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|
# Copyright 2019-2020 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/>.
# An ANSI terminal emulator for expect.
# The expect "spawn" function puts the tty name into the spawn_out
# array; but dejagnu doesn't export this globally. So, we have to
# wrap spawn with our own function, so that we can capture this value.
# The value is later used in calls to stty.
proc tuiterm_spawn { args } {
set result [uplevel builtin_spawn $args]
global gdb_spawn_name
upvar spawn_out spawn_out
if { [info exists spawn_out] } {
set gdb_spawn_name $spawn_out(slave,name)
} else {
unset gdb_spawn_name
}
return $result
}
# Initialize tuiterm.exp environment.
proc tuiterm_env_init { } {
# Override spawn with tui_spawn.
rename spawn builtin_spawn
rename tuiterm_spawn spawn
}
# Finalize tuiterm.exp environment.
proc tuiterm_env_finish { } {
# Restore spawn.
rename spawn tuiterm_spawn
rename builtin_spawn spawn
}
namespace eval Term {
variable _rows
variable _cols
variable _chars
variable _cur_x
variable _cur_y
variable _attrs
variable _last_char
variable _resize_count
# If ARG is empty, return DEF: otherwise ARG. This is useful for
# defaulting arguments in CSIs.
proc _default {arg def} {
if {$arg == ""} {
return $def
}
return $arg
}
# Erase in the line Y from SX to just before EX.
proc _clear_in_line {sx ex y} {
variable _attrs
variable _chars
set lattr [array get _attrs]
while {$sx < $ex} {
set _chars($sx,$y) [list " " $lattr]
incr sx
}
}
# Erase the lines from SY to just before EY.
proc _clear_lines {sy ey} {
variable _cols
while {$sy < $ey} {
_clear_in_line 0 $_cols $sy
incr sy
}
}
# Beep.
proc _ctl_0x07 {} {
}
# Backspace.
proc _ctl_0x08 {} {
variable _cur_x
incr _cur_x -1
if {$_cur_x < 0} {
variable _cur_y
variable _cols
set _cur_x [expr {$_cols - 1}]
incr _cur_y -1
if {$_cur_y < 0} {
set _cur_y 0
}
}
}
# Linefeed.
proc _ctl_0x0a {} {
variable _cur_y
variable _rows
incr _cur_y 1
if {$_cur_y >= $_rows} {
error "FIXME scroll"
}
}
# Carriage return.
proc _ctl_0x0d {} {
variable _cur_x
set _cur_x 0
}
# Make room for characters.
proc _csi_@ {args} {
set n [_default [lindex $args 0] 1]
variable _cur_x
variable _cur_y
variable _chars
set in_x $_cur_x
set out_x [expr {$_cur_x + $n}]
for {set i 0} {$i < $n} {incr i} {
set _chars($out_x,$_cur_y) $_chars($in_x,$_cur_y)
incr in_x
incr out_x
}
}
# Cursor Up.
proc _csi_A {args} {
variable _cur_y
set arg [_default [lindex $args 0] 1]
set _cur_y [expr {max ($_cur_y - $arg, 0)}]
}
# Cursor Down.
proc _csi_B {args} {
variable _cur_y
variable _rows
set arg [_default [lindex $args 0] 1]
set _cur_y [expr {min ($_cur_y + $arg, $_rows)}]
}
# Cursor Forward.
proc _csi_C {args} {
variable _cur_x
variable _cols
set arg [_default [lindex $args 0] 1]
set _cur_x [expr {min ($_cur_x + $arg, $_cols)}]
}
# Cursor Back.
proc _csi_D {args} {
variable _cur_x
set arg [_default [lindex $args 0] 1]
set _cur_x [expr {max ($_cur_x - $arg, 0)}]
}
# Cursor Next Line.
proc _csi_E {args} {
variable _cur_x
variable _cur_y
variable _rows
set arg [_default [lindex $args 0] 1]
set _cur_x 0
set _cur_y [expr {min ($_cur_y + $arg, $_rows)}]
}
# Cursor Previous Line.
proc _csi_F {args} {
variable _cur_x
variable _cur_y
variable _rows
set arg [_default [lindex $args 0] 1]
set _cur_x 0
set _cur_y [expr {max ($_cur_y - $arg, 0)}]
}
# Cursor Horizontal Absolute.
proc _csi_G {args} {
variable _cur_x
variable _cols
set arg [_default [lindex $args 0] 1]
set _cur_x [expr {min ($arg - 1, $_cols)}]
