# Copyright 1992-2024 Free Software Foundation, Inc. # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # This file was written by Fred Fish. (fnf@cygnus.com) # The allow_hw_watchpoint_tests checks if watchpoints are supported by the # processor. On PowerPC, the check runs a small test program under gdb # to determine if the Power processor supports HW watchpoints. The check # must be done before starting the test so as to not disrupt the execution # of the actual test. set allow_hw_watchpoint_tests_p [allow_hw_watchpoint_tests] standard_testfile if { [gdb_compile "${srcdir}/${subdir}/${srcfile}" "${binfile}" executable {debug}] != "" } { untested "failed to compile" return -1 } # True if we're forcing no hardware watchpoints. set no_hw 0 # Prepare for watchpoint tests by setting up two breakpoints and one # watchpoint. # # We use breakpoints at marker functions to get past all the startup code, # so we can get to the watchpoints in a reasonable amount of time from a # known starting point. # # For simplicity, so we always know how to reference specific breakpoints or # watchpoints by number, we expect a particular ordering and numbering of # each in the combined breakpoint/watchpoint table, as follows: # # Number What Where # 1 Breakpoint marker1() # 2 Breakpoint marker2() # 3 Watchpoint ival3 proc initialize {} { global gdb_prompt global hex global decimal global srcfile if [gdb_test "break marker1" "Breakpoint 1 at $hex: file .*$srcfile, line $decimal.*" "set breakpoint at marker1" ] { return 0 } if [gdb_test "break marker2" "Breakpoint 2 at $hex: file .*$srcfile, line $decimal.*" "set breakpoint at marker2" ] { return 0 } if [gdb_test "info break" "1\[ \]*breakpoint.*marker1.*\r\n2\[ \]*breakpoint.*marker2.*" "info break" ] { return 0 } gdb_test "watch ival3" ".*\[Ww\]atchpoint 3: ival3.*" "set watchpoint on ival3" if [gdb_test "info watch" "3\[ \]*.*watchpoint.*ival3" "watchpoint found in watchpoint/breakpoint table" ] { return 0 } # After installing the watchpoint, we disable it until we are ready # to use it. This allows the test program to run at full speed until # we get to the first marker function. if [gdb_test_no_output "disable 3" "disable watchpoint" ] { return 0 } return 1 } # # Test simple watchpoint. # proc test_simple_watchpoint {} { global gdb_prompt global hex global decimal # Ensure that the watchpoint is disabled when we startup. if [gdb_test_no_output "disable 3" \ "disable watchpoint in test_simple_watchpoint" ] { return 0 } # Run until we get to the first marker function. gdb_run_cmd set timeout 600 set test "run to marker1 in test_simple_watchpoint" set retcode [gdb_test_multiple "" $test { -re "Breakpoint 1, marker1 .*$gdb_prompt $" { pass $test } }] if { $retcode != 0 } { return } # After reaching the marker function, enable the watchpoint. if [gdb_test_no_output "enable 3" "enable watchpoint" ] { return } gdb_test "break func1" "Breakpoint.*at.*" gdb_test_no_output "set \$func1_breakpoint_number = \$bpnum" gdb_test "continue" "Continuing.*Breakpoint \[0-9\]*, func1.*" \ "continue to breakpoint at func1" # Continue until the first change, from -1 to 0 set test "watchpoint hit, first time" gdb_test_multiple "cont" $test { -re "Continuing.*\[Ww\]atchpoint.*ival3.*Old value = -1.*New value = 0.*ival3 = count; ival4 = count;.*$gdb_prompt $" { pass $test } -re "Continuing.*Breakpoint.*func1.*$gdb_prompt $" { setup_xfail "m68*-*-*" 2597 fail "thought it hit breakpoint at func1 twice" gdb_test_no_output "delete \$func1_breakpoint_number" gdb_test "continue" "\ Continuing.*\[Ww\]atchpoint.*ival3.*Old value = -1.*New value = 0.*ival3 = count;" \ $test } } # Check that the hit count is reported correctly gdb_test "info break" ".*watchpoint\[ \t\]+keep\[ \t\]+y\[ \t\]+ival3\r\n\[ \t]+breakpoint already hit 1 time.*" "watchpoint hit count is 1" gdb_test_no_output "delete \$func1_breakpoint_number" # Continue until the next change, from 0 to 1. gdb_test "cont" "Continuing.*\[Ww\]atchpoint.*ival3.*Old value = 0.*New value = 1.*ival3 = count; ival4 = count;.