_ABORTED: + fprintf(stderr, " %d aborted ", cur->id); break; + case STATUS_FINISHED: + fprintf(stderr, " %d finished ", cur->id); break; + + } + fprintf(stderr, "\n"); + //fprintf(stderr, cur->s); + } +} + +void queue_finish(struct line *node, char *s, int fid) { + struct line *next; + if (log_mutex) fprintf(stderr, "Locking queue mutex (%d)\n", fid); + pthread_mutex_lock(&queue_mutex); + + free(node->s); + node->s = s; + node->status = STATUS_FINISHED; + n_received++; + + /* Flush out finished nodes */ + while (head && head->status == STATUS_FINISHED) { + + if (log_mutex) fprintf(stderr, " Flushing finished node %d\n", head->id); + + fputs(head->s, stdout); + fflush(stdout); + if (log_mutex) fprintf(stderr, " Flushed node %d\n", head->id); + free(head->s); + + next = head->next; + free(head); + + head = next; + + n_flushed++; + + if (head == NULL) { /* empty queue */ + if (ptail == NULL) { /* This can only happen if set in queue_get as signal that there is no more input. */ + fprintf(stderr, "All sentences finished. Exiting.\n"); + done(0); + } else /* ptail pointed at something which was just popped off the stack -- reset to head*/ + ptail = &head; + } + } + + if (log_mutex) fprintf(stderr, " Flushing output %d\n", head->id); + fflush(stdout); + fprintf(stderr, "%d sentences sent, %d sentences finished, %d sentences flushed\n", n_sent, n_received, n_flushed); + + if (log_mutex) fprintf(stderr, "Unlocking queue mutex (%d)\n", fid); + pthread_mutex_unlock(&queue_mutex); + +} + +char * read_line(int fd, int multiline) { + int size = 80; + char errorbuf[100]; + char *s = (char*)malloc(size+2); + int result, errors=0; + int i = 0; + + result = read(fd, s+i, 1); + + while (1) { + if (result < 0) { + perror("read()"); + sprintf(errorbuf, "Error code: %d\n", errno); + fputs(errorbuf, stderr); + errors++; + if (errors > 5) { + free(s); + return NULL; + } else { + sleep(1); /* retry after delay */ + } + } else if (result == 0) { + break; + } else if (multiline==0 && s[i] == '\n') { + break; + } else { + if (s[i] == '\n'){ + /* if we've reached this point, + then multiline must be 1, and we're + going to poll the fd for an additional + line of data. The basic design is to + run a select on the filedescriptor fd. + Select will return under two conditions: + if there is data on the fd, or if a + timeout is reached. We'll select on this + fd. If select returns because there's data + ready, keep going; else assume there's no + more and return the data we already have. + */ + + fd_set set; + FD_ZERO(&set); + FD_SET(fd, &set); + + struct timeval timeout; + timeout.tv_sec = 3; // number of seconds for timeout + timeout.tv_usec = 0; + + int ready = select(FD_SETSIZE, &set, NULL, NULL, &timeout); + if (ready<1){ + break; // no more data, stop looping + } + } + i++; + + if (i == size) { + size = size*2; + s = (char*)realloc(s, size+2); + } + } + + result = read(fd, s+i, 1); + } + + if (result == 0 && i == 0) { /* end of file */ + free(s); + return NULL; + } + + s[i] = '\n'; + s[i+1] = '\0'; + + return s; +} + +void * new_client(void *arg) { + struct clientinfo *client = (struct clientinfo *)arg; + struct line *cur; + int result; + char *s; + char errorbuf[100]; + + pthread_mutex_lock(&clients_mutex); + n_clients++; + pthread_mutex_unlock(&clients_mutex); + + fprintf(stderr, "Client connected (%d connected)\n", n_clients); + + for (;;) { + + cur = queue_get(client->s); + + if (cur) { + /* fprintf(stderr, "Sending to client: %s", cur->s); */ + fprintf(stderr, "Sending data %d to client (fid %d)\n", cur->id, client->s); + result = write(client->s, cur->s, strlen(cur->s)); + if (result < strlen(cur->s)){ + perror("write()"); + sprintf(errorbuf, "Error code: %d\n", errno); + fputs(errorbuf, stderr); + + pthread_mutex_lock(&clients_mutex); + n_clients--; + pthread_mutex_unlock(&clients_mutex); + + fprintf(stderr, "Client died (%d connected)\n", n_clients); + queue_abort(cur, client->s); + + close(client->s); + free(client); + + pthread_exit(NULL); + } + } else { + close(client->s); + pthread_mutex_lock(&clients_mutex); + n_clients--; + pthread_mutex_unlock(&clients_mutex); + fprintf(stderr, "Client dismissed (%d connected)\n", n_clients); + pthread_exit(NULL); + } + + s = read_line(client->s,expect_multiline_output); + if (s) { + /* fprintf(stderr, "Client (fid %d) returned: %s", client->s, s); */ + fprintf(stderr, "Client (fid %d) returned data %d\n", client->s, cur->id); +// queue_print(); + queue_finish(cur, s, client->s); + } else { + pthread_mutex_lock(&clients_mutex); + n_clients--; + pthread_mutex_unlock(&clients_mutex); + + fprintf(stderr, "Client died (%d connected)\n", n_clients); + queue_abort(cur, client->s); + + close(client->s); + free(client); + + pthread_exit(NULL); + } + + } + return 0; +} + +void done (int code) { + close(s); + exit(code); +} + + + +int main (int argc, char *argv[]) { + struct sockaddr_in sin, from; + int g; + socklen_t len; + struct clientinfo *client; + int port; + int opt; + int errors = 0; + int argi; + char *key = NULL, *client_key; + int use_key = 0; + /* the key stuff here doesn't provide any + real measure of security, it's mainly to keep + jobs from bumping into each other. */ + + pthread_t tid; + port = DEFAULT_PORT; + + for (argi=1; argi < argc; argi++){ + if (strcmp(argv[argi], "-m")==0){ + expect_multiline_output = 1; + } else if (strcmp(argv[argi], "-k")==0){ + argi++; + if (argi == argc){ + fprintf(stderr, "Key must be specified after -k\n"); + exit(1); + } + key = argv[argi]; + use_key = 1; + } else if (strcmp(argv[argi], "--stay-alive")==0){ + stay_alive = 1; /* dont panic and die with zero clients */ + } else { + port = atoi(argv[argi]); + } + } + + /* Initialize data structures */ + head = NULL; + ptail = &head; + + /* Set up listener */ + s = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP); + opt = 1; + setsockopt(s, SOL_SOCKET, SO_REUSEADDR, &opt, sizeof(opt)); + + sin.sin_family = AF_INET; + sin.sin_addr.s_addr = htonl(INADDR_ANY); + sin.sin_port = htons(port); + while (bind(s, (struct sockaddr *) &sin, sizeof(sin)) < 0) { + perror("bind()"); + sleep(1); + errors++; + if (errors > 100) + exit(1); + } + + len = sizeof(sin); + getsockname(s, (struct sockaddr *) &sin, &len); + + fprintf(stderr, "Listening on port %hu\n", ntohs(sin.sin_port)); + + while (listen(s, MAX_CLIENTS) < 0) { + perror("listen()"); + sleep(1); + errors++; + if (errors > 100) + exit(1); + } + + for (;;) { + len = sizeof(from); + g = accept(s, (struct sockaddr *)&from, &len); + if (g < 0) { + perror("accept()"); + sleep(1); + continue; + } + client = (clientinfo*)malloc(sizeof(struct clientinfo)); + client->s = g; + bcopy(&from, &client->sin, len); + + if (use_key){ + fd_set set; + FD_ZERO(&set); + FD_SET(client->s, &set); + + struct timeval timeout; + timeout.tv_sec = 3; // number of seconds for timeout + timeout.tv_usec = 0; + + int ready = select(FD_SETSIZE, &set, NULL, NULL, &timeout); + if (ready<1){ + fprintf(stderr, "Prospective client failed to respond with correct key.\n"); + close(client->s); + free(client); + } else { + client_key = read_line(client->s,0); + client_key[strlen(client_key)-1]='\0'; /* chop trailing newline */ + if (strcmp(key, client_key)==0){ + pthread_create(&tid, NULL, new_client, client); + } else { + fprintf(stderr, "Prospective client failed to respond with correct key.\n"); + close(client->s); + free(client); + } + free(client_key); + } + } else { + pthread_create(&tid, NULL, new_client, client); + } + } + +} + + + |