coreboot-libre-fam15h-rdimm/3rdparty/chromeec/chip/mt_scp/memmap.c

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2024-03-04 11:14:53 +01:00
/* Copyright 2018 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*
* SCP memory map
*/
#include "common.h"
#include "compile_time_macros.h"
#include "console.h"
#include "hooks.h"
#include "memmap.h"
#include "registers.h"
#include "util.h"
/*
* Map SCP address (bits 31~28) to AP address
*
* SCP addr : AP addr
* 0x20000000 0x40000000
* 0x30000000 0x50000000
* 0x60000000 0x60000000
* 0x70000000 0x70000000
* 0x80000000 0x80000000
* 0x90000000 0x00000000
* 0xA0000000 0x10000000
* 0xB0000000 0x20000000
* 0xC0000000 0x30000000
* 0xD0000000 0x10000000
* 0xE0000000 0xA0000000
* 0xF0000000 0x90000000
*/
#define MAP_INVALID 0xff
static const uint8_t addr_map[16] = {
MAP_INVALID, /* 0x0: SRAM */
MAP_INVALID, /* 0x1: Cached access (see below) */
0x4, 0x5, /* 0x2-0x3 */
MAP_INVALID, MAP_INVALID, /* 0x4-0x5 (unmapped: registers) */
0x6, 0x7, 0x8, /* 0x6-0x8 */
0x0, 0x1, 0x2, 0x3, /* 0x9-0xc */
0x1, 0xa, 0x9 /* 0xd-0xf */
};
/*
* AP addr : SCP cache addr
* 0x50000000 0x10000000
*/
#define CACHE_TRANS_AP_ADDR 0x50000000
#define CACHE_TRANS_SCP_CACHE_ADDR 0x10000000
/* FIXME: This should be configurable */
#define CACHE_TRANS_AP_SIZE 0x00400000
#ifdef CONFIG_DRAM_BASE
BUILD_ASSERT(CONFIG_DRAM_BASE_LOAD == CACHE_TRANS_AP_ADDR);
BUILD_ASSERT(CONFIG_DRAM_BASE == CACHE_TRANS_SCP_CACHE_ADDR);
#endif
static void cpu_invalidate_icache(void)
{
SCP_CACHE_OP(CACHE_ICACHE) &= ~SCP_CACHE_OP_OP_MASK;
SCP_CACHE_OP(CACHE_ICACHE) |=
OP_INVALIDATE_ALL_LINES | SCP_CACHE_OP_EN;
asm volatile("dsb; isb");
}
void cpu_invalidate_dcache(void)
{
SCP_CACHE_OP(CACHE_DCACHE) &= ~SCP_CACHE_OP_OP_MASK;
SCP_CACHE_OP(CACHE_DCACHE) |=
OP_INVALIDATE_ALL_LINES | SCP_CACHE_OP_EN;
/* Dummy read is necessary to confirm the invalidation finish. */
REG32(CACHE_TRANS_SCP_CACHE_ADDR);
asm volatile("dsb;");
}
void cpu_invalidate_dcache_range(uintptr_t base, unsigned int length)
{
size_t pos;
uintptr_t addr;
for (pos = 0; pos < length; pos += SCP_CACHE_LINE_SIZE) {
addr = base + pos;
SCP_CACHE_OP(CACHE_DCACHE) = addr & SCP_CACHE_OP_TADDR_MASK;
SCP_CACHE_OP(CACHE_DCACHE) |=
OP_INVALIDATE_ONE_LINE_BY_ADDRESS | SCP_CACHE_OP_EN;
/* Dummy read necessary to confirm the invalidation finish. */
REG32(addr);
}
asm volatile("dsb;");
}
void cpu_clean_invalidate_dcache(void)
{
SCP_CACHE_OP(CACHE_DCACHE) &= ~SCP_CACHE_OP_OP_MASK;
SCP_CACHE_OP(CACHE_DCACHE) |=
OP_CACHE_FLUSH_ALL_LINES | SCP_CACHE_OP_EN;
SCP_CACHE_OP(CACHE_DCACHE) &= ~SCP_CACHE_OP_OP_MASK;
SCP_CACHE_OP(CACHE_DCACHE) |=
OP_INVALIDATE_ALL_LINES | SCP_CACHE_OP_EN;
/* Dummy read necessary to confirm the invalidation finish. */
REG32(CACHE_TRANS_SCP_CACHE_ADDR);
asm volatile("dsb;");
}
void cpu_clean_invalidate_dcache_range(uintptr_t base, unsigned int length)
