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* gdbserver/remote-gutils.c: Remove lots of unused functions and variables. * gdbserver/remote-inflow.c: Remove lots of unused variables and #includes. Also, use PTRACE_* symbols instead of constants. (mywait): Surround calls to wait() with enable/disable_async_io() so that we can be interrupted from GDB while waiting for the child. Also, handle child exit more gracefully. * gdbserver/remote-server.c: Remove lots of unused variables. Move all extern defs into server.h. Redo main loop so that failure from getpkt() causes communications to be re-established. Fix 'k' command so that it restarts the child. * gdbserver/remote-utils.c: Remove lots of unloved vars and subrs. Move many extern decls into server.h. (remote_open): For tcp, seperate usage of proto fd from connected fd. Close proto fd after getting connection. (putpkt/getpkt): Pay attention to errors when reading/writing. Report these to the caller. New routines input_interrupt/enable_async_io/disable_async_io to make it possible to get an I/O interrupt when data arrives from the comm link. * serial.h: New file to contain common defs for all remote files. |
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.Sanitize | ||
configure.in | ||
README | ||
remote-gutils.c | ||
remote-inflow-sparc.c | ||
remote-inflow.c | ||
remote-server.c | ||
remote-utils.c |
README for GDBserver by Stu Grossman Introduction: This is GDBserver, a remote server for Un*x-like systems. It can be used to control the execution of a program on a target host from a GDB on a different host. GDB and GDBserver communicate using the standard remote serial protocol implemented in remote.c, and various *-stub.c files. They can communicate via either a serial line or a TCP connection. Usage (server (target) side): First, you will need to have a copy of the program to be debugged put onto the target system. It can be stripped if you need to save space. This is ok because GDBserver doesn't care about symbols, all of that stuff is taken care of by the GDB running on the host system. To use the server, you will need to log on to the target system, and run the server program. You will need to tell it how to communicate with GDB, the name of the program to be debugged, and it's arguments. For example, using a serial port, you might say: target> gdbserver /dev/com1 emacs foo.txt This tells gdbserver to debug emacs with an argument of foo.txt. The server will communicate with GDB via /dev/com1. GDBserver will now wait patiently for GDB to communicate with it. To use a TCP connection, you could say: target> gdbserver host:2345 emacs foo.txt This says pretty much the same thing as the last example, except that we are now going to communicate with GDB via TCP. The `host:2345' argument means that we are expecting to see a TCP connection from `host' to local TCP port 2345. Currently, the host part is ignored. You can choose any number you want for the port number as long as it does not conflict with any existing ports on your system. This same port number will also be used in the GDB `target remote' command, which we will discuss later. Note that it's safe to chose a number that conflicts, gdbserver will just print an error message and exit. Usage (host side): You should have a copy of the target program on your host system, since GDB will need it to examine symbol tables and such. You should start up GDB just as you normally would, with the target program as the first argument. Ie: `gdb target-prog'. After that, you will only need to know about one new command. This is `target remote'. It's argument is either a device name (preferably of a serial device, like /dev/ttyb), or a host:port descriptor. For example: (gdb) target remote /dev/ttyb will communicate with the server via the hardware serial line /dev/ttyb, and: (gdb) target remote the-target:2345 will communicate via a TCP connection to port 2345 on host `the-target', where you have already started up gdbserver with the same port number. Note that you must start up gdbserver prior to using the target command, otherwise you will get an error that looks something like `Connection refused'. Building: Currently, the only target system supported by the server is Lynx. To build the server for Lynx, make a new copy of the distribution onto a disk that is NFS shared with the Lynx system. Lets say that's in a directory called xyzzy. Then, follow these steps under the host system: 1) cd xyzzy/gdb/gdbserver 2) ../../configure --target i386-none-lynx When that completes, do the following on the Lynx system: 3) cd xyzzy/gdb/gdbserver 4) make CC=gcc It should build with only a minor complaint about NULL being redefined. That's a LynxOS problem, and can be ignored. It's also possible that you may have a cross-compiler to Lynx. In that case, you can skip the stuff about NFS. You would replace steps 3 & 4 with: make CC=lynx-target-compiler...