*" "watchpoint hit, second time" # Check that the hit count is reported correctly gdb_test "info break" ".*watchpoint\[ \t\]+keep\[ \t\]+y\[ \t\]+ival3\r\n\[ \t]+breakpoint already hit 2 times.*" "watchpoint hit count is 2" # Continue until the next change, from 1 to 2. gdb_test "cont" "Continuing.*\[Ww\]atchpoint.*ival3.*Old value = 1.*New value = 2.*ival3 = count; ival4 = count;.*" "watchpoint hit, third time" # Check that the hit count is reported correctly gdb_test "info break" ".*watchpoint\[ \t\]+keep\[ \t\]+y\[ \t\]+ival3\r\n\[ \t]+breakpoint already hit 3 times.*" "watchpoint hit count is 3" # Continue until the next change, from 2 to 3. gdb_test "cont" "Continuing.*\[Ww\]atchpoint.*ival3.*Old value = 2.*New value = 3.*ival3 = count; ival4 = count;.*" "watchpoint hit, fourth time" # Check that the hit count is reported correctly gdb_test "info break" ".*watchpoint\[ \t\]+keep\[ \t\]+y\[ \t\]+ival3\r\n\[ \t]+breakpoint already hit 4 times.*" "watchpoint hit count is 4" # Continue until the next change, from 3 to 4. # Note that this one is outside the loop. gdb_test "cont" "Continuing.*\[Ww\]atchpoint.*ival3.*Old value = 3.*New value = 4.*ival3 = count; ival4 = count;.*" "watchpoint hit, fifth time" # Check that the hit count is reported correctly gdb_test "info break" ".*watchpoint\[ \t\]+keep\[ \t\]+y\[ \t\]+ival3\r\n\[ \t]+breakpoint already hit 5 times.*" "watchpoint hit count is 5" # Continue until we hit the finishing marker function. # Make sure we hit no more watchpoints. gdb_test "cont" "Continuing.*Breakpoint.*marker2 \(\).*" \ "continue to marker2" # Disable the watchpoint so we run at full speed until we exit. if [gdb_test_no_output "disable 3" "watchpoint disabled" ] { return } # Run until process exits. if [target_info exists gdb,noresults] { return } gdb_continue_to_end "continue to exit in test_simple_watchpoint" } # Test disabling watchpoints. proc test_disabling_watchpoints {} { global gdb_prompt global binfile global srcfile global decimal global hex gdb_test "info watch" "\[0-9]+\[ \]*.*watchpoint.*ival3.*" "watchpoints found in watchpoint/breakpoint table" # Ensure that the watchpoint is disabled when we startup. if [gdb_test_no_output "disable 3" \ "disable watchpoint in test_disabling_watchpoints" ] { return 0 } # Run until we get to the first marker function. gdb_run_cmd set timeout 600 set test "run to marker1 in test_disabling_watchpoints" set retcode [gdb_test_multiple "" $test { -re "Breakpoint 1, marker1 .*$gdb_prompt $" { pass $test } }] if { $retcode != 0 } { return } # After reaching the marker function, enable the watchpoint. if [gdb_test_no_output "enable 3" "watchpoint enabled" ] { return } # Continue until the first change, from -1 to 0 # Don't check the old value, because on VxWorks the variable value # will not have been reinitialized. gdb_test "cont" "Continuing.*\[Ww\]atchpoint.*ival3.*Old value = .*New value = 0.*ival3 = count; ival4 = count;.*" "watchpoint hit in test_disabling_watchpoints, first time" # Continue until the next change, from 0 to 1. gdb_test "cont" "Continuing.*\[Ww\]atchpoint.*ival3.*Old value = 0.*New value = 1.*ival3 = count; ival4 = count;.*" "watchpoint hit in test_disabling_watchpoints, second time" # Disable the watchpoint but leave breakpoints if [gdb_test_no_output "disable 3" \ "disable watchpoint #2 in test_disabling_watchpoints" ] { return 0 } # Check watchpoint list, looking for the entry that confirms the # watchpoint is disabled. gdb_test "info watchpoints" "\[0-9]+\[ \]*.*watchpoint\[ \]*keep\[ \]*n\[ \]*ival3\r\n.*" "watchpoint disabled in table" # Continue until we hit the finishing marker function. # Make sure we hit no more watchpoints. gdb_test "cont" "Continuing.*Breakpoint.*marker2 \\(\\).*" \ "disabled watchpoint skipped" if [target_info exists gdb,noresults] { return } gdb_continue_to_end "continue to exit in test_disabling_watchpoints" } # Test stepping and other mundane operations with watchpoints enabled proc test_stepping {} { global gdb_prompt if {[runto marker1]} { gdb_test "watch ival2" \ "^(?:Hardware w|W)atchpoint $::decimal: ival2" # Well, let's not be too mundane. It should be a *bit* of a challenge gdb_test "break func2 if 0" "Breakpoint.