6f82ae268a
git-svn-id: svn+ssh://svn.corp.yahoo.com/yahoo/yrl/labs/pnuts/code/logstore@2668 8dad8b1f-cf64-0410-95b6-bcf113ffbcfe
544 lines
21 KiB
C++
544 lines
21 KiB
C++
/*
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* requestDispatch.cpp
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*
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* Created on: Aug 11, 2010
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* Author: sears
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*/
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#include "requestDispatch.h"
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#include "regionAllocator.h"
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template<class HANDLE>
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inline int requestDispatch<HANDLE>::op_insert(logtable * ltable, HANDLE fd, datatuple * tuple) {
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//insert/update/delete
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ltable->insertTuple(tuple);
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//step 4: send response
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return writeoptosocket(fd, LOGSTORE_RESPONSE_SUCCESS);
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}
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template<class HANDLE>
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inline int requestDispatch<HANDLE>::op_test_and_set(logtable * ltable, HANDLE fd, datatuple * tuple, datatuple * tuple2) {
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//insert/update/delete
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bool succ = ltable->testAndSetTuple(tuple, tuple2);
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//step 4: send response
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return writeoptosocket(fd, succ ? LOGSTORE_RESPONSE_SUCCESS : LOGSTORE_RESPONSE_FAIL);
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}
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template<class HANDLE>
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inline int requestDispatch<HANDLE>::op_bulk_insert(logtable *ltable, HANDLE fd) {
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int err = writeoptosocket(fd, LOGSTORE_RESPONSE_RECEIVING_TUPLES);
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datatuple ** tups = (datatuple **) malloc(sizeof(tups[0]) * 100);
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int tups_size = 100;
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int cur_tup_count = 0;
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while((tups[cur_tup_count] = readtuplefromsocket(fd, &err))) {
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cur_tup_count++;
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if(cur_tup_count == tups_size) {
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ltable->insertManyTuples(tups, cur_tup_count);
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for(int i = 0; i < cur_tup_count; i++) {
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datatuple::freetuple(tups[i]);
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}
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cur_tup_count = 0;
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}
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}
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ltable->insertManyTuples(tups, cur_tup_count);
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for(int i = 0; i < cur_tup_count; i++) {
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datatuple::freetuple(tups[i]);
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}
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free(tups);
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if(!err) err = writeoptosocket(fd, LOGSTORE_RESPONSE_SUCCESS);
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return err;
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}
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template<class HANDLE>
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inline int requestDispatch<HANDLE>::op_find(logtable * ltable, HANDLE fd, datatuple * tuple) {
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//find the tuple
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datatuple *dt = ltable->findTuple_first(-1, tuple->strippedkey(), tuple->strippedkeylen());
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#ifdef STATS_ENABLED
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if(dt == 0) {
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DEBUG("key not found:\t%s\n", datatuple::key_to_str(tuple.key()).c_str());
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} else if( dt->datalen() != 1024) {
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DEBUG("data len for\t%s:\t%d\n", datatuple::key_to_str(tuple.key()).c_str(),
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dt->datalen);
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if(datatuple::compare(tuple->key(), tuple->keylen(), dt->key(), dt->keylen()) != 0) {
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DEBUG("key not equal:\t%s\t%s\n", datatuple::key_to_str(tuple.key()).c_str(),
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datatuple::key_to_str(dt->key).c_str());
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}
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}
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#endif
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bool dt_needs_free;
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if(dt == 0) //tuple does not exist.
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{
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dt = tuple;
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dt->setDelete();
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dt_needs_free = false;
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} else {
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dt_needs_free = true;
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}
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DEBUG(stderr, "find result: %s\n", dt->isDelete() ? "not found" : "found");
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//send the reply code
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int err = writeoptosocket(fd, LOGSTORE_RESPONSE_SENDING_TUPLES);
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if(!err) {
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//send the tuple
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err = writetupletosocket(fd, dt);
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}
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if(!err) {
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writeendofiteratortosocket(fd);
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}
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//free datatuple
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if(dt_needs_free) {
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datatuple::freetuple(dt);
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}
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return err;
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}
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template<class HANDLE>
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inline int requestDispatch<HANDLE>::op_scan(logtable * ltable, HANDLE fd, datatuple * tuple, datatuple * tuple2, size_t limit) {
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size_t count = 0;
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int err = writeoptosocket(fd, LOGSTORE_RESPONSE_SENDING_TUPLES);
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if(!err) {
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logtable::iterator * itr = new logtable::iterator(ltable, tuple);
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datatuple * t;
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while(!err && (t = itr->getnext())) {
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if(tuple2) { // are we at the end of range?