}
# Move cursor (don't know the official name of this one).
proc _csi_H {args} {
variable _cur_x
variable _cur_y
set _cur_y [expr {[_default [lindex $args 0] 1] - 1}]
set _cur_x [expr {[_default [lindex $args 1] 1] - 1}]
}
# Cursor Forward Tabulation.
proc _csi_I {args} {
set n [_default [lindex $args 0] 1]
variable _cur_x
variable _cols
incr _cur_x [expr {$n * 8 - $_cur_x % 8}]
if {$_cur_x >= $_cols} {
set _cur_x [expr {$_cols - 1}]
}
}
# Erase.
proc _csi_J {args} {
variable _cur_x
variable _cur_y
variable _rows
variable _cols
set arg [_default [lindex $args 0] 0]
if {$arg == 0} {
_clear_in_line $_cur_x $_cols $_cur_y
_clear_lines [expr {$_cur_y + 1}] $_rows
} elseif {$arg == 1} {
_clear_lines 0 [expr {$_cur_y - 1}]
_clear_in_line 0 $_cur_x $_cur_y
} elseif {$arg == 2} {
_clear_lines 0 $_rows
}
}
# Erase Line.
proc _csi_K {args} {
variable _cur_x
variable _cur_y
variable _cols
set arg [_default [lindex $args 0] 0]
if {$arg == 0} {
# From cursor to end.
_clear_in_line $_cur_x $_cols $_cur_y
} elseif {$arg == 1} {
_clear_in_line 0 $_cur_x $_cur_y
} elseif {$arg == 2} {
_clear_in_line 0 $_cols $_cur_y
}
}
# Delete lines.
proc _csi_M {args} {
variable _cur_y
variable _rows
variable _cols
variable _chars
set count [_default [lindex $args 0] 1]
set y $_cur_y
set next_y [expr {$y + 1}]
while {$count > 0 && $next_y < $_rows} {
for {set x 0} {$x < $_cols} {incr x} {
set _chars($x,$y) $_chars($x,$next_y)
}
incr y
incr next_y
incr count -1
}
_clear_lines $next_y $_rows
}
# Erase chars.
proc _csi_X {args} {
set n [_default [lindex $args 0] 1]
# Erase characters but don't move cursor.
variable _cur_x
variable _cur_y
variable _attrs
variable _chars
set lattr [array get _attrs]
set x $_cur_x
for {set i 0} {$i < $n} {incr i} {
set _chars($x,$_cur_y) [list " " $lattr]
incr x
}
}
# Backward tab stops.
proc _csi_Z {args} {
set n [_default [lindex $args 0] 1]
variable _cur_x
set _cur_x [expr {max (int (($_cur_x - 1) / 8) * 8 - ($n - 1) * 8, 0)}]
}
# Repeat.
proc _csi_b {args} {
variable _last_char
set n [_default [lindex $args 0] 1]
_insert [string repeat $_last_char $n]
}
# Line Position Absolute.
proc _csi_d {args} {
variable _cur_y
set _cur_y [expr {[_default [lindex $args 0] 1] - 1}]
}
# Select Graphic Rendition.
proc _csi_m {args} {
variable _attrs
foreach item $args {
switch -exact -- $item {
"" - 0 {
set _attrs(intensity) normal
set _attrs(fg) default
set _attrs(bg) default
set _attrs(underline) 0
set _attrs(reverse) 0
}
1 {
set _attrs(intensity) bold
}
2 {
set _attrs(intensity) dim
}
4 {
set _attrs(underline) 1
}
7 {
set _attrs(reverse) 1
}
22 {
set _attrs(intensity) normal
}
24 {
set _attrs(underline) 0
}
27 {
set _attrs(reverse) 1
}
30 - 31 - 32 - 33 - 34 - 35 - 36 - 37 {
set _attrs(fg) $item
}
39 {
set _attrs(fg) default
}
40 - 41 - 42 - 43 - 44 - 45 - 46 - 47 {
set _attrs(bg) $item
}
49 {
set _attrs(bg) default
}
}
}
}
# Insert string at the cursor location.
proc _insert {str} {
verbose "INSERT <<$str>>"
variable _cur_x
variable _cur_y
variable _rows
variable _cols
variable _attrs
variable _chars
set lattr [array get _attrs]
foreach char [split $str {}] {
set _chars($_cur_x,$_cur_y) [list $char $lattr]
incr _cur_x
if {$_cur_x >= $_cols} {
set _cur_x 0
incr _cur_y
if {$_cur_y >= $_rows} {
error "FIXME scroll"
