Implement go/streaming-proto native libs, part 2

Implement ProtoOutputStream.h to write protobuf format data.

Usage of dumping proto:
ProtoOutputStream proto(fd);

proto.write(fieldId, value1); // dump a single value

// start to dump a message:
long long token = proto.start(messageFieldId);
proto.write(nestedField1, nestedValue1);
...
proto.end(token);

fieldId will be generated by protoc-cpp plugin(TBD). It is an encoded uint64_t
value, with 0 - 32 bits as its proto number, 33 - 40 bits reserved for
field type, int32, bool, string, message, etc. and 41 - 43 bits for
single, repeated or packed type. Currently packed field is not
supported.

Bug: 65641021
Test: N/A, need to wait for protoc-cpp plugin and will test in
incident_helper
Change-Id: Ic188615b950235aae0edeee4876b78d31feb5619

1 files changed, 652 insertions, 0 deletions

diff --git a/libs/protoutil/src/ProtoOutputStream.cpp b/libs/protoutil/src/ProtoOutputStream.cpp
new file mode 100644
index 000000000000..e9ca0dcb1093
--- /dev/null
+++ b/libs/protoutil/src/ProtoOutputStream.cpp
@@ -0,0 +1,652 @@
+/*
+ * Copyright (C) 2017 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.
+ */
+#define LOG_TAG "libprotoutil"
+
+#include <android/util/protobuf.h>
+#include <android/util/ProtoOutputStream.h>
+#include <cutils/log.h>
+#include <cstring>
+
+namespace android {
+namespace util {
+
+/**
+ * Position of the field type in a (long long) fieldId.
+ */
+const uint64_t FIELD_TYPE_SHIFT = 32;
+
+/**
+ * Mask for the field types stored in a fieldId.  Leaves a whole
+ * byte for future expansion, even though there are currently only 17 types.
+ */
+const uint64_t FIELD_TYPE_MASK = 0x0ffULL << FIELD_TYPE_SHIFT;
+
+const uint64_t FIELD_TYPE_UNKNOWN  = 0;
+const uint64_t TYPE_DOUBLE         = 1ULL << FIELD_TYPE_SHIFT;   // double, exactly eight bytes on the wire.
+const uint64_t TYPE_FLOAT          = 2ULL << FIELD_TYPE_SHIFT;   // float, exactly four bytes on the wire.
+const uint64_t TYPE_INT64          = 3ULL << FIELD_TYPE_SHIFT;   // int64, varint on the wire.  Negative numbers
+                                                                 // take 10 bytes.  Use TYPE_SINT64 if negative
+                                                                 // values are likely.
+const uint64_t TYPE_UINT64         = 4ULL << FIELD_TYPE_SHIFT;   // uint64, varint on the wire.
+const uint64_t TYPE_INT32          = 5ULL << FIELD_TYPE_SHIFT;   // int32, varint on the wire.  Negative numbers
+                                                                 // take 10 bytes.  Use TYPE_SINT32 if negative
+                                                                 // values are likely.
+const uint64_t TYPE_FIXED64        = 6ULL << FIELD_TYPE_SHIFT;   // uint64, exactly eight bytes on the wire.
+const uint64_t TYPE_FIXED32        = 7ULL << FIELD_TYPE_SHIFT;   // uint32, exactly four bytes on the wire.
+const uint64_t TYPE_BOOL           = 8ULL << FIELD_TYPE_SHIFT;   // bool, varint on the wire.
+const uint64_t TYPE_STRING         = 9ULL << FIELD_TYPE_SHIFT;   // UTF-8 text.
+const uint64_t TYPE_GROUP          = 10ULL << FIELD_TYPE_SHIFT;  // Tag-delimited message.  Deprecated.
+const uint64_t TYPE_MESSAGE        = 11ULL << FIELD_TYPE_SHIFT;  // Length-delimited message.
+
+const uint64_t TYPE_BYTES          = 12ULL << FIELD_TYPE_SHIFT;  // Arbitrary byte array.