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if(datatuple::compare_obj(t, tuple2) >= 0) {
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datatuple::freetuple(t);
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break;
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}
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}
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err = writetupletosocket(fd, t);
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datatuple::freetuple(t);
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count ++;
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if(count == limit) { break; } // did we hit limit?
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}
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delete itr;
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}
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if(!err) { writeendofiteratortosocket(fd); }
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return err;
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}
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template<class HANDLE>
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inline int requestDispatch<HANDLE>::op_flush(logtable * ltable, HANDLE fd) {
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ltable->flushTable();
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return writeoptosocket(fd, LOGSTORE_RESPONSE_SUCCESS);
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}
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template<class HANDLE>
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inline int requestDispatch<HANDLE>::op_shutdown(logtable * ltable, HANDLE fd) {
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ltable->accepting_new_requests = false;
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return writeoptosocket(fd, LOGSTORE_RESPONSE_SUCCESS);
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}
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template<class HANDLE>
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inline int requestDispatch<HANDLE>::op_stat_space_usage(logtable * ltable, HANDLE fd) {
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int xid = Tbegin();
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rwlc_readlock(ltable->header_mut);
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/* pageid_t datapage_c1_region_length, datapage_c1_mergeable_region_length = 0, datapage_c2_region_length;
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pageid_t datapage_c1_region_count, datapage_c1_mergeable_region_count = 0, datapage_c2_region_count;
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pageid_t tree_c1_region_length, tree_c1_mergeable_region_length = 0, tree_c2_region_length;
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pageid_t tree_c1_region_count, tree_c1_mergeable_region_count = 0, tree_c2_region_count;
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pageid_t * datapage_c1_regions = ltable->get_tree_c1()->get_datapage_alloc()->list_regions(xid, &datapage_c1_region_length, &datapage_c1_region_count);
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pageid_t * datapage_c1_mergeable_regions = NULL;
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if(ltable->get_tree_c1_mergeable()) {
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datapage_c1_mergeable_regions = ltable->get_tree_c1_mergeable()->get_datapage_alloc()->list_regions(xid, &datapage_c1_mergeable_region_length, &datapage_c1_mergeable_region_count);
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}
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pageid_t * datapage_c2_regions = ltable->get_tree_c2()->get_datapage_alloc()->list_regions(xid, &datapage_c2_region_length, &datapage_c2_region_count);
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pageid_t * tree_c1_regions = ltable->get_tree_c1()->get_internal_node_alloc()->list_regions(xid, &tree_c1_region_length, &tree_c1_region_count);
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pageid_t * tree_c1_mergeable_regions = NULL;
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if(ltable->get_tree_c1_mergeable()) {
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tree_c1_mergeable_regions = ltable->get_tree_c1_mergeable()->get_internal_node_alloc()->list_regions(xid, &tree_c1_mergeable_region_length, &tree_c1_mergeable_region_count);
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}
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pageid_t * tree_c2_regions = ltable->get_tree_c2()->get_internal_node_alloc()->list_regions(xid, &tree_c2_region_length, &tree_c2_region_count);
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*/
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pageid_t internal_c1_region_length, internal_c1_mergeable_region_length = 0, internal_c2_region_length;
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pageid_t internal_c1_region_count, internal_c1_mergeable_region_count = 0, internal_c2_region_count;
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pageid_t *internal_c1_regions, *internal_c1_mergeable_regions = NULL, *internal_c2_regions;
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pageid_t datapage_c1_region_length, datapage_c1_mergeable_region_length = 0, datapage_c2_region_length;
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pageid_t datapage_c1_region_count, datapage_c1_mergeable_region_count = 0, datapage_c2_region_count;
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pageid_t *datapage_c1_regions, *datapage_c1_mergeable_regions = NULL, *datapage_c2_regions;
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ltable->get_tree_c1()->list_regions(xid,
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&internal_c1_region_length, &internal_c1_region_count, &internal_c1_regions,
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&datapage_c1_region_length, &datapage_c1_region_count, &datapage_c1_regions);
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if(ltable->get_tree_c1_mergeable()) {
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ltable->get_tree_c1_mergeable()->list_regions(xid,
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&internal_c1_mergeable_region_length, &internal_c1_mergeable_region_count, &internal_c1_mergeable_regions,