*at.*" gdb_test "p \$func2_breakpoint_number = \$bpnum" " = .*" gdb_test "p func1 ()" "= 73" \ "calling function with watchpoint enabled" # # "finish" brings us back to main. # On some targets (e.g. alpha) gdb will stop from the finish in midline # of the marker1 call. This is due to register restoring code on # the alpha and might be caused by stack adjustment instructions # on other targets. In this case we will step once more. # send_gdb "finish\n" gdb_expect { -re "Run.*exit from.*marker1.* at" { pass "finish from marker1" } default { fail "finish from marker1 (timeout)" ; return } } gdb_expect { -re "marker1 \\(\\);.*$gdb_prompt $" { send_gdb "step\n" exp_continue } -re "func1 \\(\\);.*$gdb_prompt $" { pass "back at main from marker1" } -re ".*$gdb_prompt $" { fail "back at main from marker1" } default { fail "back at main from marker1 (timeout)" ; return } } gdb_test "next" "for \\(count = 0.*" "next to `for'" # Now test that "until" works. It's a bit tricky to test # "until", because compilers don't always arrange the code # exactly the same way, and we might get slightly different # sequences of statements. But the following should be true # (if not it is a compiler or a debugger bug): The user who # does "until" at every statement of a loop should end up # stepping through the loop once, and the debugger should not # stop for any of the remaining iterations. gdb_test "until" "ival1 = count.*" "until to ival1 assignment" gdb_test "until" "ival3 = count.*" "until to ival3 assignment" set test "until out of loop" gdb_test_multiple "until" $test { -re "(for \\(count = 0|\}).*$gdb_prompt $" { gdb_test "until" "ival1 = count; /. Outside loop ./" $test } -re "ival1 = count; /. Outside loop ./.*$gdb_prompt $" { pass $test } } gdb_test "step" "ival2 = count.*" "step to ival2 assignment" # Check that the watchpoint is triggered during a step. gdb_test "step" \ "\[Ww\]atchpoint.*: ival2.*Old value = -1.*New value = 4.*ival3 = count; ival4 = count;" \ "step over ival2 assignment" # Step again and check that correct statement is reached after # hitting a watchpoint during a step. gdb_test "step" "marker2 \\(\\);.*" "step to marker2" } } # Test stepping and other mundane operations with watchpoints enabled proc test_watchpoint_triggered_in_syscall {} { global gdb_prompt # These tests won't work without printf support. if [gdb_skip_stdio_test "watchpoints triggered in syscall"] { return } # Run until we get to the first marker function. set x 0 set y 0 set testname "watch buffer passed to read syscall" if {[runto marker2]} { gdb_test "watch buf\[0\]" ".*\[Ww\]atchpoint \[0-9\]*: buf\\\[0\\\]" gdb_test "watch buf\[1\]" ".*\[Ww\]atchpoint \[0-9\]*: buf\\\[1\\\]" gdb_test "watch buf\[2\]" ".*\[Ww\]atchpoint \[0-9\]*: buf\\\[2\\\]" gdb_test "watch buf\[3\]" ".*\[Ww\]atchpoint \[0-9\]*: buf\\\[3\\\]" gdb_test "watch buf\[4\]" ".*\[Ww\]atchpoint \[0-9\]*: buf\\\[4\\\]" gdb_test "break marker4" ".*Breakpoint.*" gdb_test_no_output "set doread = 1" # If we send gdb "123\n" before gdb has switched the tty, then it goes # to gdb, not the inferior, and we lose. So that is why we have # watchpoint.c prompt us, so we can wait for that prompt. send_gdb "continue\n" gdb_expect { -re "Continuing\\.\r\ntype stuff for buf now:" { pass "continue to read" } default { fail "continue to read" return } } set test "sent 123" gdb_test_multiple "123" $test { -re ".*\[Ww\]atchpoint.*buf\\\[0\\\].*Old value = 0.*New value = 49\[^\n\]*\n" { set x [expr $x+1] ; exp_continue } -re ".*\[Ww\]atchpoint.*buf\\\[1\\\].*Old value = 0.*New value = 50\[^\n\]*\n" { set x [expr $x+1] ; exp_continue } -re ".*\[Ww\]atchpoint.*buf\\\[2\\\].*Old value = 0.*New value = 51\[^\n\]*\n" { set x [expr $x+1] ; exp_continue } -re ".*\[Ww\]atchpoint.*buf\\\[3\\\].*Old value = 0.*New value = 10\[^\n\]*\n" { set x [expr $x+1] ; exp_continue } -re ".*$gdb_prompt $" { pass $test } } # Examine the values in buf to see how many watchpoints we # should have printed. set test "print buf\[0\]" gdb_test_multiple $test $test { -re ".