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|
/***************************************************************************
* Copyright (C) 2009 by David Brownell *
* *
* Copyright (C) ST-Ericsson SA 2011 michel.jaouen@stericsson.com *
* *
* 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., *
* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *
***************************************************************************/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <helper/replacements.h>
#include "armv7a.h"
#include "arm_disassembler.h"
#include "register.h"
#include <helper/binarybuffer.h>
#include <helper/command.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "arm_opcodes.h"
#include "target.h"
#include "target_type.h"
static void armv7a_show_fault_registers(struct target *target)
{
uint32_t dfsr, ifsr, dfar, ifar;
struct armv7a_common *armv7a = target_to_armv7a(target);
struct arm_dpm *dpm = armv7a->armv4_5_common.dpm;
int retval;
retval = dpm->prepare(dpm);
if (retval != ERROR_OK)
return;
/* ARMV4_5_MRC(cpnum, op1, r0, CRn, CRm, op2) */
/* c5/c0 - {data, instruction} fault status registers */
retval = dpm->instr_read_data_r0(dpm,
ARMV4_5_MRC(15, 0, 0, 5, 0, 0),
&dfsr);
if (retval != ERROR_OK)
goto done;
retval = dpm->instr_read_data_r0(dpm,
ARMV4_5_MRC(15, 0, 0, 5, 0, 1),
&ifsr);
if (retval != ERROR_OK)
goto done;
/* c6/c0 - {data, instruction} fault address registers */
retval = dpm->instr_read_data_r0(dpm,
ARMV4_5_MRC(15, 0, 0, 6, 0, 0),
&dfar);
if (retval != ERROR_OK)
goto done;
retval = dpm->instr_read_data_r0(dpm,
ARMV4_5_MRC(15, 0, 0, 6, 0, 2),
&ifar);
if (retval != ERROR_OK)
goto done;
LOG_USER("Data fault registers DFSR: %8.8" PRIx32
", DFAR: %8.8" PRIx32, dfsr, dfar);
LOG_USER("Instruction fault registers IFSR: %8.8" PRIx32
", IFAR: %8.8" PRIx32, ifsr, ifar);
done:
/* (void) */ dpm->finish(dpm);
}
static int armv7a_read_ttbcr(struct target *target)
{
struct armv7a_common *armv7a = target_to_armv7a(target);
struct arm_dpm *dpm = armv7a->armv4_5_common.dpm;
uint32_t ttbcr;
int retval = dpm->prepare(dpm);
if (retval!=ERROR_OK) goto done;
/* MRC p15,0,<Rt>,c2,c0,2 ; Read CP15 Translation Table Base Control Register*/
retval = dpm->instr_read_data_r0(dpm,
ARMV4_5_MRC(15, 0, 0, 2, 0, 2),
&ttbcr);
if (retval!=ERROR_OK) goto done;
armv7a->armv7a_mmu.ttbr1_used = ((ttbcr & 0x7)!=0)? 1: 0;
armv7a->armv7a_mmu.ttbr0_mask = 7 << (32 -((ttbcr & 0x7)));
#if 0
LOG_INFO("ttb1 %s ,ttb0_mask %x",
armv7a->armv7a_mmu.ttbr1_used ? "used":"not used",
armv7a->armv7a_mmu.ttbr0_mask);
#endif
if (armv7a->armv7a_mmu.ttbr1_used == 1)
{
LOG_INFO("SVC access above %x",
(0xffffffff & armv7a->armv7a_mmu.ttbr0_mask));
armv7a->armv7a_mmu.os_border = 0xffffffff & armv7a->armv7a_mmu.ttbr0_mask;
}
else
{
/* fix me , default is hard coded LINUX border */
armv7a->armv7a_mmu.os_border = 0xc0000000;
}
done:
dpm->finish(dpm);
return retval;
}
/* method adapted to cortex A : reused arm v4 v5 method*/
int armv7a_mmu_translate_va(struct target *target, uint32_t va, uint32_t *val)
