///////////////////////////////////////////////////////////////////////// // $Id: siminterface.cc,v 1.204 2009-03-26 09:19:56 sshwarts Exp $ ///////////////////////////////////////////////////////////////////////// // // Copyright (C) 2009 The Bochs Project // // 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 // ///////////////////////////////////////////////////////////////////////// // // See siminterface.h for description of the siminterface concept. // Basically, the siminterface is visible from both the simulator and // the configuration user interface, and allows them to talk to each other. #include "iodev.h" bx_simulator_interface_c *SIM = NULL; logfunctions *siminterface_log = NULL; bx_list_c *root_param = NULL; #define LOG_THIS siminterface_log-> // bx_simulator_interface just defines the interface that the Bochs simulator // and the gui will use to talk to each other. None of the methods of // bx_simulator_interface are implemented; they are all virtual. The // bx_real_sim_c class is a child of bx_simulator_interface_c, and it // implements all the methods. The idea is that a gui needs to know only // definition of bx_simulator_interface to talk to Bochs. The gui should // not need to include bochs.h. // // I made this separation to ensure that all guis use the siminterface to do // access bochs internals, instead of accessing things like // bx_keyboard.s.internal_buffer[4] (or whatever) directly. -Bryce // typedef struct _user_option_t { const char *name; user_option_parser_t parser; user_option_save_t savefn; struct _user_option_t *next; } user_option_t; class bx_real_sim_c : public bx_simulator_interface_c { bxevent_handler bxevent_callback; void *bxevent_callback_data; const char *registered_ci_name; config_interface_callback_t ci_callback; void *ci_callback_data; user_option_t *user_options; int init_done; int enabled; // save context to jump to if we must quit unexpectedly jmp_buf *quit_context; int exit_code; unsigned param_id; public: bx_real_sim_c(); virtual ~bx_real_sim_c() {} virtual void set_quit_context(jmp_buf *context) { quit_context = context; } virtual int get_init_done() { return init_done; } virtual int set_init_done(int n) { init_done = n; return 0;} virtual void reset_all_param(); // new param methods virtual bx_param_c *get_param(const char *pname, bx_param_c *base=NULL); virtual bx_param_num_c *get_param_num(const char *pname, bx_param_c *base=NULL); virtual bx_param_string_c *get_param_string(const char *pname, bx_param_c *base=NULL); virtual bx_param_bool_c *get_param_bool(const char *pname, bx_param_c *base=NULL); virtual bx_param_enum_c *get_param_enum(const char *pname, bx_param_c *base=NULL); virtual Bit32u gen_param_id() { return param_id++; } virtual int get_n_log_modules(); virtual char *get_prefix(int mod); virtual int get_log_action(int mod, int level); virtual void set_log_action(int mod, int level, int action); virtual char *get_action_name(int action); virtual int get_default_log_action(int level) { return logfunctions::get_default_action(level); } virtual void set_default_log_action(int level, int action) { logfunctions::set_default_action(level, action); } virtual const char *get_log_level_name(int level); virtual int get_max_log_level() { return N_LOGLEV; } virtual void quit_sim(int code); virtual int get_exit_code() { return exit_code; } virtual int get_default_rc(char *path, int len); virtual int read_rc(const char *path); virtual int write_rc(const char *path, int overwrite); virtual int get_log_file(char *path, int len); virtual int set_log_file(char *path); virtual int get_log_prefix(char *prefix, int len); virtual int set_log_prefix(char *prefix); virtual int get_debugger_log_file(char *path, int len); virtual int set_debugger_log_file(char *path); virtual int get_cdrom_options(int drive, bx_list_c **out, int *device = NULL); virtual void set_notify_callback(bxevent_handler func, void *arg); virtual void get_notify_callback(bxevent_handler *func, void **arg); virtual BxEvent* sim_to_ci_event(BxEvent *event); virtual int log_msg(const char *prefix, int level, const char *msg); virtual int ask_param(bx_param_c *param); virtual int ask_param(const char *pname); // ask the user for a pathname virtual int ask_filename(const char *filename, int maxlen, const char *prompt, const char *the_default, int flags); // yes/no dialog virtual int ask_yes_no(const char *title, const char *prompt, bx_bool the_default); // called at a regular interval, currently by the keyboard handler. virtual void periodic(); virtual int create_disk_image(const char *filename, int sectors, bx_bool overwrite); virtual void refresh_ci(); virtual void refresh_vga() { // maybe need to check if something has been initialized yet? DEV_vga_refresh(); } virtual void handle_events() { // maybe need to check if something has been initialized yet? bx_gui->handle_events(); } // find first hard drive or cdrom bx_param_c *get_first_atadevice(Bit32u search_type); bx_param_c *get_first_cdrom() { return get_first_atadevice(BX_ATA_DEVICE_CDROM); } bx_param_c *get_first_hd() { return get_first_atadevice(BX_ATA_DEVICE_DISK); } #if BX_DEBUGGER virtual void debug_break(); virtual void debug_interpret_cmd (char *cmd); virtual char *debug_get_next_command (); virtual void debug_puts(const char *cmd); #endif virtual void register_configuration_interface ( const char* name, config_interface_callback_t callback, void *userdata); virtual int configuration_interface(const char* name, ci_command_t command); virtual int begin_simulation(int argc, char *argv[]); virtual void set_sim_thread_func(is_sim_thread_func_t func) {} virtual bx_bool is_sim_thread(); bx_bool debug_gui; virtual void set_debug_gui(bx_bool val) { debug_gui = val; } virtual bx_bool has_debug_gui() { return debug_gui; } // provide interface to bx_gui->set_display_mode() method for config // interfaces to use. virtual void set_display_mode(disp_mode_t newmode) { if (bx_gui != NULL) bx_gui->set_display_mode(newmode); } virtual bx_bool test_for_text_console(); // user-defined option support virtual bx_bool register_user_option(const char *keyword, user_option_parser_t parser, user_option_save_t save_func); virtual bx_bool unregister_user_option(const char *keyword); virtual bx_bool is_user_option(const char *keyword); virtual Bit32s parse_user_option(const char *context, int num_params, char *params []); virtual Bit32s save_user_options(FILE *fp); // save/restore support virtual void init_save_restore(); virtual bx_bool save_state(const char *checkpoint_path); virtual bx_bool restore_config(); virtual bx_bool restore_logopts(); virtual bx_bool restore_hardware(); virtual bx_list_c *get_bochs_root() { return (bx_list_c*)get_param("bochs", NULL); } virtual bx_bool restore_bochs_param(bx_list_c *root, const char *sr_path, const char *restore_name); private: bx_bool save_sr_param(FILE *fp, bx_param_c *node, const char *sr_path, int level); }; #if BX_DEBUGGER && BX_DEBUGGER_GUI // FIXME: these probably belong inside the bx_simulator_interface_c structure char *debug_cmd = NULL; bx_bool debug_cmd_ready = 0; bx_bool vgaw_refresh = 0; #endif // recursive function to find parameters from the path static bx_param_c *find_param(const char *full_pname, const char *rest_of_pname, bx_param_c *base) { const char *from = rest_of_pname; char component[BX_PATHNAME_LEN]; char *to = component; // copy the first piece of pname into component, stopping at first separator // or at the end of the string while (*from != 0 && *from != '.') { *to = *from; to++; from++; } *to = 0; if (!component[0]) { BX_PANIC(("find_param: found empty component in parameter name '%s'", full_pname)); // or does that mean that we're done? } if (base->get_type() != BXT_LIST) { BX_PANIC(("find_param: base was not a list!")); } BX_DEBUG(("searching for component '%s' in list '%s'", component, base->get_name())); // find the component in the list. bx_list_c *list = (bx_list_c *)base; bx_param_c *child = list->get_by_name(component); // if child not found, there is nothing else that can be done. return NULL. if (child == NULL) return NULL; if (from[0] == 0) { // that was the end of the path, we're done return child; } // continue parsing the path BX_ASSERT(from[0] == '.'); from++; // skip over the separator return find_param(full_pname, from, child); } bx_param_c *bx_real_sim_c::get_param(const char *pname, bx_param_c *base) { if (base == NULL) base = root_param; // to access top level object, look for parameter "." if (pname[0] == '.' && pname[1] == 0) return base; return find_param(pname, pname, base); } bx_param_num_c *bx_real_sim_c::get_param_num(const char *pname, bx_param_c *base) { bx_param_c *gen = get_param(pname, base); if (gen==NULL) { BX_ERROR(("get_param_num(%s) could not find a parameter", pname)); return NULL; } int type = gen->get_type(); if (type == BXT_PARAM_NUM || type == BXT_PARAM_BOOL || type == BXT_PARAM_ENUM) return (bx_param_num_c *)gen; BX_ERROR(("get_param_num(%s) could not find an integer parameter with that name", pname)); return NULL; } bx_param_string_c *bx_real_sim_c::get_param_string(const char *pname, bx_param_c *base) { bx_param_c *gen = get_param(pname, base); if (gen==NULL) { BX_ERROR(("get_param_string(%s) could not find a parameter", pname)); return NULL; } if (gen->get_type() == BXT_PARAM_STRING) return (bx_param_string_c *)gen; BX_ERROR(("get_param_string(%s) could not find an integer parameter with that name", pname)); return NULL; } bx_param_bool_c *bx_real_sim_c::get_param_bool(const char *pname, bx_param_c *base) { bx_param_c *gen = get_param(pname, base); if (gen==NULL) { BX_ERROR(("get_param_bool(%s) could not find a parameter", pname)); return NULL; } if (gen->get_type () == BXT_PARAM_BOOL) return (bx_param_bool_c *)gen; BX_ERROR(("get_param_bool(%s) could not find a bool parameter with that name", pname)); return NULL; } bx_param_enum_c *bx_real_sim_c::get_param_enum(const char *pname, bx_param_c *base) { bx_param_c *gen = get_param(pname, base); if (gen==NULL) { BX_ERROR(("get_param_enum(%s) could not find a parameter", pname)); return NULL; } if (gen->get_type() == BXT_PARAM_ENUM) return (bx_param_enum_c *)gen; BX_ERROR(("get_param_enum(%s) could not find a enum parameter with that name", pname)); return NULL; } void bx_init_siminterface() { siminterface_log = new logfunctions(); siminterface_log->put("CTRL"); if (SIM == NULL) SIM = new bx_real_sim_c(); if (root_param == NULL) { root_param = new bx_list_c(NULL, "bochs", "list of top level bochs parameters", 30); } } bx_real_sim_c::bx_real_sim_c() { bxevent_callback = NULL; bxevent_callback_data = NULL; ci_callback = NULL; ci_callback_data = NULL; is_sim_thread_func = NULL; debug_gui = 0; enabled = 1; init_done = 0; quit_context = NULL; exit_code = 0; param_id = BXP_NEW_PARAM_ID; user_options = NULL; } void bx_real_sim_c::reset_all_param() { bx_reset_options(); } int bx_real_sim_c::get_n_log_modules() { return io->get_n_logfns(); } char *bx_real_sim_c::get_prefix(int mod) { logfunc_t *logfn = io->get_logfn(mod); return logfn->getprefix(); } int bx_real_sim_c::get_log_action(int mod, int level) { logfunc_t *logfn = io->get_logfn(mod); return logfn->getonoff(level); } void bx_real_sim_c::set_log_action(int mod, int level, int action) { // normal if (mod >= 0) { logfunc_t *logfn = io->get_logfn(mod); logfn->setonoff(level, action); return; } // if called with mod<0 loop over all int nmod = get_n_log_modules (); for (mod=0; modgetaction(action); } const char *bx_real_sim_c::get_log_level_name(int level) { return io->getlevel(level); } void bx_real_sim_c::quit_sim(int code) { BX_INFO(("quit_sim called with exit code %d", code)); exit_code = code; io->exit_log(); // use longjmp to quit cleanly, no matter where in the stack we are. if (quit_context != NULL) { longjmp(*quit_context, 1); BX_PANIC(("in bx_real_sim_c::quit_sim, longjmp should never return")); } else { // use exit() to stop the application. if (!code) BX_PANIC(("Quit simulation command")); ::exit(exit_code); } } int bx_real_sim_c::get_default_rc(char *path, int len) { char *rc = bx_find_bochsrc(); if (rc == NULL) return -1; strncpy(path, rc, len); path[len-1] = 0; return 0; } int bx_real_sim_c::read_rc(const char *rc) { return bx_read_configuration(rc); } // return values: // 0: written ok // -1: failed // -2: already exists, and overwrite was off int bx_real_sim_c::write_rc(const char *rc, int overwrite) { return bx_write_configuration(rc, overwrite); } int bx_real_sim_c::get_log_file(char *path, int len) { strncpy(path, SIM->get_param_string(BXPN_LOG_FILENAME)->getptr(), len); return 0; } int bx_real_sim_c::set_log_file(char *path) { SIM->get_param_string(BXPN_LOG_FILENAME)->set(path); return 0; } int bx_real_sim_c::get_log_prefix(char *prefix, int len) { strncpy(prefix, SIM->get_param_string(BXPN_LOG_PREFIX)->getptr(), len); return 0; } int bx_real_sim_c::set_log_prefix(char *prefix) { SIM->get_param_string(BXPN_LOG_PREFIX)->set(prefix); return 0; } int bx_real_sim_c::get_debugger_log_file(char *path, int len) { strncpy(path, SIM->get_param_string(BXPN_DEBUGGER_LOG_FILENAME)->getptr(), len); return 0; } int bx_real_sim_c::set_debugger_log_file(char *path) { SIM->get_param_string(BXPN_DEBUGGER_LOG_FILENAME)->set(path); return 0; } int bx_real_sim_c::get_cdrom_options(int level, bx_list_c **out, int *where) { char pname[80]; for (Bit8u channel=0; channelget_param(pname); if (SIM->get_param_enum("type", devlist)->get() == BX_ATA_DEVICE_CDROM) { if (level==0) { *out = devlist; if (where != NULL) *where = (channel * 2) + device; return 1; } else { level--; } } } } return 0; } const char *bochs_start_names[] = { "quick", "load", "edit", "run" }; const char *floppy_devtype_names[] = { "none", "5.25\" 360K", "5.25\" 1.2M", "3.5\" 720K", "3.5\" 1.44M", "3.5\" 2.88M", NULL }; const char *floppy_type_names[] = { "none", "1.2M", "1.44M", "2.88M", "720K", "360K", "160K", "180K", "320K", "auto", NULL }; int floppy_type_n_sectors[] = { -1, 80*2*15, 80*2*18, 80*2*36, 80*2*9, 40*2*9, 40*1*8, 40*1*9, 40*2*8, -1 }; const char *bochs_bootdisk_names[] = { "none", "floppy", "disk","cdrom", "network", NULL }; const char *loader_os_names[] = { "none", "linux", "nullkernel", NULL }; const char *keyboard_type_names[] = { "xt", "at", "mf", NULL }; const char *atadevice_type_names[] = { "disk", "cdrom", NULL }; //const char *atadevice_mode_names[] = { "flat", "concat", "external", "dll", "sparse", "vmware3", "vmware4", "undoable", "growing", "volatile", "z-undoable", "z-volatile", NULL }; const char *atadevice_mode_names[] = { "flat", "concat", "external", "dll", "sparse", "vmware3", "vmware4", "undoable", "growing", "volatile", NULL }; const char *atadevice_biosdetect_names[] = { "none", "auto", "cmos", NULL }; const char *atadevice_translation_names[] = { "none", "lba", "large", "rechs", "auto", NULL }; const char *clock_sync_names[] = { "none", "realtime", "slowdown", "both", NULL }; void bx_real_sim_c::set_notify_callback(bxevent_handler func, void *arg) { bxevent_callback = func; bxevent_callback_data = arg; } void bx_real_sim_c::get_notify_callback(bxevent_handler *func, void **arg) { *func = bxevent_callback; *arg = bxevent_callback_data; } BxEvent *bx_real_sim_c::sim_to_ci_event(BxEvent *event) { if (bxevent_callback == NULL) { BX_ERROR(("notify called, but no bxevent_callback function is registered")); return NULL; } else { return (*bxevent_callback)(bxevent_callback_data, event); } } // returns 0 for continue, 1 for alwayscontinue, 2 for die. int bx_real_sim_c::log_msg(const char *prefix, int level, const char *msg) { BxEvent be; be.type = BX_SYNC_EVT_LOG_ASK; be.u.logmsg.prefix = prefix; be.u.logmsg.level = level; be.u.logmsg.msg = msg; // default return value in case something goes wrong. be.retcode = BX_LOG_NOTIFY_FAILED; // calling notify sim_to_ci_event (&be); return be.retcode; } // Called by simulator whenever it needs the user to choose a new value // for a registered parameter. Create a synchronous ASK_PARAM event, // send it to the CI, and wait for the response. The CI will call the // set() method on the parameter if the user changes the value. int bx_real_sim_c::ask_param(bx_param_c *param) { BX_ASSERT(param != NULL); // create appropriate event BxEvent event; event.type = BX_SYNC_EVT_ASK_PARAM; event.u.param.param = param; sim_to_ci_event(&event); return event.retcode; } int bx_real_sim_c::ask_param(const char *pname) { bx_param_c *paramptr = SIM->get_param(pname); BX_ASSERT(paramptr != NULL); // create appropriate event BxEvent event; event.type = BX_SYNC_EVT_ASK_PARAM; event.u.param.param = paramptr; sim_to_ci_event(&event); return event.retcode; } int bx_real_sim_c::ask_filename(const char *filename, int maxlen, const char *prompt, const char *the_default, int flags) { BxEvent event; bx_param_string_c param(NULL, "filename", prompt, "", the_default, maxlen); flags |= param.IS_FILENAME; param.set_options(flags); event.type = BX_SYNC_EVT_ASK_PARAM; event.u.param.param = ¶m; sim_to_ci_event(&event); if (event.retcode >= 0) memcpy((char *)filename, param.getptr(), maxlen); return event.retcode; } int bx_real_sim_c::ask_yes_no(const char *title, const char *prompt, bx_bool the_default) { BxEvent event; char format[512]; bx_param_bool_c param(NULL, "yes_no", title, prompt, the_default); sprintf(format, "%s\n\n%s [%%s] ", title, prompt); param.set_ask_format(format); event.type = BX_SYNC_EVT_ASK_PARAM; event.u.param.param = ¶m; sim_to_ci_event(&event); if (event.retcode >= 0) { return param.get(); } else { return event.retcode; } } void bx_real_sim_c::periodic() { // give the GUI a chance to do periodic things on the bochs thread. in // particular, notice if the thread has been asked to die. BxEvent tick; tick.type = BX_SYNC_EVT_TICK; sim_to_ci_event (&tick); if (tick.retcode < 0) { BX_INFO(("Bochs thread has been asked to quit.")); #if !BX_DEBUGGER bx_atexit(); quit_sim(0); #else bx_dbg_exit(0); #endif } static int refresh_counter = 0; if (++refresh_counter == 50) { // only ask the CI to refresh every 50 times periodic() is called. // This should obviously be configurable because system speeds and // user preferences vary. refresh_ci(); refresh_counter = 0; } } // create a disk image file called filename, size=512 bytes * sectors. // If overwrite is 0 and the file exists, returns -1 without changing it. // Otherwise, opens up the image and starts writing. Returns -2 if // the image could not be opened, or -3 if there are failures during // write, e.g. disk full. // // wxWidgets: This may be called from the gui thread. int bx_real_sim_c::create_disk_image(const char *filename, int sectors, bx_bool overwrite) { FILE *fp; if (!overwrite) { // check for existence first fp = fopen(filename, "r"); if (fp) { // yes it exists fclose(fp); return -1; } } fp = fopen(filename, "w"); if (fp == NULL) { #ifdef HAVE_PERROR char buffer[1024]; sprintf(buffer, "while opening '%s' for writing", filename); perror(buffer); // not sure how to get this back into the CI #endif return -2; } int sec = sectors; /* * seek to sec*512-1 and write a single character. * can't just do: fseek(fp, 512*sec-1, SEEK_SET) * because 512*sec may be too large for signed int. */ while (sec > 0) { /* temp <-- min(sec, 4194303) * 4194303 is (int)(0x7FFFFFFF/512) */ int temp = ((sec < 4194303) ? sec : 4194303); fseek(fp, 512*temp, SEEK_CUR); sec -= temp; } fseek(fp, -1, SEEK_CUR); if (fputc('\0', fp) == EOF) { fclose(fp); return -3; } fclose(fp); return 0; } void bx_real_sim_c::refresh_ci() { if (SIM->has_debug_gui()) { // presently, only wxWidgets interface uses these events // It's an async event, so allocate a pointer and send it. // The event will be freed by the recipient. BxEvent *event = new BxEvent(); event->type = BX_ASYNC_EVT_REFRESH; sim_to_ci_event(event); } } bx_param_c *bx_real_sim_c::get_first_atadevice(Bit32u search_type) { char pname[80]; for (int channel=0; channelget_param_bool(pname)->get()) continue; for (int slave=0; slave<2; slave++) { sprintf(pname, "ata.%d.%s.present", channel, (slave==0)?"master":"slave"); Bit32u present = SIM->get_param_bool(pname)->get(); sprintf(pname, "ata.%d.