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&datapage_c1_mergeable_region_length, &datapage_c1_mergeable_region_count, &datapage_c1_mergeable_regions);
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}
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ltable->get_tree_c2()->list_regions(xid,
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&internal_c2_region_length, &internal_c2_region_count, &internal_c2_regions,
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&datapage_c2_region_length, &datapage_c2_region_count, &datapage_c2_regions);
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free(datapage_c1_regions);
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free(datapage_c1_mergeable_regions);
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free(datapage_c2_regions);
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free(internal_c1_regions);
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free(internal_c1_mergeable_regions);
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free(internal_c2_regions);
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uint64_t treesize = PAGE_SIZE *
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( ( datapage_c1_region_count * datapage_c1_region_length )
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+ ( datapage_c1_mergeable_region_count * datapage_c1_mergeable_region_length )
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+ ( datapage_c2_region_count * datapage_c2_region_length)
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+ ( internal_c1_region_count * internal_c1_region_length )
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+ ( internal_c1_mergeable_region_count * internal_c1_mergeable_region_length )
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+ ( internal_c2_region_count * internal_c2_region_length) );
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boundary_tag tag;
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pageid_t pid = ROOT_RECORD.page;
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TregionReadBoundaryTag(xid, pid, &tag);
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uint64_t max_off = 0;
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do {
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max_off = pid + tag.size;
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;
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} while(TregionNextBoundaryTag(xid, &pid, &tag, 0/*all allocation managers*/));
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rwlc_unlock(ltable->header_mut);
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Tcommit(xid);
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uint64_t filesize = max_off * PAGE_SIZE;
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datatuple *tup = datatuple::create(&treesize, sizeof(treesize), &filesize, sizeof(filesize));
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DEBUG("tree size: %lld, filesize %lld\n", treesize, filesize);
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int err = 0;
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if(!err){ err = writeoptosocket(fd, LOGSTORE_RESPONSE_SENDING_TUPLES); }
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if(!err){ err = writetupletosocket(fd, tup); }
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if(!err){ err = writeendofiteratortosocket(fd); }
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datatuple::freetuple(tup);
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return err;
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}
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template<class HANDLE>
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inline int requestDispatch<HANDLE>::op_stat_perf_report(logtable * ltable, HANDLE fd) {
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}
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template<class HANDLE>
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inline int requestDispatch<HANDLE>::op_stat_histogram(logtable * ltable, HANDLE fd, size_t limit) {
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if(limit < 3) {
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return writeoptosocket(fd, LOGSTORE_PROTOCOL_ERROR);
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}
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int xid = Tbegin();
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RegionAllocator * ro_alloc = new RegionAllocator();
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diskTreeComponent::internalNodes::iterator * it = new diskTreeComponent::internalNodes::iterator(xid, ro_alloc, ltable->get_tree_c2()->get_root_rid());
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size_t count = 0;
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int err = 0;
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while(it->next()) { count++; }
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it->close();
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delete(it);
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uint64_t stride;
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if(count > limit) {
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stride = count / (limit-1);
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stride++; // this way, we truncate the last bucket instead of occasionally creating a tiny last bucket.
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} else {
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stride = 1;
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}
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datatuple * tup = datatuple::create(&stride, sizeof(stride));
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if(!err) { err = writeoptosocket(fd, LOGSTORE_RESPONSE_SENDING_TUPLES); }
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if(!err) { err = writetupletosocket(fd, tup); }
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datatuple::freetuple(tup);
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size_t cur_stride = 0;
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size_t i = 0;
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it = new diskTreeComponent::internalNodes::iterator(xid, ro_alloc, ltable->get_tree_c2()->get_root_rid()); // TODO make this method private?
