6aae6898e7
git-svn-id: svn+ssh://svn.corp.yahoo.com/yahoo/yrl/labs/pnuts/code/logstore@3284 8dad8b1f-cf64-0410-95b6-bcf113ffbcfe
431 lines
14 KiB
C++
431 lines
14 KiB
C++
/*
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* lsm_microbenchmarks.cpp
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*
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* Created on: Aug 22, 2011
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* Author: sears
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*/
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#include <stasis/common.h>
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#include <stasis/util/time.h>
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#include <stdio.h>
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#include <logserver.h>
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#include <regionAllocator.h>
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BEGIN_C_DECLS
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int main(int argc, char * argv[]);
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END_C_DECLS
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enum run_type {
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ALL = 0
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};
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int main (int argc, char * argv[]) {
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double MB = 1024 * 1024;
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uint64_t mb = 20000; // size of run, in megabytes.
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enum run_type mode = ALL;
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const uint64_t num_pages = mb * (MB / PAGE_SIZE);
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stasis_buffer_manager_size = (512 * MB) / PAGE_SIZE;
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// stasis_buffer_manager_hint_writes_are_sequential = 1;
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// stasis_dirty_page_table_flush_quantum = (8 * MB) / PAGE_SIZE; // XXX if set to high-> segfault
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// stasis_dirty_page_count_hard_limit = (16 * MB) / PAGE_SIZE;
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// stasis_dirty_page_count_soft_limit = (10 * MB) / PAGE_SIZE;
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// stasis_dirty_page_low_water_mark = (8 * MB) / PAGE_SIZE;
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// Hard disk preferred.
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/* stasis_dirty_page_table_flush_quantum = (4 * MB) / PAGE_SIZE; // XXX if set to high-> segfault
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stasis_dirty_page_count_hard_limit = (12 * MB) / PAGE_SIZE;
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stasis_dirty_page_count_soft_limit = (8 * MB) / PAGE_SIZE;
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stasis_dirty_page_low_water_mark = (4 * MB) / PAGE_SIZE;*/
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// SSD preferred.
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stasis_dirty_page_table_flush_quantum = (4 * MB) / PAGE_SIZE; // XXX if set to high-> segfault
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stasis_dirty_page_count_hard_limit = (40 * MB) / PAGE_SIZE;
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stasis_dirty_page_count_soft_limit = (32 * MB) / PAGE_SIZE;
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stasis_dirty_page_low_water_mark = (16 * MB) / PAGE_SIZE;
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stasis_dirty_page_table_flush_quantum = (4 * MB) / PAGE_SIZE; // XXX if set to high-> segfault
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stasis_dirty_page_count_hard_limit = (48 * MB) / PAGE_SIZE;
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stasis_dirty_page_count_soft_limit = (40 * MB) / PAGE_SIZE;
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stasis_dirty_page_low_water_mark = (32 * MB) / PAGE_SIZE;
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printf("stasis_buffer_manager_size=%lld\n", (long long)stasis_buffer_manager_size * PAGE_SIZE);
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printf("Hard limit=%lld\n", (long long)((stasis_dirty_page_count_hard_limit*PAGE_SIZE)/MB));
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printf("Hard limit is %f pct.\n", 100.0 * ((double)stasis_dirty_page_count_hard_limit)/((double)stasis_buffer_manager_size));
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logtable::init_stasis();
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RegionAllocator * readableAlloc = NULL;
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if(!mode) {
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int xid = Tbegin();
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RegionAllocator * alloc = new RegionAllocator(xid, num_pages);
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printf("Starting first write of %lld mb\n", (long long)mb);
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struct timeval start, start_sync, stop; double elapsed;
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gettimeofday(&start, 0);
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pageid_t extent = alloc->alloc_extent(xid, num_pages);
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for(uint64_t i = 0; i < num_pages; i++) {
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Page * p = loadUninitializedPage(xid, i+extent);
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stasis_dirty_page_table_set_dirty((stasis_dirty_page_table_t*)stasis_runtime_dirty_page_table(), p);
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releasePage(p);
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}
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gettimeofday(&start_sync,0);
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alloc->force_regions(xid);
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readableAlloc = alloc;
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Tcommit(xid);
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// alloc = new RegionAllocator(xid, num_pages);
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gettimeofday(&stop, 0);
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elapsed = stasis_timeval_to_double(stasis_subtract_timeval(stop, start));
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printf("Write took %f seconds (%f mb/sec)\n", elapsed, ((double)mb)/elapsed);
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printf("Sync took %f seconds.\n", stasis_timeval_to_double(stasis_subtract_timeval(stop, start_sync)));
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}
