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replicant-frameworks_native/libs/binder/CursorWindow.cpp
Vasu Nori 82bd26d904 convert one of the LOGE to LOG_WINDOW msg to reduce grief 
grief from people who think this message is bad news.
but in reality, this message is really just an informational message
to aid in debugging

Change-Id: I1a2ab1666a27adb7d3fd210528b2c5218640d53d
2010-10-26 16:44:44 -07:00

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/*
* Copyright (C) 2006-2007 The Android Open Source Project
*
* 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.
*/
#undef LOG_TAG
#define LOG_TAG "CursorWindow"
#include <utils/Log.h>
#include <binder/CursorWindow.h>
#include <binder/MemoryHeapBase.h>
#include <binder/MemoryBase.h>
#include <assert.h>
#include <string.h>
#include <stdlib.h>
namespace android {
CursorWindow::CursorWindow(size_t maxSize) :
mMaxSize(maxSize)
{
}
bool CursorWindow::setMemory(const sp<IMemory>& memory)
{
mMemory = memory;
mData = (uint8_t *) memory->pointer();
if (mData == NULL) {
return false;
}
mHeader = (window_header_t *) mData;
// Make the window read-only
ssize_t size = memory->size();
mSize = size;
mMaxSize = size;
mFreeOffset = size;
LOG_WINDOW("Created CursorWindow from existing IMemory: mFreeOffset = %d, numRows = %d, numColumns = %d, mSize = %d, mMaxSize = %d, mData = %p", mFreeOffset, mHeader->numRows, mHeader->numColumns, mSize, mMaxSize, mData);
return true;
}
bool CursorWindow::initBuffer(bool localOnly)
{
//TODO Use a non-memory dealer mmap region for localOnly
sp<MemoryHeapBase> heap;
heap = new MemoryHeapBase(mMaxSize, 0, "CursorWindow");
if (heap != NULL) {
mMemory = new MemoryBase(heap, 0, mMaxSize);
if (mMemory != NULL) {
mData = (uint8_t *) mMemory->pointer();
if (mData) {
mHeader = (window_header_t *) mData;
mSize = mMaxSize;
// Put the window into a clean state
clear();
LOG_WINDOW("Created CursorWindow with new MemoryDealer: mFreeOffset = %d, mSize = %d, mMaxSize = %d, mData = %p", mFreeOffset, mSize, mMaxSize, mData);
return true;
}
}
LOGE("CursorWindow heap allocation failed");
return false;
} else {
LOGE("failed to create the CursorWindow heap");
return false;
}
}
CursorWindow::~CursorWindow()
{
// Everything that matters is a smart pointer
}
void CursorWindow::clear()
{
mHeader->numRows = 0;
mHeader->numColumns = 0;
mFreeOffset = sizeof(window_header_t) + ROW_SLOT_CHUNK_SIZE;
// Mark the first chunk's next 'pointer' as null
*((uint32_t *)(mData + mFreeOffset - sizeof(uint32_t))) = 0;
}
int32_t CursorWindow::freeSpace()
{
int32_t freeSpace = mSize - mFreeOffset;
if (freeSpace < 0) {
freeSpace = 0;
}
return freeSpace;
}
field_slot_t * CursorWindow::allocRow()
{
// Fill in the row slot
row_slot_t * rowSlot = allocRowSlot();
if (rowSlot == NULL) {
return NULL;
}
// Allocate the slots for the field directory
size_t fieldDirSize = mHeader->numColumns * sizeof(field_slot_t);
uint32_t fieldDirOffset = alloc(fieldDirSize);
if (!fieldDirOffset) {
mHeader->numRows--;
LOG_WINDOW("The row failed, so back out the new row accounting from allocRowSlot %d", mHeader->numRows);
return NULL;
}
field_slot_t * fieldDir = (field_slot_t *)offsetToPtr(fieldDirOffset);
memset(fieldDir, 0x0, fieldDirSize);
LOG_WINDOW("Allocated row %u, rowSlot is at offset %u, fieldDir is %d bytes at offset %u\n", (mHeader->numRows - 1), ((uint8_t *)rowSlot) - mData, fieldDirSize, fieldDirOffset);
rowSlot->offset = fieldDirOffset;
return fieldDir;
}
uint32_t CursorWindow::alloc(size_t requestedSize, bool aligned)
{
int32_t size;
uint32_t padding;
if (aligned) {
// 4 byte alignment
padding = 4 - (mFreeOffset & 0x3);
} else {
padding = 0;
}
size = requestedSize + padding;
if (size > freeSpace()) {
LOGV("need to grow: mSize = %d, size = %d, freeSpace() = %d, numRows = %d", mSize, size,
freeSpace(), mHeader->numRows);
// Only grow the window if the first row doesn't fit