{
uint32_t first_lvl_descriptor = 0x0;
uint32_t second_lvl_descriptor = 0x0;
int retval;
struct armv7a_common *armv7a = target_to_armv7a(target);
struct arm_dpm *dpm = armv7a->armv4_5_common.dpm;
uint32_t ttb = 0; /* default ttb0 */
if (armv7a->armv7a_mmu.ttbr1_used == -1) armv7a_read_ttbcr(target);
if ((armv7a->armv7a_mmu.ttbr1_used) &&
(va > (0xffffffff & armv7a->armv7a_mmu.ttbr0_mask)))
{
/* select ttb 1 */
ttb = 1;
}
retval = dpm->prepare(dpm);
if (retval != ERROR_OK)
goto done;
/* MRC p15,0,<Rt>,c2,c0,ttb */
retval = dpm->instr_read_data_r0(dpm,
ARMV4_5_MRC(15, 0, 0, 2, 0, ttb),
&ttb);
if (retval != ERROR_OK)
return retval;
retval = armv7a->armv7a_mmu.read_physical_memory(target,
(ttb & 0xffffc000) | ((va & 0xfff00000) >> 18),
4, 1, (uint8_t*)&first_lvl_descriptor);
if (retval != ERROR_OK)
return retval;
first_lvl_descriptor = target_buffer_get_u32(target, (uint8_t*)
&first_lvl_descriptor);
/* reuse armv4_5 piece of code, specific armv7a changes may come later */
LOG_DEBUG("1st lvl desc: %8.8" PRIx32 "", first_lvl_descriptor);
if ((first_lvl_descriptor & 0x3) == 0)
{
LOG_ERROR("Address translation failure");
return ERROR_TARGET_TRANSLATION_FAULT;
}
if ((first_lvl_descriptor & 0x3) == 2)
{
/* section descriptor */
*val = (first_lvl_descriptor & 0xfff00000) | (va & 0x000fffff);
return ERROR_OK;
}
if ((first_lvl_descriptor & 0x3) == 1)
{
/* coarse page table */
retval = armv7a->armv7a_mmu.read_physical_memory(target,
(first_lvl_descriptor & 0xfffffc00) | ((va & 0x000ff000) >> 10),
4, 1, (uint8_t*)&second_lvl_descriptor);
if (retval != ERROR_OK)
return retval;
}
else if ((first_lvl_descriptor & 0x3) == 3)
{
/* fine page table */
retval = armv7a->armv7a_mmu.read_physical_memory(target,
(first_lvl_descriptor & 0xfffff000) | ((va & 0x000ffc00) >> 8),
4, 1, (uint8_t*)&second_lvl_descriptor);
if (retval != ERROR_OK)
return retval;
}
second_lvl_descriptor = target_buffer_get_u32(target, (uint8_t*)
&second_lvl_descriptor);
LOG_DEBUG("2nd lvl desc: %8.8" PRIx32 "", second_lvl_descriptor);
if ((second_lvl_descriptor & 0x3) == 0)
{
LOG_ERROR("Address translation failure");
return ERROR_TARGET_TRANSLATION_FAULT;
}
if ((second_lvl_descriptor & 0x3) == 1)
{
/* large page descriptor */
*val = (second_lvl_descriptor & 0xffff0000) | (va & 0x0000ffff);
return ERROR_OK;
}
if ((second_lvl_descriptor & 0x3) == 2)
{
/* small page descriptor */
*val = (second_lvl_descriptor & 0xfffff000) | (va & 0x00000fff);
return ERROR_OK;
}
if ((second_lvl_descriptor & 0x3) == 3)
{
*val = (second_lvl_descriptor & 0xfffffc00) | (va & 0x000003ff);
return ERROR_OK;
}
/* should not happen */
LOG_ERROR("Address translation failure");
return ERROR_TARGET_TRANSLATION_FAULT;
done:
return retval;
}
/* V7 method VA TO PA */
int armv7a_mmu_translate_va_pa(struct target *target, uint32_t va,
uint32_t *val, int meminfo)
{
int retval = ERROR_FAIL;
struct armv7a_common *armv7a = target_to_armv7a(target);
struct arm_dpm *dpm = armv7a->armv4_5_common.dpm;
uint32_t virt = va & ~0xfff;
uint32_t NOS,NS,INNER,OUTER;