*= 49.*$gdb_prompt $" { set y [expr $y+1]; pass $test } -re ".*= 0.*$gdb_prompt $" { $test } } set test "print buf\[1\]" gdb_test_multiple $test $test { -re ".*= 50.*$gdb_prompt $" { set y [expr $y+1]; pass $test } -re ".*= 0.*$gdb_prompt $" { pass $test } } set test "print buf\[2\]" gdb_test_multiple $test $test { -re ".*= 51.*$gdb_prompt $" { set y [expr $y+1]; pass $test } -re ".*= 0.*$gdb_prompt $" { pass $test } } set test "print buf\[3\]" gdb_test_multiple $test $test { -re ".*= 10.*$gdb_prompt $" { set y [expr $y+1]; pass $test } -re ".*= 0.*$gdb_prompt $" { pass $test } } # Did we find what we were looking for? If not, flunk it. if {[expr $x==$y]} { pass $testname } else { fail "$testname (only triggered $x watchpoints, expected $y)"} # Continue until we hit the finishing marker function. # Make sure we hit no more watchpoints. gdb_test "cont" "Continuing.*Breakpoint.*marker4 \\(\\).*" \ "continue to marker4" # Disable everything so we can finish the program at full speed gdb_test_no_output "disable" "disable in test_watchpoint_triggered_in_syscall" if [target_info exists gdb,noresults] { return } gdb_continue_to_end "continue to exit in test_watchpoint_triggered_in_syscall" } } # Do a simple test of of watching through a pointer when the pointer # itself changes. Should add some more complicated stuff here. proc test_complex_watchpoint {} { global gdb_prompt if {[runto marker4]} { gdb_test "watch ptr1->val" \ "^(?:Hardware w|W)atchpoint $::decimal: ptr1->val" gdb_test "break marker5" ".*Breakpoint.*" gdb_test "cont" "Continuing.*\[Ww\]atchpoint.*ptr1->val.*Old value = 1.*New value = 2.*" "test complex watchpoint" # Continue until we hit the marker5 function. # Make sure we hit no more watchpoints. gdb_test "cont" "Continuing.*Breakpoint.*marker5 \\(\\).*" \ "did not trigger wrong watchpoint" # Test watches of things declared locally in a function. # In particular, test that a watch of stack-based things # is deleted when the stack-based things go out of scope. # gdb_test_no_output "disable" "disable in test_complex_watchpoint, first time" gdb_test "break marker6" ".*Breakpoint.*" gdb_test "cont" "Continuing.*Breakpoint.*marker6 \\(\\).*" \ "continue to marker6" gdb_breakpoint [gdb_get_line_number "func2 breakpoint here"] gdb_continue_to_breakpoint "func2 breakpoint here, first time" # Test a watch of a single stack-based variable, whose scope # is the function we're now in. This should auto-delete when # execution exits the scope of the watchpoint. # gdb_test "watch local_a" \ "^(?:Hardware w|W)atchpoint $::decimal: local_a" \ "set local watch" gdb_test "cont" "\[Ww\]atchpoint.*local_a.*" "trigger local watch" set test "self-delete local watch" gdb_test_multiple "cont" $test { -re "Continuing.*\[Ww\]atchpoint .* deleted because the program has left the block in.*which its expression is valid.*\r\n$gdb_prompt $" { pass $test } -re "can't compute CFA for this frame.*\r\n$gdb_prompt $" { global no_hw # GCC < 4.5.0 does not get LOCATIONS_VALID set by dwarf2read.c. # Therefore epilogue unwinder gets applied which is # incompatible with dwarf2_frame_cfa. if {$no_hw && ([test_compiler_info {gcc-[0-3]-*}] || [test_compiler_info {gcc-4-[0-4]-*}])} { xfail "$test (old GCC has broken watchpoints in epilogues)" return } fail $test } } gdb_continue_to_breakpoint "func2 breakpoint here, second time" # We should be in "func2" again now. Test a watch of an # expression which includes both a stack-based local and # something whose scope is larger than this invocation # of "func2". This should also auto-delete. # gdb_test "watch local_a + ival5" \ "^(?:Hardware w|W)atchpoint $::decimal: local_a . ival5" \ "set partially local watch" gdb_test "cont" "Continuing.*\[Ww\]atchpoint .*: local_a . ival5.*" \ "trigger1 partially local watch" gdb_test "cont" "Continuing.*\[Ww\]atchpoint .*: local_a . ival5.*" \ "trigger2 partially local watch" gdb_test "cont" "Continuing.*\[Ww\]atchpoint .* deleted because the program has left the block in.*which its expression is valid.