%s.type", channel, (slave==0)?"master":"slave"); Bit32u type = SIM->get_param_enum(pname)->get(); if (present && (type == search_type)) { sprintf(pname, "ata.%d.%s", channel, (slave==0)?"master":"slave"); return SIM->get_param(pname); } } } return NULL; } #if BX_DEBUGGER // this can be safely called from either thread. void bx_real_sim_c::debug_break() { bx_debug_break(); } // this should only be called from the sim_thread. void bx_real_sim_c::debug_interpret_cmd(char *cmd) { if (!is_sim_thread()) { fprintf(stderr, "ERROR: debug_interpret_cmd called but not from sim_thread\n"); return; } bx_dbg_interpret_line(cmd); } char *bx_real_sim_c::debug_get_next_command() { BxEvent event; event.type = BX_SYNC_EVT_GET_DBG_COMMAND; BX_DEBUG(("asking for next debug command")); sim_to_ci_event (&event); BX_DEBUG(("received next debug command: '%s'", event.u.debugcmd.command)); if (event.retcode >= 0) return event.u.debugcmd.command; return NULL; } void bx_real_sim_c::debug_puts(const char *text) { if (SIM->has_debug_gui()) { // send message to the wxWidgets debugger BxEvent *event = new BxEvent(); event->type = BX_ASYNC_EVT_DBG_MSG; event->u.logmsg.msg = text; sim_to_ci_event(event); } else { // text mode debugger: just write to console fputs(text, stdout); } } #endif void bx_real_sim_c::register_configuration_interface( const char* name, config_interface_callback_t callback, void *userdata) { ci_callback = callback; ci_callback_data = userdata; registered_ci_name = name; } int bx_real_sim_c::configuration_interface(const char *ignore, ci_command_t command) { bx_param_enum_c *ci_param = SIM->get_param_enum(BXPN_SEL_CONFIG_INTERFACE); const char *name = ci_param->get_selected(); if (!ci_callback) { BX_PANIC(("no configuration interface was loaded")); return -1; } if (strcmp(name, registered_ci_name) != 0) { BX_PANIC(("siminterface does not support loading one configuration interface and then calling another")); return -1; } if (!strcmp(name, "wx")) debug_gui = 1; else debug_gui = 0; // enter configuration mode, just while running the configuration interface set_display_mode(DISP_MODE_CONFIG); int retval = (*ci_callback)(ci_callback_data, command); set_display_mode(DISP_MODE_SIM); return retval; } int bx_real_sim_c::begin_simulation(int argc, char *argv[]) { return bx_begin_simulation(argc, argv); } bx_bool bx_real_sim_c::is_sim_thread() { if (is_sim_thread_func == NULL) return 1; return (*is_sim_thread_func)(); } // check if the text console exists. On some platforms, if Bochs is // started from the "Start Menu" or by double clicking on it on a Mac, // there may be nothing attached to stdin/stdout/stderr. This function // tests if stdin/stdout/stderr are usable and returns 0 if not. bx_bool bx_real_sim_c::test_for_text_console() { #if BX_WITH_CARBON // In a Carbon application, you have a text console if you run the app from // the command line, but if you start it from the finder you don't. if(!isatty(STDIN_FILENO)) return 0; #endif // default: yes return 1; } bx_bool bx_real_sim_c::is_user_option(const char *keyword) { user_option_t *user_option; for (user_option = user_options; user_option; user_option = user_option->next) { if (!strcmp(user_option->name, keyword)) return 1; } return 0; } bx_bool bx_real_sim_c::register_user_option(const char *keyword, user_option_parser_t parser, user_option_save_t save_func) { user_option_t *user_option; user_option = (user_option_t *)malloc(sizeof(user_option_t)); if (user_option == NULL) { BX_PANIC(("can't allocate user_option_t")); return 0; } user_option->name = keyword; user_option->parser = parser; user_option->savefn = save_func; user_option->next = NULL; if (user_options == NULL) { user_options = user_option; } else { user_option_t *temp = user_options; while (temp->next) { if (!strcmp(temp->name, keyword)) { free(user_option); return 0; } temp = temp->next; } temp->next = user_option; } return 1; } bx_bool bx_real_sim_c::unregister_user_option(const char *keyword) { user_option_t *user_option, *prev = NULL; for (user_option = user_options; user_option; user_option = user_option->next) { if (!strcmp(user_option->name, keyword)) { if (prev == NULL) { user_options = user_option->next; } else { prev->next = user_option->next; } free(user_option); return 1; } else { prev = user_option; } } return 0; } Bit32s bx_real_sim_c::parse_user_option(const char *context, int num_params, char *params []) { user_option_t *user_option; for (user_option = user_options; user_option; user_option = user_option->next) { if ((!strcmp(user_option->name, params[0])) && (user_option->parser != NULL)) { return (*user_option->parser)(context, num_params, params); } } return -1; } Bit32s bx_real_sim_c::save_user_options(FILE *fp) { user_option_t *user_option; for (user_option = user_options; user_option; user_option = user_option->next) { if (user_option->savefn != NULL) { (*user_option->savefn)(fp); } } return 0; } void bx_real_sim_c::init_save_restore() { bx_list_c *list; if ((list = get_bochs_root()) != NULL) { list->clear(); } else { list = new bx_list_c(root_param, "bochs", "subtree for save/restore", 30 + BX_MAX_SMP_THREADS_SUPPORTED); } } bx_bool bx_real_sim_c::save_state(const char *checkpoint_path) { char sr_file[BX_PATHNAME_LEN]; char prefix[8]; int i, dev, ndev = SIM->get_n_log_modules(); int type, ntype = SIM->get_max_log_level(); sprintf(sr_file, "%s/config", checkpoint_path); if (write_rc(sr_file, 1) < 0) return 0; sprintf(sr_file, "%s/logopts", checkpoint_path); FILE *fp = fopen(sr_file, "w"); if (fp != NULL) { for (dev=0; dev= 0) && (prefix[i] == ' ')) prefix[i--] = 0; if (strlen(prefix) > 0) { fprintf(fp, "%s: ", prefix); for (type=0; type 0) fprintf(fp, ", "); fprintf(fp, "%s=%s", get_log_level_name(type), get_action_name(get_log_action(dev, type))); } fprintf(fp, "\n"); } } fclose(fp); } else { return 0; } bx_list_c *sr_list = get_bochs_root(); ndev = sr_list->get_size(); for (dev=0; devget(dev)->get_name()); fp = fopen(sr_file, "w"); if (fp != NULL) { save_sr_param(fp, sr_list->get(dev), checkpoint_path, 0); fclose(fp); } else { return 0; } } return 1; } bx_bool bx_real_sim_c::restore_config() { char config[BX_PATHNAME_LEN]; sprintf(config, "%s/config", get_param_string(BXPN_RESTORE_PATH)->getptr()); BX_INFO(("restoring '%s'", config)); return (read_rc(config) >= 0); } bx_bool bx_real_sim_c::restore_logopts() { char logopts[BX_PATHNAME_LEN]; char line[512], string[512], prefix[8]; char *ret, *ptr; int d, i, j, dev = 0, type = 0, action = 0; int ndev = SIM->get_n_log_modules(); FILE *fp; sprintf(logopts, "%s/logopts", get_param_string(BXPN_RESTORE_PATH)->getptr()); BX_INFO(("restoring '%s'", logopts)); fp = fopen(logopts, "r"); if (fp != NULL) { do { ret = fgets(line, sizeof(line)-1, fp); line[sizeof(line) - 1] = '\0'; int len = strlen(line); if ((len>0) && (line[len-1] < ' ')) line[len-1] = '\0'; i = 0; if ((ret != NULL) && strlen(line)) { ptr = strtok(line, ":"); while (ptr) { strcpy(string, ptr); while (isspace(string[0])) strcpy(string, string+1); while (isspace(string[strlen(string)-1])) string[strlen(string)-1] = 0; if (i == 0) { sprintf(prefix, "[%-5s]", string); dev = -1; for (d = 0; d < ndev; d++) { if (!strcmp(prefix, get_prefix(d))) { dev = d; } } } else if (dev >= 0) { j = 6; if (!strncmp(string, "DEBUG=", 6)) { type = LOGLEV_DEBUG; } else if (!strncmp(string, "INFO=", 5)) { type = LOGLEV_INFO; j = 5; } else if (!strncmp(string, "ERROR=", 6)) { type = LOGLEV_ERROR; } else if (!strncmp(string, "PANIC=", 6)) { type = LOGLEV_PANIC; } else if (!strncmp(string, "PASS=", 5)) { type = LOGLEV_PASS; j = 5; } if (!strcmp(string+j, "ignore")) { action = ACT_IGNORE; } else if (!strcmp(string+j, "report")) { action = ACT_REPORT; } else if (!strcmp(string+j, "ask")) { action = ACT_ASK; } else if (!strcmp(string+j, "fatal")) { action = ACT_FATAL; } set_log_action(dev, type, action); } else { if (i == 1) { BX_ERROR(("restore_logopts(): log module '%s' not found", prefix)); } } i++; ptr = strtok(NULL, ","); } } } while (!feof(fp)); fclose(fp); } else { return 0; } return 1; } bx_bool bx_real_sim_c::restore_bochs_param(bx_list_c *root, const char *sr_path, const char *restore_name) { char devstate[BX_PATHNAME_LEN], devdata[BX_PATHNAME_LEN]; char line[512], buf[512], pname[80]; char *ret, *ptr; int i, j, p; unsigned n; bx_param_c *param = NULL; FILE *fp, *fp2; if (root->get_by_name(restore_name) == NULL) { BX_ERROR(("restore_bochs_param(): unknown parameter to restore")); return 0; } sprintf(devstate, "%s/%s", sr_path, restore_name); BX_INFO(("restoring '%s'", devstate)); bx_list_c *base = root; fp = fopen(devstate, "r"); if (fp != NULL) { do { ret = fgets(line, sizeof(line)-1, fp); line[sizeof(line) - 1] = '\0'; int len = strlen(line); if ((len>0) && (line[len-1] < ' ')) line[len-1] = '\0'; i = 0; if ((ret != NULL) && strlen(line)) { ptr = strtok(line, " "); while (ptr) { if (i == 0) { if (!strcmp(ptr, "}")) { base = (bx_list_c*)base->get_parent(); break; } else { param = get_param(ptr, base); } } else if (i == 2) { if (param == NULL) { BX_PANIC(("cannot find param!")); } else { if (param->get_type() != BXT_LIST) { param->get_param_path(pname, 80); BX_DEBUG(("restoring parameter '%s'", pname)); } switch (param->get_type()) { case BXT_PARAM_NUM: if ((ptr[0] == '0') && (ptr[1] == 'x')) { ((bx_param_num_c*)param)->set(strtoull(ptr, NULL, 16)); } else { ((bx_param_num_c*)param)->set(strtoull(ptr, NULL, 10)); } break; case BXT_PARAM_BOOL: ((bx_param_bool_c*)param)->set(!strcmp(ptr, "true")); break; case BXT_PARAM_ENUM: ((bx_param_enum_c*)param)->set_by_name(ptr); break; case BXT_PARAM_STRING: if (((bx_param_string_c*)param)->get_options() & bx_param_string_c::RAW_BYTES) { p = 0; for (j = 0; j < ((bx_param_string_c*)param)->get_maxsize(); j++) { if (ptr[p] == ((bx_param_string_c*)param)->get_separator()) { p++; } if (sscanf(ptr+p, "%02x", &n) == 1) { buf[j] = n; p += 2; } } ((bx_param_string_c*)param)->set(buf); } else { ((bx_param_string_c*)param)->set(ptr); } break; case BXT_PARAM_DATA: sprintf(devdata, "%s/%s", sr_path, ptr); fp2 = fopen(devdata, "rb"); if (fp2 != NULL) { fread(((bx_shadow_data_c*)param)->getptr(), 1, ((bx_shadow_data_c*)param)->get_size(), fp2); fclose(fp2); } break; case BXT_LIST: base = (bx_list_c*)param; break; default: BX_ERROR(("restore_sr_param(): unknown parameter type")); } } } i++; ptr = strtok(NULL, " "); } } } while (!feof(fp)); fclose(fp); } else { BX_ERROR(("restore_bochs_param(): error in file open")); return 0; } return 1; } bx_bool bx_real_sim_c::restore_hardware() { bx_list_c *sr_list = get_bochs_root(); int ndev = sr_list->get_size(); for (int dev=0; devgetptr(), sr_list->get(dev)->get_name())) return 0; } return 1; } bx_bool bx_real_sim_c::save_sr_param(FILE *fp, bx_param_c *node, const char *sr_path, int level) { int i; Bit64s value; char tmpstr[BX_PATHNAME_LEN], tmpbyte[4]; FILE *fp2; for (i=0; iget_format()) { fprintf(fp, node->get_format(), value); } else { if ((Bit64u)((bx_param_num_c*)node)->get_max() > BX_MAX_BIT32U) { fprintf(fp, "0x"FMT_LL"x", (Bit64u) value); } else { fprintf(fp, "0x%x", (Bit32u) value); } } fprintf(fp, "\n"); } break; case BXT_PARAM_BOOL: fprintf(fp, "%s\n", ((bx_param_bool_c*)node)->get()?"true":"false"); break; case BXT_PARAM_ENUM: fprintf(fp, "%s\n", ((bx_param_enum_c*)node)->get_selected()); break; case BXT_PARAM_STRING: if (((bx_param_string_c*)node)->get_options() & bx_param_string_c::RAW_BYTES) { tmpstr[0] = 0; for (i = 0; i < ((bx_param_string_c*)node)->get_maxsize(); i++) { if (i > 0) { tmpbyte[0] = ((bx_param_string_c*)node)->get_separator(); tmpbyte[1] = 0; strcat(tmpstr, tmpbyte); } sprintf(tmpbyte, "%02x", (Bit8u)((bx_param_string_c*)node)->getptr()[i]); strcat(tmpstr, tmpbyte); } fprintf(fp, "%s\n", tmpstr); } else { fprintf(fp, "%s\n", ((bx_param_string_c*)node)->getptr()); } break; case BXT_PARAM_DATA: fprintf(fp, "%s.%s\n", node->get_parent()->get_name(), node->get_name()); if (sr_path) sprintf(tmpstr, "%s/%s.%s", sr_path, node->get_parent()->get_name(), node->get_name()); else sprintf(tmpstr, "%s.%s", node->get_parent()->get_name(), node->get_name()); fp2 = fopen(tmpstr, "wb"); if (fp2 != NULL) { fwrite(((bx_shadow_data_c*)node)->getptr(), 1, ((bx_shadow_data_c*)node)->get_size(), fp2); fclose(fp2); } break; case BXT_LIST: { fprintf(fp, "{\n"); bx_list_c *list = (bx_list_c*)node; for (i=0; i < list->get_size(); i++) { save_sr_param(fp, list->get(i), sr_path, level+1); } for (i=0; iname = new char[strlen(param_name)+1]; strcpy(this->name, param_name); set_description(param_desc); this->text_format = default_text_format; this->long_text_format = default_text_format; this->runtime_param = 0; this->enabled = 1; } bx_param_c::bx_param_c(Bit32u id, const char *param_name, const char *param_label, const char *param_desc) : bx_object_c(id), parent(NULL), description(NULL), label(NULL), ask_format(NULL), group_name(NULL) { set_type(BXT_PARAM); this->name = new char[strlen(param_name)+1]; strcpy(this->name, param_name); set_description(param_desc); set_label(param_label); this->text_format = default_text_format; this->long_text_format = default_text_format; this->runtime_param = 0; this->enabled = 1; } bx_param_c::~bx_param_c() { delete [] name; delete [] label; delete [] description; delete [] ask_format; delete [] group_name; } void bx_param_c::set_description(const char *text) { delete [] this->description; if (text) { this->description = new