armv7/exynos5420: Configure CPU cores for kernel to enable SMP.

The SMP on Exynos 5420 requires setting a special page and entry wrappers in
firmware side (SRAM) so kernel can start cores (and to switch clusters).

Change-Id: I77ca98bb6cff5b13e95dd29228e4536302f0aee9
Signed-off-by: Hung-Te Lin <hungte@chromium.org>
Reviewed-on: https://gerrit.chromium.org/gerrit/64770
Reviewed-by: Ronald G. Minnich <rminnich@chromium.org>
(cherry picked from commit 4a11c7ab78cc0811df0f88763b0af8b9f24e5433)
Signed-off-by: Isaac Christensen <isaac.christensen@se-eng.com>
Reviewed-on: http://review.coreboot.org/6405
Tested-by: build bot (Jenkins)
Reviewed-by: Paul Menzel <paulepanter@users.sourceforge.net>
Reviewed-by: Edward O'Callaghan <eocallaghan@alterapraxis.com>
This commit is contained in:
Hung-Te Lin 2013-08-06 20:37:55 +08:00 committed by Isaac Christensen
parent c3fda416a7
commit 0682cfefdb
6 changed files with 324 additions and 4 deletions

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@ -98,4 +98,10 @@ inline static void sev(void)
asm volatile ("sev");
}
/* puts CPU into SVC32 mode and disable interrupts. */
inline static void set_svc32_mode(void)
{
asm volatile("msr cpsr_c, %0" :: "r"(0x13 | 0xc0));
}
#endif /* __ARCH_CPU_H__ */

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@ -46,6 +46,11 @@ config CBFS_ROM_OFFSET
# 0x0202_4400: variable length bootblock checksum header.
# 0x0202_4410: bootblock, assume up to 32KB in size
# 0x0203_0000: romstage, assume up to 128KB in size.
# 0x0206_0000: cache for CBFS data.
# 0x0207_3000: shared (with kernel) page for cpu & secondary core states.
# the shared data is currently only <0x50 bytes so we can share
# this page with stack.
# 0x0207_3100: stack bottom
# 0x0207_4000: stack pointer
config BOOTBLOCK_BASE
@ -71,11 +76,11 @@ config STACK_TOP
config STACK_BOTTOM
hex
default 0x02073000
default 0x02073100
config STACK_SIZE
hex
default 0x1000
default 0x0f00
# TODO We may probably move this to board-specific implementation files instead
# of KConfig values.

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@ -17,6 +17,7 @@ bootblock-y += gpio.c
bootblock-$(CONFIG_BOOTBLOCK_CONSOLE) += timer.c
romstage-y += spi.c
romstage-y += smp.c
romstage-y += clock.c
romstage-y += clock_init.c
romstage-y += pinmux.c # required by s3c24x0_i2c and uart.

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@ -224,8 +224,6 @@
#define EXYNOS5_SPI_NUM_CONTROLLERS 5
#define EXYNOS_I2C_MAX_CONTROLLERS 8
void exynos5420_config_l2_cache(void);
extern struct tmu_info exynos5420_tmu_info;
/* TODO clean up defines. */
@ -264,4 +262,8 @@ static inline u32 get_fb_base_kb(void)
return RAM_BASE_KB + RAM_SIZE_KB - FB_SIZE_KB;
}
/* Procedures to setup Exynos5420 CPU */
void exynos5420_config_l2_cache(void);
void exynos5420_config_smp(void);
#endif /* _EXYNOS5420_CPU_H */

