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Unified Diff: src/core/SkValidatingReadBuffer.cpp

Issue 23021015: Initial error handling code (Closed) Base URL: https://skia.googlecode.com/svn/trunk
Patch Set: Adapting code to sk_once changes Created 7 years, 2 months ago
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Index: src/core/SkValidatingReadBuffer.cpp
diff --git a/src/core/SkValidatingReadBuffer.cpp b/src/core/SkValidatingReadBuffer.cpp
new file mode 100644
index 0000000000000000000000000000000000000000..0ffe650787fe7b698ad0dc17b32568517e28dd1f
--- /dev/null
+++ b/src/core/SkValidatingReadBuffer.cpp
@@ -0,0 +1,259 @@
+/*
+ * Copyright 2013 Google Inc.
+ *
+ * Use of this source code is governed by a BSD-style license that can be
+ * found in the LICENSE file.
+ */
+
+#include "SkBitmap.h"
+#include "SkErrorInternals.h"
+#include "SkValidatingReadBuffer.h"
+#include "SkStream.h"
+#include "SkTypeface.h"
+
+SkValidatingReadBuffer::SkValidatingReadBuffer(const void* data, size_t size) {
+ this->setMemory(data, size);
+ fError = false;
+
+ this->setFlags(SkFlattenableReadBuffer::kValidation_Flag);
+}
+
+SkValidatingReadBuffer::~SkValidatingReadBuffer() {
+}
+
+void SkValidatingReadBuffer::setMemory(const void* data, size_t size) {
+ fError = fError || !IsPtrAlign4(data) || (SkAlign4(size) != size);
+ if (!fError) {
+ fReader.setMemory(data, size);
+ }
+}
+
+const void* SkValidatingReadBuffer::skip(size_t size) {
+ size_t inc = SkAlign4(size);
+ const void* addr = fReader.peek();
+ fError = fError || !IsPtrAlign4(addr) || !fReader.isAvailable(inc);
+ if (!fError) {
+ fReader.skip(size);
+ }
+ return addr;
+}
+
+// All the methods in this file funnel down into either readInt(), readScalar() or skip(),
+// followed by a memcpy. So we've got all our validation in readInt(), readScalar() and skip();
+// if they fail they'll return a zero value or skip nothing, respectively, and set fError to
+// true, which the caller should check to see if an error occurred during the read operation.
+
+bool SkValidatingReadBuffer::readBool() {
+ return this->readInt() != 0;
+}
+
+SkColor SkValidatingReadBuffer::readColor() {
+ return this->readInt();
+}
+
+SkFixed SkValidatingReadBuffer::readFixed() {
+ return this->readInt();
+}
+
+int32_t SkValidatingReadBuffer::readInt() {
+ const size_t inc = sizeof(int32_t);
+ fError = fError || !IsPtrAlign4(fReader.peek()) || !fReader.isAvailable(inc);
+ return fError ? 0 : fReader.readInt();
+}
+
+SkScalar SkValidatingReadBuffer::readScalar() {
+ const size_t inc = sizeof(SkScalar);
+ fError = fError || !IsPtrAlign4(fReader.peek()) || !fReader.isAvailable(inc);
+ return fError ? 0 : fReader.readScalar();
+}
+
+uint32_t SkValidatingReadBuffer::readUInt() {
+ return this->readInt();
+}
+
+int32_t SkValidatingReadBuffer::read32() {
+ return this->readInt();
+}
+
+void SkValidatingReadBuffer::readString(SkString* string) {
+ const size_t len = this->readInt();
+ const void* ptr = fReader.peek();
+ const char* cptr = (const char*)ptr;
+
+ // skip over the string + '\0' and then pad to a multiple of 4
+ const size_t alignedSize = SkAlign4(len + 1);
+ this->skip(alignedSize);
+ fError = fError || (cptr[len] != '\0');
+ if (!fError) {
+ string->set(cptr, len);
+ }
+}
+
+void* SkValidatingReadBuffer::readEncodedString(size_t* length, SkPaint::TextEncoding encoding) {
+ const int32_t encodingType = fReader.readInt();
+ fError = fError || (encodingType != encoding);
+ *length = this->readInt();
+ const void* ptr = this->skip(SkAlign4(*length));
+ void* data = NULL;
+ if (!fError) {
+ data = sk_malloc_throw(*length);
+ memcpy(data, ptr, *length);
+ }
+ return data;
+}
+
+void SkValidatingReadBuffer::readPoint(SkPoint* point) {
+ point->fX = fReader.readScalar();
+ point->fY = fReader.readScalar();
+}
+
+void SkValidatingReadBuffer::readMatrix(SkMatrix* matrix) {
+ const size_t size = matrix->readFromMemory(fReader.peek());
+ fError = fError || (SkAlign4(size) != size);
+ if (!fError) {
