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GDB Stub for DJGPP 0.2 Readme File ================================== Copyright --------- GDB Stub for DJGPP is distributed under the terms of the GNU Library General Public License (GNU LGPL) - please see the document LICENSE, which should be found in the same directory as this file. Copyright (c) 2000 by Jonathan Brogdon, 2002 by Gordon Schumacher What It Does ------------ The GDB stub is used to debug a DJGPP target remotely over a one of the PC COM ports. GDB, running on a host machine, communicates with the target using the GDB serial protocol over the serial link. For more information on the GDB stub, see "Debugging with GDB, The GNU Source-Level Debugger", by Richard M. Stallman and Roland H. Pesch (http://sources.redhat.com/gdb/download/onlinedocs/gdb.html) How It Works ------------ Exceptions: The GDB stub needs to handle all processor exceptions. Since these exceptions already handled by DJGPP, we cannot handle them directly. DJGPP maps all processor exceptions to signals. Therefore, we can install the GDB stub handler as the signal handler for those signals that represent processor exceptions. The following table shows the processor exception to signal mapping: Exception/Interrupt: Exception #: Signal: ------------------- ----------- ------ Divide Error 0 SIGFPE Debug Exception 1 SIGTRAP NMI Interrupt 2 No signal defined Breakpoint 3 SIGTRAP INTO-detected overflow 4 SIGFPE BOUND Range Exceeded 5 SIGSEGV Invalid Opcode 6 No signal defined Coprocessor not available 7 SIGNOFP Double Fault 8 SIGSEGV Coprocessor Seg overrun 9 SIGSEGV Invalid Task State Seg 10 No signal defined Segment not present 11 SIGSEGV Stack Fault 12 SIGSEGV General Protection Fault 13 SIGSEGV Page Fault 14 SIGSEGV Intel Reserved 15 No signal defined Coprocessor Error 16 SIGFPE The GDB stub handler services requests from the GDB host. These requests are seen by the GDB stub handler as command messages from the GDB host. These commands and command formats are defined in "Debugging with GDB, The GNU Source-Level Debugger", by Richard M. Stallman and Roland H. Pesch (http://sources.redhat.com/gdb/ download/onlinedocs/gdb.html -- one of many sources). Serial Interface: Interface functions for sending and receiving characters from the serial interface must be provided by the engineer porting the GDB stub. The following funtions must be provided to support the implementation. int getDebugChar(void); void putDebugChar(int c); There are a variety of serial libraries for DJGPP. The user may already be using one of these libraries in their application, and installing more than one serial library often causes conflicts. To this end, a modular function layer was written that allows any serial library to be used with the GDB stub. Layers have been written to support SVAsync, DZComm, and the _bios_serialcom() function. At the time of this writing, DZComm appears to work the best for serial debugging. Hard Coded Breakpoint: A breakpoint() function is provided to manually invoke the stub. This function, inserts a breakpoint instruction directly in the code to invoke the GDB stub handler. How You Use It -------------- First, you need to select a serial library. In the i386-supp.c file, there are lines of the form // #include "some_layer.h" Uncomment the line for the serial library you intend to use - or add a new include line for a file written for some other library. In the main() function of your target program, you should initilize the GDB serial handlers and the GDB stub. The following functions are provided in the GDB stub library for this purpose. gdb_serial_init(unsigned int port, unsigned int speed); gdb_target_init(void); Where, port is the COM port number, and speed is the baud rate for the serial link. After initialing the GDB serial interface and target, you should invoke the breakpoint() function somewhere. You may choose to do this immediately after initialization, or at a specific location in your code where you wish to set a breakpoint. By putting the breakpoint() function in the beginning of main(), you can use the GDB host to set a breakpoint at any place in your code. Make sure that you use the '-g' option when compiling your files with gcc. After the target executable is running, start up gdb on the host, passing the target executable as an argument. Example: gdb demo.exe Now, tell gdb which serial interface to use for communicating to the target. Example: (gdb) target remote COM1 This example uses COM1 on the host to communicate with the target. GDB is now 'listening' on COM for a valid GDB serial packet. Once your GDB host finds your target, you may need to tell GDB where to find any source files which were used to generate your program. Use the directory command to do this. Example: (gdb) directory ../src/demo That's it. You should now be able to single step through code, set breakpoints, set variables, examine variables, any anthing else that you would normally use GDB to accomplish. What You Build -------------- Read the INSTALL file for more information on installing the GDB stub library. After installing the library, your code should include i386-stub.h for function prototypes. In addition, your code should link against the libgdb.a library. The source for a demonstration program has been included with this distributias an example. As an alternative, you can simply include the i386-stub and i386-supp files and the layer header for the serial library you plan to use into your project and link them in directly. For More Info ------------- See "Debugging with GDB, The GNU Source-Level Debugger", by Richard M. Stallman and Roland H. Pesch (http://sources.redhat.com/gdb/ download/onlinedocs/gdb.html -- one of many sources). TODO ---- Port for network operation. Contact Info ------------ My contact info is below. If you have any comments, suggestions, bug reports or problems, please mail me, and I'll see what I can do. Regards, Jonathan Brogdon <brogdon@austin.rr.com> 6th June 2000 Modular update: Gordon Schumacher <gordons@valleyhold.org> 12th February 2002