stasis-aries-wal/src/lladd/page/indirect.c

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#include "indirect.h"
#include "slotted.h"
#include <math.h>
#include <string.h>
#include <assert.h>
#include "../blobManager.h"
#include "../page.h"
#include <lladd/operations.h>
void indirectInitialize(Page * p, int height) {
*level_ptr(p) = height;
*page_type_ptr(p) = INDIRECT_PAGE;
memset(p->memAddr, INVALID_SLOT, ((int)level_ptr(p)) - ((int)p->memAddr));
}
recordid dereferenceRID(recordid rid) {
Page * this = loadPage(rid.page);
int offset = 0;
int max_slot;
while(*page_type_ptr(this) == INDIRECT_PAGE) {
int i = 0;
for(max_slot = *maxslot_ptr(this, i); ( max_slot + offset ) <= rid.slot; max_slot = *maxslot_ptr(this, i)) {
i++;
assert(max_slot != INVALID_SLOT);
}
if(i) {
offset += *maxslot_ptr(this, i - 1);
} /** else, the adjustment to the offset is zero */
int nextPage = *page_ptr(this, i);
releasePage(this);
this = loadPage(nextPage);
}
rid.page = this->id;
rid.slot -= offset;
releasePage(this);
return rid;
}
#define min(x, y) ((x) < (y) ? (x) : (y))
/** Would be static, but there is a unit test for this function */
unsigned int calculate_level (unsigned int number_of_pages) {
long long tmp = INDIRECT_POINTERS_PER_PAGE;
unsigned int level = 1;
while(tmp < number_of_pages) {
tmp *= INDIRECT_POINTERS_PER_PAGE;
level++;
}
return level;
}
recordid __rallocMany(int xid, int parentPage, int recordSize, int recordCount);
/**
@todo is there a way to implement rallocMany so that it doesn't
have to physically log pre- and post-images of the allocated space?
*/
recordid rallocMany(int xid, int recordSize, int recordCount) {
int page = TpageAlloc(xid, SLOTTED_PAGE);
return __rallocMany(xid, page, recordSize, recordCount);
}
recordid __rallocMany(int xid, int parentPage, int recordSize, int recordCount) {
/* How many levels of pages do we need? */
int physical_size;
recordid rid;
if(recordSize > BLOB_THRESHOLD_SIZE) {
physical_size = sizeof(blob_record_t);
} else {
physical_size = recordSize;
}
int records_per_page = (USABLE_SIZE_OF_PAGE - SLOTTED_PAGE_HEADER_OVERHEAD)
/ (physical_size + SLOTTED_PAGE_OVERHEAD_PER_RECORD); /* we need to take the floor */
int number_of_pages = (int)ceil( (double)recordCount / (double)records_per_page); /* need to take ceiling here */
Page p;
byte buffer[PAGE_SIZE];
p.memAddr = buffer;
p.rwlatch = initlock();
p.loadlatch = initlock();
if(number_of_pages > 1) {
int level = calculate_level(number_of_pages);
DEBUG("recordsize = %d, physicalsize = %d, recordCount = %d, level = %d\n",
recordSize, physical_size, recordCount, level);
/* OK, now allocate the pages. */
int next_level_records_per_page = records_per_page;
for(int i = 0; i < (level - 1); i++) {
next_level_records_per_page *= INDIRECT_POINTERS_PER_PAGE;
}
int newPageCount = (int)ceil((double)recordCount / (double)next_level_records_per_page);
int firstChildPage = TpageAllocMany(xid, newPageCount, SLOTTED_PAGE);/*pageAllocMultiple(newPageCount); */
int tmpRecordCount = recordCount;
int thisChildPage = firstChildPage;
while(tmpRecordCount > 0) {
__rallocMany(xid, thisChildPage, recordSize, min(tmpRecordCount, next_level_records_per_page));
tmpRecordCount -= next_level_records_per_page;
thisChildPage ++;
}
assert((thisChildPage-firstChildPage)== newPageCount);
tmpRecordCount = recordCount;
indirectInitialize(&p, level);
int i = 0;
for(tmpRecordCount = recordCount; tmpRecordCount > 0; tmpRecordCount -= next_level_records_per_page) {
*page_ptr(&p, i) = firstChildPage + i;
if(i) {
*maxslot_ptr(&p, i) = *maxslot_ptr(&p, i-1) + min(tmpRecordCount+1, next_level_records_per_page);
} else {
*maxslot_ptr(&p, i) = min(tmpRecordCount+1, next_level_records_per_page);
}
i++;
}
assert(i == newPageCount);
} else {
DEBUG("recordsize = %d, recordCount = %d, level = 0 (don't need indirect pages)\n", recordSize, recordCount);
pageInitialize(&p);
p.id = parentPage;
for(int i = 0; i < recordCount; i++) {
/* Normally, we would worry that the page id isn't set, but
we're discarding the recordid returned by page ralloc
anyway. */
pageRalloc(&p, recordSize);
}
}
TpageSet(xid, parentPage, &p);
rid.page = parentPage;
rid.slot = RECORD_ARRAY;
rid.size = recordSize;
deletelock(p.rwlatch);
deletelock(p.loadlatch);
return rid;
}
unsigned int indirectPageRecordCount(recordid rid) {
Page * p = loadPage(rid.page);
int i = 0;
unsigned int ret;
if(*page_type_ptr(p) == INDIRECT_PAGE) {
while(*maxslot_ptr(p, i) > 0) {
i++;
}
if(!i) {
ret = 0;
} else {
ret = (*maxslot_ptr(p, i-1)) - 1;
}
} else if (*page_type_ptr(p) == SLOTTED_PAGE) {
int numslots = *numslots_ptr(p);
ret = 0;
for(int i = 0; i < numslots; i++) {
if(isValidSlot(p, i)) {
ret++;
}
}
} else {
printf("Unknown page type in indirectPageRecordCount()\n");
fflush(NULL);
abort();
}
releasePage(p);
return ret;
}