{
size_t pos;
uintptr_t addr;
for (pos = 0; pos < length; pos += SCP_CACHE_LINE_SIZE) {
addr = base + pos;
SCP_CACHE_OP(CACHE_DCACHE) = addr & SCP_CACHE_OP_TADDR_MASK;
SCP_CACHE_OP(CACHE_DCACHE) |=
OP_CACHE_FLUSH_ONE_LINE_BY_ADDRESS | SCP_CACHE_OP_EN;
SCP_CACHE_OP(CACHE_DCACHE) = addr & SCP_CACHE_OP_TADDR_MASK;
SCP_CACHE_OP(CACHE_DCACHE) |=
OP_INVALIDATE_ONE_LINE_BY_ADDRESS | SCP_CACHE_OP_EN;
/* Dummy read necessary to confirm the invalidation finish. */
REG32(addr);
}
asm volatile("dsb;");
}
static void scp_cache_init(void)
{
int c;
const int region = 0;
/* First make sure all caches are disabled, and reset stats. */
for (c = 0; c < CACHE_COUNT; c++) {
/*
* Changing cache-size config may change the SRAM logical
* address in the mean time. This may break the loaded
* memory layout, and thus break the system. Cache-size
* should only be be configured in kernel driver before
* laoding the firmware. b/137920815#comment18
*/
SCP_CACHE_CON(c) &= (SCP_CACHE_CON_CACHESIZE_MASK |
SCP_CACHE_CON_WAYEN);
SCP_CACHE_REGION_EN(c) = 0;
SCP_CACHE_ENTRY(c, region) = 0;
SCP_CACHE_END_ENTRY(c, region) = 0;
/* Reset statistics. */
SCP_CACHE_HCNT0U(c) = 0;
SCP_CACHE_HCNT0L(c) = 0;
SCP_CACHE_CCNT0U(c) = 0;
SCP_CACHE_CCNT0L(c) = 0;
}
/* No "normal" remap. */
SCP_L1_REMAP_CFG0 = 0;
SCP_L1_REMAP_CFG1 = 0;
SCP_L1_REMAP_CFG2 = 0;
SCP_L1_REMAP_CFG3 = 0;
/*
* Setup OTHER1: Remap register for addr msb 31 to 28 equal to 0x1 and
* not overlap with L1C_EXT_ADDR0 to L1C_EXT_ADDR7.
*/
SCP_L1_REMAP_OTHER =
(CACHE_TRANS_AP_ADDR >> SCP_L1_EXT_ADDR_OTHER_SHIFT) << 8;
/* Disable sleep protect */
SCP_SLP_PROTECT_CFG = SCP_SLP_PROTECT_CFG &
~(P_CACHE_SLP_PROT_EN | D_CACHE_SLP_PROT_EN);
/* Enable region 0 for both I-cache and D-cache. */
for (c = 0; c < CACHE_COUNT; c++) {
SCP_CACHE_ENTRY(c, region) = CACHE_TRANS_SCP_CACHE_ADDR;
SCP_CACHE_END_ENTRY(c, region) =
CACHE_TRANS_SCP_CACHE_ADDR + CACHE_TRANS_AP_SIZE;
SCP_CACHE_ENTRY(c, region) |= SCP_CACHE_ENTRY_C;
SCP_CACHE_REGION_EN(c) |= 1 << region;
/*
* Enable cache. Note that cache size setting should have been
* done in kernel driver. b/137920815#comment18
*/
SCP_CACHE_CON(c) |= SCP_CACHE_CON_MCEN | SCP_CACHE_CON_CNTEN0;
}
cpu_invalidate_icache();
cpu_invalidate_dcache();
}
static int command_cacheinfo(int argc, char **argv)
{
const char cache_name[] = {'I', 'D'};
int c;
for (c = 0; c < 2; c++) {
uint64_t hit = ((uint64_t)SCP_CACHE_HCNT0U(c) << 32) |
SCP_CACHE_HCNT0L(c);
uint64_t access = ((uint64_t)SCP_CACHE_CCNT0U(c) << 32) |
SCP_CACHE_CCNT0L(c);
ccprintf("%ccache hit count: %lu\n", cache_name[c], hit);
ccprintf("%ccache access count: %lu\n", cache_name[c], access);
}
return EC_SUCCESS;
}
DECLARE_SAFE_CONSOLE_COMMAND(cacheinfo, command_cacheinfo,
NULL,
"Dump cache info");
void scp_memmap_init(void)
{
/*