}
}
}
}
# Initialize.
proc _setup {rows cols} {
global stty_init
set stty_init "rows $rows columns $cols"
variable _rows
variable _cols
variable _cur_x
variable _cur_y
variable _attrs
variable _resize_count
set _rows $rows
set _cols $cols
set _cur_x 0
set _cur_y 0
set _resize_count 0
array set _attrs {
intensity normal
fg default
bg default
underline 0
reverse 0
}
_clear_lines 0 $_rows
}
# Accept some output from gdb and update the screen. WAIT_FOR is
# a regexp matching the line to wait for. Return 0 on timeout, 1
# on success.
proc wait_for {wait_for} {
global expect_out
global gdb_prompt
variable _cur_x
variable _cur_y
set prompt_wait_for "$gdb_prompt \$"
while 1 {
gdb_expect {
-re "^\[\x07\x08\x0a\x0d\]" {
scan $expect_out(0,string) %c val
set hexval [format "%02x" $val]
verbose "+++ _ctl_0x${hexval}"
_ctl_0x${hexval}
}
-re "^\x1b(\[0-9a-zA-Z\])" {
verbose "+++ unsupported escape"
error "unsupported escape"
}
-re "^\x1b\\\[(\[0-9;\]*)(\[a-zA-Z@\])" {
set cmd $expect_out(2,string)
set params [split $expect_out(1,string) ";"]
verbose "+++ _csi_$cmd <<<$expect_out(1,string)>>>"
eval _csi_$cmd $params
}
-re "^\[^\x07\x08\x0a\x0d\x1b\]+" {
_insert $expect_out(0,string)
variable _last_char
set _last_char [string index $expect_out(0,string) end]
}
timeout {
# Assume a timeout means we somehow missed the
# expected result, and carry on.
return 0
}
}
# If the cursor appears just after the prompt, return. It
# isn't reliable to check this only after an insertion,
# because curses may make "unusual" redrawing decisions.
if {$wait_for == "$prompt_wait_for"} {
set prev [get_line $_cur_y $_cur_x]
} else {
set prev [get_line $_cur_y]
}
if {[regexp -- $wait_for $prev]} {
if {$wait_for == "$prompt_wait_for"} {
break
}
set wait_for $prompt_wait_for
}
}
return 1
}
# Like ::clean_restart, but ensures that gdb starts in an
# environment where the TUI can work. ROWS and COLS are the size
# of the terminal. EXECUTABLE, if given, is passed to
# clean_restart.
proc clean_restart {rows cols {executable {}}} {
global env stty_init
save_vars {env(TERM) stty_init} {
setenv TERM ansi
_setup $rows $cols
if {$executable == ""} {
::clean_restart
} else {
::clean_restart $executable
}
}
}
# Setup ready for starting the tui, but don't actually start it.
# Returns 1 on success, 0 if TUI tests should be skipped.
proc prepare_for_tui {} {
if {[skip_tui_tests]} {
return 0
}
gdb_test_no_output "set tui border-kind ascii"
gdb_test_no_output "maint set tui-resize-message on"
return 1
}
# Start the TUI. Returns 1 on success, 0 if TUI tests should be
# skipped.
proc enter_tui {} {
if {![prepare_for_tui]} {
return 0
}
command_no_prompt_prefix "tui enable"
return 1
}
# Send the command CMD to gdb, then wait for a gdb prompt to be
# seen in the TUI. CMD should not end with a newline -- that will
# be supplied by this function.
proc command {cmd} {
global gdb_prompt
send_gdb "$cmd\n"
set str [string_to_regexp $cmd]
set str "^$gdb_prompt $str"
wait_for $str
}
# As proc command, but don't wait for a initial prompt. This is used for
# inital terminal commands, where there's no prompt yet.
proc command_no_prompt_prefix {cmd} {
send_gdb "$cmd\n"
set str [string_to_regexp $cmd]
wait_for "^$str"
}
# Return the text of screen line N, without attributes. Lines are
# 0-based. If C is given, stop before column C. Columns are also
# zero-based.
proc get_line {n {c ""}} {
variable _rows
# This can happen during resizing, if the cursor seems to
# temporarily be off-screen.
if {$n >= $_rows} {
return ""
}
set result ""
variable _cols
variable _chars
set c [_default $c $_cols]
set x 0
while {$x < $c} {
append result [lindex $_chars($x,$n) 0]
incr x
}
return $result
}
# Get just the character at (X, Y).
proc get_char {x y} {
variable _chars
return [lindex $_chars($x,$y) 0]
}
# Get the entire screen as a string.
proc get_all_lines {} {
variable _rows
variable _cols
variable _chars
set result ""
for {set y 0} {$y < $_rows} {incr y} {
for {set x 0} {$x < $_cols} {incr x} {
append result [lindex $_chars($x,$y) 0]
}
append result "\n"
}
return $result
}
# Get the text just before the cursor.
proc get_current_line {} {
variable _cur_x
variable _cur_y
return [get_line $_cur_y $_cur_x]
}
# Helper function for check_box. Returns empty string if the box
# is found, description of why not otherwise.
proc _check_box {x y width height} {
set x2 [expr {$x + $width - 1}]
set y2 [expr {$y + $height - 1}]
if {[get_char $x $y] != "+"} {
return "ul corner"
}
if {[get_char $x $y2] != "+"} {
return "ll corner"
}
if {[get_char $x2 $y] != "+"} {
return "ur corner"
}
if {[get_char $x2 $y2] != "+"} {
return "lr corner"
