/* * Copyright (c) 2002, Intel Corporation. All rights reserved. * Created by: julie.n.fleischer REMOVE-THIS AT intel DOT com * This file is licensed under the GPL license. For the full content * of this license, see the COPYING file at the top level of this * source tree. */ /* * Test that mq_send() inserts messages into the message queue according * to the priority given. * Test by inserting multiple messages into the queue not in priority order. * Ensure messages are received in priority order. * * 3/13/03 - Added fix from Gregoire Pichon for specifying an attr * with a mq_maxmsg >= BUFFER. */ #include #include #include #include #include #include #include #include "posixtest.h" #define NAMESIZE 50 #define MSG1 "1234567890" #define PRI1 10 #define MSG2 "234567890" #define PRI2 8 #define MSG3 "34567890" #define PRI3 6 #define MSG4 "4567890" #define PRI4 2 #define MSG5 "567890" #define PRI5 1 #define BUFFER 40 #define MAXMSG 10 int main(void) { char qname[NAMESIZE], msgrcd[BUFFER]; const char *msgptr1 = MSG1; const char *msgptr2 = MSG2; const char *msgptr3 = MSG3; const char *msgptr4 = MSG4; const char *msgptr5 = MSG5; mqd_t queue; struct mq_attr attr; int unresolved = 0, failure = 0; unsigned pri; sprintf(qname, "/mq_send_3-1_%d", getpid()); attr.mq_msgsize = BUFFER; attr.mq_maxmsg = MAXMSG; queue = mq_open(qname, O_CREAT | O_RDWR, S_IRUSR | S_IWUSR, &attr); if (queue == (mqd_t) - 1) { perror("mq_open() did not return success"); return PTS_UNRESOLVED; } if (mq_send(queue, msgptr3, strlen(msgptr3), PRI3) != 0) { perror("mq_send() did not return success"); failure = 1; } if (mq_send(queue, msgptr1, strlen(msgptr1), PRI1) != 0) { perror("mq_send() did not return success"); failure = 1; } if (mq_send(queue, msgptr4, strlen(msgptr4), PRI4) != 0) { perror("mq_send() did not return success"); failure = 1; } if (mq_send(queue, msgptr2, strlen(msgptr2), PRI2) != 0) { perror("mq_send() did not return success"); failure = 1; } if (mq_send(queue, msgptr5, strlen(msgptr5), PRI5) != 0) { perror("mq_send() did not return success"); failure = 1; } if (mq_receive(queue, msgrcd, BUFFER, &pri) == -1) { perror("mq_receive() returned failure"); failure = 1; } if (strncmp(msgptr1, msgrcd, strlen(msgptr1)) != 0) { printf("FAIL: expected %s received %s\n", msgptr1, msgrcd); failure = 1; } if (mq_receive(queue, msgrcd, BUFFER, &pri) == -1) { perror("mq_receive() returned failure"); failure = 1; } if (strncmp(msgptr2, msgrcd, strlen(msgptr2)) != 0) { printf("FAIL: expected %s received %s\n", msgptr2, msgrcd); failure = 1; } if (mq_receive(queue, msgrcd, BUFFER, &pri) == -1) { perror("mq_receive() returned failure"); failure = 1; } if (strncmp(msgptr3, msgrcd, strlen(msgptr3)) != 0) { printf("FAIL: expected %s received %s\n", msgptr3, msgrcd); failure = 1; } if (mq_receive(queue, msgrcd, BUFFER, &pri) == -1) { perror("mq_receive() returned failure"); failure = 1; } if (strncmp(msgptr4, msgrcd, strlen(msgptr4)) != 0) { printf("FAIL: expected %s received %s\n", msgptr4, msgrcd); failure = 1; } if (mq_receive(queue, msgrcd, BUFFER, &pri) == -1) { perror("mq_receive() returned failure"); failure = 1; } if (strncmp(msgptr5, msgrcd, strlen(msgptr5)) != 0) { printf("FAIL: expected %s received %s\n", msgptr5, msgrcd); failure = 1; } if (mq_close(queue) != 0) { perror("mq_close() did not return success"); unresolved = 1; } if (mq_unlink(qname) != 0) { perror("mq_unlink() did not return success"); unresolved = 1; } if (failure == 1) { printf("Test FAILED\n"); return PTS_FAIL; } if (unresolved == 1) { printf("Test UNRESOLVED\n"); return PTS_UNRESOLVED; } printf("Test PASSED\n"); return PTS_PASS; }