*" \ "self-delete partially local watch" # We should be in "func2" again now. Test a watch of a # static (non-stack-based) local. Since this has scope # across any invocations of "func2", it should not auto- # delete. # gdb_continue_to_breakpoint "func2 breakpoint here, third time" gdb_test "watch static_b" \ "^(?:Hardware w|W)atchpoint $::decimal: static_b" \ "set static local watch" gdb_test "cont" "Continuing.*\[Ww\]atchpoint .*: static_b.*" \ "trigger static local watch" gdb_test "cont" "Continuing.*marker6 \\(\\).*" \ "continue after trigger static local watch" gdb_test "info break" ".*watchpoint.*static_b.*" \ "static local watch did not self-delete" # We should be in "recurser" now. Test a watch of a stack- # based local. Symbols mentioned in a watchpoint are bound # at watchpoint-creation. Thus, a watch of a stack-based # local to a recursing function should be bound only to that # one invocation, and should not trigger for other invocations. # with_test_prefix "local_x" { gdb_test "tbreak recurser" ".*breakpoint.*" gdb_test "cont" "Continuing.*recurser.*" gdb_test "next" "if \\(x > 0.*" "next past local_x initialization" gdb_test "watch local_x" \ "^(?:Hardware w|W)atchpoint $::decimal: local_x" \ "set local watch in recursive call" gdb_test "cont" "Continuing.*\[Ww\]atchpoint .*: local_x.*New value = 2.*" \ "trigger local watch in recursive call" gdb_test "cont" "Continuing.*\[Ww\]atchpoint .* deleted because the program has left the block in.*which its expression is valid.*" \ "self-delete local watch in recursive call" } # Repeat the preceding test, but this time use "recurser::local_x" as # the variable to track. with_test_prefix "recurser::local_x" { gdb_test "cont" "Continuing.*marker6.*" "continue to marker6" gdb_test "tbreak recurser" ".*breakpoint.*" gdb_test "cont" "Continuing.*recurser.*" "continue to recurser" gdb_test "next" "if \\(x > 0.*" "next past local_x initialization" gdb_test "watch recurser::local_x" \ "^(?:Hardware w|W)atchpoint $::decimal: recurser::local_x" \ "set local watch in recursive call with explicit scope" gdb_test "cont" "Continuing.*\[Ww\]atchpoint .*: recurser::local_x.*New value = 2.*" \ "trigger local watch with explicit scope in recursive call" gdb_test "cont" "Continuing.*\[Ww\]atchpoint .* deleted because the program has left the block in.*which its expression is valid.*" \ "self-delete local watch with explicit scope in recursive call (2)" } # Disable everything so we can finish the program at full speed gdb_test_no_output "disable" "disable in test_complex_watchpoint, second time" if [target_info exists gdb,noresults] { return } gdb_continue_to_end "continue to exit in test_complex_watchpoint" } } proc test_watchpoint_and_breakpoint {} { global gdb_prompt # This is a test for PR breakpoints/7143, which involves setting a # watchpoint right after you've reached a breakpoint. if {[runto func3]} { gdb_breakpoint [gdb_get_line_number "second x assignment"] gdb_continue_to_breakpoint "second x assignment" gdb_test "watch x" \ "^(?:Hardware w|W)atchpoint $::decimal: x" gdb_test "next" \ ".*atchpoint \[0-9\]+: x\r\n\r\nOld value = 0\r\nNew value = 1\r\n.*" \ "next after watch x" gdb_test_no_output "delete \$bpnum" "delete watch x" } } proc test_constant_watchpoint {} { gdb_test "watch 5" "Cannot watch constant value `5'." "number is constant" gdb_test "watch (int *)5" "Cannot watch constant value `\\(int \\*\\)5'." \ "number with cast is constant" gdb_test "watch marker1" "Cannot watch constant value `marker1'." \ "marker1 is constant" gdb_test "watch count + 6" ".*atchpoint \[0-9\]+: count \\+ 6" gdb_test_no_output "delete \$bpnum" "delete watchpoint `count + 6'" gdb_test "watch 7 + count" \ "^(?:Hardware w|W)atchpoint $::decimal: 7 \\+ count" gdb_test_no_output "delete \$bpnum" "delete watchpoint `7 + count'" } proc test_disable_enable_software_watchpoint {} { # This is regression test for a bug that caused `enable' to fail # for software watchpoints. # Watch something not memory to force a software watchpoint. gdb_test {watch $pc} "^(?:Hardware w|W)atchpoint $::decimal: .pc" gdb_test_no_output "disable \$bpnum" "disable watchpoint `\$pc'" gdb_test_no_output "enable \$bpnum" "reenable watchpoint `\$pc'" gdb_test "info watchpoint \$bpnum" \ ".