*val = 0xdeadbeef;
retval = dpm->prepare(dpm);
if (retval != ERROR_OK)
goto done;
/* mmu must be enable in order to get a correct translation */
/* use VA to PA CP15 register for conversion */
retval = dpm->instr_write_data_r0(dpm,
ARMV4_5_MCR(15, 0, 0, 7, 8, 0),
virt);
if (retval!=ERROR_OK) goto done;
retval = dpm->instr_read_data_r0(dpm,
ARMV4_5_MRC(15, 0, 0, 7, 4, 0),
val);
/* decode memory attribute */
NOS = (*val >> 10) & 1; /* Not Outer shareable */
NS = (*val >> 9) & 1; /* Non secure */
INNER = (*val >> 4) & 0x7;
OUTER = (*val >> 2) & 0x3;
if (retval!=ERROR_OK) goto done;
*val = (*val & ~0xfff) + (va & 0xfff);
if (*val == va)
LOG_WARNING("virt = phys : MMU disable !!");
if (meminfo)
{
LOG_INFO("%x : %x %s outer shareable %s secured",
va, *val,
NOS == 1 ? "not" : " ",
NS == 1 ? "not" :"");
switch (OUTER) {
case 0 : LOG_INFO("outer: Non-Cacheable");
break;
case 1 : LOG_INFO("outer: Write-Back, Write-Allocate");
break;
case 2 : LOG_INFO("outer: Write-Through, No Write-Allocate");
break;
case 3 : LOG_INFO("outer: Write-Back, no Write-Allocate");
break;
}
switch (INNER) {
case 0 : LOG_INFO("inner: Non-Cacheable");
break;
case 1 : LOG_INFO("inner: Strongly-ordered");
break;
case 3 : LOG_INFO("inner: Device");
break;
case 5 : LOG_INFO("inner: Write-Back, Write-Allocate");
break;
case 6 : LOG_INFO("inner: Write-Through");
break;
case 7 : LOG_INFO("inner: Write-Back, no Write-Allocate");
default: LOG_INFO("inner: %x ???",INNER);
}
}
done:
dpm->finish(dpm);
return retval;
}
static int armv7a_handle_inner_cache_info_command(struct command_context *cmd_ctx,
struct armv7a_cache_common *armv7a_cache)
{
if (armv7a_cache->ctype == -1)
{
command_print(cmd_ctx, "cache not yet identified");
return ERROR_OK;
}
command_print(cmd_ctx,
"D-Cache: linelen %i, associativity %i, nsets %i, cachesize %d KBytes",
armv7a_cache->d_u_size.linelen,
armv7a_cache->d_u_size.associativity,
armv7a_cache->d_u_size.nsets,
armv7a_cache->d_u_size.cachesize);
command_print(cmd_ctx,
"I-Cache: linelen %i, associativity %i, nsets %i, cachesize %d KBytes",
armv7a_cache->i_size.linelen,
armv7a_cache->i_size.associativity,
armv7a_cache->i_size.nsets,
armv7a_cache->i_size.cachesize);
return ERROR_OK;
}
static int _armv7a_flush_all_data(struct target *target)
{
struct armv7a_common *armv7a = target_to_armv7a(target);
struct arm_dpm *dpm = armv7a->armv4_5_common.dpm;
struct armv7a_cachesize *d_u_size =
&(armv7a->armv7a_mmu.armv7a_cache.d_u_size);
int32_t c_way, c_index = d_u_size->index;
int retval;
/* check that cache data is on at target halt */
if (!armv7a->armv7a_mmu.armv7a_cache.d_u_cache_enabled)
{
LOG_INFO("flushed not performed :cache not on at target halt");
return ERROR_OK;
}
retval = dpm->prepare(dpm);
if (retval != ERROR_OK) goto done;
do {
c_way = d_u_size->way;
do {
uint32_t value = (c_index << d_u_size->index_shift)
| (c_way << d_u_size->way_shift);
/* DCCISW */
//LOG_INFO ("%d %d %x",c_way,c_index,value);
retval = dpm->instr_write_data_r0(dpm,
ARMV4_5_MCR(15, 0, 0, 7, 14, 2),
value);
if (retval!= ERROR_OK) goto done;