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@ -0,0 +1,305 @@
/*
* This file is part of the coreboot project.
*
* Copyright 2013 Google Inc.
* Copyright (C) 2012 Samsung Electronics
*
* 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; version 2 of the License.
*
* 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <types.h>
#include <arch/cpu.h>
#include <arch/io.h>
#include <stdlib.h>
#include <string.h>
#include <cpu/samsung/exynos5420/cpu.h>
#include <cpu/samsung/exynos5420/power.h>
/* ACTLR, L2CTLR L2ACTLR constants used in SMP core power up. */
#define ACTLR_SMP (1 << 6)
#define L2CTLR_ECC_PARITY (1 << 21)
#define L2CTLR_DATA_RAM_LATENCY_MASK (7 << 0)
#define L2CTLR_TAG_RAM_LATENCY_MASK (7 << 6)
#define L2CTLR_DATA_RAM_LATENCY_CYCLES_3 (2 << 0)
#define L2CTLR_TAG_RAM_LATENCY_CYCLES_3 (2 << 6)
#define L2ACTLR_DISABLE_CLEAN_EVICT_PUSH_EXTERNAL (1 << 3)
#define L2ACTLR_ENABLE_HAZARD_DETECT_TIMEOUT (1 << 7)
#define L2ACTLR_FORCE_L2_LOGIC_CLOCK_ENABLE_ACTIVE (1 << 27)
/* Part number in CPU ID (MPIDR). */
#define PART_NUMBER_CORTEX_A15 (0xc0f)
/* State of CPU cores in Exynos 5420. */
#define CORE_STATE_RESET (1 << 0)
#define CORE_STATE_SECONDARY_RESET (1 << 1)
#define CORE_STATE_SWITCH_CLUSTER (1 << 4)
/* The default address to re-power on a code. */
#define CORE_RESET_INIT_ADDRESS ((void*)0x00000000)
/* Vectors in BL1 (0x02020000 = base of iRAM). */
#define VECTOR_CORE_SEV_HANDLER ((void*)(intptr_t)0x02020004)
#define VECTOR_LOW_POWER_FLAG ((void*)(intptr_t)0x02020028)
#define VECTOR_LOW_POWER_ADDRESS ((void*)(intptr_t)0x0202002C)
/* The data structure for the "CPU state" memory page (shared with kernel)
* controlling cores in active cluster. Kernel will put starting address for one
* core in "hotplug_address" before power on. Note the address is hard-coded in
* kernel (EXYNOS5420_PA_SYSRAM_NS = 0x02073000). */
volatile struct exynos5420_cpu_states
{
uint32_t _reserved[2]; /* RESV, +0x00 */
uint32_t resume_address; /* REG0, +0x08 */
uint32_t resume_flag; /* REG1, +0x0C */
uint32_t _reg2; /* REG2, +0x10 */
uint32_t _reg3; /* REG3, +0x14 */
uint32_t switch_address; /* REG4, +0x18, cluster switching */
uint32_t hotplug_address; /* REG5, +0x1C, core hotplug */
uint32_t _reg6; /* REG6, +0x20 */
uint32_t c2_address; /* REG7, +0x24, C2 state change */
/* Managed per core status for active cluster, offset: +0x28~0x38 */
uint32_t cpu_states[4];
/* Managed per core GIC status for active cluster, offset: 0x38~0x48 */
uint32_t cpu_gic_states[4];
} *exynos_cpu_states = (volatile struct exynos5420_cpu_states*)0x02073000;
/* When leaving core handlers and jump to hot-plug address (or cluster
* switching), we are not sure if the destination is Thumb or ARM mode.
* So a BX command is required.
*/
inline static void jump_bx(void *address)
{
asm volatile ("bx %0" : : "r"(address));
/* never returns. */
}
/* Extracts arbitrary bits from a 32-bit unsigned int. */
inline static uint32_t get_bits(uint32_t value, uint32_t start, uint32_t len)
{
return ((value << (sizeof(value) * 8 - len - start)) >>
(sizeof(value) * 8 - len));
}
/* Waits the referenced address to be ready (non-zero) and then jump into it. */
static void wait_and_jump(volatile uint32_t* reference)
{
while (!*reference) {
wfe();
}
jump_bx((void*)*reference);
}
/* Configures L2 Control Register to use 3 cycles for DATA/TAG RAM latency. */
static void configure_l2ctlr(void)
{
uint32_t val;
val = read_l2ctlr();
val &= ~(L2CTLR_DATA_RAM_LATENCY_MASK | L2CTLR_TAG_RAM_LATENCY_MASK);
val |= (L2CTLR_DATA_RAM_LATENCY_CYCLES_3 | L2CTLR_TAG_RAM_LATENCY_CYCLES_3 |
L2CTLR_ECC_PARITY);
write_l2ctlr(val);
}
/* Configures L2 Auxiliary Control Register for Cortex A15. */
static void configure_l2actlr(void)
{
uint32_t val;
val = read_l2actlr();
val |= (L2ACTLR_DISABLE_CLEAN_EVICT_PUSH_EXTERNAL |
L2ACTLR_ENABLE_HAZARD_DETECT_TIMEOUT |
L2ACTLR_FORCE_L2_LOGIC_CLOCK_ENABLE_ACTIVE);
write_l2actlr(val);
}
/* Initializes the CPU states to reset state. */
static void init_exynos_cpu_states(void) {
memset((void*)exynos_cpu_states, 0, sizeof(*exynos_cpu_states));
exynos_cpu_states->cpu_states[0] = CORE_STATE_RESET;
exynos_cpu_states->cpu_states[1] = CORE_STATE_SECONDARY_RESET;
exynos_cpu_states->cpu_states[2] = CORE_STATE_SECONDARY_RESET;
exynos_cpu_states->cpu_states[3] = CORE_STATE_SECONDARY_RESET;
}
/*
* Ensures that the L2 logic has been used within the previous 256 cycles
* before modifying the ACTLR.SMP bit. This is required during boot before
* MMU has been enabled, or during a specified reset or power down sequence.
*/
static void enable_smp(void)
{
uint32_t actlr, val;
/* Enable SMP mode */
