#include "portable.h" /* execinfo when available */
#include "xbt/ex.h"
+#include "xbt/module.h" /* xbt_binary_name */
+#include "xbt/ex_interface.h"
+
+#include "gras/Virtu/virtu_interface.h" /* gras_os_myname */
/* default __ex_ctx callback function */
ex_ctx_t *__xbt_ex_ctx_default(void) {
return &ctx;
}
+
+/** \brief show the backtrace of the current point (lovely while debuging) */
+void xbt_backtrace_display(void) {
+#if defined(HAVE_EXECINFO_H) && defined(HAVE_POPEN) && defined(ADDR2LINE)
+ xbt_ex_t e;
+ int i;
+
+ e.used = backtrace((void**)e.bt,XBT_BACKTRACE_SIZE);
+ e.bt_strings = NULL;
+ xbt_ex_setup_backtrace(&e);
+ for (i=1; i<e.used; i++) /* no need to display "xbt_display_backtrace" */
+ fprintf(stderr,"%s\n",e.bt_strings[i]);
+
+ e.msg=NULL;
+ e.remote=0;
+ xbt_ex_free(e);
+#else
+ fprintf(stderr,"No backtrace on this arch");
+#endif
+}
+
+void xbt_ex_setup_backtrace(xbt_ex_t *e) {
+#if defined(HAVE_EXECINFO_H) && defined(HAVE_POPEN) && defined(ADDR2LINE)
+ int i;
+ /* to get the backtrace from the libc */
+ char **backtrace = backtrace_symbols (e->bt, e->used);
+
+ /* To build the commandline of addr2line */
+ char *cmd = xbt_new(char,strlen(ADDR2LINE)+strlen(xbt_binary_name)+20*e->used);
+ char *curr=cmd;
+
+ /* to extract the addresses from the backtrace */
+ char **addrs=xbt_new(char*,e->used);
+ char buff[256],*p;
+
+ /* To read the output of addr2line */
+ FILE *pipe;
+ char line_func[1024],line_pos[1024];
+
+ /* size (in char) of pointers on this arch */
+ int addr_len=0;
+
+ /* build the commandline */
+ curr += sprintf(curr,"%s -f -e %s ",ADDR2LINE,xbt_binary_name);
+ for (i=0; i<e->used;i++) {
+ /* retrieve this address */
+ snprintf(buff,256,"%s",strchr(backtrace[i],'[')+1);
+ p=strchr(buff,']');
+ *p='\0';
+ addrs[i]=bprintf("%s",buff);
+
+ /* Add it to the command line args */
+ curr+=sprintf(curr,"%s ",addrs[i]);
+ }
+ addr_len = strlen(addrs[0]);
+
+ /* parse the output and build a new backtrace */
+ e->bt_strings = xbt_new(char*,e->used);
+
+ pipe = popen(cmd, "r");
+ // xbt_assert(pipe);//,"Cannot fork addr2line to display the backtrace");
+ for (i=0; i<e->used; i++) {
+ fgets(line_func,1024,pipe);
+ line_func[strlen(line_func)-1]='\0';
+ fgets(line_pos,1024,pipe);
+ line_pos[strlen(line_pos)-1]='\0';
+
+ if (strcmp("??",line_func)) {
+ e->bt_strings[i] = bprintf("** At %s: %s (%s)",
+ addrs[i], line_func,line_pos);
+ } else {
+ /* Damn. The symbol is in a dynamic library. Let's get wild */
+ char *maps_name;
+ FILE *maps;
+ char maps_buff[512];
+
+ long int addr,offset,offset_save;
+ char *p,*p2;
+
+ char *subcmd;
+ FILE *subpipe;
+ int found=0;
+
+ /* let's look for the offset of this library in our addressing space */
+ maps_name=bprintf("/proc/%d/maps",(int)getpid());
+ maps=fopen(maps_name,"r");
+
+ addr=strtol(addrs[i]+2, NULL,16);
+
+ while (!found) {
+ if (fgets(maps_buff,512,maps) == NULL)
+ break;
+ offset_save = offset;
+ offset=strtol(maps_buff,NULL,16);
+ if (offset > addr)
+ found=1;
+ }
+
+ fclose(maps);
+ free(maps_name);
+
+ /* Ok, the maps line we just read is beyond the searched symbol. Got it,
+ the symbol is in previous map, which offset is in offset_save.
