stasis-aries-wal/benchmarks/roseTableTpcCH.h
Sears Russell 7660467f8e Refactor page implementation to use multiple include trick (so the backing representation can be changed).
Also, fix apparent bug in stasis_page_fixed_set_record_type().

Otherwise, this change should not make any semantic changes.
2011-11-09 21:37:38 +00:00

586 lines
19 KiB
C++

#include <stdio.h>
#include <stdlib.h>
#include <errno.h>
#include "stasis/transactional.h"
#include "stasis/experimental/lsmTable.h"
#include "stasis/experimental/compression/nop.h"
#include "stasis/experimental/compression/multicolumn-impl.h"
#include "stasis/experimental/compression/staticMulticolumn.h"
#include "stasis/experimental/compression/for-impl.h"
#include "stasis/experimental/compression/rle-impl.h"
#include "stasis/experimental/compression/staticTuple.h"
#include "stasis/experimental/compression/pageLayout.h"
namespace rose {
template<class PAGELAYOUT>
void getTuple(long int i, typename PAGELAYOUT::FMT::TUP & t) {
typename PAGELAYOUT::FMT::TUP::TYP0 m = i;
typename PAGELAYOUT::FMT::TUP::TYP1 j = i / 65536;
typename PAGELAYOUT::FMT::TUP::TYP2 k = i / 12514500;
typename PAGELAYOUT::FMT::TUP::TYP3 l = i / 10000000;
typename PAGELAYOUT::FMT::TUP::TYP4 n = i / 65536;
typename PAGELAYOUT::FMT::TUP::TYP5 o = i / 12514500;
typename PAGELAYOUT::FMT::TUP::TYP6 p = i / 10000000;
typename PAGELAYOUT::FMT::TUP::TYP7 q = i / 65536;
typename PAGELAYOUT::FMT::TUP::TYP8 r = i / 12514500;
typename PAGELAYOUT::FMT::TUP::TYP9 s = i / 10000000;
t.set0(&m);
t.set1(&j);
t.set2(&k);
t.set3(&l);
t.set4(&n);
t.set5(&o);
t.set6(&p);
t.set7(&q);
t.set8(&r);
t.set9(&s);
}
template<class PAGELAYOUT>
int main(int argc, char **argv) {
unlink("storefile.txt");
unlink("logfile.txt");
sync();
// PAGELAYOUT::initPageLayout();
// bufferManagerNonBlockingSlowHandleType = IO_HANDLE_PFILE;
stasis_page_impl_register(lsmRootImpl());
Tinit();
int xid = Tbegin();
recordid lsmTable = TlsmTableAlloc<PAGELAYOUT>(xid);
Tcommit(xid);
lsmTableHandle<PAGELAYOUT>* h = TlsmTableStart<PAGELAYOUT>(lsmTable, XID_COL);
typename PAGELAYOUT::FMT::TUP t;
typename PAGELAYOUT::FMT::TUP s;
long INSERTS = 0;
int file_mode = 0;
char * file = 0;
if(argc == 2) {
INSERTS = atoll(argv[1]);
} else if (argc == 3) {
file_mode = 1;
assert(!strcmp("-f", argv[1]));
file = argv[2];
} else {
INSERTS = 10 * 1000 * 1000;
}
// int column[] = { 0 , 1, 2, 3, 4, 5, 6, 7, 8, 9 };
// 0 1 2 3 4 5 6 7 8 9
// int column[] = { 3 , 4, 1, 11, 0, 5, 6, 9, 10, 14 };
// const int column[] = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 };
const int column[] = {2, 7, 5, 6, 0, 3, 10, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
static long COUNT = INSERTS / 100;
long int count = COUNT;
struct timeval start_tv, now_tv;
double start, now, last_start;
gettimeofday(&start_tv,0);
start = rose::tv_to_double(start_tv);
last_start = start;
epoch_t this_xid = 0;
epoch_t last_ts_col = 0;
printf("tuple 'size'%d ; %lld\n", PAGELAYOUT::FMT::TUP::sizeofBytes(), (long long)sizeof(typename PAGELAYOUT::FMT::TUP));
if(file_mode) {
typename PAGELAYOUT::FMT::TUP scratch;
int max_col_number = 0;
for(int col =0; col < PAGELAYOUT::FMT::TUP::NN; col++) {
max_col_number = max_col_number < column[col]
? column[col] : max_col_number;
}
char ** toks = (char**)malloc(sizeof(char*)*(max_col_number+1));
char * mode;
printf("Reading from file %s\n", file);
int inserts = 0;
size_t line_len = 100;
// getline wants malloced memmory (it probably calls realloc...)
