# GDB Testsuite Support for Insight. # # Copyright 2001 Red Hat, Inc. # # This program is free software; you can redistribute it and/or modify it # under the terms of the GNU General Public License (GPL) as published by # the Free Software Foundation; either version 2 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. # Initializes the display for gdbtk testing. # Returns 1 if tests should run, 0 otherwise. proc gdbtk_initialize_display {} { global _using_windows # This is hacky, but, we don't have much choice. When running # expect under Windows, tcl_platform(platform) is "unix". if {![info exists _using_windows]} { set _using_windows [expr {![catch {exec cygpath --help}]}] } if {![_gdbtk_xvfb_init]} { if {$_using_windows} { untested "No GDB_DISPLAY -- skipping tests" } else { untested "No GDB_DISPLAY or Xvfb -- skipping tests" } return 0 } return 1 } # From dejagnu: # srcdir = testsuite src dir (e.g., devo/gdb/testsuite) # objdir = testsuite obj dir (e.g., gdb/testsuite) # subdir = subdir of testsuite (e.g., gdb.gdbtk) # # To gdbtk: # env(DEFS)=the "defs" files (e.g., devo/gdb/testsuite/gdb.gdbtk/defs) # env(SRCDIR)=directory containing the test code (e.g., *.test) # env(OBJDIR)=directory which contains any executables # (e.g., gdb/testsuite/gdb.gdbtk) proc gdbtk_start {test} { global verbose global GDB global GDBFLAGS global env srcdir subdir objdir gdb_stop_suppressing_tests; verbose "Starting $GDB -nx -q --tclcommand=$test" set real_test [which $test] if {$real_test == 0} { perror "$test is not found" exit 1 } if {![is_remote host]} { if { [which $GDB] == 0 } { perror "$GDB does not exist." exit 1 } } set wd [pwd] # Find absolute path to test set test [to_tcl_path -abs $test] # Set some environment variables cd $srcdir set abs_srcdir [pwd] set env(DEFS) [to_tcl_path -abs [file join $abs_srcdir $subdir defs]] cd $wd cd [file join $objdir $subdir] set env(OBJDIR) [pwd] cd $wd # Set info about target into env _gdbtk_export_target_info set env(SRCDIR) $abs_srcdir set env(GDBTK_VERBOSE) 1 set env(GDBTK_LOGFILE) [to_tcl_path [file join $objdir gdb.log]] set err [catch {exec $GDB -nx -q --tclcommand=$test} res] if { $err } { perror "Execing $GDB failed: $res" append res "\nERROR gdb-crash" } return $res } # Start xvfb when using it. # The precedence is: # 1. If GDB_DISPLAY is set (and not ""), use it # 2. If Xvfb exists, use it (not on cygwin) # 3. Skip tests proc _gdbtk_xvfb_init {} { global env spawn_id _xvfb_spawn_id _using_windows if {[info exists env(GDB_DISPLAY)]} { if {$env(GDB_DISPLAY) != ""} { set env(DISPLAY) $env(GDB_DISPLAY) } else { # Suppress tests return 0 } } elseif {!$_using_windows && [which Xvfb] != 0} { set screen ":[getpid]" set pid [spawn Xvfb $screen -ac] set _xvfb_spawn_id $spawn_id set env(DISPLAY) localhost$screen } else { # No Xvfb found -- skip test return 0 } return 1 } # Kill xvfb proc _gdbtk_xvfb_exit {} { global objdir subdir env _xvfb_spawn_id if {[info exists _xvfb_spawn_id]} { exec kill [exp_pid -i $_xvfb_spawn_id] wait -i $_xvfb_spawn_id } } # help proc for setting tcl-style paths from unix-style paths # pass "-abs" to make it an absolute path proc to_tcl_path {unix_path {arg {}}} { global _using_windows if {[string compare $unix_path "-abs"] == 0} { set unix_path $arg set wd [pwd] cd [file dirname $unix_path] set dirname [pwd] set unix_name [file join $dirname [file tail $unix_path]] cd $wd } if {$_using_windows} { set unix_path [exec cygpath -aw $unix_path] set unix_path [join [split $unix_path \\] /] } return $unix_path } # Set information about the target into the environment # variable TARGET_INFO. This array will contain a list # of commands that are necessary to run a target. # # This is mostly devined from how dejagnu works, what # procs are defined, and analyzing unix.exp, monitor.exp, # and sim.exp. # # Array elements exported: # Index Meaning # ----- ------- # init list of target/board initialization commands # target target command for target/board # load load command for target/board # run run command for target_board proc _gdbtk_export_target_info {} { global env # Figure out what "target class" the testsuite is using, # i.e., sim, monitor, native if {[string compare [info proc gdb_target_monitor] gdb_target_monitor] == 0} { # Using a monitor/remote target set target monitor } elseif {[string compare [info proc gdb_target_sim] gdb_target_sim] == 0} { # Using a simulator target set target simulator } elseif {[string compare [info proc gdb_target_sid] gdb_target_sid] == 0} { # Using sid set target sid } else { # Assume native set target native } # Now setup the array to be exported. set info(init) {} set info(target) {} set info(load) {} set info(run) {} switch $target { simulator { set opts "[target_info gdb,target_sim_options]" set info(target) "target sim $opts" set info(load) "load" set info(run) "run" } monitor { # Setup options for the connection if {[target_info exists baud]} { lappend info(init) "set remotebaud [target_info baud]" } if {[target_info exists binarydownload]} { lappend info(init) "set remotebinarydownload [target_info binarydownload]" } if {[target_info exists disable_x_packet]} { lappend info(init) "set remote X-packet disable" } if {[target_info exists disable_z_packet]} { lappend info(init) "set remote Z-packet disable" } # Get target name and connection info if {[target_info exists gdb_protocol]} { set targetname "[target_info gdb_protocol]" } else { set targetname "not_specified" } if {[target_info exists gdb_serial]} { set serialport "[target_info gdb_serial]" } elseif {[target_info exists netport]} { set serialport "[target_info netport]" } else { set serialport "[target_info serial]" } set info(target) "target $targetname $serialport" set info(load) "load" set info(run) "continue" } sid { # We must start sid first, since Insight won't have a clue # about how to do this. sid_start set info(target) "target [target_info gdb_protocol] [target_info netport]" set info(load) "load" set info(run) "continue" } native { set info(run) "run" } } # Export the array to the environment set env(TARGET_INFO) [array get info] } # gdbtk tests call this function to print out the results of the # tests. The argument is a proper list of lists of the form: # {status name description msg}. All of these things typically # come from the testsuite harness. proc gdbtk_analyze_results {results} { foreach test $results { set status [lindex $test 0] set name [lindex $test 1] set description [lindex $test 2] set msg [lindex $test 3] switch $status { PASS { pass "$description ($name)" } FAIL { fail "$description ($name)" } ERROR { perror "$name" } XFAIL { xfail "$description ($name)" } XPASS { xpass "$description ($name)" } } } } proc gdbtk_done {{results {}}} { global _xvfb_spawn_id gdbtk_analyze_results $results # Kill off xvfb if using it if {[info exists _xvfb_spawn_id]} { _gdbtk_xvfb_exit } # Yich. If we're using sid, we must kill it if {[string compare [info proc gdb_target_sid] gdb_target_sid] == 0} { sid_exit } }