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|
# Copyright 1992-2018 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 <http://www.gnu.org/licenses/>.
# This file was written by Fred Fish. (fnf@cygnus.com)
# Generic gdb subroutines that should work for any target. If these
# need to be modified for any target, it can be done with a variable
# or by passing arguments.
if {$tool == ""} {
# Tests would fail, logs on get_compiler_info() would be missing.
send_error "`site.exp' not found, run `make site.exp'!\n"
exit 2
}
load_lib libgloss.exp
load_lib cache.exp
load_lib gdb-utils.exp
load_lib memory.exp
global GDB
# The spawn ID used for I/O interaction with the inferior. For native
# targets, or remote targets that can do I/O through GDB
# (semi-hosting) this will be the same as the host/GDB's spawn ID.
# Otherwise, the board may set this to some other spawn ID. E.g.,
# when debugging with GDBserver, this is set to GDBserver's spawn ID,
# so input/output is done on gdbserver's tty.
global inferior_spawn_id
if [info exists TOOL_EXECUTABLE] {
set GDB $TOOL_EXECUTABLE
}
if ![info exists GDB] {
if ![is_remote host] {
set GDB [findfile $base_dir/../../gdb/gdb "$base_dir/../../gdb/gdb" [transform gdb]]
} else {
set GDB [transform gdb]
}
}
verbose "using GDB = $GDB" 2
# GDBFLAGS is available for the user to set on the command line.
# E.g. make check RUNTESTFLAGS=GDBFLAGS=mumble
# Testcases may use it to add additional flags, but they must:
# - append new flags, not overwrite
# - restore the original value when done
global GDBFLAGS
if ![info exists GDBFLAGS] {
set GDBFLAGS ""
}
verbose "using GDBFLAGS = $GDBFLAGS" 2
# Make the build data directory available to tests.
set BUILD_DATA_DIRECTORY "[pwd]/../data-directory"
# INTERNAL_GDBFLAGS contains flags that the testsuite requires.
global INTERNAL_GDBFLAGS
if ![info exists INTERNAL_GDBFLAGS] {
set INTERNAL_GDBFLAGS "-nw -nx -data-directory $BUILD_DATA_DIRECTORY"
}
# The variable gdb_prompt is a regexp which matches the gdb prompt.
# Set it if it is not already set. This is also set by default_gdb_init
# but it's not clear what removing one of them will break.
# See with_gdb_prompt for more details on prompt handling.
global gdb_prompt
if ![info exists gdb_prompt] then {
set gdb_prompt "\\(gdb\\)"
}
# A regexp that matches the pagination prompt.
set pagination_prompt \
"--Type <RET> for more, q to quit, c to continue without paging--"
# The variable fullname_syntax_POSIX is a regexp which matches a POSIX
# absolute path ie. /foo/
set fullname_syntax_POSIX {/[^\n]*/}
# The variable fullname_syntax_UNC is a regexp which matches a Windows
# UNC path ie. \\D\foo\
set fullname_syntax_UNC {\\\\[^\\]+\\[^\n]+\\}
# The variable fullname_syntax_DOS_CASE is a regexp which matches a
# particular DOS case that GDB most likely will output
# ie. \foo\, but don't match \\.*\
set fullname_syntax_DOS_CASE {\\[^\\][^\n]*\\}
# The variable fullname_syntax_DOS is a regexp which matches a DOS path
# ie. a:\foo\ && a:foo\
set fullname_syntax_DOS {[a-zA-Z]:[^\n]*\\}
# The variable fullname_syntax is a regexp which matches what GDB considers
# an absolute path. It is currently debatable if the Windows style paths
# d:foo and \abc should be considered valid as an absolute path.
# Also, the purpse of this regexp is not to recognize a well formed
# absolute path, but to say with certainty that a path is absolute.
set fullname_syntax "($fullname_syntax_POSIX|$fullname_syntax_UNC|$fullname_syntax_DOS_CASE|$fullname_syntax_DOS)"
# Needed for some tests under Cygwin.
global EXEEXT
global env
if ![info exists env(EXEEXT)] {
set EXEEXT ""
} else {
set EXEEXT $env(EXEEXT)
}
set octal "\[0-7\]+"
set inferior_exited_re "(\\\[Inferior \[0-9\]+ \\(.*\\) exited)"
# A regular expression that matches a value history number.
# E.g., $1, $2, etc.
set valnum_re "\\\$$decimal"
### Only procedures should come after this point.
#
# gdb_version -- extract and print the version number of GDB
#
proc default_gdb_version {} {
global GDB
global INTERNAL_GDBFLAGS GDBFLAGS
global gdb_prompt
global inotify_pid
if {[info exists inotify_pid]} {
eval exec kill $inotify_pid
}
set output [remote_exec host "$GDB $INTERNAL_GDBFLAGS --version"]
set tmp [lindex $output 1]
set version ""
regexp " \[0-9\]\[^ \t\n\r\]+" "$tmp" version
if ![is_remote host] {
clone_output "[which $GDB] version $version $INTERNAL_GDBFLAGS $GDBFLAGS\n"
} else {
clone_output "$GDB on remote host version $version $INTERNAL_GDBFLAGS $GDBFLAGS\n"
}
}
proc gdb_version { } {
return [default_gdb_version]
}
#
# gdb_unload -- unload a file if one is loaded
# Return 0 on success, -1 on error.
#
proc gdb_unload {} {
global verbose
global GDB
global gdb_prompt
send_gdb "file\n"
gdb_expect 60 {
-re "No executable file now\[^\r\n\]*\[\r\n\]" { exp_continue }
-re "No symbol file now\[^\r\n\]*\[\r\n\]" { exp_continue }
-re "A program is being debugged already.*Are you sure you want to change the file.*y or n. $" {
send_gdb "y\n"
exp_continue
}
-re "Discard symbol table from .*y or n.*$" {
send_gdb "y\n"
exp_continue
}
-re "$gdb_prompt $" {}
timeout {
perror "couldn't unload file in $GDB (timeout)."
return -1
}
}
return 0
}
# Many of the tests depend on setting breakpoints at various places and
# running until that breakpoint is reached. At times, we want to start
# with a clean-slate with respect to breakpoints, so this utility proc
# lets us do this without duplicating this code everywhere.
#
proc delete_breakpoints {} {
global gdb_prompt
# we need a larger timeout value here or this thing just confuses
# itself. May need a better implementation if possible. - guo
#
set timeout 100
set msg "delete all breakpoints in delete_breakpoints"
set deleted 0
gdb_test_multiple "delete breakpoints" "$msg" {
-re "Delete all breakpoints.*y or n.*$" {
send_gdb "y\n"
exp_continue
}
-re "$gdb_prompt $" {
set deleted 1
}
}
if {$deleted} {
# Confirm with "info breakpoints".
set deleted 0
set msg "info breakpoints"
gdb_test_multiple $msg $msg {
-re "No breakpoints or watchpoints..*$gdb_prompt $" {
set deleted 1
}
-re "$gdb_prompt $" {
}
}
}
if {!$deleted} {
perror "breakpoints not deleted"
}
}
# Returns true iff the target supports using the "run" command.
proc target_can_use_run_cmd {} {
if [target_info exists use_gdb_stub] {
# In this case, when we connect, the inferior is already
# running.
return 0
}
# Assume yes.
return 1
}
# Generic run command.
#
# The second pattern below matches up to the first newline *only*.
# Using ``.*$'' could swallow up output that we attempt to match
# elsewhere.
#
# N.B. This function does not wait for gdb to return to the prompt,
# that is the caller's responsibility.
proc gdb_run_cmd {args} {
global gdb_prompt use_gdb_stub
foreach command [gdb_init_commands] {
send_gdb "$command\n"
gdb_expect 30 {
-re "$gdb_prompt $" { }
default {
perror "gdb_init_command for target failed"
return
}
}
}
if $use_gdb_stub {
if [target_info exists gdb,do_reload_on_run] {
if { [gdb_reload] != 0 } {
return
}
send_gdb "continue\n"
gdb_expect 60 {
-re "Continu\[^\r\n\]*\[\r\n\]" {}
default {}
}
return
}
if [target_info exists gdb,start_symbol] {
set start [target_info gdb,start_symbol]
} else {
set start "start"
}
send_gdb "jump *$start\n"
set start_attempt 1
while { $start_attempt } {
# Cap (re)start attempts at three to ensure that this loop
# always eventually fails. Don't worry about trying to be
# clever and not send a command when it has failed.
if [expr $start_attempt > 3] {
perror "Jump to start() failed (retry count exceeded)"
return
}
set start_attempt [expr $start_attempt + 1]
gdb_expect 30 {
-re "Continuing at \[^\r\n\]*\[\r\n\]" {
set start_attempt 0
}
-re "No symbol \"_start\" in current.*$gdb_prompt $" {
perror "Can't find start symbol to run in gdb_run"
return
}
-re "No symbol \"start\" in current.*$gdb_prompt $" {
send_gdb "jump *_start\n"
}
-re "No symbol.*context.*$gdb_prompt $" {
set start_attempt 0
}
-re "Line.* Jump anyway.*y or n. $" {
send_gdb "y\n"
}
-re "The program is not being run.*$gdb_prompt $" {
if { [gdb_reload] != 0 } {
return
}
send_gdb "jump *$start\n"
}
timeout {
perror "Jump to start() failed (timeout)"
return
}
}
}
return
}
if [target_info exists gdb,do_reload_on_run] {
if { [gdb_reload] != 0 } {
return
}
}
send_gdb "run $args\n"
# This doesn't work quite right yet.
# Use -notransfer here so that test cases (like chng-sym.exp)
# may test for additional start-up messages.
gdb_expect 60 {
-re "The program .* has been started already.*y or n. $" {
send_gdb "y\n"
exp_continue
}
-notransfer -re "Starting program: \[^\r\n\]*" {}
-notransfer -re "$gdb_prompt $" {
# There is no more input expected.
}
}
}
# Generic start command. Return 0 if we could start the program, -1
# if we could not.
#
# N.B. This function does not wait for gdb to return to the prompt,
# that is the caller's responsibility.
proc gdb_start_cmd {args} {
global gdb_prompt use_gdb_stub
foreach command [gdb_init_commands] {
send_gdb "$command\n"
gdb_expect 30 {
-re "$gdb_prompt $" { }
default {
perror "gdb_init_command for target failed"
return -1
}
}
}
if $use_gdb_stub {
return -1
}
send_gdb "start $args\n"
# Use -notransfer here so that test cases (like chng-sym.exp)
# may test for additional start-up messages.
gdb_expect 60 {
-re "The program .* has been started already.*y or n. $" {
send_gdb "y\n"
exp_continue
}
-notransfer -re "Starting program: \[^\r\n\]*" {
return 0
}
}
return -1
}
# Generic starti command. Return 0 if we could start the program, -1
# if we could not.
#
# N.B. This function does not wait for gdb to return to the prompt,
# that is the caller's responsibility.
proc gdb_starti_cmd {args} {
global gdb_prompt use_gdb_stub
foreach command [gdb_init_commands] {
send_gdb "$command\n"
gdb_expect 30 {
-re "$gdb_prompt $" { }
default {
perror "gdb_init_command for target failed"
return -1
}
}
}
if $use_gdb_stub {
return -1
}
send_gdb "starti $args\n"
gdb_expect 60 {
-re "The program .* has been started already.*y or n. $" {
send_gdb "y\n"
exp_continue
}
-re "Starting program: \[^\r\n\]*" {
return 0
}
}
return -1
}
# Set a breakpoint at FUNCTION. If there is an additional argument it is
# a list of options; the supported options are allow-pending, temporary,
# message, no-message, passfail and qualified.
# The result is 1 for success, 0 for failure.
#
# Note: The handling of message vs no-message is messed up, but it's based
# on historical usage. By default this function does not print passes,
# only fails.
# no-message: turns off printing of fails (and passes, but they're already off)
# message: turns on printing of passes (and fails, but they're already on)
proc gdb_breakpoint { function args } {
global gdb_prompt
global decimal
set pending_response n
if {[lsearch -exact $args allow-pending] != -1} {
set pending_response y
}
set break_command "break"
set break_message "Breakpoint"
if {[lsearch -exact $args temporary] != -1} {
set break_command "tbreak"
set break_message "Temporary breakpoint"
}
if {[lsearch -exact $args qualified] != -1} {
append break_command " -qualified"
}
set print_pass 0
set print_fail 1
set no_message_loc [lsearch -exact $args no-message]
set message_loc [lsearch -exact $args message]
# The last one to appear in args wins.
if { $no_message_loc > $message_loc } {
set print_fail 0
} elseif { $message_loc > $no_message_loc } {
set print_pass 1
}
set test_name "setting breakpoint at $function"
send_gdb "$break_command $function\n"
# The first two regexps are what we get with -g, the third is without -g.
gdb_expect 30 {
-re "$break_message \[0-9\]* at .*: file .*, line $decimal.\r\n$gdb_prompt $" {}
-re "$break_message \[0-9\]*: file .*, line $decimal.\r\n$gdb_prompt $" {}
-re "$break_message \[0-9\]* at .*$gdb_prompt $" {}
-re "$break_message \[0-9\]* \\(.*\\) pending.*$gdb_prompt $" {
if {$pending_response == "n"} {
if { $print_fail } {
fail $test_name
}
return 0
}
}
-re "Make breakpoint pending.*y or \\\[n\\\]. $" {
send_gdb "$pending_response\n"
exp_continue
}
-re "A problem internal to GDB has been detected" {
if { $print_fail } {
fail "$test_name (GDB internal error)"
}
gdb_internal_error_resync
return 0
}
-re "$gdb_prompt $" {
if { $print_fail } {
fail $test_name
}
return 0
}
eof {
if { $print_fail } {
fail "$test_name (eof)"
}
return 0
}
timeout {
if { $print_fail } {
fail "$test_name (timeout)"
}
return 0
}
}
if { $print_pass } {
pass $test_name
}
return 1
}
# Set breakpoint at function and run gdb until it breaks there.
# Since this is the only breakpoint that will be set, if it stops
# at a breakpoint, we will assume it is the one we want. We can't
# just compare to "function" because it might be a fully qualified,
# single quoted C++ function specifier.
#
# If there are additional arguments, pass them to gdb_breakpoint.
# We recognize no-message/message ourselves.
# The default is no-message.
# no-message is messed up here, like gdb_breakpoint: to preserve
# historical usage fails are always printed by default.
# no-message: turns off printing of fails (and passes, but they're already off)
# message: turns on printing of passes (and fails, but they're already on)
proc runto { function args } {
global gdb_prompt
global decimal
delete_breakpoints
# Default to "no-message".
set args "no-message $args"
set print_pass 0
set print_fail 1
set no_message_loc [lsearch -exact $args no-message]
set message_loc [lsearch -exact $args message]
# The last one to appear in args wins.
if { $no_message_loc > $message_loc } {
set print_fail 0
} elseif { $message_loc > $no_message_loc } {
set print_pass 1
}
set test_name "running to $function in runto"
# We need to use eval here to pass our varargs args to gdb_breakpoint
# which is also a varargs function.
# But we also have to be careful because $function may have multiple
# elements, and we don't want Tcl to move the remaining elements after
# the first to $args. That is why $function is wrapped in {}.
if ![eval gdb_breakpoint {$function} $args] {
return 0
}
gdb_run_cmd
# the "at foo.c:36" output we get with -g.
# the "in func" output we get without -g.
gdb_expect 30 {
-re "Break.* at .*:$decimal.*$gdb_prompt $" {
if { $print_pass } {
pass $test_name
}
return 1
}
-re "Breakpoint \[0-9\]*, \[0-9xa-f\]* in .*$gdb_prompt $" {
if { $print_pass } {
pass $test_name
}
return 1
}
-re "The target does not support running in non-stop mode.\r\n$gdb_prompt $" {
if { $print_fail } {
unsupported "non-stop mode not supported"
}
return 0
}
-re ".*A problem internal to GDB has been detected" {
if { $print_fail } {
fail "$test_name (GDB internal error)"
}
gdb_internal_error_resync
return 0
}
-re "$gdb_prompt $" {
if { $print_fail } {
fail $test_name
}
return 0
}
eof {
if { $print_fail } {
fail "$test_name (eof)"
}
return 0
}
timeout {
if { $print_fail } {
fail "$test_name (timeout)"
}
return 0
}
}
if { $print_pass } {
pass $test_name
}
return 1
}
# Ask gdb to run until we hit a breakpoint at main.
#
# N.B. This function deletes all existing breakpoints.
# If you don't want that, use gdb_start_cmd.
proc runto_main { } {
return [runto main no-message]
}
### Continue, and expect to hit a breakpoint.
### Report a pass or fail, depending on whether it seems to have
### worked. Use NAME as part of the test name; each call to
### continue_to_breakpoint should use a NAME which is unique within
### that test file.
proc gdb_continue_to_breakpoint {name {location_pattern .*}} {
global gdb_prompt
set full_name "continue to breakpoint: $name"
gdb_test_multiple "continue" $full_name {
-re "(?:Breakpoint|Temporary breakpoint) .* (at|in) $location_pattern\r\n$gdb_prompt $" {
pass $full_name
}
}
}
# gdb_internal_error_resync:
#
# Answer the questions GDB asks after it reports an internal error
# until we get back to a GDB prompt. Decline to quit the debugging
# session, and decline to create a core file. Return non-zero if the
# resync succeeds.
#
# This procedure just answers whatever questions come up until it sees
# a GDB prompt; it doesn't require you to have matched the input up to
# any specific point. However, it only answers questions it sees in
# the output itself, so if you've matched a question, you had better
# answer it yourself before calling this.
#
# You can use this function thus:
#
# gdb_expect {
# ...
# -re ".*A problem internal to GDB has been detected" {
# gdb_internal_error_resync
# }
# ...
# }
#
proc gdb_internal_error_resync {} {
global gdb_prompt
verbose -log "Resyncing due to internal error."
set count 0
while {$count < 10} {
gdb_expect {
-re "Quit this debugging session\\? \\(y or n\\) $" {
send_gdb "n\n"
incr count
}
-re "Create a core file of GDB\\? \\(y or n\\) $" {
send_gdb "n\n"
incr count
}
-re "$gdb_prompt $" {
# We're resynchronized.
return 1
}
timeout {
perror "Could not resync from internal error (timeout)"
return 0
}
}
}
perror "Could not resync from internal error (resync count exceeded)"
return 0
}
# gdb_test_multiple COMMAND MESSAGE EXPECT_ARGUMENTS
# Send a command to gdb; test the result.
#
# COMMAND is the command to execute, send to GDB with send_gdb. If
# this is the null string no command is sent.
# MESSAGE is a message to be printed with the built-in failure patterns
# if one of them matches. If MESSAGE is empty COMMAND will be used.
# EXPECT_ARGUMENTS will be fed to expect in addition to the standard
# patterns. Pattern elements will be evaluated in the caller's
# context; action elements will be executed in the caller's context.
# Unlike patterns for gdb_test, these patterns should generally include
# the final newline and prompt.
#
# Returns:
# 1 if the test failed, according to a built-in failure pattern
# 0 if only user-supplied patterns matched
# -1 if there was an internal error.
#
# You can use this function thus:
#
# gdb_test_multiple "print foo" "test foo" {
# -re "expected output 1" {
# pass "print foo"
# }
# -re "expected output 2" {
# fail "print foo"
# }
# }
#
# Like with "expect", you can also specify the spawn id to match with
# -i "$id". Interesting spawn ids are $inferior_spawn_id and
# $gdb_spawn_id. The former matches inferior I/O, while the latter
# matches GDB I/O. E.g.:
#
# send_inferior "hello\n"
# gdb_test_multiple "continue" "test echo" {
# -i "$inferior_spawn_id" -re "^hello\r\nhello\r\n$" {
# pass "got echo"
# }
# -i "$gdb_spawn_id" -re "Breakpoint.*$gdb_prompt $" {
# fail "hit breakpoint"
# }
# }
#
# The standard patterns, such as "Inferior exited..." and "A problem
# ...", all being implicitly appended to that list. These are always
# expected from $gdb_spawn_id. IOW, callers do not need to worry
# about resetting "-i" back to $gdb_spawn_id explicitly.
#
proc gdb_test_multiple { command message user_code } {
global verbose use_gdb_stub
global gdb_prompt pagination_prompt
global GDB
global gdb_spawn_id
global inferior_exited_re
upvar timeout timeout
upvar expect_out expect_out
global any_spawn_id
if { $message == "" } {
set message $command
}
if [string match "*\[\r\n\]" $command] {
error "Invalid trailing newline in \"$message\" test"
}
if [string match "*\[\r\n\]*" $message] {
error "Invalid newline in \"$message\" test"
}
if {$use_gdb_stub
&& [regexp -nocase {^\s*(r|run|star|start|at|att|atta|attac|attach)\M} \
$command]} {
error "gdbserver does not support $command without extended-remote"
}
# TCL/EXPECT WART ALERT
# Expect does something very strange when it receives a single braced
# argument. It splits it along word separators and performs substitutions.
# This means that { "[ab]" } is evaluated as "[ab]", but { "\[ab\]" } is
# evaluated as "\[ab\]". But that's not how TCL normally works; inside a
# double-quoted list item, "\[ab\]" is just a long way of representing
# "[ab]", because the backslashes will be removed by lindex.
# Unfortunately, there appears to be no easy way to duplicate the splitting
# that expect will do from within TCL. And many places make use of the
# "\[0-9\]" construct, so we need to support that; and some places make use
# of the "[func]" construct, so we need to support that too. In order to
# get this right we have to substitute quoted list elements differently
# from braced list elements.
# We do this roughly the same way that Expect does it. We have to use two
# lists, because if we leave unquoted newlines in the argument to uplevel
# they'll be treated as command separators, and if we escape newlines
# we mangle newlines inside of command blocks. This assumes that the
# input doesn't contain a pattern which contains actual embedded newlines
# at this point!
regsub -all {\n} ${user_code} { } subst_code
set subst_code [uplevel list $subst_code]
set processed_code ""
set patterns ""
set expecting_action 0
set expecting_arg 0
foreach item $user_code subst_item $subst_code {
if { $item == "-n" || $item == "-notransfer" || $item == "-nocase" } {
lappend processed_code $item
continue
}
if { $item == "-indices" || $item == "-re" || $item == "-ex" } {
lappend processed_code $item
continue
}
if { $item == "-timeout" || $item == "-i" } {
set expecting_arg 1
lappend processed_code $item
continue
}
if { $expecting_arg } {
set expecting_arg 0
lappend processed_code $subst_item
continue
}
if { $expecting_action } {
lappend processed_code "uplevel [list $item]"
set expecting_action 0
# Cosmetic, no effect on the list.
append processed_code "\n"
continue
}
set expecting_action 1
lappend processed_code $subst_item
if {$patterns != ""} {
append patterns "; "
}
append patterns "\"$subst_item\""
}
# Also purely cosmetic.
regsub -all {\r} $patterns {\\r} patterns
regsub -all {\n} $patterns {\\n} patterns
if $verbose>2 then {
send_user "Sending \"$command\" to gdb\n"
send_user "Looking to match \"$patterns\"\n"
send_user "Message is \"$message\"\n"
}
set result -1
set string "${command}\n"
if { $command != "" } {
set multi_line_re "\[\r\n\] *>"
while { "$string" != "" } {
set foo [string first "\n" "$string"]
set len [string length "$string"]
if { $foo < [expr $len - 1] } {
set str [string range "$string" 0 $foo]
if { [send_gdb "$str"] != "" } {
global suppress_flag
if { ! $suppress_flag } {
perror "Couldn't send $command to GDB."
