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/* sim-config.c -- Simulator configuration Copyright (C) 1999 Damjan Lampret, lampret@opencores.org Copyright (C) 2008 Embecosm Limited Contributor Jeremy Bennett <jeremy.bennett@embecosm.com> This file is part of OpenRISC 1000 Architectural Simulator. 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 <http://www.gnu.org/licenses/>. */ /* This program is commented throughout in a fashion suitable for processing with Doxygen. */ /* Simulator configuration. Eventually this one will be a lot bigger. Updated to use argtable2 for argument parsing. */ /* Autoconf and/or portability configuration */ #include "config.h" #include "port.h" /* System includes */ #include <stdlib.h> /* Package includes */ #include "sim-config.h" #include "vapi.h" #include "cuc.h" #include "cpu-config.h" #include "memory.h" #include "dmmu.h" #include "immu.h" #include "dcache-model.h" #include "icache-model.h" #include "pic.h" #include "pm.h" #include "pcu.h" #include "branch-predict.h" #include "debug-unit.h" #include "mc.h" #include "16450.h" #include "dma.h" #include "eth.h" #include "gpio.h" #include "vga.h" #include "fb.h" #include "ps2kbd.h" #include "atahost.h" #include "generic.h" #include "execute.h" #include "spr-defs.h" #include "debug.h" #include "jtag.h" #include "misc.h" #include "argtable2.h" /*! A structure used to represent possible parameters in a section. */ struct config_param { char *name; /* param name */ enum param_t type; /* param type */ void (*func) (union param_val val, /* Setter function */ void *dat); struct config_param *next; /* Next param in list */ }; /* struct config_param */ /*! Config file line count */ static int line_number; /*! The global configuration data structure */ struct config config; /*! The global runtime status data structure */ struct runtime runtime; /*! Master list of sections it is possible to configure. */ static struct config_section *section_master_list = NULL; /* -------------------------------------------------------------------------- */ /*!Register a parameter for a section Add a new parameter to the list of parameters that may be set for a given section. @param[in] sec The section containing the parameter. @param[in] param Name of the parameter @param[in] type Type of the parameter @param[in] param_cb Call back function to set this parameter. */ /* -------------------------------------------------------------------------- */ void reg_config_param (struct config_section *sec, const char *param, enum param_t type, void (*param_cb) (union param_val, void *)) { struct config_param *new = malloc (sizeof (struct config_param)); if (!new) { fprintf (stderr, "ERROR: Out-of-memory allocating parameter: exiting,\n"); exit (1); } if (!(new->name = strdup (param))) { fprintf (stderr, "ERROR: Out-of-memory allocating parameter name: " "exiting,\n"); exit (1); } /* Set up the parameter */ new->func = param_cb; new->type = type; /* Insert on head of list */ new->next = sec->params; sec->params = new; } /* reg_config_param () */ /* -------------------------------------------------------------------------- */ /*!Register a new section. Add a new section to the list of sections that may be found in a config file. @param[in] section The name of the new section. @param[in] sec_start Function to call at start of section configuration (or NULL if none) @param[in] sec_end Function to call at end of section configuration (or NULL if none). Returns pointer to an arbitrary data structure. @return A pointer to the section data structure for the new section. */ /* -------------------------------------------------------------------------- */ struct config_section * reg_config_sec (const char *section, void *(*sec_start) (void), void (*sec_end) (void *)) { struct config_section *new = malloc (sizeof (struct config_section)); if (!new) { fprintf (stderr, "ERROR: Out-of-memory allocating section: exiting,\n"); exit (1); } if (!(new->name = strdup (section))) { fprintf (stderr, "ERROR: Out-of-memory allocating section name: " "exiting,\n"); exit (1); } /* Set up the section */ new->next = section_master_list; new->sec_start = sec_start; new->sec_end = sec_end; new->params = NULL; /* Insert the section */ section_master_list = new; return new; } /* reg_config_sec () */ /* -------------------------------------------------------------------------- */ /*!Look up a section Given a section name, return the data structure describing that section. @param[in] name The section to look for. @return A pointer to the section config data structure, or NULL if the section is not found */ /* -------------------------------------------------------------------------- */ static struct config_section * lookup_section (char *name) { struct config_section *cur = NULL; for (cur = section_master_list; NULL != cur; cur = cur->next) { if (strcmp (cur->name, name) == 0) { break; } } return cur; } /* lookup_section () */ /* -------------------------------------------------------------------------- */ /*!Look up a parameter for a section Given a parameter name and a section data structure, return the data structure describing that parameter @param[in] name The parameter to look for. @param[in] sec The section containing the parameter. @return A pointer to the parameter config data structure, or NULL if the parameter is not found */ /* -------------------------------------------------------------------------- */ static struct config_param * lookup_param (char *name, struct config_section *sec) { struct config_param *param = NULL; for (param = sec->params; NULL != param; param = param->next) { if (strcmp (param->name, name) == 0) { break; } } return param; } /* lookup_param () */ /* -------------------------------------------------------------------------- */ /*!Set default configuration parameters for fixed components These values are held in the global config variable. Parameter orders match the order in the corresponding section registration function and documentation. Also set some starting values for runtime elements. */ /* -------------------------------------------------------------------------- */ void init_defconfig () { int set_bits; /* Temporaries for computing bit fields */ int way_bits; memset (&config, 0, sizeof (config)); /* External linkage disabled here. */ config.ext.class_ptr = NULL; config.ext.read_up = NULL; config.ext.write_up = NULL; /* Sim */ config.sim.is_library = 0; /* Not library operation */ config.sim.verbose = 0; config.sim.debug = 0; config.sim.profile = 0; config.sim.prof_fn = strdup ("sim.profile"); config.sim.mprofile = 0; config.sim.mprof_fn = strdup ("sim.mprofile"); config.sim.history = 0; config.sim.exe_log = 0; config.sim.exe_log_type = EXE_LOG_HARDWARE; config.sim.exe_log_start = 0; config.sim.exe_log_end = 0; config.sim.exe_log_marker = 0; config.sim.exe_log_fn = strdup ("executed.log"); config.sim.exe_bin_insn_log = 0; config.sim.exe_bin_insn_log_fn = strdup ("exe-insn.bin"); config.sim.clkcycle_ps = 4000; /* 4000 for 4ns (250MHz) */ /* Debug */ config.debug.jtagcycle_ps = 40000; /* 40000 for 40ns (25MHz) */ /* VAPI */ config.vapi.enabled = 0; config.vapi.server_port = 50000; config.vapi.log_enabled = 0; config.vapi.hide_device_id = 0; config.vapi.vapi_fn = strdup ("vapi.log"); /* CUC */ config.cuc.calling_convention = 1; config.cuc.enable_bursts = 1; config.cuc.no_multicycle = 1; config.cuc.memory_order = MO_STRONG; config.cuc.timings_fn = strdup ("virtex.tim"); /* CPU */ cpu_state.sprs[SPR_VR] = 0; cpu_state.sprs[SPR_UPR] = SPR_UPR_UP | SPR_UPR_TTP; cpu_state.sprs[SPR_SR] = SPR_SR_FO | SPR_SR_SM; cpu_state.sprs[SPR_CPUCFGR] = SPR_CPUCFGR_OB32S; config.cpu.superscalar = 0; config.cpu.hazards = 0; config.cpu.dependstats = 0; config.cpu.sbuf_len = 0; config.cpu.hardfloat = 0; /* Data cache (IC is set dynamically). Also set relevant SPR bits */ config.dc.enabled = 0; config.dc.nsets = 1; config.dc.nways = 1; config.dc.blocksize = 1; config.dc.ustates = 2; config.dc.load_hitdelay = 2; config.dc.load_missdelay = 2; config.dc.store_hitdelay = 0; config.dc.store_missdelay = 0; if (config.dc.enabled) { cpu_state.sprs[SPR_UPR] |= SPR_UPR_DCP; } else { cpu_state.sprs[SPR_UPR] &= ~SPR_UPR_DCP; } set_bits = log2_int (config.dc.nsets); cpu_state.sprs[SPR_DCCFGR] &= ~SPR_DCCFGR_NCS; cpu_state.sprs[SPR_DCCFGR] |= set_bits << SPR_DCCFGR_NCS_OFF; way_bits = log2_int (config.dc.nways); cpu_state.sprs[SPR_DCCFGR] &= ~SPR_DCCFGR_NCW; cpu_state.sprs[SPR_DCCFGR] |= way_bits << SPR_DCCFGR_NCW_OFF; if (MIN_DC_BLOCK_SIZE == config.dc.blocksize) { cpu_state.sprs[SPR_DCCFGR] &= ~SPR_DCCFGR_CBS; } else { cpu_state.sprs[SPR_DCCFGR] |= SPR_DCCFGR_CBS; } /* Power management */ config.pm.enabled = 0; if (config.pm.enabled) { cpu_state.sprs[SPR_UPR] |= SPR_UPR_PMP; } else { cpu_state.sprs[SPR_UPR] &= ~SPR_UPR_PMP; } /* Programmable Interrupt Controller */ config.pic.enabled = 0; config.pic.edge_trigger = 1; config.pic.use_nmi = 1; if (config.pic.enabled) { cpu_state.sprs[SPR_UPR] |= SPR_UPR_PICP; } else { cpu_state.sprs[SPR_UPR] &= ~SPR_UPR_PICP; } /* Performance Counters Unit */ config.pcu.enabled = 0; /* Branch Prediction */ config.bpb.enabled = 0; config.bpb.btic = 0; config.bpb.sbp_bnf_fwd = 0; config.bpb.sbp_bf_fwd = 0; config.bpb.missdelay = 0; config.bpb.hitdelay = 0; /* Debug */ config.debug.enabled = 0; config.debug.rsp_enabled = 0; config.debug.rsp_port = 51000; config.debug.vapi_id = 0; cpu_state.sprs[SPR_DCFGR] = SPR_DCFGR_WPCI | MATCHPOINTS_TO_NDP (MAX_MATCHPOINTS); if (config.debug.enabled) { cpu_state.sprs[SPR_UPR] |= SPR_UPR_DUP; } else { cpu_state.sprs[SPR_UPR] &= ~SPR_UPR_DUP; } /* Configure runtime */ memset (&runtime, 0, sizeof (runtime)); /* Sim */ runtime.sim.fexe_log = NULL; runtime.sim.iprompt = 0; runtime.sim.fprof = NULL; runtime.sim.fmprof = NULL; runtime.sim.fout = stdout; /* Debug */ runtime.debug.instr = JI_UNDEFINED; runtime.debug.mod_id = JM_UNDEFINED; runtime.debug.write_defined_p = 0; /* No WRITE_COMMAND yet */ /* NPC state. Set to 1 when NPC is changed while the processor is stalled. */ cpu_state.npc_not_valid = 0; /* VAPI */ runtime.vapi.vapi_file = NULL; runtime.vapi.enabled = 0; } /* init_defconfig() */ /* -------------------------------------------------------------------------- */ /*!Set a configuration parameter. We have a string representing the value, and a data structure representing the particular parameter. Break out the value and call the setter function to set its value in the section. The value text is guaranteed to have no leading or trailing whitespace. @param[in] cur_section Spec of the section currently being configured. @param[in] param Spec of the parameter we are setting. @param[in] val_text The parameter value text */ /* -------------------------------------------------------------------------- */ static void set_config_param (struct config_section *cur_section, struct config_param *param, char *val_text) { union param_val val; /* Break out the different parameter types */ switch (param->type) { case PARAMT_NONE: break; case PARAMT_INT: val.int_val = strtol (val_text, NULL, 0); break; case PARAMT_LONGLONG: val.longlong_val = strtoll (val_text, NULL, 0); break; case PARAMT_ADDR: val.addr_val = strtoul (val_text, NULL, 0); break; case PARAMT_WORD: case PARAMT_STR: /* Word and string are the same thing by now. */ val.str_val = val_text; break; } /* Call the setter function */ param->func (val, cur_section->dat); } /* set_config_param () */ /* -------------------------------------------------------------------------- */ /*!Scan the next word, skipping any preceding space. A word is anything that is not white space, except where the white space is within quotation marks. Return the number of newlines we have to skip. @param[in] f The file handle to read from @param[in] word A buffer in which to store the word. @return The text of the next entity or NULL at end of file. Note strings have their quotation marks removed. */ /* -------------------------------------------------------------------------- */ static char * next_word (FILE *f, char word[]) { int c; int i; /* Skip the whitespace */ do { c = fgetc (f); line_number += ('\n' == c) ? 1: 0; } while ((EOF != c) && isspace (c)); /* Get the word> Special treatment if it is a string. */ if ('"' == c) { /* We have a string. Skip the opening quote. */ c = fgetc (f); for (i = 0; i < (STR_SIZE - 1); i++) { if ('"' == c) { c = fgetc (f); /* So ungetc works */ break; /* End of the string */ } else if ('\n' == c) { line_number++; } else if (EOF == c) { fprintf (stderr, "ERROR: EOF in middle of string: exiting.\n"); exit (1); } word[i] = c; c = fgetc (f); } /* Skip the closing quote */ c = fgetc (f); } else { /* We have a space delimited word */ for (i = 0; i < (STR_SIZE - 1); i++) { if ((EOF == c) || isspace (c)) { break; /* End of the word */ } word[i] = c; c = fgetc (f); } } word[i] = '\0'; /* Terminate the word */ if ((STR_SIZE - 1) == i) { word[10]= '\0'; fprintf (stderr, "ERROR: Symbol beginning %s on line %d too long: exiting.\n", word, line_number); exit (1); } ungetc (c, f); /* Ready for next time */ return (0 == i) ? NULL : word; } /* next_word () */ /* -------------------------------------------------------------------------- */ /*!Read the next lexeme from the a config file. At this stage we are just breaking things out into space delimited entities, stripping out comments. @param[in] f The file handle to read from @param[in] lexeme A buffer in which to store the lexeme. @return The text of the next entity or NULL at end of file. */ /* -------------------------------------------------------------------------- */ static char * next_lexeme (FILE *f, char lexeme[]) { if (NULL == next_word (f, lexeme)) { return NULL; } /* Skip any comments */ while (0 ==strncmp (lexeme, "/*", 2)) { /* Look for the closing '*' and '/'. */ char c0 = '\0'; char c1 = '\0'; while (('*' != c0) || ('/' != c1)) { c0 = c1; c1 = fgetc (f); line_number += ('\n' == c1) ? 1 : 0; /* We assume if we hit EOF we have a serious problem and die. */ if (feof (f)) { fprintf (stderr, "ERROR: Comment reached EOF.\n"); exit (1); } } /* Get the next lexeme */ if (NULL == next_word (f, lexeme)) { return NULL; } } return lexeme; } /* next_lexeme () */ /* -------------------------------------------------------------------------- */ /*!Read configuration from a script file. The syntax of script file is: [section x [param [=] value]+ end]* Example: section mc enabled = 1 POC = 0x47892344 end The config file is searched for first in the local directory, then in ${HOME}/.or1ksim, then (for backwards compatibility) in ${HOME}/.or1ksim. If the file is not found, then a rude message is printed. The system will just use default values. @param[in] filename The configuration file to use. */ /* -------------------------------------------------------------------------- */ static void read_script_file (const char *filename) { FILE *f; char *home = getenv ("HOME"); char ctmp1[STR_SIZE]; char ctmp2[STR_SIZE]; char *dir; /* Attempt to open the config file. If we fail, give up with a rude message. */ sprintf (ctmp1, "%s/.or1ksim/%s", home, filename); sprintf (ctmp2, "%s/.or1k/%s", home, filename); if (NULL != (f = fopen (filename, "r"))) { dir = "."; } else if (home && (NULL != (f = fopen (ctmp1, "r")))) { dir = ctmp1; } else if (home && (NULL != (f = fopen (ctmp2, "r")))) { dir = ctmp2; } else { fprintf (stderr, "Warning: Failed to open script file \"%s\". Ignored.