///////////////////////////////////////////////////////////////////////// // $Id: logio.cc,v 1.71 2009-01-10 11:30:20 vruppert Exp $ ///////////////////////////////////////////////////////////////////////// // // Copyright (C) 2001 MandrakeSoft S.A. // // MandrakeSoft S.A. // 43, rue d'Aboukir // 75002 Paris - France // http://www.linux-mandrake.com/ // http://www.mandrakesoft.com/ // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library 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 // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301 USA #include "bochs.h" #include "cpu/cpu.h" #include "iodev/iodev.h" #include #if BX_WITH_CARBON #define Float32 KLUDGE_Float32 #define Float64 KLUDGE_Float64 #include #undef Float32 #undef Float64 #endif // Just for the iofunctions static int Allocio=0; void iofunctions::flush(void) { if(logfd && magic == MAGIC_LOGNUM) { fflush(logfd); } } void iofunctions::init(void) { // iofunctions methods must not be called before this magic // number is set. magic=MAGIC_LOGNUM; // sets the default logprefix strcpy(logprefix,"%t%e%d"); n_logfn = 0; init_log(stderr); log = new logfunc_t(this); log->put("IO"); log->ldebug("Init(log file: '%s').",logfn); } void iofunctions::add_logfn(logfunc_t *fn) { assert(n_logfn < MAX_LOGFNS); logfn_list[n_logfn++] = fn; } void iofunctions::remove_logfn(logfunc_t *fn) { assert(n_logfn > 0); int i = 0; while ((fn != logfn_list[i]) && (i < n_logfn)) { i++; }; if (i < n_logfn) { for (int j=i; jsetonoff(loglevel, action); } void iofunctions::init_log(const char *fn) { assert(magic==MAGIC_LOGNUM); // use newfd/newfn so that we can log the message to the OLD log // file descriptor. FILE *newfd = stderr; const char *newfn = "/dev/stderr"; if(strcmp(fn, "-") != 0) { newfd = fopen(fn, "w"); if(newfd != NULL) { newfn = strdup(fn); log->ldebug("Opened log file '%s'.", fn); } else { // in constructor, genlog might not exist yet, so do it the safe way. log->error("Couldn't open log file: %s, using stderr instead", fn); newfd = stderr; } } logfd = newfd; logfn = newfn; } void iofunctions::init_log(FILE *fs) { assert(magic==MAGIC_LOGNUM); logfd = fs; if(fs == stderr) { logfn = "/dev/stderr"; } else if(fs == stdout) { logfn = "/dev/stdout"; } else { logfn = "(unknown)"; } } void iofunctions::init_log(int fd) { assert(magic==MAGIC_LOGNUM); FILE *tmpfd; if((tmpfd = fdopen(fd,"w")) == NULL) { log->panic("Couldn't open fd %d as a stream for writing", fd); return; } init_log(tmpfd); }; void iofunctions::exit_log() { flush(); if (logfd != stderr) { fclose(logfd); logfd = stderr; free((char *)logfn); logfn = "/dev/stderr"; } } // all other functions may use genlog safely. #define LOG_THIS genlog-> // This converts the option string to a printf style string with the following args: // 1. timer, 2. event, 3. cpu0 eip, 4. device void iofunctions::set_log_prefix(const char* prefix) { strcpy(logprefix, prefix); } // iofunctions::out(level, prefix, fmt, ap) // DO NOT nest out() from ::info() and the like. // fmt and ap retained for direct printinf from iofunctions only! void iofunctions::out(int level, const char *prefix, const char *fmt, va_list ap) { char c=' ', *s; assert(magic==MAGIC_LOGNUM); assert(this != NULL); assert(logfd != NULL); switch (level) { case LOGLEV_INFO: c='i'; break; case LOGLEV_PANIC: c='p'; break; case LOGLEV_PASS: c='s'; break; case LOGLEV_ERROR: c='e'; break; case LOGLEV_DEBUG: c='d'; break; default: break; } s=logprefix; while(*s) { switch(*s) { case '%': if(*(s+1)) s++; else break; switch(*s) { case 'd': fprintf(logfd, "%s", prefix==NULL?"":prefix); break; case 't': fprintf(logfd, FMT_TICK, bx_pc_system.time_ticks()); break; case 'i': #if BX_SUPPORT_SMP == 0 fprintf(logfd, "%08x", BX_CPU(0)->get_eip()); #endif break; case 'e': fprintf(logfd, "%c", c); break; case '%': fprintf(logfd,"%%"); break; default: fprintf(logfd,"%%%c",*s); } break; default : fprintf(logfd,"%c",*s); } s++; } fprintf(logfd," "); if(level==LOGLEV_PANIC) fprintf(logfd, ">>PANIC<< "); if(level==LOGLEV_PASS) fprintf(logfd, ">>PASS<< "); vfprintf(logfd, fmt, ap); fprintf(logfd, "\n"); fflush(logfd); } iofunctions::iofunctions(FILE *fs) { init(); init_log(fs); } iofunctions::iofunctions(const char *fn) { init(); init_log(fn); } iofunctions::iofunctions(int fd) { init(); init_log(fd); } iofunctions::iofunctions() { init(); } iofunctions::~iofunctions(void) { // flush before erasing magic number, or flush does nothing. flush(); magic=0; } #define LOG_THIS genlog-> int logfunctions::default_onoff[N_LOGLEV] = { ACT_IGNORE, // ignore debug ACT_REPORT, // report info ACT_REPORT, // report error #if BX_WITH_WX || BX_WITH_WIN32 || BX_WITH_X11 ACT_ASK, // on panic, ask user what to do #else ACT_FATAL, // on panic, quit #endif ACT_FATAL }; logfunctions::logfunctions(void) { prefix = NULL; put(" "); if (io == NULL && Allocio == 0) { Allocio = 1; io = new iofunc_t(stderr); } setio(io); // BUG: unfortunately this can be called before the bochsrc is read, // which means that the bochsrc has no effect on the actions. for (int i=0; ilogio->remove_logfn(this); if (prefix) free(prefix); } void logfunctions::setio(iofunc_t *i) { // add pointer to iofunction object to use this->logio = i; // give iofunction a pointer to me i->add_logfn(this); } void logfunctions::put(const char *p) { char * tmpbuf=strdup("[ ]"); // if we ever have more than 32 chars, // we need to rethink this if (tmpbuf == NULL) { return; // allocation not successful } if (this->prefix != NULL) { free(this->prefix); // free previously allocated memory prefix = NULL; } size_t len=strlen(p); for(size_t i=1;ilogio != NULL); if(!onoff[LOGLEV_INFO]) return; va_start(ap, fmt); this->logio->out(LOGLEV_INFO, this->prefix, fmt, ap); if (onoff[LOGLEV_INFO] == ACT_ASK) ask(LOGLEV_INFO, this->prefix, fmt, ap); if (onoff[LOGLEV_INFO] == ACT_FATAL) fatal(this->prefix, fmt, ap, 1); va_end(ap); } void logfunctions::error(const char *fmt, ...) { va_list ap; assert(this != NULL); assert(this->logio != NULL); if(!onoff[LOGLEV_ERROR]) return; va_start(ap, fmt); this->logio->out(LOGLEV_ERROR, this->prefix, fmt, ap); if (onoff[LOGLEV_ERROR] == ACT_ASK) ask(LOGLEV_ERROR, this->prefix, fmt, ap); if (onoff[LOGLEV_ERROR] == ACT_FATAL) fatal(this->prefix, fmt, ap, 1); va_end(ap); } void logfunctions::panic(const char *fmt, ...) { va_list ap; assert(this != NULL); assert(this->logio != NULL); // Special case for panics since they are so important. Always print // the panic to the