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I'm trying to read / write multiple Protocol Buffers messages from files, in both C++ and Java. Google suggests writing length prefixes before the messages, but there's no way to do that by default (that I could see).

However, the Java API in version 2.1.0 received a set of "Delimited" I/O functions which apparently do that job:

parseDelimitedFrom
mergeDelimitedFrom
writeDelimitedTo

Are there C++ equivalents? And if not, what's the wire format for the size prefixes the Java API attaches, so I can parse those messages in C++?

share|improve this question
    
I don't know, but it's open-source so you can find out from the source. –  Douglas Leeder Feb 26 '10 at 11:59
    
Yeah, that's what I ended up doing. :) See my answer below. –  tzaman Feb 26 '10 at 12:53

8 Answers 8

up vote 3 down vote accepted

I'm a bit late to the party here, but the below implementations include some optimizations missing from the other answers and will not fail after 64MB of input (though it still enforces the 64MB limit on each individual message, just not on the whole stream).

(I am the author of the C++ and Java protobuf libraries, but I no longer work for Google. Sorry that this code never made it into the official lib. This is what it would look like if it had.)

bool writeDelimitedTo(
    const google::protobuf::MessageLite& message,
    google::protobuf::io::ZeroCopyOutputStream* rawOutput) {
  // We create a new coded stream for each message.  Don't worry, this is fast.
  google::protobuf::io::CodedOutputStream output(rawOutput);

  // Write the size.
  const int size = message.ByteSize();
  output.WriteVarint32(size);

  uint8_t* buffer = output.GetDirectBufferForNBytesAndAdvance(size);
  if (buffer != NULL) {
    // Optimization:  The message fits in one buffer, so use the faster
    // direct-to-array serialization path.
    message.SerializeWithCachedSizesToArray(buffer);
  } else {
    // Slightly-slower path when the message is multiple buffers.
    message.SerializeWithCachedSizes(&output);
    if (output.HadError()) return false;
  }

  return true;
}

bool readDelimitedFrom(
    google::protobuf::io::ZeroCopyInputStream* rawInput,
    google::protobuf::MessageLite* message) {
  // We create a new coded stream for each message.  Don't worry, this is fast,
  // and it makes sure the 64MB total size limit is imposed per-message rather
  // than on the whole stream.  (See the CodedInputStream interface for more
  // info on this limit.)
  google::protobuf::io::CodedInputStream input(rawInput);

  // Read the size.
  uint32_t size;
  if (!input.ReadVarint32(&size)) return false;

  // Tell the stream not to read beyond that size.
  google::protobuf::io::CodedInputStream::Limit limit =
      input.PushLimit(size);

  // Parse the message.
  if (!message->MergeFromCodedStream(&input)) return false;
  if (!input.ConsumedEntireMessage()) return false;

  // Release the limit.
  input.PopLimit(limit);

  return true;
}
share|improve this answer
    
Hey, thanks for the answer Kenton! I'll switch accepted to this one over my own. Although I suspect the best answer at this point is to use Cap'n Proto instead? :) –  tzaman Apr 8 at 20:46
    
Also - why not get this merged in to the official protobuf lib on code.google? –  tzaman Apr 8 at 20:48
    
As an official patch it would need some more work, like unit tests, maybe a better error recovery story, etc., and between Cap'n Proto and Sandstorm.io I just don't have time. :/ If someone wants to claim this as their own and push it upstream feel free. The two functions should probably become methods on MessageLite. You should probably discuss with the current maintainers before doing any work as they might have their own plans. –  Kenton Varda Apr 9 at 17:59

Okay, so I haven't been able to find top-level C++ functions implementing what I need, but some spelunking through the Java API reference turned up the following, inside the MessageLite interface:

void writeDelimitedTo(OutputStream output)
/*  Like writeTo(OutputStream), but writes the size of 
    the message as a varint before writing the data.   */

So the Java size prefix is a (Protocol Buffers) varint!

Armed with that information, I went digging through the C++ API and found the CodedStream header, which has these:

bool CodedInputStream::ReadVarint32(uint32 * value)
void CodedOutputStream::WriteVarint32(uint32 value)

Using those, I should be able to roll my own C++ functions that do the job.