\n", filename); return; } /* Log the config file we have just opened if required. */ if (config.sim.verbose) { PRINTF ("Reading script file from \"%s/%s\"...\n", dir, filename); } /* Process the config file. */ char lexeme[STR_SIZE]; /* Next entity from the input */ int in_section_p = 0; /* Are we processing a section */ struct config_section *cur_section = NULL; /* Section being processed */ line_number = 1; while (NULL != next_lexeme (f, lexeme)) { /* Get the next symbol. Four possibilities. 1. It's "section". Only if we are not currently in a section. Process the start of a section. 2. It's "end". Only if we are currently in a section. Process the end of a section. 3. Anything else while we are in a section. Assume it is a parameter for the current section. 4. Anything else. An error. */ if (!in_section_p && (0 == strcmp (lexeme, "section"))) { /* We have the start of a section */ if (NULL == next_lexeme (f, lexeme)) { fprintf (stderr, "ERROR: %s/%s: Section name required at line " "%d. Exiting\n", dir, filename, line_number); exit (1); } cur_section = lookup_section (lexeme); if (NULL != cur_section) { /* Valid section, run its startup code, with any data saved. */ cur_section->dat = NULL; if (cur_section->sec_start) { cur_section->dat = cur_section->sec_start (); } in_section_p = 1; /* Now in a section */ } else { /* Skip an unrecognized section with a warning. */ fprintf (stderr, "Warning: %s/%s: Unrecognized section: %s at " "line %d: ignoring.\n", dir, filename, lexeme, line_number); /* just skip section */ while (NULL != next_lexeme (f, lexeme)) { if (strcmp (lexeme, "end")) { break; } } } } else if (in_section_p && strcmp (lexeme, "end") == 0) { /* End of section. Run the end of section code */ if (cur_section->sec_end) { cur_section->sec_end (cur_section->dat); } in_section_p = 0; /* Not in a section any more */ } else if (in_section_p) { /* We're in a section, so this must be a parameter. */ struct config_param *param; char *param_val; param = lookup_param (lexeme, cur_section); /* If we didn't recognize, then warn and skip to end of line/file) */ if (NULL == param) { fprintf (stderr, "Warning: %s/%s: Unrecognized parameter: %s at " "line %d; ignored.\n", dir, filename, lexeme, line_number); /* Skip to end of line */ while (( '\n' != fgetc (f)) || feof (f)) ; line_number++; continue; /* Start looking again */ } /* Get the argument if one is expected. */ if (PARAMT_NONE != param->type) { param_val = next_lexeme (f, lexeme); if (NULL == param_val) { fprintf (stderr, "Warning: %s/%s: No argument to parameter " "%s at line %d; ignored.\n", dir, filename, param->name, line_number); /* Skip to end of line */ while (( '\n' != fgetc (f)) || feof (f)) ; line_number++; continue; /* Start looking again */ } /* We allow an optional '=' */ if (0 == strcmp (lexeme, "=")) { param_val = next_lexeme (f, lexeme); if (NULL == param_val) { fprintf (stderr, "Warning: %s/%s: No argument to " "parameter %s at line %d; ignored.\n", dir, filename, param->name, line_number); /* Skip to end of line */ while (( '\n' != fgetc (f)) || feof (f)) ; line_number++; continue; /* Start looking again */ } } } else { /* No argument */ param_val = NULL; } /* Apply the parameter */ set_config_param (cur_section, param, param_val); } else { /* We're not in a section, so we don't know what we have */ fprintf (stderr, "Warning: %s/%s: Unrecognized config file contents " " at line %d: ignored.\n", dir, filename, line_number); /* Skip to end of line */ while (( '\n' != fgetc (f)) || feof (f)) ; line_number++; continue; /* Start looking again */ } } fclose (f); /* All done */ } /* read_script_file () */ /*---------------------------------------------------------------------------*/ /*!Allocate a memory block We can request a block of memory be allocated from the command line, rather than in a configuration file. It will be allocated, starting at address zero. The memory size may be presented in any format recognized by strtol, optionally followed by "G" or "g", "M" or "m" or "K" or "k" for giga, mega and kilo bytes respectively, and leading to mutliplcation by 2^30, 2^20 and 2^10 respectively. This is intended for simple use of the simulator in tool chain verification, where the detailed memory behavior does not matter. @param[in] size Memory size. */ /*---------------------------------------------------------------------------*/ static void alloc_memory_block (const char *size) { /* Sort out the memory size. */ unsigned long int multiplier; int last_ch = strlen (size) - 1; switch (size[last_ch]) { case 'G': case 'g': multiplier = 0x40000000UL; break; case 'M': case 'm': multiplier = 0x100000UL; break; case 'K': case 'k': multiplier = 0x400UL; break; default: multiplier = 0x1UL; break; } unsigned long int mem_size = strtoul (size, NULL, 0) * multiplier; if (0 == mem_size) { fprintf (stderr, "Warning: Memory size %s not recognized: ignored.