char * line = (char*) malloc(sizeof(char) * line_len);
FILE * input = fopen(file, "r");
if(!input) {
perror("Couldn't open input");
return 1;
}
size_t read_len;
COUNT = 100000;
count = 100000;
struct timeval cannonical_start_tv;
gettimeofday(&cannonical_start_tv,0);
double cannonical_start = tv_to_double(cannonical_start_tv);
while(-1 != (int)(read_len = getline(&line, &line_len, input))) {
int line_tok_count;
{
char * saveptr;
int i;
mode = strtok_r(line, ",\n", &saveptr);
toks[0] = strtok_r(0, ",\n", &saveptr);
for(i = 1; i < (max_col_number+1); i++) {
toks[i] = strtok_r(0, ",\n", &saveptr);
if(!toks[i]) {
break;
}
}
line_tok_count = i;
}
if(line_tok_count < (max_col_number+1)) {
// printf("!");
if(-1 == getline(&line,&line_len,input)) {
// hit eof.
} else {
printf("Not enough tokesn on line %d (found: %d expected: %d\n",
inserts+1, line_tok_count, max_col_number+1);
return 1;
}
} else {
// printf(".");
inserts ++;
if(0 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP0 t = strtoll(toks[column[0]], &endptr, 0);
if(strlen(toks[column[0]]) - (size_t)(endptr-toks[column[0]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[0], toks[column[0]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[0],toks[column[0]]);
perror("strtoll error is");
return 1;
}
scratch.set0(&t);
}
if(1 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP1 t = strtoll(toks[column[1]], &endptr, 0);
if(strlen(toks[column[1]]) - (size_t)(endptr-toks[column[1]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[1], toks[column[1]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[1],toks[column[1]]);
perror("strtoll error is");
return 1;
}
scratch.set1(&t);
}
if(2 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP2 t = strtoll(toks[column[2]], &endptr, 0);
if(strlen(toks[column[2]]) - (size_t)(endptr-toks[column[2]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[2], toks[column[2]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[2],toks[column[2]]);
perror("strtoll error is");
return 1;
}
scratch.set2(&t);
}
if(3 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP3 t = strtoll(toks[column[3]], &endptr, 0);
if(strlen(toks[column[3]]) - (size_t)(endptr-toks[column[3]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[3], toks[column[3]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[3],toks[column[3]]);
perror("strtoll error is");
return 1;
}
scratch.set3(&t);
}
if(4 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP4 t = strtoll(toks[column[4]], &endptr, 0);
if(strlen(toks[column[4]]) - (size_t)(endptr-toks[column[4]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[4], toks[column[4]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[4],toks[column[4]]);
perror("strtoll error is");
return 1;
}
scratch.set4(&t);
}
if(5 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP5 t = strtoll(toks[column[5]], &endptr, 0);
if(strlen(toks[column[5]]) - (size_t)(endptr-toks[column[5]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[5], toks[column[5]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[5],toks[column[5]]);
perror("strtoll error is");
return 1;
}
scratch.set5(&t);
}
if(6 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP6 t = strtoll(toks[column[6]], &endptr, 0);
if(strlen(toks[column[6]]) - (size_t)(endptr-toks[column[6]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[6], toks[column[6]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[6],toks[column[6]]);
perror("strtoll error is");
return 1;
}
scratch.set6(&t);
}
if(7 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP7 t = strtoll(toks[column[7]], &endptr, 0);
if(strlen(toks[column[7]]) - (size_t)(endptr-toks[column[7]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[7], toks[column[7]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[7],toks[column[7]]);
perror("strtoll error is");
return 1;
}
scratch.set7(&t);
}
if(8 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP8 t = strtoll(toks[column[8]], &endptr, 0);
if(strlen(toks[column[8]]) - (size_t)(endptr-toks[column[8]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[8], toks[column[8]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[8],toks[column[8]]);
perror("strtoll error is");
return 1;
}
scratch.set8(&t);
}
if(9 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP9 t = strtoll(toks[column[9]], &endptr, 0);
if(strlen(toks[column[9]]) - (size_t)(endptr-toks[column[9]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[9], toks[column[9]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[9],toks[column[9]]);
perror("strtoll error is");
return 1;
}
scratch.set9(&t);
}
if(10 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP10 t = strtoll(toks[column[10]], &endptr, 0);
