# Copyright 2000, 2002-2012 Free Software Foundation, Inc. # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # This file is based on config/gdbserver.exp, which was written by # Michael Snyder (msnyder@redhat.com). # # To be addressed or set in your baseboard config file: # # set_board_info gdb_protocol "remote" # Unles you have a gdbserver that uses a different protocol... # After GDB starts you should check global $gdbserver_protocol instead as # the testfile may force a specific different target protocol itself. # # set_board_info gdb_server_prog # This will be the path to the gdbserver program you want to test. # Defaults to "gdbserver". # # set_board_info sockethost # The name of the host computer whose socket is being used. # Defaults to "localhost". Note: old gdbserver requires # that you define this, but libremote/gdbserver does not. # # set_board_info gdb,socketport # Port id to use for socket connection. If not set explicitly, # it will start at "2345" and increment for each use. # After GDB starts you should check global $gdbserver_gdbport for the # real port used. It is not useful if $gdbserver_reconnect_p was not set. # # # gdb_target_cmd # Send gdb the "target" command # proc gdb_target_cmd { targetname serialport } { global gdb_prompt set serialport_re [string_to_regexp $serialport] for {set i 1} {$i <= 3} {incr i} { send_gdb "target $targetname $serialport\n" gdb_expect 60 { -re "A program is being debugged already.*ill it.*y or n. $" { send_gdb "y\n" exp_continue } -re "unknown host.*$gdb_prompt" { verbose "Couldn't look up $serialport" } -re "Couldn't establish connection to remote.*$gdb_prompt $" { verbose "Connection failed" } -re "Remote MIPS debugging.*$gdb_prompt" { verbose "Set target to $targetname" return 0 } -re "Remote debugging using .*$serialport_re.*$gdb_prompt $" { verbose "Set target to $targetname" return 0 } -re "Remote debugging using stdio.*$gdb_prompt $" { verbose "Set target to $targetname" return 0 } -re "Remote target $targetname connected to.*$gdb_prompt $" { verbose "Set target to $targetname" return 0 } -re "Connected to.*$gdb_prompt $" { verbose "Set target to $targetname" return 0 } -re "Ending remote.*$gdb_prompt $" { } -re "Connection refused.*$gdb_prompt $" { verbose "Connection refused by remote target. Pausing, and trying again." sleep 30 continue } -re "Timeout reading from remote system.*$gdb_prompt $" { verbose "Got timeout error from gdb." } -notransfer -re "Remote debugging using .*\r\n> $" { # We got an unexpected prompt while creating the target. # Leave it there for the test to diagnose. return 1 } timeout { send_gdb "" break } } } return 1 } global portnum set portnum "2345" # Locate the gdbserver binary. Returns "" if gdbserver could not be found. proc find_gdbserver { } { global GDB global GDBSERVER if [info exists GDBSERVER] { return ${GDBSERVER} } if [target_info exists gdb_server_prog] { return [target_info gdb_server_prog] } set gdbserver "${GDB}server" if { [file isdirectory $gdbserver] } { append gdbserver "/gdbserver" } if { [file executable $gdbserver] } { return $gdbserver } return "" } # Return non-zero if we should skip gdbserver-specific tests. proc skip_gdbserver_tests { } { if { [find_gdbserver] == "" } { return 1 } return 0 } # Download the currently loaded program to the target if necessary. # Return the target system filename. # NOTE: This was named "gdbserver_download", but that collides with the # dejagnu "download" API function when using load_generic_config "gdbserver". proc gdbserver_download_current_prog { } { global gdbserver_host_exec global gdbserver_host_mtime global gdbserver_server_exec global last_loaded_file set host_exec $last_loaded_file # If we already downloaded a file to the target, see if we can reuse it. set reuse 0 if { [info exists gdbserver_server_exec] } { set reuse 1 # If the file has changed, we can not. if { $host_exec != $gdbserver_host_exec } { set reuse 0 } # If the mtime has changed, we can not. if { [file mtime $host_exec] != $gdbserver_host_mtime } { set reuse 0 } } if { $reuse == 0 } { set gdbserver_host_exec $host_exec set gdbserver_host_mtime [file mtime $host_exec] if [is_remote target] { set gdbserver_server_exec [gdb_download $host_exec] } else { set gdbserver_server_exec $host_exec } } return $gdbserver_server_exec } # Default routine to compute the argument to "target remote". proc gdbserver_default_get_remote_address { host port } { return "$host$port" } # Start a gdbserver process with initial OPTIONS and trailing ARGUMENTS. # The port will be filled in between them automatically. # # Returns the target protocol and socket to connect to. proc gdbserver_start { options arguments } { global portnum # Port