char[strlen(text)+1]; strcpy(this->description, text); } else { this->description = NULL; } } void bx_param_c::set_label(const char *text) { delete [] this->label; if (text) { this->label = new char[strlen(text)+1]; strcpy(this->label, text); } else { this->label = NULL; } } void bx_param_c::set_ask_format(const char *format) { delete [] this->ask_format; if (format) { this->ask_format = new char[strlen(format)+1]; strcpy(this->ask_format, format); } else { this->ask_format = NULL; } } void bx_param_c::set_group(const char *group) { delete [] this->group_name; if (group) { this->group_name = new char[strlen(group)+1]; strcpy(this->group_name, group); } else { this->group_name = NULL; } } int bx_param_c::get_param_path(char *path_out, int maxlen) { if ((get_parent() == NULL) || (get_parent() == root_param)) { // Start with an empty string. // Never print the name of the root param. path_out[0] = 0; } else { // build path of the parent, add a period, add path of this node if (get_parent()->get_param_path(path_out, maxlen) > 0) { strncat(path_out, ".", maxlen); } } strncat(path_out, name, maxlen); return strlen(path_out); } const char* bx_param_c::set_default_format(const char *f) { const char *old = default_text_format; default_text_format = f; return old; } bx_param_num_c::bx_param_num_c(bx_param_c *parent, const char *name, const char *label, const char *description, Bit64s min, Bit64s max, Bit64s initial_val, bx_bool is_shadow) : bx_param_c(SIM->gen_param_id(), name, label, description) { set_type(BXT_PARAM_NUM); this->min = min; this->max = max; this->initial_val = initial_val; this->val.number = initial_val; this->handler = NULL; this->save_handler = NULL; this->restore_handler = NULL; this->enable_handler = NULL; this->base = default_base; this->is_shadow = is_shadow; // dependent_list must be initialized before the set(), // because set calls update_dependents(). dependent_list = NULL; if (!is_shadow) { set(initial_val); } if (parent) { BX_ASSERT(parent->get_type() == BXT_LIST); this->parent = (bx_list_c *)parent; this->parent->add(this); } } Bit32u bx_param_num_c::default_base = BASE_DEC; Bit32u bx_param_num_c::set_default_base(Bit32u val) { Bit32u old = default_base; default_base = val; return old; } void bx_param_num_c::set_handler(param_event_handler handler) { this->handler = handler; // now that there's a handler, call set once to run the handler immediately //set (get ()); } void bx_param_num_c::set_sr_handlers(void *devptr, param_sr_handler save, param_sr_handler restore) { this->sr_devptr = devptr; this->save_handler = save; this->restore_handler = restore; } void bx_param_num_c::set_dependent_list(bx_list_c *l) { dependent_list = l; update_dependents(); } Bit64s bx_param_num_c::get64() { if (save_handler) { return (*save_handler)(sr_devptr, this, val.number); } if (handler) { // the handler can decide what value to return and/or do some side effect return (*handler)(this, 0, val.number); } else { // just return the value return val.number; } } void bx_param_num_c::set(Bit64s newval) { if (handler) { // the handler can override the new value and/or perform some side effect val.number = newval; (*handler)(this, 1, newval); } else { // just set the value. This code does not check max/min. val.number = newval; } if (restore_handler) { val.number = newval; (*restore_handler)(sr_devptr, this, newval); } if ((val.number < min || val.number > max) && (Bit64u)max != BX_MAX_BIT64U) BX_PANIC(("numerical parameter '%s' was set to " FMT_LL "d, which is out of range " FMT_LL "d to " FMT_LL "d", get_name (), val.number, min, max)); if (dependent_list != NULL) update_dependents(); } void bx_param_num_c::set_range(Bit64u min, Bit64u max) { this->min = min; this->max = max; } void bx_param_num_c::set_initial_val(Bit64s initial_val) { this->val.number = this->initial_val = initial_val; } void bx_param_num_c::update_dependents() { if (dependent_list) { int en = val.number && enabled; for (int i=0; iget_size(); i++) { bx_param_c *param = dependent_list->get(i); if (param != this) param->set_enabled(en); } } } void bx_param_num_c::set_enabled(int en) { // The enable handler may wish to allow/disallow the action if (enable_handler) { en = (*enable_handler)(this, en); } bx_param_c::set_enabled(en); update_dependents(); } // Signed 64 bit bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent, const char *name, Bit64s *ptr_to_real_val, int base, Bit8u highbit, Bit8u lowbit) : bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT64S, BX_MAX_BIT64S, *ptr_to_real_val, 1) { this->varsize = 64; this->lowbit = lowbit; this->mask = ((BX_MAX_BIT64S >> (63 - (highbit - lowbit))) << lowbit); val.p64bit = ptr_to_real_val; if (base == BASE_HEX) { this->base = base; this->text_format = "0x"FMT_LL"x"; } } // Unsigned 64 bit bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent, const char *name, Bit64u *ptr_to_real_val, int base, Bit8u highbit, Bit8u lowbit) : bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT64U, BX_MAX_BIT64U, *ptr_to_real_val, 1) { this->varsize = 64; this->lowbit = lowbit; this->mask = ((BX_MAX_BIT64U >> (63 - (highbit - lowbit))) << lowbit); val.p64bit = (Bit64s*) ptr_to_real_val; if (base == BASE_HEX) { this->base = base; this->text_format = "0x"FMT_LL"x"; } } // Signed 32 bit bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent, const char *name, Bit32s *ptr_to_real_val, int base, Bit8u highbit, Bit8u lowbit) : bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT32S, BX_MAX_BIT32S, *ptr_to_real_val, 1) { this->varsize = 32; this->lowbit = lowbit; this->mask = ((BX_MAX_BIT32S >> (31 - (highbit - lowbit))) << lowbit); val.p32bit = ptr_to_real_val; if (base == BASE_HEX) { this->base = base; this->text_format = "0x%08x"; } } // Unsigned 32 bit bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent, const char *name, Bit32u *ptr_to_real_val, int base, Bit8u highbit, Bit8u lowbit) : bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT32U, BX_MAX_BIT32U, *ptr_to_real_val, 1) { this->varsize = 32; this->lowbit = lowbit; this->mask = ((BX_MAX_BIT32U >> (31 - (highbit - lowbit))) << lowbit); val.p32bit = (Bit32s*) ptr_to_real_val; if (base == BASE_HEX) { this->base = base; this->text_format = "0x%08x"; } } // Signed 16 bit bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent, const char *name, Bit16s *ptr_to_real_val, int base, Bit8u highbit, Bit8u lowbit) : bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT16S, BX_MAX_BIT16S, *ptr_to_real_val, 1) { this->varsize = 16; this->lowbit = lowbit; this->mask = ((BX_MAX_BIT16S >> (15 - (highbit - lowbit))) << lowbit); val.p16bit = ptr_to_real_val; if (base == BASE_HEX) { this->base = base; this->text_format = "0x%04x"; } } // Unsigned 