+ We now need to substract this from the address we got from backtrace.
+ */
+ offset=offset_save;
+
+ free(addrs[i]);
+ addrs[i] = bprintf("0x%0*lx",addr_len-2,addr-offset);
+
+ /* Got it. We have our new address. Let's get the library path and we
+ are set */
+ p = xbt_strdup(backtrace[i]);
+ p2 = strrchr(p,'(');
+ if (p2) *p2= '\0';
+ p2 = strrchr(p,' ');
+ if (p2) *p2= '\0';
+
+ /* Here we go, fire an addr2line up */
+ subcmd = bprintf("%s -f -e %s %s",ADDR2LINE,p, addrs[i]);
+ free(p);
+ subpipe = popen(subcmd,"r");
+ fgets(line_func,1024,subpipe);
+ line_func[strlen(line_func)-1]='\0';
+ fgets(line_pos,1024,subpipe);
+ line_pos[strlen(line_pos)-1]='\0';
+ pclose(subpipe);
+ free(subcmd);
+
+ /* check whether the trick worked */
+ if (strcmp("??",line_func)) {
+ e->bt_strings[i] = bprintf("** At %s: %s (%s)",
+ addrs[i], line_func,line_pos);
+ } else {
+ /* damn, nothing to do here. Let's print the raw address */
+ p = bprintf("%s",backtrace[i]);
+ p2 = strrchr(p,' ');
+ *p2= '\0';
+ e->bt_strings[i] = bprintf("** At %s: ?? (%s)", addrs[i], p);
+ free(p);
+ }
+ }
+ free(addrs[i]);
+ }
+ pclose(pipe);
+ free(addrs);
+ free(backtrace);
+ free(cmd);
+#endif
+}
+
/** @brief shows an exception content and the associated stack if available */
void xbt_ex_display(xbt_ex_t *e) {
fprintf(stderr,
- "** SimGrid: UNCAUGHT EXCEPTION: category: %s; value: %d\n"
+ "** SimGrid: UNCAUGHT EXCEPTION on %s: category: %s; value: %d\n"
"** %s\n"
- "** Thrown by %s%s%s at %s:%d:%s\n",
+ "** Thrown by %s%s%s",
+ gras_os_myname(),
xbt_ex_catname(e->category), e->value, e->msg,
- e->procname, (e->host?"@":""),(e->host?e->host:"localhost"),
- e->file,e->line,e->func);
+ e->procname, (e->host?"@":""),(e->host?e->host:""));
-#ifdef HAVE_EXECINFO_H
- {
- char **strings;
- int i;
+ if (!e->remote && !e->bt_strings)
+ xbt_ex_setup_backtrace(e);
- fprintf(stderr,"** Backtrace:\n");
- strings = backtrace_symbols (e->bt, e->used);
-
- for (i = 0; i < e->used; i++)
- printf (" %s\n", strings[i]);
-
- free (strings);
- }
+#if defined(HAVE_EXECINFO_H) && defined(HAVE_POPEN) && defined(ADDR2LINE)
+ /* We have everything to build neat backtraces */
+ {
+ int i;
+
+ fprintf(stderr,"\n");
+ for (i=0; i<e->used; i++)
+ fprintf(stderr,"%s\n",e->bt_strings[i]);
+
+ }
+#else
+ fprintf(stderr," at %s:%d:%s (no backtrace available on that arch)\n",
+ e->file,e->line,e->func);
#endif
+ xbt_ex_free(*e);
}
ex_term_cb_t __xbt_ex_terminate = &__xbt_ex_terminate_default;
void xbt_ex_free(xbt_ex_t e) {
+ int i;
+
if (e.msg) free(e.msg);
- free(e.procname);
+ if (e.remote) {
+ free(e.procname);
+ free(e.file);
+ free(e.func);
+ free(e.host);
+ }
+