+const uint64_t TYPE_UINT32         = 13ULL << FIELD_TYPE_SHIFT;  // uint32, varint on the wire
+const uint64_t TYPE_ENUM           = 14ULL << FIELD_TYPE_SHIFT;  // Enum, varint on the wire
+const uint64_t TYPE_SFIXED32       = 15ULL << FIELD_TYPE_SHIFT;  // int32, exactly four bytes on the wire
+const uint64_t TYPE_SFIXED64       = 16ULL << FIELD_TYPE_SHIFT;  // int64, exactly eight bytes on the wire
+const uint64_t TYPE_SINT32         = 17ULL << FIELD_TYPE_SHIFT;  // int32, ZigZag-encoded varint on the wire
+const uint64_t TYPE_SINT64         = 18ULL << FIELD_TYPE_SHIFT;  // int64, ZigZag-encoded varint on the wire
+
+//
+// FieldId flags for whether the field is single, repeated or packed.
+// TODO: packed is not supported yet.
+//
+const uint64_t FIELD_COUNT_SHIFT = 40;
+const uint64_t FIELD_COUNT_MASK = 0x0fULL << FIELD_COUNT_SHIFT;
+const uint64_t FIELD_COUNT_UNKNOWN = 0;
+const uint64_t FIELD_COUNT_SINGLE = 1ULL << FIELD_COUNT_SHIFT;
+const uint64_t FIELD_COUNT_REPEATED = 2ULL << FIELD_COUNT_SHIFT;
+const uint64_t FIELD_COUNT_PACKED = 4ULL << FIELD_COUNT_SHIFT;
+
+ProtoOutputStream::ProtoOutputStream(int fd)
+        :mBuffer(),
+         mFd(fd),
+         mCopyBegin(0),
+         mCompact(false),
+         mDepth(0),
+         mObjectId(0),
+         mExpectedObjectToken(0LL)
+{
+}
+
+ProtoOutputStream::~ProtoOutputStream()
+{
+}
+
+bool
+ProtoOutputStream::write(uint64_t fieldId, double val)
+{
+    if (mCompact) return false;
+    const uint32_t id = (uint32_t)fieldId;
+    switch (fieldId & FIELD_TYPE_MASK) {
+        case TYPE_DOUBLE:   writeDoubleImpl(id, (double)val);           break;
+        case TYPE_FLOAT:    writeFloatImpl(id, (float)val);             break;
+        case TYPE_INT64:    writeInt64Impl(id, (long long)val);         break;
+        case TYPE_UINT64:   writeUint64Impl(id, (uint64_t)val);         break;
+        case TYPE_INT32:    writeInt32Impl(id, (int)val);               break;
+        case TYPE_FIXED64:  writeFixed64Impl(id, (uint64_t)val);        break;
+        case TYPE_FIXED32:  writeFixed32Impl(id, (uint32_t)val);        break;
+        case TYPE_UINT32:   writeUint32Impl(id, (uint32_t)val);         break;
+        case TYPE_SFIXED32: writeSFixed32Impl(id, (int)val);            break;
+        case TYPE_SFIXED64: writeSFixed64Impl(id, (long long)val);      break;
+        case TYPE_SINT32:   writeZigzagInt32Impl(id, (int)val);         break;
+        case TYPE_SINT64:   writeZigzagInt64Impl(id, (long long)val);   break;
+        default:
+            ALOGW("Field type %d is not supported when writing double val.",
+                    (int)((fieldId & FIELD_TYPE_MASK) >> FIELD_TYPE_SHIFT));
+            return false;
+    }
+    return true;
+}
+
+bool
+ProtoOutputStream::write(uint64_t fieldId, float val)
+{
+    if (mCompact) return false;
+    const uint32_t id = (uint32_t)fieldId;
+    switch (fieldId & FIELD_TYPE_MASK) {
+        case TYPE_DOUBLE:   writeDoubleImpl(id, (double)val);           break;
+        case TYPE_FLOAT:    writeFloatImpl(id, (float)val);             break;
+        case TYPE_INT64:    writeInt64Impl(id, (long long)val);         break;
+        case TYPE_UINT64:   writeUint64Impl(id, (uint64_t)val);         break;
+        case TYPE_INT32:    writeInt32Impl(id, (int)val);               break;
+        case TYPE_FIXED64:  writeFixed64Impl(id, (uint64_t)val);        break;
+        case TYPE_FIXED32:  writeFixed32Impl(id, (uint32_t)val);        break;
+        case TYPE_UINT32:   writeUint32Impl(id, (uint32_t)val);         break;