c_way -= 1;
} while (c_way >=0);
c_index -= 1;
} while (c_index >=0);
return retval;
done:
LOG_ERROR("flushed failed");
dpm->finish(dpm);
return retval;
}
static int armv7a_flush_all_data( struct target * target)
{
int retval = ERROR_FAIL;
/* check that armv7a_cache is correctly identify */
struct armv7a_common *armv7a = target_to_armv7a(target);
if (armv7a->armv7a_mmu.armv7a_cache.ctype == -1)
{
LOG_ERROR("trying to flush un-identified cache");
return retval;
}
if (target->smp)
{
/* look if all the other target have been flushed in order to flush level
* 2 */
struct target_list *head;
struct target *curr;
head = target->head;
while(head != (struct target_list*)NULL)
{
curr = head->target;
if ((curr->state == TARGET_HALTED))
{ LOG_INFO("Wait flushing data l1 on core %d",curr->coreid);
retval = _armv7a_flush_all_data(curr);
}
head = head->next;
}
}
else retval = _armv7a_flush_all_data(target);
return retval;
}
/* L2 is not specific to armv7a a specific file is needed */
static int armv7a_l2x_flush_all_data(struct target * target)
{
#define L2X0_CLEAN_INV_WAY 0x7FC
int retval = ERROR_FAIL;
struct armv7a_common *armv7a = target_to_armv7a(target);
struct armv7a_l2x_cache *l2x_cache = (struct armv7a_l2x_cache*)
(armv7a->armv7a_mmu.armv7a_cache.l2_cache);
uint32_t base = l2x_cache->base;
uint32_t l2_way = l2x_cache->way;
uint32_t l2_way_val = (1<<l2_way) -1;
retval = armv7a_flush_all_data(target);
if (retval!=ERROR_OK) return retval;
retval = target->type->write_phys_memory(target,
(uint32_t)(base+(uint32_t)L2X0_CLEAN_INV_WAY),
(uint32_t)4,
(uint32_t)1,
(uint8_t*)&l2_way_val);
return retval;
}
static int armv7a_handle_l2x_cache_info_command(struct command_context *cmd_ctx,
struct armv7a_cache_common *armv7a_cache)
{
struct armv7a_l2x_cache *l2x_cache = (struct armv7a_l2x_cache*)
(armv7a_cache->l2_cache);
if (armv7a_cache->ctype == -1)
{
command_print(cmd_ctx, "cache not yet identified");
return ERROR_OK;
}
command_print(cmd_ctx,
"L1 D-Cache: linelen %i, associativity %i, nsets %i, cachesize %d KBytes",
armv7a_cache->d_u_size.linelen,
armv7a_cache->d_u_size.associativity,
armv7a_cache->d_u_size.nsets,
armv7a_cache->d_u_size.cachesize);
command_print(cmd_ctx,
"L1 I-Cache: linelen %i, associativity %i, nsets %i, cachesize %d KBytes",
armv7a_cache->i_size.linelen,
armv7a_cache->i_size.associativity,
armv7a_cache->i_size.nsets,
armv7a_cache->i_size.cachesize);
command_print(cmd_ctx, "L2 unified cache Base Address 0x%x, %d ways",
l2x_cache->base, l2x_cache->way);
return ERROR_OK;
}
static int armv7a_l2x_cache_init(struct target *target, uint32_t base, uint32_t way)
{
struct armv7a_l2x_cache *l2x_cache;
struct target_list *head = target->head;
struct target *curr;
struct armv7a_common *armv7a = target_to_armv7a(target);
l2x_cache = calloc(1, sizeof(struct armv7a_l2x_cache));
l2x_cache->base = base;
l2x_cache->way = way;
/*LOG_INFO("cache l2 initialized base %x way %d",
l2x_cache->base,l2x_cache->way);*/
if (armv7a->armv7a_mmu.armv7a_cache.l2_cache)
{