}
fail "$message"
return $result
}
# since we're checking if each line of the multi-line
# command are 'accepted' by GDB here,
# we need to set -notransfer expect option so that
# command output is not lost for pattern matching
# - guo
gdb_expect 2 {
-notransfer -re "$multi_line_re$" { verbose "partial: match" 3 }
timeout { verbose "partial: timeout" 3 }
}
set string [string range "$string" [expr $foo + 1] end]
set multi_line_re "$multi_line_re.*\[\r\n\] *>"
} else {
break
}
}
if { "$string" != "" } {
if { [send_gdb "$string"] != "" } {
global suppress_flag
if { ! $suppress_flag } {
perror "Couldn't send $command to GDB."
}
fail "$message"
return $result
}
}
}
set code {
-re ".*A problem internal to GDB has been detected" {
fail "$message (GDB internal error)"
gdb_internal_error_resync
set result -1
}
-re "\\*\\*\\* DOSEXIT code.*" {
if { $message != "" } {
fail "$message"
}
gdb_suppress_entire_file "GDB died"
set result -1
}
}
append code $processed_code
append code {
# Reset the spawn id, in case the processed code used -i.
-i "$gdb_spawn_id"
-re "Ending remote debugging.*$gdb_prompt $" {
if ![isnative] then {
warning "Can`t communicate to remote target."
}
gdb_exit
gdb_start
set result -1
}
-re "Undefined\[a-z\]* command:.*$gdb_prompt $" {
perror "Undefined command \"$command\"."
fail "$message"
set result 1
}
-re "Ambiguous command.*$gdb_prompt $" {
perror "\"$command\" is not a unique command name."
fail "$message"
set result 1
}
-re "$inferior_exited_re with code \[0-9\]+.*$gdb_prompt $" {
if ![string match "" $message] then {
set errmsg "$message (the program exited)"
} else {
set errmsg "$command (the program exited)"
}
fail "$errmsg"
set result -1
}
-re "$inferior_exited_re normally.*$gdb_prompt $" {
if ![string match "" $message] then {
set errmsg "$message (the program exited)"
} else {
set errmsg "$command (the program exited)"
}
fail "$errmsg"
set result -1
}
-re "The program is not being run.*$gdb_prompt $" {
if ![string match "" $message] then {
set errmsg "$message (the program is no longer running)"
} else {
set errmsg "$command (the program is no longer running)"
}
fail "$errmsg"
set result -1
}
-re "\r\n$gdb_prompt $" {
if ![string match "" $message] then {
fail "$message"
}
set result 1
}
-re "$pagination_prompt" {
send_gdb "\n"
perror "Window too small."
fail "$message"
set result -1
}
-re "\\((y or n|y or \\\[n\\\]|\\\[y\\\] or n)\\) " {
send_gdb "n\n"
gdb_expect -re "$gdb_prompt $"
fail "$message (got interactive prompt)"
set result -1
}
-re "\\\[0\\\] cancel\r\n\\\[1\\\] all.*\r\n> $" {
send_gdb "0\n"
gdb_expect -re "$gdb_prompt $"
fail "$message (got breakpoint menu)"
set result -1
}
# Patterns below apply to any spawn id specified.
-i $any_spawn_id
eof {
perror "Process no longer exists"
if { $message != "" } {
fail "$message"
}
return -1
}
full_buffer {
perror "internal buffer is full."
fail "$message"
set result -1
}
timeout {
if ![string match "" $message] then {
fail "$message (timeout)"
}
set result 1
}
}
set result 0
set code [catch {gdb_expect $code} string]
if {$code == 1} {
global errorInfo errorCode
return -code error -errorinfo $errorInfo -errorcode $errorCode $string
} elseif {$code > 1} {
return -code $code $string
}
return $result
}
# gdb_test COMMAND PATTERN MESSAGE QUESTION RESPONSE
# Send a command to gdb; test the result.
#
# COMMAND is the command to execute, send to GDB with send_gdb. If
# this is the null string no command is sent.
# PATTERN is the pattern to match for a PASS, and must NOT include
# the \r\n sequence immediately before the gdb prompt. This argument
# may be omitted to just match the prompt, ignoring whatever output
# precedes it.
# MESSAGE is an optional message to be printed. If this is
# omitted, then the pass/fail messages use the command string as the
# message. (If this is the empty string, then sometimes we don't
# call pass or fail at all; I don't understand this at all.)
# QUESTION is a question GDB may ask in response to COMMAND, like
# "are you sure?"
# RESPONSE is the response to send if QUESTION appears.
#
# Returns:
# 1 if the test failed,
# 0 if the test passes,
# -1 if there was an internal error.
#
proc gdb_test { args } {
global gdb_prompt
upvar timeout timeout
if [llength $args]>2 then {
set message [lindex $args 2]
} else {
set message [lindex $args 0]
}
set command [lindex $args 0]
set pattern [lindex $args 1]
if [llength $args]==5 {
set question_string [lindex $args 3]
set response_string [lindex $args 4]
} else {
set question_string "^FOOBAR$"
}
return [gdb_test_multiple $command $message {
-re "\[\r\n\]*(?:$pattern)\[\r\n\]+$gdb_prompt $" {
if ![string match "" $message] then {
pass "$message"
}
}
-re "(${question_string})$" {
send_gdb "$response_string\n"
exp_continue
}
}]
}
# gdb_test_no_output COMMAND MESSAGE
# Send a command to GDB and verify that this command generated no output.
#
# See gdb_test_multiple for a description of the COMMAND and MESSAGE
# parameters. If MESSAGE is ommitted, then COMMAND will be used as
# the message. (If MESSAGE is the empty string, then sometimes we do not
# call pass or fail at all; I don't understand this at all.)
proc gdb_test_no_output { args } {
global gdb_prompt
set command [lindex $args 0]
if [llength $args]>1 then {
set message [lindex $args 1]
} else {
set message $command
}
set command_regex [string_to_regexp $command]
gdb_test_multiple $command $message {
-re "^$command_regex\r\n$gdb_prompt $" {
if ![string match "" $message] then {
pass "$message"
}
}
}
}
# Send a command and then wait for a sequence of outputs.
# This is useful when the sequence is long and contains ".*", a single
# regexp to match the entire output can get a timeout much easier.
#
# COMMAND is the command to execute, send to GDB with send_gdb. If
# this is the null string no command is sent.
# TEST_NAME is passed to pass/fail. COMMAND is used if TEST_NAME is "".
# EXPECTED_OUTPUT_LIST is a list of regexps of expected output, which are
# processed in order, and all must be present in the output.
#
# It is unnecessary to specify ".*" at the beginning or end of any regexp,
# there is an implicit ".*" between each element of EXPECTED_OUTPUT_LIST.
# There is also an implicit ".*" between the last regexp and the gdb prompt.
#
# Like gdb_test and gdb_test_multiple, the output is expected to end with the
# gdb prompt, which must not be specified in EXPECTED_OUTPUT_LIST.
#
# Returns:
# 1 if the test failed,
# 0 if the test passes,
# -1 if there was an internal error.
proc gdb_test_sequence { command test_name expected_output_list } {
global gdb_prompt
if { $test_name == "" } {
set test_name $command
}
lappend expected_output_list ""; # implicit ".*" before gdb prompt
if { $command != "" } {
send_gdb "$command\n"
}
return [gdb_expect_list $test_name "$gdb_prompt $" $expected_output_list]
}
# Test that a command gives an error. For pass or fail, return
# a 1 to indicate that more tests can proceed. However a timeout
# is a serious error, generates a special fail message, and causes
# a 0 to be returned to indicate that more tests are likely to fail
# as well.
proc test_print_reject { args } {
global gdb_prompt
global verbose
if [llength $args]==2 then {
set expectthis [lindex $args 1]
} else {
set expectthis "should never match this bogus string"
}
set sendthis [lindex $args 0]
if $verbose>2 then {
send_user "Sending \"$sendthis\" to gdb\n"
send_user "Looking to match \"$expectthis\"\n"
}
send_gdb "$sendthis\n"
#FIXME: Should add timeout as parameter.
gdb_expect {
-re "A .* in expression.*\\.*$gdb_prompt $" {
pass "reject $sendthis"
return 1
}
-re "Invalid syntax in expression.*$gdb_prompt $" {
pass "reject $sendthis"
return 1
}
-re "Junk after end of expression.*$gdb_prompt $" {
pass "reject $sendthis"
return 1
}
-re "Invalid number.*$gdb_prompt $" {
pass "reject $sendthis"
return 1
}
-re "Invalid character constant.*$gdb_prompt $" {
pass "reject $sendthis"
return 1
}
-re "No symbol table is loaded.*$gdb_prompt $" {
pass "reject $sendthis"
return 1
}
-re "No symbol .* in current context.*$gdb_prompt $" {
pass "reject $sendthis"
return 1
}
-re "Unmatched single quote.*$gdb_prompt $" {
pass "reject $sendthis"
return 1
}
-re "A character constant must contain at least one character.*$gdb_prompt $" {
pass "reject $sendthis"
return 1
}
-re "$expectthis.*$gdb_prompt $" {
pass "reject $sendthis"
return 1
}
-re ".*$gdb_prompt $" {
fail "reject $sendthis"
return 1
}
default {
fail "reject $sendthis (eof or timeout)"
return 0
}
}
}
# Same as gdb_test, but the second parameter is not a regexp,
# but a string that must match exactly.
proc gdb_test_exact { args } {
upvar timeout timeout
set command [lindex $args 0]
# This applies a special meaning to a null string pattern. Without
# this, "$pattern\r\n$gdb_prompt $" will match anything, including error
# messages from commands that should have no output except a new
# prompt. With this, only results of a null string will match a null
# string pattern.
set pattern [lindex $args 1]
if [string match $pattern ""] {
set pattern [string_to_regexp [lindex $args 0]]
} else {
set pattern [string_to_regexp [lindex $args 1]]
}
# It is most natural to write the pattern argument with only
# embedded \n's, especially if you are trying to avoid Tcl quoting
# problems. But gdb_expect really wants to see \r\n in patterns. So
# transform the pattern here. First transform \r\n back to \n, in
# case some users of gdb_test_exact already do the right thing.
regsub -all "\r\n" $pattern "\n" pattern
regsub -all "\n" $pattern "\r\n" pattern
if [llength $args]==3 then {
set message [lindex $args 2]
} else {
set message $command
}
return [gdb_test $command $pattern $message]
}
# Wrapper around gdb_test_multiple that looks for a list of expected
# output elements, but which can appear in any order.
# CMD is the gdb command.
# NAME is the name of the test.
# ELM_FIND_REGEXP specifies how to partition the output into elements to
# compare.
# ELM_EXTRACT_REGEXP specifies the part of ELM_FIND_REGEXP to compare.
# RESULT_MATCH_LIST is a list of exact matches for each expected element.
# All elements of RESULT_MATCH_LIST must appear for the test to pass.
#
# A typical use of ELM_FIND_REGEXP/ELM_EXTRACT_REGEXP is to extract one line
# of text per element and then strip trailing \r\n's.
# Example:
# gdb_test_list_exact "foo" "bar" \
# "\[^\r\n\]+\[\r\n\]+" \
# "\[^\r\n\]+" \
# { \
# {expected result 1} \
# {expected result 2} \
# }
proc gdb_test_list_exact { cmd name elm_find_regexp elm_extract_regexp result_match_list } {
global gdb_prompt
set matches [lsort $result_match_list]
set seen {}
gdb_test_multiple $cmd $name {
"$cmd\[\r\n\]" { exp_continue }
-re $elm_find_regexp {
set str $expect_out(0,string)
verbose -log "seen: $str" 3
regexp -- $elm_extract_regexp $str elm_seen
verbose -log "extracted: $elm_seen" 3
lappend seen $elm_seen
exp_continue
}
-re "$gdb_prompt $" {
set failed ""
foreach got [lsort $seen] have $matches {
if {![string equal $got $have]} {
set failed $have
break
}
}
if {[string length $failed] != 0} {
fail "$name ($failed not found)"
} else {
pass $name
}
}
}
}
# gdb_test_stdio COMMAND INFERIOR_PATTERN GDB_PATTERN MESSAGE
# Send a command to gdb; expect inferior and gdb output.
#
# See gdb_test_multiple for a description of the COMMAND and MESSAGE
# parameters.
#
# INFERIOR_PATTERN is the pattern to match against inferior output.
#
# GDB_PATTERN is the pattern to match against gdb output, and must NOT
# include the \r\n sequence immediately before the gdb prompt, nor the
# prompt. The default is empty.
#
# Both inferior and gdb patterns must match for a PASS.
#
# If MESSAGE is ommitted, then COMMAND will be used as the message.
#
# Returns:
# 1 if the test failed,
# 0 if the test passes,
# -1 if there was an internal error.
#
proc gdb_test_stdio {command inferior_pattern {gdb_pattern ""} {message ""}} {
global inferior_spawn_id gdb_spawn_id
global gdb_prompt
if {$message == ""} {
set message $command
}
set inferior_matched 0
set gdb_matched 0
# Use an indirect spawn id list, and remove the inferior spawn id
# from the expected output as soon as it matches, in case
# $inferior_pattern happens to be a prefix of the resulting full
# gdb pattern below (e.g., "\r\n").
global gdb_test_stdio_spawn_id_list
set gdb_test_stdio_spawn_id_list "$inferior_spawn_id"
# Note that if $inferior_spawn_id and $gdb_spawn_id are different,
# then we may see gdb's output arriving before the inferior's
# output.
set res [gdb_test_multiple $command $message {
-i gdb_test_stdio_spawn_id_list -re "$inferior_pattern" {
set inferior_matched 1
if {!$gdb_matched} {
set gdb_test_stdio_spawn_id_list ""
exp_continue
}
}
-i $gdb_spawn_id -re "$gdb_pattern\r\n$gdb_prompt $" {
set gdb_matched 1
if {!$inferior_matched} {
exp_continue
}
}
}]
if {$res == 0} {
pass $message
} else {
verbose -log "inferior_matched=$inferior_matched, gdb_matched=$gdb_matched"
}
return $res
}
# Issue a PASS and return true if evaluating CONDITION in the caller's
# frame returns true, and issue a FAIL and return false otherwise.
# MESSAGE is the pass/fail message to be printed. If MESSAGE is
# omitted or is empty, then the pass/fail messages use the condition
# string as the message.
proc gdb_assert { condition {message ""} } {
if { $message == ""} {
set message $condition
}
set res [uplevel 1 expr $condition]
if {!$res} {
fail $message
} else {
pass $message
}
return $res
}
proc gdb_reinitialize_dir { subdir } {
global gdb_prompt
if [is_remote host] {
return ""
}
send_gdb "dir\n"
gdb_expect 60 {
-re "Reinitialize source path to empty.*y or n. " {
send_gdb "y\n"
gdb_expect 60 {
-re "Source directories searched.*$gdb_prompt $" {
send_gdb "dir $subdir\n"
gdb_expect 60 {
-re "Source directories searched.*$gdb_prompt $" {
verbose "Dir set to $subdir"
}
-re "$gdb_prompt $" {
perror "Dir \"$subdir\" failed."
}
}
}
-re "$gdb_prompt $" {
perror "Dir \"$subdir\" failed."
}
}
}
-re "$gdb_prompt $" {
perror "Dir \"$subdir\" failed."
}
}
}
#
# gdb_exit -- exit the GDB, killing the target program if necessary
#
proc default_gdb_exit {} {
global GDB
global INTERNAL_GDBFLAGS GDBFLAGS
global verbose
global gdb_spawn_id inferior_spawn_id
global inotify_log_file
gdb_stop_suppressing_tests
if ![info exists gdb_spawn_id] {
return
}
verbose "Quitting $GDB $INTERNAL_GDBFLAGS $GDBFLAGS"
if {[info exists inotify_log_file] && [file exists $inotify_log_file]} {
set fd [open $inotify_log_file]
set data [read -nonewline $fd]
close $fd
if {[string compare $data ""] != 0} {
warning "parallel-unsafe file creations noticed"
# Clear the log.
set fd [open $inotify_log_file w]
close $fd
}
}
if { [is_remote host] && [board_info host exists fileid] } {
send_gdb "quit\n"
gdb_expect 10 {
-re "y or n" {
send_gdb "y\n"
exp_continue
}
-re "DOSEXIT code" { }
default { }
}
}
if ![is_remote host] {
remote_close host
}
unset gdb_spawn_id
unset inferior_spawn_id
}
# Load a file into the debugger.
# The return value is 0 for success, -1 for failure.
#
# This procedure also set the global variable GDB_FILE_CMD_DEBUG_INFO
# to one of these values:
#
# debug file was loaded successfully and has debug information
# nodebug file was loaded successfully and has no debug information
# lzma file was loaded, .gnu_debugdata found, but no LZMA support
# compiled in
# fail file was not loaded
#
# I tried returning this information as part of the return value,
# but ran into a mess because of the many re-implementations of
# gdb_load in config/*.exp.
#
# TODO: gdb.base/sepdebug.exp and gdb.stabs/weird.exp might be able to use
# this if they can get more information set.
proc gdb_file_cmd { arg } {
global gdb_prompt
global verbose
global GDB
global last_loaded_file
# Save this for the benefit of gdbserver-support.exp.
set last_loaded_file $arg
# Set whether debug info was found.
# Default to "fail".
global gdb_file_cmd_debug_info
set gdb_file_cmd_debug_info "fail"
if [is_remote host] {
set arg [remote_download host $arg]
if { $arg == "" } {
perror "download failed"
return -1
}
}
# The file command used to kill the remote target. For the benefit
# of the testsuite, preserve this behavior.
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.
}
}
send_gdb "file $arg\n"
gdb_expect 120 {
-re "Reading symbols from.*LZMA support was disabled.*$gdb_prompt $" {
verbose "\t\tLoaded $arg into $GDB; .gnu_debugdata found but no LZMA available"
set gdb_file_cmd_debug_info "lzma"
return 0
}
-re "Reading symbols from.*no debugging symbols found.*$gdb_prompt $" {
verbose "\t\tLoaded $arg into $GDB with no debugging symbols"
set gdb_file_cmd_debug_info "nodebug"
return 0
}
-re "Reading symbols from.*$gdb_prompt $" {
verbose "\t\tLoaded $arg into $GDB"
set gdb_file_cmd_debug_info "debug"
return 0
}
-re "Load new symbol table from \".*\".*y or n. $" {
send_gdb "y\n"
gdb_expect 120 {
-re "Reading symbols from.*$gdb_prompt $" {
verbose "\t\tLoaded $arg with new symbol table into $GDB"
set gdb_file_cmd_debug_info "debug"
return 0
}
timeout {
perror "Couldn't load $arg, other program already loaded (timeout)."
return -1
}
eof {
perror "Couldn't load $arg, other program already loaded (eof)."
return -1
}
}
}
-re "No such file or directory.*$gdb_prompt $" {
perror "($arg) No such file or directory"
return -1
}
-re "A problem internal to GDB has been detected" {
fail "($arg) (GDB internal error)"
gdb_internal_error_resync
return -1
}
-re "$gdb_prompt $" {
perror "Couldn't load $arg into $GDB."
return -1
}
timeout {
perror "Couldn't load $arg into $GDB (timeout)."
return -1
}
eof {
# This is an attempt to detect a core dump, but seems not to
# work. Perhaps we need to match .* followed by eof, in which
# gdb_expect does not seem to have a way to do that.
perror "Couldn't load $arg into $GDB (eof)."
return -1
}
}
}
# Default gdb_spawn procedure.
proc default_gdb_spawn { } {
global use_gdb_stub
global GDB
global INTERNAL_GDBFLAGS GDBFLAGS
global gdb_spawn_id
gdb_stop_suppressing_tests
# Set the default value, it may be overriden later by specific testfile.
#
# Use `set_board_info use_gdb_stub' for the board file to flag the inferior
# is already started after connecting and run/attach are not supported.
# This is used for the "remote" protocol. After GDB starts you should
# check global $use_gdb_stub instead of the board as the testfile may force
# a specific different target protocol itself.
set use_gdb_stub [target_info exists use_gdb_stub]
verbose "Spawning $GDB $INTERNAL_GDBFLAGS $GDBFLAGS"
if [info exists gdb_spawn_id] {
return 0
}
if ![is_remote host] {
if { [which $GDB] == 0 } then {
perror "$GDB does not exist."
exit 1
}
}
set res [remote_spawn host "$GDB $INTERNAL_GDBFLAGS $GDBFLAGS [host_info gdb_opts]"]
if { $res < 0 || $res == "" } {
perror "Spawning $GDB failed."
return 1
}
set gdb_spawn_id $res
return 0
}
# Default gdb_start procedure.
proc default_gdb_start { } {
global gdb_prompt pagination_prompt
global gdb_spawn_id
global inferior_spawn_id
if [info exists gdb_spawn_id] {
return 0
}
set res [gdb_spawn]
if { $res != 0} {
return $res
}
# Default to assuming inferior I/O is done on GDB's terminal.
if {![info exists inferior_spawn_id]} {
set inferior_spawn_id $gdb_spawn_id
}
# When running over NFS, particularly if running many simultaneous
# tests on different hosts all using the same server, things can
# get really slow. Give gdb at least 3 minutes to start up.
set loop_again 1
while { $loop_again } {
set loop_again 0
gdb_expect 360 {
-re "$pagination_prompt" {
verbose "Hit pagination during startup. Pressing enter to continue."
send_gdb "\n"
set loop_again 1
}
-re "\[\r\n\]$gdb_prompt $" {
verbose "GDB initialized."