+        case TYPE_SFIXED32: writeSFixed32Impl(id, (int)val);            break;
+        case TYPE_SFIXED64: writeSFixed64Impl(id, (long long)val);      break;
+        case TYPE_SINT32:   writeZigzagInt32Impl(id, (int)val);         break;
+        case TYPE_SINT64:   writeZigzagInt64Impl(id, (long long)val);   break;
+        default:
+            ALOGW("Field type %d is not supported when writing float val.",
+                    (int)((fieldId & FIELD_TYPE_MASK) >> FIELD_TYPE_SHIFT));
+            return false;
+    }
+    return true;
+}
+
+bool
+ProtoOutputStream::write(uint64_t fieldId, int val)
+{
+    if (mCompact) return false;
+    const uint32_t id = (uint32_t)fieldId;
+    switch (fieldId & FIELD_TYPE_MASK) {
+        case TYPE_DOUBLE:   writeDoubleImpl(id, (double)val);           break;
+        case TYPE_FLOAT:    writeFloatImpl(id, (float)val);             break;
+        case TYPE_INT64:    writeInt64Impl(id, (long long)val);         break;
+        case TYPE_UINT64:   writeUint64Impl(id, (uint64_t)val);         break;
+        case TYPE_INT32:    writeInt32Impl(id, (int)val);               break;
+        case TYPE_FIXED64:  writeFixed64Impl(id, (uint64_t)val);        break;
+        case TYPE_FIXED32:  writeFixed32Impl(id, (uint32_t)val);        break;
+        case TYPE_UINT32:   writeUint32Impl(id, (uint32_t)val);         break;
+        case TYPE_SFIXED32: writeSFixed32Impl(id, (int)val);            break;
+        case TYPE_SFIXED64: writeSFixed64Impl(id, (long long)val);      break;
+        case TYPE_SINT32:   writeZigzagInt32Impl(id, (int)val);         break;
+        case TYPE_SINT64:   writeZigzagInt64Impl(id, (long long)val);   break;
+        case TYPE_ENUM:     writeEnumImpl(id, (int)val);                break;
+        case TYPE_BOOL:     writeBoolImpl(id, val != 0);                break;
+        default:
+            ALOGW("Field type %d is not supported when writing int val.",
+                    (int)((fieldId & FIELD_TYPE_MASK) >> FIELD_TYPE_SHIFT));
+            return false;
+    }
+    return true;
+}
+
+bool
+ProtoOutputStream::write(uint64_t fieldId, long long val)
+{
+    if (mCompact) return false;
+    const uint32_t id = (uint32_t)fieldId;
+    switch (fieldId & FIELD_TYPE_MASK) {
+        case TYPE_DOUBLE:   writeDoubleImpl(id, (double)val);           break;
+        case TYPE_FLOAT:    writeFloatImpl(id, (float)val);             break;
+        case TYPE_INT64:    writeInt64Impl(id, (long long)val);         break;
+        case TYPE_UINT64:   writeUint64Impl(id, (uint64_t)val);         break;
+        case TYPE_INT32:    writeInt32Impl(id, (int)val);               break;
+        case TYPE_FIXED64:  writeFixed64Impl(id, (uint64_t)val);        break;
+        case TYPE_FIXED32:  writeFixed32Impl(id, (uint32_t)val);        break;
+        case TYPE_UINT32:   writeUint32Impl(id, (uint32_t)val);         break;
+        case TYPE_SFIXED32: writeSFixed32Impl(id, (int)val);            break;
+        case TYPE_SFIXED64: writeSFixed64Impl(id, (long long)val);      break;
+        case TYPE_SINT32:   writeZigzagInt32Impl(id, (int)val);         break;
+        case TYPE_SINT64:   writeZigzagInt64Impl(id, (long long)val);   break;
+        case TYPE_ENUM:     writeEnumImpl(id, (int)val);                break;
+        case TYPE_BOOL:     writeBoolImpl(id, val != 0);                break;
+        default:
+            ALOGW("Field type %d is not supported when writing long long val.",
+                    (int)((fieldId & FIELD_TYPE_MASK) >> FIELD_TYPE_SHIFT));
+            return false;
+    }
+    return true;