if (mHeader->numRows > 1) {
LOGV("not growing since there are already %d row(s), max size %d", mHeader->numRows,
mMaxSize);
return 0;
}
// Find a new size that will fit the allocation
int allocated = mSize - freeSpace();
int newSize = mSize + WINDOW_ALLOCATION_SIZE;
while (size > (newSize - allocated)) {
newSize += WINDOW_ALLOCATION_SIZE;
if (newSize > mMaxSize) {
LOGE("Attempting to grow window beyond max size (%d)", mMaxSize);
return 0;
}
}
LOG_WINDOW("found size %d", newSize);
mSize = newSize;
}
uint32_t offset = mFreeOffset + padding;
mFreeOffset += size;
return offset;
}
row_slot_t * CursorWindow::getRowSlot(int row)
{
LOG_WINDOW("enter getRowSlot current row num %d, this row %d", mHeader->numRows, row);
int chunkNum = row / ROW_SLOT_CHUNK_NUM_ROWS;
int chunkPos = row % ROW_SLOT_CHUNK_NUM_ROWS;
int chunkPtrOffset = sizeof(window_header_t) + ROW_SLOT_CHUNK_SIZE - sizeof(uint32_t);
uint8_t * rowChunk = mData + sizeof(window_header_t);
for (int i = 0; i < chunkNum; i++) {
rowChunk = offsetToPtr(*((uint32_t *)(mData + chunkPtrOffset)));
chunkPtrOffset = rowChunk - mData + (ROW_SLOT_CHUNK_NUM_ROWS * sizeof(row_slot_t));
}
return (row_slot_t *)(rowChunk + (chunkPos * sizeof(row_slot_t)));
LOG_WINDOW("exit getRowSlot current row num %d, this row %d", mHeader->numRows, row);
}
row_slot_t * CursorWindow::allocRowSlot()
{
int chunkNum = mHeader->numRows / ROW_SLOT_CHUNK_NUM_ROWS;
int chunkPos = mHeader->numRows % ROW_SLOT_CHUNK_NUM_ROWS;
int chunkPtrOffset = sizeof(window_header_t) + ROW_SLOT_CHUNK_SIZE - sizeof(uint32_t);
uint8_t * rowChunk = mData + sizeof(window_header_t);
LOG_WINDOW("Allocating row slot, mHeader->numRows is %d, chunkNum is %d, chunkPos is %d", mHeader->numRows, chunkNum, chunkPos);
for (int i = 0; i < chunkNum; i++) {
uint32_t nextChunkOffset = *((uint32_t *)(mData + chunkPtrOffset));
LOG_WINDOW("nextChunkOffset is %d", nextChunkOffset);
if (nextChunkOffset == 0) {
// Allocate a new row chunk
nextChunkOffset = alloc(ROW_SLOT_CHUNK_SIZE, true);
if (nextChunkOffset == 0) {
return NULL;
}
rowChunk = offsetToPtr(nextChunkOffset);
LOG_WINDOW("allocated new chunk at %d, rowChunk = %p", nextChunkOffset, rowChunk);
*((uint32_t *)(mData + chunkPtrOffset)) = rowChunk - mData;
// Mark the new chunk's next 'pointer' as null
*((uint32_t *)(rowChunk + ROW_SLOT_CHUNK_SIZE - sizeof(uint32_t))) = 0;
} else {
LOG_WINDOW("follwing 'pointer' to next chunk, offset of next pointer is %d", chunkPtrOffset);
rowChunk = offsetToPtr(nextChunkOffset);
chunkPtrOffset = rowChunk - mData + (ROW_SLOT_CHUNK_NUM_ROWS * sizeof(row_slot_t));
}
}
mHeader->numRows++;
return (row_slot_t *)(rowChunk + (chunkPos * sizeof(row_slot_t)));
}
field_slot_t * CursorWindow::getFieldSlotWithCheck(int row, int column)
{
if (row < 0 || row >= mHeader->numRows || column < 0 || column >= mHeader->numColumns) {
LOGE("Bad request for field slot %d,%d. numRows = %d, numColumns = %d", row, column, mHeader->numRows, mHeader->numColumns);
return NULL;
}
row_slot_t * rowSlot = getRowSlot(row);
if (!rowSlot) {
LOGE("Failed to find rowSlot for row %d", row);
return NULL;
}
if (rowSlot->offset == 0 || rowSlot->offset >= mSize) {
LOGE("Invalid rowSlot, offset = %d", rowSlot->offset);
return NULL;
}
int fieldDirOffset = rowSlot->offset;
return ((field_slot_t *)offsetToPtr(fieldDirOffset)) + column;
}
uint32_t CursorWindow::read_field_slot(int row, int column, field_slot_t * slotOut)
{
if (row < 0 || row >= mHeader->numRows || column < 0 || column >= mHeader->numColumns) {
LOGE("Bad request for field slot %d,%d. numRows = %d, numColumns = %d", row, column, mHeader->numRows, mHeader->numColumns);
return -1;
}
row_slot_t * rowSlot = getRowSlot(row);
if (!rowSlot) {
LOGE("Failed to find rowSlot for row %d", row);
return -1;
}
if (rowSlot->offset == 0 || rowSlot->offset >= mSize) {
LOGE("Invalid rowSlot, offset = %d", rowSlot->offset);
return -1;
}
