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/*
* Copyright (c) 2013-2017, ARM Limited and Contributors. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* Neither the name of ARM nor the names of its contributors may be used
* to endorse or promote products derived from this software without specific
* prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef __PSCI_PRIVATE_H__
#define __PSCI_PRIVATE_H__
#include <arch.h>
#include <bakery_lock.h>
#include <bl_common.h>
#include <cpu_data.h>
#include <psci.h>
#include <spinlock.h>
#if HW_ASSISTED_COHERENCY
/*
* On systems with hardware-assisted coherency, make PSCI cache operations NOP,
* as PSCI participants are cache-coherent, and there's no need for explicit
* cache maintenance operations or barriers to coordinate their state.
*/
#define psci_flush_dcache_range(addr, size)
#define psci_flush_cpu_data(member)
#define psci_inv_cpu_data(member)
#define psci_dsbish()
/*
* On systems where participant CPUs are cache-coherent, we can use spinlocks
* instead of bakery locks.
*/
#define DEFINE_PSCI_LOCK(_name) spinlock_t _name
#define DECLARE_PSCI_LOCK(_name) extern DEFINE_PSCI_LOCK(_name)
#define psci_lock_get(non_cpu_pd_node) \
spin_lock(&psci_locks[(non_cpu_pd_node)->lock_index])
#define psci_lock_release(non_cpu_pd_node) \
spin_unlock(&psci_locks[(non_cpu_pd_node)->lock_index])
#else
/*
* If not all PSCI participants are cache-coherent, perform cache maintenance
* and issue barriers wherever required to coordinate state.
*/
#define psci_flush_dcache_range(addr, size) flush_dcache_range(addr, size)
#define psci_flush_cpu_data(member) flush_cpu_data(member)
#define psci_inv_cpu_data(member) inv_cpu_data(member)
#define psci_dsbish() dsbish()
/*
* Use bakery locks for state coordination as not all PSCI participants are
* cache coherent.
*/
#define DEFINE_PSCI_LOCK(_name) DEFINE_BAKERY_LOCK(_name)
#define DECLARE_PSCI_LOCK(_name) DECLARE_BAKERY_LOCK(_name)
#define psci_lock_get(non_cpu_pd_node) \
bakery_lock_get(&psci_locks[(non_cpu_pd_node)->lock_index])
#define psci_lock_release(non_cpu_pd_node) \
bakery_lock_release(&psci_locks[(non_cpu_pd_node)->lock_index])
#endif
#define psci_lock_init(non_cpu_pd_node, idx) \
((non_cpu_pd_node)[(idx)].lock_index = (idx))
/*
* The PSCI capability which are provided by the generic code but does not
* depend on the platform or spd capabilities.
*/
#define PSCI_GENERIC_CAP \
(define_psci_cap(PSCI_VERSION) | \
define_psci_cap(PSCI_AFFINITY_INFO_AARCH64) | \
define_psci_cap(PSCI_FEATURES))
/*
* The PSCI capabilities mask for 64 bit functions.
*/
#define PSCI_CAP_64BIT_MASK \
(define_psci_cap(PSCI_CPU_SUSPEND_AARCH64) | \
define_psci_cap(PSCI_CPU_ON_AARCH64) | \
define_psci_cap(PSCI_AFFINITY_INFO_AARCH64) | \
define_psci_cap(PSCI_MIG_AARCH64) | \
define_psci_cap(PSCI_MIG_INFO_UP_CPU_AARCH64) | \
define_psci_cap(PSCI_NODE_HW_STATE_AARCH64) | \
define_psci_cap(PSCI_SYSTEM_SUSPEND_AARCH64) | \
define_psci_cap(PSCI_STAT_RESIDENCY_AARCH64) | \
define_psci_cap(PSCI_STAT_COUNT_AARCH64))
/*
* Helper macros to get/set the fields of PSCI per-cpu data.
*/
#define psci_set_aff_info_state(aff_state) \
set_cpu_data(psci_svc_cpu_data.aff_info_state, aff_state)
#define psci_get_aff_info_state() \
get_cpu_data(psci_svc_cpu_data.aff_info_state)
#define psci_get_aff_info_state_by_idx(idx) \
get_cpu_data_by_index(idx, psci_svc_cpu_data.aff_info_state)
#define psci_set_aff_info_state_by_idx(idx, aff_state) \
set_cpu_data_by_index(idx, psci_svc_cpu_data.aff_info_state,\
aff_state)
#define psci_get_suspend_pwrlvl() \
get_cpu_data(psci_svc_cpu_data.target_pwrlvl)
#define psci_set_suspend_pwrlvl(target_lvl) \
set_cpu_data(psci_svc_cpu_data.target_pwrlvl, target_lvl)
#define psci_set_cpu_local_state(state) \
set_cpu_data(psci_svc_cpu_data.local_state, state)
#define psci_get_cpu_local_state() \
get_cpu_data(psci_svc_cpu_data.local_state)
#define psci_get_cpu_local_state_by_idx(idx) \
get_cpu_data_by_index(idx, psci_svc_cpu_data.local_state)
/*
* Helper macros for the CPU level spinlocks
*/
#define psci_spin_lock_cpu(idx) spin_lock(&psci_cpu_pd_nodes[idx].cpu_lock)
#define psci_spin_unlock_cpu(idx) spin_unlock(&psci_cpu_pd_nodes[idx].cpu_lock)
/* Helper macro to identify a CPU standby request in PSCI Suspend call */
#define is_cpu_standby_req(is_power_down_state, retn_lvl) \
(((!(is_power_down_state)) && ((retn_lvl) == 0)) ? 1 : 0)
/*******************************************************************************
* The following two data structures implement the power domain tree. The tree
* is used to track the state of all the nodes i.e. power domain instances
* described by the platform. The tree consists of nodes that describe CPU power
* domains i.e. leaf nodes and all other power domains which are parents of a
* CPU power domain i.e. non-leaf nodes.