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while(it->next()) {
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i++;
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if(i == count || !cur_stride) { // do we want to send this key? (this matches the first, last and interior keys)
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byte * key;
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size_t keylen= it->key(&key);
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tup = datatuple::create(key, keylen);
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if(!err) { err = writetupletosocket(fd, tup); }
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datatuple::freetuple(tup);
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cur_stride = stride;
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}
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cur_stride--;
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}
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it->close();
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delete(it);
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delete(ro_alloc);
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if(!err){ err = writeendofiteratortosocket(fd); }
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Tcommit(xid);
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return err;
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}
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template<class HANDLE>
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inline int requestDispatch<HANDLE>::op_dbg_blockmap(logtable * ltable, HANDLE fd) {
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// produce a list of stasis regions
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int xid = Tbegin();
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rwlc_readlock(ltable->header_mut);
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// produce a list of regions used by current tree components
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/* pageid_t datapage_c1_region_length, datapage_c1_mergeable_region_length = 0, datapage_c2_region_length;
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pageid_t datapage_c1_region_count, datapage_c1_mergeable_region_count = 0, datapage_c2_region_count;
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pageid_t * datapage_c1_regions = ltable->get_tree_c1()->get_datapage_alloc()->list_regions(xid, &datapage_c1_region_length, &datapage_c1_region_count);
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pageid_t * datapage_c1_mergeable_regions = NULL;
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if(ltable->get_tree_c1_mergeable()) {
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datapage_c1_mergeable_regions = ltable->get_tree_c1_mergeable()->get_datapage_alloc()->list_regions(xid, &datapage_c1_mergeable_region_length, &datapage_c1_mergeable_region_count);
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}
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pageid_t * datapage_c2_regions = ltable->get_tree_c2()->get_datapage_alloc()->list_regions(xid, &datapage_c2_region_length, &datapage_c2_region_count); */
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/* pageid_t * tree_c1_regions = ltable->get_tree_c1()->get_internal_node_alloc()->list_regions(xid, &tree_c1_region_length, &tree_c1_region_count);
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pageid_t * tree_c1_mergeable_regions = NULL;
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if(ltable->get_tree_c1_mergeable()) {
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tree_c1_mergeable_regions = ltable->get_tree_c1_mergeable()->get_internal_node_alloc()->list_regions(xid, &tree_c1_mergeable_region_length, &tree_c1_mergeable_region_count);
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}
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pageid_t * tree_c2_regions = ltable->get_tree_c2()->get_internal_node_alloc()->list_regions(xid, &tree_c2_region_length, &tree_c2_region_count); */
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pageid_t internal_c1_region_length, internal_c1_mergeable_region_length = 0, internal_c2_region_length;
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pageid_t internal_c1_region_count, internal_c1_mergeable_region_count = 0, internal_c2_region_count;
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pageid_t *internal_c1_regions, *internal_c1_mergeable_regions = NULL, *internal_c2_regions;
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pageid_t datapage_c1_region_length, datapage_c1_mergeable_region_length = 0, datapage_c2_region_length;
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pageid_t datapage_c1_region_count, datapage_c1_mergeable_region_count = 0, datapage_c2_region_count;
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pageid_t *datapage_c1_regions, *datapage_c1_mergeable_regions = NULL, *datapage_c2_regions;
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ltable->get_tree_c1()->list_regions(xid,
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&internal_c1_region_length, &internal_c1_region_count, &internal_c1_regions,
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&datapage_c1_region_length, &datapage_c1_region_count, &datapage_c1_regions);
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if(ltable->get_tree_c1_mergeable()) {
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ltable->get_tree_c1_mergeable()->list_regions(xid,
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&internal_c1_mergeable_region_length, &internal_c1_mergeable_region_count, &internal_c1_mergeable_regions,
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&datapage_c1_mergeable_region_length, &datapage_c1_mergeable_region_count, &datapage_c1_mergeable_regions);
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}
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ltable->get_tree_c2()->list_regions(xid,
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&internal_c2_region_length, &internal_c2_region_count, &internal_c2_regions,
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&datapage_c2_region_length, &datapage_c2_region_count, &datapage_c2_regions);
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rwlc_unlock(ltable->header_mut);
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Tcommit(xid);
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printf("C1 Datapage Regions (each is %lld pages long):\n", datapage_c1_region_length);
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for(pageid_t i = 0; i < datapage_c1_region_count; i++) {
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printf("%lld ", datapage_c1_regions[i]);
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}
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printf("\nC1 Internal Node Regions (each is %lld pages long):\n", internal_c1_region_length);
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for(pageid_t i = 0; i < internal_c1_region_count; i++) {
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printf("%lld ", internal_c1_regions[i]);
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}
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printf("\nC2 Datapage Regions (each is %lld pages long):\n", datapage_c2_region_length);
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for(pageid_t i = 0; i < datapage_c2_region_count; i++) {
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printf("%lld ", datapage_c2_regions[i]);
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}
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printf("\nC2 Internal Node Regions (each is %lld pages long):\n", internal_c2_region_length);
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for(pageid_t i = 0; i < internal_c2_region_count; i++) {
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printf("%lld ", internal_c2_regions[i]);
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}
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printf("\nStasis Region Map\n");
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boundary_tag tag;
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pageid_t pid = ROOT_RECORD.page;
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TregionReadBoundaryTag(xid, pid, &tag);
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pageid_t max_off = 0;
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bool done;
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do {
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max_off = pid + tag.size;
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// print tag.