LOG_INFO("cache l2 already initialized\n");
}
armv7a->armv7a_mmu.armv7a_cache.l2_cache = (void*) l2x_cache;
/* initialize l1 / l2x cache function */
armv7a->armv7a_mmu.armv7a_cache.flush_all_data_cache
= armv7a_l2x_flush_all_data;
armv7a->armv7a_mmu.armv7a_cache.display_cache_info =
armv7a_handle_l2x_cache_info_command;
/* initialize all target in this cluster (smp target)*/
/* l2 cache must be configured after smp declaration */
while(head != (struct target_list*)NULL)
{
curr = head->target;
if (curr != target)
{
armv7a = target_to_armv7a(curr);
if (armv7a->armv7a_mmu.armv7a_cache.l2_cache)
{
LOG_ERROR("smp target : cache l2 already initialized\n");
}
armv7a->armv7a_mmu.armv7a_cache.l2_cache = (void*) l2x_cache;
armv7a->armv7a_mmu.armv7a_cache.flush_all_data_cache =
armv7a_l2x_flush_all_data;
armv7a->armv7a_mmu.armv7a_cache.display_cache_info =
armv7a_handle_l2x_cache_info_command;
}
head = head -> next;
}
return JIM_OK;
}
COMMAND_HANDLER(handle_cache_l2x)
{
struct target *target = get_current_target(CMD_CTX);
uint32_t base, way;
switch (CMD_ARGC) {
case 0:
return ERROR_COMMAND_SYNTAX_ERROR;
break;
case 2:
//command_print(CMD_CTX, "%s %s", CMD_ARGV[0], CMD_ARGV[1]);
COMMAND_PARSE_NUMBER(u32, CMD_ARGV[0], base);
COMMAND_PARSE_NUMBER(u32, CMD_ARGV[1], way);
/* AP address is in bits 31:24 of DP_SELECT */
armv7a_l2x_cache_init(target, base, way);
break;
default:
return ERROR_COMMAND_SYNTAX_ERROR;
}
return ERROR_OK;
}
int armv7a_handle_cache_info_command(struct command_context *cmd_ctx,
struct armv7a_cache_common *armv7a_cache)
{
if (armv7a_cache->ctype == -1)
{
command_print(cmd_ctx, "cache not yet identified");
return ERROR_OK;
}
if (armv7a_cache->display_cache_info)
armv7a_cache->display_cache_info(cmd_ctx, armv7a_cache);
return ERROR_OK;
}
/* retrieve core id cluster id */
static int armv7a_read_mpidr(struct target *target)
{
int retval = ERROR_FAIL;
struct armv7a_common *armv7a = target_to_armv7a(target);
struct arm_dpm *dpm = armv7a->armv4_5_common.dpm;
uint32_t mpidr;
retval = dpm->prepare(dpm);
if (retval!=ERROR_OK) goto done;
/* MRC p15,0,<Rd>,c0,c0,5; read Multiprocessor ID register*/
retval = dpm->instr_read_data_r0(dpm,
ARMV4_5_MRC(15, 0, 0, 0, 0, 5),
&mpidr);
if (retval!=ERROR_OK) goto done;
if (mpidr & 1<<31)
{
armv7a->multi_processor_system = (mpidr >> 30) & 1;
armv7a->cluster_id = (mpidr >> 8) & 0xf;
armv7a->cpu_id = mpidr & 0x3;
LOG_INFO("%s cluster %x core %x %s", target->cmd_name,
armv7a->cluster_id,
armv7a->cpu_id,
armv7a->multi_processor_system == 0 ? "multi core": "mono core");
}
else
LOG_ERROR("mpdir not in multiprocessor format");
done:
dpm->finish(dpm);
return retval;
}
int armv7a_identify_cache(struct target *target)
{
/* read cache descriptor */
int retval = ERROR_FAIL;
struct armv7a_common *armv7a = target_to_armv7a(target);
struct arm_dpm *dpm = armv7a->armv4_5_common.dpm;
uint32_t cache_selected,clidr;
uint32_t cache_i_reg, cache_d_reg;
struct armv7a_cache_common *cache = &(armv7a->armv7a_mmu.armv7a_cache);
armv7a_read_ttbcr(target);
retval = dpm->prepare(dpm);