******************************************************************************/
typedef struct non_cpu_pwr_domain_node {
/*
* Index of the first CPU power domain node level 0 which has this node
* as its parent.
*/
unsigned int cpu_start_idx;
/*
* Number of CPU power domains which are siblings of the domain indexed
* by 'cpu_start_idx' i.e. all the domains in the range 'cpu_start_idx
* -> cpu_start_idx + ncpus' have this node as their parent.
*/
unsigned int ncpus;
/*
* Index of the parent power domain node.
* TODO: Figure out whether to whether using pointer is more efficient.
*/
unsigned int parent_node;
plat_local_state_t local_state;
unsigned char level;
/* For indexing the psci_lock array*/
unsigned char lock_index;
} non_cpu_pd_node_t;
typedef struct cpu_pwr_domain_node {
u_register_t mpidr;
/*
* Index of the parent power domain node.
* TODO: Figure out whether to whether using pointer is more efficient.
*/
unsigned int parent_node;
/*
* A CPU power domain does not require state coordination like its
* parent power domains. Hence this node does not include a bakery
* lock. A spinlock is required by the CPU_ON handler to prevent a race
* when multiple CPUs try to turn ON the same target CPU.
*/
spinlock_t cpu_lock;
} cpu_pd_node_t;
/*******************************************************************************
* Data prototypes
******************************************************************************/
extern const plat_psci_ops_t *psci_plat_pm_ops;
extern non_cpu_pd_node_t psci_non_cpu_pd_nodes[PSCI_NUM_NON_CPU_PWR_DOMAINS];
extern cpu_pd_node_t psci_cpu_pd_nodes[PLATFORM_CORE_COUNT];
extern unsigned int psci_caps;
/* One lock is required per non-CPU power domain node */
DECLARE_PSCI_LOCK(psci_locks[PSCI_NUM_NON_CPU_PWR_DOMAINS]);
/*******************************************************************************
* SPD's power management hooks registered with PSCI
******************************************************************************/
extern const spd_pm_ops_t *psci_spd_pm;
/*******************************************************************************
* Function prototypes
******************************************************************************/
/* Private exported functions from psci_common.c */
int psci_validate_power_state(unsigned int power_state,
psci_power_state_t *state_info);
void psci_query_sys_suspend_pwrstate(psci_power_state_t *state_info);
int psci_validate_mpidr(u_register_t mpidr);
void psci_init_req_local_pwr_states(void);
void psci_get_target_local_pwr_states(unsigned int end_pwrlvl,
psci_power_state_t *target_state);
int psci_validate_entry_point(entry_point_info_t *ep,
uintptr_t entrypoint, u_register_t context_id);
void psci_get_parent_pwr_domain_nodes(unsigned int cpu_idx,
unsigned int end_lvl,
unsigned int node_index[]);
void psci_do_state_coordination(unsigned int end_pwrlvl,
psci_power_state_t *state_info);
void psci_acquire_pwr_domain_locks(unsigned int end_pwrlvl,
unsigned int cpu_idx);
void psci_release_pwr_domain_locks(unsigned int end_pwrlvl,
unsigned int cpu_idx);
int psci_validate_suspend_req(const psci_power_state_t *state_info,
unsigned int is_power_down_state_req);
unsigned int psci_find_max_off_lvl(const psci_power_state_t *state_info);
unsigned int psci_find_target_suspend_lvl(const psci_power_state_t *state_info);
void psci_set_pwr_domains_to_run(unsigned int end_pwrlvl);
void psci_print_power_domain_map(void);
unsigned int psci_is_last_on_cpu(void);
int psci_spd_migrate_info(u_register_t *mpidr);
void psci_do_pwrdown_sequence(unsigned int power_level);
/*
* CPU power down is directly called only when HW_ASSISTED_COHERENCY is
* available. Otherwise, this needs post-call stack maintenance, which is
* handled in assembly.
*/
void prepare_cpu_pwr_dwn(unsigned int power_level);
/* Private exported functions from psci_on.c */
int psci_cpu_on_start(u_register_t target_cpu,
entry_point_info_t *ep);
void psci_cpu_on_finish(unsigned int cpu_idx,
psci_power_state_t *state_info);
/* Private exported functions from psci_off.c */
int psci_do_cpu_off(unsigned int end_pwrlvl);
/* Private exported functions from psci_suspend.c */
void psci_cpu_suspend_start(entry_point_info_t *ep,
unsigned int end_pwrlvl,
psci_power_state_t *state_info,
unsigned int is_power_down_state_req);
void psci_cpu_suspend_finish(unsigned int cpu_idx,
psci_power_state_t *state_info);
/* Private exported functions from psci_helpers.S */
void psci_do_pwrdown_cache_maintenance(unsigned int pwr_level);
void psci_do_pwrup_cache_maintenance(void);
/* Private exported functions from psci_system_off.c */
void __dead2 psci_system_off(void);
void __dead2 psci_system_reset(void);
/* Private exported functions from psci_stat.c */
void psci_stats_update_pwr_down(unsigned int end_pwrlvl,
const psci_power_state_t *state_info);
void psci_stats_update_pwr_up(unsigned int end_pwrlvl,
const psci_power_state_t *state_info);
u_register_t psci_stat_residency(u_register_t target_cpu,
unsigned int power_state);
u_register_t psci_stat_count(u_register_t target_cpu,
unsigned int power_state);
#endif /* __PSCI_PRIVATE_H__ */