+ (void)this->skip(size);
+ }
+}
+
+void SkValidatingReadBuffer::readIRect(SkIRect* rect) {
+ const void* ptr = this->skip(sizeof(SkIRect));
+ if (!fError) {
+ memcpy(rect, ptr, sizeof(SkIRect));
+ }
+}
+
+void SkValidatingReadBuffer::readRect(SkRect* rect) {
+ const void* ptr = this->skip(sizeof(SkRect));
+ if (!fError) {
+ memcpy(rect, ptr, sizeof(SkRect));
+ }
+}
+
+void SkValidatingReadBuffer::readRegion(SkRegion* region) {
+ const size_t size = region->readFromMemory(fReader.peek());
+ fError = fError || (SkAlign4(size) != size);
+ if (!fError) {
+ (void)this->skip(size);
+ }
+}
+
+void SkValidatingReadBuffer::readPath(SkPath* path) {
+ const size_t size = path->readFromMemory(fReader.peek());
+ fError = fError || (SkAlign4(size) != size);
+ if (!fError) {
+ (void)this->skip(size);
+ }
+}
+
+uint32_t SkValidatingReadBuffer::readByteArray(void* value) {
+ const uint32_t length = this->readUInt();
+ const void* ptr = this->skip(SkAlign4(length));
+ if (!fError) {
+ memcpy(value, ptr, length);
+ return length;
+ }
+ return 0;
+}
+
+uint32_t SkValidatingReadBuffer::readColorArray(SkColor* colors) {
+ const uint32_t count = this->readUInt();
+ const uint32_t byteLength = count * sizeof(SkColor);
+ const void* ptr = this->skip(SkAlign4(byteLength));
+ if (!fError) {
+ memcpy(colors, ptr, byteLength);
+ return count;
+ }
+ return 0;
+}
+
+uint32_t SkValidatingReadBuffer::readIntArray(int32_t* values) {
+ const uint32_t count = this->readUInt();
+ const uint32_t byteLength = count * sizeof(int32_t);
+ const void* ptr = this->skip(SkAlign4(byteLength));
+ if (!fError) {
+ memcpy(values, ptr, byteLength);
+ return count;
+ }
+ return 0;
+}
+
+uint32_t SkValidatingReadBuffer::readPointArray(SkPoint* points) {
+ const uint32_t count = this->readUInt();
+ const uint32_t byteLength = count * sizeof(SkPoint);
+ const void* ptr = this->skip(SkAlign4(byteLength));
+ if (!fError) {
+ memcpy(points, ptr, byteLength);
+ return count;
+ }
+ return 0;
+}
+
+uint32_t SkValidatingReadBuffer::readScalarArray(SkScalar* values) {
+ const uint32_t count = this->readUInt();
+ const uint32_t byteLength = count * sizeof(SkScalar);
+ const void* ptr = this->skip(SkAlign4(byteLength));
+ if (!fError) {
+ memcpy(values, ptr, byteLength);
+ return count;
+ }
+ return 0;
+}
+
+uint32_t SkValidatingReadBuffer::getArrayCount() {
+ return *(uint32_t*)fReader.peek();
+}
+
+void SkValidatingReadBuffer::readBitmap(SkBitmap* bitmap) {
+ const int width = this->readInt();
+ const int height = this->readInt();
+ const size_t length = this->readUInt();
+ // A size of zero means the SkBitmap was simply flattened.
+ fError = fError || (length != 0);
+ if (fError) {
+ return;
+ }
+ bitmap->unflatten(*this);
+ fError = fError || (bitmap->width() != width) || (bitmap->height() != height);
+}
+
+SkFlattenable* SkValidatingReadBuffer::readFlattenable(SkFlattenable::Type type) {
+ SkString name;
+ this->readString(&name);
+ if (fError) {
+ return NULL;
+ }
+
+ // Is this the type we wanted ?
+ const char* cname = name.c_str();
+ SkFlattenable::Type baseType;
+ if (!SkFlattenable::NameToType(cname, &baseType) || (baseType != type)) {
+ return NULL;
+ }
+
+ SkFlattenable::Factory factory = SkFlattenable::NameToFactory(cname);
+ if (NULL == factory) {
+ return NULL; // writer failed to give us the flattenable
+ }
+
+ // if we get here, factory may still be null, but if that is the case, the
+ // failure was ours, not the writer.
+ SkFlattenable* obj = NULL;
+ uint32_t sizeRecorded = this->readUInt();
+ if (factory) {
+ uint32_t offset = fReader.offset();
+ obj = (*factory)(*this);
+ // check that we read the amount we expected
+ uint32_t sizeRead = fReader.offset() - offset;
+ fError = fError || (sizeRecorded != sizeRead);
+ if (fError) {
+ // we could try to fix up the offset...
+ delete obj;
+ obj = NULL;
+ }
+ } else {
+ // we must skip the remaining data
+ this->skip(sizeRecorded);
+ SkASSERT(false);
+ }
+ return obj;
+}
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