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[/] [openrisc/] [trunk/] [or1ksim/] [peripheral/] [memory.c] - Rev 206
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/* memory.c -- Generic memory model Copyright (C) 1999 Damjan Lampret, lampret@opencores.org Copyright (C) 2005 György `nog' Jeney, nog@sdf.lonestar.org Copyright (C) 2008 Embecosm Limited Contributor Jeremy Bennett <jeremy.bennett@embecosm.com> This file is part of Or1ksim, the 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. */ /* Autoconf and/or portability configuration */ #include "config.h" #include "port.h" /* System includes */ #include <stdlib.h> #include <stdio.h> #include <time.h> /* Package includes */ #include "arch.h" #include "sim-config.h" #include "abstract.h" #include "mc.h" #include "toplevel-support.h" struct mem_config { int ce; /* Which ce this memory is associated with */ int mc; /* Which mc this memory is connected to */ oraddr_t baseaddr; /* Start address of the memory */ unsigned int size; /* Memory size */ char *name; /* Memory type string */ char *log; /* Memory log filename */ int delayr; /* Read cycles */ int delayw; /* Write cycles */ void *mem; /* malloced memory for this memory */ 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; }; static uint32_t simmem_read32 (oraddr_t addr, void *dat) { return *(uint32_t *) (dat + addr); } static uint16_t simmem_read16 (oraddr_t addr, void *dat) { #ifdef WORDS_BIGENDIAN return *(uint16_t *) (dat + addr); #else return *(uint16_t *) (dat + (addr ^ 2)); #endif } static uint8_t simmem_read8 (oraddr_t addr, void *dat) { #ifdef WORDS_BIGENDIAN return *(uint8_t *) (dat + addr); #else return *(uint8_t *) (dat + ((addr & ~ADDR_C (3)) | (3 - (addr & 3)))); #endif } static void simmem_write32 (oraddr_t addr, uint32_t value, void *dat) { *(uint32_t *) (dat + addr) = value; } static void simmem_write16 (oraddr_t addr, uint16_t value, void *dat) { #ifdef WORDS_BIGENDIAN *(uint16_t *) (dat + addr) = value; #else *(uint16_t *) (dat + (addr ^ 2)) = value; #endif } static void simmem_write8 (oraddr_t addr, uint8_t value, void *dat) { #ifdef WORDS_BIGENDIAN *(uint8_t *) (dat + addr) = value; #else *(uint8_t *) (dat + ((addr & ~ADDR_C (3)) | (3 - (addr & 3)))) = value; #endif } static uint32_t simmem_read_zero32 (oraddr_t addr, void *dat) { if (config.sim.verbose) fprintf (stderr, "WARNING: 32-bit memory read from non-read memory area 0x%" PRIxADDR ".\n", addr); return 0; } static uint16_t simmem_read_zero16 (oraddr_t addr, void *dat) { if (config.sim.verbose) fprintf (stderr, "WARNING: 16-bit memory read from non-read memory area 0x%" PRIxADDR ".\n", addr); return 0; } static uint8_t simmem_read_zero8 (oraddr_t addr, void *dat) { if (config.sim.verbose) fprintf (stderr, "WARNING: 8-bit memory read from non-read memory area 0x%" PRIxADDR ".\n", addr); return 0; } static void simmem_write_null32 (oraddr_t addr, uint32_t value, void *dat) { if (config.sim.verbose) fprintf (stderr, "WARNING: 32-bit memory write to 0x%" PRIxADDR ", non-write " "memory area (value 0x%08" PRIx32 ").\n", addr, value); } static void simmem_write_null16 (oraddr_t addr, uint16_t value, void *dat) { if (config.sim.verbose) fprintf (stderr, "WARNING: 16-bit memory write to 0x%" PRIxADDR ", non-write " "memory area (value 0x%08" PRIx16 ").\n", addr, value); } static void simmem_write_null8 (oraddr_t addr, uint8_t value, void *dat) { if (config.sim.verbose) fprintf (stderr, "WARNING: 8-bit memory write to 0x%" PRIxADDR ", non-write " "memory area (value 0x%08" PRIx8 ").\n", addr, value); } static void mem_reset (void *dat) { struct mem_config *mem = dat; int seed; int i; uint8_t *mem_area = mem->mem; /* Initialize memory */ switch (mem->type) { case MT_RANDOM: if (mem->random_seed == -1) { seed = time (NULL); /* Print out the seed just in case we ever need to debug */ PRINTF ("Seeding random generator with value %d\n", seed); } else seed = mem->random_seed; srandom (seed); for (i = 0; i < mem->size; i++, mem_area++) *mem_area = random () & 0xFF; break; case MT_PATTERN: for (i = 0; i < mem->size; i++, mem_area++) *mem_area = mem->pattern; break; case MT_UNKNOWN: break; default: fprintf (stderr, "Invalid memory configuration type.\n"); exit (1); } } /*-------------------------------------------------[ Memory configuration ]---*/ static void memory_random_seed (union param_val val, void *dat) { struct mem_config *mem = dat; mem->random_seed = val.int_val; } /*---------------------------------------------------------------------------*/ /*!Set the memory pattern Value must be up to 8 bits. Larger values are truncated with a warning. @param[in] val The value to use @param[in] dat The config data structure */ /*---------------------------------------------------------------------------*/ static void memory_pattern (union param_val val, void *dat) { struct mem_config *mem = dat; if (val.int_val > 0xff) { fprintf (stderr, "Warning: memory pattern exceeds 8-bits: truncated\n"); } mem->pattern = val.int_val & 0xff; } /* memory_pattern() */ /*---------------------------------------------------------------------------*/ /*!Set the memory type Value must be one of unknown, random, pattern or zero (case insensitive). Unrecognized values are ignored with a warning. @param[in] val The value to use @param[in] dat The config data structure */ /*---------------------------------------------------------------------------*/ static void memory_type (union param_val val, void *dat) { struct mem_config *mem = dat; if (0 == strcasecmp (val.str_val, "unknown")) { mem->type = MT_UNKNOWN; } else if (0 == strcasecmp (val.str_val, "random")) { mem->type = MT_RANDOM; } else if (0 == strcasecmp (val.str_val, "pattern")) { mem->type = MT_PATTERN; } else if (0 == strcasecmp (val.str_val, "zero")) { mem->type = MT_PATTERN; mem->pattern = 0; } else { fprintf (stderr, "Warning: memory type invalid. Ignored"); } } /* memory_type() */ static void memory_ce (union param_val val, void *dat) { struct mem_config *mem = dat; mem->ce = val.int_val; } static void memory_mc (union param_val val, void *dat) { struct mem_config *mem = dat; mem->mc = val.int_val; } static void memory_baseaddr (union param_val val, void *dat) { struct mem_config *mem = dat; mem->baseaddr = val.addr_val; } static void memory_size (union param_val val, void *dat) { struct mem_config *mem = dat; mem->size = val.int_val; } /* FIXME: Check use */ static void memory_name (union param_val val, void *dat) { struct mem_config *mem = dat; if (NULL != mem->name) { free (mem->name); } mem->name = strdup (val.str_val); } static void memory_log (union param_val val, void *dat) { struct mem_config *mem = dat; mem->log = strdup (val.str_val); } static void memory_delayr (union param_val val, void *dat) { struct mem_config *mem = dat; mem->delayr = val.int_val; } static void memory_delayw (union param_val val, void *dat) { struct mem_config *mem = dat; mem->delayw = val.int_val; } /*---------------------------------------------------------------------------*/ /*!Initialize a new block of memory configuration ALL parameters are set explicitly to default values. @return The new memory configuration data structure */ /*---------------------------------------------------------------------------*/ static void * memory_sec_start () { struct mem_config *mem = malloc (sizeof (struct mem_config)); if (!mem) { fprintf (stderr, "Memory Peripheral: Run out of memory\n"); exit (-1); } mem->type = MT_UNKNOWN; mem->random_seed = -1; mem->pattern = 0; mem->baseaddr = 0; mem->size = 1024; mem->name = strdup ("anonymous memory block"); mem->ce = -1; mem->mc = 0; mem->delayr = 1; mem->delayw = 1; mem->log = NULL; return mem; } /* memory_sec_start() */ static void memory_sec_end (void *dat) { struct mem_config *mem = dat; struct dev_memarea *mema; struct mem_ops ops; if (!mem->size) { free (dat); return; } /* Round up to the next 32-bit boundry */ if (mem->size & 3) { mem->size &= ~3; mem->size += 4; } if (!(mem->mem = malloc (mem->size))) { fprintf (stderr, "Unable to allocate memory at %" PRIxADDR ", length %i\n", mem->baseaddr, mem->size); exit (-1); } if (mem->delayr > 0) { ops.readfunc32 = simmem_read32; ops.readfunc16 = simmem_read16; ops.readfunc8 = simmem_read8; } else { ops.readfunc32 = simmem_read_zero32; ops.readfunc16 = simmem_read_zero16; ops.readfunc8 = simmem_read_zero8; } if (mem->delayw > 0) { ops.writefunc32 = simmem_write32; ops.writefunc16 = simmem_write16; ops.writefunc8 = simmem_write8; } else { ops.writefunc32 = simmem_write_null32; ops.writefunc16 = simmem_write_null16; ops.writefunc8 = simmem_write_null8; } ops.writeprog8 = simmem_write8; ops.writeprog32 = simmem_write32; ops.writeprog8_dat = mem->mem; ops.writeprog32_dat = mem->mem; ops.read_dat32 = mem->mem; ops.read_dat16 = mem->mem; ops.read_dat8 = mem->mem; ops.write_dat32 = mem->mem; ops.write_dat16 = mem->mem; ops.write_dat8 = mem->mem; ops.delayr = mem->delayr; ops.delayw = mem->delayw; ops.log = mem->log; mema = reg_mem_area (mem->baseaddr, mem->size, 0, &ops); /* Set valid */ /* FIXME: Should this be done during reset? */ set_mem_valid (mema, 1); if (mem->ce >= 0) mc_reg_mem_area (mema, mem->ce, mem->mc); reg_sim_reset (mem_reset, dat); } void reg_memory_sec (void) { struct config_section *sec = reg_config_sec ("memory", memory_sec_start, memory_sec_end); reg_config_param (sec, "type", paramt_word, memory_type); reg_config_param (sec, "random_seed", paramt_int, memory_random_seed); reg_config_param (sec, "pattern", paramt_int, memory_pattern); reg_config_param (sec, "baseaddr", paramt_addr, memory_baseaddr); reg_config_param (sec, "size", paramt_int, memory_size); reg_config_param (sec, "name", paramt_str, memory_name); reg_config_param (sec, "ce", paramt_int, memory_ce); reg_config_param (sec, "mc", paramt_int, memory_mc); reg_config_param (sec, "delayr", paramt_int, memory_delayr); reg_config_param (sec, "delayw", paramt_int, memory_delayw); reg_config_param (sec, "log", paramt_str, memory_log); }
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