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[/] [or1k/] [branches/] [stable_0_2_x/] [or1ksim/] [sim-config.h] - Rev 1455
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/* sim-config.h -- Simulator configuration header file Copyright (C) 1999 Damjan Lampret, lampret@opencores.org 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 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #ifndef _CONFIG_H_ #define _CONFIG_H_ #include <stdio.h> /* Simulator configuration macros. Eventually this one will be a lot bigger. */ #define MAX_MEMORIES 16 /* Max. number of memory devices attached */ #define MAX_SBUF_LEN 256 /* Max. length of store buffer */ #define EXE_LOG_HARDWARE 0 /* Print out RTL states */ #define EXE_LOG_SIMPLE 1 /* Executed log prints out dissasembly */ #define EXE_LOG_SOFTWARE 2 /* Simple with some register output*/ #define STR_SIZE (256) struct config { struct { int enabled; /* Is tick timer enabled? */ } tick; struct { int pattern; /* A user specified memory initialization pattern */ int random_seed; /* Initialize the memory with random values, starting with seed */ enum { MT_UNKNOWN, MT_PATTERN, MT_RANDOM } type; int nmemories; /* Number of attached memories */ struct { int ce; /* Which ce this memory is associated with */ unsigned long baseaddr; /* Start address of the memory */ unsigned long size; /* Memory size */ char name[STR_SIZE]; /* Memory type string */ char log[STR_SIZE]; /* Memory log filename */ int delayr; /* Read cycles */ int delayw; /* Write cycles */ } table[MAX_MEMORIES]; } memory; struct { int enabled; /* Whether IMMU is enabled */ int nways; /* Number of ITLB ways */ int nsets; /* Number of ITLB sets */ int pagesize; /* ITLB page size */ int entrysize; /* ITLB entry size */ int ustates; /* number of ITLB usage states */ int missdelay; /* How much cycles does the miss cost */ int hitdelay; /* How much cycles does the hit cost */ } immu; struct { int enabled; /* Whether DMMU is enabled */ int nways; /* Number of DTLB ways */ int nsets; /* Number of DTLB sets */ int pagesize; /* DTLB page size */ int entrysize; /* DTLB entry size */ int ustates; /* number of DTLB usage states */ int missdelay; /* How much cycles does the miss cost */ int hitdelay; /* How much cycles does the hit cost */ } dmmu; struct { int enabled; /* Whether instruction cache is enabled */ int nways; /* Number of IC ways */ int nsets; /* Number of IC sets */ int blocksize; /* IC entry size */ int ustates; /* number of IC usage states */ int missdelay; /* How much cycles does the miss cost */ int hitdelay; /* How much cycles does the hit cost */ } ic; struct { int enabled; /* Whether data cache is enabled */ int nways; /* Number of DC ways */ int nsets; /* Number of DC sets */ int blocksize; /* DC entry size */ int ustates; /* number of DC usage states */ int store_missdelay; /* How much cycles does the store miss cost */ int store_hitdelay; /* How much cycles does the store hit cost */ int load_missdelay; /* How much cycles does the load miss cost */ int load_hitdelay; /* How much cycles does the load hit cost */ } dc; struct { int enabled; /* branch prediction buffer analysis */ int sbp_bnf_fwd; /* Static branch prediction for l.bnf uses forward prediction */ int sbp_bf_fwd; /* Static branch prediction for l.bf uses forward prediction */ int btic; /* branch prediction target insn cache analysis */ int missdelay; /* How much cycles does the miss cost */ int hitdelay; /* How much cycles does the hit cost */ #if 0 int nways; /* Number of BP ways */ int nsets; /* Number of BP sets */ int blocksize; /* BP entry size */ int ustates; /* number of BP usage states */ int pstates; /* number of BP predict states */ #endif } bpb; struct { unsigned long upr; /* Unit present register */ unsigned long ver, rev; /* Version register */ int sr; /* Supervision register */ int superscalar; /* superscalara analysis */ int hazards; /* dependency hazards analysis */ int dependstats; /* dependency statistics */ int sbuf_len; /* length of store buffer, zero if disabled */ } cpu; struct { int debug; /* Simulator debugging */ int verbose; /* Force verbose output */ int profile; /* Is profiler running */ char prof_fn[STR_SIZE]; /* Profiler filename */ int mprofile; /* Is memory profiler running */ char mprof_fn[STR_SIZE]; /* Memory profiler filename */ int history; /* instruction stream history analysis */ int exe_log; /* Print out RTL states? */ int exe_log_type; /* Type of log */ int exe_log_start; /* First instruction to log */ int exe_log_end; /* Last instruction to log, -1 if continuous */ int exe_log_marker; /* If nonzero, place markers before each exe_log_marker instructions */ char exe_log_fn[STR_SIZE]; /* RTL state comparison filename */ int spr_log; /* Print out SPR states */ char spr_log_fn[STR_SIZE]; /* SPR state log filename */ char fstdout[STR_SIZE]; /* stdout filename */ long clkcycle_ps; /* Clock duration in ps */ long system_kfreq; /* System frequency in kHz*/ } sim; struct { int enabled; /* Whether is debug module enabled */ int gdb_enabled; /* Whether is debugging with gdb possible */ int server_port; /* A user specified port number for services */ unsigned