# Copyright (C) 2012-2022 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 . standard_testfile # Count the number of probes of TYPE (either 'stap' or 'dtrace'), # from provider matching PROVIDER, with a name matching NAME, and from # an objec file matching OBJECT. # # The OBJECT is optional, in which case all objects will be matched. # # If any error condition is detected, then perror is called, and -1 # returned. # # Otherwise, returns an integer, 0 or greater. proc gdb_count_probes { type provider name { object "" }} { set cmd "info probes ${type} ${provider} ${name}" if { $object != "" } { set cmd "$cmd ${object}" } set probe_count 0 set no_probes_line false gdb_test_multiple $cmd "" { -re "^$cmd\r\n" { exp_continue } -re "^Type\\s+Provider\\s+Name\\s+Where\\s+Semaphore\\s+Object\\s*\r\n" { exp_continue } -re "^\\s*\r\n" { exp_continue } -re "^stap\[^\r\n\]+\r\n" { incr probe_count exp_continue } -re "^dtrace\[^\r\n\]+\r\n" { incr probe_count exp_continue } -re "^No probes matched\\.\r\n" { set no_probes_line true exp_continue } -re "^$::gdb_prompt $" { pass $gdb_test_name } } if { [expr $no_probes_line && $probe_count > 0] \ || [expr !$no_probes_line && $probe_count == 0] } { perror "Mismatch between no probes found line, and probes count" return -1 } return $probe_count } proc check_for_usable_xmm0_probe { binfile } { set readelf_program [gdb_find_readelf] set binfile [standard_output_file $binfile] set command "exec $readelf_program -n $binfile" verbose -log "command is $command" set result [catch $command output] verbose -log "result is $result" verbose -log "output is $output" # We don't actually check RESULT. Sometimes readelf gives # warnings about gaps in some of the notes data. This is # unrelated to the staps probes, but still causes readelf to exit # with non-zero status. # # Instead, just check the output. If readelf failed to run then # the output will be empty, and the following regexps will fail to # match. # First, look for the xmmreg probe, and if we find it, grab the # argument string. if ![regexp {\n\s+Provider: test\n\s+Name: xmmreg\n[^\n]+\n\s+Arguments: ([^\n]+)\n} $output ignore arguments] { verbose -log "APB: Couldn't find probe at all" return false } verbose -log "APB: Matched on '$ignore'" verbose -log "APB: arguments: '$arguments'" # Check the the argument string mentions xmm0. if ![regexp {@%?xmm0} $arguments] { verbose -log "APB: Prove doesn't use xmm0 register" return false } # Success! We have a probe that uses xmm0 for an argument. return true } # Run the tests. We run the tests two different ways: once with a # plain probe, and once with a probe that has an associated semaphore. # This returns -1 on failure to compile or start, 0 otherwise. proc stap_test {exec_name {args ""}} { global testfile hex srcfile if {[prepare_for_testing "failed to prepare" ${exec_name} $srcfile \ [concat $args debug]]} { return -1 } set semaphore_addr_var "" if {[string first "-DUSE_SEMAPHORES" $args] == -1} { gdb_test_no_output "set breakpoint always-inserted on" set semaphore_addr_var \ [get_hexadecimal_valueof "&relocation_marker" "0"\ "get original address of relocation_marker"] } if ![runto_main] { return -1 } gdb_test "print \$_probe_argc" "No probe at PC $hex" \ "check argument not at probe point" if {[string first "-DUSE_SEMAPHORES" $args] != -1} { gdb_test_lines "info probes stap" "" \ "test *user *$hex *$hex .*" } else { gdb_test_lines "info probes stap" "" \ "test *user *$hex .*" } if {[runto "-pstap test:user"]} { pass "run to -pstap test:user" } else { fail "run to -pstap test:user" } if {[string first "-DUSE_SEMAPHORES" $args] == -1} { set updated_semaphore_addr_var \ [get_hexadecimal_valueof "&relocation_marker" \ "0" "get revised relocation_marker address"] set relocation_base \ [expr $updated_semaphore_addr_var - $semaphore_addr_var] if {$relocation_base != 0} { # Checks that GDB doesn't mistakenly relocate and write to null # semaphore addresses. If it were to relocate a zero-valued # semaphore address and increment the value at that address, we # would expect to see "\200ELF" here instead. gdb_test "p (*(char*) $relocation_base)@4" \ " = \"\\\\177ELF\"" \ "null semaphore relocation" } } # Test probe arguments. gdb_test "print \$_probe_argc" " = 1" \ "print \$_probe_argc for probe user" gdb_test "print \$_probe_arg0 == x" " = 1" \ "check \$_probe_arg0 for probe user" gdb_test "print \$_probe_arg1" \ "Invalid probe argument 1 -- probe has 1 arguments available" \ "check \$_probe_arg1 for probe user" # Set a breakpoint with multiple probe locations. gdb_test "break -pstap test:two" \ "Breakpoint \[0-9\]+ at $hex.