16 bit bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent, const char *name, Bit16u *ptr_to_real_val, int base, Bit8u highbit, Bit8u lowbit) : bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT16U, BX_MAX_BIT16U, *ptr_to_real_val, 1) { this->varsize = 16; this->lowbit = lowbit; this->mask = ((BX_MAX_BIT16U >> (15 - (highbit - lowbit))) << lowbit); val.p16bit = (Bit16s*) ptr_to_real_val; if (base == BASE_HEX) { this->base = base; this->text_format = "0x%04x"; } } // Signed 8 bit bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent, const char *name, Bit8s *ptr_to_real_val, int base, Bit8u highbit, Bit8u lowbit) : bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT8S, BX_MAX_BIT8S, *ptr_to_real_val, 1) { this->varsize = 8; this->lowbit = lowbit; this->mask = ((BX_MAX_BIT8S >> (7 - (highbit - lowbit))) << lowbit); this->mask = (1 << (highbit - lowbit)) - 1; val.p8bit = ptr_to_real_val; if (base == BASE_HEX) { this->base = base; this->text_format = "0x%02x"; } } // Unsigned 8 bit bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent, const char *name, Bit8u *ptr_to_real_val, int base, Bit8u highbit, Bit8u lowbit) : bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT8U, BX_MAX_BIT8U, *ptr_to_real_val, 1) { this->varsize = 8; this->lowbit = lowbit; this->mask = ((BX_MAX_BIT8U >> (7 - (highbit - lowbit))) << lowbit); val.p8bit = (Bit8s*) ptr_to_real_val; if (base == BASE_HEX) { this->base = base; this->text_format = "0x%02x"; } } Bit64s bx_shadow_num_c::get64() { Bit64u current = 0; switch (varsize) { case 8: current = *(val.p8bit); break; case 16: current = *(val.p16bit); break; case 32: current = *(val.p32bit); break; case 64: current = *(val.p64bit); break; default: BX_PANIC(("unsupported varsize %d", varsize)); } current = (current >> lowbit) & mask; if (handler) { // the handler can decide what value to return and/or do some side effect return (*handler)(this, 0, current) & mask; } else { // just return the value return current; } } void bx_shadow_num_c::set(Bit64s newval) { Bit64u tmp = 0; if (((newval < min) || (newval > max)) && (min != BX_MIN_BIT64S) && ((Bit64u)max != BX_MAX_BIT64U)) BX_PANIC(("numerical parameter %s was set to " FMT_LL "d, which is out of range " FMT_LL "d to " FMT_LL "d", get_name (), newval, min, max)); switch (varsize) { case 8: tmp = *(val.p8bit) & ~(mask << lowbit); tmp |= (newval & mask) << lowbit; *(val.p8bit) = (Bit8s)tmp; break; case 16: tmp = *(val.p16bit) & ~(mask << lowbit); tmp |= (newval & mask) << lowbit; *(val.p16bit) = (Bit16s)tmp; break; case 32: tmp = *(val.p32bit) & ~(mask << lowbit); tmp |= (newval & mask) << lowbit; *(val.p32bit) = (Bit32s)tmp; break; case 64: tmp = *(val.p64bit) & ~(mask << lowbit); tmp |= (newval & mask) << lowbit; *(val.p64bit) = (Bit64s)tmp; break; default: BX_PANIC(("unsupported varsize %d", varsize)); } if (handler) { // the handler can override the new value and/or perform some side effect (*handler)(this, 1, tmp); } } void bx_shadow_num_c::reset() { BX_PANIC(("reset not supported on bx_shadow_num_c yet")); } bx_param_bool_c::bx_param_bool_c(bx_param_c *parent, const char *name, const char *label, const char *description, Bit64s initial_val, bx_bool is_shadow) : bx_param_num_c(parent, name, label, description, 0, 1, initial_val, is_shadow) { set_type(BXT_PARAM_BOOL); } bx_shadow_bool_c::bx_shadow_bool_c(bx_param_c *parent, const char *name, const char *label, bx_bool *ptr_to_real_val, Bit8u bitnum) : bx_param_bool_c(parent, name, label, NULL, (Bit64s) *ptr_to_real_val, 1) { val.pbool = ptr_to_real_val; this->bitnum = bitnum; } bx_shadow_bool_c::bx_shadow_bool_c(bx_param_c *parent, const char *name, bx_bool *ptr_to_real_val, Bit8u bitnum) : bx_param_bool_c(parent, name, NULL, NULL, (Bit64s) *ptr_to_real_val, 1) { val.pbool = ptr_to_real_val; this->bitnum = bitnum; } Bit64s bx_shadow_bool_c::get64() { if (handler) { // the handler can decide what value to return and/or do some side effect Bit64s ret = (*handler)(this, 0, (Bit64s) *(val.pbool)); return (ret>>bitnum) & 1; } else { // just return the value return (*(val.pbool)) & 1; } } void bx_shadow_bool_c::set(Bit64s newval) { // only change the bitnum bit Bit64s tmp = (newval&1) << bitnum; *(val.pbool) &= ~tmp; *(val.pbool) |= tmp; if (handler) { // the handler can override the new value and/or perform some side effect (*handler)(this, 1, newval&1); } } bx_param_enum_c::bx_param_enum_c(bx_param_c *parent, const char *name, const char *label, const char *description, const char **choices, Bit64s initial_val, Bit64s value_base) : bx_param_num_c(parent, name, label, description, value_base, BX_MAX_BIT64S, initial_val) { set_type(BXT_PARAM_ENUM); this->choices = choices; // count number of choices, set max const char **p = choices; while (*p != NULL) p++; this->min = value_base; // now that the max is known, replace the BX_MAX_BIT64S sent to the parent // class constructor with the real max. this->max = value_base + (p - choices - 1); this->deps_bitmap = NULL; set(initial_val); } bx_param_enum_c::~bx_param_enum_c() { if (deps_bitmap != NULL) { free(deps_bitmap); } } void bx_param_enum_c::set(Bit64s val) { bx_param_num_c::set(val); update_dependents(); } int bx_param_enum_c::find_by_name(const char *string) { const char **p; for (p=&choices[0]; *p; p++) { if (!strcmp(string, *p)) return p-choices; } return -1; } bx_bool bx_param_enum_c::set_by_name(const char *string) { int n = find_by_name(string); if (n<0) return 0; set(n + min); return 1; } void bx_param_enum_c::set_dependent_list(bx_list_c *l, bx_bool enable_all) { dependent_list = l; deps_bitmap = (Bit64u*)malloc(sizeof(Bit64u) * (max - min + 1)); for (int i=0; i<(max-min+1); i++) { if (enable_all) { deps_bitmap[i] = (1 << (l->get_size())) - 1; } else { deps_bitmap[i] = 0; } } update_dependents(); } void bx_param_enum_c::set_dependent_bitmap(Bit64s value, Bit64u bitmap) { if (deps_bitmap != NULL) { deps_bitmap[value - min] = bitmap; } update_dependents(); } Bit64u bx_param_enum_c::get_dependent_bitmap(Bit64s value) { if (deps_bitmap != NULL) { return deps_bitmap[value - min]; } return 0; } void bx_param_enum_c::update_dependents() { if ((dependent_list != NULL) && (deps_bitmap != NULL)) { Bit64u en_bmap = deps_bitmap[val.number - min]; Bit64u mask = 0x1; for (int i=0; iget_size(); i++) { int en = (en_bmap & mask) && enabled; bx_param_c *param = dependent_list->get(i); if (param != this) param->set_enabled(en); mask <<= 1; } } } bx_param_string_c::bx_param_string_c(bx_param_c *parent, const char *name, const char *label, const char *description, const char *initial_val, int maxsize) : bx_param_c(SIM->gen_param_id(), name, label, description) { set_type(BXT_PARAM_STRING); int