\n", size); return; } if (mem_size > 0xffffffff) { fprintf (stderr, "Warning: Memory size %s too large: ignored.\n", size); return; } /* Turn the memory size back into a decimal string and allocate it */ char str_size[11]; sprintf (str_size, "%lu\n", mem_size); struct config_section *sec = lookup_section ("memory"); sec->dat = sec->sec_start (); set_config_param (sec, lookup_param ("name", sec), "Default RAM"); set_config_param (sec, lookup_param ("type", sec), "unknown"); set_config_param (sec, lookup_param ("baseaddr", sec), "0"); set_config_param (sec, lookup_param ("size", sec), str_size); sec->sec_end (sec->dat); if (config.sim.verbose) { PRINTF ("Memory block of 0x%lx bytes allocated\n", mem_size); } } /* alloc_memory_block () */ /*---------------------------------------------------------------------------*/ /*! Parse the arguments for the standalone simulator Updated by Jeremy Bennett to use argtable2. @param[in] argc Number of command args @param[in] argv Vector of the command args @return 0 on success, 1 on failure */ /*---------------------------------------------------------------------------*/ int parse_args (int argc, char *argv[]) { struct arg_lit *vercop; struct arg_lit *help; struct arg_file *cfg_file; struct arg_lit *nosrv; struct arg_int *srv; struct arg_str *mem; struct arg_str *dbg; struct arg_lit *command; struct arg_lit *quiet; struct arg_lit *verbose; struct arg_lit *trace; struct arg_lit *trace_phy; struct arg_lit *trace_virt; struct arg_lit *report_mem_errs; struct arg_lit *strict_npc; struct arg_lit *profile; struct arg_lit *mprofile; struct arg_file *load_file; struct arg_end *end; /* Specify each argument, with fall back values */ vercop = arg_lit0 ("v", "version", "version and copyright notice"); help = arg_lit0 ("h", "help", "print this help message"); cfg_file = arg_file0 ("f", "file", "<file>", "config file (default \"sim.cfg\")"); cfg_file->filename[0] = "sim.cfg"; nosrv = arg_lit0 (NULL, "nosrv", "do not launch debug server"); srv = arg_int0 (NULL, "srv", "<n>", "launch debug server on port (default random)"); srv->ival[0] = random () % (65536 - 49152) + 49152; srv->hdr.flag |= ARG_HASOPTVALUE; mem = arg_str0 ("m", "memory", "<n>", "add memory block of <n> bytes"); dbg = arg_str0 ("d", "debug-config", "<str>", "Debug config string"); command = arg_lit0 ("i", "interactive", "launch interactive prompt"); quiet = arg_lit0 ("q", "quiet", "minimal message output"); verbose = arg_lit0 ("V", "verbose", "verbose message output"); trace = arg_lit0 ("t", "trace", "trace each instruction"); trace_phy = arg_lit0 (NULL, "trace-physical", "show physical instruction address when tracing"); trace_virt = arg_lit0 (NULL, "trace-virtual", "show virtual instruction address when tracing"); report_mem_errs = arg_lit0 (NULL, "report-memory-errors", "Report out of memory accesses"); strict_npc = arg_lit0 (NULL, "strict-npc", "setting NPC flushes pipeline"); profile = arg_lit0 (NULL, "enable-profile", "enable profiling"); mprofile = arg_lit0 (NULL, "enable-mprofile", "enable memory profiling"); load_file = arg_file0 (NULL, NULL, "<file>", "OR32 executable"); end = arg_end (20); /* The argument table */ void *argtab[] = { vercop, help, cfg_file, nosrv, srv, mem, dbg, command, quiet, verbose, trace, trace_phy, trace_virt, report_mem_errs, strict_npc, profile, mprofile, load_file, end }; /* Parse */ int nerrors = arg_parse (argc, argv, argtab); /* Special case here is if help or version is specified, we ignore any other errors and just print the help or version information and then give up. */ if (vercop->count > 0) { PRINTF ("OpenRISC 1000 Architectural Simulator, version %s\n", PACKAGE_VERSION); arg_freetable (argtab, sizeof (argtab) / sizeof (argtab[0])); return 1; } if (help->count > 0) { printf ("Usage:\n %s ", argv[0]); arg_print_syntax (stdout, argtab, "\n\n"); arg_print_glossary (stdout, argtab, " %-25s %s\n"); arg_freetable (argtab, sizeof (argtab) / sizeof (argtab[0])); return 1; } /* Deal with any errors */ if (0 != nerrors) { arg_print_errors (stderr, end, "or1ksim"); printf ("\nUsage:\n %s ", argv[0]); arg_print_syntaxv (stderr, argtab, "\n"); arg_freetable (argtab, sizeof (argtab) / sizeof (argtab[0])); return 1; } /* Request for quiet running */ config.sim.quiet = quiet->count; /* Request for verbose running. Not sensible to use with quiet as well. */ if (quiet->count && verbose->count) { fprintf (stderr, "Warning: Cannot specify both --verbose and --quiet: " "--vervose ignored.