*2 locations.*" \ "set multi-location probe breakpoint (probe two)" # Reinit GDB, set a breakpoint on probe m4. delete_breakpoints if {[runto "-pstap test:m4"]} { pass "run to -pstap test:m4" } else { fail "run to -pstap test:m4" } # Testing probe arguments. gdb_test "print \$_probe_argc" " = 3" \ "print \$_probe_argc for probe m4" gdb_test "print \$_probe_arg0" " = 42" \ "check \$_probe_arg0 for probe m4" gdb_test "print (const char *) \$_probe_arg1" \ " = $hex .This is a test message.*" \ "check \$_probe_arg1 for probe m4" gdb_test "print \$_probe_arg2 == v" " = 1" \ "check \$_probe_arg2 for probe m4" # Reinit GDB, set a breakpoint on probe ps. delete_breakpoints if {[runto "-pstap test:ps"]} { pass "run to -pstap test:ps" } else { fail "run to -pstap test:ps" } gdb_test "print \$_probe_argc" " = 3" \ "print \$_probe_argc for probe ps" gdb_test "print (const char *) \$_probe_arg1" \ " = $hex .This is another test message.*" \ "print \$_probe_arg1 for probe ps" # Check the probe is using the xmm0 register. if [check_for_usable_xmm0_probe $exec_name] { delete_breakpoints if {[runto "-pstap test:xmmreg"]} { pass "run to -pstap test:xmmreg" } else { fail "run to -pstap test:xmmreg" } gdb_test "print \$_probe_argc" " = 1" \ "print \$_probe_argc for probe xmmreg" gdb_test "print/x \$_probe_arg0" " = 0x1234" \ "check \$_probe_arg0 for probe xmmreg" } else { unsupported "print probe argument from \$xmm0 register" } return 0 } proc stap_test_no_debuginfo {exec_name {args ""}} { global testfile hex if {[prepare_for_testing "failed to prepare" ${exec_name} ${testfile}.c \ [concat $args nodebug optimize=-O2]]} { return -1 } if {[runto "-pstap test:user"]} { pass "run to -pstap test:user" } else { fail "run to -pstap test:user" } # Test probe arguments. gdb_test "print \$_probe_argc" " = 1" \ "print \$_probe_argc for probe user" gdb_test "print \$_probe_arg0 == 23" " = 1" \ "check \$_probe_arg0 for probe user" gdb_test "print \$_probe_arg1" \ "Invalid probe argument 1 -- probe has 1 arguments available" \ "check \$_probe_arg1 for probe user" # Set a breakpoint with multiple probe locations. # In this scenario, we may expect more than 2 locations because of # the optimizations (inlining, loop unrolling, etc). gdb_test "break -pstap test:two" \ "Breakpoint .* at $hex.*\[0-9\]+ locations.*" \ "set multi-location probe breakpoint (probe two)" # Reinit GDB, set a breakpoint on probe m4. delete_breakpoints if {[runto "-pstap test:m4"]} { pass "run to -pstap test:m4" } else { fail "run to -pstap test:m4" } # Testing probe arguments. gdb_test "print \$_probe_argc" " = 3" \ "print \$_probe_argc for probe m4" gdb_test "print \$_probe_arg0" " = 42" \ "check \$_probe_arg0 for probe m4" gdb_test "print (const char *) \$_probe_arg1" \ " = $hex .This is a test message.*" \ "check \$_probe_arg1 for probe m4" gdb_test "print \$_probe_arg2 == 0" " = 1" \ "check \$_probe_arg2 for probe m4" # Reinit GDB, set a breakpoint on probe ps. delete_breakpoints if {[runto "-pstap test:ps"]} { pass "run to -pstap test:ps" } else { fail "run to -pstap test:ps" } gdb_test "print \$_probe_argc" " = 3" \ "print \$_probe_argc for probe ps" gdb_test "print (const char *) \$_probe_arg1" \ " = $hex .This is another test message.*" \ "print \$_probe_arg1 for probe ps" # Reinit GDB, set a breakpoint on probe ps. if { [gdb_count_probes stap test xmmreg] > 0 } { delete_breakpoints if {[runto "-pstap test:xmmreg"]} { pass "run to -pstap test:xmmreg" } else { fail "run to -pstap test:xmmreg" } gdb_test "print \$_probe_argc" " = 1" \ "print \$_probe_argc for probe xmmreg" gdb_test "print/x \$_probe_arg0" " = 0x1234" \ "check \$_probe_arg0 for probe xmmreg" } return 0 } with_test_prefix "without semaphore, not optimized" { if {[stap_test "stap-probe-nosem-noopt"] == -1} { untested "stap probe test failed" return -1 } foreach_with_prefix pie { "nopie" "pie" } { stap_test "stap-probe-nosem-noopt-$pie" $pie } } with_test_prefix "with semaphore, not optimized" { stap_test "stap-probe-sem-noopt" additional_flags=-DUSE_SEMAPHORES } with_test_prefix "without semaphore, optimized" { stap_test_no_debuginfo "stap-probe-nosem-opt" } with_test_prefix "with semaphore, optimized" { stap_test_no_debuginfo "stap-probe-sem-opt" additional_flags=-DUSE_SEMAPHORES }