PSCI: Introduce cache and barrier wrappers
The PSCI implementation performs cache maintenance operations on its data structures to ensure their visibility to both cache-coherent and non-cache-coherent participants. These cache maintenance operations can be skipped if all PSCI participants are cache-coherent. When HW_ASSISTED_COHERENCY build option is enabled, we assume PSCI participants are cache-coherent. For usage abstraction, this patch introduces wrappers for PSCI cache maintenance and barrier operations used for state coordination: they are effectively NOPs when HW_ASSISTED_COHERENCY is enabled, but are applied otherwise. Also refactor local state usage and associated cache operations to make it clearer. Change-Id: I77f17a90cba41085b7188c1345fe5731c99fad87 Signed-off-by: Jeenu Viswambharan <jeenu.viswambharan@arm.com>
This commit is contained in:
Jeenu Viswambharan
parent
d4593e4713
commit
a10d3632ac
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@ -247,6 +247,50 @@ static plat_local_state_t *psci_get_req_local_pwr_states(unsigned int pwrlvl,
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return &psci_req_local_pwr_states[pwrlvl - 1][cpu_idx];
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}
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/*
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* psci_non_cpu_pd_nodes can be placed either in normal memory or coherent
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* memory.
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*
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* With !USE_COHERENT_MEM, psci_non_cpu_pd_nodes is placed in normal memory,
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* it's accessed by both cached and non-cached participants. To serve the common
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* minimum, perform a cache flush before read and after write so that non-cached
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* participants operate on latest data in main memory.
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*
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* When USE_COHERENT_MEM is used, psci_non_cpu_pd_nodes is placed in coherent
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* memory. With HW_ASSISTED_COHERENCY, all PSCI participants are cache-coherent.
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* In both cases, no cache operations are required.
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*/
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/*
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* Retrieve local state of non-CPU power domain node from a non-cached CPU,
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* after any required cache maintenance operation.
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*/
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static plat_local_state_t get_non_cpu_pd_node_local_state(
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unsigned int parent_idx)
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{
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#if !USE_COHERENT_MEM || !HW_ASSISTED_COHERENCY
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flush_dcache_range(
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(uintptr_t) &psci_non_cpu_pd_nodes[parent_idx],
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sizeof(psci_non_cpu_pd_nodes[parent_idx]));
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#endif
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return psci_non_cpu_pd_nodes[parent_idx].local_state;
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}
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/*
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* Update local state of non-CPU power domain node from a cached CPU; perform
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* any required cache maintenance operation afterwards.
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*/
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static void set_non_cpu_pd_node_local_state(unsigned int parent_idx,
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plat_local_state_t state)
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{
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psci_non_cpu_pd_nodes[parent_idx].local_state = state;
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#if !USE_COHERENT_MEM || !HW_ASSISTED_COHERENCY
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flush_dcache_range(
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(uintptr_t) &psci_non_cpu_pd_nodes[parent_idx],
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sizeof(psci_non_cpu_pd_nodes[parent_idx]));
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#endif
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}
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/******************************************************************************
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* Helper function to return the current local power state of each power domain
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* from the current cpu power domain to its ancestor at the 'end_pwrlvl'. This
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@ -264,18 +308,7 @@ void psci_get_target_local_pwr_states(unsigned int end_pwrlvl,
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/* Copy the local power state from node to state_info */
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for (lvl = PSCI_CPU_PWR_LVL + 1; lvl <= end_pwrlvl; lvl++) {
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#if !USE_COHERENT_MEM
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/*
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* If using normal memory for psci_non_cpu_pd_nodes, we need
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* to flush before reading the local power state as another
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* cpu in the same power domain could have updated it and this
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* code runs before caches are enabled.
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*/
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flush_dcache_range(
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(uintptr_t) &psci_non_cpu_pd_nodes[parent_idx],
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sizeof(psci_non_cpu_pd_nodes[parent_idx]));
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#endif
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pd_state[lvl] = psci_non_cpu_pd_nodes[parent_idx].local_state;
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pd_state[lvl] = get_non_cpu_pd_node_local_state(parent_idx);
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parent_idx = psci_non_cpu_pd_nodes[parent_idx].parent_node;
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}
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@ -299,21 +332,16 @@ static void psci_set_target_local_pwr_states(unsigned int end_pwrlvl,
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psci_set_cpu_local_state(pd_state[PSCI_CPU_PWR_LVL]);
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/*
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* Need to flush as local_state will be accessed with Data Cache
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* Need to flush as local_state might be accessed with Data Cache
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* disabled during power on
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*/
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flush_cpu_data(psci_svc_cpu_data.local_state);
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psci_flush_cpu_data(psci_svc_cpu_data.local_state);
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parent_idx = psci_cpu_pd_nodes[plat_my_core_pos()].parent_node;
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/* Copy the local_state from state_info */
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for (lvl = 1; lvl <= end_pwrlvl; lvl++) {
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psci_non_cpu_pd_nodes[parent_idx].local_state = pd_state[lvl];
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#if !USE_COHERENT_MEM
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flush_dcache_range(
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(uintptr_t)&psci_non_cpu_pd_nodes[parent_idx],
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sizeof(psci_non_cpu_pd_nodes[parent_idx]));
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#endif
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set_non_cpu_pd_node_local_state(parent_idx, pd_state[lvl]);
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parent_idx = psci_non_cpu_pd_nodes[parent_idx].parent_node;
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}
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}
