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/* Infrastructure to test the quality of debug information. Copyright (C) 2008, 2009, 2010 Free Software Foundation, Inc. Contributed by Alexandre Oliva <aoliva@redhat.com>. This file is part of GCC. GCC 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, or (at your option) any later version. GCC 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 GCC; see the file COPYING3. If not see <http://www.gnu.org/licenses/>. */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <stdint.h> #include <unistd.h> /* This is a first cut at checking that debug information matches run-time. The idea is to annotate programs with GUALCHK* macros that guide the tests. In the current implementation, all of the macros expand to function calls. On the one hand, this interferes with optimizations; on the other hand, it establishes an optimization barrier and a clear inspection point, where previous operations (as in the abstract machine) should have been completed and have their effects visible, and future operations shouldn't have started yet. In the current implementation of guality_check(), we fork a child process that runs gdb, attaches to the parent process (the one that called guality_check), moves up one stack frame (to the caller of guality_check) and then examines the given expression. If it matches the expected value, we have a PASS. If it differs, we have a FAILure. If it is missing, we'll have a FAIL or an UNRESOLVED depending on whether the variable or expression might be unavailable at that point, as indicated by the third argument. We envision a future alternate implementation with two compilation and execution cycles, say one that runs the program and uses the macros to log expressions and expected values, another in which the macros expand to nothing and the logs are used to guide a debug session that tests the values. How to identify the inspection points in the second case is yet to be determined. It is recommended that GUALCHK* macros be by themselves in source lines, so that __FILE__ and __LINE__ will be usable to identify them. */ /* This is the type we use to pass values to guality_check. */ typedef intmax_t gualchk_t; /* Convert a pointer or integral type to the widest integral type, as expected by guality_check. */ #ifndef __cplusplus #define GUALCVT(val) \ ((gualchk_t)__builtin_choose_expr \ (__builtin_types_compatible_p (__typeof (val), gualchk_t), \ (val), \ __builtin_choose_expr \ (__builtin_classify_type (val) \ == __builtin_classify_type (&guality_skip), \ (uintptr_t)(val),(intptr_t)(val)))) #else template <typename T> inline __attribute__((always_inline)) gualchk_t gualcvt (T *val) { return (uintptr_t) val; } template <typename T> inline __attribute__((always_inline)) gualchk_t gualcvt (T val) { return (intptr_t) val; } template <> inline __attribute__((always_inline)) gualchk_t gualcvt<gualchk_t> (gualchk_t val) { return val; } #define GUALCVT(val) gualcvt (val) #endif /* Attach a debugger to the current process and verify that the string EXPR, evaluated by the debugger, yields the gualchk_t number VAL. If the debugger cannot compute the expression, say because the variable is unavailable, this will count as an error, unless unkok is nonzero. */ #define GUALCHKXPRVAL(expr, val, unkok) \ guality_check ((expr), (val), (unkok)) /* Check that a debugger knows that EXPR evaluates to the run-time value of EXPR. Unknown values are marked as acceptable, considering that EXPR may die right after this call. This will affect the generated code in that EXPR will be evaluated and forced to remain live at least until right before the call to guality_check, although not necessarily after the call. */ #define GUALCHKXPR(expr) \ GUALCHKXPRVAL (#expr, GUALCVT (expr), 1) /* Same as GUALCHKXPR, but issue an error if the variable is optimized away. */ #define GUALCHKVAL(expr) \ GUALCHKXPRVAL (#expr, GUALCVT (expr), 0) /* Check that a debugger knows that EXPR evaluates to the run-time value of EXPR. Unknown values are marked as errors, because the value of EXPR is forced to be available right after the call, for a range of at least one instruction. This will affect the generated code, in that EXPR *will* be evaluated before and preserved until after the call to guality_check. */ #define GUALCHKFLA(expr) do { \ __typeof(expr) volatile __preserve_after; \ __typeof(expr) __preserve_before = (expr); \ GUALCHKXPRVAL (#expr, GUALCVT (__preserve_before), 0); \ __preserve_after = __preserve_before; \ asm ("" : : "m" (__preserve_after)); \ } while (0) /* GUALCHK is the simplest way to assert that debug information for an expression matches its run-time value. Whether to force the expression live after the call, so as to flag incompleteness errors, can be disabled by defining GUALITY_DONT_FORCE_LIVE_AFTER. Setting it to -1, an error is issued for optimized out variables, even though they are not forced live. */ #if ! GUALITY_DONT_FORCE_LIVE_AFTER #define GUALCHK(var) GUALCHKFLA(var) #elif GUALITY_DONT_FORCE_LIVE_AFTER < 0 #define GUALCHK(var) GUALCHKVAL(var) #else #define GUALCHK(var) GUALCHKXPR(var) #endif /* The name of the GDB program, with arguments to make it quiet. This is GUALITY_GDB_DEFAULT GUALITY_GDB_ARGS by default, but it can be overridden by setting the GUALITY_GDB environment