}
-re "$gdb_prompt $" {
perror "GDB never initialized."
unset gdb_spawn_id
return -1
}
timeout {
perror "(timeout) GDB never initialized after 10 seconds."
remote_close host
unset gdb_spawn_id
return -1
}
}
}
# force the height to "unlimited", so no pagers get used
send_gdb "set height 0\n"
gdb_expect 10 {
-re "$gdb_prompt $" {
verbose "Setting height to 0." 2
}
timeout {
warning "Couldn't set the height to 0"
}
}
# force the width to "unlimited", so no wraparound occurs
send_gdb "set width 0\n"
gdb_expect 10 {
-re "$gdb_prompt $" {
verbose "Setting width to 0." 2
}
timeout {
warning "Couldn't set the width to 0."
}
}
return 0
}
# Utility procedure to give user control of the gdb prompt in a script. It is
# meant to be used for debugging test cases, and should not be left in the
# test cases code.
proc gdb_interact { } {
global gdb_spawn_id
set spawn_id $gdb_spawn_id
send_user "+------------------------------------------+\n"
send_user "| Script interrupted, you can now interact |\n"
send_user "| with by gdb. Type >>> to continue. |\n"
send_user "+------------------------------------------+\n"
interact {
">>>" return
}
}
# Examine the output of compilation to determine whether compilation
# failed or not. If it failed determine whether it is due to missing
# compiler or due to compiler error. Report pass, fail or unsupported
# as appropriate
proc gdb_compile_test {src output} {
if { $output == "" } {
pass "compilation [file tail $src]"
} elseif { [regexp {^[a-zA-Z_0-9]+: Can't find [^ ]+\.$} $output] } {
unsupported "compilation [file tail $src]"
} elseif { [regexp {.*: command not found[\r|\n]*$} $output] } {
unsupported "compilation [file tail $src]"
} elseif { [regexp {.*: [^\r\n]*compiler not installed[^\r\n]*[\r|\n]*$} $output] } {
unsupported "compilation [file tail $src]"
} else {
verbose -log "compilation failed: $output" 2
fail "compilation [file tail $src]"
}
}
# Return a 1 for configurations for which we don't even want to try to
# test C++.
proc skip_cplus_tests {} {
if { [istarget "h8300-*-*"] } {
return 1
}
# The C++ IO streams are too large for HC11/HC12 and are thus not
# available. The gdb C++ tests use them and don't compile.
if { [istarget "m6811-*-*"] } {
return 1
}
if { [istarget "m6812-*-*"] } {
return 1
}
return 0
}
# Return a 1 for configurations for which don't have both C++ and the STL.
proc skip_stl_tests {} {
# Symbian supports the C++ language, but the STL is missing
# (both headers and libraries).
if { [istarget "arm*-*-symbianelf*"] } {
return 1
}
return [skip_cplus_tests]
}
# Return a 1 if I don't even want to try to test FORTRAN.
proc skip_fortran_tests {} {
return 0
}
# Return a 1 if I don't even want to try to test ada.
proc skip_ada_tests {} {
return 0
}
# Return a 1 if I don't even want to try to test GO.
proc skip_go_tests {} {
return 0
}
# Return a 1 if I don't even want to try to test D.
proc skip_d_tests {} {
return 0
}
# Return 1 to skip Rust tests, 0 to try them.
proc skip_rust_tests {} {
return [expr {![isnative]}]
}
# Return a 1 for configurations that do not support Python scripting.
# PROMPT_REGEXP is the expected prompt.
proc skip_python_tests_prompt { prompt_regexp } {
global gdb_py_is_py3k
global gdb_py_is_py24
gdb_test_multiple "python print ('test')" "verify python support" {
-re "not supported.*$prompt_regexp" {
unsupported "Python support is disabled."
return 1
}
-re "$prompt_regexp" {}
}
set gdb_py_is_py24 0
gdb_test_multiple "python print (sys.version_info\[0\])" "check if python 3" {
-re "3.*$prompt_regexp" {
set gdb_py_is_py3k 1
}
-re ".*$prompt_regexp" {
set gdb_py_is_py3k 0
}
}
if { $gdb_py_is_py3k == 0 } {
gdb_test_multiple "python print (sys.version_info\[1\])" "check if python 2.4" {
-re "\[45\].*$prompt_regexp" {
set gdb_py_is_py24 1
}
-re ".*$prompt_regexp" {
set gdb_py_is_py24 0
}
}
}
return 0
}
# Return a 1 for configurations that do not support Python scripting.
# Note: This also sets various globals that specify which version of Python
# is in use. See skip_python_tests_prompt.
proc skip_python_tests {} {
global gdb_prompt
return [skip_python_tests_prompt "$gdb_prompt $"]
}
# Return a 1 if we should skip shared library tests.
proc skip_shlib_tests {} {
# Run the shared library tests on native systems.
if {[isnative]} {
return 0
}
# An abbreviated list of remote targets where we should be able to
# run shared library tests.
if {([istarget *-*-linux*]
|| [istarget *-*-*bsd*]
|| [istarget *-*-solaris2*]
|| [istarget arm*-*-symbianelf*]
|| [istarget *-*-mingw*]
|| [istarget *-*-cygwin*]
|| [istarget *-*-pe*])} {
return 0
}
return 1
}
# Return 1 if we should skip tui related tests.
proc skip_tui_tests {} {
global gdb_prompt
gdb_test_multiple "help layout" "verify tui support" {
-re "Undefined command: \"layout\".*$gdb_prompt $" {
return 1
}
-re "$gdb_prompt $" {
}
}
return 0
}
# Test files shall make sure all the test result lines in gdb.sum are
# unique in a test run, so that comparing the gdb.sum files of two
# test runs gives correct results. Test files that exercise
# variations of the same tests more than once, shall prefix the
# different test invocations with different identifying strings in
# order to make them unique.
#
# About test prefixes:
#
# $pf_prefix is the string that dejagnu prints after the result (FAIL,
# PASS, etc.), and before the test message/name in gdb.sum. E.g., the
# underlined substring in
#
# PASS: gdb.base/mytest.exp: some test
# ^^^^^^^^^^^^^^^^^^^^
#
# is $pf_prefix.
#
# The easiest way to adjust the test prefix is to append a test
# variation prefix to the $pf_prefix, using the with_test_prefix
# procedure. E.g.,
#
# proc do_tests {} {
# gdb_test ... ... "test foo"
# gdb_test ... ... "test bar"
#
# with_test_prefix "subvariation a" {
# gdb_test ... ... "test x"
# }
#
# with_test_prefix "subvariation b" {
# gdb_test ... ... "test x"
# }
# }
#
# with_test_prefix "variation1" {
# ...do setup for variation 1...
# do_tests
# }
#
# with_test_prefix "variation2" {
# ...do setup for variation 2...
# do_tests
# }
#
# Results in:
#
# PASS: gdb.base/mytest.exp: variation1: test foo
# PASS: gdb.base/mytest.exp: variation1: test bar
# PASS: gdb.base/mytest.exp: variation1: subvariation a: test x
# PASS: gdb.base/mytest.exp: variation1: subvariation b: test x
# PASS: gdb.base/mytest.exp: variation2: test foo
# PASS: gdb.base/mytest.exp: variation2: test bar
# PASS: gdb.base/mytest.exp: variation2: subvariation a: test x
# PASS: gdb.base/mytest.exp: variation2: subvariation b: test x
#
# If for some reason more flexibility is necessary, one can also
# manipulate the pf_prefix global directly, treating it as a string.
# E.g.,
#
# global pf_prefix
# set saved_pf_prefix
# append pf_prefix "${foo}: bar"
# ... actual tests ...
# set pf_prefix $saved_pf_prefix
#
# Run BODY in the context of the caller, with the current test prefix
# (pf_prefix) appended with one space, then PREFIX, and then a colon.
# Returns the result of BODY.
#
proc with_test_prefix { prefix body } {
global pf_prefix
set saved $pf_prefix
append pf_prefix " " $prefix ":"
set code [catch {uplevel 1 $body} result]
set pf_prefix $saved
if {$code == 1} {
global errorInfo errorCode
return -code $code -errorinfo $errorInfo -errorcode $errorCode $result
} else {
return -code $code $result
}
}
# Wrapper for foreach that calls with_test_prefix on each iteration,
# including the iterator's name and current value in the prefix.
proc foreach_with_prefix {var list body} {
upvar 1 $var myvar
foreach myvar $list {
with_test_prefix "$var=$myvar" {
uplevel 1 $body
}
}
}
# Like TCL's native proc, but defines a procedure that wraps its body
# within 'with_test_prefix "$proc_name" { ... }'.
proc proc_with_prefix {name arguments body} {
# Define the advertised proc.
proc $name $arguments [list with_test_prefix $name $body]
}
# Run BODY in the context of the caller. After BODY is run, the variables
# listed in VARS will be reset to the values they had before BODY was run.
#
# This is useful for providing a scope in which it is safe to temporarily
# modify global variables, e.g.
#
# global INTERNAL_GDBFLAGS
# global env
#
# set foo GDBHISTSIZE
#
# save_vars { INTERNAL_GDBFLAGS env($foo) env(HOME) } {
# append INTERNAL_GDBFLAGS " -nx"
# unset -nocomplain env(GDBHISTSIZE)
# gdb_start
# gdb_test ...
# }
#
# Here, although INTERNAL_GDBFLAGS, env(GDBHISTSIZE) and env(HOME) may be
# modified inside BODY, this proc guarantees that the modifications will be
# undone after BODY finishes executing.
proc save_vars { vars body } {
array set saved_scalars { }
array set saved_arrays { }
set unset_vars { }
foreach var $vars {
# First evaluate VAR in the context of the caller in case the variable
# name may be a not-yet-interpolated string like env($foo)
set var [uplevel 1 list $var]
if [uplevel 1 [list info exists $var]] {
if [uplevel 1 [list array exists $var]] {
set saved_arrays($var) [uplevel 1 [list array get $var]]
} else {
set saved_scalars($var) [uplevel 1 [list set $var]]
}
} else {
lappend unset_vars $var
}
}
set code [catch {uplevel 1 $body} result]
foreach {var value} [array get saved_scalars] {
uplevel 1 [list set $var $value]
}
foreach {var value} [array get saved_arrays] {
uplevel 1 [list unset $var]
uplevel 1 [list array set $var $value]
}
foreach var $unset_vars {
uplevel 1 [list unset -nocomplain $var]
}
if {$code == 1} {
global errorInfo errorCode
return -code $code -errorinfo $errorInfo -errorcode $errorCode $result
} else {
return -code $code $result
}
}
# Run tests in BODY with the current working directory (CWD) set to
# DIR. When BODY is finished, restore the original CWD. Return the
# result of BODY.
#
# This procedure doesn't check if DIR is a valid directory, so you
# have to make sure of that.
proc with_cwd { dir body } {
set saved_dir [pwd]
verbose -log "Switching to directory $dir (saved CWD: $saved_dir)."
cd $dir
set code [catch {uplevel 1 $body} result]
verbose -log "Switching back to $saved_dir."
cd $saved_dir
if {$code == 1} {
global errorInfo errorCode
return -code $code -errorinfo $errorInfo -errorcode $errorCode $result
} else {
return -code $code $result
}
}
# Run tests in BODY with GDB prompt and variable $gdb_prompt set to
# PROMPT. When BODY is finished, restore GDB prompt and variable
# $gdb_prompt.
# Returns the result of BODY.
#
# Notes:
#
# 1) If you want to use, for example, "(foo)" as the prompt you must pass it
# as "(foo)", and not the regexp form "\(foo\)" (expressed as "\\(foo\\)" in
# TCL). PROMPT is internally converted to a suitable regexp for matching.
# We do the conversion from "(foo)" to "\(foo\)" here for a few reasons:
# a) It's more intuitive for callers to pass the plain text form.
# b) We need two forms of the prompt:
# - a regexp to use in output matching,
# - a value to pass to the "set prompt" command.
# c) It's easier to convert the plain text form to its regexp form.
#
# 2) Don't add a trailing space, we do that here.
proc with_gdb_prompt { prompt body } {
global gdb_prompt
# Convert "(foo)" to "\(foo\)".
# We don't use string_to_regexp because while it works today it's not
# clear it will work tomorrow: the value we need must work as both a
# regexp *and* as the argument to the "set prompt" command, at least until
# we start recording both forms separately instead of just $gdb_prompt.
# The testsuite is pretty-much hardwired to interpret $gdb_prompt as the
# regexp form.
regsub -all {[]*+.|()^$\[\\]} $prompt {\\&} prompt
set saved $gdb_prompt
verbose -log "Setting gdb prompt to \"$prompt \"."
set gdb_prompt $prompt
gdb_test_no_output "set prompt $prompt " ""
set code [catch {uplevel 1 $body} result]
verbose -log "Restoring gdb prompt to \"$saved \"."
set gdb_prompt $saved
gdb_test_no_output "set prompt $saved " ""
if {$code == 1} {
global errorInfo errorCode
return -code $code -errorinfo $errorInfo -errorcode $errorCode $result
} else {
return -code $code $result
}
}
# Run tests in BODY with target-charset setting to TARGET_CHARSET. When
# BODY is finished, restore target-charset.
proc with_target_charset { target_charset body } {
global gdb_prompt
set saved ""
gdb_test_multiple "show target-charset" "" {
-re "The target character set is \".*; currently (.*)\"\..*$gdb_prompt " {
set saved $expect_out(1,string)
}
-re "The target character set is \"(.*)\".*$gdb_prompt " {
set saved $expect_out(1,string)
}
-re ".*$gdb_prompt " {
fail "get target-charset"
}
}
gdb_test_no_output "set target-charset $target_charset" ""
set code [catch {uplevel 1 $body} result]
gdb_test_no_output "set target-charset $saved" ""
if {$code == 1} {
global errorInfo errorCode
return -code $code -errorinfo $errorInfo -errorcode $errorCode $result
} else {
return -code $code $result
}
}
# Switch the default spawn id to SPAWN_ID, so that gdb_test,
# mi_gdb_test etc. default to using it.
proc switch_gdb_spawn_id {spawn_id} {
global gdb_spawn_id
global board board_info
set gdb_spawn_id $spawn_id
set board [host_info name]
set board_info($board,fileid) $spawn_id
}
# Clear the default spawn id.
proc clear_gdb_spawn_id {} {
global gdb_spawn_id
global board board_info
unset -nocomplain gdb_spawn_id
set board [host_info name]
unset -nocomplain board_info($board,fileid)
}
# Run BODY with SPAWN_ID as current spawn id.
proc with_spawn_id { spawn_id body } {
global gdb_spawn_id
if [info exists gdb_spawn_id] {
set saved_spawn_id $gdb_spawn_id
}
switch_gdb_spawn_id $spawn_id
set code [catch {uplevel 1 $body} result]
if [info exists saved_spawn_id] {
switch_gdb_spawn_id $saved_spawn_id
} else {
clear_gdb_spawn_id
}
if {$code == 1} {
global errorInfo errorCode
return -code $code -errorinfo $errorInfo -errorcode $errorCode $result
} else {
return -code $code $result
}
}
# Select the largest timeout from all the timeouts:
# - the local "timeout" variable of the scope two levels above,
# - the global "timeout" variable,
# - the board variable "gdb,timeout".
proc get_largest_timeout {} {
upvar #0 timeout gtimeout
upvar 2 timeout timeout
set tmt 0
if [info exists timeout] {
set tmt $timeout
}
if { [info exists gtimeout] && $gtimeout > $tmt } {
set tmt $gtimeout
}
if { [target_info exists gdb,timeout]
&& [target_info gdb,timeout] > $tmt } {
set tmt [target_info gdb,timeout]
}
if { $tmt == 0 } {
# Eeeeew.
set tmt 60
}
return $tmt
}
# Run tests in BODY with timeout increased by factor of FACTOR. When
# BODY is finished, restore timeout.
proc with_timeout_factor { factor body } {
global timeout
set savedtimeout $timeout
set timeout [expr [get_largest_timeout] * $factor]
set code [catch {uplevel 1 $body} result]
set timeout $savedtimeout
if {$code == 1} {
global errorInfo errorCode
return -code $code -errorinfo $errorInfo -errorcode $errorCode $result
} else {
return -code $code $result
}
}
# Return 1 if _Complex types are supported, otherwise, return 0.
gdb_caching_proc support_complex_tests {
if { [gdb_skip_float_test] } {
# If floating point is not supported, _Complex is not
# supported.
return 0
}
# Compile a test program containing _Complex types.
return [gdb_can_simple_compile complex {
int main() {
_Complex float cf;
_Complex double cd;
_Complex long double cld;
return 0;
}
} executable]
}
# Return 1 if GDB can get a type for siginfo from the target, otherwise
# return 0.
proc supports_get_siginfo_type {} {
if { [istarget "*-*-linux*"] } {
return 1
} else {
return 0
}
}
# Return 1 if the target supports hardware single stepping.
proc can_hardware_single_step {} {
if { [istarget "arm*-*-*"] || [istarget "mips*-*-*"]
|| [istarget "tic6x-*-*"] || [istarget "sparc*-*-linux*"]
|| [istarget "nios2-*-*"] } {
return 0
}
return 1
}
# Return 1 if target hardware or OS supports single stepping to signal
# handler, otherwise, return 0.
proc can_single_step_to_signal_handler {} {
# Targets don't have hardware single step. On these targets, when
# a signal is delivered during software single step, gdb is unable
# to determine the next instruction addresses, because start of signal
# handler is one of them.
return [can_hardware_single_step]
}
# Return 1 if target supports process record, otherwise return 0.
proc supports_process_record {} {
if [target_info exists gdb,use_precord] {
return [target_info gdb,use_precord]
}
if { [istarget "arm*-*-linux*"] || [istarget "x86_64-*-linux*"]
|| [istarget "i\[34567\]86-*-linux*"]
|| [istarget "aarch64*-*-linux*"]
|| [istarget "powerpc*-*-linux*"]
|| [istarget "s390*-*-linux*"] } {
return 1
}
return 0
}
# Return 1 if target supports reverse debugging, otherwise return 0.
proc supports_reverse {} {
if [target_info exists gdb,can_reverse] {
return [target_info gdb,can_reverse]
}
if { [istarget "arm*-*-linux*"] || [istarget "x86_64-*-linux*"]
|| [istarget "i\[34567\]86-*-linux*"]
|| [istarget "aarch64*-*-linux*"]
|| [istarget "powerpc*-*-linux*"]
|| [istarget "s390*-*-linux*"] } {
return 1
}
return 0
}
# Return 1 if readline library is used.
proc readline_is_used { } {
global gdb_prompt
gdb_test_multiple "show editing" "" {
-re ".*Editing of command lines as they are typed is on\..*$gdb_prompt $" {
return 1
}
-re ".*$gdb_prompt $" {
return 0
}
}
}
# Return 1 if target is ELF.
gdb_caching_proc is_elf_target {
set me "is_elf_target"
set src { int foo () {return 0;} }
if {![gdb_simple_compile elf_target $src]} {
return 0
}
set fp_obj [open $obj "r"]
fconfigure $fp_obj -translation binary
set data [read $fp_obj]
close $fp_obj
file delete $obj
set ELFMAG "\u007FELF"
if {[string compare -length 4 $data $ELFMAG] != 0} {
verbose "$me: returning 0" 2
return 0
}
verbose "$me: returning 1" 2
return 1
}
# Return 1 if the memory at address zero is readable.
gdb_caching_proc is_address_zero_readable {
global gdb_prompt
set ret 0
gdb_test_multiple "x 0" "" {
-re "Cannot access memory at address 0x0.*$gdb_prompt $" {
set ret 0
}
-re ".*$gdb_prompt $" {
set ret 1
}
}
return $ret
}
# Produce source file NAME and write SOURCES into it.
proc gdb_produce_source { name sources } {
set index 0
set f [open $name "w"]
puts $f $sources
close $f
}
# Return 1 if target is ILP32.
# This cannot be decided simply from looking at the target string,
# as it might depend on externally passed compiler options like -m64.
gdb_caching_proc is_ilp32_target {
return [gdb_can_simple_compile is_ilp32_target {
int dummy[sizeof (int) == 4
&& sizeof (void *) == 4
&& sizeof (long) == 4 ? 1 : -1];
}]