*watchpoint\[ \t\]+keep\[ \t\]+y\[ \t\]+.pc.*" \ "watchpoint `\$pc' is enabled" gdb_test_no_output "delete \$bpnum" "delete watchpoint `\$pc'" } proc test_watch_location {} { global gdb_prompt gdb_breakpoint [gdb_get_line_number "func5 breakpoint here"] gdb_continue_to_breakpoint "func5 breakpoint here" # Check first if a null pointer can be dereferenced on the target. gdb_test_multiple "p *null_ptr" "" { -re "Cannot access memory at address 0x0.*$gdb_prompt $" { gdb_test "watch -location null_ptr->p->x" \ "Cannot access memory at address 0x0" } -re ".*$gdb_prompt $" { # Null pointer dereference is legitimate. } } gdb_test "watch -location *x" "atchpoint .*: .*" "watch -location .x" gdb_test "continue" \ "Continuing.*\[Ww\]atchpoint .*: .*New value = 27.*" \ "continue with watch -location" gdb_test_no_output "delete \$bpnum" "delete watch -location" } # Tests watching areas larger than a word. proc test_wide_location_1 {} { global no_hw global gdb_prompt global allow_hw_watchpoint_tests_p # This test watches two words on most 32-bit ABIs, and one word on # most 64-bit ABIs. # Platforms where the target can't watch such a large region # should clear hw_expected below. if { $no_hw || !$allow_hw_watchpoint_tests_p || [istarget arm*-*-*] || ([istarget powerpc*-*-*] && ![is_lp64_target])} { set hw_expected 0 } else { set hw_expected 1 } gdb_breakpoint [gdb_get_line_number "func6 breakpoint here"] gdb_continue_to_breakpoint "func6 breakpoint here" if { $hw_expected } { gdb_test "watch foo2" "Hardware watchpoint .*: .*" gdb_test "continue" \ "Continuing.*Hardware watchpoint .*: .*New value = \\\{val = \\\{0, 11\\\}\\\}.*" \ "continue with watch foo2" } else { gdb_test "watch foo2" "atchpoint .*: .*" set test "continue with watch foo2" gdb_test_multiple "cont" $test { -re "Continuing.*\[Ww\]atchpoint .*: .*New value = \\\{val = \\\{0, 11\\\}\\\}.*$gdb_prompt $" { pass $test } -re "Could not insert hardware breakpoints:.*You may have requested too many hardware breakpoints/watchpoints.*$gdb_prompt $" { # This may happen with remote targets that support # hardware watchpoints. We only find out the # watchpoint was too large, for example, at insert # time. If GDB is ever adjusted to downgrade the # watchpoint automatically in this case, this match # should be removed. pass $test } } } gdb_test_no_output "delete \$bpnum" "delete watch foo2" } proc test_wide_location_2 {} { global no_hw global gdb_prompt global allow_hw_watchpoint_tests_p # This test watches four words on most 32-bit ABIs, and two words # on 64-bit ABIs. # Platforms where the target can't watch such a large region # should clear hw_expected below. if { $no_hw || !$allow_hw_watchpoint_tests_p || [istarget arm*-*-*] || [istarget powerpc*-*-*]} { set hw_expected 0 } else { set hw_expected 1 } gdb_breakpoint [gdb_get_line_number "func7 breakpoint here"] gdb_continue_to_breakpoint "func7 breakpoint here" if { $hw_expected } { gdb_test "watch foo4" "Hardware watchpoint .*: .*" gdb_test "continue" \ "Continuing.*Hardware watchpoint .*: .*New value = \\\{val = \\\{0, 0, 0, 33\\\}\\\}.*" \ "continue with watch foo4" } else { gdb_test "watch foo4" "atchpoint .*: .*" set test "continue with watch foo4" gdb_test_multiple "cont" $test { -re "Continuing.*\[Ww\]atchpoint .*: .*New value = \\\{val = \\\{0, 0, 0, 33\\\}\\\}.*$gdb_prompt $" { pass $test } -re "Could not insert hardware breakpoints:.*You may have requested too many hardware breakpoints/watchpoints.*$gdb_prompt $" { # This may happen with remote targets that support # hardware watchpoints. We only find out the # watchpoint was too large, for example, at insert # time. If GDB is ever adjusted to downgrade the # watchpoint automatically in this case, this match # should be removed. pass $test } } } gdb_test_no_output "delete \$bpnum" "delete watch foo4" } proc test_inaccessible_watchpoint {} { global gdb_prompt # This is a test for watchpoints on currently inaccessible (but later # valid) memory. if {[runto func4]} { # Make sure we only allow memory access errors. set msg "watchpoint refused to insert on nonexistent struct member" gdb_test_multiple "watch struct1.nosuchmember" $msg { -re ".