+}
+
+bool
+ProtoOutputStream::write(uint64_t fieldId, bool val)
+{
+    if (mCompact) return false;
+    const uint32_t id = (uint32_t)fieldId;
+    switch (fieldId & FIELD_TYPE_MASK) {
+        case TYPE_BOOL:
+            writeBoolImpl(id, val);
+            return true;
+        default:
+            ALOGW("Field type %d is not supported when writing bool val.",
+                    (int)((fieldId & FIELD_TYPE_MASK) >> FIELD_TYPE_SHIFT));
+            return false;
+    }
+}
+
+bool
+ProtoOutputStream::write(uint64_t fieldId, string val)
+{
+    if (mCompact) return false;
+    const uint32_t id = (uint32_t)fieldId;
+    switch (fieldId & FIELD_TYPE_MASK) {
+        case TYPE_STRING:
+            writeUtf8StringImpl(id, val.c_str(), val.size());
+            return true;
+        default:
+            ALOGW("Field type %d is not supported when writing string val.",
+                    (int)((fieldId & FIELD_TYPE_MASK) >> FIELD_TYPE_SHIFT));
+            return false;
+    }
+}
+
+bool
+ProtoOutputStream::write(uint64_t fieldId, const char* val)
+{
+    if (mCompact) return false;
+    const uint32_t id = (uint32_t)fieldId;
+    int size = 0;
+    while (val[size] != '\0') size++;
+    switch (fieldId & FIELD_TYPE_MASK) {
+        case TYPE_STRING:
+            writeUtf8StringImpl(id, val, size);
+            return true;
+        default:
+            ALOGW("Field type %d is not supported when writing char[] val.",
+                    (int)((fieldId & FIELD_TYPE_MASK) >> FIELD_TYPE_SHIFT));
+            return false;
+    }
+}
+
+/**
+ * Make a token.
+ *  Bits 61-63 - tag size (So we can go backwards later if the object had not data)
+ *                - 3 bits, max value 7, max value needed 5
+ *  Bit  60    - true if the object is repeated
+ *  Bits 59-51 - depth (For error checking)
+ *                - 9 bits, max value 512, when checking, value is masked (if we really
+ *                  are more than 512 levels deep)
+ *  Bits 32-50 - objectId (For error checking)
+ *                - 19 bits, max value 524,288. that's a lot of objects. IDs will wrap
+ *                  because of the overflow, and only the tokens are compared.
+ *  Bits  0-31 - offset of the first size field in the buffer.
+ */
+long long
+makeToken(int tagSize, bool repeated, int depth, int objectId, int sizePos) {
+    return ((0x07L & (long long)tagSize) << 61)
+            | (repeated ? (1LL << 60) : 0)
+            | (0x01ffL & (long long)depth) << 51
+            | (0x07ffffL & (long long)objectId) << 32
+            | (0x0ffffffffL & (long long)sizePos);
+}
+
+/**
+ * Get the encoded tag size from the token.
+ */
+static int getTagSizeFromToken(long long token) {
+    return (int)(0x7 & (token >> 61));
+}
+
+/**
+ * Get the nesting depth of startObject calls from the token.
+ */
+static int getDepthFromToken(long long token) {
+    return (int)(0x01ff & (token >> 51));
+}
+
+/**
+ * Get the location of the childRawSize (the first 32 bit size field) in this object.
+ */
+static int getSizePosFromToken(long long token) {
+    return (int)token;
+}
+
+long long
+ProtoOutputStream::start(uint64_t fieldId)
+{
+    if ((fieldId & FIELD_TYPE_MASK) != TYPE_MESSAGE) {
+        ALOGE("Can't call start for non-message type field: 0x%llx", (long long)fieldId);
+        return 0;
+    }
+
+    uint32_t id = (uint32_t)fieldId;
+    mBuffer.writeHeader(id, WIRE_TYPE_LENGTH_DELIMITED);
+
+    size_t sizePos = mBuffer.wp()->pos();
+
+    mDepth++;
+    mObjectId++;
+    mBuffer.writeRawFixed64(mExpectedObjectToken); // push previous token into stack.