initial_val_size = strlen(initial_val) + 1; if (maxsize < 0) { maxsize = initial_val_size; } else if (initial_val_size > maxsize) { initial_val_size = maxsize; } this->val = new char[maxsize]; this->initial_val = new char[maxsize]; this->handler = NULL; this->enable_handler = NULL; this->maxsize = maxsize; strncpy(this->val, initial_val, initial_val_size); if (maxsize > initial_val_size) memset(this->val + initial_val_size, 0, maxsize - initial_val_size); strncpy(this->initial_val, initial_val, maxsize); this->options = 0; set(initial_val); if (parent) { BX_ASSERT(parent->get_type() == BXT_LIST); this->parent = (bx_list_c *)parent; this->parent->add(this); } } bx_param_filename_c::bx_param_filename_c(bx_param_c *parent, const char *name, const char *label, const char *description, const char *initial_val, int maxsize) : bx_param_string_c(parent, name, label, description, initial_val, maxsize) { set_options(IS_FILENAME); ext = NULL; } bx_param_string_c::~bx_param_string_c() { if (val != NULL) delete [] val; if (initial_val != NULL) delete [] initial_val; } void bx_param_string_c::reset() { set(initial_val); } void bx_param_string_c::set_handler(param_string_event_handler handler) { this->handler = handler; } void bx_param_string_c::set_enable_handler(param_enable_handler handler) { this->enable_handler = handler; } void bx_param_string_c::set_enabled(int en) { // The enable handler may wish to allow/disallow the action if (enable_handler) { en = (*enable_handler)(this, en); } bx_param_c::set_enabled(en); } Bit32s bx_param_string_c::get(char *buf, int len) { if (options & RAW_BYTES) memcpy(buf, val, len); else strncpy(buf, val, len); if (handler) { // the handler can choose to replace the value in val/len. Also its // return value is passed back as the return value of get. (*handler)(this, 0, buf, buf, len); } return 0; } void bx_param_string_c::set(const char *buf) { char *oldval = new char[maxsize]; if (options & RAW_BYTES) { memcpy(oldval, val, maxsize); memcpy(val, buf, maxsize); } else { strncpy(oldval, val, maxsize); oldval[maxsize - 1] = 0; strncpy(val, buf, maxsize); val[maxsize - 1] = 0; } if (handler) { // the handler can return a different char* to be copied into the value buf = (*handler)(this, 1, oldval, buf, -1); } delete [] oldval; } bx_bool bx_param_string_c::equals(const char *buf) { if (options & RAW_BYTES) return (memcmp(val, buf, maxsize) == 0); else return (strncmp(val, buf, maxsize) == 0); } void bx_param_string_c::set_initial_val(const char *buf) { if (options & RAW_BYTES) memcpy(initial_val, buf, maxsize); else strncpy(initial_val, buf, maxsize); set(initial_val); } bx_shadow_data_c::bx_shadow_data_c(bx_param_c *parent, const char *name, Bit8u *ptr_to_data, Bit32u data_size) : bx_param_c(SIM->gen_param_id(), name, "") { set_type(BXT_PARAM_DATA); this->data_ptr = ptr_to_data; this->data_size = data_size; if (parent) { BX_ASSERT(parent->get_type() == BXT_LIST); this->parent = (bx_list_c *)parent; this->parent->add(this); } } bx_list_c::bx_list_c(bx_param_c *parent, int maxsize) : bx_param_c(SIM->gen_param_id(), "list", "") { set_type(BXT_LIST); this->size = 0; this->maxsize = maxsize; this->list = new bx_param_c* [maxsize]; this->parent = NULL; if (parent) { BX_ASSERT(parent->get_type() == BXT_LIST); this->parent = (bx_list_c *)parent; this->parent->add(this); } init(""); } bx_list_c::bx_list_c(bx_param_c *parent, const char *name, int maxsize) : bx_param_c(SIM->gen_param_id(), name, "") { set_type (BXT_LIST); this->size = 0; this->maxsize = maxsize; this->list = new bx_param_c* [maxsize]; this->parent = NULL; if (parent) { BX_ASSERT(parent->get_type() == BXT_LIST); this->parent = (bx_list_c *)parent; this->parent->add(this); } init(""); } bx_list_c::bx_list_c(bx_param_c *parent, const char *name, const char *title, int maxsize) : bx_param_c(SIM->gen_param_id(), name, "") { set_type (BXT_LIST); this->size = 0; this->maxsize = maxsize; this->list = new bx_param_c* [maxsize]; this->parent = NULL; if (parent) { BX_ASSERT(parent->get_type() == BXT_LIST); this->parent = (bx_list_c *)parent; this->parent->add(this); } init(title); } bx_list_c::bx_list_c(bx_param_c *parent, const char *name, const char *title, bx_param_c **init_list) : bx_param_c(SIM->gen_param_id(), name, "") { set_type(BXT_LIST); this->size = 0; while (init_list[this->size] != NULL) this->size++; this->maxsize = this->size; this->list = new bx_param_c* [maxsize]; for (int i=0; isize; i++) this->list[i] = init_list[i]; this->parent = NULL; if (parent) { BX_ASSERT(parent->get_type() == BXT_LIST); this->parent = (bx_list_c *)parent; this->parent->add(this); } init(title); } bx_list_c::~bx_list_c() { if (list != NULL) { for (int i=0; isize; i++) { delete list[i]; } delete [] list; } if (title != NULL) delete title; if (choice != NULL) delete choice; } void bx_list_c::init(const char *list_title) { // the title defaults to the name this->title = new bx_param_string_c(NULL, "list_title", "", "", get_name(), 80); if ((list_title != NULL) && (strlen(list_title) > 0)) { this->title->set((char *)list_title); } this->options = 0; this->choice = new bx_param_num_c(NULL, "list_choice", "", "", 0, BX_MAX_BIT64S, 1); } void bx_list_c::set_parent(bx_param_c *newparent) { if (parent) { // if this object already had a parent, the correct thing // to do would be to remove this object from the parent's // list of children. Deleting children is currently // not supported. BX_PANIC(("bx_list_c::set_parent: changing from one parent to another is not supported")); } if (newparent) { BX_ASSERT(newparent->get_type() == BXT_LIST); this->parent = (bx_list_c *)newparent; this->parent->add(this); } } bx_list_c* bx_list_c::clone() { bx_list_c *newlist = new bx_list_c(NULL, name, title->getptr(), maxsize); for (int i=0; iadd(get(i)); newlist->set_options(options); return newlist; } void bx_list_c::add(bx_param_c *param) { if (size >= maxsize) { BX_PANIC(("add param '%s' to bx_list_c '%s': list capacity exceeded", param->get_name(), get_name())); return; } list[size] = param; size++; } bx_param_c* bx_list_c::get(int index) { BX_ASSERT(index >= 0 && index < size); return list[index]; } bx_param_c* bx_list_c::get_by_name(const char *name) { int imax = get_size(); for (int i=0; iget_name())) { return p; } } return NULL; } void bx_list_c::reset() { int imax = get_size(); for (int i=0; ireset(); } } void bx_list_c::clear() { int imax = get_size(); for (int i=0; iget_parent() == this) { delete param; } } size = 0; } void bx_list_c::remove(const char *name) { int imax = get_size(); int found = 0; for (int i=0; iget_name())) { if (p->get_parent() == this) { delete p; } found = 1; } if (found) { list[i] = list[i+1]; } } if (found) { size--; } }