2014-01-08 08:47:56 +08:00
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#include "test/jemalloc_test.h"
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#ifdef JEMALLOC_FILL
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const char *malloc_conf =
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"abort:false,junk:true,zero:false,redzone:true,quarantine:0";
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#endif
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static arena_dalloc_junk_small_t *arena_dalloc_junk_small_orig;
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static arena_dalloc_junk_large_t *arena_dalloc_junk_large_orig;
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static huge_dalloc_junk_t *huge_dalloc_junk_orig;
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static void *most_recently_junked;
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static void
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arena_dalloc_junk_small_intercept(void *ptr, arena_bin_info_t *bin_info)
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{
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size_t i;
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arena_dalloc_junk_small_orig(ptr, bin_info);
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for (i = 0; i < bin_info->reg_size; i++) {
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assert_c_eq(((char *)ptr)[i], 0x5a,
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"Missing junk fill for byte %zu/%zu of deallocated region",
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i, bin_info->reg_size);
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}
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most_recently_junked = ptr;
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}
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static void
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arena_dalloc_junk_large_intercept(void *ptr, size_t usize)
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{
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size_t i;
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arena_dalloc_junk_large_orig(ptr, usize);
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for (i = 0; i < usize; i++) {
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assert_c_eq(((char *)ptr)[i], 0x5a,
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"Missing junk fill for byte %zu/%zu of deallocated region",
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i, usize);
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}
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most_recently_junked = ptr;
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}
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static void
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huge_dalloc_junk_intercept(void *ptr, size_t usize)
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{
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huge_dalloc_junk_orig(ptr, usize);
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/*
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* The conditions under which junk filling actually occurs are nuanced
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* enough that it doesn't make sense to duplicate the decision logic in
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* test code, so don't actually check that the region is junk-filled.
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*/
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most_recently_junked = ptr;
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}
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static void
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test_junk(size_t sz_min, size_t sz_max)
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{
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char *s;
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size_t sz_prev, sz, i;
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arena_dalloc_junk_small_orig = arena_dalloc_junk_small;
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arena_dalloc_junk_small = arena_dalloc_junk_small_intercept;
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arena_dalloc_junk_large_orig = arena_dalloc_junk_large;
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arena_dalloc_junk_large = arena_dalloc_junk_large_intercept;
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huge_dalloc_junk_orig = huge_dalloc_junk;
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huge_dalloc_junk = huge_dalloc_junk_intercept;
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sz_prev = 0;
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s = (char *)mallocx(sz_min, 0);
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assert_ptr_not_null((void *)s, "Unexpected mallocx() failure");
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for (sz = sallocx(s, 0); sz <= sz_max;
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sz_prev = sz, sz = sallocx(s, 0)) {
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if (sz_prev > 0) {
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assert_c_eq(s[0], 'a',
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"Previously allocated byte %zu/%zu is corrupted",
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2014-03-31 02:21:09 +08:00
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ZU(0), sz_prev);
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2014-01-08 08:47:56 +08:00
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assert_c_eq(s[sz_prev-1], 'a',
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"Previously allocated byte %zu/%zu is corrupted",
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sz_prev-1, sz_prev);
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}
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for (i = sz_prev; i < sz; i++) {
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assert_c_eq(s[i], 0xa5,
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"Newly allocated byte %zu/%zu isn't junk-filled",
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i, sz);
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s[i] = 'a';
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}
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if (xallocx(s, sz+1, 0, 0) == sz) {
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void *junked = (void *)s;
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s = (char *)rallocx(s, sz+1, 0);
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assert_ptr_not_null((void *)s,
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"Unexpected rallocx() failure");
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2014-02-26 03:58:50 +08:00
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if (!config_mremap || sz+1 <= arena_maxclass) {
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assert_ptr_eq(most_recently_junked, junked,
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"Expected region of size %zu to be "
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"junk-filled",
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sz);
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}
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2014-01-08 08:47:56 +08:00
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}
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}
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dallocx(s, 0);
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assert_ptr_eq(most_recently_junked, (void *)s,
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"Expected region of size %zu to be junk-filled", sz);
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arena_dalloc_junk_small = arena_dalloc_junk_small_orig;
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arena_dalloc_junk_large = arena_dalloc_junk_large_orig;
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huge_dalloc_junk = huge_dalloc_junk_orig;
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}
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TEST_BEGIN(test_junk_small)
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{
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test_skip_if(!config_fill);
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test_junk(1, SMALL_MAXCLASS-1);
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}
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TEST_END
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TEST_BEGIN(test_junk_large)
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{
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test_skip_if(!config_fill);
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test_junk(SMALL_MAXCLASS+1, arena_maxclass);
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}
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TEST_END
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TEST_BEGIN(test_junk_huge)
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{
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test_skip_if(!config_fill);
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test_junk(arena_maxclass+1, chunksize*2);
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}
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TEST_END
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arena_ralloc_junk_large_t *arena_ralloc_junk_large_orig;
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static void *most_recently_trimmed;
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static void
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arena_ralloc_junk_large_intercept(void *ptr, size_t old_usize, size_t usize)
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{
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arena_ralloc_junk_large_orig(ptr, old_usize, usize);
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assert_zu_eq(old_usize, arena_maxclass, "Unexpected old_usize");
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assert_zu_eq(usize, arena_maxclass-PAGE, "Unexpected usize");
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most_recently_trimmed = ptr;
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}
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TEST_BEGIN(test_junk_large_ralloc_shrink)
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{
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void *p1, *p2;
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p1 = mallocx(arena_maxclass, 0);
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assert_ptr_not_null(p1, "Unexpected mallocx() failure");
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arena_ralloc_junk_large_orig = arena_ralloc_junk_large;
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arena_ralloc_junk_large = arena_ralloc_junk_large_intercept;
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p2 = rallocx(p1, arena_maxclass-PAGE, 0);
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assert_ptr_eq(p1, p2, "Unexpected move during shrink");
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arena_ralloc_junk_large = arena_ralloc_junk_large_orig;
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assert_ptr_eq(most_recently_trimmed, p1,
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"Expected trimmed portion of region to be junk-filled");
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}
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TEST_END
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static bool detected_redzone_corruption;
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static void
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arena_redzone_corruption_replacement(void *ptr, size_t usize, bool after,
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size_t offset, uint8_t byte)
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{
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detected_redzone_corruption = true;
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}
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TEST_BEGIN(test_junk_redzone)
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{
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char *s;
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arena_redzone_corruption_t *arena_redzone_corruption_orig;
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test_skip_if(!config_fill);
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arena_redzone_corruption_orig = arena_redzone_corruption;
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arena_redzone_corruption = arena_redzone_corruption_replacement;
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/* Test underflow. */
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detected_redzone_corruption = false;
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s = (char *)mallocx(1, 0);
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assert_ptr_not_null((void *)s, "Unexpected mallocx() failure");
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s[-1] = 0xbb;
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dallocx(s, 0);
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assert_true(detected_redzone_corruption,
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"Did not detect redzone corruption");
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/* Test overflow. */
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detected_redzone_corruption = false;
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s = (char *)mallocx(1, 0);
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assert_ptr_not_null((void *)s, "Unexpected mallocx() failure");
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s[sallocx(s, 0)] = 0xbb;
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dallocx(s, 0);
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assert_true(detected_redzone_corruption,
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"Did not detect redzone corruption");
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arena_redzone_corruption = arena_redzone_corruption_orig;
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}
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TEST_END
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int
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main(void)
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{
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return (test(
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test_junk_small,
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test_junk_large,
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test_junk_huge,
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test_junk_large_ralloc_shrink,
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test_junk_redzone));
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}
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