*atchpoint \[0-9\]+: struct1.nosuchmember.*$gdb_prompt $" { # PR breakpoints/9681 fail $msg } -re "There is no member named nosuchmember\\..*$gdb_prompt $" { pass $msg } } # See whether a watchpoint on a normal variable is a hardware # watchpoint or not. The watchpoints on NULL should be hardware # iff this one is. set watchpoint_msg "Watchpoint" gdb_test_multiple "watch global_ptr" "watch global_ptr" { -re "Watchpoint \[0-9\]+: global_ptr\r\n.*$gdb_prompt $" { pass "watch global_ptr" } -re "Hardware watchpoint \[0-9\]+: global_ptr\r\n.*$gdb_prompt $" { set watchpoint_msg "Hardware watchpoint" pass "watch global_ptr" } } delete_breakpoints # Make sure that we can watch a constant address, and correctly # use a HW watchpoint if supported. gdb_test "watch *(int *) 0" \ "$watchpoint_msg \[0-9\]+: \\*\\(int \\*\\) 0" delete_breakpoints # The same, but using -location through an indirection. gdb_test "watch -location *global_ptr" \ "$watchpoint_msg \[0-9\]+: \-location \\*global_ptr" delete_breakpoints # This step requires two HW watchpoints. Since some platforms only # have a single one, accept either SW or HW watchpoint in this case. if {![allow_hw_watchpoint_multi_tests]} { set watchpoint_msg "(Watchpoint|Hardware watchpoint)" } gdb_test "watch *global_ptr" "$watchpoint_msg \[0-9\]+: \\\*global_ptr" gdb_test "set \$global_ptr_breakpoint_number = \$bpnum" "" gdb_test "next" ".*global_ptr = buf.*" "global_ptr next" gdb_test_multiple "next" "next over ptr init" { -re ".*atchpoint \[0-9\]+: \\*global_ptr\r\n\r\nOld value = .*\r\nNew value = 3 .*\r\n.*$gdb_prompt $" { # We can not test for here because NULL may be readable. # This test does rely on *NULL != 3. pass "next over ptr init" } } gdb_test_multiple "next" "next over buffer set" { -re ".*atchpoint \[0-9\]+: \\*global_ptr\r\n\r\nOld value = 3 .*\r\nNew value = 7 .*\r\n.*$gdb_prompt $" { pass "next over buffer set" } } gdb_test "delete \$global_ptr_breakpoint_number" "" gdb_test "watch **global_ptr_ptr" ".*atchpoint \[0-9\]+: \\*\\*global_ptr_ptr" gdb_test "set \$global_ptr_ptr_breakpoint_number = \$bpnum" "" gdb_test "next" ".*global_ptr_ptr = &global_ptr.*" "global_ptr_ptr next" gdb_test "next" ".*atchpoint \[0-9\]+: \\*\\*global_ptr_ptr\[\r\n\]+Old value = .*\r\nNew value = 7 .*" "next over global_ptr_ptr init" gdb_test "next" ".*atchpoint \[0-9\]+: \\*\\*global_ptr_ptr\[\r\n\]+Old value = 7 .*\r\nNew value = 9 .*" "next over global_ptr_ptr buffer set" gdb_test "next" ".*atchpoint \[0-9\]+: \\*\\*global_ptr_ptr\[\r\n\]+Old value = 9 .*\r\nNew value = 5 .*" "next over global_ptr_ptr pointer advance" gdb_test_no_output "delete \$global_ptr_ptr_breakpoint_number" } } proc test_no_hw_watchpoints {} { global testfile global allow_hw_watchpoint_tests_p clean_restart $testfile # Verify that a user can force GDB to use "slow" watchpoints. # (This proves rather little on kernels that don't support # fast watchpoints, but still...) # if {![runto_main]} { return } gdb_test_no_output "set can-use-hw-watchpoints 0" "disable fast watches" gdb_test "show can-use-hw-watchpoints" \ "Debugger's willingness to use watchpoint hardware is 0." \ "show disable fast watches" gdb_test "watch ival3 if count > 1" \ "^Watchpoint \[0-9\]*: ival3.*" \ "set slow conditional watch" gdb_test "continue" \ "Watchpoint \[0-9\]*: ival3.*Old value = 1.*New value = 2.*" \ "trigger slow conditional watch" gdb_test_no_output "delete \$bpnum" "delete watch ival3" gdb_test "watch ival3 if count > 1 thread 1 " \ "watch ival3 if count > 1 thread 1 \r\nWatchpoint \[0-9\]*: ival3.