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Welcome To GDBWIRE

GDBWIRE is a portable lightweight library for communicating with the [GNU debugger] (http://www.gnu.org/software/gdb/).

It is intended to be used by developers that would like to communicate with GDB using the the GDB/MI interface, but with out reinventing the wheel.

GDBWIRE communicates with GDB using the GDB/MI interface. It has several core features that make it unique.

  • Portable - Written in C and runs on Linux, Windows (mingw or cygwin) and Mac
  • Standard Compliant - Compliant for both c99 and c11
  • Efficient - Written using Bison and Flex
  • Asynchronous - Uses a Bison push parser which will not block your main loop
  • Reentrant - Supports the use of threads in your application code
  • Tested - Has a robust test suite with 100% parser code coverage
  • Low Level - You provide GDB output characters, GDBWIRE provides parse trees
  • High Level - TODO: You provide GDB output characters, GDBWIRE provides events
  • Error Handling - Unexpected GDB output will be handled gracefully
  • Amalgamation - Easily integrates into your existing build system

Examples

Low Level Interface

GDBWIRE currently provides an example of the low level interface described above in the gdbwire_mi example program.

This program is particularly useful when run from the command line, from the build directory, as follows,

gdb -i=mi | examples/gdbwire_mi

This allows a user to interact with gdb in arbitrary ways from the command line. At the same time, the user can determine if the gdbwire_mi parser is able to handle the gdbwire_mi output created by gdb. If the GDBWIRE parser fails, it will output the GDB/MI line that it could not handle.

High Level Interface

GDBWIRE currently provides an example of the high level interface described above in the gdbwire example program.

This program is particularly useful when run from the command line, from the build directory, as follows,

gdb -i=mi | examples/gdbwire

This example is a work in progress. It will be modified in the future to invoke gdb itself, read gdb's output, send the output to gdbwire and handle the events that gdbwire creates. For now, this example demonstrates the ability of gdbwire to handle gdb's output and produce the appropriate events back to the caller.

Build Instructions

Dependencies

You must have the following packages installed.

  • sh
  • autoconf
  • automake
  • aclocal
  • autoheader
  • libtool
  • flex
  • bison
  • gcc/g++

Preparing the configure

Run ./autogen.sh in the current working directory to generate the configure script.

Running configure, make and make install

You can run ./configure from within the source tree, however I usually run configure from outside the source tree like so,

mkdir ../build
cd ../build
../gdbwire/configure --prefix=$PWD/../prefix --enable-tests --enable-examples
make -srj4
make install

I typically enable more error checking with the build tools like so,

YFLAGS="-Wno-deprecated" CFLAGS="-g -O0 -std=c11 -Wall -Wextra -Wshadow -Werror -Wmissing-include-dirs -Wno-unused-parameter -pedantic" CXXFLAGS="-g -O0 -std=c++11 -Wall -Wextra -Werror -pedantic -Wno-unused-parameter" ../gdbwire/configure --prefix=$PWD/../prefix --enable-tests --enable-examples --disable-shared --enable-amalgamation

If you like to have a silent build, and the libtool link lines are bothering you, you can set this environment variable to suppress libtools printing of the link line,

LIBTOOLFLAGS=--silent

Running the test suite

If you want to run the test suite you have to tell the build system to build it. This is done by passing --enable-tests on the configure line.

After you have built the test suite, you can run all the unit tests with the command,

./test_suite

Ensure that you introduce no memory leaks or memory errors in the test suite. You can do this with the command,

LD_LIBRARY_PATH=$PWD/.libs/ valgrind --leak-check=full --tool=memcheck ./.libs/test_suite

in the directory where the test_suite executable is created. You should expect to see valgrind output something like,

HEAP SUMMARY:
    in use at exit: 0 bytes in 0 blocks
    total heap usage: X allocs, X frees, Y bytes allocated

    All heap blocks were freed -- no leaks are possible

    For counts of detected and suppressed errors, rerun with: -v
    ERROR SUMMARY: 0 errors from 0 contexts (suppressed: 0 from 0)

An overview of the source code

directory description
src All source code is in here
src/amalgamation The scripts to build the amalgamation
src/progs All programs go here
src/progs/test_suite The unit test executable
src/progs/examples Example programs using the gdbwire interfaces
src The gdbwire library source code

The amalgamation

gdbwire supports creating an amalgamation of the source code. When passing --enable-amalgmation on the configure line, gdbwire will create two special files, gdbwire.h and gdbwire.c.

gdbwire.h will contain all of the header files required in the gdbwire library. If you include this file in your source code you have the full programming interface to gdbwire at your disposal.

gdbwire.c will contain all of the source code files required to build gdbwire. All you need to do is compile and link this into your application.

If you would like to use gdbwire, you can copy the amalgamation into your source repository and commit it along with your source files. This will ensure that developers building your source code will not require also building gdbwire. It also allows you to commit a known working version of gdbwire along with your source code.

To update gdbwire versions, simply get the newest amalgamation and save it in place of the one that you have.

Developer Conventions

Proper Error handling is an important part of gdbwire. This library is intended to be used by other applications and it is important to provide appropriate error messages to the end users when necessary.

Result codes have been chosen as the primary means of returning status from a function. The result codes are an enumeration called gdbwire_result, which is defined in the file gdbwire_result.h. GDBWIRE_OK is a successful result status and all others indicate a particular error condition.

Not all functions need to return a result code. A function may return void if it can not fail. A function can return a NULL pointer when it makes sense to do so. Common sense should be applied.

As a rule of thumb, error conditions should be handled if possible. Otherwise they should bubble up. This should repeat at each level until the gdbwire user receives the proper error result.

It is encouraged that all function interfaces are documented and that the preconditions of the functions are clearly stated. The function body is encouraged to assert those preconditions to catch errors as soon as possible. Some macros have been added to help with this matter. GDBWIRE_ASSERT and GDBWIRE_ASSERT_ERRNO in gdbwire_assert.h are intended to help the developer both assert, log and return an appropriate error status on assertion failure. GDBWIRE_ASSERT_GOTO has been added to avoid duplicating error handling code in a function. The common error handling code can be written in a label that similar error states can jump to. Other macros may be added to help facilitate automatic error checking, logging and error propagation.

Finally, the gdbwire users will most likely hit issues in the field that the source code in gdbwire does not expect. In these situations it is appropriate to use the gdbwire_logger interface to log all information that might be useful to help reproduce or fix an issue that the user has encountered. The least amount of useful information would be optimal.

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