if (retval!=ERROR_OK) goto done;
/* retrieve CLIDR */
/* mrc p15, 1, r0, c0, c0, 1 @ read clidr */
retval = dpm->instr_read_data_r0(dpm,
ARMV4_5_MRC(15, 1, 0, 0, 0, 1),
&clidr);
if (retval!=ERROR_OK) goto done;
clidr = (clidr & 0x7000000) >> 23;
LOG_INFO("number of cache level %d",clidr /2 );
if ((clidr /2) > 1)
{
// FIXME not supported present in cortex A8 and later
// in cortex A7, A15
LOG_ERROR("cache l2 present :not supported");
}
/* retrieve selected cache */
/* MRC p15, 2,<Rd>, c0, c0, 0; Read CSSELR */
retval = dpm->instr_read_data_r0(dpm,
ARMV4_5_MRC(15, 2, 0, 0, 0, 0),
&cache_selected);
if (retval!=ERROR_OK) goto done;
retval = armv7a->armv4_5_common.mrc(target, 15,
2, 0, /* op1, op2 */
0, 0, /* CRn, CRm */
&cache_selected);
if (retval!=ERROR_OK) goto done;
/* select instruction cache*/
/* MCR p15, 2,<Rd>, c0, c0, 0; Write CSSELR */
/* [0] : 1 instruction cache selection , 0 data cache selection */
retval = dpm->instr_write_data_r0(dpm,
ARMV4_5_MRC(15, 2, 0, 0, 0, 0),
1);
if (retval!=ERROR_OK) goto done;
/* read CCSIDR*/
/* MRC P15,1,<RT>,C0, C0,0 ;on cortex A9 read CCSIDR */
/* [2:0] line size 001 eight word per line */
/* [27:13] NumSet 0x7f 16KB, 0xff 32Kbytes, 0x1ff 64Kbytes */
retval = dpm->instr_read_data_r0(dpm,
ARMV4_5_MRC(15, 1, 0, 0, 0, 0),
&cache_i_reg);
if (retval!=ERROR_OK) goto done;
/* select data cache*/
retval = dpm->instr_write_data_r0(dpm,
ARMV4_5_MRC(15, 2, 0, 0, 0, 0),
0);
if (retval!=ERROR_OK) goto done;
retval = dpm->instr_read_data_r0(dpm,
ARMV4_5_MRC(15, 1, 0, 0, 0, 0),
&cache_d_reg);
if (retval!=ERROR_OK) goto done;
/* restore selected cache */
dpm->instr_write_data_r0(dpm,
ARMV4_5_MRC(15, 2, 0, 0, 0, 0),
cache_selected);
if (retval != ERROR_OK) goto done;
dpm->finish(dpm);
// put fake type
cache->d_u_size.linelen = 16 << (cache_d_reg & 0x7);
cache->d_u_size.cachesize = (((cache_d_reg >> 13) & 0x7fff)+1)/8;
cache->d_u_size.nsets = (cache_d_reg >> 13) & 0x7fff;
cache->d_u_size.associativity = ((cache_d_reg >> 3) & 0x3ff) +1;
/* compute info for set way operation on cache */
cache->d_u_size.index_shift = (cache_d_reg & 0x7) + 4;
cache->d_u_size.index = (cache_d_reg >> 13) & 0x7fff;
cache->d_u_size.way = ((cache_d_reg >> 3) & 0x3ff);
cache->d_u_size.way_shift = cache->d_u_size.way+1;
{
int i=0;
while(((cache->d_u_size.way_shift >> i) & 1)!=1) i++;
cache->d_u_size.way_shift = 32-i;
}
/*LOG_INFO("data cache index %d << %d, way %d << %d",
cache->d_u_size.index, cache->d_u_size.index_shift,
cache->d_u_size.way, cache->d_u_size.way_shift);
LOG_INFO("data cache %d bytes %d KBytes asso %d ways",
cache->d_u_size.linelen,
cache->d_u_size.cachesize,
cache->d_u_size.associativity
);*/
cache->i_size.linelen = 16 << (cache_i_reg & 0x7);
cache->i_size.associativity = ((cache_i_reg >> 3) & 0x3ff) +1;
cache->i_size.nsets = (cache_i_reg >> 13) & 0x7fff;
cache->i_size.cachesize = (((cache_i_reg >> 13) & 0x7fff)+1)/8;
/* compute info for set way operation on cache */
cache->i_size.index_shift = (cache_i_reg & 0x7) + 4;
cache->i_size.index = (cache_i_reg >> 13) & 0x7fff;