They should really add this to the main Message API though; it's missing functionality considering Java has it, and so does Marc Gravell's excellent protobuf-net C# port (via SerializeWithLengthPrefix and DeserializeWithLengthPrefix).

share|improve this answer
1  
Yes. This is the way I solved this problem. I added another answer with some sample pseudo code for writing a message. –  Yukiko Feb 26 '10 at 13:27

I solved the same problem using CodedOutputStream/ArrayOutputStream to write the message (with the size) and CodedInputStream/ArrayInputStream to read the message (with the size).

For example, the following pseudo-code writes the message size following by the message:

const unsigned bufLength = 256;
unsigned char buffer[bufLength];
Message protoMessage;

google::protobuf::io::ArrayOutputStream arrayOutput(buffer, bufLength);
google::protobuf::io::CodedOutputStream codedOutput(&arrayOutput);

codedOutput.WriteLittleEndian32(protoMessage.ByteSize());
protoMessage.SerializeToCodedStream(&codedOutput);

When writing you should also check that your buffer is large enough to fit the message (including the size). And when reading, you should check that your buffer contains a whole message (including the size).

It definitely would be handy if they added convenience methods to C++ API similar to those provided by the Java API.

share|improve this answer
1  
I'll be using an underlying OstreamOutputStream, so the length-checking won't be necessary, but thanks for the answer. :) In your case, I'd probably go with setting the bufLength to protoMessage.ByteSize() plus some extra for the size prefix. –  tzaman Feb 28 '10 at 12:32
    
Very helpful mate, cheers –  Cookie Aug 12 '11 at 16:47

Here you go:

#include <google/protobuf/io/zero_copy_stream_impl.h>
#include <google/protobuf/io/coded_stream.h>

using namespace google::protobuf::io;

class FASWriter 
{
    std::ofstream mFs;
    OstreamOutputStream *_OstreamOutputStream;
    CodedOutputStream *_CodedOutputStream;
public:
    FASWriter(const std::string &file) : mFs(file,std::ios::out | std::ios::binary)
    {
        assert(mFs.good());

        _OstreamOutputStream = new OstreamOutputStream(&mFs);
        _CodedOutputStream = new CodedOutputStream(_OstreamOutputStream);
    }

    inline void operator()(const ::google::protobuf::Message &msg)
    {
        _CodedOutputStream->WriteVarint32(msg.ByteSize());

        if ( !msg.SerializeToCodedStream(_CodedOutputStream) )
            std::cout << "SerializeToCodedStream error " << std::endl;
    }

    ~FASWriter()
    {
        delete _CodedOutputStream;
        delete _OstreamOutputStream;
        mFs.close();
    }
};

class FASReader
{
    std::ifstream mFs;

    IstreamInputStream *_IstreamInputStream;
    CodedInputStream *_CodedInputStream;
public:
    FASReader(const std::string &file), mFs(file,std::ios::in | std::ios::binary)
    {
        assert(mFs.good());

        _IstreamInputStream = new IstreamInputStream(&mFs);
        _CodedInputStream = new CodedInputStream(_IstreamInputStream);      
    }

    template<class T>
    bool ReadNext()
    {
        T msg;
        unsigned __int32 size;

        bool ret;
        if ( ret = _CodedInputStream->ReadVarint32(&size) )
        {   
            CodedInputStream::Limit msgLimit = _CodedInputStream->PushLimit(size);
            if ( ret = msg.ParseFromCodedStream(_CodedInputStream) )
            {
                _CodedInputStream->PopLimit(msgLimit);      
                std::cout << mFeed << " FASReader ReadNext: " << msg.DebugString() << std::endl;
            }
        }

        return ret;
    }

    ~FASReader()
    {
        delete _CodedInputStream;
        delete _IstreamInputStream;
        mFs.close();
    }
};
share|improve this answer

Was also looking for a solution for this. Here's the core of our solution, assuming some java code wrote many MyRecord messages with writeDelimitedTo into a file. Open the file and loop, doing:

if(someCodedInputStream->ReadVarint32(&bytes)) {
  CodedInputStream::Limit msgLimit = someCodedInputStream->PushLimit(bytes);
  if(myRecord->ParseFromCodedStream(someCodedInputStream)) {
    //do your stuff with the parsed MyRecord instance
  } else {
    //handle parse error
  }
  someCodedInputStream->PopLimit(msgLimit);
} else {
  //maybe end of file
}

Hope it helps.

share|improve this answer

IsteamInputStream is very fragile to eofs and other errors that easily occurs when used together with std::istream. After this the protobuf streams are permamently damaged and any already used buffer data is destroyed. There are proper support for reading from traditional streams in protobuf.

