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//{{{ Banner //============================================================================ // // assert.cxx // // Host side implementation of the infrastructure assertions. // //============================================================================ //####COPYRIGHTBEGIN#### // // ---------------------------------------------------------------------------- // Copyright (C) 2002 Bart Veer // Copyright (C) 1998, 1999, 2000, 2001 Red Hat, Inc. // // This file is part of the eCos host tools. // // 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 2 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, write to the Free Software Foundation, Inc., // 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. // // ---------------------------------------------------------------------------- // //####COPYRIGHTEND#### //============================================================================ //#####DESCRIPTIONBEGIN#### // // Author(s): bartv // Contact(s): bartv // Date: 1998/11/27 // Version: 0.01 // Purpose: To provide a host-side implementation of the eCos assertion // facilities. // //####DESCRIPTIONEND#### //============================================================================ //}}} //{{{ #include's #include "pkgconf/infra.h" #include "cyg/infra/cyg_type.h" // Without this symbol the header file has no effect #define CYGDBG_USE_TRACING // Make sure that the host-side extensions get prototyped // as well. #define CYG_DECLARE_HOST_ASSERTION_SUPPORT #include "cyg/infra/cyg_ass.h" // STDIO is needed for the default assertion handler. // STDLIB is needed for exit() and the status codes. #include <cstdio> #include <cstdlib> #if defined(__unix__) || defined(__CYGWIN32__) extern "C" { #include <unistd.h> // Needed for _exit() } #endif // These are needed for the table of callbacks. #include <utility> #include <iterator> #include <vector> //}}} // ------------------------------------------------------------------------- // Statics. The host-side assertion code requires two bits of data. // // The first identifies the function that should actually get invoked // when an assertion is triggered. A default implementation is defined // in this module, but applications may install a replacement. // // The second is a table of callback functions that various libraries // or bits of application code may install. Each such callback gets invoked // when an assertion triggers. // VC++ bogosity. Using a full function pointer prototype in a template // confuses the compiler. It is still possible to declare the callbacks vector, // but not any iterators for that vector. A typedef makes the problem go // away. typedef void (*cyg_callback_fn)(void (*)(const char*)); // The current assertion handler static bool (*current_handler)( const char*, const char*, cyg_uint32, const char*) = 0; // The callback table. static std::vector<std::pair<const char*, cyg_callback_fn> > callbacks; // ---------------------------------------------------------------------------- // Many applications will want to handle assertion failures differently // from the default, for example pipe the output into an emacs buffer // rather than just generate a file. This routine allows a suitable // function to be installed. extern "C" void cyg_assert_install_failure_handler( bool(*fn)(const char*, const char*, cyg_uint32, const char*) ) { current_handler = fn; } // ---------------------------------------------------------------------------- // Various different bits of the system may want to register callback functions // that get invoked during an assertion failure and that output useful // data. Typically this might happen in the constructor for a static object. // A good example of such a callback is the implementation of the trace code. // // The implementation requires creating a new entry in the static vector. // A memory exhaustion exception could occur but there is no sensible way of // handling it at this level. // // Multiple callbacks with the same name are legal. Multiple callbacks with // the same function are unlikely, but it is probably not worthwhile raising // an exception (especially since this code may be called from C). extern "C" void cyg_assert_install_failure_callback( const char* name, void (*fn)(void (*)(const char*)) ) { callbacks.push_back(std::make_pair(name, fn)); } // ------------------------------------------------------------------------- // Once an assertion has triggered either the default handler or the // installed handler will want to invoke all the callbacks. Rather than // provide direct access to the callback table and require the calling // code to be in C++, a functional interface is provided instead. extern "C" void cyg_assert_failure_invoke_callbacks( void (*first_fn)(const char*), void (*data_fn)(const char*), void (*final_fn)(void) ) { std::vector<std::pair<const char*, cyg_callback_fn> >::const_iterator i; for ( i = callbacks.begin(); i != callbacks.end(); i++ ) { if (0 != first_fn) { (*first_fn)(i->first); } if (0 != data_fn) { (*(i->second))(data_fn); } if (0 != final_fn) { (*final_fn)(); } } } // ---------------------------------------------------------------------------- // The default assertion handler. This assumes that the application is // a console application with a sensible stderr stream. // // First some initial diagnostics are output immediately, in case // subsequent attempts to output more data cause additional