}
# Return 1 if target is LP64.
# This cannot be decided simply from looking at the target string,
# as it might depend on externally passed compiler options like -m64.
gdb_caching_proc is_lp64_target {
return [gdb_can_simple_compile is_lp64_target {
int dummy[sizeof (int) == 4
&& sizeof (void *) == 8
&& sizeof (long) == 8 ? 1 : -1];
}]
}
# Return 1 if target has 64 bit addresses.
# This cannot be decided simply from looking at the target string,
# as it might depend on externally passed compiler options like -m64.
gdb_caching_proc is_64_target {
return [gdb_can_simple_compile is_64_target {
int function(void) { return 3; }
int dummy[sizeof (&function) == 8 ? 1 : -1];
}]
}
# Return 1 if target has x86_64 registers - either amd64 or x32.
# x32 target identifies as x86_64-*-linux*, therefore it cannot be determined
# just from the target string.
gdb_caching_proc is_amd64_regs_target {
if {![istarget "x86_64-*-*"] && ![istarget "i?86-*"]} {
return 0
}
return [gdb_can_simple_compile is_amd64_regs_target {
int main (void) {
asm ("incq %rax");
asm ("incq %r15");
return 0;
}
}]
}
# Return 1 if this target is an x86 or x86-64 with -m32.
proc is_x86_like_target {} {
if {![istarget "x86_64-*-*"] && ![istarget i?86-*]} {
return 0
}
return [expr [is_ilp32_target] && ![is_amd64_regs_target]]
}
# Return 1 if this target is an arm or aarch32 on aarch64.
gdb_caching_proc is_aarch32_target {
if { [istarget "arm*-*-*"] } {
return 1
}
if { ![istarget "aarch64*-*-*"] } {
return 0
}
set list {}
foreach reg \
{r0 r1 r2 r3} {
lappend list "\tmov $reg, $reg"
}
return [gdb_can_simple_compile aarch32 [join $list \n]]
}
# Return 1 if this target is an aarch64, either lp64 or ilp32.
proc is_aarch64_target {} {
if { ![istarget "aarch64*-*-*"] } {
return 0
}
return [expr ![is_aarch32_target]]
}
# Return 1 if displaced stepping is supported on target, otherwise, return 0.
proc support_displaced_stepping {} {
if { [istarget "x86_64-*-linux*"] || [istarget "i\[34567\]86-*-linux*"]
|| [istarget "arm*-*-linux*"] || [istarget "powerpc-*-linux*"]
|| [istarget "powerpc64-*-linux*"] || [istarget "s390*-*-*"]
|| [istarget "aarch64*-*-linux*"] } {
return 1
}
return 0
}
# Run a test on the target to see if it supports vmx hardware. Return 0 if so,
# 1 if it does not. Based on 'check_vmx_hw_available' from the GCC testsuite.
gdb_caching_proc skip_altivec_tests {
global srcdir subdir gdb_prompt inferior_exited_re
set me "skip_altivec_tests"
# Some simulators are known to not support VMX instructions.
if { [istarget powerpc-*-eabi] || [istarget powerpc*-*-eabispe] } {
verbose "$me: target known to not support VMX, returning 1" 2
return 1
}
# Make sure we have a compiler that understands altivec.
if [get_compiler_info] {
warning "Could not get compiler info"
return 1
}
if [test_compiler_info gcc*] {
set compile_flags "additional_flags=-maltivec"
} elseif [test_compiler_info xlc*] {
set compile_flags "additional_flags=-qaltivec"
} else {
verbose "Could not compile with altivec support, returning 1" 2
return 1
}
# Compile a test program containing VMX instructions.
set src {
int main() {
#ifdef __MACH__
asm volatile ("vor v0,v0,v0");
#else
asm volatile ("vor 0,0,0");
#endif
return 0;
}
}
if {![gdb_simple_compile $me $src executable $compile_flags]} {
return 1
}
# Compilation succeeded so now run it via gdb.
gdb_exit
gdb_start
gdb_reinitialize_dir $srcdir/$subdir
gdb_load "$obj"
gdb_run_cmd
gdb_expect {
-re ".*Illegal instruction.*${gdb_prompt} $" {
verbose -log "\n$me altivec hardware not detected"
set skip_vmx_tests 1
}
-re ".*$inferior_exited_re normally.*${gdb_prompt} $" {
verbose -log "\n$me: altivec hardware detected"
set skip_vmx_tests 0
}
default {
warning "\n$me: default case taken"
set skip_vmx_tests 1
}
}
gdb_exit
remote_file build delete $obj
verbose "$me: returning $skip_vmx_tests" 2
return $skip_vmx_tests
}
# Run a test on the target to see if it supports vmx hardware. Return 0 if so,
# 1 if it does not. Based on 'check_vmx_hw_available' from the GCC testsuite.
gdb_caching_proc skip_vsx_tests {
global srcdir subdir gdb_prompt inferior_exited_re
set me "skip_vsx_tests"
# Some simulators are known to not support Altivec instructions, so
# they won't support VSX instructions as well.
if { [istarget powerpc-*-eabi] || [istarget powerpc*-*-eabispe] } {
verbose "$me: target known to not support VSX, returning 1" 2
return 1
}
# Make sure we have a compiler that understands altivec.
if [get_compiler_info] {
warning "Could not get compiler info"
return 1
}
if [test_compiler_info gcc*] {
set compile_flags "additional_flags=-mvsx"
} elseif [test_compiler_info xlc*] {
set compile_flags "additional_flags=-qasm=gcc"
} else {
verbose "Could not compile with vsx support, returning 1" 2
return 1
}
# Compile a test program containing VSX instructions.
set src {
int main() {
double a[2] = { 1.0, 2.0 };
#ifdef __MACH__
asm volatile ("lxvd2x v0,v0,%[addr]" : : [addr] "r" (a));
#else
asm volatile ("lxvd2x 0,0,%[addr]" : : [addr] "r" (a));
#endif
return 0;
}
}
if {![gdb_simple_compile $me $src executable $compile_flags]} {
return 1
}
# No error message, compilation succeeded so now run it via gdb.
gdb_exit
gdb_start
gdb_reinitialize_dir $srcdir/$subdir
gdb_load "$obj"
gdb_run_cmd
gdb_expect {
-re ".*Illegal instruction.*${gdb_prompt} $" {
verbose -log "\n$me VSX hardware not detected"
set skip_vsx_tests 1
}
-re ".*$inferior_exited_re normally.*${gdb_prompt} $" {
verbose -log "\n$me: VSX hardware detected"
set skip_vsx_tests 0
}
default {
warning "\n$me: default case taken"
set skip_vsx_tests 1
}
}
gdb_exit
remote_file build delete $obj
verbose "$me: returning $skip_vsx_tests" 2
return $skip_vsx_tests
}
# Run a test on the target to see if it supports TSX hardware. Return 0 if so,
# 1 if it does not. Based on 'check_vmx_hw_available' from the GCC testsuite.
gdb_caching_proc skip_tsx_tests {
global srcdir subdir gdb_prompt inferior_exited_re
set me "skip_tsx_tests"
# Compile a test program.
set src {
int main() {
asm volatile ("xbegin .L0");
asm volatile ("xend");
asm volatile (".L0: nop");
return 0;
}
}
if {![gdb_simple_compile $me $src executable]} {
return 1
}
# No error message, compilation succeeded so now run it via gdb.
gdb_exit
gdb_start
gdb_reinitialize_dir $srcdir/$subdir
gdb_load "$obj"
gdb_run_cmd
gdb_expect {
-re ".*Illegal instruction.*${gdb_prompt} $" {
verbose -log "$me: TSX hardware not detected."
set skip_tsx_tests 1
}
-re ".*$inferior_exited_re normally.*${gdb_prompt} $" {
verbose -log "$me: TSX hardware detected."
set skip_tsx_tests 0
}
default {
warning "\n$me: default case taken."
set skip_tsx_tests 1
}
}
gdb_exit
remote_file build delete $obj
verbose "$me: returning $skip_tsx_tests" 2
return $skip_tsx_tests
}
# Run a test on the target to see if it supports btrace hardware. Return 0 if so,
# 1 if it does not. Based on 'check_vmx_hw_available' from the GCC testsuite.
gdb_caching_proc skip_btrace_tests {
global srcdir subdir gdb_prompt inferior_exited_re
set me "skip_btrace_tests"
if { ![istarget "i?86-*-*"] && ![istarget "x86_64-*-*"] } {
verbose "$me: target does not support btrace, returning 1" 2
return 1
}
# Compile a test program.
set src { int main() { return 0; } }
if {![gdb_simple_compile $me $src executable]} {
return 0
}
# No error message, compilation succeeded so now run it via gdb.
gdb_exit
gdb_start
gdb_reinitialize_dir $srcdir/$subdir
gdb_load $obj
if ![runto_main] {
return 1
}
# In case of an unexpected output, we return 2 as a fail value.
set skip_btrace_tests 2
gdb_test_multiple "record btrace" "check btrace support" {
-re "You can't do that when your target is.*\r\n$gdb_prompt $" {
set skip_btrace_tests 1
}
-re "Target does not support branch tracing.*\r\n$gdb_prompt $" {
set skip_btrace_tests 1
}
-re "Could not enable branch tracing.*\r\n$gdb_prompt $" {
set skip_btrace_tests 1
}
-re "^record btrace\r\n$gdb_prompt $" {
set skip_btrace_tests 0
}
}
gdb_exit
remote_file build delete $obj
verbose "$me: returning $skip_btrace_tests" 2
return $skip_btrace_tests
}
# Run a test on the target to see if it supports btrace pt hardware.
# Return 0 if so, 1 if it does not. Based on 'check_vmx_hw_available'
# from the GCC testsuite.
gdb_caching_proc skip_btrace_pt_tests {
global srcdir subdir gdb_prompt inferior_exited_re
set me "skip_btrace_tests"
if { ![istarget "i?86-*-*"] && ![istarget "x86_64-*-*"] } {
verbose "$me: target does not support btrace, returning 1" 2
return 1
}
# Compile a test program.
set src { int main() { return 0; } }
if {![gdb_simple_compile $me $src executable]} {
return 0
}
# No error message, compilation succeeded so now run it via gdb.
gdb_exit
gdb_start
gdb_reinitialize_dir $srcdir/$subdir
gdb_load $obj
if ![runto_main] {
return 1
}
# In case of an unexpected output, we return 2 as a fail value.
set skip_btrace_tests 2
gdb_test_multiple "record btrace pt" "check btrace pt support" {
-re "You can't do that when your target is.*\r\n$gdb_prompt $" {
set skip_btrace_tests 1
}
-re "Target does not support branch tracing.*\r\n$gdb_prompt $" {
set skip_btrace_tests 1
}
-re "Could not enable branch tracing.*\r\n$gdb_prompt $" {
set skip_btrace_tests 1
}
-re "support was disabled at compile time.*\r\n$gdb_prompt $" {
set skip_btrace_tests 1
}
-re "^record btrace pt\r\n$gdb_prompt $" {
set skip_btrace_tests 0
}
}
gdb_exit
remote_file build delete $obj
verbose "$me: returning $skip_btrace_tests" 2
return $skip_btrace_tests
}
# Run a test on the target to see if it supports Aarch64 SVE hardware.
# Return 0 if so, 1 if it does not. Note this causes a restart of GDB.
gdb_caching_proc skip_aarch64_sve_tests {
global srcdir subdir gdb_prompt inferior_exited_re
set me "skip_aarch64_sve_tests"
if { ![is_aarch64_target]} {
return 1
}
set compile_flags "{additional_flags=-march=armv8-a+sve}"
# Compile a test program containing SVE instructions.
set src {
int main() {
asm volatile ("ptrue p0.b");
return 0;
}
}
if {![gdb_simple_compile $me $src executable $compile_flags]} {
return 1
}
# Compilation succeeded so now run it via gdb.
clean_restart $obj
gdb_run_cmd
gdb_expect {
-re ".*Illegal instruction.*${gdb_prompt} $" {
verbose -log "\n$me sve hardware not detected"
set skip_sve_tests 1
}
-re ".*$inferior_exited_re normally.*${gdb_prompt} $" {
verbose -log "\n$me: sve hardware detected"
set skip_sve_tests 0
}
default {
warning "\n$me: default case taken"
set skip_sve_tests 1
}
}
gdb_exit
remote_file build delete $obj
verbose "$me: returning $skip_sve_tests" 2
return $skip_sve_tests
}
# A helper that compiles a test case to see if __int128 is supported.
proc gdb_int128_helper {lang} {
return [gdb_can_simple_compile "i128-for-$lang" {
__int128 x;
int main() { return 0; }
} executable $lang]
}
# Return true if the C compiler understands the __int128 type.
gdb_caching_proc has_int128_c {
return [gdb_int128_helper c]
}
# Return true if the C++ compiler understands the __int128 type.
gdb_caching_proc has_int128_cxx {
return [gdb_int128_helper c++]
}
# Return true if the IFUNC feature is unsupported.
gdb_caching_proc skip_ifunc_tests {
if [gdb_can_simple_compile ifunc {
extern void f_ ();
typedef void F (void);
F* g (void) { return &f_; }
void f () __attribute__ ((ifunc ("g")));
} object] {
return 0
} else {
return 1
}
}
# Return whether we should skip tests for showing inlined functions in
# backtraces. Requires get_compiler_info and get_debug_format.
proc skip_inline_frame_tests {} {
# GDB only recognizes inlining information in DWARF 2 (DWARF 3).
if { ! [test_debug_format "DWARF 2"] } {
return 1
}
# GCC before 4.1 does not emit DW_AT_call_file / DW_AT_call_line.
if { ([test_compiler_info "gcc-2-*"]
|| [test_compiler_info "gcc-3-*"]
|| [test_compiler_info "gcc-4-0-*"]) } {
return 1
}
return 0
}
# Return whether we should skip tests for showing variables from
# inlined functions. Requires get_compiler_info and get_debug_format.
proc skip_inline_var_tests {} {
# GDB only recognizes inlining information in DWARF 2 (DWARF 3).
if { ! [test_debug_format "DWARF 2"] } {
return 1
}
return 0
}
# Return a 1 if we should skip tests that require hardware breakpoints
proc skip_hw_breakpoint_tests {} {
# Skip tests if requested by the board (note that no_hardware_watchpoints
# disables both watchpoints and breakpoints)
if { [target_info exists gdb,no_hardware_watchpoints]} {
return 1
}
# These targets support hardware breakpoints natively
if { [istarget "i?86-*-*"]
|| [istarget "x86_64-*-*"]
|| [istarget "ia64-*-*"]
|| [istarget "arm*-*-*"]
|| [istarget "aarch64*-*-*"]
|| [istarget "s390*-*-*"] } {
return 0
}
return 1
}
# Return a 1 if we should skip tests that require hardware watchpoints
proc skip_hw_watchpoint_tests {} {
# Skip tests if requested by the board
if { [target_info exists gdb,no_hardware_watchpoints]} {
return 1
}
# These targets support hardware watchpoints natively
if { [istarget "i?86-*-*"]
|| [istarget "x86_64-*-*"]
|| [istarget "ia64-*-*"]
|| [istarget "arm*-*-*"]
|| [istarget "aarch64*-*-*"]
|| [istarget "powerpc*-*-linux*"]
|| [istarget "s390*-*-*"] } {
return 0
}
return 1
}
# Return a 1 if we should skip tests that require *multiple* hardware
# watchpoints to be active at the same time
proc skip_hw_watchpoint_multi_tests {} {
if { [skip_hw_watchpoint_tests] } {
return 1
}
# These targets support just a single hardware watchpoint
if { [istarget "arm*-*-*"]
|| [istarget "powerpc*-*-linux*"] } {
return 1
}
return 0
}
# Return a 1 if we should skip tests that require read/access watchpoints
proc skip_hw_watchpoint_access_tests {} {
if { [skip_hw_watchpoint_tests] } {
return 1
}
# These targets support just write watchpoints
if { [istarget "s390*-*-*"] } {
return 1
}
return 0
}
# Return 1 if we should skip tests that require the runtime unwinder
# hook. This must be invoked while gdb is running, after shared
# libraries have been loaded. This is needed because otherwise a
# shared libgcc won't be visible.
proc skip_unwinder_tests {} {
global gdb_prompt
set ok 0
gdb_test_multiple "print _Unwind_DebugHook" "check for unwinder hook" {
-re "= .*no debug info.*_Unwind_DebugHook.*\r\n$gdb_prompt $" {
}
-re "= .*_Unwind_DebugHook.*\r\n$gdb_prompt $" {
set ok 1
}
-re "No symbol .* in current context.\r\n$gdb_prompt $" {
}
}
if {!$ok} {
gdb_test_multiple "info probe" "check for stap probe in unwinder" {
-re ".*libgcc.*unwind.*\r\n$gdb_prompt $" {
set ok 1
}
-re "\r\n$gdb_prompt $" {
}
}
}
return $ok
}
# Return 0 if we should skip tests that require the libstdc++ stap
# probes. This must be invoked while gdb is running, after shared
# libraries have been loaded.
proc skip_libstdcxx_probe_tests {} {
global gdb_prompt
set ok 0
gdb_test_multiple "info probe" "check for stap probe in libstdc++" {
-re ".*libstdcxx.*catch.*\r\n$gdb_prompt $" {
set ok 1
}
-re "\r\n$gdb_prompt $" {
}
}
return $ok
}
# Return 1 if we should skip tests of the "compile" feature.
# This must be invoked after the inferior has been started.
proc skip_compile_feature_tests {} {
global gdb_prompt
set result 0
gdb_test_multiple "compile code -- ;" "check for working compile command" {
"Could not load libcc1.*\r\n$gdb_prompt $" {
set result 1
}
-re "Command not supported on this host\\..*\r\n$gdb_prompt $" {
set result 1
}
-re "\r\n$gdb_prompt $" {
}
}
return $result
}
# Helper for gdb_is_target_* procs. TARGET_NAME is the name of the target
# we're looking for (used to build the test name). TARGET_STACK_REGEXP
# is a regexp that will match the output of "maint print target-stack" if
# the target in question is currently pushed. PROMPT_REGEXP is a regexp
# matching the expected prompt after the command output.
proc gdb_is_target_1 { target_name target_stack_regexp prompt_regexp } {
set test "probe for target ${target_name}"
gdb_test_multiple "maint print target-stack" $test {
-re "${target_stack_regexp}${prompt_regexp}" {
pass $test
return 1
}
-re "$prompt_regexp" {
pass $test
}
}
return 0
}
# Helper for gdb_is_target_remote where the expected prompt is variable.
proc gdb_is_target_remote_prompt { prompt_regexp } {
return [gdb_is_target_1 "remote" ".*emote serial target in gdb-specific protocol.*" $prompt_regexp]
}
# Check whether we're testing with the remote or extended-remote
# targets.
proc gdb_is_target_remote { } {
global gdb_prompt
return [gdb_is_target_remote_prompt "$gdb_prompt $"]
}
# Check whether we're testing with the native target.
proc gdb_is_target_native { } {
global gdb_prompt
return [gdb_is_target_1 "native" ".*native \\(Native process\\).*" "$gdb_prompt $"]
}
# Return the effective value of use_gdb_stub.
#
# If the use_gdb_stub global has been set (it is set when the gdb process is
# spawned), return that. Otherwise, return the value of the use_gdb_stub
# property from the board file.
#
# This is the preferred way of checking use_gdb_stub, since it allows to check
# the value before the gdb has been spawned and it will return the correct value
# even when it was overriden by the test.
proc use_gdb_stub {} {
global use_gdb_stub
if [info exists use_gdb_stub] {
return $use_gdb_stub
}
return [target_info exists use_gdb_stub]
}
# Return 1 if the current remote target is an instance of our GDBserver, 0
# otherwise. Return -1 if there was an error and we can't tell.
gdb_caching_proc target_is_gdbserver {
global gdb_prompt
set is_gdbserver -1
set test "probing for GDBserver"
gdb_test_multiple "monitor help" $test {
-re "The following monitor commands are supported.*Quit GDBserver.*$gdb_prompt $" {
set is_gdbserver 1
}
-re "$gdb_prompt $" {
set is_gdbserver 0
}
}
if { $is_gdbserver == -1 } {
verbose -log "Unable to tell whether we are using GDBserver or not."
