/* * Copyright (c) 2018 Cisco and/or its affiliates. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include u32 vl (void *p) { return vec_len (p); } /* * GDB callable function: pe - call pool_elts - number of elements in a pool */ uword pe (void *v) { return (pool_elts (v)); } typedef struct { u32 seed; uword baseva; uword size; uword *basevas; u8 *item_in_table; u32 nitems; u32 niter; u32 item_size; int check_every_add_del; clib_valloc_main_t valloc_main; int verbose; } test_main_t; test_main_t test_main; clib_error_t * test_valloc (test_main_t * tm) { clib_valloc_chunk_t _ip, *ip = &_ip; uword baseva; uword *p; int i, j, index; u32 currently_in_table; u32 found; ip->baseva = 0x20000000; ip->size = 1024; clib_valloc_init (&tm->valloc_main, ip, 1 /* lock */ ); ip->baseva = 0x20000000 + 1024; ip->size = 1024 * 1024 * 1024 - 1024; clib_valloc_add_chunk (&tm->valloc_main, ip); fformat (stdout, "Allocate %d items...\n", tm->nitems); for (i = 0; i < tm->nitems; i++) { baseva = clib_valloc_alloc (&tm->valloc_main, 1024, 1 /* fail:os_out_of_memory */ ); vec_add1 (tm->basevas, baseva); vec_add1 (tm->item_in_table, 1); } fformat (stdout, "Perform %d random add/delete operations...\n", tm->niter); for (i = 0; i < tm->niter; i++) { index = random_u32 (&tm->seed) % tm->nitems; /* Swap state of random entry */ if (tm->item_in_table[index]) { if (0) fformat (stdout, "free [%d] %llx\n", index, tm->basevas[index]); clib_valloc_free (&tm->valloc_main, tm->basevas[index]); tm->item_in_table[index] = 0; tm->basevas[index] = ~0; } else { baseva = clib_valloc_alloc (&tm->valloc_main, 1024, 1 /* fail:os_out_of_memory */ ); tm->basevas[index] = baseva; tm->item_in_table[index] = 1; if (0) fformat (stdout, "alloc [%d] %llx\n", index, tm->basevas[index]); } /* Check our work... */ if (tm->check_every_add_del) { for (j = 0; j < tm->nitems; j++) { if (tm->item_in_table[j]) { p = hash_get ((&tm->valloc_main)->chunk_index_by_baseva, tm->basevas[j]); if (p) { ip = pool_elt_at_index ((&tm->valloc_main)->chunks, p[0]); ASSERT (ip->baseva == tm->basevas[j]); ASSERT (ip->flags & CLIB_VALLOC_BUSY); } } else { p = hash_get ((&tm->valloc_main)->chunk_index_by_baseva, tm->basevas[j]); /* Have to check, it's OK for the block to have been fused */ if (p) { ip = pool_elt_at_index ((&tm->valloc_main)->chunks, p[0]); if ((ip->flags & CLIB_VALLOC_BUSY)) { fformat (stdout, "BUG: baseva %llx chunk %d busy\n", tm->basevas[j], p[0]); fformat (stdout, "%U\n", format_valloc, &tm->valloc_main, 1 /* verbose */ ); ASSERT ((ip->flags & CLIB_VALLOC_BUSY) == 0); } } } } } } currently_in_table = 0; for (i = 0; i < tm->nitems; i++) { currently_in_table += tm->item_in_table[i]; } fformat (stdout, "Check that %d items in table can be found...\n", currently_in_table); found = 0; for (i = 0; i < tm->nitems; i++) { if (tm->item_in_table[i]) { p = hash_get ((&tm->valloc_main)->chunk_index_by_baseva, tm->basevas[i]); if (p) { ip = pool_elt_at_index ((&tm->valloc_main)->chunks, p[0]); ASSERT (ip->baseva == tm->basevas[i]); ASSERT (ip->flags & CLIB_VALLOC_BUSY); } found++; } else { p = hash_get ((&tm->valloc_main)->chunk_index_by_baseva, tm->basevas[i]); /* Have to check, it's OK for the block to have been fused */ if (p) { ip = pool_elt_at_index ((&tm->valloc_main)->chunks, p[0]); if ((ip->flags & CLIB_VALLOC_BUSY)) { fformat (stdout, "BUG: baseva %llx chunk %d busy\n", tm->basevas[i], p[0]); fformat (stdout, "%U\n", format_valloc, &tm->valloc_main, 1 /* verbose */ ); ASSERT ((ip->flags & CLIB_VALLOC_BUSY) == 0); } } } } fformat (stdout, "Found %d items in table...\n", found); for (i = 0; i < tm->nitems; i++) { if (tm->item_in_table[i]) clib_valloc_free (&tm->valloc_main, tm->basevas[i]); } fformat (stdout, "%U", format_valloc, &tm->valloc_main, 1 /* verbose */ ); return 0; } clib_error_t * test_valloc_main (unformat_input_t * i) { test_main_t *tm = &test_main; clib_error_t *error; tm->seed = 0xdeaddabe; tm->nitems = 5; tm->niter = 100; tm->item_size = 1024; while (unformat_check_input (i) != UNFORMAT_END_OF_INPUT) { if (unformat (i, "seed %u", &tm->seed)) ; else if (unformat (i, "nitems %u", &tm->nitems)) ; else if (unformat (i, "niter %u", &tm->niter)) ; else if (unformat (i, "item-size %u", &tm->item_size)) ; else if (unformat (i, "check-every-add-del")) tm->check_every_add_del = 1; else if (unformat (i, "verbose %d", &tm->verbose)) ; else if (unformat (i, "verbose")) tm->verbose = 1; else return clib_error_return (0, "unknown input '%U'", format_unformat_error, i); } error = test_valloc (tm); return error; } #ifdef CLIB_UNIX int main (int argc, char *argv[]) { unformat_input_t i; int rv = 0; clib_error_t *error; clib_mem_init (0, 3ULL << 30); unformat_init_command_line (&i, argv); error = test_valloc_main (&i); if (error) { clib_error_report (error); rv = 1; } unformat_free (&i); return rv; } #endif /* CLIB_UNIX */ /* * fd.io coding-style-patch-verification: ON * * Local Variables: * eval: (c-set-style "gnu") * End: */