Implement google::protobuf::io::CopyingInputStream and use that together with CopyingInputStreamAdapter. Do the same for the output variants.

In practice a parsing call ends up in google::protobuf::io::CopyingInputStream::Read(void* buffer, int size) where a buffer is given. The only thing left to do is read into it somehow.

Here's an example for use with Asio synchronized streams (SyncReadStream/SyncWriteStream):

#include <google/protobuf/io/zero_copy_stream_impl_lite.h>

using namespace google::protobuf::io;


template <typename SyncReadStream>
class AsioInputStream : public CopyingInputStream {
    public:
        AsioInputStream(SyncReadStream& sock);
        int Read(void* buffer, int size);
    private:
        SyncReadStream& m_Socket;
};


template <typename SyncReadStream>
AsioInputStream<SyncReadStream>::AsioInputStream(SyncReadStream& sock) :
    m_Socket(sock) {}


template <typename SyncReadStream>
int
AsioInputStream<SyncReadStream>::Read(void* buffer, int size)
{
    std::size_t bytes_read;
    boost::system::error_code ec;
    bytes_read = m_Socket.read_some(boost::asio::buffer(buffer, size), ec);

    if(!ec) {
        return bytes_read;
    } else if (ec == boost::asio::error::eof) {
        return 0;
    } else {
        return -1;
    }
}


template <typename SyncWriteStream>
class AsioOutputStream : public CopyingOutputStream {
    public:
        AsioOutputStream(SyncWriteStream& sock);
        bool Write(const void* buffer, int size);
    private:
        SyncWriteStream& m_Socket;
};


template <typename SyncWriteStream>
AsioOutputStream<SyncWriteStream>::AsioOutputStream(SyncWriteStream& sock) :
    m_Socket(sock) {}


template <typename SyncWriteStream>
bool
AsioOutputStream<SyncWriteStream>::Write(const void* buffer, int size)
{   
    boost::system::error_code ec;
    m_Socket.write_some(boost::asio::buffer(buffer, size), ec);
    return !ec;
}

Usage:

AsioInputStream<boost::asio::ip::tcp::socket> ais(m_Socket); // Where m_Socket is a instance of boost::asio::ip::tcp::socket
CopyingInputStreamAdaptor cis_adp(&ais);
CodedInputStream cis(&cis_adp);

Message protoMessage;
uint32_t msg_size;

/* Read message size */
if(!cis.ReadVarint32(&msg_size)) {
    // Handle error
 }

/* Make sure not to read beyond limit of message */
CodedInputStream::Limit msg_limit = cis.PushLimit(msg_size);
if(!msg.ParseFromCodedStream(&cis)) {
    // Handle error
}

/* Remove limit */
cis.PopLimit(msg_limit);
share|improve this answer

Working with an objective-c version of protocol-buffers, I ran into this exact issue. On sending from the iOS client to a Java based server that uses parseDelimitedFrom, which expects the length as the first byte, I needed to call writeRawByte to the CodedOutputStream first. Posting here to hopegully help others that run into this issue. While working through this issue, one would think that Google proto-bufs would come with a simply flag which does this for you...

    Request* request = [rBuild build];

    [self sendMessage:request];
} 


- (void) sendMessage:(Request *) request {

    //** get length
    NSData* n = [request data];
    uint8_t len = [n length];

    PBCodedOutputStream* os = [PBCodedOutputStream streamWithOutputStream:outputStream];
    //** prepend it to message, such that Request.parseDelimitedFrom(in) can parse it properly
    [os writeRawByte:len];
    [request writeToCodedOutputStream:os];
    [os flush];
}
share|improve this answer

You can use getline for reading a string from a stream, using the specified delimiter:

istream& getline ( istream& is, string& str, char delim );

(defined in the header)

share|improve this answer
    
Not the same thing; protocol buffers is a binary format, the "Delimited" functions actually just prepend a size. I'd need to know the format of the size prefix. –  tzaman Feb 26 '10 at 10:27

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