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if(!mode) {
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int xid = Tbegin();
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RegionAllocator * alloc = new RegionAllocator(xid, num_pages);
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printf("Starting write with parallel read of %lld mb\n", (long long)mb);
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struct timeval start, start_sync, stop; double elapsed;
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gettimeofday(&start, 0);
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pageid_t region_length;
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pageid_t region_count;
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pageid_t * old_extents = readableAlloc->list_regions(xid, ®ion_length, ®ion_count);
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pageid_t extent = alloc->alloc_extent(xid, num_pages);
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assert(region_count == 1);
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for(uint64_t i = 0; i < num_pages/2; i++) {
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Page * p = loadUninitializedPage(xid, i+extent);
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stasis_dirty_page_table_set_dirty((stasis_dirty_page_table_t*)stasis_runtime_dirty_page_table(), p);
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releasePage(p);
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p = loadPage(xid, i+old_extents[0]);
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releasePage(p);
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}
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gettimeofday(&start_sync,0);
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alloc->force_regions(xid);
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delete alloc;
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Tcommit(xid);
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// alloc = new RegionAllocator(xid, num_pages);
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gettimeofday(&stop, 0);
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elapsed = stasis_timeval_to_double(stasis_subtract_timeval(stop, start));
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printf("Write took %f seconds (%f mb/sec)\n", elapsed, ((double)mb)/elapsed);
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printf("Sync took %f seconds.\n", stasis_timeval_to_double(stasis_subtract_timeval(stop, start_sync)));
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}
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if(!mode) {
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int xid = Tbegin();
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struct timeval start, start_sync, stop; double elapsed;
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printf("Starting write of giant datapage\n");
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gettimeofday(&start, 0);
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RegionAllocator * alloc = new RegionAllocator(xid, num_pages);
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DataPage * dp = new DataPage(xid, num_pages-1, alloc);
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byte * key = (byte*)calloc(100, 1);
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byte * val = (byte*)calloc(900, 1);
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datatuple * tup = datatuple::create(key, 100, val, 900);
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free(key);
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free(val);
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while(1) {
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if(!dp->append(tup)) {
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break;
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}
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}
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gettimeofday(&start_sync,0);
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alloc->force_regions(xid);
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gettimeofday(&stop, 0);
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Tcommit(xid);
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elapsed = stasis_timeval_to_double(stasis_subtract_timeval(stop, start));
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printf("Write took %f seconds (%f mb/sec)\n", elapsed, ((double)mb)/elapsed);
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printf("Sync took %f seconds.\n", stasis_timeval_to_double(stasis_subtract_timeval(stop, start_sync)));
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}
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if(!mode) {
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int xid = Tbegin();
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struct timeval start, start_sync, stop; double elapsed;
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printf("Starting write of many small datapages\n");
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gettimeofday(&start, 0);
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RegionAllocator * alloc = new RegionAllocator(xid, num_pages);
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byte * key = (byte*)calloc(100, 1);
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byte * val = (byte*)calloc(900, 1);
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datatuple * tup = datatuple::create(key, 100, val, 900);
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free(key);
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free(val);
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DataPage * dp = 0;
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uint64_t this_count = 0;
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uint64_t count = 0;
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uint64_t dp_count = 0;
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while((count * 1000) < (mb * 1024*1024)) {
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if((!dp) || !dp->append(tup)) {
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dp = new DataPage(xid, 2, alloc);
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dp_count++;
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}
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count++;
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this_count++;
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// if(((this_count * 1000) > (1024 * 1024 * 16))) {
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// alloc->force_regions(xid);
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// this_count = 0;