variable, whereas GUALITY_GDB_DEFAULT can be overridden by setting the GUALITY_GDB_NAME environment variable. */ static const char *guality_gdb_command; #define GUALITY_GDB_DEFAULT "gdb" #if defined(__unix) # define GUALITY_GDB_REDIRECT " > /dev/null 2>&1" #elif defined (_WIN32) || defined (MSDOS) # define GUALITY_GDB_REDIRECT " > nul" #else # define GUALITY_GDB_REDIRECT "" #endif #define GUALITY_GDB_ARGS " -nx -nw --quiet" GUALITY_GDB_REDIRECT /* Kinds of results communicated as exit status from child process that runs gdb to the parent process that's being monitored. */ enum guality_counter { PASS, INCORRECT, INCOMPLETE }; /* Count of passes and errors. */ static int guality_count[INCOMPLETE+1]; /* If --guality-skip is given in the command line, all the monitoring, forking and debugger-attaching action will be disabled. This is useful to run the monitor program within a debugger. */ static int guality_skip; /* This is a file descriptor to which we'll issue gdb commands to probe and test. */ FILE *guality_gdb_input; /* This holds the line number where we're supposed to set a breakpoint. */ int guality_breakpoint_line; /* GDB should set this to true once it's connected. */ int volatile guality_attached; /* This function is the main guality program. It may actually be defined as main, because we #define main to it afterwards. Because of this wrapping, guality_main may not have an empty argument list. */ extern int guality_main (int argc, char *argv[]); static void __attribute__((noinline)) guality_check (const char *name, gualchk_t value, int unknown_ok); /* Set things up, run guality_main, then print a summary and quit. */ int main (int argc, char *argv[]) { int i; char *argv0 = argv[0]; guality_gdb_command = getenv ("GUALITY_GDB"); if (!guality_gdb_command) { guality_gdb_command = getenv ("GUALITY_GDB_NAME"); if (!guality_gdb_command) guality_gdb_command = GUALITY_GDB_DEFAULT GUALITY_GDB_ARGS; else { int len = strlen (guality_gdb_command) + sizeof (GUALITY_GDB_ARGS); char *buf = (char *) __builtin_alloca (len); strcpy (buf, guality_gdb_command); strcat (buf, GUALITY_GDB_ARGS); guality_gdb_command = buf; } } for (i = 1; i < argc; i++) if (strcmp (argv[i], "--guality-skip") == 0) guality_skip = 1; else break; if (!guality_skip) { guality_gdb_input = popen (guality_gdb_command, "w"); /* This call sets guality_breakpoint_line. */ guality_check (NULL, 0, 0); if (!guality_gdb_input || fprintf (guality_gdb_input, "\ set height 0\n\ attach %i\n\ set guality_attached = 1\n\ b %i\n\ continue\n\ ", (int)getpid (), guality_breakpoint_line) <= 0 || fflush (guality_gdb_input)) { perror ("gdb"); abort (); } } argv[--i] = argv0; guality_main (argc - i, argv + i); i = guality_count[INCORRECT]; fprintf (stderr, "%s: %i PASS, %i FAIL, %i UNRESOLVED\n", i ? "FAIL" : "PASS", guality_count[PASS], guality_count[INCORRECT], guality_count[INCOMPLETE]); return i; } #define main guality_main /* Tell the GDB child process to evaluate NAME in the caller. If it matches VALUE, we have a PASS; if it's unknown and UNKNOWN_OK, we have an UNRESOLVED. Otherwise, it's a FAIL. */ static void __attribute__((noinline)) guality_check (const char *name, gualchk_t value, int unknown_ok) { int result; if (guality_skip) return; { volatile gualchk_t xvalue = -1; volatile int unavailable = 0; if (name) { /* The sequence below cannot distinguish an optimized away variable from one mapped to a non-lvalue zero. */ if (fprintf (guality_gdb_input, "\ up\n\ set $value1 = 0\n\ set $value1 = (%s)\n\ set $value2 = -1\n\ set $value2 = (%s)\n\ set $value3 = $value1 - 1\n\ set $value4 = $value1 + 1\n\ set $value3 = (%s)++\n\ set $value4 = --(%s)\n\ down\n\ set xvalue = $value1\n\ set unavailable = $value1 != $value2 ? -1 : $value3 != $value4 ? 1 : 0\n\ continue\n\ ", name, name, name, name) <= 0 || fflush (guality_gdb_input)) { perror ("gdb"); abort (); } else if (!guality_attached) { unsigned int timeout = 0; /* Give GDB some more time to attach. Wrapping around a 32-bit counter takes some seconds, it should be plenty of time for GDB to get a chance to start up and attach, but not long enough that, if GDB is unavailable or broken, we'll take far too long to give up. */ while (--timeout && !guality_attached) ; if (!timeout && !guality_attached) { fprintf (stderr, "gdb: took too long to attach\n"); abort (); } } } else { guality_breakpoint_line = __LINE__ + 5; return; } /* Do NOT add lines between the __LINE__ above and the line below, without also adjusting the added constant to match. */ if (!unavailable || (unavailable > 0 && xvalue)) { if (xvalue == value) result = PASS; else result = INCORRECT; } else result = INCOMPLETE; asm ("" : : "X" (name), "X" (value), "X" (unknown_ok), "m" (xvalue)); switch (result) { case PASS: fprintf (stderr, "PASS: %s is %lli\n", name, value); break; case INCORRECT: fprintf (stderr, "FAIL: %s is %lli, not %lli\n", name, xvalue, value); break; case INCOMPLETE: fprintf (stderr, "%s: %s is %s, expected %lli\n", unknown_ok ? "UNRESOLVED" : "FAIL", name, unavailable < 0 ? "not computable" : "optimized away", value); result = unknown_ok ? INCOMPLETE : INCORRECT; break; default: abort (); } } switch (result) { case PASS: case INCORRECT: case INCOMPLETE: ++guality_count[result]; break; default: abort (); } }
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