failures. It // is worthwhile detecting recursive assertion failures. // // Assuming the table of callbacks is not empty it is possible to // output some more data to a file. If possible mkstemp() is used to // create this file. If mkstemp() is not available then tmpnam() is // used instead. That function has security problems, albeit not ones // likely to affect dump files. Once the file is opened the callbacks // are invoked. Three utilities have to be provided to do the real // work, and a static is used to keep track of the FILE * pointer. // // The testcase tassert8, and in particular the associated Tcl proc // tassert8_filter in testsuite/cyginfra/assert.exp, has detailed // knowledge of the output format. Any changes here may need to be // reflected in that test case. There are also support routines in // hosttest.exp which may need to be updated. static FILE * default_handler_output_file = 0; static bool body_contains_data = false; // output the callback name static void default_handler_first_fn(const char* name) { if (0 != default_handler_output_file) { fprintf(default_handler_output_file, "# {{{ %s\n\n", name); } body_contains_data = false; } // output some actual text. static void default_handler_second_fn(const char* data) { body_contains_data = true; if (0 != default_handler_output_file) { fputs(data, default_handler_output_file); } } // the end of a callback. static void default_handler_final_fn( void ) { if (0 != default_handler_output_file) { if (body_contains_data) { fputs("\n", default_handler_output_file); } fputs("# }}}\n", default_handler_output_file); } } static void default_handler(const char* fn, const char* file, cyg_uint32 lineno, const char* msg) { static int invoke_count = 0; if (2 == invoke_count) { // The fprintf() immediately below causes an assertion failure } else if (1 == invoke_count) { invoke_count++; fprintf(stderr, "Recursive assertion failure.\n"); return; } else { invoke_count = 1; } // There is an argument for using write() rather than fprintf() here, // in case the C library has been corrupted. For now this has not been // attempted. if (0 == msg) msg ="<unknown>"; if (0 == file) file = "<unknown>"; fprintf(stderr, "Assertion failure: %s\n", msg); fprintf(stderr, "File %s, line number %lu\n", file, (unsigned long) lineno); if (0 != fn) fprintf(stderr, "Function %s\n", fn); // Only create a logfile if more information is available. if (0 != callbacks.size() ) { // Use mkstemp() if possible, but only when running on a platform where /tmp // is likely to be available. #if defined(HAVE_MKSTEMP) && !defined(_MSC_VER) char filename[32]; int fd; strcpy(filename, "/tmp/ecosdump.XXXXXX"); fd = mkstemp(filename); if (-1 == fd) { fprintf(stderr, "Unable to create a suitable output file for additional data.\n"); } else { default_handler_output_file = fdopen(fd, "w"); if (0 == default_handler_output_file) { close(fd); } } #else char filename[L_tmpnam]; if (0 == tmpnam(filename)) { fprintf(stderr, "Unable to create a suitable output file for additional data.\n"); } else { // No attempt is made to ensure that the file does not already // exist. This would require POSIX calls rather than ISO C ones. // The probability of a problem is considered to be too small // to worry about. default_handler_output_file = fopen(filename, "w"); } #endif if (0 == default_handler_output_file) { fprintf(stderr, "Unable to open output file %s\n", filename); fputs("No further assertion information is available.\n", stderr); } else { fprintf(stderr, "Writing additional output to %s\n", filename); // Repeat the information about the assertion itself. fprintf(default_handler_output_file, "Assertion failure: %s\n", msg); fprintf(default_handler_output_file, "File %s, line number %lu\n", file, (unsigned long) lineno); if (0 != fn) fprintf(default_handler_output_file, "Function %s\n", fn); fputs("\n", default_handler_output_file); // Now for the various callbacks. cyg_assert_failure_invoke_callbacks( &default_handler_first_fn, &default_handler_second_fn, &default_handler_final_fn ); // And close the file. fputs("\nEnd of assertion data.\n", default_handler_output_file); fclose(default_handler_output_file); } } fflush(stderr); } // ---------------------------------------------------------------------------- // The assertion handler. This is the function that gets invoked when // an assertion triggers. If a special assertion handler has been installed // then this gets called. If it returns false or if no special handler is // available then the default handler gets called instead. Typically the // user will now have a lot of information about what happened to cause the // assertion failure. The next stage is to invoke abort() which should // terminate the program and generate a core dump for subsequent inspection // (unless of course the application is already running in a debugger session). // A final call to _exit() should be completely redundant. extern "C" void cyg_assert_fail( const char* fn, const char* file, cyg_uint32 lineno, const char* msg ) { if ((0 == current_handler) || !(*current_handler)(fn, file, lineno, msg)) { default_handler(fn, file, lineno, msg); } abort(); _exit(0); } // ---------------------------------------------------------------------------- // A utility function, primarily intended to be called from inside gdb. extern "C" void cyg_assert_quickfail(void) { cyg_assert_fail("gdb", "<no file>", 0, "manual call"); }
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