\n"); config.sim.verbose = 0; } else { config.sim.verbose = verbose->count; } /* Request for tracing. We may ask for instructions to be recorded with either the physical or virtual address. */ runtime.sim.hush = trace->count ? 0 : 1; runtime.sim.trace_phy = trace_phy->count ? 1 : 0; runtime.sim.trace_virt = trace_virt->count ? 1 : 0; /* Ensure we have a least one address type in use. */ if (!runtime.sim.trace_phy && !runtime.sim.trace_virt) { runtime.sim.trace_virt = 1; } /* Request for memory errors */ config.sim.report_mem_errs = report_mem_errs->count; /* Process config file next (if given), so any other command args will override */ if (0 == cfg_file->count) { if (config.sim.verbose) { fprintf (stderr, "Default configuration used\n"); } } else { read_script_file (cfg_file->filename[0]); } /* Allocate a memory block */ if (mem->count > 0) { alloc_memory_block (mem->sval[0]); } /* Remote debug server */ if (nosrv->count > 0) { if (srv->count > 0) { fprintf (stderr, "%s: cannot specify --nosrv with --srv. Ignoring --nosrv\n", argv[0]); } else { config.debug.enabled = 0; config.debug.rsp_enabled = 0; } } if (srv->count > 0) { config.debug.enabled = 1; config.debug.rsp_enabled = 1; config.debug.rsp_port = srv->ival[0]; } /* Runtime debug messages */ if (dbg->count > 0) { parse_dbchs (dbg->sval[0]); } /* Interactive operation */ runtime.sim.iprompt = command->count; /* Request for strict NPC behavior (flush the pipeline on change) */ config.sim.strict_npc = strict_npc->count; /* Profiling requests */ config.sim.profile = profile->count; config.sim.mprofile = mprofile->count; /* Executable file */ if (load_file->count > 0) { runtime.sim.filename = strdup (load_file->filename[0]); } else { runtime.sim.filename = NULL; } arg_freetable (argtab, sizeof (argtab) / sizeof (argtab[0])); return 0; /* Success */ } /* parse_args() */ /*---------------------------------------------------------------------------*/ /*!Print the current configuration */ /*---------------------------------------------------------------------------*/ void print_config () { if (config.sim.verbose) { char temp[20]; PRINTF ("Verbose on, "); if (config.sim.debug) PRINTF ("simdebug on, "); else PRINTF ("simdebug off, "); if (runtime.sim.iprompt) PRINTF ("interactive prompt on\n"); else PRINTF ("interactive prompt off\n"); PRINTF ("Machine initialization...\n"); generate_time_pretty (temp, config.sim.clkcycle_ps); PRINTF ("Clock cycle: %s\n", temp); if (cpu_state.sprs[SPR_UPR] & SPR_UPR_DCP) PRINTF ("Data cache present.\n"); else PRINTF ("No data cache.\n"); if (cpu_state.sprs[SPR_UPR] & SPR_UPR_ICP) PRINTF ("Insn cache tag present.\n"); else PRINTF ("No instruction cache.\n"); if (config.bpb.enabled) PRINTF ("BPB simulation on.\n"); else PRINTF ("BPB simulation off.\n"); if (config.bpb.btic) PRINTF ("BTIC simulation on.\n"); else PRINTF ("BTIC simulation off.\n"); } } /* Simulator configuration */ /*---------------------------------------------------------------------------*/ /*!Turn on verbose messages. @param[in] val Non-zero (TRUE) to turn on verbose messages, zero (FALSE) otherwise. @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ static void sim_verbose (union param_val val, void *dat) { config.sim.verbose = val.int_val; } /* sim_verbose () */ /*---------------------------------------------------------------------------*/ /*!Set the simulator debug message level Value must be in the range 0 (no messages) to 9. Values outside this range are converted to the nearer end of the range with a warning. @param[in] val The value to use @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ static void sim_debug (union param_val val, void *dat) { if (val.int_val < 0) { fprintf (stderr, "Warning: Config debug value negative: 0 substituted\n"); config.sim.debug = 0; } else if (val.int_val > 9) { fprintf (stderr, "Warning: Config debug value too large: 9 substituted\n"); config.sim.debug = 9; } else { config.sim.debug = val.int_val; } } /* sim_debug() */ /*---------------------------------------------------------------------------*/ /*!Turn on profiling @param[in] val Non-zero (TRUE) to turn on profiling, zero (FALSE) otherwise. @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ static void sim_profile (union param_val val, void *dat) { config.sim.profile = val.int_val; } /* sim_profile () */ /*---------------------------------------------------------------------------*/ /*!Specify the profiling file name. @param[in] val The profiling file name @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ static void sim_prof_fn (union param_val val, void *dat) { if (NULL != config.sim.prof_fn) { free (config.sim.prof_fn); } config.sim.prof_fn = strdup(val.str_val); } /* sim_prof_fn () */ /*---------------------------------------------------------------------------*/ /*!Turn on memory profiling @param[in] val Non-zero (TRUE) to turn on memory profiling, zero (FALSE) otherwise. @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ static void sim_mprofile (union param_val val, void *dat) { config.sim.mprofile = val.int_val; } /* sim_mprofile () */ /*---------------------------------------------------------------------------*/ /*!Specify the memory profiling file name. @param[in] val The memory profiling file name @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ static void sim_mprof_fn (union param_val val, void *dat) { if (NULL != config.sim.mprof_fn) { free (config.sim.mprof_fn); } config.sim.mprof_fn = strdup (val.str_val); } /* sim_mprof_fn () */ /*---------------------------------------------------------------------------*/ /*!Turn on execution tracking. @param[in] val Non-zero (TRUE) to turn on tracking, zero (FALSE) otherwise. @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ static void sim_history (union param_val val, void *dat) { config.sim.history = val.int_val; } /*---------------------------------------------------------------------------*/ /*!Record an execution log @param[in] val Non-zero (TRUE) to turn on logging, zero (FALSE) otherwise. @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ static void sim_exe_log (union param_val val, void *dat) { config.sim.exe_log = val.int_val; } /* sim_exe_log () */ /*---------------------------------------------------------------------------*/ /*!Set the execution log type Value must be one of default, hardware, simple or software. Invalid values are ignored with a warning. @param[in] val The value to use @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ static void sim_exe_log_type (union param_val val, void *dat) { if (strcasecmp (val.str_val, "default") == 0) { config.sim.exe_log_type = EXE_LOG_HARDWARE; } else if (strcasecmp (val.str_val, "hardware") == 0) { config.sim.exe_log_type = EXE_LOG_HARDWARE; } else if (strcasecmp (val.str_val, "simple") == 0) { config.sim.exe_log_type = EXE_LOG_SIMPLE; } else if (strcasecmp (val.str_val, "software") == 0) { config.sim.exe_log_type = EXE_LOG_SOFTWARE; } else { fprintf (stderr, "Warning: Execution log type %s invalid. Ignored", val.str_val); } } /* sim_exe_log_type() */ /*---------------------------------------------------------------------------*/ /*!Set the execution log start address Address at which to start logging. @param[in] val The value to use @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ static void sim_exe_log_start (union param_val val, void *dat) { config.sim.exe_log_start = val.longlong_val; } /* sim_exe_log_start () */ /*---------------------------------------------------------------------------*/ /*!Set the execution log end address Address at which to end logging. @param[in] val The value to use @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ static void sim_exe_log_end (union param_val val, void *dat) { config.sim.exe_log_end = val.longlong_val; } /* sim_exe_log_end () */ /*---------------------------------------------------------------------------*/ /*!Specify number of instruction between printing horizontal markers Control of log format @param[in] val The value to use @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ static void sim_exe_log_marker (union param_val val, void *dat) { config.sim.exe_log_marker = val.int_val; } /* sim_exe_log_marker () */ /*---------------------------------------------------------------------------*/ /*!Specify the execution log file name. @param[in] val The execution log file name @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ static void sim_exe_log_fn (union param_val val, void *dat) { if (NULL != config.sim.exe_log_fn) { free (config.sim.exe_log_fn); } config.sim.exe_log_fn = strdup (val.str_val); } /* sim_exe_log_fn () */ /*---------------------------------------------------------------------------*/ /*!Turn on binary instruction logging @param[in] val Non-zero (TRUE) to turn on logging, zero (FALSE) otherwise. @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ static void sim_exe_bin_insn_log (union param_val val, void *dat) { config.sim.exe_bin_insn_log = val.int_val; } /* sim_exe_bin_insn_log () */ /*---------------------------------------------------------------------------*/ /*!Specify the binary instruction log file name. @param[in] val The binary instruction log file name @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ static void sim_exe_bin_insn_log_fn (union param_val val, void *dat) { if (NULL != config.sim.exe_bin_insn_log_fn) { free (config.sim.exe_bin_insn_log_fn); } config.sim.exe_bin_insn_log_fn = strdup (val.str_val); } /* sim_exe_bin_insn_log_fn () */ /*---------------------------------------------------------------------------*/ /*!Set the clock cycle time. Value must be an integer followed by one of ps, ns, us or ms. If a valid time is not presented, the value is unchanged. @param[in] val The value to use @param[in] dat The config data structure (not used here) */ /*---------------------------------------------------------------------------*/ void