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// gettimeofday(&stop, 0);
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// elapsed = stasis_timeval_to_double(stasis_subtract_timeval(stop, start));
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// printf("Write took %f seconds (%f mb/sec)\n", elapsed, ((double)(count*1000))/(1024*1024*elapsed));
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// }
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}
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gettimeofday(&start_sync,0);
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alloc->force_regions(xid);
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gettimeofday(&stop, 0);
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Tcommit(xid);
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elapsed = stasis_timeval_to_double(stasis_subtract_timeval(stop, start));
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printf("Write took %f seconds (%f mb/sec)\n", elapsed, ((double)(count*1000))/(elapsed*1024*1024));
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printf("Sync took %f seconds.\n", stasis_timeval_to_double(stasis_subtract_timeval(stop, start_sync)));
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}
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if(!mode) {
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int xid = Tbegin();
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struct timeval start, start_sync, stop; double elapsed;
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printf("Starting two parallel writes of many small datapages\n");
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gettimeofday(&start, 0);
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RegionAllocator * alloc = new RegionAllocator(xid, num_pages/2);
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RegionAllocator * alloc2 = new RegionAllocator(xid, num_pages/2);
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byte * key = (byte*)calloc(100, 1);
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byte * val = (byte*)calloc(900, 1);
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datatuple * tup = datatuple::create(key, 100, val, 900);
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free(key);
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free(val);
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DataPage * dp = 0;
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DataPage * dp2 = 0;
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uint64_t this_count = 0;
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uint64_t count = 0;
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uint64_t dp_count = 0;
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while((count * 1000) < (mb * 1024*1024)) {
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if((!dp) || !dp->append(tup)) {
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dp = new DataPage(xid, 2, alloc);
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dp_count++;
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}
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if((!dp2) || !dp2->append(tup)) {
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dp2 = new DataPage(xid, 2, alloc2);
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//dp_count++;
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}
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count += 2;
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this_count++;
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// if(((this_count * 1000) > (1024 * 1024 * 16))) {
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// alloc->force_regions(xid);
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// this_count = 0;
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// gettimeofday(&stop, 0);
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// elapsed = stasis_timeval_to_double(stasis_subtract_timeval(stop, start));
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// printf("Write took %f seconds (%f mb/sec)\n", elapsed, ((double)(count*1000))/(1024*1024*elapsed));
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// }
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}
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gettimeofday(&start_sync,0);
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alloc->force_regions(xid);
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alloc2->force_regions(xid);
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gettimeofday(&stop, 0);
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Tcommit(xid);
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elapsed = stasis_timeval_to_double(stasis_subtract_timeval(stop, start));
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printf("Write took %f seconds (%f mb/sec)\n", elapsed, ((double)(count*1000))/(elapsed*1024*1024));
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printf("Sync took %f seconds.\n", stasis_timeval_to_double(stasis_subtract_timeval(stop, start_sync)));
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}
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RegionAllocator * read_alloc = NULL;
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RegionAllocator * read_alloc2 = NULL;
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RegionAllocator * read_alloc3 = NULL;
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RegionAllocator * read_alloc4 = NULL;
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if(!mode) {
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int xid = Tbegin();
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struct timeval start, start_sync, stop; double elapsed;
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printf("Starting four parallel writes of many small datapages\n");
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gettimeofday(&start, 0);
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RegionAllocator * alloc = new RegionAllocator(xid, num_pages/4);
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RegionAllocator * alloc2 = new RegionAllocator(xid, num_pages/4);
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RegionAllocator * alloc3 = new RegionAllocator(xid, num_pages/4);
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RegionAllocator * alloc4 = new RegionAllocator(xid, num_pages/4);
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byte * key = (byte*)calloc(100, 1);
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byte * val = (byte*)calloc(900, 1);
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datatuple * tup = datatuple::create(key, 100, val, 900);
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free(key);
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free(val);