}
return $is_gdbserver
}
# N.B. compiler_info is intended to be local to this file.
# Call test_compiler_info with no arguments to fetch its value.
# Yes, this is counterintuitive when there's get_compiler_info,
# but that's the current API.
if [info exists compiler_info] {
unset compiler_info
}
set gcc_compiled 0
# Figure out what compiler I am using.
# The result is cached so only the first invocation runs the compiler.
#
# ARG can be empty or "C++". If empty, "C" is assumed.
#
# There are several ways to do this, with various problems.
#
# [ gdb_compile -E $ifile -o $binfile.ci ]
# source $binfile.ci
#
# Single Unix Spec v3 says that "-E -o ..." together are not
# specified. And in fact, the native compiler on hp-ux 11 (among
# others) does not work with "-E -o ...". Most targets used to do
# this, and it mostly worked, because it works with gcc.
#
# [ catch "exec $compiler -E $ifile > $binfile.ci" exec_output ]
# source $binfile.ci
#
# This avoids the problem with -E and -o together. This almost works
# if the build machine is the same as the host machine, which is
# usually true of the targets which are not gcc. But this code does
# not figure which compiler to call, and it always ends up using the C
# compiler. Not good for setting hp_aCC_compiler. Target
# hppa*-*-hpux* used to do this.
#
# [ gdb_compile -E $ifile > $binfile.ci ]
# source $binfile.ci
#
# dejagnu target_compile says that it supports output redirection,
# but the code is completely different from the normal path and I
# don't want to sweep the mines from that path. So I didn't even try
# this.
#
# set cppout [ gdb_compile $ifile "" preprocess $args quiet ]
# eval $cppout
#
# I actually do this for all targets now. gdb_compile runs the right
# compiler, and TCL captures the output, and I eval the output.
#
# Unfortunately, expect logs the output of the command as it goes by,
# and dejagnu helpfully prints a second copy of it right afterwards.
# So I turn off expect logging for a moment.
#
# [ gdb_compile $ifile $ciexe_file executable $args ]
# [ remote_exec $ciexe_file ]
# [ source $ci_file.out ]
#
# I could give up on -E and just do this.
# I didn't get desperate enough to try this.
#
# -- chastain 2004-01-06
proc get_compiler_info {{arg ""}} {
# For compiler.c and compiler.cc
global srcdir
# I am going to play with the log to keep noise out.
global outdir
global tool
# These come from compiler.c or compiler.cc
global compiler_info
# Legacy global data symbols.
global gcc_compiled
if [info exists compiler_info] {
# Already computed.
return 0
}
# Choose which file to preprocess.
set ifile "${srcdir}/lib/compiler.c"
if { $arg == "c++" } {
set ifile "${srcdir}/lib/compiler.cc"
}
# Run $ifile through the right preprocessor.
# Toggle gdb.log to keep the compiler output out of the log.
set saved_log [log_file -info]
log_file
if [is_remote host] {
# We have to use -E and -o together, despite the comments
# above, because of how DejaGnu handles remote host testing.
set ppout "$outdir/compiler.i"
gdb_compile "${ifile}" "$ppout" preprocess [list "$arg" quiet]
set file [open $ppout r]
set cppout [read $file]
close $file
} else {
set cppout [ gdb_compile "${ifile}" "" preprocess [list "$arg" quiet] ]
}
eval log_file $saved_log
# Eval the output.
set unknown 0
foreach cppline [ split "$cppout" "\n" ] {
if { [ regexp "^#" "$cppline" ] } {
# line marker
} elseif { [ regexp "^\[\n\r\t \]*$" "$cppline" ] } {
# blank line
} elseif { [ regexp "^\[\n\r\t \]*set\[\n\r\t \]" "$cppline" ] } {
# eval this line
verbose "get_compiler_info: $cppline" 2
eval "$cppline"
} else {
# unknown line
verbose -log "get_compiler_info: $cppline"
set unknown 1
}
}
# Set to unknown if for some reason compiler_info didn't get defined.
if ![info exists compiler_info] {
verbose -log "get_compiler_info: compiler_info not provided"
set compiler_info "unknown"
}
# Also set to unknown compiler if any diagnostics happened.
if { $unknown } {
verbose -log "get_compiler_info: got unexpected diagnostics"
set compiler_info "unknown"
}
# Set the legacy symbols.
set gcc_compiled 0
regexp "^gcc-(\[0-9\]+)-" "$compiler_info" matchall gcc_compiled
# Log what happened.
verbose -log "get_compiler_info: $compiler_info"
# Most compilers will evaluate comparisons and other boolean
# operations to 0 or 1.
uplevel \#0 { set true 1 }
uplevel \#0 { set false 0 }
return 0
}
# Return the compiler_info string if no arg is provided.
# Otherwise the argument is a glob-style expression to match against
# compiler_info.
proc test_compiler_info { {compiler ""} } {
global compiler_info
get_compiler_info
# If no arg, return the compiler_info string.
if [string match "" $compiler] {
return $compiler_info
}
return [string match $compiler $compiler_info]
}
proc current_target_name { } {
global target_info
if [info exists target_info(target,name)] {
set answer $target_info(target,name)
} else {
set answer ""
}
return $answer
}
set gdb_wrapper_initialized 0
set gdb_wrapper_target ""
proc gdb_wrapper_init { args } {
global gdb_wrapper_initialized
global gdb_wrapper_file
global gdb_wrapper_flags
global gdb_wrapper_target
if { $gdb_wrapper_initialized == 1 } { return; }
if {[target_info exists needs_status_wrapper] && \
[target_info needs_status_wrapper] != "0"} {
set result [build_wrapper "testglue.o"]
if { $result != "" } {
set gdb_wrapper_file [lindex $result 0]
set gdb_wrapper_flags [lindex $result 1]
} else {
warning "Status wrapper failed to build."
}
}
set gdb_wrapper_initialized 1
set gdb_wrapper_target [current_target_name]
}
# Determine options that we always want to pass to the compiler.
gdb_caching_proc universal_compile_options {
set me "universal_compile_options"
set options {}
set src [standard_temp_file ccopts[pid].c]
set obj [standard_temp_file ccopts[pid].o]
gdb_produce_source $src {
int foo(void) { return 0; }
}
# Try an option for disabling colored diagnostics. Some compilers
# yield colored diagnostics by default (when run from a tty) unless
# such an option is specified.
set opt "additional_flags=-fdiagnostics-color=never"
set lines [target_compile $src $obj object [list "quiet" $opt]]
if [string match "" $lines] then {
# Seems to have worked; use the option.
lappend options $opt
}
file delete $src
file delete $obj
verbose "$me: returning $options" 2
return $options
}
# Compile the code in $code to a file based on $name, using the flags
# $compile_flag as well as debug, nowarning and quiet.
# Return 1 if code can be compiled
# Leave the file name of the resulting object in the upvar object.
proc gdb_simple_compile {name code {type object} {compile_flags {}} {object obj}} {
upvar $object obj
switch -regexp -- $type {
"executable" {
set postfix "x"
}
"object" {
set postfix "o"
}
"preprocess" {
set postfix "i"
}
"assembly" {
set postfix "s"
}
}
set src [standard_temp_file $name-[pid].c]
set obj [standard_temp_file $name-[pid].$postfix]
set compile_flags [concat $compile_flags {debug nowarnings quiet}]
gdb_produce_source $src $code
verbose "$name: compiling testfile $src" 2
set lines [gdb_compile $src $obj $type $compile_flags]
file delete $src
if ![string match "" $lines] then {
verbose "$name: compilation failed, returning 0" 2
return 0
}
return 1
}
# Compile the code in $code to a file based on $name, using the flags
# $compile_flag as well as debug, nowarning and quiet.
# Return 1 if code can be compiled
# Delete all created files and objects.
proc gdb_can_simple_compile {name code {type object} {compile_flags ""}} {
set ret [gdb_simple_compile $name $code $type $compile_flags temp_obj]
file delete $temp_obj
return $ret
}
# Some targets need to always link a special object in. Save its path here.
global gdb_saved_set_unbuffered_mode_obj
set gdb_saved_set_unbuffered_mode_obj ""
# Compile source files specified by SOURCE into a binary of type TYPE at path
# DEST. gdb_compile is implemented using DejaGnu's target_compile, so the type
# parameter and most options are passed directly to it.
#
# The type can be one of the following:
#
# - object: Compile into an object file.
# - executable: Compile and link into an executable.
# - preprocess: Preprocess the source files.
# - assembly: Generate assembly listing.
#
# The following options are understood and processed by gdb_compile:
#
# - shlib=so_path: Add SO_PATH to the sources, and enable some target-specific
# quirks to be able to use shared libraries.
# - shlib_load: Link with appropriate libraries to allow the test to
# dynamically load libraries at runtime. For example, on Linux, this adds
# -ldl so that the test can use dlopen.
# - nowarnings: Inhibit all compiler warnings.
#
# And here are some of the not too obscure options understood by DejaGnu that
# influence the compilation:
#
# - additional_flags=flag: Add FLAG to the compiler flags.
# - libs=library: Add LIBRARY to the libraries passed to the linker. The
# argument can be a file, in which case it's added to the sources, or a
# linker flag.
# - ldflags=flag: Add FLAG to the linker flags.
# - incdir=path: Add PATH to the searched include directories.
# - libdir=path: Add PATH to the linker searched directories.
# - ada, c++, f77: Compile the file as Ada, C++ or Fortran.
# - debug: Build with debug information.
# - optimize: Build with optimization.
proc gdb_compile {source dest type options} {
global GDB_TESTCASE_OPTIONS
global gdb_wrapper_file
global gdb_wrapper_flags
global gdb_wrapper_initialized
global srcdir
global objdir
global gdb_saved_set_unbuffered_mode_obj
set outdir [file dirname $dest]
# Add platform-specific options if a shared library was specified using
# "shlib=librarypath" in OPTIONS.
set new_options {}
if {[lsearch -exact $options rust] != -1} {
# -fdiagnostics-color is not a rustcc option.
} else {
set new_options [universal_compile_options]
}
set shlib_found 0
set shlib_load 0
foreach opt $options {
if {[regexp {^shlib=(.*)} $opt dummy_var shlib_name]
&& $type == "executable"} {
if [test_compiler_info "xlc-*"] {
# IBM xlc compiler doesn't accept shared library named other
# than .so: use "-Wl," to bypass this
lappend source "-Wl,$shlib_name"
} elseif { ([istarget "*-*-mingw*"]
|| [istarget *-*-cygwin*]
|| [istarget *-*-pe*])} {
lappend source "${shlib_name}.a"
} else {
lappend source $shlib_name
}
if { $shlib_found == 0 } {
set shlib_found 1
if { ([istarget "*-*-mingw*"]
|| [istarget *-*-cygwin*]) } {
lappend new_options "additional_flags=-Wl,--enable-auto-import"
}
if { [test_compiler_info "gcc-*"] || [test_compiler_info "clang-*"] } {
# Undo debian's change in the default.
# Put it at the front to not override any user-provided
# value, and to make sure it appears in front of all the
# shlibs!
lappend new_options "early_flags=-Wl,--no-as-needed"
}
}
} elseif { $opt == "shlib_load" && $type == "executable" } {
set shlib_load 1
} else {
lappend new_options $opt
}
}
# Because we link with libraries using their basename, we may need
# (depending on the platform) to set a special rpath value, to allow
# the executable to find the libraries it depends on.
if { $shlib_load || $shlib_found } {
if { ([istarget "*-*-mingw*"]
|| [istarget *-*-cygwin*]
|| [istarget *-*-pe*]) } {
# Do not need anything.
} elseif { [istarget *-*-freebsd*] || [istarget *-*-openbsd*] } {
lappend new_options "ldflags=-Wl,-rpath,${outdir}"
} elseif { [istarget arm*-*-symbianelf*] } {
if { $shlib_load } {
lappend new_options "libs=-ldl"
}
} else {
if { $shlib_load } {
lappend new_options "libs=-ldl"
}
lappend new_options "ldflags=-Wl,-rpath,\\\$ORIGIN"
}
}
set options $new_options
if [info exists GDB_TESTCASE_OPTIONS] {
lappend options "additional_flags=$GDB_TESTCASE_OPTIONS"
}
verbose "options are $options"
verbose "source is $source $dest $type $options"
if { $gdb_wrapper_initialized == 0 } { gdb_wrapper_init }
if {[target_info exists needs_status_wrapper] && \
[target_info needs_status_wrapper] != "0" && \
[info exists gdb_wrapper_file]} {
lappend options "libs=${gdb_wrapper_file}"
lappend options "ldflags=${gdb_wrapper_flags}"
}
# Replace the "nowarnings" option with the appropriate additional_flags
# to disable compiler warnings.
set nowarnings [lsearch -exact $options nowarnings]
if {$nowarnings != -1} {
if [target_info exists gdb,nowarnings_flag] {
set flag "additional_flags=[target_info gdb,nowarnings_flag]"
} else {
set flag "additional_flags=-w"
}
set options [lreplace $options $nowarnings $nowarnings $flag]
}
if { $type == "executable" } {
if { ([istarget "*-*-mingw*"]
|| [istarget "*-*-*djgpp"]
|| [istarget "*-*-cygwin*"])} {
# Force output to unbuffered mode, by linking in an object file
# with a global contructor that calls setvbuf.
#
# Compile the special object seperatelly for two reasons:
# 1) Insulate it from $options.
# 2) Avoid compiling it for every gdb_compile invocation,
# which is time consuming, especially if we're remote
# host testing.
#
if { $gdb_saved_set_unbuffered_mode_obj == "" } {
verbose "compiling gdb_saved_set_unbuffered_obj"
set unbuf_src ${srcdir}/lib/set_unbuffered_mode.c
set unbuf_obj ${objdir}/set_unbuffered_mode.o
set result [gdb_compile "${unbuf_src}" "${unbuf_obj}" object {nowarnings}]
if { $result != "" } {
return $result
}
if {[is_remote host]} {
set gdb_saved_set_unbuffered_mode_obj set_unbuffered_mode_saved.o
} else {
set gdb_saved_set_unbuffered_mode_obj ${objdir}/set_unbuffered_mode_saved.o
}
# Link a copy of the output object, because the
# original may be automatically deleted.
remote_download host $unbuf_obj $gdb_saved_set_unbuffered_mode_obj
} else {
verbose "gdb_saved_set_unbuffered_obj already compiled"
}
# Rely on the internal knowledge that the global ctors are ran in
# reverse link order. In that case, we can use ldflags to
# avoid copying the object file to the host multiple
# times.
# This object can only be added if standard libraries are
# used. Thus, we need to disable it if -nostdlib option is used
if {[lsearch -regexp $options "-nostdlib"] < 0 } {
lappend options "ldflags=$gdb_saved_set_unbuffered_mode_obj"
}
}
}
set result [target_compile $source $dest $type $options]
# Prune uninteresting compiler (and linker) output.
regsub "Creating library file: \[^\r\n\]*\[\r\n\]+" $result "" result
regsub "\[\r\n\]*$" "$result" "" result
regsub "^\[\r\n\]*" "$result" "" result
if {[lsearch $options quiet] < 0} {
# We shall update this on a per language basis, to avoid
# changing the entire testsuite in one go.
if {[lsearch $options f77] >= 0} {
gdb_compile_test $source $result
} elseif { $result != "" } {
clone_output "gdb compile failed, $result"
}
}
return $result
}
# This is just like gdb_compile, above, except that it tries compiling
# against several different thread libraries, to see which one this
# system has.
proc gdb_compile_pthreads {source dest type options} {
set built_binfile 0
set why_msg "unrecognized error"
foreach lib {-lpthreads -lpthread -lthread ""} {
# This kind of wipes out whatever libs the caller may have
# set. Or maybe theirs will override ours. How infelicitous.
set options_with_lib [concat $options [list libs=$lib quiet]]
set ccout [gdb_compile $source $dest $type $options_with_lib]
switch -regexp -- $ccout {
".*no posix threads support.*" {
set why_msg "missing threads include file"
break
}
".*cannot open -lpthread.*" {
set why_msg "missing runtime threads library"
}
".*Can't find library for -lpthread.*" {
set why_msg "missing runtime threads library"
}
{^$} {
pass "successfully compiled posix threads test case"
set built_binfile 1
break
}
}
}
if {!$built_binfile} {
unsupported "couldn't compile [file tail $source]: ${why_msg}"
return -1
}
}
# Build a shared library from SOURCES.
proc gdb_compile_shlib {sources dest options} {
set obj_options $options
set info_options ""
if { [lsearch -exact $options "c++"] >= 0 } {
set info_options "c++"
}
if [get_compiler_info ${info_options}] {
return -1
}
switch -glob [test_compiler_info] {
"xlc-*" {
lappend obj_options "additional_flags=-qpic"
}
"clang-*" {
if { !([istarget "*-*-cygwin*"]
|| [istarget "*-*-mingw*"]) } {
lappend obj_options "additional_flags=-fpic"
}
}
"gcc-*" {
if { !([istarget "powerpc*-*-aix*"]
|| [istarget "rs6000*-*-aix*"]
|| [istarget "*-*-cygwin*"]
|| [istarget "*-*-mingw*"]
|| [istarget "*-*-pe*"]) } {
lappend obj_options "additional_flags=-fpic"
}
}
"icc-*" {
lappend obj_options "additional_flags=-fpic"
}
default {
# don't know what the compiler is...
}
}
set outdir [file dirname $dest]
set objects ""
foreach source $sources {
set sourcebase [file tail $source]
if {[gdb_compile $source "${outdir}/${sourcebase}.o" object $obj_options] != ""} {
return -1
}
lappend objects ${outdir}/${sourcebase}.o
}
set link_options $options
if [test_compiler_info "xlc-*"] {
lappend link_options "additional_flags=-qmkshrobj"
} else {
lappend link_options "additional_flags=-shared"
if { ([istarget "*-*-mingw*"]
|| [istarget *-*-cygwin*]
|| [istarget *-*-pe*]) } {
if { [is_remote host] } {
set name [file tail ${dest}]
} else {
set name ${dest}
}
lappend link_options "additional_flags=-Wl,--out-implib,${name}.a"
} else {
# Set the soname of the library. This causes the linker on ELF
# systems to create the DT_NEEDED entry in the executable referring
# to the soname of the library, and not its absolute path. This
# (using the absolute path) would be problem when testing on a
# remote target.
#
# In conjunction with setting the soname, we add the special
# rpath=$ORIGIN value when building the executable, so that it's
# able to find the library in its own directory.
set destbase [file tail $dest]
lappend link_options "additional_flags=-Wl,-soname,$destbase"
}
}
if {[gdb_compile "${objects}" "${dest}" executable $link_options] != ""} {
return -1
}
if { [is_remote host]
&& ([istarget "*-*-mingw*"]
|| [istarget *-*-cygwin*]
|| [istarget *-*-pe*]) } {
set dest_tail_name [file tail ${dest}]
remote_upload host $dest_tail_name.a ${dest}.a
remote_file host delete $dest_tail_name.a
}
return ""
}
# This is just like gdb_compile_shlib, above, except that it tries compiling
# against several different thread libraries, to see which one this
# system has.
proc gdb_compile_shlib_pthreads {sources dest options} {
set built_binfile 0
set why_msg "unrecognized error"
foreach lib {-lpthreads -lpthread -lthread ""} {
# This kind of wipes out whatever libs the caller may have
# set. Or maybe theirs will override ours. How infelicitous.
set options_with_lib [concat $options [list libs=$lib quiet]]
set ccout [gdb_compile_shlib $sources $dest $options_with_lib]
switch -regexp -- $ccout {
".*no posix threads support.*" {
set why_msg "missing threads include file"
break
}
".*cannot open -lpthread.*" {
set why_msg "missing runtime threads library"
}
".*Can't find library for -lpthread.*" {
set why_msg "missing runtime threads library"
}
{^$} {
pass "successfully compiled posix threads test case"
set built_binfile 1
break
}
}
}
if {!$built_binfile} {
unsupported "couldn't compile $sources: ${why_msg}"
return -1
}
}
# This is just like gdb_compile_pthreads, above, except that we always add the
# objc library for compiling Objective-C programs
proc gdb_compile_objc {source dest type options} {
set built_binfile 0
set why_msg "unrecognized error"
foreach lib {-lobjc -lpthreads -lpthread -lthread solaris} {
# This kind of wipes out whatever libs the caller may have
# set. Or maybe theirs will override ours. How infelicitous.
if { $lib == "solaris" } {
set lib "-lpthread -lposix4"
}
if { $lib != "-lobjc" } {
set lib "-lobjc $lib"
}
set options_with_lib [concat $options [list libs=$lib quiet]]
set ccout [gdb_compile $source $dest $type $options_with_lib]
switch -regexp -- $ccout {
".*no posix threads support.*" {
set why_msg "missing threads include file"
break
}
".*cannot open -lpthread.*" {
set why_msg "missing runtime threads library"
}
".*Can't find library for -lpthread.*" {
set why_msg "missing runtime threads library"
}
{^$} {
pass "successfully compiled objc with posix threads test case"
set built_binfile 1
break
}
}
}
if {!$built_binfile} {
unsupported "couldn't compile [file tail $source]: ${why_msg}"
return -1
}
}
proc send_gdb { string } {
global suppress_flag
if { $suppress_flag } {
return "suppressed"
}
return [remote_send host "$string"]
}
# Send STRING to the inferior's terminal.
proc send_inferior { string } {
global inferior_spawn_id
if {[catch "send -i $inferior_spawn_id -- \$string" errorInfo]} {
return "$errorInfo"
} else {
return ""
}
}
#
#
proc gdb_expect { args } {
if { [llength $args] == 2 && [lindex $args 0] != "-re" } {
set atimeout [lindex $args 0]
set expcode [list [lindex $args 1]]
} else {
set expcode $args
}
# A timeout argument takes precedence, otherwise of all the timeouts
# select the largest.
if [info exists atimeout] {
set tmt $atimeout
} else {
set tmt [get_largest_timeout]
}
global suppress_flag
global remote_suppress_flag
if [info exists remote_suppress_flag] {
set old_val $remote_suppress_flag
}
if [info exists suppress_flag] {
if { $suppress_flag } {
set remote_suppress_flag 1
}
}
set code [catch \
{uplevel remote_expect host $tmt $expcode} string]