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printf("\tPage %lld\tSize %lld\tAllocationManager %d\n", (long long)pid, (long long)tag.size, (int)tag.allocation_manager);
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done = ! TregionNextBoundaryTag(xid, &pid, &tag, 0/*all allocation managers*/);
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} while(!done);
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printf("\n");
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printf("Tree components are using %lld megabytes. File is using %lld megabytes.\n",
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PAGE_SIZE * (internal_c1_region_length * internal_c1_region_count
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+ internal_c1_mergeable_region_length * internal_c1_mergeable_region_count
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+ internal_c2_region_length * internal_c2_region_count
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+ datapage_c1_region_length * datapage_c1_region_count
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+ datapage_c1_mergeable_region_length * datapage_c1_mergeable_region_count
|
|
+ datapage_c2_region_length * datapage_c2_region_count) / (1024 * 1024),
|
|
(PAGE_SIZE * max_off) / (1024*1024));
|
|
|
|
free(datapage_c1_regions);
|
|
if(datapage_c1_mergeable_regions) free(datapage_c1_mergeable_regions);
|
|
free(datapage_c2_regions);
|
|
free(internal_c1_regions);
|
|
if(internal_c1_mergeable_regions) free(internal_c1_mergeable_regions);
|
|
free(internal_c2_regions);
|
|
return writeoptosocket(fd, LOGSTORE_RESPONSE_SUCCESS);
|
|
}
|
|
|
|
template<class HANDLE>
|
|
inline int requestDispatch<HANDLE>::op_dbg_drop_database(logtable * ltable, HANDLE fd) {
|
|
logtable::iterator * itr = new logtable::iterator(ltable);
|
|
datatuple * del;
|
|
fprintf(stderr, "DROPPING DATABASE...\n");
|
|
long long n = 0;
|
|
while((del = itr->getnext())) {
|
|
if(!del->isDelete()) {
|
|
del->setDelete();
|
|
ltable->insertTuple(del);
|
|
n++;
|
|
if(!(n % 1000)) {
|
|
printf("X %lld %s\n", n, (char*)del->rawkey()); fflush(stdout);
|
|
}
|
|
} else {
|
|
n++;
|
|
if(!(n % 1000)) {
|
|
printf("? %lld %s\n", n, (char*)del->rawkey()); fflush(stdout);
|
|
}
|
|
}
|
|
datatuple::freetuple(del);
|
|
}
|
|
delete itr;
|
|
fprintf(stderr, "...DROP DATABASE COMPLETE\n");
|
|
return writeoptosocket(fd, LOGSTORE_RESPONSE_SUCCESS);
|
|
}
|
|
template<class HANDLE>
|
|
inline int requestDispatch<HANDLE>::op_dbg_noop(logtable * ltable, HANDLE fd) {
|
|
return writeoptosocket(fd, LOGSTORE_RESPONSE_SUCCESS);
|
|
}
|
|
template<class HANDLE>
|
|
inline int requestDispatch<HANDLE>::op_dbg_set_log_mode(logtable * ltable, HANDLE fd, datatuple * tuple) {
|
|
if(tuple->rawkeylen() != sizeof(int)) {
|
|
abort();
|
|
return writeoptosocket(fd, LOGSTORE_PROTOCOL_ERROR);
|
|
} else {
|
|
int old_mode = ltable->log_mode;
|
|
ltable->log_mode = *(int*)tuple->rawkey();
|
|
fprintf(stderr, "\n\nChanged log mode from %d to %d\n\n", old_mode, ltable->log_mode);
|
|
return writeoptosocket(fd, LOGSTORE_RESPONSE_SUCCESS);
|
|
}
|
|
}
|
|
template<class HANDLE>
|
|
int requestDispatch<HANDLE>::dispatch_request(HANDLE f, logtable *ltable) {
|
|
//step 1: read the opcode
|
|
network_op_t opcode = readopfromsocket(f, LOGSTORE_CLIENT_REQUEST);
|
|
if(opcode == LOGSTORE_CONN_CLOSED_ERROR) {
|
|
opcode = OP_DONE;
|
|
printf("Broken client closed connection uncleanly\n");
|
|
}
|
|
|
|
int err = opcode == OP_DONE || opiserror(opcode); //close the conn on failure
|
|
|
|
//step 2: read the first tuple from client
|
|
datatuple *tuple = 0, *tuple2 = 0;
|
|
if(!err) { tuple = readtuplefromsocket(f, &err); }
|
|
// read the second tuple from client
|
|
if(!err) { tuple2 = readtuplefromsocket(f, &err); }
|
|
|
|
//step 3: process the tuple
|
|
if(!err) { err = dispatch_request(opcode, tuple, tuple2, ltable, f); }
|
|
|
|
//free the tuple
|
|
if(tuple) datatuple::freetuple(tuple);
|
|
if(tuple2) datatuple::freetuple(tuple2);
|
|
|
|
// Deal with old work_queue item by freeing it or putting it back in the queue.