+
+    mExpectedObjectToken = makeToken(get_varint_size(id),
+        (bool)(fieldId & FIELD_COUNT_REPEATED), mDepth, mObjectId, sizePos);
+    return mExpectedObjectToken;
+}
+
+void
+ProtoOutputStream::end(long long token)
+{
+    if (token != mExpectedObjectToken) {
+        ALOGE("Unexpected token: 0x%llx, should be 0x%llx", token, mExpectedObjectToken);
+        return;
+    }
+
+    int depth = getDepthFromToken(token);
+    if (depth != (mDepth & 0x01ff)) {
+        ALOGE("Unexpected depth: %d, should be %d", depth, mDepth);
+        return;
+    }
+    mDepth--;
+
+    int sizePos = getSizePosFromToken(token);
+    // number of bytes written in this start-end session.
+    int childRawSize = mBuffer.wp()->pos() - sizePos - 8;
+
+    // retrieve the old token from stack.
+    mBuffer.ep()->rewind()->move(sizePos);
+    mExpectedObjectToken = mBuffer.readRawFixed64();
+
+    // If raw size is larger than 0, write the negative value here to indicate a compact is needed.
+    if (childRawSize > 0) {
+        mBuffer.editRawFixed32(sizePos, -childRawSize);
+        mBuffer.editRawFixed32(sizePos+4, -1);
+    } else {
+        // reset wp which erase the header tag of the message when its size is 0.
+        mBuffer.wp()->rewind()->move(sizePos - getTagSizeFromToken(token));
+    }
+}
+
+bool
+ProtoOutputStream::compact() {
+    if (mCompact) return true;
+    if (mDepth != 0) {
+        ALOGE("Can't compact when depth(%d) is not zero. Missing calls to end.", mDepth);
+        return false;
+    }
+    // record the size of the original buffer.
+    size_t rawBufferSize = mBuffer.size();
+    if (rawBufferSize == 0) return true; // nothing to do if the buffer is empty;
+
+    // reset edit pointer and recursively compute encoded size of messages.
+    mBuffer.ep()->rewind();
+    if (editEncodedSize(rawBufferSize) == 0) {
+        ALOGE("Failed to editEncodedSize.");
+        return false;
+    }
+
+    // reset both edit pointer and write pointer, and compact recursively.
+    mBuffer.ep()->rewind();
+    mBuffer.wp()->rewind();
+    if (!compactSize(rawBufferSize)) {
+        ALOGE("Failed to compactSize.");
+        return false;
+    }
+    // copy the reset to the buffer.
+    if (mCopyBegin < rawBufferSize) {
+        mBuffer.copy(mCopyBegin, rawBufferSize - mCopyBegin);
+    }
+
+    // mark true means it is not legal to write to this ProtoOutputStream anymore
+    mCompact = true;
+    return true;
+}
+
+/**
+ * First compaction pass.  Iterate through the data, and fill in the
+ * nested object sizes so the next pass can compact them.
+ */
+size_t
+ProtoOutputStream::editEncodedSize(size_t rawSize)
+{
+    size_t objectStart = mBuffer.ep()->pos();
+    size_t objectEnd = objectStart + rawSize;
+    size_t encodedSize = 0;
+    int childRawSize, childEncodedSize;
+    size_t childEncodedSizePos;
+
+    while (mBuffer.ep()->pos() < objectEnd) {
+        uint32_t tag = (uint32_t)mBuffer.readRawVarint();
+        encodedSize += get_varint_size(tag);
+        switch (read_wire_type(tag)) {
+            case WIRE_TYPE_VARINT:
+                do {
+                    encodedSize++;
+                } while ((mBuffer.readRawByte() & 0x80) != 0);
+                break;
+            case WIRE_TYPE_FIXED64:
+                encodedSize += 8;
+                mBuffer.ep()->move(8);
+                break;
+            case WIRE_TYPE_LENGTH_DELIMITED:
+                childRawSize = (int)mBuffer.readRawFixed32();
+                childEncodedSizePos = mBuffer.ep()->pos();
+                childEncodedSize = (int)mBuffer.readRawFixed32();
+                if (childRawSize >= 0 && childRawSize == childEncodedSize) {
+                    mBuffer.ep()->move(childRawSize);
+                } else if (childRawSize < 0 && childEncodedSize == -1){
+                    childEncodedSize = editEncodedSize(-childRawSize);
+                    mBuffer.editRawFixed32(childEncodedSizePos, childEncodedSize);
+                } else {
+                    ALOGE("Bad raw or encoded values: raw=%d, encoded=%d at %zu",
+                            childRawSize, childEncodedSize, childEncodedSizePos);
+                    return 0;
+                }
+                encodedSize += get_varint_size(childEncodedSize) + childEncodedSize;
+                break;
+            case WIRE_TYPE_FIXED32:
+                encodedSize += 4;
+                mBuffer.ep()->move(4);
+                break;
+            default:
+                ALOGE("Unexpected wire type %d in editEncodedSize at [%zu, %zu]",
+                        read_wire_type(tag), objectStart, objectEnd);
+                return 0;
+        }
+    }
+    return encodedSize;
+}
+
+/**
+ * Second compaction pass.  Iterate through the data, and copy the data
+ * forward in the buffer, converting the pairs of uint32s into a single
+ * unsigned varint of the size.