sim_clkcycle (union param_val val, void *dat) { int len = strlen (val.str_val); int pos = len - 1; long time; if ((len < 2) || (val.str_val[pos--] != 's')) { fprintf (stderr, "Warning: Clock cycle time %s invalid: ignored\n", val.str_val); return; } switch (val.str_val[pos--]) { case 'p': time = 1; break; case 'n': time = 1000; break; case 'u': time = 1000000; break; case 'm': time = 1000000000; break; default: fprintf (stderr, "Warning: Clock cycle time %s invalid: ignored\n", val.str_val); return; } val.str_val[pos + 1] = 0; time = time * atol (val.str_val); if (0 == time) { fprintf (stderr, "Warning: Clock cycle time of zero invalid: ignored\n"); return; } config.sim.clkcycle_ps = time; } /* sim_clkcycle() */ /*---------------------------------------------------------------------------*/ /*!Register the functions to handle a section sim This section does not allocate dynamically a data structure holding its config information. It's all in the global config.sim data structure. Therefore it does not need a start and end function to initialize default values (although it might be clearer to do so). The default values are set in init_defconfig(). New preferred parameter names are introduced (_file for filenames), but the legacy names (_fn) are also present for backwards compatibility */ /*---------------------------------------------------------------------------*/ static void reg_sim_sec () { struct config_section *sec = reg_config_sec ("sim", NULL, NULL); reg_config_param (sec, "verbose", PARAMT_INT, sim_verbose); reg_config_param (sec, "debug", PARAMT_INT, sim_debug); reg_config_param (sec, "profile", PARAMT_INT, sim_profile); reg_config_param (sec, "prof_file", PARAMT_STR, sim_prof_fn); reg_config_param (sec, "prof_fn", PARAMT_STR, sim_prof_fn); reg_config_param (sec, "mprofile", PARAMT_INT, sim_mprofile); reg_config_param (sec, "mprof_file", PARAMT_STR, sim_mprof_fn); reg_config_param (sec, "mprof_fn", PARAMT_STR, sim_mprof_fn); reg_config_param (sec, "history", PARAMT_INT, sim_history); reg_config_param (sec, "exe_log", PARAMT_INT, sim_exe_log); reg_config_param (sec, "exe_log_type", PARAMT_WORD, sim_exe_log_type); reg_config_param (sec, "exe_log_start", PARAMT_LONGLONG, sim_exe_log_start); reg_config_param (sec, "exe_log_end", PARAMT_LONGLONG, sim_exe_log_end); reg_config_param (sec, "exe_log_marker", PARAMT_INT, sim_exe_log_marker); reg_config_param (sec, "exe_log_file", PARAMT_STR, sim_exe_log_fn); reg_config_param (sec, "exe_log_fn", PARAMT_STR, sim_exe_log_fn); reg_config_param (sec, "exe_bin_insn_log", PARAMT_INT, sim_exe_bin_insn_log); reg_config_param (sec, "exe_bin_insn_log_fn", PARAMT_STR, sim_exe_bin_insn_log_fn); reg_config_param (sec, "exe_bin_insn_log_file", PARAMT_STR, sim_exe_bin_insn_log_fn); reg_config_param (sec, "clkcycle", PARAMT_WORD, sim_clkcycle); } /* reg_sim_sec() */ /*---------------------------------------------------------------------------*/ /*!Register all the possible sections which we support. Each section type provides a registration function. This returns a struct config_section, which in turn contains a list of config_params. */ /*---------------------------------------------------------------------------*/ void reg_config_secs () { reg_generic_sec (); /* JPB */ reg_sim_sec (); reg_cpu_sec (); reg_pic_sec (); reg_memory_sec (); reg_mc_sec (); reg_uart_sec (); reg_dma_sec (); reg_debug_sec (); reg_vapi_sec (); reg_ethernet_sec (); reg_immu_sec (); reg_dmmu_sec (); reg_ic_sec (); reg_dc_sec (); reg_gpio_sec (); reg_bpb_sec (); reg_pm_sec (); reg_pcu_sec (); reg_vga_sec (); reg_fb_sec (); reg_kbd_sec (); reg_ata_sec (); reg_cuc_sec (); } /* Utility for execution of set sim command. */ static int set_config (int argc, char **argv) { struct config_section *cur_section; struct config_param *param; if (argc < 2) return 1; PRINTF ("sec:%s\n", argv[1]); cur_section = lookup_section (argv[1]); if (NULL == cur_section) return 1; if (argc < 3) return 2; PRINTF ("item:%s\n", argv[2]); { for (param = cur_section->params; param; param = param->next) if (strcmp (param->name, argv[2]) == 0) { break; } if (!param) return 2; /* Parse parameter value */ if (param->type) { if (argc < 4) return 3; PRINTF ("params:%s\n", argv[3]); } set_config_param (cur_section, param, argv[3]); } return 0; } /* Executes set sim command, displays error. */ void set_config_command (int argc, char **argv) { struct config_section *cur; struct config_param *param; switch (set_config (argc, argv)) { case 1: PRINTF ("Invalid or missing section name. One of valid sections must be specified:\n"); for (cur = section_master_list; cur; cur = cur->next) PRINTF ("%s ", cur->name); PRINTF ("\n"); break; case 2: cur = lookup_section (argv[1]); PRINTF ("Invalid or missing item name. One of valid items must be specified:\n"); for (param = cur->params; param; param = param->next) PRINTF ("%s ", param->name); PRINTF ("\n"); break; case 3: PRINTF ("Invalid parameters specified.\n"); break; } }