LOG_WINDOW("Found field directory for %d,%d at rowSlot %d, offset %d", row, column, (uint8_t *)rowSlot - mData, rowSlot->offset);
field_slot_t * fieldDir = (field_slot_t *)offsetToPtr(rowSlot->offset);
LOG_WINDOW("Read field_slot_t %d,%d: offset = %d, size = %d, type = %d", row, column, fieldDir[column].data.buffer.offset, fieldDir[column].data.buffer.size, fieldDir[column].type);
// Copy the data to the out param
slotOut->data.buffer.offset = fieldDir[column].data.buffer.offset;
slotOut->data.buffer.size = fieldDir[column].data.buffer.size;
slotOut->type = fieldDir[column].type;
return 0;
}
void CursorWindow::copyIn(uint32_t offset, uint8_t const * data, size_t size)
{
assert(offset + size <= mSize);
memcpy(mData + offset, data, size);
}
void CursorWindow::copyIn(uint32_t offset, int64_t data)
{
assert(offset + sizeof(int64_t) <= mSize);
memcpy(mData + offset, (uint8_t *)&data, sizeof(int64_t));
}
void CursorWindow::copyIn(uint32_t offset, double data)
{
assert(offset + sizeof(double) <= mSize);
memcpy(mData + offset, (uint8_t *)&data, sizeof(double));
}
void CursorWindow::copyOut(uint32_t offset, uint8_t * data, size_t size)
{
assert(offset + size <= mSize);
memcpy(data, mData + offset, size);
}
int64_t CursorWindow::copyOutLong(uint32_t offset)
{
int64_t value;
assert(offset + sizeof(int64_t) <= mSize);
memcpy(&value, mData + offset, sizeof(int64_t));
return value;
}
double CursorWindow::copyOutDouble(uint32_t offset)
{
double value;
assert(offset + sizeof(double) <= mSize);
memcpy(&value, mData + offset, sizeof(double));
return value;
}
bool CursorWindow::putLong(unsigned int row, unsigned int col, int64_t value)
{
field_slot_t * fieldSlot = getFieldSlotWithCheck(row, col);
if (!fieldSlot) {
return false;
}
#if WINDOW_STORAGE_INLINE_NUMERICS
fieldSlot->data.l = value;
#else
int offset = alloc(sizeof(int64_t));
if (!offset) {
return false;
}
copyIn(offset, value);
fieldSlot->data.buffer.offset = offset;
fieldSlot->data.buffer.size = sizeof(int64_t);
#endif
fieldSlot->type = FIELD_TYPE_INTEGER;
return true;
}
bool CursorWindow::putDouble(unsigned int row, unsigned int col, double value)
{
field_slot_t * fieldSlot = getFieldSlotWithCheck(row, col);
if (!fieldSlot) {
return false;
}
#if WINDOW_STORAGE_INLINE_NUMERICS
fieldSlot->data.d = value;
#else
int offset = alloc(sizeof(int64_t));
if (!offset) {
return false;
}
copyIn(offset, value);
fieldSlot->data.buffer.offset = offset;
fieldSlot->data.buffer.size = sizeof(double);
#endif
fieldSlot->type = FIELD_TYPE_FLOAT;
return true;
}
bool CursorWindow::putNull(unsigned int row, unsigned int col)
{
field_slot_t * fieldSlot = getFieldSlotWithCheck(row, col);
if (!fieldSlot) {
return false;
}
fieldSlot->type = FIELD_TYPE_NULL;
fieldSlot->data.buffer.offset = 0;
fieldSlot->data.buffer.size = 0;
return true;
}
bool CursorWindow::getLong(unsigned int row, unsigned int col, int64_t * valueOut)
{
field_slot_t * fieldSlot = getFieldSlotWithCheck(row, col);
if (!fieldSlot || fieldSlot->type != FIELD_TYPE_INTEGER) {
return false;
}
#if WINDOW_STORAGE_INLINE_NUMERICS
*valueOut = fieldSlot->data.l;
#else
*valueOut = copyOutLong(fieldSlot->data.buffer.offset);
#endif
return true;
}
bool CursorWindow::getDouble(unsigned int row, unsigned int col, double * valueOut)
{
field_slot_t * fieldSlot = getFieldSlotWithCheck(row, col);
if (!fieldSlot || fieldSlot->type != FIELD_TYPE_FLOAT) {
return false;
}
#if WINDOW_STORAGE_INLINE_NUMERICS
*valueOut = fieldSlot->data.d;
#else
*valueOut = copyOutDouble(fieldSlot->data.buffer.offset);
#endif
return true;
}
bool CursorWindow::getNull(unsigned int row, unsigned int col, bool * valueOut)
{
field_slot_t * fieldSlot = getFieldSlotWithCheck(row, col);
if (!fieldSlot) {
return false;
}
if (fieldSlot->type != FIELD_TYPE_NULL) {
*valueOut = false;
} else {
*valueOut = true;
}
return true;
}
}; // namespace android
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