+ */
+bool
+ProtoOutputStream::compactSize(size_t rawSize)
+{
+    size_t objectStart = mBuffer.ep()->pos();
+    size_t objectEnd = objectStart + rawSize;
+    int childRawSize, childEncodedSize;
+
+    while (mBuffer.ep()->pos() < objectEnd) {
+        uint32_t tag = (uint32_t)mBuffer.readRawVarint();
+        switch (read_wire_type(tag)) {
+            case WIRE_TYPE_VARINT:
+                while ((mBuffer.readRawByte() & 0x80) != 0) {}
+                break;
+            case WIRE_TYPE_FIXED64:
+                mBuffer.ep()->move(8);
+                break;
+            case WIRE_TYPE_LENGTH_DELIMITED:
+                mBuffer.copy(mCopyBegin, mBuffer.ep()->pos() - mCopyBegin);
+
+                childRawSize = (int)mBuffer.readRawFixed32();
+                childEncodedSize = (int)mBuffer.readRawFixed32();
+                mCopyBegin = mBuffer.ep()->pos();
+
+                // write encoded size to buffer.
+                mBuffer.writeRawVarint32(childEncodedSize);
+                if (childRawSize >= 0 && childRawSize == childEncodedSize) {
+                    mBuffer.ep()->move(childEncodedSize);
+                } else if (childRawSize < 0){
+                    if (!compactSize(-childRawSize)) return false;
+                } else {
+                    ALOGE("Bad raw or encoded values: raw=%d, encoded=%d",
+                            childRawSize, childEncodedSize);
+                    return false;
+                }
+                break;
+            case WIRE_TYPE_FIXED32:
+                mBuffer.ep()->move(4);
+                break;
+            default:
+                ALOGE("Unexpected wire type %d in compactSize at [%zu, %zu]",
+                        read_wire_type(tag), objectStart, objectEnd);
+                return false;
+        }
+    }
+    return true;
+}
+
+static bool write_all(int fd, uint8_t const* buf, size_t size)
+{
+    while (size > 0) {
+        ssize_t amt = ::write(fd, buf, size);
+        if (amt < 0) {
+            return false;
+        }
+        size -= amt;
+        buf += amt;
+    }
+    return true;
+}
+
+bool
+ProtoOutputStream::flush()
+{
+    if (mFd < 0) return false;
+    if (!compact()) return false;
+
+    EncodedBuffer::iterator it = mBuffer.begin();
+    while (it.readBuffer() != NULL) {
+        if (!write_all(mFd, it.readBuffer(), it.currentToRead())) return false;
+        it.rp()->move(it.currentToRead());
+    }
+    return true;
+}
+
+
+// =========================================================================
+// Private functions
+
+/**
+ * bit_cast
+ */
+template <class From, class To>
+inline To bit_cast(From const &from) {
+    To to;
+    memcpy(&to, &from, sizeof(to));
+    return to;
+}
+
+inline void
+ProtoOutputStream::writeDoubleImpl(uint32_t id, double val)
+{
+    if (val == 0.0) return;
+    mBuffer.writeHeader(id, WIRE_TYPE_FIXED64);
+    mBuffer.writeRawFixed64(bit_cast<double, uint64_t>(val));
+}
+
+inline void
