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Fix 32-bit libgeom consumers run on 64-bit kernels with COMPAT_FREEBSD32.

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Kernel pointer values are used as opaque unique identifiers, which are then
used to reconstruct references between various providers, classes, etc., inside
libgeom from the source XML.  Unfortunately, they're converted to pointer-width
integers (in the form of pointers) to do this, and 32-bit userland pointers
cannot hold sensible representations (however opaque) of 64-bit kernel pointers
on all systems.

In the case where the leading bits are zero and 32 distinct bits of pointer can
be identified, this will happen to work.  On systems where the upper 32-bits of
kernel pointers are non-zero and the same for all kernel pointers, this will
result in double frees and all kinds of bizarre crashes and linkage between
objects inside libgeom.

To mitigate this problem, treat the opaque identifiers in the XML as C strings
instead, and internalize them to give unique and consistent per-object pointer
values in userland for each identifier in the XML.  This allows us to keep the
libgeom logic the same with only minor changes to initial setup and parsing.

It might be more sensible for speed reasons to treat the identifiers as numbers
of a large size (uintmax_t, say) rather than strings, but strings seem fine for
now.

(As an added side-effect, this makes it slightly easier to identify unresolved
 references, but nothing has been added to inform the user of those.)
This commit is contained in:
Juli Mallett 2012-03-29 03:13:43 +00:00
parent f8e8c8faed
commit 3dce589cb9
2 changed files with 82 additions and 29 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

108
lib/libgeom/geom_xml2tree.c
View File

@ -55,9 +55,56 @@ struct mystate {
int level;
struct sbuf *sbuf[20];
struct gconf *config;
int nident;
unsigned nident;
};
static void *
internalize_ident(struct mystate *mt, const char *element, const char *str)
{
struct gident *gip;
unsigned i;
if (mt->nident != 0 && mt->mesh->lg_ident == NULL) {
warn("Cannot continue due to previous memory exhaustion.");
return (NULL);
}
for (i = 0; i < mt->nident; i++) {
if (strcmp(mt->mesh->lg_ident[i].lg_id, str) != 0)
continue;
return ((void *)(uintptr_t)(i + 1));
}
i = mt->nident;
mt->nident++;
mt->mesh->lg_ident = reallocf(mt->mesh->lg_ident, (mt->nident + 1) * sizeof mt->mesh->lg_ident[0]);
if (mt->mesh->lg_ident == NULL) {
warn("Cannot allocate memory during processing of '%s' "
"element for identifier '%s'", element, str);
return (NULL);
}
gip = &mt->mesh->lg_ident[i];
gip->lg_id = strdup(str);
if (gip->lg_id == NULL) {
free(mt->mesh->lg_ident);
mt->mesh->lg_ident = NULL;
warn("Cannot allocate memory during processing of '%s' "
"element for identifier '%s'", element, str);
return (NULL);
}
gip->lg_ptr = NULL;
gip->lg_what = ISUNRESOLVED;
/* Terminator entry. */
gip = &mt->mesh->lg_ident[i + 1];
gip->lg_id = NULL;
gip->lg_ptr = NULL;
gip->lg_what = ISUNRESOLVED;
return ((void *)(uintptr_t)(i + 1));
}
static void
StartElement(void *userData, const char *name, const char **attr)
{
@ -73,10 +120,9 @@ StartElement(void *userData, const char *name, const char **attr)
ref = NULL;
for (i = 0; attr[i] != NULL; i += 2) {
if (!strcmp(attr[i], "id")) {
id = (void *)strtoul(attr[i + 1], NULL, 0);
mt->nident++;
id = internalize_ident(mt, name, attr[i + 1]);
} else if (!strcmp(attr[i], "ref")) {
ref = (void *)strtoul(attr[i + 1], NULL, 0);
ref = internalize_ident(mt, name, attr[i + 1]);
} else
printf("%*.*s[%s = %s]\n",
mt->level + 1, mt->level + 1, "",
@ -317,11 +363,16 @@ CharData(void *userData , const XML_Char *s , int len)
struct gident *
geom_lookupid(struct gmesh *gmp, const void *id)
{
struct gident *gip;
unsigned i;
for (gip = gmp->lg_ident; gip->lg_id != NULL; gip++)
if (gip->lg_id == id)
return (gip);
if (gmp->lg_ident == NULL)
return (NULL);
for (i = 0; gmp->lg_ident[i].lg_id != NULL; i++) {
if (i + 1 != (unsigned)(uintptr_t)id)
continue;
return (&gmp->lg_ident[i]);
}
return (NULL);
}
@ -334,6 +385,7 @@ geom_xml2tree(struct gmesh *gmp, char *p)
struct ggeom *ge;
struct gprovider *pr;
struct gconsumer *co;
struct gident *gip;
int i;
memset(gmp, 0, sizeof *gmp);
@ -356,33 +408,30 @@ geom_xml2tree(struct gmesh *gmp, char *p)
free(mt);
return (-1);
}
gmp->lg_ident = calloc(sizeof *gmp->lg_ident, mt->nident + 1);
free(mt);
if (gmp->lg_ident == NULL)
if (gmp->lg_ident == NULL && mt->nident != 0) {
free(mt);
return (ENOMEM);
i = 0;
}
free(mt);
/* Collect all identifiers */
LIST_FOREACH(cl, &gmp->lg_class, lg_class) {
gmp->lg_ident[i].lg_id = cl->lg_id;
gmp->lg_ident[i].lg_ptr = cl;
gmp->lg_ident[i].lg_what = ISCLASS;
i++;
gip = geom_lookupid(gmp, cl->lg_id);
gip->lg_ptr = cl;
gip->lg_what = ISCLASS;
LIST_FOREACH(ge, &cl->lg_geom, lg_geom) {
gmp->lg_ident[i].lg_id = ge->lg_id;
gmp->lg_ident[i].lg_ptr = ge;
gmp->lg_ident[i].lg_what = ISGEOM;
i++;
gip = geom_lookupid(gmp, ge->lg_id);
gip->lg_ptr = ge;
gip->lg_what = ISGEOM;
LIST_FOREACH(pr, &ge->lg_provider, lg_provider) {
gmp->lg_ident[i].lg_id = pr->lg_id;
gmp->lg_ident[i].lg_ptr = pr;
gmp->lg_ident[i].lg_what = ISPROVIDER;
i++;
gip = geom_lookupid(gmp, pr->lg_id);
gip->lg_ptr = pr;
gip->lg_what = ISPROVIDER;
}
LIST_FOREACH(co, &ge->lg_consumer, lg_consumer) {
gmp->lg_ident[i].lg_id = co->lg_id;
gmp->lg_ident[i].lg_ptr = co;
gmp->lg_ident[i].lg_what = ISCONSUMER;
i++;
gip = geom_lookupid(gmp, co->lg_id);
gip->lg_ptr = co;
gip->lg_what = ISCONSUMER;
}
}
}
@ -449,7 +498,10 @@ geom_deletetree(struct gmesh *gmp)
struct ggeom *ge;
struct gprovider *pr;
struct gconsumer *co;
unsigned i;
for (i = 0; gmp->lg_ident[i].lg_id != NULL; i++)
free(gmp->lg_ident[i].lg_id);
free(gmp->lg_ident);
gmp->lg_ident = NULL;
for (;;) {

3
lib/libgeom/libgeom.h
View File

@ -71,7 +71,8 @@ struct gident {
enum { ISCLASS,
ISGEOM,
ISPROVIDER,
ISCONSUMER } lg_what;
ISCONSUMER,
ISUNRESOLVED } lg_what;
};
struct gmesh {