|
|
|
|
if(err) {
|
|
if(opcode != OP_DONE) {
|
|
perror("network error. conn closed");
|
|
} else {
|
|
// printf("client done. conn closed. (%d, %d)\n",
|
|
// *(item->data->workitem), item->data->work_queue->size());
|
|
}
|
|
}
|
|
return err;
|
|
|
|
}
|
|
template<class HANDLE>
|
|
int requestDispatch<HANDLE>::dispatch_request(network_op_t opcode, datatuple * tuple, datatuple * tuple2, logtable * ltable, HANDLE fd) {
|
|
int err = 0;
|
|
#if 0
|
|
if(tuple) {
|
|
char * printme = (char*)malloc(tuple->rawkeylen()+1);
|
|
memcpy(printme, tuple->rawkey(), tuple->rawkeylen());
|
|
printme[tuple->rawkeylen()] = 0;
|
|
printf("\nop = %d, key = ->%s<-, isdelete = %d\n", opcode, printme, tuple->isDelete());
|
|
free(printme);
|
|
}
|
|
#endif
|
|
if(opcode == OP_INSERT)
|
|
{
|
|
err = op_insert(ltable, fd, tuple);
|
|
}
|
|
else if(opcode == OP_TEST_AND_SET)
|
|
{
|
|
err = op_test_and_set(ltable, fd, tuple, tuple2);
|
|
}
|
|
else if(opcode == OP_FIND)
|
|
{
|
|
err = op_find(ltable, fd, tuple);
|
|
}
|
|
else if(opcode == OP_SCAN)
|
|
{
|
|
size_t limit = readcountfromsocket(fd, &err);
|
|
if(!err) { err = op_scan(ltable, fd, tuple, tuple2, limit); }
|
|
}
|
|
else if(opcode == OP_BULK_INSERT) {
|
|
err = op_bulk_insert(ltable, fd);
|
|
}
|
|
else if(opcode == OP_FLUSH)
|
|
{
|
|
err = op_flush(ltable, fd);
|
|
}
|
|
else if(opcode == OP_SHUTDOWN)
|
|
{
|
|
err = op_shutdown(ltable, fd);
|
|
}
|
|
else if(opcode == OP_STAT_SPACE_USAGE)
|
|
{
|
|
err = op_stat_space_usage(ltable, fd);
|
|
}
|
|
else if(opcode == OP_STAT_PERF_REPORT)
|
|
{
|
|
err = op_stat_perf_report(ltable, fd);
|
|
}
|
|
else if(opcode == OP_STAT_HISTOGRAM)
|
|
{
|
|
size_t limit = readcountfromsocket(fd, &err);
|
|
err = op_stat_histogram(ltable, fd, limit);
|
|
}
|
|
else if(opcode == OP_DBG_BLOCKMAP)
|
|
{
|
|
err = op_dbg_blockmap(ltable, fd);
|
|
}
|
|
else if(opcode == OP_DBG_DROP_DATABASE)
|
|
{
|
|
err = op_dbg_drop_database(ltable, fd);
|
|
}
|
|
else if(opcode == OP_DBG_NOOP) {
|
|
err = op_dbg_noop(ltable, fd);
|
|
}
|
|
else if(opcode == OP_DBG_SET_LOG_MODE) {
|
|
err = op_dbg_set_log_mode(ltable, fd, tuple);
|
|
}
|
|
return err;
|
|
}
|
|
|
|
template class requestDispatch<int>;
|
|
template class requestDispatch<FILE*>;
|