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DataPage * dp = 0;
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DataPage * dp2 = 0;
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DataPage * dp3 = 0;
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DataPage * dp4 = 0;
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uint64_t this_count = 0;
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uint64_t count = 0;
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uint64_t dp_count = 0;
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while((count * 1000) < (mb * 1024*1024)) {
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if((!dp) || !dp->append(tup)) {
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dp = new DataPage(xid, 2, alloc);
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dp_count++;
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}
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if((!dp2) || !dp2->append(tup)) {
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dp2 = new DataPage(xid, 2, alloc2);
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//dp_count++;
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}
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if((!dp3) || !dp3->append(tup)) {
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dp3 = new DataPage(xid, 2, alloc3);
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//dp_count++;
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}
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if((!dp4) || !dp4->append(tup)) {
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dp4 = new DataPage(xid, 2, alloc4);
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//dp_count++;
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}
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count += 4;
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this_count++;
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// if(((this_count * 1000) > (1024 * 1024 * 16))) {
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// alloc->force_regions(xid);
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// this_count = 0;
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// gettimeofday(&stop, 0);
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// elapsed = stasis_timeval_to_double(stasis_subtract_timeval(stop, start));
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// printf("Write took %f seconds (%f mb/sec)\n", elapsed, ((double)(count*1000))/(1024*1024*elapsed));
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// }
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}
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gettimeofday(&start_sync,0);
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alloc->force_regions(xid);
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alloc2->force_regions(xid);
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alloc3->force_regions(xid);
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alloc4->force_regions(xid);
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gettimeofday(&stop, 0);
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Tcommit(xid);
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elapsed = stasis_timeval_to_double(stasis_subtract_timeval(stop, start));
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printf("Write took %f seconds (%f mb/sec)\n", elapsed, ((double)(count*1000))/(elapsed*1024*1024));
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printf("Sync took %f seconds.\n", stasis_timeval_to_double(stasis_subtract_timeval(stop, start_sync)));
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read_alloc = alloc;
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read_alloc2 = alloc2;
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read_alloc3 = alloc3;
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read_alloc4 = alloc4;
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}
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if(!mode) {
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int xid = Tbegin();
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struct timeval start, start_sync, stop; double elapsed;
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printf("Starting four parallel writes of many small datapages\n");
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gettimeofday(&start, 0);
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RegionAllocator * alloc = new RegionAllocator(xid, num_pages/4);
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RegionAllocator * alloc2 = new RegionAllocator(xid, num_pages/4);
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RegionAllocator * alloc3 = new RegionAllocator(xid, num_pages/4);
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RegionAllocator * alloc4 = new RegionAllocator(xid, num_pages/4);
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byte * key = (byte*)calloc(100, 1);
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byte * val = (byte*)calloc(900, 1);
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datatuple * tup = datatuple::create(key, 100, val, 900);
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free(key);
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free(val);
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DataPage * dp = 0;
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DataPage * dp2 = 0;
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DataPage * dp3 = 0;
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DataPage * dp4 = 0;
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uint64_t this_count = 0;
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uint64_t count = 0;
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uint64_t dp_count = 0;
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pageid_t n1, n2, n3, n4;
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pageid_t l1, l2, l3, l4;
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pageid_t * regions1, * regions2, * regions3, * regions4;
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regions1 = read_alloc->list_regions(xid, &l1, &n1);
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regions2 = read_alloc2->list_regions(xid, &l2, &n2);
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regions3 = read_alloc3->list_regions(xid, &l3, &n3);
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regions4 = read_alloc4->list_regions(xid, &l4, &n4);
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pageid_t i1 = regions1[0];
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pageid_t i2 = regions2[0];
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pageid_t i3 = regions3[0];