if(strlen(toks[column[10]]) - (size_t)(endptr-toks[column[10]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[10], toks[column[10]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[10],toks[column[10]]);
perror("strtoll error is");
return 1;
}
scratch.set10(&t);
}
if(11 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP11 t = strtoll(toks[column[11]], &endptr, 0);
if(strlen(toks[column[11]]) - (size_t)(endptr-toks[column[11]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[11], toks[column[11]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[11],toks[column[11]]);
perror("strtoll error is");
return 1;
}
scratch.set11(&t);
}
if(12 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP12 t = strtoll(toks[column[12]], &endptr, 0);
if(strlen(toks[column[12]]) - (size_t)(endptr-toks[column[12]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[12], toks[column[12]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[12],toks[column[12]]);
perror("strtoll error is");
return 1;
}
scratch.set12(&t);
}
if(13 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP13 t = strtoll(toks[column[13]], &endptr, 0);
if(strlen(toks[column[13]]) - (size_t)(endptr-toks[column[13]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[13], toks[column[13]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[13],toks[column[13]]);
perror("strtoll error is");
return 1;
}
scratch.set13(&t);
}
if(14 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP14 t = strtoll(toks[column[14]], &endptr, 0);
if(strlen(toks[column[14]]) - (size_t)(endptr-toks[column[14]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[14], toks[column[14]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[14],toks[column[14]]);
perror("strtoll error is");
return 1;
}
scratch.set14(&t);
}
if(15 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP15 t = strtoll(toks[column[15]], &endptr, 0);
if(strlen(toks[column[15]]) - (size_t)(endptr-toks[column[15]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[15], toks[column[15]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[15],toks[column[15]]);
perror("strtoll error is");
return 1;
}
scratch.set15(&t);
}
if(16 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP16 t = strtoll(toks[column[16]], &endptr, 0);
if(strlen(toks[column[16]]) - (size_t)(endptr-toks[column[16]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[16], toks[column[16]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[16],toks[column[16]]);
perror("strtoll error is");
return 1;
}
scratch.set16(&t);
}
if(17 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP17 t = strtoll(toks[column[17]], &endptr, 0);
if(strlen(toks[column[17]]) - (size_t)(endptr-toks[column[17]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[17], toks[column[17]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[17],toks[column[17]]);
perror("strtoll error is");
return 1;
}
scratch.set17(&t);
}
if(18 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP18 t = strtoll(toks[column[18]], &endptr, 0);
if(strlen(toks[column[18]]) - (size_t)(endptr-toks[column[18]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[18], toks[column[18]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[18],toks[column[18]]);
perror("strtoll error is");
return 1;
}
scratch.set18(&t);
}
if(19 < PAGELAYOUT::FMT::TUP::NN) {
char * endptr;
errno = 0;
typename PAGELAYOUT::FMT::TUP::TYP19 t = strtoll(toks[column[19]], &endptr, 0);
if(strlen(toks[column[19]]) - (size_t)(endptr-toks[column[19]]) > 1) {
printf("couldnt parse token #%d: ->%s<-\n", column[19], toks[column[19]]);
return 1;
}
if(errno) {
printf("Couldn't parse token #%d: ->%s<-", column[19],toks[column[19]]);
perror("strtoll error is");
return 1;
}
scratch.set19(&t);
}
int needupdate = 0;
if(last_ts_col != *(epoch_t*)scratch.get(XID_COL)) {
this_xid++;
last_ts_col = *(epoch_t*)scratch.get(XID_COL);
needupdate = 1;
}
if(!strcmp(mode, "add")) {
(*(epoch_t*)scratch.get(XID_COL)) = this_xid * 2; // will be *2 + 1 for deletes
// abort();
TlsmTableInsert(h,scratch);
if(needupdate) {
TlsmTableUpdateTimestamp(h,(this_xid-1) * 2);
count--;
}
} else if(!strcmp(mode, "delete")) {
(*(epoch_t*)scratch.get(XID_COL)) = this_xid * 2 + 1; // + 1 => delete
TlsmTableInsert(h,scratch);
if(needupdate) { TlsmTableUpdateTimestamp(h,(this_xid-1) * 2 + 1); }
} else if(!strcmp(mode, "deliver")) {
TlsmTableInsert(h,scratch);
(*(epoch_t*)scratch.get(XID_COL)) = this_xid * 2 + 1; // + 1 => delete
(*(epoch_t*)scratch.get(PAGELAYOUT::FMT::TUP::NN-1)) = 0; // undelivered tuple
TlsmTableInsert(h,scratch);
if(needupdate) { TlsmTableUpdateTimestamp(h,(this_xid-1) * 2 + 1); }
} else if(!strcmp(mode, "status")) {
typename PAGELAYOUT::FMT::TUP scratch2;
// XXX never finds tuples; gets to correct page, then
// fails because it doesn't know the xid, so no tuples match.
