TSP: Allow preemption of synchronous S-EL1 interrupt handling
Earlier the TSP only ever expected to be preempted during Standard SMC processing. If a S-EL1 interrupt triggered while in the normal world, it will routed to S-EL1 `synchronously` for handling. The `synchronous` S-EL1 interrupt handler `tsp_sel1_intr_entry` used to panic if this S-EL1 interrupt was preempted by another higher priority pending interrupt which should be handled in EL3 e.g. Group0 interrupt in GICv3. With this patch, the `tsp_sel1_intr_entry` now expects `TSP_PREEMPTED` as the return code from the `tsp_common_int_handler` in addition to 0 (interrupt successfully handled) and in both cases it issues an SMC with id `TSP_HANDLED_S_EL1_INTR`. The TSPD switches the context and returns back to normal world. In case a higher priority EL3 interrupt was pending, the execution will be routed to EL3 where interrupt will be handled. On return back to normal world, the pending S-EL1 interrupt which was preempted will get routed to S-EL1 to be handled `synchronously` via `tsp_sel1_intr_entry`. Change-Id: I2087c7fedb37746fbd9200cdda9b6dba93e16201
This commit is contained in:
Soby Mathew
parent
4e0e0f44f1
commit
63b8440fcc
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@ -327,11 +327,13 @@ endfunc tsp_cpu_suspend_entry
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/*-------------------------------------------------
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* This entrypoint is used by the TSPD to pass
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* control for handling a pending S-EL1 Interrupt.
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* 'x0' contains a magic number which indicates
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* this. TSPD expects control to be handed back
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* at the end of interrupt processing. This is
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* done through an SMC. The handover agreement is:
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* control for `synchronously` handling a S-EL1
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* Interrupt which was triggered while executing
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* in normal world. 'x0' contains a magic number
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* which indicates this. TSPD expects control to
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* be handed back at the end of interrupt
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* processing. This is done through an SMC.
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* The handover agreement is:
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*
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* 1. PSTATE.DAIF are set upon entry. 'x1' has
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* the ELR_EL3 from the non-secure state.
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@ -348,8 +350,7 @@ endfunc tsp_cpu_suspend_entry
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*/
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func tsp_sel1_intr_entry
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#if DEBUG
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mov x2, #(TSP_HANDLE_SEL1_INTR_AND_RETURN & ~0xffff)
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movk x2, #(TSP_HANDLE_SEL1_INTR_AND_RETURN & 0xffff)
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mov_imm x2, TSP_HANDLE_SEL1_INTR_AND_RETURN
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cmp x0, x2
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b.ne tsp_sel1_int_entry_panic
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#endif
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@ -362,19 +363,33 @@ func tsp_sel1_intr_entry
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* IRQ/FIQs are not enabled since that will
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* complicate the implementation. Execution
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* will be transferred back to the normal world
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* in any case. A non-zero return value from the
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* interrupt handler is an error.
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* in any case. The handler can return 0
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* if the interrupt was handled or TSP_PREEMPTED
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* if the expected interrupt was preempted
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* by an interrupt that should be handled in EL3
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* e.g. Group 0 interrupt in GICv3. In both
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* the cases switch to EL3 using SMC with id
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* TSP_HANDLED_S_EL1_INTR. Any other return value
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* from the handler will result in panic.
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* ------------------------------------------------
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*/
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save_eret_context x2 x3
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bl tsp_update_sync_sel1_intr_stats
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bl tsp_common_int_handler
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cbnz x0, tsp_sel1_int_entry_panic
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/* Check if the S-EL1 interrupt has been handled */
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cbnz x0, tsp_sel1_intr_check_preemption
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b tsp_sel1_intr_return
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tsp_sel1_intr_check_preemption:
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/* Check if the S-EL1 interrupt has been preempted */
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mov_imm x1, TSP_PREEMPTED
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cmp x0, x1
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b.ne tsp_sel1_int_entry_panic
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tsp_sel1_intr_return:
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mov_imm x0, TSP_HANDLED_S_EL1_INTR
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restore_eret_context x2 x3
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mov x0, #(TSP_HANDLED_S_EL1_INTR & ~0xffff)
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movk x0, #(TSP_HANDLED_S_EL1_INTR & 0xffff)
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smc #0
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/* Should never reach here */
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tsp_sel1_int_entry_panic:
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b tsp_sel1_int_entry_panic
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endfunc tsp_sel1_intr_entry
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@ -89,18 +89,22 @@ uint64_t tspd_handle_sp_preemption(void *handle)
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assert(ns_cpu_context);
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/*
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* Restore non-secure state. The secure system
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* register context will be saved when required.
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* To allow Secure EL1 interrupt handler to re-enter TSP while TSP
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* is preempted, the secure system register context which will get
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* overwritten must be additionally saved. This is currently done
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* by the TSPD S-EL1 interrupt handler.
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*/
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/*
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* Restore non-secure state.
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*/
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cm_el1_sysregs_context_restore(NON_SECURE);
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cm_set_next_eret_context(NON_SECURE);
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/*
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* We need to restore non secure context according to
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* the SEL1 context which got preempted and currently
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* TSP can only be preempted when a STD SMC is ongoing.
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* Return SMC_PREEMPTED in x0 and restore non secure
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* context.
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* The TSP was preempted during STD SMC execution.
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* Return back to the normal world with SMC_PREEMPTED as error
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* code in x0.
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*/
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SMC_RET1(ns_cpu_context, SMC_PREEMPTED);
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}
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@ -327,7 +331,8 @@ uint64_t tspd_smc_handler(uint32_t smc_fid,
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/*
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* This function ID is used only by the TSP to indicate that it has
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* finished handling a S-EL1 interrupt. Execution should resume
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* finished handling a S-EL1 interrupt or was preempted by a higher
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* priority pending EL3 interrupt. Execution should resume
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* in the normal world.
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*/
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case TSP_HANDLED_S_EL1_INTR:
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