if [info exists old_val] {
set remote_suppress_flag $old_val
} else {
if [info exists remote_suppress_flag] {
unset remote_suppress_flag
}
}
if {$code == 1} {
global errorInfo errorCode
return -code error -errorinfo $errorInfo -errorcode $errorCode $string
} else {
return -code $code $string
}
}
# gdb_expect_list TEST SENTINEL LIST -- expect a sequence of outputs
#
# Check for long sequence of output by parts.
# TEST: is the test message to be printed with the test success/fail.
# SENTINEL: Is the terminal pattern indicating that output has finished.
# LIST: is the sequence of outputs to match.
# If the sentinel is recognized early, it is considered an error.
#
# Returns:
# 1 if the test failed,
# 0 if the test passes,
# -1 if there was an internal error.
proc gdb_expect_list {test sentinel list} {
global gdb_prompt
global suppress_flag
set index 0
set ok 1
if { $suppress_flag } {
set ok 0
unresolved "${test}"
}
while { ${index} < [llength ${list}] } {
set pattern [lindex ${list} ${index}]
set index [expr ${index} + 1]
verbose -log "gdb_expect_list pattern: /$pattern/" 2
if { ${index} == [llength ${list}] } {
if { ${ok} } {
gdb_expect {
-re "${pattern}${sentinel}" {
# pass "${test}, pattern ${index} + sentinel"
}
-re "${sentinel}" {
fail "${test} (pattern ${index} + sentinel)"
set ok 0
}
-re ".*A problem internal to GDB has been detected" {
fail "${test} (GDB internal error)"
set ok 0
gdb_internal_error_resync
}
timeout {
fail "${test} (pattern ${index} + sentinel) (timeout)"
set ok 0
}
}
} else {
# unresolved "${test}, pattern ${index} + sentinel"
}
} else {
if { ${ok} } {
gdb_expect {
-re "${pattern}" {
# pass "${test}, pattern ${index}"
}
-re "${sentinel}" {
fail "${test} (pattern ${index})"
set ok 0
}
-re ".*A problem internal to GDB has been detected" {
fail "${test} (GDB internal error)"
set ok 0
gdb_internal_error_resync
}
timeout {
fail "${test} (pattern ${index}) (timeout)"
set ok 0
}
}
} else {
# unresolved "${test}, pattern ${index}"
}
}
}
if { ${ok} } {
pass "${test}"
return 0
} else {
return 1
}
}
#
#
proc gdb_suppress_entire_file { reason } {
global suppress_flag
warning "$reason\n"
set suppress_flag -1
}
#
# Set suppress_flag, which will cause all subsequent calls to send_gdb and
# gdb_expect to fail immediately (until the next call to
# gdb_stop_suppressing_tests).
#
proc gdb_suppress_tests { args } {
global suppress_flag
return; # fnf - disable pending review of results where
# testsuite ran better without this
incr suppress_flag
if { $suppress_flag == 1 } {
if { [llength $args] > 0 } {
warning "[lindex $args 0]\n"
} else {
warning "Because of previous failure, all subsequent tests in this group will automatically fail.\n"
}
}
}
#
# Clear suppress_flag.
#
proc gdb_stop_suppressing_tests { } {
global suppress_flag
if [info exists suppress_flag] {
if { $suppress_flag > 0 } {
set suppress_flag 0
clone_output "Tests restarted.\n"
}
} else {
set suppress_flag 0
}
}
proc gdb_clear_suppressed { } {
global suppress_flag
set suppress_flag 0
}
# Spawn the gdb process.
#
# This doesn't expect any output or do any other initialization,
# leaving those to the caller.
#
# Overridable function -- you can override this function in your
# baseboard file.
proc gdb_spawn { } {
default_gdb_spawn
}
# Spawn GDB with CMDLINE_FLAGS appended to the GDBFLAGS global.
proc gdb_spawn_with_cmdline_opts { cmdline_flags } {
global GDBFLAGS
set saved_gdbflags $GDBFLAGS
if {$GDBFLAGS != ""} {
append GDBFLAGS " "
}
append GDBFLAGS $cmdline_flags
set res [gdb_spawn]
set GDBFLAGS $saved_gdbflags
return $res
}
# Start gdb running, wait for prompt, and disable the pagers.
# Overridable function -- you can override this function in your
# baseboard file.
proc gdb_start { } {
default_gdb_start
}
proc gdb_exit { } {
catch default_gdb_exit
}
# Return true if we can spawn a program on the target and attach to
# it.
proc can_spawn_for_attach { } {
# We use exp_pid to get the inferior's pid, assuming that gives
# back the pid of the program. On remote boards, that would give
# us instead the PID of e.g., the ssh client, etc.
if [is_remote target] then {
return 0
}
# The "attach" command doesn't make sense when the target is
# stub-like, where GDB finds the program already started on
# initial connection.
if {[target_info exists use_gdb_stub]} {
return 0
}
# Assume yes.
return 1
}
# Kill a progress previously started with spawn_wait_for_attach, and
# reap its wait status. PROC_SPAWN_ID is the spawn id associated with
# the process.
proc kill_wait_spawned_process { proc_spawn_id } {
set pid [exp_pid -i $proc_spawn_id]
verbose -log "killing ${pid}"
remote_exec build "kill -9 ${pid}"
verbose -log "closing ${proc_spawn_id}"
catch "close -i $proc_spawn_id"
verbose -log "waiting for ${proc_spawn_id}"
# If somehow GDB ends up still attached to the process here, a
# blocking wait hangs until gdb is killed (or until gdb / the
# ptracer reaps the exit status too, but that won't happen because
# something went wrong.) Passing -nowait makes expect tell Tcl to
# wait for the PID in the background. That's fine because we
# don't care about the exit status. */
wait -nowait -i $proc_spawn_id
}
# Returns the process id corresponding to the given spawn id.
proc spawn_id_get_pid { spawn_id } {
set testpid [exp_pid -i $spawn_id]
if { [istarget "*-*-cygwin*"] } {
# testpid is the Cygwin PID, GDB uses the Windows PID, which
# might be different due to the way fork/exec works.
set testpid [ exec ps -e | gawk "{ if (\$1 == $testpid) print \$4; }" ]
}
return $testpid
}
# Start a set of programs running and then wait for a bit, to be sure
# that they can be attached to. Return a list of processes spawn IDs,
# one element for each process spawned. It's a test error to call
# this when [can_spawn_for_attach] is false.
proc spawn_wait_for_attach { executable_list } {
set spawn_id_list {}
if ![can_spawn_for_attach] {
# The caller should have checked can_spawn_for_attach itself
# before getting here.
error "can't spawn for attach with this target/board"
}
foreach {executable} $executable_list {
# Note we use Expect's spawn, not Tcl's exec, because with
# spawn we control when to wait for/reap the process. That
# allows killing the process by PID without being subject to
# pid-reuse races.
lappend spawn_id_list [remote_spawn target $executable]
}
sleep 2
return $spawn_id_list
}
#
# gdb_load_cmd -- load a file into the debugger.
# ARGS - additional args to load command.
# return a -1 if anything goes wrong.
#
proc gdb_load_cmd { args } {
global gdb_prompt
if [target_info exists gdb_load_timeout] {
set loadtimeout [target_info gdb_load_timeout]
} else {
set loadtimeout 1600
}
send_gdb "load $args\n"
verbose "Timeout is now $loadtimeout seconds" 2
gdb_expect $loadtimeout {
-re "Loading section\[^\r\]*\r\n" {
exp_continue
}
-re "Start address\[\r\]*\r\n" {
exp_continue
}
-re "Transfer rate\[\r\]*\r\n" {
exp_continue
}
-re "Memory access error\[^\r\]*\r\n" {
perror "Failed to load program"
return -1
}
-re "$gdb_prompt $" {
return 0
}
-re "(.*)\r\n$gdb_prompt " {
perror "Unexpected reponse from 'load' -- $expect_out(1,string)"
return -1
}
timeout {
perror "Timed out trying to load $args."
return -1
}
}
return -1
}
# Invoke "gcore". CORE is the name of the core file to write. TEST
# is the name of the test case. This will return 1 if the core file
# was created, 0 otherwise. If this fails to make a core file because
# this configuration of gdb does not support making core files, it
# will call "unsupported", not "fail". However, if this fails to make
# a core file for some other reason, then it will call "fail".
proc gdb_gcore_cmd {core test} {
global gdb_prompt
set result 0
gdb_test_multiple "gcore $core" $test {
-re "Saved corefile .*\[\r\n\]+$gdb_prompt $" {
pass $test
set result 1
}
-re "(?:Can't create a corefile|Target does not support core file generation\\.)\[\r\n\]+$gdb_prompt $" {
unsupported $test
}
}
return $result
}
# Load core file CORE. TEST is the name of the test case.
# This will record a pass/fail for loading the core file.
# Returns:
# 1 - core file is successfully loaded
# 0 - core file loaded but has a non fatal error
# -1 - core file failed to load
proc gdb_core_cmd { core test } {
global gdb_prompt
gdb_test_multiple "core $core" "$test" {
-re "\\\[Thread debugging using \[^ \r\n\]* enabled\\\]\r\n" {
exp_continue
}
-re " is not a core dump:.*\r\n$gdb_prompt $" {
fail "$test (bad file format)"
return -1
}
-re ": No such file or directory.*\r\n$gdb_prompt $" {
fail "$test (file not found)"
return -1
}
-re "Couldn't find .* registers in core file.*\r\n$gdb_prompt $" {
fail "$test (incomplete note section)"
return 0
}
-re "Core was generated by .*\r\n$gdb_prompt $" {
pass "$test"
return 1
}
-re ".*$gdb_prompt $" {
fail "$test"
return -1
}
timeout {
fail "$test (timeout)"
return -1
}
}
fail "unsupported output from 'core' command"
return -1
}
# Return the filename to download to the target and load on the target
# for this shared library. Normally just LIBNAME, unless shared libraries
# for this target have separate link and load images.
proc shlib_target_file { libname } {
return $libname
}
# Return the filename GDB will load symbols from when debugging this
# shared library. Normally just LIBNAME, unless shared libraries for
# this target have separate link and load images.
proc shlib_symbol_file { libname } {
return $libname
}
# Return the filename to download to the target and load for this
# executable. Normally just BINFILE unless it is renamed to something
# else for this target.
proc exec_target_file { binfile } {
return $binfile
}
# Return the filename GDB will load symbols from when debugging this
# executable. Normally just BINFILE unless executables for this target
# have separate files for symbols.
proc exec_symbol_file { binfile } {
return $binfile
}
# Rename the executable file. Normally this is just BINFILE1 being renamed
# to BINFILE2, but some targets require multiple binary files.
proc gdb_rename_execfile { binfile1 binfile2 } {
file rename -force [exec_target_file ${binfile1}] \
[exec_target_file ${binfile2}]
if { [exec_target_file ${binfile1}] != [exec_symbol_file ${binfile1}] } {
file rename -force [exec_symbol_file ${binfile1}] \
[exec_symbol_file ${binfile2}]
}
}
# "Touch" the executable file to update the date. Normally this is just
# BINFILE, but some targets require multiple files.
proc gdb_touch_execfile { binfile } {
set time [clock seconds]
file mtime [exec_target_file ${binfile}] $time
if { [exec_target_file ${binfile}] != [exec_symbol_file ${binfile}] } {
file mtime [exec_symbol_file ${binfile}] $time
}
}
# Like remote_download but provides a gdb-specific behavior.
#
# If the destination board is remote, the local file FROMFILE is transferred as
# usual with remote_download to TOFILE on the remote board. The destination
# filename is added to the CLEANFILES global, so it can be cleaned up at the
# end of the test.
#
# If the destination board is local, the destination path TOFILE is passed
# through standard_output_file, and FROMFILE is copied there.
#
# In both cases, if TOFILE is omitted, it defaults to the [file tail] of
# FROMFILE.
proc gdb_remote_download {dest fromfile {tofile {}}} {
# If TOFILE is not given, default to the same filename as FROMFILE.
if {[string length $tofile] == 0} {
set tofile [file tail $fromfile]
}
if {[is_remote $dest]} {
# When the DEST is remote, we simply send the file to DEST.
global cleanfiles
set destname [remote_download $dest $fromfile $tofile]
lappend cleanfiles $destname
return $destname
} else {
# When the DEST is local, we copy the file to the test directory (where
# the executable is).
#
# Note that we pass TOFILE through standard_output_file, regardless of
# whether it is absolute or relative, because we don't want the tests
# to be able to write outside their standard output directory.
set tofile [standard_output_file $tofile]
file copy -force $fromfile $tofile
return $tofile
}
}
# gdb_load_shlib LIB...
#
# Copy the listed library to the target.
proc gdb_load_shlib { file } {
global gdb_spawn_id
if ![info exists gdb_spawn_id] {
perror "gdb_load_shlib: GDB is not running"
}
set dest [gdb_remote_download target [shlib_target_file $file]]
if {[is_remote target]} {
# If the target is remote, we need to tell gdb where to find the
# libraries.
#
# We could set this even when not testing remotely, but a user
# generally won't set it unless necessary. In order to make the tests
# more like the real-life scenarios, we don't set it for local testing.
gdb_test "set solib-search-path [file dirname $file]" "" ""
}
return $dest
}
#
# gdb_load -- load a file into the debugger. Specifying no file
# defaults to the executable currently being debugged.
# The return value is 0 for success, -1 for failure.
# Many files in config/*.exp override this procedure.
#
proc gdb_load { arg } {
if { $arg != "" } {
return [gdb_file_cmd $arg]
}
return 0
}
# gdb_reload -- load a file into the target. Called before "running",
# either the first time or after already starting the program once,
# for remote targets. Most files that override gdb_load should now
# override this instead.
proc gdb_reload { } {
# For the benefit of existing configurations, default to gdb_load.
# Specifying no file defaults to the executable currently being
# debugged.
return [gdb_load ""]
}
proc gdb_continue { function } {
global decimal
return [gdb_test "continue" ".*Breakpoint $decimal, $function .*" "continue to $function"]
}
proc default_gdb_init { test_file_name } {
global gdb_wrapper_initialized
global gdb_wrapper_target
global gdb_test_file_name
global cleanfiles
global pf_prefix
set cleanfiles {}
gdb_clear_suppressed
set gdb_test_file_name [file rootname [file tail $test_file_name]]
# Make sure that the wrapper is rebuilt
# with the appropriate multilib option.
if { $gdb_wrapper_target != [current_target_name] } {
set gdb_wrapper_initialized 0
}
# Unlike most tests, we have a small number of tests that generate
# a very large amount of output. We therefore increase the expect
# buffer size to be able to contain the entire test output. This
# is especially needed by gdb.base/info-macros.exp.
match_max -d 65536
# Also set this value for the currently running GDB.
match_max [match_max -d]
# We want to add the name of the TCL testcase to the PASS/FAIL messages.
set pf_prefix "[file tail [file dirname $test_file_name]]/[file tail $test_file_name]:"
global gdb_prompt
if [target_info exists gdb_prompt] {
set gdb_prompt [target_info gdb_prompt]
} else {
set gdb_prompt "\\(gdb\\)"
}
global use_gdb_stub
if [info exists use_gdb_stub] {
unset use_gdb_stub
}
}
# Return a path using GDB_PARALLEL.
# ARGS is a list of path elements to append to "$objdir/$GDB_PARALLEL".
# GDB_PARALLEL must be defined, the caller must check.
#
# The default value for GDB_PARALLEL is, canonically, ".".
# The catch is that tests don't expect an additional "./" in file paths so
# omit any directory for the default case.
# GDB_PARALLEL is written as "yes" for the default case in Makefile.in to mark
# its special handling.
proc make_gdb_parallel_path { args } {
global GDB_PARALLEL objdir
set joiner [list "file" "join" $objdir]
if { [info exists GDB_PARALLEL] && $GDB_PARALLEL != "yes" } {
lappend joiner $GDB_PARALLEL
}
set joiner [concat $joiner $args]
return [eval $joiner]
}
# Turn BASENAME into a full file name in the standard output
# directory. It is ok if BASENAME is the empty string; in this case
# the directory is returned.
proc standard_output_file {basename} {
global objdir subdir gdb_test_file_name
set dir [make_gdb_parallel_path outputs $subdir $gdb_test_file_name]
file mkdir $dir
return [file join $dir $basename]
}
# Return the name of a file in our standard temporary directory.
proc standard_temp_file {basename} {
# Since a particular runtest invocation is only executing a single test
# file at any given time, we can use the runtest pid to build the
# path of the temp directory.
set dir [make_gdb_parallel_path temp [pid]]
file mkdir $dir
return [file join $dir $basename]
}
# Set 'testfile', 'srcfile', and 'binfile'.
#
# ARGS is a list of source file specifications.
# Without any arguments, the .exp file's base name is used to
# compute the source file name. The ".c" extension is added in this case.
# If ARGS is not empty, each entry is a source file specification.
# If the specification starts with a ".", it is treated as a suffix
# to append to the .exp file's base name.
# If the specification is the empty string, it is treated as if it
# were ".c".
# Otherwise it is a file name.
# The first file in the list is used to set the 'srcfile' global.
# Each subsequent name is used to set 'srcfile2', 'srcfile3', etc.
#
# Most tests should call this without arguments.
#
# If a completely different binary file name is needed, then it
# should be handled in the .exp file with a suitable comment.
proc standard_testfile {args} {
global gdb_test_file_name
global subdir
global gdb_test_file_last_vars
# Outputs.
global testfile binfile
set testfile $gdb_test_file_name
set binfile [standard_output_file ${testfile}]
if {[llength $args] == 0} {
set args .c
}
# Unset our previous output variables.
# This can help catch hidden bugs.
if {[info exists gdb_test_file_last_vars]} {
foreach varname $gdb_test_file_last_vars {
global $varname
catch {unset $varname}
}
}
# 'executable' is often set by tests.
set gdb_test_file_last_vars {executable}
set suffix ""
foreach arg $args {
set varname srcfile$suffix
global $varname
# Handle an extension.
if {$arg == ""} {
set arg $testfile.c
} elseif {[string range $arg 0 0] == "."} {
set arg $testfile$arg
}
set $varname $arg
lappend gdb_test_file_last_vars $varname
if {$suffix == ""} {
set suffix 2
} else {
incr suffix
}
}
}
# The default timeout used when testing GDB commands. We want to use
# the same timeout as the default dejagnu timeout, unless the user has
# already provided a specific value (probably through a site.exp file).
global gdb_test_timeout
if ![info exists gdb_test_timeout] {
set gdb_test_timeout $timeout
}
# A list of global variables that GDB testcases should not use.
# We try to prevent their use by monitoring write accesses and raising
# an error when that happens.
set banned_variables { bug_id prms_id }
# A list of procedures that GDB testcases should not use.
# We try to prevent their use by monitoring invocations and raising
# an error when that happens.
set banned_procedures { strace }
# gdb_init is called by runtest at start, but also by several
# tests directly; gdb_finish is only called from within runtest after
# each test source execution.
# Placing several traces by repetitive calls to gdb_init leads
# to problems, as only one trace is removed in gdb_finish.
# To overcome this possible problem, we add a variable that records
# if the banned variables and procedures are already traced.
set banned_traced 0
proc gdb_init { test_file_name } {
# Reset the timeout value to the default. This way, any testcase
# that changes the timeout value without resetting it cannot affect
# the timeout used in subsequent testcases.
global gdb_test_timeout
global timeout
set timeout $gdb_test_timeout
if { [regexp ".*gdb\.reverse\/.*" $test_file_name]
&& [target_info exists gdb_reverse_timeout] } {
set timeout [target_info gdb_reverse_timeout]
}
# If GDB_INOTIFY is given, check for writes to '.'. This is a
# debugging tool to help confirm that the test suite is
# parallel-safe. You need "inotifywait" from the
# inotify-tools package to use this.
global GDB_INOTIFY inotify_pid
if {[info exists GDB_INOTIFY] && ![info exists inotify_pid]} {
global outdir tool inotify_log_file
set exclusions {outputs temp gdb[.](log|sum) cache}
set exclusion_re ([join $exclusions |])
set inotify_log_file [standard_temp_file inotify.out]
set inotify_pid [exec inotifywait -r -m -e move,create,delete . \
--exclude $exclusion_re \
|& tee -a $outdir/$tool.log $inotify_log_file &]
# Wait for the watches; hopefully this is long enough.
sleep 2
# Clear the log so that we don't emit a warning the first time
# we check it.
set fd [open $inotify_log_file w]
close $fd
}
# Block writes to all banned variables, and invocation of all
# banned procedures...
global banned_variables
global banned_procedures
global banned_traced
if (!$banned_traced) {
foreach banned_var $banned_variables {
global "$banned_var"
trace add variable "$banned_var" write error
}
foreach banned_proc $banned_procedures {
global "$banned_proc"
trace add execution "$banned_proc" enter error
}
set banned_traced 1
}
# We set LC_ALL, LC_CTYPE, and LANG to C so that we get the same
# messages as expected.
setenv LC_ALL C
setenv LC_CTYPE C
setenv LANG C
# Don't let a .inputrc file or an existing setting of INPUTRC mess up
# the test results. Even if /dev/null doesn't exist on the particular
# platform, the readline library will use the default setting just by
# failing to open the file. OTOH, opening /dev/null successfully will
# also result in the default settings being used since nothing will be
# read from this file.
setenv INPUTRC "/dev/null"
# The gdb.base/readline.exp arrow key test relies on the standard VT100
# bindings, so make sure that an appropriate terminal is selected.
# The same bug doesn't show up if we use ^P / ^N instead.
setenv TERM "vt100"
# Some tests (for example gdb.base/maint.exp) shell out from gdb to use
# grep. Clear GREP_OPTIONS to make the behavior predictable,
# especially having color output turned on can cause tests to fail.
setenv GREP_OPTIONS ""
# Clear $gdbserver_reconnect_p.
global gdbserver_reconnect_p
set gdbserver_reconnect_p 1
unset gdbserver_reconnect_p
return [default_gdb_init $test_file_name]
}
proc gdb_finish { } {
global gdbserver_reconnect_p
global gdb_prompt
global cleanfiles
# Exit first, so that the files are no longer in use.
gdb_exit
if { [llength $cleanfiles] > 0 } {
eval remote_file target delete $cleanfiles
set cleanfiles {}
}
# Unblock write access to the banned variables. Dejagnu typically
# resets some of them between testcases.
global banned_variables
global banned_procedures
global banned_traced
if ($banned_traced) {
foreach banned_var $banned_variables {
global "$banned_var"
trace remove variable "$banned_var" write error
}
foreach banned_proc $banned_procedures {
global "$banned_proc"
trace remove execution "$banned_proc" enter error
}
set banned_traced 0
}
}
global debug_format
set debug_format "unknown"
# Run the gdb command "info source" and extract the debugging format
# information from the output and save it in debug_format.
proc get_debug_format { } {
global gdb_prompt
global verbose
global expect_out
global debug_format
set debug_format "unknown"
send_gdb "info source\n"
gdb_expect 10 {
-re "Compiled with (.*) debugging format.\r\n.*$gdb_prompt $" {
set debug_format $expect_out(1,string)
verbose "debug format is $debug_format"
return 1
}
-re "No current source file.\r\n$gdb_prompt $" {
perror "get_debug_format used when no current source file"
return 0
}
-re "$gdb_prompt $" {
warning "couldn't check debug format (no valid response)."