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@ -347,13 +375,8 @@ void psci_set_pwr_domains_to_run(unsigned int end_pwrlvl)
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/* Reset the local_state to RUN for the non cpu power domains. */
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for (lvl = PSCI_CPU_PWR_LVL + 1; lvl <= end_pwrlvl; lvl++) {
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psci_non_cpu_pd_nodes[parent_idx].local_state =
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PSCI_LOCAL_STATE_RUN;
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#if !USE_COHERENT_MEM
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flush_dcache_range(
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(uintptr_t) &psci_non_cpu_pd_nodes[parent_idx],
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sizeof(psci_non_cpu_pd_nodes[parent_idx]));
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#endif
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set_non_cpu_pd_node_local_state(parent_idx,
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PSCI_LOCAL_STATE_RUN);
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psci_set_req_local_pwr_state(lvl,
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cpu_idx,
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PSCI_LOCAL_STATE_RUN);
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@ -364,7 +387,7 @@ void psci_set_pwr_domains_to_run(unsigned int end_pwrlvl)
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psci_set_aff_info_state(AFF_STATE_ON);
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psci_set_cpu_local_state(PSCI_LOCAL_STATE_RUN);
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flush_cpu_data(psci_svc_cpu_data);
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psci_flush_cpu_data(psci_svc_cpu_data);
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}
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/******************************************************************************
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@ -154,17 +154,17 @@ exit:
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*/
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if (rc == PSCI_E_SUCCESS) {
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/*
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* Set the affinity info state to OFF. This writes directly to
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* main memory as caches are disabled, so cache maintenance is
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* Set the affinity info state to OFF. When caches are disabled,
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* this writes directly to main memory, so cache maintenance is
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* required to ensure that later cached reads of aff_info_state
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* return AFF_STATE_OFF. A dsbish() ensures ordering of the
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* return AFF_STATE_OFF. A dsbish() ensures ordering of the
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* update to the affinity info state prior to cache line
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* invalidation.
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*/
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flush_cpu_data(psci_svc_cpu_data.aff_info_state);
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psci_flush_cpu_data(psci_svc_cpu_data.aff_info_state);
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psci_set_aff_info_state(AFF_STATE_OFF);
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dsbish();
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inv_cpu_data(psci_svc_cpu_data.aff_info_state);
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psci_dsbish();
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psci_inv_cpu_data(psci_svc_cpu_data.aff_info_state);
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#if ENABLE_RUNTIME_INSTRUMENTATION
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@ -38,6 +38,29 @@
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#include <psci.h>
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#include <spinlock.h>
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#if HW_ASSISTED_COHERENCY
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/*
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* On systems with hardware-assisted coherency, make PSCI cache operations NOP,
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* as PSCI participants are cache-coherent, and there's no need for explicit
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* cache maintenance operations or barriers to coordinate their state.
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*/
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#define psci_flush_dcache_range(addr, size)
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#define psci_flush_cpu_data(member)
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#define psci_inv_cpu_data(member)
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#define psci_dsbish()
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#else
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/*
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* If not all PSCI participants are cache-coherent, perform cache maintenance
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* and issue barriers wherever required to coordinate state.
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*/
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#define psci_flush_dcache_range(addr, size) flush_dcache_range(addr, size)
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#define psci_flush_cpu_data(member) flush_cpu_data(member)
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#define psci_inv_cpu_data(member) inv_cpu_data(member)
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#define psci_dsbish() dsbish()
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#endif
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/*
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* The following helper macros abstract the interface to the Bakery
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* Lock API.
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@ -86,7 +86,7 @@ static void psci_init_pwr_domain_node(unsigned int node_idx,
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/* Set the power state to OFF state */
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svc_cpu_data->local_state = PLAT_MAX_OFF_STATE;
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flush_dcache_range((uintptr_t)svc_cpu_data,
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psci_flush_dcache_range((uintptr_t)svc_cpu_data,
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sizeof(*svc_cpu_data));
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cm_set_context_by_index(node_idx,
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@ -242,9 +242,9 @@ int psci_setup(const psci_lib_args_t *lib_args)
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/*
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* Flush `psci_plat_pm_ops` as it will be accessed by secondary CPUs
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* during warm boot before data cache is enabled.
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* during warm boot, possibly before data cache is enabled.
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*/
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flush_dcache_range((uintptr_t)&psci_plat_pm_ops,
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psci_flush_dcache_range((uintptr_t)&psci_plat_pm_ops,
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sizeof(psci_plat_pm_ops));
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/* Initialize the psci capability */
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@ -91,10 +91,10 @@ static void psci_suspend_to_pwrdown_start(unsigned int end_pwrlvl,
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psci_set_suspend_pwrlvl(end_pwrlvl);
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/*
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* Flush the target power level as it will be accessed on power up with
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* Flush the target power level as it might be accessed on power up with
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* Data cache disabled.
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*/
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flush_cpu_data(psci_svc_cpu_data.target_pwrlvl);
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psci_flush_cpu_data(psci_svc_cpu_data.target_pwrlvl);
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/*
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* Call the cpu suspend handler registered by the Secure Payload
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