cache->i_size.way = ((cache_i_reg >> 3) & 0x3ff);
cache->i_size.way_shift = cache->i_size.way+1;
{
int i=0;
while(((cache->i_size.way_shift >> i) & 1)!=1) i++;
cache->i_size.way_shift = 32-i;
}
/*LOG_INFO("instruction cache index %d << %d, way %d << %d",
cache->i_size.index, cache->i_size.index_shift,
cache->i_size.way, cache->i_size.way_shift);
LOG_INFO("instruction cache %d bytes %d KBytes asso %d ways",
cache->i_size.linelen,
cache->i_size.cachesize,
cache->i_size.associativity
);*/
/* if no l2 cache initialize l1 data cache flush function function */
if (armv7a->armv7a_mmu.armv7a_cache.flush_all_data_cache == NULL)
{
armv7a->armv7a_mmu.armv7a_cache.display_cache_info =
armv7a_handle_inner_cache_info_command;
armv7a->armv7a_mmu.armv7a_cache.flush_all_data_cache =
armv7a_flush_all_data;
}
armv7a->armv7a_mmu.armv7a_cache.ctype = 0;
done:
dpm->finish(dpm);
armv7a_read_mpidr(target);
return retval;
}
int armv7a_init_arch_info(struct target *target, struct armv7a_common *armv7a)
{
struct arm *armv4_5 = &armv7a->armv4_5_common;
armv4_5->arch_info = armv7a;
target->arch_info = &armv7a->armv4_5_common;
/* target is useful in all function arm v4 5 compatible */
armv7a->armv4_5_common.target = target;
armv7a->armv4_5_common.common_magic = ARM_COMMON_MAGIC;
armv7a->common_magic = ARMV7_COMMON_MAGIC;
armv7a->armv7a_mmu.armv7a_cache.l2_cache = NULL;
armv7a->armv7a_mmu.armv7a_cache.ctype = -1;
armv7a->armv7a_mmu.armv7a_cache.flush_all_data_cache = NULL;
armv7a->armv7a_mmu.armv7a_cache.display_cache_info = NULL;
return ERROR_OK;
}
int armv7a_arch_state(struct target *target)
{
static const char *state[] =
{
"disabled", "enabled"
};
struct armv7a_common *armv7a = target_to_armv7a(target);
struct arm *armv4_5 = &armv7a->armv4_5_common;
if (armv7a->common_magic != ARMV7_COMMON_MAGIC)
{
LOG_ERROR("BUG: called for a non-ARMv7A target");
return ERROR_INVALID_ARGUMENTS;
}
arm_arch_state(target);
LOG_USER("MMU: %s, D-Cache: %s, I-Cache: %s",
state[armv7a->armv7a_mmu.mmu_enabled],
state[armv7a->armv7a_mmu.armv7a_cache.d_u_cache_enabled],
state[armv7a->armv7a_mmu.armv7a_cache.i_cache_enabled]);
if (armv4_5->core_mode == ARM_MODE_ABT)
armv7a_show_fault_registers(target);
if (target->debug_reason == DBG_REASON_WATCHPOINT)
LOG_USER("Watchpoint triggered at PC %#08x",
(unsigned) armv7a->dpm.wp_pc);
return ERROR_OK;
}
static const struct command_registration l2_cache_commands[] = {
{
.name = "l2x",
.handler = handle_cache_l2x,
.mode = COMMAND_EXEC,
.help = "configure l2x cache "
"",
.usage = "[base_addr] [number_of_way]",
},
COMMAND_REGISTRATION_DONE
};
const struct command_registration l2x_cache_command_handlers[] = {
{
.name = "cache_config",
.mode = COMMAND_EXEC,
.help = "cache configuation for a target",
.chain = l2_cache_commands,
},
COMMAND_REGISTRATION_DONE
};
const struct command_registration armv7a_command_handlers[] = {
{
.chain = dap_command_handlers,
},
{
.chain = l2x_cache_command_handlers,
},
COMMAND_REGISTRATION_DONE
};
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