return 1
}
timeout {
warning "couldn't check debug format (timeout)."
return 1
}
}
}
# Return true if FORMAT matches the debug format the current test was
# compiled with. FORMAT is a shell-style globbing pattern; it can use
# `*', `[...]', and so on.
#
# This function depends on variables set by `get_debug_format', above.
proc test_debug_format {format} {
global debug_format
return [expr [string match $format $debug_format] != 0]
}
# Like setup_xfail, but takes the name of a debug format (DWARF 1,
# COFF, stabs, etc). If that format matches the format that the
# current test was compiled with, then the next test is expected to
# fail for any target. Returns 1 if the next test or set of tests is
# expected to fail, 0 otherwise (or if it is unknown). Must have
# previously called get_debug_format.
proc setup_xfail_format { format } {
set ret [test_debug_format $format]
if {$ret} then {
setup_xfail "*-*-*"
}
return $ret
}
# gdb_get_line_number TEXT [FILE]
#
# Search the source file FILE, and return the line number of the
# first line containing TEXT. If no match is found, an error is thrown.
#
# TEXT is a string literal, not a regular expression.
#
# The default value of FILE is "$srcdir/$subdir/$srcfile". If FILE is
# specified, and does not start with "/", then it is assumed to be in
# "$srcdir/$subdir". This is awkward, and can be fixed in the future,
# by changing the callers and the interface at the same time.
# In particular: gdb.base/break.exp, gdb.base/condbreak.exp,
# gdb.base/ena-dis-br.exp.
#
# Use this function to keep your test scripts independent of the
# exact line numbering of the source file. Don't write:
#
# send_gdb "break 20"
#
# This means that if anyone ever edits your test's source file,
# your test could break. Instead, put a comment like this on the
# source file line you want to break at:
#
# /* breakpoint spot: frotz.exp: test name */
#
# and then write, in your test script (which we assume is named
# frotz.exp):
#
# send_gdb "break [gdb_get_line_number "frotz.exp: test name"]\n"
#
# (Yes, Tcl knows how to handle the nested quotes and brackets.
# Try this:
# $ tclsh
# % puts "foo [lindex "bar baz" 1]"
# foo baz
# %
# Tcl is quite clever, for a little stringy language.)
#
# ===
#
# The previous implementation of this procedure used the gdb search command.
# This version is different:
#
# . It works with MI, and it also works when gdb is not running.
#
# . It operates on the build machine, not the host machine.
#
# . For now, this implementation fakes a current directory of
# $srcdir/$subdir to be compatible with the old implementation.
# This will go away eventually and some callers will need to
# be changed.
#
# . The TEXT argument is literal text and matches literally,
# not a regular expression as it was before.
#
# . State changes in gdb, such as changing the current file
# and setting $_, no longer happen.
#
# After a bit of time we can forget about the differences from the
# old implementation.
#
# --chastain 2004-08-05
proc gdb_get_line_number { text { file "" } } {
global srcdir
global subdir
global srcfile
if { "$file" == "" } then {
set file "$srcfile"
}
if { ! [regexp "^/" "$file"] } then {
set file "$srcdir/$subdir/$file"
}
if { [ catch { set fd [open "$file"] } message ] } then {
error "$message"
}
set found -1
for { set line 1 } { 1 } { incr line } {
if { [ catch { set nchar [gets "$fd" body] } message ] } then {
error "$message"
}
if { $nchar < 0 } then {
break
}
if { [string first "$text" "$body"] >= 0 } then {
set found $line
break
}
}
if { [ catch { close "$fd" } message ] } then {
error "$message"
}
if {$found == -1} {
error "undefined tag \"$text\""
}
return $found
}
# Continue the program until it ends.
#
# MSSG is the error message that gets printed. If not given, a
# default is used.
# COMMAND is the command to invoke. If not given, "continue" is
# used.
# ALLOW_EXTRA is a flag indicating whether the test should expect
# extra output between the "Continuing." line and the program
# exiting. By default it is zero; if nonzero, any extra output
# is accepted.
proc gdb_continue_to_end {{mssg ""} {command continue} {allow_extra 0}} {
global inferior_exited_re use_gdb_stub
if {$mssg == ""} {
set text "continue until exit"
} else {
set text "continue until exit at $mssg"
}
if {$allow_extra} {
set extra ".*"
} else {
set extra ""
}
# By default, we don't rely on exit() behavior of remote stubs --
# it's common for exit() to be implemented as a simple infinite
# loop, or a forced crash/reset. For native targets, by default, we
# assume process exit is reported as such. If a non-reliable target
# is used, we set a breakpoint at exit, and continue to that.
if { [target_info exists exit_is_reliable] } {
set exit_is_reliable [target_info exit_is_reliable]
} else {
set exit_is_reliable [expr ! $use_gdb_stub]
}
if { ! $exit_is_reliable } {
if {![gdb_breakpoint "exit"]} {
return 0
}
gdb_test $command "Continuing..*Breakpoint .*exit.*" \
$text
} else {
# Continue until we exit. Should not stop again.
# Don't bother to check the output of the program, that may be
# extremely tough for some remote systems.
gdb_test $command \
"Continuing.\[\r\n0-9\]+${extra}(... EXIT code 0\[\r\n\]+|$inferior_exited_re normally).*"\
$text
}
}
proc rerun_to_main {} {
global gdb_prompt use_gdb_stub
if $use_gdb_stub {
gdb_run_cmd
gdb_expect {
-re ".*Breakpoint .*main .*$gdb_prompt $"\
{pass "rerun to main" ; return 0}
-re "$gdb_prompt $"\
{fail "rerun to main" ; return 0}
timeout {fail "(timeout) rerun to main" ; return 0}
}
} else {
send_gdb "run\n"
gdb_expect {
-re "The program .* has been started already.*y or n. $" {
send_gdb "y\n"
exp_continue
}
-re "Starting program.*$gdb_prompt $"\
{pass "rerun to main" ; return 0}
-re "$gdb_prompt $"\
{fail "rerun to main" ; return 0}
timeout {fail "(timeout) rerun to main" ; return 0}
}
}
}
# Return true if a test should be skipped due to lack of floating
# point support or GDB can't fetch the contents from floating point
# registers.
gdb_caching_proc gdb_skip_float_test {
if [target_info exists gdb,skip_float_tests] {
return 1
}
# There is an ARM kernel ptrace bug that hardware VFP registers
# are not updated after GDB ptrace set VFP registers. The bug
# was introduced by kernel commit 8130b9d7b9d858aa04ce67805e8951e3cb6e9b2f
# in 2012 and is fixed in e2dfb4b880146bfd4b6aa8e138c0205407cebbaf
# in May 2016. In other words, kernels older than 4.6.3, 4.4.14,
# 4.1.27, 3.18.36, and 3.14.73 have this bug.
# This kernel bug is detected by check how does GDB change the
# program result by changing one VFP register.
if { [istarget "arm*-*-linux*"] } {
set compile_flags {debug nowarnings }
# Set up, compile, and execute a test program having VFP
# operations.
set src [standard_temp_file arm_vfp[pid].c]
set exe [standard_temp_file arm_vfp[pid].x]
gdb_produce_source $src {
int main() {
double d = 4.0;
int ret;
asm ("vldr d0, [%0]" : : "r" (&d));
asm ("vldr d1, [%0]" : : "r" (&d));
asm (".global break_here\n"
"break_here:");
asm ("vcmp.f64 d0, d1\n"
"vmrs APSR_nzcv, fpscr\n"
"bne L_value_different\n"
"movs %0, #0\n"
"b L_end\n"
"L_value_different:\n"
"movs %0, #1\n"
"L_end:\n" : "=r" (ret) :);
/* Return $d0 != $d1. */
return ret;
}
}
verbose "compiling testfile $src" 2
set lines [gdb_compile $src $exe executable $compile_flags]
file delete $src
if ![string match "" $lines] then {
verbose "testfile compilation failed, returning 1" 2
return 0
}
# No error message, compilation succeeded so now run it via gdb.
# Run the test up to 5 times to detect whether ptrace can
# correctly update VFP registers or not.
set skip_vfp_test 0
for {set i 0} {$i < 5} {incr i} {
global gdb_prompt srcdir subdir
gdb_exit
gdb_start
gdb_reinitialize_dir $srcdir/$subdir
gdb_load "$exe"
runto_main
gdb_test "break *break_here"
gdb_continue_to_breakpoint "break_here"
# Modify $d0 to a different value, so the exit code should
# be 1.
gdb_test "set \$d0 = 5.0"
set test "continue to exit"
gdb_test_multiple "continue" "$test" {
-re "exited with code 01.*$gdb_prompt $" {
}
-re "exited normally.*$gdb_prompt $" {
# However, the exit code is 0. That means something
# wrong in setting VFP registers.
set skip_vfp_test 1
break
}
}
}
gdb_exit
remote_file build delete $exe
return $skip_vfp_test
}
return 0
}
# Print a message and return true if a test should be skipped
# due to lack of stdio support.
proc gdb_skip_stdio_test { msg } {
if [target_info exists gdb,noinferiorio] {
verbose "Skipping test '$msg': no inferior i/o."
return 1
}
return 0
}
proc gdb_skip_bogus_test { msg } {
return 0
}
# Return true if a test should be skipped due to lack of XML support
# in the host GDB.
# NOTE: This must be called while gdb is *not* running.
gdb_caching_proc gdb_skip_xml_test {
global gdb_spawn_id
global gdb_prompt
global srcdir
if { [info exists gdb_spawn_id] } {
error "GDB must not be running in gdb_skip_xml_tests."
}
set xml_file [gdb_remote_download host "${srcdir}/gdb.xml/trivial.xml"]
gdb_start
set xml_missing 0
gdb_test_multiple "set tdesc filename $xml_file" "" {
-re ".*XML support was disabled at compile time.*$gdb_prompt $" {
set xml_missing 1
}
-re ".*$gdb_prompt $" { }
}
gdb_exit
return $xml_missing
}
# Return true if argv[0] is available.
gdb_caching_proc gdb_has_argv0 {
set result 0
# Compile and execute a test program to check whether argv[0] is available.
gdb_simple_compile has_argv0 {
int main (int argc, char **argv) {
return 0;
}
} executable
# Helper proc.
proc gdb_has_argv0_1 { exe } {
global srcdir subdir
global gdb_prompt hex
gdb_exit
gdb_start
gdb_reinitialize_dir $srcdir/$subdir
gdb_load "$exe"
# Set breakpoint on main.
gdb_test_multiple "break main" "break main" {
-re "Breakpoint.*${gdb_prompt} $" {
}
-re "${gdb_prompt} $" {
return 0
}
}
# Run to main.
gdb_run_cmd
gdb_test_multiple "" "run to main" {
-re "Breakpoint.*${gdb_prompt} $" {
}
-re "${gdb_prompt} $" {
return 0
}
}
set old_elements "200"
set test "show print elements"
gdb_test_multiple $test $test {
-re "Limit on string chars or array elements to print is (\[^\r\n\]+)\\.\r\n$gdb_prompt $" {
set old_elements $expect_out(1,string)
}
}
set old_repeats "200"
set test "show print repeats"
gdb_test_multiple $test $test {
-re "Threshold for repeated print elements is (\[^\r\n\]+)\\.\r\n$gdb_prompt $" {
set old_repeats $expect_out(1,string)
}
}
gdb_test_no_output "set print elements unlimited" ""
gdb_test_no_output "set print repeats unlimited" ""
set retval 0
# Check whether argc is 1.
gdb_test_multiple "p argc" "p argc" {
-re " = 1\r\n${gdb_prompt} $" {
gdb_test_multiple "p argv\[0\]" "p argv\[0\]" {
-re " = $hex \".*[file tail $exe]\"\r\n${gdb_prompt} $" {
set retval 1
}
-re "${gdb_prompt} $" {
}
}
}
-re "${gdb_prompt} $" {
}
}
gdb_test_no_output "set print elements $old_elements" ""
gdb_test_no_output "set print repeats $old_repeats" ""
return $retval
}
set result [gdb_has_argv0_1 $obj]
gdb_exit
file delete $obj
if { !$result
&& ([istarget *-*-linux*]
|| [istarget *-*-freebsd*] || [istarget *-*-kfreebsd*]
|| [istarget *-*-netbsd*] || [istarget *-*-knetbsd*]
|| [istarget *-*-openbsd*]
|| [istarget *-*-darwin*]
|| [istarget *-*-solaris*]
|| [istarget *-*-aix*]
|| [istarget *-*-gnu*]
|| [istarget *-*-cygwin*] || [istarget *-*-mingw32*]
|| [istarget *-*-*djgpp*] || [istarget *-*-go32*]
|| [istarget *-wince-pe] || [istarget *-*-mingw32ce*]
|| [istarget *-*-symbianelf*]
|| [istarget *-*-osf*]
|| [istarget *-*-dicos*]
|| [istarget *-*-nto*]
|| [istarget *-*-*vms*]
|| [istarget *-*-lynx*178]) } {
fail "argv\[0\] should be available on this target"
}
return $result
}
# Note: the procedure gdb_gnu_strip_debug will produce an executable called
# ${binfile}.dbglnk, which is just like the executable ($binfile) but without
# the debuginfo. Instead $binfile has a .gnu_debuglink section which contains
# the name of a debuginfo only file. This file will be stored in the same
# subdirectory.
# Functions for separate debug info testing
# starting with an executable:
# foo --> original executable
# at the end of the process we have:
# foo.stripped --> foo w/o debug info
# foo.debug --> foo's debug info
# foo --> like foo, but with a new .gnu_debuglink section pointing to foo.debug.
# Fetch the build id from the file.
# Returns "" if there is none.
proc get_build_id { filename } {
if { ([istarget "*-*-mingw*"]
|| [istarget *-*-cygwin*]) } {
set objdump_program [gdb_find_objdump]
set result [catch {set data [exec $objdump_program -p $filename | grep signature | cut "-d " -f4]} output]
verbose "result is $result"
verbose "output is $output"
if {$result == 1} {
return ""
}
return $data
} else {
set tmp [standard_output_file "${filename}-tmp"]
set objcopy_program [gdb_find_objcopy]
set result [catch "exec $objcopy_program -j .note.gnu.build-id -O binary $filename $tmp" output]
verbose "result is $result"
verbose "output is $output"
if {$result == 1} {
return ""
}
set fi [open $tmp]
fconfigure $fi -translation binary
# Skip the NOTE header.
read $fi 16
set data [read $fi]
close $fi
file delete $tmp
if ![string compare $data ""] then {
return ""
}
# Convert it to hex.
binary scan $data H* data
return $data
}
}
# Return the build-id hex string (usually 160 bits as 40 hex characters)
# converted to the form: .build-id/ab/cdef1234...89.debug
# Return "" if no build-id found.
proc build_id_debug_filename_get { filename } {
set data [get_build_id $filename]
if { $data == "" } {
return ""
}
regsub {^..} $data {\0/} data
return ".build-id/${data}.debug"
}
# Create stripped files for DEST, replacing it. If ARGS is passed, it is a
# list of optional flags. The only currently supported flag is no-main,
# which removes the symbol entry for main from the separate debug file.
#
# Function returns zero on success. Function will return non-zero failure code
# on some targets not supporting separate debug info (such as i386-msdos).
proc gdb_gnu_strip_debug { dest args } {
# Use the first separate debug info file location searched by GDB so the
# run cannot be broken by some stale file searched with higher precedence.
set debug_file "${dest}.debug"
set strip_to_file_program [transform strip]
set objcopy_program [gdb_find_objcopy]
set debug_link [file tail $debug_file]
set stripped_file "${dest}.stripped"
# Get rid of the debug info, and store result in stripped_file
# something like gdb/testsuite/gdb.base/blah.stripped.
set result [catch "exec $strip_to_file_program --strip-debug ${dest} -o ${stripped_file}" output]
verbose "result is $result"
verbose "output is $output"
if {$result == 1} {
return 1
}
# Workaround PR binutils/10802:
# Preserve the 'x' bit also for PIEs (Position Independent Executables).
set perm [file attributes ${dest} -permissions]
file attributes ${stripped_file} -permissions $perm
# Get rid of everything but the debug info, and store result in debug_file
# This will be in the .debug subdirectory, see above.
set result [catch "exec $strip_to_file_program --only-keep-debug ${dest} -o ${debug_file}" output]
verbose "result is $result"
verbose "output is $output"
if {$result == 1} {
return 1
}
# If no-main is passed, strip the symbol for main from the separate
# file. This is to simulate the behavior of elfutils's eu-strip, which
# leaves the symtab in the original file only. There's no way to get
# objcopy or strip to remove the symbol table without also removing the
# debugging sections, so this is as close as we can get.
if { [llength $args] == 1 && [lindex $args 0] == "no-main" } {
set result [catch "exec $objcopy_program -N main ${debug_file} ${debug_file}-tmp" output]
verbose "result is $result"
verbose "output is $output"
if {$result == 1} {
return 1
}
file delete "${debug_file}"
file rename "${debug_file}-tmp" "${debug_file}"
}
# Link the two previous output files together, adding the .gnu_debuglink
# section to the stripped_file, containing a pointer to the debug_file,
# save the new file in dest.
# This will be the regular executable filename, in the usual location.
set result [catch "exec $objcopy_program --add-gnu-debuglink=${debug_file} ${stripped_file} ${dest}" output]
verbose "result is $result"
verbose "output is $output"
if {$result == 1} {
return 1
}
# Workaround PR binutils/10802:
# Preserve the 'x' bit also for PIEs (Position Independent Executables).
set perm [file attributes ${stripped_file} -permissions]
file attributes ${dest} -permissions $perm
return 0
}
# Test the output of GDB_COMMAND matches the pattern obtained
# by concatenating all elements of EXPECTED_LINES. This makes
# it possible to split otherwise very long string into pieces.
# If third argument is not empty, it's used as the name of the
# test to be printed on pass/fail.
proc help_test_raw { gdb_command expected_lines args } {
set message $gdb_command
if [llength $args]>0 then {
set message [lindex $args 0]
}
set expected_output [join $expected_lines ""]
gdb_test "${gdb_command}" "${expected_output}" $message
}
# Test the output of "help COMMAND_CLASS". EXPECTED_INITIAL_LINES
# are regular expressions that should match the beginning of output,
# before the list of commands in that class. The presence of
# command list and standard epilogue will be tested automatically.
# Notice that the '[' and ']' characters don't need to be escaped for strings
# wrapped in {} braces.
proc test_class_help { command_class expected_initial_lines args } {
set l_stock_body {
"List of commands\:.*[\r\n]+"
"Type \"help\" followed by command name for full documentation\.[\r\n]+"
"Type \"apropos word\" to search for commands related to \"word\"\.[\r\n]+"
"Command name abbreviations are allowed if unambiguous\."