}
# Note we do not check the full horizonal borders of the box.
# The top will contain a title, and the bottom may as well, if
# it is overlapped by some other border. However, at most a
# title should appear as '+-VERY LONG TITLE-+', so we can
# check for the '+-' on the left, and '-+' on the right.
if {[get_char [expr {$x + 1}] $y] != "-"} {
return "ul title padding"
}
if {[get_char [expr {$x2 - 1}] $y] != "-"} {
return "ul title padding"
}
# Now check the vertical borders.
for {set i [expr {$y + 1}]} {$i < $y2 - 1} {incr i} {
if {[get_char $x $i] != "|"} {
return "left side $i"
}
if {[get_char $x2 $i] != "|"} {
return "right side $i"
}
}
return ""
}
# Check for a box at the given coordinates.
proc check_box {test_name x y width height} {
set why [_check_box $x $y $width $height]
if {$why == ""} {
pass $test_name
} else {
dump_screen
fail "$test_name ($why)"
}
}
# Check whether the text contents of the terminal match the
# regular expression. Note that text styling is not considered.
proc check_contents {test_name regexp} {
set contents [get_all_lines]
if {![gdb_assert {[regexp -- $regexp $contents]} $test_name]} {
dump_screen
}
}
# Check the contents of a box on the screen. This is a little
# like check_contents, but doens't check the whole screen
# contents, only the contents of a single box. This procedure
# includes (effectively) a call to check_box to ensure there is a
# box where expected, if there is then the contents of the box are
# matched against REGEXP.
proc check_box_contents {test_name x y width height regexp} {
variable _chars
set why [_check_box $x $y $width $height]
if {$why != ""} {
dump_screen
fail "$test_name (box check: $why)"
return
}
# Now grab the contents of the box, join each line together
# with a newline character and match against REGEXP.
set result ""
for {set yy [expr {$y + 1}]} {$yy < [expr {$y + $height - 1}]} {incr yy} {
for {set xx [expr {$x + 1}]} {$xx < [expr {$x + $width - 1}]} {incr xx} {
append result [lindex $_chars($xx,$yy) 0]
}
append result "\n"
}
if {![gdb_assert {[regexp -- $regexp $result]} $test_name]} {
dump_screen
}
}
# A debugging function to dump the current screen, with line
# numbers.
proc dump_screen {} {
variable _rows
variable _cols
verbose -log "Screen Dump ($_cols x $_rows):"
for {set y 0} {$y < $_rows} {incr y} {
set fmt [format %5d $y]
verbose -log "$fmt [get_line $y]"
}
}
# Resize the terminal.
proc _do_resize {rows cols} {
variable _chars
variable _rows
variable _cols
set old_rows [expr {min ($_rows, $rows)}]
set old_cols [expr {min ($_cols, $cols)}]
# Copy locally.
array set local_chars [array get _chars]
unset _chars
set _rows $rows
set _cols $cols
_clear_lines 0 $_rows
for {set x 0} {$x < $old_cols} {incr x} {
for {set y 0} {$y < $old_rows} {incr y} {
set _chars($x,$y) $local_chars($x,$y)
}
}
}
proc resize {rows cols} {
variable _rows
variable _cols
variable _resize_count
global gdb_spawn_name
# expect handles each argument to stty separately. This means
# that gdb will see SIGWINCH twice. Rather than rely on this
# behavior (which, after all, could be changed), we make it
# explicit here. This also simplifies waiting for the redraw.
_do_resize $rows $_cols
stty rows $_rows < $gdb_spawn_name
# Due to the strange column resizing behavior, and because we
# don't care about this intermediate resize, we don't check
# the size here.
wait_for "@@ resize done $_resize_count"
incr _resize_count
# Somehow the number of columns transmitted to gdb is one less
# than what we request from expect. We hide this weird
# details from the caller.
_do_resize $_rows $cols
stty columns [expr {$_cols + 1}] < $gdb_spawn_name
wait_for "@@ resize done $_resize_count, size = ${_cols}x${rows}"
incr _resize_count
}
}
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