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I write my own C function for Postgresql which have bytea parameter. This function is defined as followed

CREATE OR REPLACE FUNCTION putDoc(entity_type int, entity_id int, 
        doc_type text, doc_data bytea) RETURNS text
     AS 'proj_pg', 'call_putDoc'
     LANGUAGE C STRICT;

My function call_putDoc, written on C, reads doc_data and pass its data to another function like file_magic to determine mime-type of the data and then pass data to appropriate file converter.

I call this postgresql function from php script which loads file content to last parameter. So, I should pass file contents with pg_escape_bytea.

When data are passed to call_putDoc C function, does its data already unescaped and if not - how to unescape them?

Edit: As I found, no, data, passed to C function, is not unescaped. How to unescape it?

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As far, as nobody answers, seems I found a "solution", which doesn't answer the question. To pass data to DB we can use base64_encode. When pass data in C function we can use GLib g_base64_decode function. But this solution is not really good - size of stored data becomes very huge... So, answer is still actual. –  Pupkov-Zadnij Aug 26 '12 at 21:07
    
And as I can see while debugging, yes - I must unescape passed data. But how? –  Pupkov-Zadnij Aug 26 '12 at 21:12
2  
No, don't use GLib functions. Use Pg's built-in bytea handling functions, they're aware of the bytea_encoding so they'll work with both hex and octal format data. –  Craig Ringer Aug 26 '12 at 21:18
    
But I cann't found that bytea handling functions. Where can I found them? –  Pupkov-Zadnij Aug 26 '12 at 21:21
    
src/include/utils/bytea.h and src/backend/util/adt/varlena.c –  Craig Ringer Aug 26 '12 at 21:34

1 Answer 1

up vote 7 down vote accepted

When it comes to programming C functions for PostgreSQL, the documentation explains some of the basics, but for the rest it's usually down to reading the source code for the PostgreSQL server.

Thankfully the code is usually well structured and easy to read. I wish it had more doc comments though.

Some vital tools for navigating the source code are either:

  • A good IDE; or
  • The find and git grep commands.

In this case, after having a look I think your bytea argument is being decoded - at least in Pg 9.2, it's possible (though rather unlikely) that 8.4 behaved differently. The server should automatically do that before calling your function, and I suspect you have a programming error in how you are calling your putDoc function from SQL. Without sources it's hard to say more.

  • Try calling it putDoc from psql with some sample data you've verified is correctly escape encoded for your 8.4 server
  • Try setting a breakpoint in byteain to make sure it's called before your function
  • Follow through the steps below to verify that what I've said applies to 8.4.
  • Set a breakpoint in your function and step through with gdb, using the print function as you go to examine the variables. There are lots of gdb tutorials that'll teach you the required break, backtrace, cont, step, next, print, etc commands, so I won't repeat all that here.

As for what's wrong: You could be double-encoding your data - for example, given your comments I'm wondering if you've base64 encoded data and passed it to Pg with bytea_output set to escape. Pg would then decode it ... giving you a bytea containing the bytea representation of the base64 encoding of the bytes, not the raw bytes themselves. (Edit Sounds like probably not based on comments).

For correct use of bytea see:

To say more I'd need source code.

Here's what I did:


A quick find -name bytea\* in the source tree locates src/include/utils/bytea.h. A comment there notes that the function definitions are in utils/adt/varlena.c - which turns out to actually be src/backend/util/adt/varlena.c.

In bytea.h you'll also notice the definition of the bytea_output GUC parameter, which is what you see when you SHOW bytea_output or SET bytea_output in psql.

Let's have a look at a function we know does something with bytea data, like bytea_substr, in varlena.c. It's so short I'll include one of its declarations here:

Datum
bytea_substr(PG_FUNCTION_ARGS)
{
        PG_RETURN_BYTEA_P(bytea_substring(PG_GETARG_DATUM(0),
                    PG_GETARG_INT32(1),
                    PG_GETARG_INT32(2),
                    false));
}

Many of the public functions are wrappers around private implementation, so the private implementation can be re-used with functions that have differing arguments, or from other private code too. This is such a case; you'll see that the real implementation is bytea_substring. All the above does is handle the SQL function calling interface. It doesn't mess with the Datum containing the bytea input at all.

The real implementation bytea_substring follows directly below the SQL interface wrappers in this partcular case, so read on in varlena.c.

The implementation doesn't seem to refer to the bytea_output GUC, and basically just calls DatumGetByteaPSlice to do the work after handling some border cases. git grep DatumGetByteaPSlice shows us that DatumGetByteaPSlice is in src/include/fmgr.h, and is a macro defined as:

#define DatumGetByteaPSlice(X,m,n)      ((bytea *) PG_DETOAST_DATUM_SLICE(X,m,n))

where PG_DETOAST_DATUM_SLICE is

#define PG_DETOAST_DATUM_SLICE(datum,f,c) \
            pg_detoast_datum_slice((struct varlena *) DatumGetPointer(datum), \
            (int32) (f), (int32) (c))

so it's just detoasting the datum and returning a memory slice. This leaves me wondering: has the decoding been done elsewhere, as part of the function call interface? Or have I missed something?

A look at byteain, the input function for bytea, shows that it's certainly decoding the data. Set a breakpoint in that function and it should trip when you call your function from SQL, showing that the bytea data is really being decoded.

For example, let's see if byteain gets called when we call bytea_substr with:

SELECT substring('1234'::bytea, 2,2);

In case you're wondering how substring(bytea) gets turned into a C call to bytea_substr, look at src/catalog/pg_proc.h for the mappings.

We'll start psql and get the pid of the backend:

$ psql -q regress
regress=# select pg_backend_pid();
 pg_backend_pid 
----------------
          18582
(1 row)

then in another terminal connect to that pid with gdb, set a breakpoint, and continue execution:

$ sudo -u postgres gdb -q -p 18582
Attaching to process 18582
... blah blah ...
(gdb) break bytea_substr
Breakpoint 1 at 0x6a9e40: file varlena.c, line 1845.
(gdb) cont
Continuing.

In the 1st terminal we execute in psql:

SELECT substring('1234'::bytea, 2,2);

... and notice that it hangs without returning a result. Good. That's because we tripped the breakpoint in gdb, as you can see in the 2nd terminal:

Breakpoint 1, bytea_substr (fcinfo=0x1265690) at varlena.c:1845
1845            PG_RETURN_BYTEA_P(bytea_substring(PG_GETARG_DATUM(0),
(gdb) 

A backtrace with the bt command doesn't show bytea_substr in the call path, it's all SQL function call machinery. So Pg is decoding the bytea before it's passing it to bytea_substr.

You can now detach the debugger with quit. This won't quit the Pg backend, only detach and quit the debugger.

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