// TlsmTableFindC0(xid,h,scratch, scratch2);
}
//count --;
if(!count) {
count = COUNT;
gettimeofday(&now_tv,0);
now = tv_to_double(now_tv);
printf("After %6.1f seconds, wrote %d tuples "
"%9.3f Mtup/sec (avg) %9.3f Mtup/sec (cur) "
"%9.3f Mbyte/sec (avg) %9.3f Mbyte/sec (cur)\n",
now - cannonical_start,
inserts, //((inserts+1) * 100) / INSERTS,
((double)inserts/1000000.0)/(now-start),
((double)count/1000000.0)/(now-last_start),
(((double)PAGELAYOUT::FMT::TUP::sizeofBytes())*(double)inserts/1000000.0)/(now-start),
(((double)PAGELAYOUT::FMT::TUP::sizeofBytes())*(double)count/1000000.0)/(now-last_start)
);
last_start = now;
//int count = TlsmTableCount(xid,h);
//printf("counted %d tuples\n", count);
}
}
}
printf("insertions done.\n");
} else {
for(long int i = 0; i < INSERTS; i++) {
getTuple<PAGELAYOUT>(i,t);
TlsmTableInsert(h,t);
// getTuple<PAGELAYOUT>(i,t);
// assert(TlsmTableFind(xid,h,t,s));
count --;
if(!count) {
count = COUNT;
gettimeofday(&now_tv,0);
now = tv_to_double(now_tv);
printf("%3ld%% write "
"%9.3f Mtup/sec (avg) %9.3f Mtup/sec (cur) "
"%9.3f Mbyte/sec (avg) %9.3f Mbyte/sec (cur)\n",
((i+1) * 100) / INSERTS,
((double)i/1000000.0)/(now-start),
((double)count/1000000.0)/(now-last_start),
(((double)PAGELAYOUT::FMT::TUP::sizeofBytes())*(double)i/1000000.0)/(now-start),
(((double)PAGELAYOUT::FMT::TUP::sizeofBytes())*(double)count/1000000.0)/(now-last_start)
);
last_start = now;
}
#ifdef LEAK_TEST
if(i == INSERTS-1) {
printf("Running leak test; restarting from zero.\n");
i = 0;
}
#endif
}
printf("insertions done.\n"); fflush(stdout);
count = COUNT;
gettimeofday(&start_tv,0);
start = rose::tv_to_double(start_tv);
last_start = start;
for(long int i = 0; i < INSERTS; i++) {
getTuple<PAGELAYOUT>(i,t);
typename PAGELAYOUT::FMT::TUP const * const sp = TlsmTableFind(xid,h,t,s);
assert(sp);
assert(*sp == s);
count--;
if(!count) {
count = COUNT;
gettimeofday(&now_tv,0);
now = tv_to_double(now_tv);
printf("%3ld%% read "
"%9.3f Mtup/sec (avg) %9.3f Mtup/sec (cur) "
"%9.3f Mbyte/sec (avg) %9.3f Mbyte/sec (cur)\n",
((i+1) * 100) / INSERTS,
((double)i/1000000.0)/(now-start),
((double)count/1000000.0)/(now-last_start),
(((double)PAGELAYOUT::FMT::TUP::sizeofBytes())*(double)i/1000000.0)/(now-start),
(((double)PAGELAYOUT::FMT::TUP::sizeofBytes())*(double)count/1000000.0)/(now-last_start)
);
last_start = now;
}
}
}
TlsmTableStop<PAGELAYOUT>(h);
Tdeinit();
printf("test\n");
return 0;
}
}