log, no matter what the log action says. //if(!onoff[LOGLEV_PANIC]) return; va_start(ap, fmt); this->logio->out(LOGLEV_PANIC, this->prefix, fmt, ap); // This fixes a funny bug on linuxppc where va_list is no pointer but a struct va_end(ap); va_start(ap, fmt); if (onoff[LOGLEV_PANIC] == ACT_ASK) ask(LOGLEV_PANIC, this->prefix, fmt, ap); if (onoff[LOGLEV_PANIC] == ACT_FATAL) fatal(this->prefix, fmt, ap, 1); va_end(ap); } void logfunctions::pass(const char *fmt, ...) { va_list ap; assert(this != NULL); assert(this->logio != NULL); // Special case for panics since they are so important. Always print // the panic to the log, no matter what the log action says. //if(!onoff[LOGLEV_PASS]) return; va_start(ap, fmt); this->logio->out(LOGLEV_PASS, this->prefix, fmt, ap); // This fixes a funny bug on linuxppc where va_list is no pointer but a struct va_end(ap); va_start(ap, fmt); if (onoff[LOGLEV_PASS] == ACT_ASK) ask(LOGLEV_PASS, this->prefix, fmt, ap); if (onoff[LOGLEV_PASS] == ACT_FATAL) fatal(this->prefix, fmt, ap, 101); va_end(ap); } void logfunctions::ldebug(const char *fmt, ...) { va_list ap; assert(this != NULL); assert(this->logio != NULL); if(!onoff[LOGLEV_DEBUG]) return; va_start(ap, fmt); this->logio->out(LOGLEV_DEBUG, this->prefix, fmt, ap); if (onoff[LOGLEV_DEBUG] == ACT_ASK) ask(LOGLEV_DEBUG, this->prefix, fmt, ap); if (onoff[LOGLEV_DEBUG] == ACT_FATAL) fatal(this->prefix, fmt, ap, 1); va_end(ap); } void logfunctions::ask(int level, const char *prefix, const char *fmt, va_list ap) { // Guard against reentry on ask() function. The danger is that some // function that's called within ask() could trigger another // BX_PANIC that could call ask() again, leading to infinite // recursion and infinite asks. static char in_ask_already = 0; char buf1[1024]; if (in_ask_already) { fprintf(stderr, "logfunctions::ask() should not reenter!!\n"); return; } in_ask_already = 1; vsnprintf(buf1, sizeof(buf1), fmt, ap); // FIXME: facility set to 0 because it's unknown. // update vga screen. This is useful because sometimes useful messages // are printed on the screen just before a panic. It's also potentially // dangerous if this function calls ask again... That's why I added // the reentry check above. if (SIM->get_init_done()) DEV_vga_refresh(); // ensure the text screen is showing SIM->set_display_mode(DISP_MODE_CONFIG); int val = SIM->log_msg(prefix, level, buf1); switch(val) { case BX_LOG_ASK_CHOICE_CONTINUE: break; case BX_LOG_ASK_CHOICE_CONTINUE_ALWAYS: // user said continue, and don't "ask" for this facility again. setonoff(level, ACT_REPORT); break; case BX_LOG_ASK_CHOICE_DIE: case BX_LOG_NOTIFY_FAILED: bx_user_quit = (val==BX_LOG_ASK_CHOICE_DIE)?1:0; in_ask_already = 0; // because fatal will longjmp out fatal(prefix, buf1, ap, 1); // should never get here BX_PANIC(("in ask(), fatal() should never return!")); break; case BX_LOG_ASK_CHOICE_DUMP_CORE: fprintf(stderr, "User chose to dump core...