long vapi_id; /* "Fake" vapi device id for JTAG proxy */ } debug; struct { /* Verification API, part of Advanced Core Verification */ int enabled; /* Whether is VAPI module enabled */ int server_port; /* A user specified port number for services */ int log_enabled; /* Whether to log the vapi requests */ int hide_device_id; /* Whether to log device ID for each request */ char vapi_fn[STR_SIZE]; /* vapi log filename */ } vapi; struct { int enabled; /* Whether power menagement is operational */ } pm; struct { char timings_fn[STR_SIZE]; /* Filename of the timing table */ int memory_order; /* Memory access stricness */ int calling_convention; /* Whether functions follow standard calling convention */ int enable_bursts; /* Whether burst are enabled */ int no_multicycle; /* When enabled no multicycle paths are generated */ } cuc; }; struct runtime { struct { FILE *fprof; /* Profiler file */ FILE *fmprof; /* Memory profiler file */ FILE *fexe_log; /* RTL state comparison file */ FILE *fspr_log; /* SPR state log file */ FILE *fout; /* file for standard output */ int init; /* Whether we are still initilizing sim */ int script_file_specified; /* Whether script file was already loaded */ char *filename; /* Original Command Simulator file (CZ) */ char script_fn[STR_SIZE]; /* Script file read */ int iprompt; /* Interactive prompt */ int cont_run; /* Continuos run versus single step tracing switch. */ long long cycles; /* Cycles counts fetch stages */ int mem_cycles; /* Each cycle has counter of mem_cycles; this value is joined with cycles at the end of the cycle; no sim originated memory accesses should be performed inbetween. */ int loadcycles; /* Load and store stalls */ int storecycles; long long reset_cycles; int hush; /* Is simulator to do reg dumps */ } sim; /* Command line parameters */ struct { int profile; /* Whether profiling was enabled */ int mprofile; /* Whether memory profiling was enabled */ } simcmd; struct { long long instructions; /* Instructions executed */ long long reset_instructions; int stalled; int hazardwait; /* how many cycles were wasted because of hazards */ int supercycles; /* Superscalar cycles */ } cpu; struct { int random_seed; /* Initialize the memory with random values, starting with seed */ } memory; struct { /* Verification API, part of Advanced Core Verification */ int enabled; /* Whether is VAPI module enabled */ FILE *vapi_file; /* vapi file */ int server_port; /* A user specified port number for services */ } vapi; /* CUC configuration parameters */ struct { int mdelay[4]; /* average memory delays in cycles {read single, read burst, write single, write burst} */ double cycle_duration; /* in ns */ } cuc; }; extern struct config config; #define PRINTF(x...) fprintf (runtime.sim.fout, x) extern struct runtime runtime; /* Read environment from a script file. Does not fail - assumes defaukt configuration instead. */ void read_script_file (char *filename); /* Executes set sim command. Returns nonzero if error. */ void set_config_command (int argc, char **argv); /* Outputs C structure of current config to file */ void output_cfg (FILE *f); void init_defconfig(); int parse_args(int argc, char *argv[]); void print_config(); void sim_done(void); /* Resets all subunits */ void sim_reset(void); /* Handle the sim commandline */ void handle_sim_command(void); /* Registers a new reset hook, called when sim_reset below is called */ void reg_sim_reset(void (*reset_hook)(void *), void *dat); /* Registers a status printing callback */ void reg_sim_stat(void (*stat_func)(void *dat), void *dat); union param_val { char *str_val; int int_val; oraddr_t addr_val; }; enum param_t { paramt_none = 0, /* No parameter */ paramt_str, /* String parameter enclosed in double quotes (") */ paramt_word, /* String parameter NOT enclosed in double quotes */ paramt_int, /* Integer parameter */ paramt_addr /* Address parameter */ }; struct config_section { char *name; void *(*sec_start)(void); void (*sec_end)(void *); void *dat; struct config_param *params; struct config_section *next; }; /* Register a parameter in a section of the config file */ void reg_config_param(struct config_section *sec, const char *param, enum param_t type, void (*param_cb)(union param_val, void*)); /* Register a section in the config file */ struct config_section *reg_config_sec(const char *section, void *(*sec_start)(void), void (*sec_end)(void *)); extern struct config_section *cur_section; #define CONFIG_ERROR(s) {fprintf (stderr, "ERROR: config.%s:%s\n", cur_section->name, s); if (runtime.sim.init) exit (1);} /* FIXME: These will disapeer one day... */ void reg_mc_sec(void); void reg_uart_sec(void); void reg_dma_sec(void); void reg_memory_sec(void); void reg_debug_sec(void); void reg_vapi_sec(void); void reg_ethernet_sec(void); void reg_immu_sec(void); void reg_dmmu_sec(void); void reg_ic_sec(void); void reg_dc_sec(void); void reg_gpio_sec(void); void reg_bpb_sec(void); void reg_pm_sec(void); void reg_vga_sec(void); void reg_fb_sec(void); void reg_kbd_sec(void); void reg_ata_sec(void); void reg_cuc_sec(void); void reg_test_sec(void); #endif
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