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diff --git a/doc/rgdb_specs/interfacing.t b/doc/rgdb_specs/interfacing.t deleted file mode 100644 index f10ccdf5e0..0000000000 --- a/doc/rgdb_specs/interfacing.t +++ /dev/null @@ -1,79 +0,0 @@ -@c -@c RTEMS Remote Debugger Server Specifications -@c -@c Written by: Eric Valette <valette@crf.canon.fr> -@c Emmanuel Raguet <raguet@crf.canon.fr> -@c -@c -@c $Id$ -@c - -@chapter Interfacing GDB with RTEMS as a Target - -@c XXX figure reference -So, basically, porting GDB to RTEMS environment requires implementing -the functions contained in the target_ops structure. The native debugger implementation -(where the host machine is also the target one) uses direct function calls. -For our needs (remote debugging), these functions must be implemented to support -the encapsulation in UDP/IP layers and communications between different types -of host machines : the best solution is use the SUN Remote Procedure Calls API -(SUN RPC). This SUN RPC module will be explained below (see paragraph @b{Communication with GDB}). - -We can note that the functions described in the target_ops structure -are high-level functions. The main reason is that GDB was designed in order -to be able to use monitor firmware as a debug server. In the case of a Unix -OS target, these high-level functions are implemented themselves using a lower -level POSIX API. Because we want to simplify the code running on the target -and decrease its size of this code, we propose to use the POSIX layer API used -for the debug like @b{waitpid}, @b{ptrace}, ... Due to the GDB working -mode and due to our requirements, we can establish here a non-exhaustive list -of some commands required to implement the previously described functions : - -@itemize @bullet -@item set up a connection with a target, -@item close a connection, -@item send a signal to the specified process, -@item get a list of process/thread/connection running, -@item control process under debug, -@item ... -@end itemize -Control means that, with this function, we can read, write the memory -of the debuggee, insert breakpoint to stop the process and resume the process -execution. This command can be implemented by emulating in the RTEMS environment -a Unix function called ``ptrace''. This function allows the control of a child -process. The ``ptrace'' function has some sub-functions which are described -below (some of these actions and standardized, the others are added due to our -needs) : - -@itemize @bullet -@item PTRACE_PEEKTEXT, PTRACE_PEEKDATA : read word at address, -@item PTRACE_POKETEXT, PTRACE_POKEDATA :write word at address, -@item PTRACE_CONT : restart after signal, -@item PTRACE_KILL : send the child a SIGKILL to make it exit, -@item PTRACE_SINGLESTEP : set the trap flag for single stepping, -@item PTRACE_ATTACH : attach to the process specified, -@item PTRACE_DETACH : detach a process that was previously attached. -@end itemize -This list only contains the command that are described in the ptrace -Unix manpage. For some specific needs (debug of one task among several ones, -register read/write,...), it is possible to create some special ptrace commands -as described after : - -@itemize @bullet -@item get current task registers, -@item set current task registers, -@item list of the threads, -@item identifier of the target thread, -@item restart to address, -@item set breakpoint at address, -@item clear breakpoint, -@item get breakpoints, -@item load dynamically a task, -@item ... -@end itemize -This list is not exhaustive and can be increased due to the needs. -All the described functions will not be implemented in a first version, only -the strictly needed. If some commands are added, the modifications must be implemented -both in RTEMS and in GDB. - - |