\n"); #if BX_HAVE_ABORT abort(); #else // do something highly illegal that should kill the process. // Hey, this is fun! { char *crashptr = (char *)0; char c = *crashptr; } fprintf(stderr, "Sorry, I couldn't find your abort() function. Exiting."); exit(0); #endif #if BX_DEBUGGER case BX_LOG_ASK_CHOICE_ENTER_DEBUG: // user chose debugger. To "drop into the debugger" we just set the // interrupt_requested bit and continue execution. Before the next // instruction, it should notice the user interrupt and return to // the debugger. bx_debug_break(); break; #elif BX_GDBSTUB case BX_LOG_ASK_CHOICE_ENTER_DEBUG: bx_gdbstub_break(); break; #endif default: // this happens if panics happen before the callback is initialized // in gui/control.cc. fprintf(stderr, "WARNING: log_msg returned unexpected value %d\n", val); } // return to simulation mode SIM->set_display_mode(DISP_MODE_SIM); in_ask_already = 0; } #if BX_WITH_CARBON /* Panic button to display fatal errors. Completely self contained, can't rely on carbon.cc being available */ static void carbonFatalDialog(const char *error, const char *exposition) { DialogRef alertDialog; CFStringRef cfError; CFStringRef cfExposition; DialogItemIndex index; AlertStdCFStringAlertParamRec alertParam = {0}; // Init libraries InitCursor(); // Assemble dialog cfError = CFStringCreateWithCString(NULL, error, kCFStringEncodingASCII); if(exposition != NULL) { cfExposition = CFStringCreateWithCString(NULL, exposition, kCFStringEncodingASCII); } else { cfExposition = NULL; } alertParam.version = kStdCFStringAlertVersionOne; alertParam.defaultText = CFSTR("Quit"); alertParam.position = kWindowDefaultPosition; alertParam.defaultButton = kAlertStdAlertOKButton; // Display Dialog CreateStandardAlert( kAlertStopAlert, cfError, cfExposition, /* can be NULL */ &alertParam, /* can be NULL */ &alertDialog); RunStandardAlert(alertDialog, NULL, &index); // Cleanup CFRelease(cfError); if(cfExposition != NULL) { CFRelease(cfExposition); } } #endif void logfunctions::fatal(const char *prefix, const char *fmt, va_list ap, int exit_status) { #if !BX_WITH_WX // store prefix and message in 'exit_msg' before unloading device plugins char tmpbuf[1024]; char exit_msg[1024]; vsprintf(tmpbuf, fmt, ap); sprintf(exit_msg, "%s %s", prefix, tmpbuf); #endif #if !BX_DEBUGGER bx_atexit(); #endif #if BX_WITH_CARBON if(!isatty(STDIN_FILENO) && !SIM->get_init_done()) { char buf1[1024]; char buf2[1024]; vsnprintf(buf1, sizeof(buf1), fmt, ap); snprintf(buf2, sizeof(buf2), "Bochs startup error\n%s", buf1); carbonFatalDialog(buf2, "For more information, try running Bochs within Terminal by clicking on \"bochs.scpt\"."); } #endif #if !BX_WITH_WX static const char *divider = "========================================================================"; fprintf(stderr, "%s\n", divider); fprintf(stderr, "Bochs is exiting with the following message:\n"); fprintf(stderr, "%s", exit_msg); fprintf(stderr, "\n%s\n", divider); #endif #if !BX_DEBUGGER BX_EXIT(exit_status); #else static bx_bool dbg_exit_called = 0; if (dbg_exit_called == 0) { dbg_exit_called = 1; bx_dbg_exit(exit_status); } #endif // not safe to use BX_* log functions in here. fprintf(stderr, "fatal() should never return, but it just did\n"); } iofunc_t *io = NULL; logfunc_t *genlog = NULL; void bx_center_print(FILE *file, const char *line, unsigned maxwidth) { size_t len = strlen(line); if (len > maxwidth) BX_PANIC(("bx_center_print: line is too long: '%s'", line)); size_t imax = (maxwidth - len) >> 1; for (size_t i=0; i