kumquat-buildroot/package/mpatrol/mpatrol-unwindcache.patch

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2006-12-12 23:18:15 +01:00
Patch to improve MIPS call stack unwind performance by caching the results
of code reading.
by Dan Howell <dahowell@directv.com>
diff -urN mpatrol-uclibc/src/stack.c mpatrol-unwindcache/src/stack.c
--- mpatrol-uclibc/src/stack.c 2006-06-22 15:39:04.000000000 -0700
+++ mpatrol-unwindcache/src/stack.c 2006-06-22 15:42:20.000000000 -0700
@@ -68,6 +68,7 @@
#define ucontext asm_ucontext
#include <asm/ucontext.h>
#undef ucontext
+#include "heap.h"
#endif /* ARCH */
#endif /* SYSTEM */
#endif /* TARGET */
@@ -280,6 +281,136 @@
#if !MP_BUILTINSTACK_SUPPORT && !MP_LIBRARYSTACK_SUPPORT
#if TARGET == TARGET_UNIX && ARCH == ARCH_MIPS
+/* Set up a tree to cache the results of code searching to determine the
+ location of the return address for each code point encountered. */
+
+/* An unwind node belongs to a binary search tree of nodes, ordered by
+ * code address, and contains call stack unwinding details for a given
+ * code address. An internal index node stores details of a single memory
+ * block allocated for unwind node slots.
+ */
+typedef union unwindnode
+{
+ struct
+ {
+ treenode node; /* internal tree node */
+ void *block; /* pointer to block of memory */
+ size_t size; /* size of block of memory */
+ }
+ index;
+ struct
+ {
+ treenode node; /* tree node */
+ long p; /* return address offset in the stack */
+ long m; /* frame pointer offset in stack */
+ long s; /* stack pointer offset from previous frame */
+ unsigned long a; /* flags */
+ }
+ data;
+}
+unwindnode;
+
+/* An unwindhead holds the table of address node slots as well as the
+ * internal list of memory blocks allocated for address node slots.
+ */
+typedef struct unwindhead
+{
+ heaphead heap; /* pointer to heap */
+ slottable table; /* table of address nodes */
+ treeroot itree; /* internal list of memory blocks */
+ treeroot dtree; /* tree for sorting */
+ size_t size; /* memory used by internal blocks */
+ char init; /* initialization flag */
+}
+unwindhead;
+
+static unwindhead unwindcache;
+
+/* Initialise the fields of an unwindhead so that there are no allocated,
+ * freed or free blocks.
+ */
+
+static
+void
+newunwindcache(void)
+{
+ struct { char x; unwindnode y; } z;
+ long n;
+
+ __mp_newheap(&unwindcache.heap);
+ /* Determine the minimum alignment for an unwind node on this
+ * system and force the alignment to be a power of two. This
+ * information is used when initialising the slot table.
+ */
+ n = (char *) &z.y - &z.x;
+ __mp_newslots(&unwindcache.table, sizeof(unwindnode), __mp_poweroftwo(n));
+ __mp_newtree(&unwindcache.itree);
+ __mp_newtree(&unwindcache.dtree);
+ unwindcache.size = 0;
+ unwindcache.init = 1;
+}
+
+
+/* Forget all unwind information.
+ */
+
+static
+void
+deleteunwindcache(void)
+{
+ /* We don't need to explicitly free any memory as this is dealt with
+ * at a lower level by the heap manager.
+ */
+ __mp_deleteheap(&unwindcache.heap);
+ unwindcache.table.free = NULL;
+ unwindcache.table.size = 0;
+ __mp_newtree(&unwindcache.itree);
+ __mp_newtree(&unwindcache.dtree);
+ unwindcache.size = 0;
+ unwindcache.init = 0;
+}
+
+
+/* Allocate a new unwind node.
+ */
+
+static
+unwindnode *
+getunwindnode(void)
+{
+ unwindnode *n;
+ heapnode *p;
+
+ /* If we have no more allocation node slots left then we must allocate
+ * some more memory for them. An extra MP_ALLOCFACTOR pages of memory
+ * should suffice.
+ */
+ if ((n = (unwindnode *) __mp_getslot(&unwindcache.table)) == NULL)
+ {
+ if ((p = __mp_heapalloc(&unwindcache.heap, unwindcache.heap.memory.page * MP_ALLOCFACTOR,
+ unwindcache.table.entalign, 1)) == NULL)
+ return NULL;
+ __mp_initslots(&unwindcache.table, p->block, p->size);
+ n = (unwindnode *) __mp_getslot(&unwindcache.table);
+ __mp_treeinsert(&unwindcache.itree, &n->index.node, (unsigned long) p->block);
+ n->index.block = p->block;
+ n->index.size = p->size;
+ unwindcache.size += p->size;
+ n = (unwindnode *) __mp_getslot(&unwindcache.table);
+ }
+ return n;
+}
+
+/* Search for the unwind node associated with a given address.
+ */
+static
+unwindnode *
+findunwindnode(unsigned long p)
+{
+ return (unwindnode *) __mp_search(unwindcache.dtree.root, p);
+}
+
+
/* Determine the stack pointer and return address of the previous stack frame
* by performing code reading.
*/
@@ -289,8 +420,9 @@
unwind(frameinfo *f)
{
long p, m, s;
- unsigned long a, i, q, t, b, r;
+ unsigned long a, i, q, t, b, r, k;
unsigned short l, u;
+ unwindnode *n = NULL;
s = -1;
p = m = 0;
@@ -322,7 +454,23 @@
#endif
/* Save initial code-reading starting point.
*/
- r = f->ra;
+ r = k = f->ra;
+ /* Create the cache if not yet created.
+ */
+ if (!unwindcache.init)
+ {
+ newunwindcache();
+ __mp_atexit(deleteunwindcache);
+ }
+ if ((n = findunwindnode(f->ra)) != NULL)
+ {
+ /* We've been here before, so get the cached information.
+ */
+ p = n->data.p;
+ m = n->data.m;
+ s = n->data.s;
+ a = n->data.a;
+ }
/* Search for the return address offset in the stack frame.
*/
while (!((a & RA_OFFSET) && (a & SP_OFFSET)) && (f->ra < q))
@@ -478,6 +626,19 @@
return 1;
}
#endif
+ if (n == NULL)
+ {
+ if ((n = getunwindnode()) != NULL)
+ {
+ /* Cache the information we just got in the tree.
+ */
+ n->data.p = p;
+ n->data.m = m;
+ n->data.s = s;
+ n->data.a = a;
+ __mp_treeinsert(&unwindcache.dtree, &n->data.node, k);
+ }
+ }
if (a & SP_IN_FP)
f->sp = f->fp;
if (m > 0)