id -- either specified in baseboard file, or managed here. if [target_info exists gdb,socketport] { set portnum [target_info gdb,socketport] } else { # Bump the port number to avoid conflicts with hung ports. incr portnum } # Extract the local and remote host ids from the target board struct. if [target_info exists sockethost] { set debughost [target_info sockethost] } else { set debughost "localhost:" } # Some boards use a different value for the port that is passed to # gdbserver and the port that is passed to the "target remote" command. # One example is the stdio gdbserver support. if [target_info exists gdb,get_remote_address] { set get_remote_address [target_info gdb,get_remote_address] } else { set get_remote_address gdbserver_default_get_remote_address } # Extract the protocol if [target_info exists gdb_protocol] { set protocol [target_info gdb_protocol] } else { set protocol "remote" } set gdbserver [find_gdbserver] # Loop till we find a free port. while 1 { # Fire off the debug agent. set gdbserver_command "$gdbserver" # If gdbserver_reconnect will be called $gdbserver_reconnect_p must be # set to true already during gdbserver_start. global gdbserver_reconnect_p if {![info exists gdbserver_reconnect_p] || !$gdbserver_reconnect_p} { # GDB client could accidentally connect to a stale server. # append gdbserver_command " --debug --once" append gdbserver_command " --once" } if { $options != "" } { append gdbserver_command " $options" } if { $portnum != "" } { append gdbserver_command " :$portnum" } if { $arguments != "" } { append gdbserver_command " $arguments" } set server_spawn_id [remote_spawn target $gdbserver_command] # Wait for the server to open its TCP socket, so that GDB can connect. expect { -i $server_spawn_id -notransfer -re "Listening on" { } -re "Can't bind address: Address already in use\\.\r\n" { verbose -log "Port $portnum is already in use." if ![target_info exists gdb,socketport] { # Bump the port number to avoid the conflict. wait -i $expect_out(spawn_id) incr portnum continue } } } break } # We can't just call close, because if gdbserver is local then that means # that it will get a SIGHUP. Doing it this way could also allow us to # get at the inferior's input or output if necessary, and means that we # don't need to redirect output. expect_background { -i $server_spawn_id full_buffer { } eof { # The spawn ID is already closed now (but not yet waited for). wait -i $expect_out(spawn_id) } } return [list $protocol [$get_remote_address $debughost $portnum]] } # Start a gdbserver process running SERVER_EXEC, and connect GDB # to it. CHILD_ARGS are passed to the inferior. # # Returns the target protocol and socket to connect to. proc gdbserver_spawn { child_args } { set target_exec [gdbserver_download_current_prog] # Fire off the debug agent. This flavour of gdbserver takes as # arguments the port information, the name of the executable file to # be debugged, and any arguments. set arguments "$target_exec" if { $child_args != "" } { append arguments " $child_args" } return [gdbserver_start "" $arguments] } # Start a gdbserver process running HOST_EXEC and pass CHILD_ARGS # to it. Return 0 on success, or non-zero on failure. proc gdbserver_run { child_args } { global gdbserver_protocol global gdbserver_gdbport # Kill anything running before we try to start gdbserver, in case # we are sharing a serial connection. global gdb_prompt send_gdb "kill\n" gdb_expect 120 { -re "Kill the program being debugged. .y or n. $" { send_gdb "y\n" verbose "\t\tKilling previous program being debugged" exp_continue } -re "$gdb_prompt $" { # OK. } } set res [gdbserver_spawn $child_args] set gdbserver_protocol [lindex $res 0] set gdbserver_gdbport [lindex $res 1] return [gdb_target_cmd $gdbserver_protocol $gdbserver_gdbport] } # Reconnect to the previous gdbserver session. proc gdbserver_reconnect { } { global gdbserver_protocol global gdbserver_gdbport global gdbserver_reconnect_p; if {![info exists gdbserver_reconnect_p] || !$gdbserver_reconnect_p} { error "gdbserver_reconnect_p is not set before gdbserver_reconnect" return 0 } return [gdb_target_cmd $gdbserver_protocol $gdbserver_gdbport] } # Start and connect to a gdbserver in extended mode. proc gdbserver_start_extended { } { global gdbserver_protocol global gdbserver_gdbport global use_gdb_stub set res [gdbserver_start "--multi" ""] set gdbserver_protocol "extended-[lindex $res 0]" set gdbserver_gdbport [lindex $res 1] # Even if the board file is testing with target remote, our caller # wants to test against gdbserver in extended-remote mode. Make sure to # disable stub-like techniques. set use_gdb_stub 0 return [gdb_target_cmd $gdbserver_protocol $gdbserver_gdbport] }