}
set l_entire_body [concat $expected_initial_lines $l_stock_body]
eval [list help_test_raw "help ${command_class}" $l_entire_body] $args
}
# COMMAND_LIST should have either one element -- command to test, or
# two elements -- abbreviated command to test, and full command the first
# element is abbreviation of.
# The command must be a prefix command. EXPECTED_INITIAL_LINES
# are regular expressions that should match the beginning of output,
# before the list of subcommands. The presence of
# subcommand list and standard epilogue will be tested automatically.
proc test_prefix_command_help { command_list expected_initial_lines args } {
set command [lindex $command_list 0]
if {[llength $command_list]>1} {
set full_command [lindex $command_list 1]
} else {
set full_command $command
}
# Use 'list' and not just {} because we want variables to
# be expanded in this list.
set l_stock_body [list\
"List of $full_command subcommands\:.*\[\r\n\]+"\
"Type \"help $full_command\" followed by $full_command subcommand name for full documentation\.\[\r\n\]+"\
"Type \"apropos word\" to search for commands related to \"word\"\.\[\r\n\]+"\
"Command name abbreviations are allowed if unambiguous\."]
set l_entire_body [concat $expected_initial_lines $l_stock_body]
if {[llength $args]>0} {
help_test_raw "help ${command}" $l_entire_body [lindex $args 0]
} else {
help_test_raw "help ${command}" $l_entire_body
}
}
# Build executable named EXECUTABLE from specifications that allow
# different options to be passed to different sub-compilations.
# TESTNAME is the name of the test; this is passed to 'untested' if
# something fails.
# OPTIONS is passed to the final link, using gdb_compile. If OPTIONS
# contains the option "pthreads", then gdb_compile_pthreads is used.
# ARGS is a flat list of source specifications, of the form:
# { SOURCE1 OPTIONS1 [ SOURCE2 OPTIONS2 ]... }
# Each SOURCE is compiled to an object file using its OPTIONS,
# using gdb_compile.
# Returns 0 on success, -1 on failure.
proc build_executable_from_specs {testname executable options args} {
global subdir
global srcdir
set binfile [standard_output_file $executable]
set info_options ""
if { [lsearch -exact $options "c++"] >= 0 } {
set info_options "c++"
}
if [get_compiler_info ${info_options}] {
return -1
}
set func gdb_compile
set func_index [lsearch -regexp $options {^(pthreads|shlib|shlib_pthreads)$}]
if {$func_index != -1} {
set func "${func}_[lindex $options $func_index]"
}
# gdb_compile_shlib and gdb_compile_shlib_pthreads do not use the 3rd
# parameter. They also requires $sources while gdb_compile and
# gdb_compile_pthreads require $objects. Moreover they ignore any options.
if [string match gdb_compile_shlib* $func] {
set sources_path {}
foreach {s local_options} $args {
if { [regexp "^/" "$s"] } then {
lappend sources_path "$s"
} else {
lappend sources_path "$srcdir/$subdir/$s"
}
}
set ret [$func $sources_path "${binfile}" $options]
} elseif {[lsearch -exact $options rust] != -1} {
set sources_path {}
foreach {s local_options} $args {
if { [regexp "^/" "$s"] } then {
lappend sources_path "$s"
} else {
lappend sources_path "$srcdir/$subdir/$s"
}
}
set ret [gdb_compile_rust $sources_path "${binfile}" $options]
} else {
set objects {}
set i 0
foreach {s local_options} $args {
if { ! [regexp "^/" "$s"] } then {
set s "$srcdir/$subdir/$s"
}
if { [gdb_compile "${s}" "${binfile}${i}.o" object $local_options] != "" } {
untested $testname
return -1
}
lappend objects "${binfile}${i}.o"
incr i
}
set ret [$func $objects "${binfile}" executable $options]
}
if { $ret != "" } {
untested $testname
return -1
}
return 0
}
# Build executable named EXECUTABLE, from SOURCES. If SOURCES are not
# provided, uses $EXECUTABLE.c. The TESTNAME paramer is the name of test
# to pass to untested, if something is wrong. OPTIONS are passed
# to gdb_compile directly.
proc build_executable { testname executable {sources ""} {options {debug}} } {
if {[llength $sources]==0} {
set sources ${executable}.c
}
set arglist [list $testname $executable $options]
foreach source $sources {
lappend arglist $source $options
}
return [eval build_executable_from_specs $arglist]
}
# Starts fresh GDB binary and loads an optional executable into GDB.
# Usage: clean_restart [executable]
# EXECUTABLE is the basename of the binary.
proc clean_restart { args } {
global srcdir
global subdir
if { [llength $args] > 1 } {
error "bad number of args: [llength $args]"
}
gdb_exit
gdb_start
gdb_reinitialize_dir $srcdir/$subdir
if { [llength $args] >= 1 } {
set executable [lindex $args 0]
set binfile [standard_output_file ${executable}]
gdb_load ${binfile}
}
}
# Prepares for testing by calling build_executable_full, then
# clean_restart.
# TESTNAME is the name of the test.
# Each element in ARGS is a list of the form
# { EXECUTABLE OPTIONS SOURCE_SPEC... }
# These are passed to build_executable_from_specs, which see.
# The last EXECUTABLE is passed to clean_restart.
# Returns 0 on success, non-zero on failure.
proc prepare_for_testing_full {testname args} {
foreach spec $args {
if {[eval build_executable_from_specs [list $testname] $spec] == -1} {
return -1
}
set executable [lindex $spec 0]
}
clean_restart $executable
return 0
}
# Prepares for testing, by calling build_executable, and then clean_restart.
# Please refer to build_executable for parameter description.
proc prepare_for_testing { testname executable {sources ""} {options {debug}}} {
if {[build_executable $testname $executable $sources $options] == -1} {
return -1
}
clean_restart $executable
return 0
}
# Retrieve the value of EXP in the inferior, represented in format
# specified in FMT (using "printFMT"). DEFAULT is used as fallback if
# print fails. TEST is the test message to use. It can be omitted,
# in which case a test message is built from EXP.
proc get_valueof { fmt exp default {test ""} } {
global gdb_prompt
if {$test == "" } {
set test "get valueof \"${exp}\""
}
set val ${default}
gdb_test_multiple "print${fmt} ${exp}" "$test" {
-re "\\$\[0-9\]* = (\[^\r\n\]*)\[\r\n\]*$gdb_prompt $" {
set val $expect_out(1,string)
pass "$test ($val)"
}
timeout {
fail "$test (timeout)"
}
}
return ${val}
}
# Retrieve the value of EXP in the inferior, as a signed decimal value
# (using "print /d"). DEFAULT is used as fallback if print fails.
# TEST is the test message to use. It can be omitted, in which case
# a test message is built from EXP.
proc get_integer_valueof { exp default {test ""} } {
global gdb_prompt
if {$test == ""} {
set test "get integer valueof \"${exp}\""
}
set val ${default}
gdb_test_multiple "print /d ${exp}" "$test" {
-re "\\$\[0-9\]* = (\[-\]*\[0-9\]*).*$gdb_prompt $" {
set val $expect_out(1,string)
pass "$test"
}
timeout {
fail "$test (timeout)"
}
}
return ${val}
}
# Retrieve the value of EXP in the inferior, as an hexadecimal value
# (using "print /x"). DEFAULT is used as fallback if print fails.
# TEST is the test message to use. It can be omitted, in which case
# a test message is built from EXP.
proc get_hexadecimal_valueof { exp default {test ""} } {
global gdb_prompt
if {$test == ""} {
set test "get hexadecimal valueof \"${exp}\""
}
set val ${default}
gdb_test_multiple "print /x ${exp}" $test {
-re "\\$\[0-9\]* = (0x\[0-9a-zA-Z\]+).*$gdb_prompt $" {
set val $expect_out(1,string)
pass "$test"
}
}
return ${val}
}
# Retrieve the size of TYPE in the inferior, as a decimal value. DEFAULT
# is used as fallback if print fails. TEST is the test message to use.
# It can be omitted, in which case a test message is 'sizeof (TYPE)'.
proc get_sizeof { type default {test ""} } {
return [get_integer_valueof "sizeof (${type})" $default $test]
}
proc get_target_charset { } {
global gdb_prompt
gdb_test_multiple "show target-charset" "" {
-re "The target character set is \"auto; currently (\[^\"\]*)\".*$gdb_prompt $" {
return $expect_out(1,string)
}
-re "The target character set is \"(\[^\"\]*)\".*$gdb_prompt $" {
return $expect_out(1,string)
}
}
# Pick a reasonable default.
warning "Unable to read target-charset."
return "UTF-8"
}
# Get the address of VAR.
proc get_var_address { var } {
global gdb_prompt hex
# Match output like:
# $1 = (int *) 0x0
# $5 = (int (*)()) 0
# $6 = (int (*)()) 0x24 <function_bar>
gdb_test_multiple "print &${var}" "get address of ${var}" {
-re "\\\$\[0-9\]+ = \\(.*\\) (0|$hex)( <${var}>)?\[\r\n\]+${gdb_prompt} $"
{
pass "get address of ${var}"
if { $expect_out(1,string) == "0" } {
return "0x0"
} else {
return $expect_out(1,string)
}
}
}
return ""
}
# Return the frame number for the currently selected frame
proc get_current_frame_number {{test_name ""}} {
global gdb_prompt
if { $test_name == "" } {
set test_name "get current frame number"
}
set frame_num -1
gdb_test_multiple "frame" $test_name {
-re "#(\[0-9\]+) .*$gdb_prompt $" {
set frame_num $expect_out(1,string)
}
}
return $frame_num
}
# Get the current value for remotetimeout and return it.
proc get_remotetimeout { } {
global gdb_prompt
global decimal
gdb_test_multiple "show remotetimeout" "" {
-re "Timeout limit to wait for target to respond is ($decimal).*$gdb_prompt $" {
return $expect_out(1,string)
}
}
# Pick the default that gdb uses
warning "Unable to read remotetimeout"
return 300
}
# Set the remotetimeout to the specified timeout. Nothing is returned.
proc set_remotetimeout { timeout } {
global gdb_prompt
gdb_test_multiple "set remotetimeout $timeout" "" {
-re "$gdb_prompt $" {
verbose "Set remotetimeout to $timeout\n"
}
}
}
# Get the target's current endianness and return it.
proc get_endianness { } {
global gdb_prompt
gdb_test_multiple "show endian" "determine endianness" {
-re ".* (little|big) endian.*\r\n$gdb_prompt $" {
# Pass silently.
return $expect_out(1,string)
}
}
return "little"
}
# ROOT and FULL are file names. Returns the relative path from ROOT
# to FULL. Note that FULL must be in a subdirectory of ROOT.
# For example, given ROOT = /usr/bin and FULL = /usr/bin/ls, this
# will return "ls".
proc relative_filename {root full} {
set root_split [file split $root]
set full_split [file split $full]
set len [llength $root_split]
if {[eval file join $root_split]
!= [eval file join [lrange $full_split 0 [expr {$len - 1}]]]} {
error "$full not a subdir of $root"
}
return [eval file join [lrange $full_split $len end]]
}
# Log gdb command line and script if requested.
if {[info exists TRANSCRIPT]} {
rename send_gdb real_send_gdb
rename remote_spawn real_remote_spawn
rename remote_close real_remote_close
global gdb_transcript
set gdb_transcript ""
global gdb_trans_count
set gdb_trans_count 1
proc remote_spawn {args} {
global gdb_transcript gdb_trans_count outdir
if {$gdb_transcript != ""} {
close $gdb_transcript
}
set gdb_transcript [open [file join $outdir transcript.$gdb_trans_count] w]
puts $gdb_transcript [lindex $args 1]
incr gdb_trans_count
return [uplevel real_remote_spawn $args]
}
proc remote_close {args} {
global gdb_transcript
if {$gdb_transcript != ""} {
close $gdb_transcript
set gdb_transcript ""
}
return [uplevel real_remote_close $args]
}
proc send_gdb {args} {
global gdb_transcript
if {$gdb_transcript != ""} {
puts -nonewline $gdb_transcript [lindex $args 0]
}
return [uplevel real_send_gdb $args]
}
}
# If GDB_PARALLEL exists, then set up the parallel-mode directories.
if {[info exists GDB_PARALLEL]} {
if {[is_remote host]} {
unset GDB_PARALLEL
} else {
file mkdir \
[make_gdb_parallel_path outputs] \
[make_gdb_parallel_path temp] \
[make_gdb_parallel_path cache]
}
}
proc core_find {binfile {deletefiles {}} {arg ""}} {
global objdir subdir
set destcore "$binfile.core"
file delete $destcore
# Create a core file named "$destcore" rather than just "core", to
# avoid problems with sys admin types that like to regularly prune all
# files named "core" from the system.
#
# Arbitrarily try setting the core size limit to "unlimited" since
# this does not hurt on systems where the command does not work and
# allows us to generate a core on systems where it does.
#
# Some systems append "core" to the name of the program; others append
# the name of the program to "core"; still others (like Linux, as of
# May 2003) create cores named "core.PID". In the latter case, we
# could have many core files lying around, and it may be difficult to
# tell which one is ours, so let's run the program in a subdirectory.
set found 0
set coredir [standard_output_file coredir.[getpid]]
file mkdir $coredir
catch "system \"(cd ${coredir}; ulimit -c unlimited; ${binfile} ${arg}; true) >/dev/null 2>&1\""
# remote_exec host "${binfile}"
foreach i "${coredir}/core ${coredir}/core.coremaker.c ${binfile}.core" {
if [remote_file build exists $i] {
remote_exec build "mv $i $destcore"
set found 1
}
}
# Check for "core.PID".
if { $found == 0 } {
set names [glob -nocomplain -directory $coredir core.*]
if {[llength $names] == 1} {
set corefile [file join $coredir [lindex $names 0]]
remote_exec build "mv $corefile $destcore"
set found 1
}
}
if { $found == 0 } {
# The braindamaged HPUX shell quits after the ulimit -c above
# without executing ${binfile}. So we try again without the
# ulimit here if we didn't find a core file above.
# Oh, I should mention that any "braindamaged" non-Unix system has
# the same problem. I like the cd bit too, it's really neat'n stuff.
catch "system \"(cd ${objdir}/${subdir}; ${binfile}; true) >/dev/null 2>&1\""
foreach i "${objdir}/${subdir}/core ${objdir}/${subdir}/core.coremaker.c ${binfile}.core" {
if [remote_file build exists $i] {
remote_exec build "mv $i $destcore"
set found 1
}
}
}
# Try to clean up after ourselves.
foreach deletefile $deletefiles {
remote_file build delete [file join $coredir $deletefile]
}
remote_exec build "rmdir $coredir"
if { $found == 0 } {
warning "can't generate a core file - core tests suppressed - check ulimit -c"
return ""
}
return $destcore
}
# gdb_target_symbol_prefix compiles a test program and then examines
# the output from objdump to determine the prefix (such as underscore)
# for linker symbol prefixes.
gdb_caching_proc gdb_target_symbol_prefix {
# Compile a simple test program...
set src { int main() { return 0; } }
if {![gdb_simple_compile target_symbol_prefix $src executable]} {
return 0
}
set prefix ""
set objdump_program [gdb_find_objdump]
set result [catch "exec $objdump_program --syms $obj" output]
if { $result == 0 \
&& ![regexp -lineanchor \
{ ([^ a-zA-Z0-9]*)main$} $output dummy prefix] } {
verbose "gdb_target_symbol_prefix: Could not find main in objdump output; returning null prefix" 2
}
file delete $obj
return $prefix
}
# Return 1 if target supports scheduler locking, otherwise return 0.
gdb_caching_proc target_supports_scheduler_locking {
global gdb_prompt
set me "gdb_target_supports_scheduler_locking"
set src { int main() { return 0; } }
if {![gdb_simple_compile $me $src executable]} {
return 0
}
clean_restart $obj
gdb_start_cmd
set supports_schedule_locking -1
set current_schedule_locking_mode ""
set test "reading current scheduler-locking mode"
gdb_test_multiple "show scheduler-locking" $test {
-re "Mode for locking scheduler during execution is \"(\[\^\"\]*)\".*$gdb_prompt" {
set current_schedule_locking_mode $expect_out(1,string)
}
-re "$gdb_prompt $" {
set supports_schedule_locking 0
}
timeout {
set supports_schedule_locking 0
}
}
if { $supports_schedule_locking == -1 } {
set test "checking for scheduler-locking support"
gdb_test_multiple "set scheduler-locking $current_schedule_locking_mode" $test {
-re "Target '\[^'\]+' cannot support this command\..*$gdb_prompt $" {
set supports_schedule_locking 0
}
-re "$gdb_prompt $" {
set supports_schedule_locking 1
}
timeout {
set supports_schedule_locking 0
}
}
}
if { $supports_schedule_locking == -1 } {
set supports_schedule_locking 0
}
gdb_exit
remote_file build delete $obj
verbose "$me: returning $supports_schedule_locking" 2
return $supports_schedule_locking
}
# gdb_target_symbol returns the provided symbol with the correct prefix
# prepended. (See gdb_target_symbol_prefix, above.)
proc gdb_target_symbol { symbol } {
set prefix [gdb_target_symbol_prefix]
return "${prefix}${symbol}"
}
# gdb_target_symbol_prefix_flags_asm returns a string that can be
# added to gdb_compile options to define the C-preprocessor macro
# SYMBOL_PREFIX with a value that can be prepended to symbols
# for targets which require a prefix, such as underscore.
#
# This version (_asm) defines the prefix without double quotes
# surrounding the prefix. It is used to define the macro
# SYMBOL_PREFIX for assembly language files. Another version, below,
# is used for symbols in inline assembler in C/C++ files.
#
# The lack of quotes in this version (_asm) makes it possible to
# define supporting macros in the .S file. (The version which
# uses quotes for the prefix won't work for such files since it's
# impossible to define a quote-stripping macro in C.)
#
# It's possible to use this version (_asm) for C/C++ source files too,
# but a string is usually required in such files; providing a version
# (no _asm) which encloses the prefix with double quotes makes it
# somewhat easier to define the supporting macros in the test case.
proc gdb_target_symbol_prefix_flags_asm {} {
set prefix [gdb_target_symbol_prefix]
if {$prefix ne ""} {
return "additional_flags=-DSYMBOL_PREFIX=$prefix"
} else {
return "";
}
}
# gdb_target_symbol_prefix_flags returns the same string as
# gdb_target_symbol_prefix_flags_asm, above, but with the prefix
# enclosed in double quotes if there is a prefix.
#
# See the comment for gdb_target_symbol_prefix_flags_asm for an
# extended discussion.
proc gdb_target_symbol_prefix_flags {} {
set prefix [gdb_target_symbol_prefix]
if {$prefix ne ""} {
return "additional_flags=-DSYMBOL_PREFIX=\"$prefix\""
} else {
return "";
}
}
# A wrapper for 'remote_exec host' that passes or fails a test.
# Returns 0 if all went well, nonzero on failure.
# TEST is the name of the test, other arguments are as for remote_exec.
proc run_on_host { test program args } {
verbose -log "run_on_host: $program $args"
# remote_exec doesn't work properly if the output is set but the
# input is the empty string -- so replace an empty input with
# /dev/null.
if {[llength $args] > 1 && [lindex $args 1] == ""} {
set args [lreplace $args 1 1 "/dev/null"]
}
set result [eval remote_exec host [list $program] $args]
verbose "result is $result"
set status [lindex $result 0]
set output [lindex $result 1]
if {$status == 0} {
pass $test
return 0
} else {
verbose -log "run_on_host failed: $output"
fail $test
return -1
}
}
# Return non-zero if "board_info debug_flags" mentions Fission.
# http://gcc.gnu.org/wiki/DebugFission
# Fission doesn't support everything yet.
# This supports working around bug 15954.
proc using_fission { } {
set debug_flags [board_info [target_info name] debug_flags]
return [regexp -- "-gsplit-dwarf" $debug_flags]
}
# Search the caller's ARGS list and set variables according to the list of
# valid options described by ARGSET.
#
# The first member of each one- or two-element list in ARGSET defines the
# name of a variable that will be added to the caller's scope.
#
# If only one element is given to describe an option, it the value is
# 0 if the option is not present in (the caller's) ARGS or 1 if
# it is.
#
# If two elements are given, the second element is the default value of
# the variable. This is then overwritten if the option exists in ARGS.
#
# Any parse_args elements in (the caller's) ARGS will be removed, leaving
# any optional components.
# Example:
# proc myproc {foo args} {
# parse_args {{bar} {baz "abc"} {qux}}
# # ...
# }
# myproc ABC -bar -baz DEF peanut butter
# will define the following variables in myproc:
# foo (=ABC), bar (=1), baz (=DEF), and qux (=0)
# args will be the list {peanut butter}
proc parse_args { argset } {
upvar args args
foreach argument $argset {
if {[llength $argument] == 1} {
# No default specified, so we assume that we should set
# the value to 1 if the arg is present and 0 if it's not.
# It is assumed that no value is given with the argument.
set result [lsearch -exact $args "-$argument"]
if {$result != -1} then {
uplevel 1 [list set $argument 1]
set args [lreplace $args $result $result]
} else {
uplevel 1 [list set $argument 0]
}
} elseif {[llength $argument] == 2} {
# There are two items in the argument. The second is a
# default value to use if the item is not present.
# Otherwise, the variable is set to whatever is provided
# after the item in the args.
set arg [lindex $argument 0]
set result [lsearch -exact $args "-[lindex $arg 0]"]
if {$result != -1} then {
uplevel 1 [list set $arg [lindex $args [expr $result+1]]]
set args [lreplace $args $result [expr $result+1]]
} else {
uplevel 1 [list set $arg [lindex $argument 1]]
}
} else {
error "Badly formatted argument \"$argument\" in argument set"
}
}
# The remaining args should be checked to see that they match the
# number of items expected to be passed into the procedure...
}
# Capture the output of COMMAND in a string ignoring PREFIX (a regexp);
# return that string.
proc capture_command_output { command prefix } {
global gdb_prompt
global expect_out
set output_string ""
gdb_test_multiple "$command" "capture_command_output for $command" {
-re "[string_to_regexp ${command}]\[\r\n\]+${prefix}(.*)\[\r\n\]+$gdb_prompt $" {
set output_string $expect_out(1,string)
}
}
return $output_string
}
# A convenience function that joins all the arguments together, with a
# regexp that matches exactly one end of line in between each argument.
# This function is ideal to write the expected output of a GDB command
# that generates more than a couple of lines, as this allows us to write
# each line as a separate string, which is easier to read by a human
# being.
proc multi_line { args } {
return [join $args "\r\n"]
}
# Similar to the above, but while multi_line is meant to be used to
# match GDB output, this one is meant to be used to build strings to
# send as GDB input.
proc multi_line_input { args } {
return [join $args "\n"]
}
# Return the version of the DejaGnu framework.
#
# The return value is a list containing the major, minor and patch version
# numbers. If the version does not contain a minor or patch number, they will
# be set to 0. For example:
#
# 1.6 -> {1 6 0}
# 1.6.1 -> {1 6 1}
# 2 -> {2 0 0}
proc dejagnu_version { } {
# The frame_version variable is defined by DejaGnu, in runtest.exp.
global frame_version
verbose -log "DejaGnu version: $frame_version"
verbose -log "Expect version: [exp_version]"
verbose -log "Tcl version: [info tclversion]"
set dg_ver [split $frame_version .]
while { [llength $dg_ver] < 3 } {
lappend dg_ver 0
}
return $dg_ver
}
# Define user-defined command COMMAND using the COMMAND_LIST as the
# command's definition. The terminating "end" is added automatically.
proc gdb_define_cmd {command command_list} {
global gdb_prompt
set input [multi_line_input {*}$command_list "end"]
set test "define $command"
gdb_test_multiple "define $command" $test {
-re "End with" {
gdb_test_multiple $input $test {
-re "\r\n$gdb_prompt " {
}
}
}
}
}
# Always load compatibility stuff.
load_lib future.exp
|