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pageid_t i4 = regions4[0];
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DataPage * rdp = new DataPage(xid, 0, i1);
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DataPage * rdp2 = new DataPage(xid, 0, i2);
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DataPage * rdp3 = new DataPage(xid, 0, i3);
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DataPage * rdp4 = new DataPage(xid, 0, i4);
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DataPage::iterator it1 = rdp->begin();
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DataPage::iterator it2 = rdp2->begin();
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DataPage::iterator it3 = rdp3->begin();
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DataPage::iterator it4 = rdp4->begin();
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while((count * 1000) < (mb * 1024*1024)) {
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if((!dp) || !dp->append(tup)) {
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dp = new DataPage(xid, 2, alloc);
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dp_count++;
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}
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if((!dp2) || !dp2->append(tup)) {
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dp2 = new DataPage(xid, 2, alloc2);
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//dp_count++;
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}
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if((!dp3) || !dp3->append(tup)) {
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dp3 = new DataPage(xid, 2, alloc3);
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//dp_count++;
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}
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if((!dp4) || !dp4->append(tup)) {
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dp4 = new DataPage(xid, 2, alloc4);
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//dp_count++;
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}
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datatuple * t;
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if((!rdp) || !(t = it1.getnext())) {
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i1+= rdp->get_page_count();
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if(rdp) delete rdp;
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rdp = new DataPage(xid, 0, i1);
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// i1++;
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it1 = rdp->begin();
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t = it1.getnext();
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}
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if(t) datatuple::freetuple(t);
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if((!rdp2) || !(t = it2.getnext())) {
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i2+= rdp2->get_page_count();
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if(rdp2) delete rdp2;
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rdp2 = new DataPage(xid, 0, i2);
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// i2++;
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it2 = rdp2->begin();
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t = it2.getnext();
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}
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if(t) datatuple::freetuple(t);
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if((!rdp3) || !(t = it3.getnext())) {
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i3+= rdp3->get_page_count();
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if(rdp3) delete rdp3;
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rdp3 = new DataPage(xid, 0, i3);
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// i3++;
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it3 = rdp3->begin();
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t = it3.getnext();
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}
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if(t) datatuple::freetuple(t);
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if((!rdp4) || !(t = it4.getnext())) {
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i4+= rdp4->get_page_count();
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if(rdp4) delete rdp4;
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rdp4 = new DataPage(xid, 0, i4);
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// i4++;
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it4 = rdp4->begin();
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t = it4.getnext();
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}
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if(t) datatuple::freetuple(t);
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count += 8;
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this_count++;
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// if(((this_count * 1000) > (1024 * 1024 * 16))) {
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// alloc->force_regions(xid);
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// this_count = 0;
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// gettimeofday(&stop, 0);
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// elapsed = stasis_timeval_to_double(stasis_subtract_timeval(stop, start));
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// printf("Write took %f seconds (%f mb/sec)\n", elapsed, ((double)(count*1000))/(1024*1024*elapsed));
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// }
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}
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gettimeofday(&start_sync,0);
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alloc->force_regions(xid);
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alloc2->force_regions(xid);
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alloc3->force_regions(xid);
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alloc4->force_regions(xid);
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gettimeofday(&stop, 0);
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Tcommit(xid);
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elapsed = stasis_timeval_to_double(stasis_subtract_timeval(stop, start));
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printf("Write took %f seconds (%f mb/sec)\n", elapsed, ((double)(count*1000))/(elapsed*1024*1024));
|
|
printf("Sync took %f seconds.\n", stasis_timeval_to_double(stasis_subtract_timeval(stop, start_sync)));
|
|
read_alloc = alloc;
|
|
read_alloc2 = alloc2;
|
|
read_alloc3 = alloc3;
|
|
read_alloc4 = alloc4;
|
|
|
|
}
|
|
|
|
|
|
logtable::deinit_stasis();
|
|
}
|