actlr = read_actlr();
actlr |= ACTLR_SMP;
/* Dummy read to assure L2 access */
val = readl((void*)INF_REG_BASE);
val &= 0;
actlr |= val;
write_actlr(actlr);
dsb();
isb();
}
/* Starts the core and jumps to correct location by its state. */
static void core_start_execution(void)
{
u32 cpu_id, cpu_state;
struct exynos5_power *power = samsung_get_base_power();
enable_smp();
set_svc32_mode();
cpu_id = read_mpidr() & 0x3; /* up to 4 processors for one cluster. */
cpu_state = exynos_cpu_states->cpu_states[cpu_id];
if (cpu_state & CORE_STATE_SWITCH_CLUSTER) {
wait_and_jump(&exynos_cpu_states->switch_address);
/* never returns. */
}
/* Standard Exynos suspend/resume. */
if (power->inform1) {
power->inform1 = 0;
jump_bx((void*)power->inform0);
/* never returns. */
}
if (cpu_state & CORE_STATE_RESET) {
/* For Reset, U-Boot jumps to its starting address;
* on Coreboot, seems ok to ignore for now. */
}
wait_and_jump(&exynos_cpu_states->hotplug_address);
/* never returns. */
}
/* The entry point for hotplug-in and cluster switching. */
static void low_power_start(void)
{
uint32_t sctlr, reg_val;
/* On warm reset, because iRAM is not cleared, all cores will enter
* low_power_start, not the initial address. So we need to check reset
* status again, and jump to 0x0 in that case. */
reg_val = readl((void*)RST_FLAG_REG);
if (reg_val != RST_FLAG_VAL) {
writel(0x0, VECTOR_LOW_POWER_FLAG);
jump_bx(CORE_RESET_INIT_ADDRESS);
/* restart cpu execution and never returns. */
}
/* Workaround for iROM EVT1. A7 core execution may flow into incorrect
* path, bypassing first jump address and makes final jump address 0x0,
* so we try to make any core set again low_power_start address, if that
* becomes zero. */
reg_val = readl(VECTOR_CORE_SEV_HANDLER);
if (reg_val != (intptr_t)low_power_start) {
writel((intptr_t)low_power_start, VECTOR_CORE_SEV_HANDLER);
dsb();
/* ask all cores to power on again. */
sev();
}
set_svc32_mode();
/* Whenever a Cortex A-15 core powers on, iROM resets its L2 cache
* so we need to configure again. */
if (get_bits(read_midr(), 4, 12) == PART_NUMBER_CORTEX_A15) {
configure_l2ctlr();
configure_l2actlr();
}
/* Invalidate L1 & TLB */
tlbiall();
iciallu();
/* Disable MMU stuff and caches */
sctlr = read_sctlr();
sctlr &= ~(SCTLR_V | SCTLR_M | SCTLR_C);
sctlr |= (SCTLR_I | SCTLR_Z | SCTLR_A);
write_sctlr(sctlr);
core_start_execution();
/* The core should not return. But in order to prevent unexpected
* errors, a WFI command will help to put CPU back to idle state. */
wfi();
}
/* Callback to shutdown a core, safe to be set as hot-plug address. */
static void power_down_core(void)
{
uint32_t mpidr, core_id;
/* MPIDR: 0~2=ID, 8~11=cluster. On Exynos 5420, cluster will be only 0
* or 1. */
mpidr = read_mpidr();
core_id = get_bits(mpidr, 0, 2) | (get_bits(mpidr, 8, 4) << 2);
/* Set the status of the core to low.
* S5E5420A User Manual, 8.8.1.202, ARM_CORE0_CONFIGURATION, two bits to
* control power state in each power down level.
*/
writel(0x0, (void*)(ARM_CORE0_CONFIG + core_id * CORE_CONFIG_OFFSET));
/* S5E5420A User Manual, 8.4.2.5, after ARM_CORE*_CONFIGURATION has been
* set to zero, PMU will detect and wait for WFI then run power-down
* sequence. */
wfi();
}
/* Configures the CPU states shard memory page and then shutdown all cores. */
static void configure_secondary_cores(void)
{
configure_l2ctlr();
/* Currently we use power_down_core as callback for each core to
* shutdown itself, but it is also ok to directly set ARM_CORE*_CONFIG
* to zero by CPU0 because every secondary cores should be already in
* WFI state (in bootblock). The power_down_core will be more helpful
* when we want to use SMP inside firmware. */
/* Clear boot reg (hotplug address) in cpu states */
writel(0, (void*)&exynos_cpu_states->hotplug_address);
/* set low_power flag and address */
writel((intptr_t)low_power_start, VECTOR_LOW_POWER_ADDRESS);
writel(RST_FLAG_VAL, VECTOR_LOW_POWER_FLAG);
writel(RST_FLAG_VAL, (void*)RST_FLAG_REG);
/* On next SEV, shutdown all cores. */
writel((intptr_t)power_down_core, VECTOR_CORE_SEV_HANDLER);
/* Ask all cores in WFE mode to shutdown. */
dsb();
sev();
}
/* Configures the SMP cores on Exynos 5420 SOC (and shutdown all secondary
* cores) */
void exynos5420_config_smp(void)
{
init_exynos_cpu_states();
configure_secondary_cores();
}

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@ -246,6 +246,7 @@ void main(void)
int is_resume = (get_wakeup_state() != IS_NOT_WAKEUP);
int power_init_failed;
exynos5420_config_smp();
power_init_failed = setup_power(is_resume);
/* Clock must be initialized before console_init, otherwise you may need