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gwan version: 3.12.26

servlet type: C and Perl


gwan internal cache make request not re-read the script


  1. create 'log' dir :

    [bash]# mkdir -p /dev/shm/random-c
    [bash]# chmod 777 /dev/shm/random-c
  2. create /path/to/gwan/

    // ============================================================================
    // C servlet sample for the G-WAN Web Application Server (
    // ----------------------------------------------------------------------------
    // hello.c: just used with Lighty's Weighttp to benchmark a minimalist servlet
    // ============================================================================
    // imported functions:
    //   get_reply(): get a pointer on the 'reply' dynamic buffer from the server
    //    xbuf_cat(): like strcat(), but it works in the specified dynamic buffer
    // ----------------------------------------------------------------------------
    #include <sys/time.h>
    #include "gwan.h" // G-WAN exported functions
    #include <stdio.h>
    #include <stdlib.h>
    #include <string.h>
    void init_random(){
        struct /*sys/time.h->*/timeval res;
       /*stdlib.h->*/srand( (unsigned int)/*stdlib.h->*/time(NULL) + res.tv_usec);
    char *get_rnd_char(int num){
        char *char_list = "1234567890abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ";
        int  char_list_len = 62;
        char *ret = (char *)/*stdlib.h->*/malloc((num * sizeof(char)) + 1);
        int i,r;
            r=(int) (/*stdlib.h->*/rand() % char_list_len);
            ret[i] = char_list[r==char_list_len ? r-1 : r];
        ret[num] = '\0';
        return ret;
    int main(int argc, char *argv[])
        char *rnd_out; //-- random data for browser output and file input
        char *rnd_file; //-- random file
        char *rnd_path; //-- for speed let's make on ramdisk /dev/shm/random-c/
        char *t;
        FILE *F;
        int num_char=10;
        int arg_cnt=1;
            //-- why nobody love C ? one of the reason is these kind parsing thing
            while ((t = /*string.h->*/strtok(argv[0], "=")) != NULL) {
                argv[0] = NULL;
                if(arg_cnt == 2){
                    num_char = /*stdlib.h->*/atoi(t);
            //-- get random number betwen 1 to 1000
            num_char = (rand() % 1000)+1;
       //-- create random data
        rnd_out = get_rnd_char(num_char);
        //-- creating "log" path
        //-- why nobody love C ? more reason
       rnd_file = get_rnd_char(20);
       // "/dev/shm/random-c/xxxxxxxxxxxxxxxxxxxx" -> 38 chars + 1 for \0
       rnd_path = (char *)/*stdlib.h->*/malloc((38 * sizeof(char)) + 1);
       rnd_path[0] = '\0';
        //-- save to file
        F = /*stdio.h->*/fopen(rnd_path,"w");
       //-- send output to browser
       /*gwan.h->*/xbuf_cat(get_reply(argv), rnd_out);
        //-- cleanup memory
        //-- why nobody love C ? MAIN reason: no easy way of memory management
       return 200; // return an HTTP code (200:'OK')
    // ============================================================================
    // End of Source Code
    // ============================================================================
  3. run on browser:


    then you should have one 20char random file at /dev/shm/random-c/

  4. here the 'problem', run:

    ab -n 1000 'http://localhost:8080/?random.c'

    my ubuntu have output:

    Finished 1000 requests
    Server Software:        G-WAN
    Server Hostname:        localhost
    Server Port:            8080
    Document Path:          /?random.c
    Document Length:        440 bytes
    Concurrency Level:      1
    Time taken for tests:   0.368 seconds
    Complete requests:      1000
    Failed requests:        361
       (Connect: 0, Receive: 0, Length: 361, Exceptions: 0)
    Write errors:           0
    Total transferred:      556492 bytes
    HTML transferred:       286575 bytes
    Requests per second:    2718.73 [#/sec] (mean)
    Time per request:       0.368 [ms] (mean)
    Time per request:       0.368 [ms] (mean, across all concurrent requests)
    Transfer rate:          1477.49 [Kbytes/sec] received


    [bash]# ls /dev/shm/random-c/

    the directory only list 4 or 5 random files, which expected was 1000files

  5. tested on random.c and perl's version

so the back to beginning question, how to disable GWAN internal cache, I try to read gwan user guide for set something in handler, but found nothing (or I miss something in that guide ).

thanks for GWAN team for this great product. any answer welcome .. thanks

share|improve this question
I had the same issue with data stored in database ... 100000 requests but only 30 items populated in DB ... – solisoft Dec 27 '12 at 18:47
@isenkSaja - Why you are (again) presenting a documented feature as a bug remains a mystery... until one reads your "why nobody loves C" repeatedly written in your code example: C, like any language, can be severely mis-used (the code that you published would be 10x smaller, 10x faster, and therefore 10x easier to write and read... if you merely bothered to read the G-WAN API). – Gil Dec 28 '12 at 7:11
@gil, ahh ok ... seing your answer and deletion of my post I know why nobody use GWAN ... and not every 'report' or 'inputs' is FUD ... and you aready lost one future user/customer ... thanks anyway ... – isenkSaja Dec 30 '12 at 3:08
@isenkSaja (a) I do not have enough privileges to delete any post but (b) the post you are refering to and that I commented was spreading technically inacurate statements; further it was (c) unrelated to your question. Stackoverflow is a Q&A platform, not a discussion forum. If you want to start a discussion about how G-WAN can better serve your needs then you should contact G-WAN. – Gil Dec 30 '12 at 9:37

1 Answer 1

up vote 3 down vote accepted

I think that the feature you are talking about is micro caching. To disable it, the URI needs to be unique on each request within 200 ms. (Like adding random number on URI)

The G-WAN FAQ state:

"To spare the need for a frontend cache server (and to let G-WAN be used as a caching reverse-proxy) G-WAN supports micro-caching, a RESTful feature. When a given URI is invoked at high concurrencies and when generating the payload take a lot of time, then G-WAN will automatically cache a page for 200 milliseconds (the average latency on the Internet) to make sure that the cache is up-to-date: within 200 ms, consecutive requests provide the expected result. To prevent micro-caching from being triggered, use a changing query parameter (per user session id, random, counter, etc.) for concurrent requests."

Note that for v4.10+ caching is disabled by default, look at the gwan/init.c file.

share|improve this answer
Dan D. (user 388787/dan-d) felt the need to edit this reply to break the link to the G-WAN FAQs - how useful is such a behavior?... That is vandalism, nothing else. – Gil Dec 29 '12 at 18:36

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