/* * 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 #include #include #include #include #include #include #include #include "CursorWindow.h" namespace android { CursorWindow::CursorWindow(size_t maxSize) : mMaxSize(maxSize) { } bool CursorWindow::setMemory(const sp& 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 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--; LOGE("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()) { LOGE("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) { LOGE("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