+ProtoOutputStream::writeFloatImpl(uint32_t id, float val)
+{
+    if (val == 0.0) return;
+    mBuffer.writeHeader(id, WIRE_TYPE_FIXED32);
+    mBuffer.writeRawFixed32(bit_cast<float, uint32_t>(val));
+}
+
+inline void
+ProtoOutputStream::writeInt64Impl(uint32_t id, long long val)
+{
+    if (val == 0) return;
+    mBuffer.writeHeader(id, WIRE_TYPE_VARINT);
+    mBuffer.writeRawVarint64((uint64_t)val);
+}
+
+inline void
+ProtoOutputStream::writeInt32Impl(uint32_t id, int val)
+{
+    if (val == 0) return;
+    mBuffer.writeHeader(id, WIRE_TYPE_VARINT);
+    mBuffer.writeRawVarint32((uint32_t)val);
+}
+
+inline void
+ProtoOutputStream::writeUint64Impl(uint32_t id, uint64_t val)
+{
+   if (val == 0) return;
+    mBuffer.writeHeader(id, WIRE_TYPE_VARINT);
+    mBuffer.writeRawVarint64(val);
+}
+
+inline void
+ProtoOutputStream::writeUint32Impl(uint32_t id, uint32_t val)
+{
+    if (val == 0) return;
+    mBuffer.writeHeader(id, WIRE_TYPE_VARINT);
+    mBuffer.writeRawVarint32(val);
+}
+
+inline void
+ProtoOutputStream::writeFixed64Impl(uint32_t id, uint64_t val)
+{
+    if (val == 0) return;
+    mBuffer.writeHeader(id, WIRE_TYPE_FIXED64);
+    mBuffer.writeRawFixed64(val);
+}
+
+inline void
+ProtoOutputStream::writeFixed32Impl(uint32_t id, uint32_t val)
+{
+    if (val == 0) return;
+    mBuffer.writeHeader(id, WIRE_TYPE_FIXED32);
+    mBuffer.writeRawFixed32(val);
+}
+
+inline void
+ProtoOutputStream::writeSFixed64Impl(uint32_t id, long long val)
+{
+    if (val == 0) return;
+    mBuffer.writeHeader(id, WIRE_TYPE_FIXED64);
+    mBuffer.writeRawFixed64((uint64_t)val);
+}
+
+inline void
+ProtoOutputStream::writeSFixed32Impl(uint32_t id, int val)
+{
+    if (val == 0) return;
+    mBuffer.writeHeader(id, WIRE_TYPE_FIXED32);
+    mBuffer.writeRawFixed32((uint32_t)val);
+}
+
+inline void
+ProtoOutputStream::writeZigzagInt64Impl(uint32_t id, long long val)
+{
+    if (val == 0) return;
+    mBuffer.writeHeader(id, WIRE_TYPE_VARINT);
+    mBuffer.writeRawVarint64((val << 1) ^ (val >> 63));
+}
+
+inline void
+ProtoOutputStream::writeZigzagInt32Impl(uint32_t id, int val)
+{
+    if (val == 0) return;
+    mBuffer.writeHeader(id, WIRE_TYPE_VARINT);
+    mBuffer.writeRawVarint32((val << 1) ^ (val >> 31));
+}
+
+inline void
+ProtoOutputStream::writeEnumImpl(uint32_t id, int val)
+{
+    mBuffer.writeHeader(id, WIRE_TYPE_VARINT);
+    mBuffer.writeRawVarint32((uint32_t) val);
+}
+
+inline void
+ProtoOutputStream::writeBoolImpl(uint32_t id, bool val)
+{
+    if (!val) return;
+    mBuffer.writeHeader(id, WIRE_TYPE_VARINT);
+    mBuffer.writeRawVarint32(val ? 1 : 0);
+}
+
+inline void
+ProtoOutputStream::writeUtf8StringImpl(uint32_t id, const char* val, size_t size)
+{
+    if (val == NULL || size == 0) return;
+    mBuffer.writeHeader(id, WIRE_TYPE_LENGTH_DELIMITED);
+    mBuffer.writeRawFixed32(size);
+    mBuffer.writeRawFixed32(size);
+    for (size_t i=0; i<size; i++) {
+        mBuffer.writeRawByte((uint8_t)val[i]);
+    }
+}
+
+} // util
+} // android
+