* Default config, LARGE DRAM not active:
* REG32(0xA0001F00) & 0x2000 != 0
*/
/*
* SCP_REMAP_CFG1
* EXT_ADDR3[29:24] remap register for addr msb 31~28 equal to 0x7
* EXT_ADDR2[21:16] remap register for addr msb 31~28 equal to 0x6
* EXT_ADDR1[13:8] remap register for addr msb 31~28 equal to 0x3
* EXT_ADDR0[5:0] remap register for addr msb 31~28 equal to 0x2
*/
SCP_REMAP_CFG1 =
(uint32_t)addr_map[0x7] << 24 |
(uint32_t)addr_map[0x6] << 16 |
(uint32_t)addr_map[0x3] << 8 |
(uint32_t)addr_map[0x2];
/*
* SCP_REMAP_CFG2
* EXT_ADDR7[29:24] remap register for addr msb 31~28 equal to 0xb
* EXT_ADDR6[21:16] remap register for addr msb 31~28 equal to 0xa
* EXT_ADDR5[13:8] remap register for addr msb 31~28 equal to 0x9
* EXT_ADDR4[5:0] remap register for addr msb 31~28 equal to 0x8
*/
SCP_REMAP_CFG2 =
(uint32_t)addr_map[0xb] << 24 |
(uint32_t)addr_map[0xa] << 16 |
(uint32_t)addr_map[0x9] << 8 |
(uint32_t)addr_map[0x8];
/*
* SCP_REMAP_CFG3
* AUD_ADDR[31:28] remap register for addr msb 31~28 equal to 0xd
* EXT_ADDR10[21:16]remap register for addr msb 31~28 equal to 0xf
* EXT_ADDR9[13:8] remap register for addr msb 31~28 equal to 0xe
* EXT_ADDR8[5:0] remap register for addr msb 31~28 equal to 0xc
*/
SCP_REMAP_CFG3 =
(uint32_t)addr_map[0xd] << 28 |
(uint32_t)addr_map[0xf] << 16 |
(uint32_t)addr_map[0xe] << 8 |
(uint32_t)addr_map[0xc];
/* Initialize cache remapping. */
scp_cache_init();
}
int memmap_ap_to_scp(uintptr_t ap_addr, uintptr_t *scp_addr)
{
int i;
uint8_t msb = ap_addr >> SCP_REMAP_ADDR_SHIFT;
for (i = 0; i < ARRAY_SIZE(addr_map); i++) {
if (addr_map[i] != msb)
continue;
*scp_addr = (ap_addr & SCP_REMAP_ADDR_LSB_MASK) |
(i << SCP_REMAP_ADDR_SHIFT);
return EC_SUCCESS;
}
return EC_ERROR_INVAL;
}
int memmap_scp_to_ap(uintptr_t scp_addr, uintptr_t *ap_addr)
{
int i = scp_addr >> SCP_REMAP_ADDR_SHIFT;
if (addr_map[i] == MAP_INVALID)
return EC_ERROR_INVAL;
*ap_addr = (scp_addr & SCP_REMAP_ADDR_LSB_MASK) |
(addr_map[i] << SCP_REMAP_ADDR_SHIFT);
return EC_SUCCESS;
}
#ifdef CONFIG_DRAM_BASE
BUILD_ASSERT(CONFIG_DRAM_BASE_LOAD == CACHE_TRANS_AP_ADDR);
BUILD_ASSERT(CONFIG_DRAM_BASE == CACHE_TRANS_SCP_CACHE_ADDR);
#endif
int memmap_ap_to_scp_cache(uintptr_t ap_addr, uintptr_t *scp_addr)
{
uintptr_t lsb;
if ((ap_addr & SCP_L1_EXT_ADDR_OTHER_MSB_MASK) != CACHE_TRANS_AP_ADDR)
return EC_ERROR_INVAL;
lsb = ap_addr & SCP_L1_EXT_ADDR_OTHER_LSB_MASK;
if (lsb > CACHE_TRANS_AP_SIZE)
return EC_ERROR_INVAL;
*scp_addr = CACHE_TRANS_SCP_CACHE_ADDR | lsb;
return EC_SUCCESS;
}
int memmap_scp_cache_to_ap(uintptr_t scp_addr, uintptr_t *ap_addr)
{
uintptr_t lsb;
if ((scp_addr & SCP_L1_EXT_ADDR_OTHER_MSB_MASK) !=
CACHE_TRANS_SCP_CACHE_ADDR)
return EC_ERROR_INVAL;
lsb = scp_addr & SCP_L1_EXT_ADDR_OTHER_LSB_MASK;
if (lsb >= CACHE_TRANS_AP_SIZE)
return EC_ERROR_INVAL;
*ap_addr = CACHE_TRANS_AP_ADDR | lsb;
return EC_SUCCESS;
}