+ if (e.bt_strings) {
+ for (i=0; i<e.used; i++)
+ free((char*)e.bt_strings[i]);
+ free((char **)e.bt_strings);
+ }
+// memset(e,0,sizeof(xbt_ex_t));
}
/** \brief returns a short name for the given exception category */
THROW0(unknown_error,0,"something");
} CATCH (ex) {
if (n != 3)
- xbt_test_fail1("M3: n=%d (!= 1)", n);
+ xbt_test_fail1("M3: n=%d (!= 3)", n);
+ n++;
+ xbt_ex_free(ex);
+ }
+ n++;
+ TRY {
+ if (n != 5)
+ xbt_test_fail1("M2: n=%d (!= 5)", n);
+ n++;
+ THROW0(unknown_error,0,"something");
+ } CATCH (ex) {
+ if (n != 6)
+ xbt_test_fail1("M3: n=%d (!= 6)", n);
n++;
RETHROW;
+ n++;
}
xbt_test_fail1("MX: n=%d (shouldn't reach this point)", n);
}
CATCH(ex) {
- if (n != 4)
- xbt_test_fail1("M4: n=%d (!= 4)", n);
+ if (n != 7)
+ xbt_test_fail1("M4: n=%d (!= 7)", n);
n++;
xbt_ex_free(ex);
}
- if (n != 5)
- xbt_test_fail1("M5: n=%d (!= 5)", n);
+ if (n != 8)
+ xbt_test_fail1("M5: n=%d (!= 8)", n);
}
XBT_TEST_UNIT("value",test_value,"exception value passing") {
if (!c)
xbt_test_fail0("xbt_ex_free not executed");
}
+
+
+/*
+ * The following is the example included in the documentation. It's a good
+ * idea to check its syntax even if we don't try to run it.
+ * And actually, it allows to put comments in the code despite doxygen.
+ */
+static char *mallocex(int size) {
+ return NULL;
+}
+#define SMALLAMOUNT 10
+#define TOOBIG 100000000
+
+#if 0 /* this contains syntax errors, actually */
+static void bad_example(void) {
+ struct {char*first;} *globalcontext;
+ ex_t ex;
+
+ /* BAD_EXAMPLE */
+ TRY {
+ char *cp1, *cp2, *cp3;
+
+ cp1 = mallocex(SMALLAMOUNT);
+ globalcontext->first = cp1;
+ cp2 = mallocex(TOOBIG);
+ cp3 = mallocex(SMALLAMOUNT);
+ strcpy(cp1, "foo");
+ strcpy(cp2, "bar");
+ } CLEANUP {
+ if (cp3 != NULL) free(cp3);
+ if (cp2 != NULL) free(cp2);
+ if (cp1 != NULL) free(cp1);
+ } CATCH(ex) {
+ printf("cp3=%s", cp3);
+ RETHROW;
+ }
+ /* end_of_bad_example */
+}
+#endif
+
+static void good_example(void) {
+ struct {char*first;} *globalcontext;
+ xbt_ex_t ex;
+
+ /* GOOD_EXAMPLE */
+ { /*01*/
+ char * volatile /*03*/ cp1 = NULL /*02*/;
+ char * volatile /*03*/ cp2 = NULL /*02*/;
+ char * volatile /*03*/ cp3 = NULL /*02*/;
+ TRY {
+ cp1 = mallocex(SMALLAMOUNT);
+ globalcontext->first = cp1;
+ cp1 = NULL /*05 give away*/;
+ cp2 = mallocex(TOOBIG);
+ cp3 = mallocex(SMALLAMOUNT);
+ strcpy(cp1, "foo");
+ strcpy(cp2, "bar");
+ } CLEANUP { /*04*/
+ printf("cp3=%s", cp3 == NULL /*02*/ ? "" : cp3);
+ if (cp3 != NULL)
+ free(cp3);
+ if (cp2 != NULL)
+ free(cp2);
+ /*05 cp1 was given away */
+ } CATCH(ex) {
+ /*05 global context untouched */
+ RETHROW;
+ }
+ }
+ /* end_of_good_example */
+}
#endif /* SIMGRID_TEST */