*" \ "set slow condition watch w/thread" gdb_test_no_output "delete \$bpnum" "delete watch w/condition and thread" # We've explicitly disabled hardware watches. Verify that GDB # refrains from using them. # gdb_test "rwatch ival3" \ "Can't set read/access watchpoint when hardware watchpoints are disabled." \ "rwatch disallowed when can-set-hw-watchpoints cleared" gdb_test "awatch ival3" \ "Can't set read/access watchpoint when hardware watchpoints are disabled." \ "awatch disallowed when can-set-hw-watchpoints cleared" # Re-enable hardware watchpoints if necessary. if {$allow_hw_watchpoint_tests_p} { gdb_test_no_output "set can-use-hw-watchpoints 1" "" } } proc test_watchpoint_in_big_blob {} { global gdb_prompt # On native targets where we do hardware resource accounting, this # may end up as a software watchpoint. set ok 0 set test "watch buf" gdb_test_multiple "watch buf" $test { -re "Hardware watchpoint \[0-9\]+: buf.*You may have requested too many hardware breakpoints/watchpoints.*$gdb_prompt $" { # This may happen with remote targets (where we don't do # resource accounting) that support hardware watchpoints, # when breakpoint always-inserted is on. The watchpoint # was too large, for example. If GDB is ever adjusted to # downgrade the watchpoint automatically in this case, # this match should be removed. Note the breakpoint has # been created, and is in the list, so it needs deleting. pass $test } -re ".*atchpoint \[0-9\]+: buf.*$gdb_prompt $" { pass $test set ok 1 } } if { $ok } { set test "watchpoint on buf hit" gdb_test_multiple "cont" $test { -re "Continuing.*atchpoint \[0-9\]+: buf\r\n\r\nOld value = .*testte\".*$gdb_prompt $" { pass $test } -re "Could not insert hardware breakpoints:.*You may have requested too many hardware breakpoints/watchpoints.*$gdb_prompt $" { # This may happen with remote targets that support # hardware watchpoints. We only find out the # watchpoint was too large, for example, at insert # time. If GDB is ever adjusted to downgrade the # watchpoint automatically in this case, this match # should be removed. pass $test } } } gdb_test_no_output "delete \$bpnum" "delete watch buf" } proc test_watch_register_location {} { global no_hw global allow_hw_watchpoint_tests_p if {!$no_hw && $allow_hw_watchpoint_tests_p} { # Non-memory read/access watchpoints are not supported, they would # require software read/access watchpoint support (which is not # currently available). gdb_test "rwatch \$pc" \ "Expression cannot be implemented with read/access watchpoint..*" \ "rwatch disallowed for register based expression" gdb_test "awatch \$pc" \ "Expression cannot be implemented with read/access watchpoint..*" \ "awatch disallowed for register based expression" } } # Start with a fresh gdb. set prev_timeout $timeout set timeout 600 verbose "Timeout now 600 sec.\n" test_no_hw_watchpoints proc do_tests {} { global testfile global no_hw global allow_hw_watchpoint_tests_p clean_restart $testfile if {$no_hw || !$allow_hw_watchpoint_tests_p} { gdb_test_no_output "set can-use-hw-watchpoints 0"\ "disable fast watches, 1" } if {[initialize]} { test_simple_watchpoint test_disabling_watchpoints if ![target_info exists gdb,cannot_call_functions] { test_stepping } } # Tests below don't rely on the markers and watchpoint set by # `initialize' anymore. clean_restart $testfile if {$no_hw || !$allow_hw_watchpoint_tests_p} { gdb_test_no_output "set can-use-hw-watchpoints 0" \ "disable fast watches, 2" } # Only enabled for some targets merely because it has not been tested # elsewhere. # On sparc-sun-sunos4.1.3, GDB was running all the way to the marker4 # breakpoint before stopping for the watchpoint. I don't know why. if {[istarget "hppa*-*-*"]} { test_watchpoint_triggered_in_syscall } test_complex_watchpoint test_inaccessible_watchpoint test_watchpoint_and_breakpoint test_watchpoint_in_big_blob test_constant_watchpoint test_disable_enable_software_watchpoint test_watch_location test_wide_location_1 test_wide_location_2 test_watch_register_location } # On targets that can do hardware watchpoints, run the tests twice: # once with hardware watchpoints enabled; another with hardware # watchpoints force-disabled. do_tests if {$allow_hw_watchpoint_tests_p} { with_test_prefix "no-hw" { set no_hw 1 do_tests } } # Restore old timeout set timeout $prev_timeout verbose "Timeout now $timeout sec.\n"