/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2007 by Daniel Ankers * * PP5002 and PP502x SoC threading support * * 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; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #if defined(MAX_PHYS_SECTOR_SIZE) && MEMORYSIZE == 64 /* Support a special workaround object for large-sector disks */ #define IF_NO_SKIP_YIELD(...) __VA_ARGS__ #endif #if NUM_CORES == 1 /* Single-core variants for FORCE_SINGLE_CORE */ static inline void core_sleep(void) { sleep_core(CURRENT_CORE); enable_irq(); } /* Shared single-core build debugging version */ void core_wake(void) { /* No wakey - core already wakey (because this is it) */ } #else /* NUM_CORES > 1 */ /** Model-generic PP dual-core code **/ extern uintptr_t cpu_idlestackbegin[]; extern uintptr_t cpu_idlestackend[]; extern uintptr_t cop_idlestackbegin[]; extern uintptr_t cop_idlestackend[]; static uintptr_t * const idle_stacks[NUM_CORES] = { [CPU] = cpu_idlestackbegin, [COP] = cop_idlestackbegin }; /*--------------------------------------------------------------------------- * Do any device-specific inits for the threads and synchronize the kernel * initializations. *--------------------------------------------------------------------------- */ static void INIT_ATTR core_thread_init(unsigned int core) { if (core == CPU) { /* Wake up coprocessor and let it initialize kernel and threads */ #ifdef CPU_PP502x MBX_MSG_CLR = 0x3f; #endif wake_core(COP); /* Sleep until COP has finished */ sleep_core(CPU); } else { /* Wake the CPU and return */ wake_core(CPU); } } /*--------------------------------------------------------------------------- * Switches to a stack that always resides in the Rockbox core then calls * the final exit routine to actually finish removing the thread from the * scheduler. * * Needed when a thread suicides on a core other than the main CPU since the * stack used when idling is the stack of the last thread to run. This stack * may not reside in the core firmware in which case the core will continue * to use a stack from an unloaded module until another thread runs on it. *--------------------------------------------------------------------------- */ static inline void NORETURN_ATTR __attribute__((always_inline)) thread_final_exit(struct thread_entry *current) { asm volatile ( "cmp %1, #0 \n" /* CPU? */ "ldrne r0, =commit_dcache \n" /* No? write back data */ "movne lr, pc \n" "bxne r0 \n" "mov r0, %0 \n" /* copy thread parameter */ "mov sp, %2 \n" /* switch to idle stack */ "bl thread_final_exit_do \n" /* finish removal */ : : "r"(current), "r"(current->core), "r"(&idle_stacks[current->core][IDLE_STACK_WORDS]) : "r0", "r1", "r2", "r3", "ip", "lr"); /* Because of flush call, force inputs out of scratch regs */ while (1); } /*--------------------------------------------------------------------------- * Perform core switch steps that need to take place inside switch_thread. * * These steps must take place while before changing the processor and after * having entered switch_thread since switch_thread may not do a normal return * because the stack being used for anything the compiler saved will not belong * to the thread's destination core and it may have been recycled for other * purposes by the time a normal context load has taken place. switch_thread * will also clobber anything stashed in the thread's context or stored in the * nonvolatile registers if it is saved there before the call since the * compiler's order of operations cannot be known for certain. */ static void core_switch_blk_op(unsigned int core, struct thread_entry *thread) { /* Flush our data to ram */ commit_dcache(); /* Stash thread in r4 slot */ thread->context.r[0] = (uint32_t)thread; /* Stash restart address in r5 slot */ thread->context.r[1] = thread->context.start; /* Save sp in context.sp while still running on old core */ thread->context.sp = idle_stacks[core][IDLE_STACK_WORDS-1]; } /*--------------------------------------------------------------------------- * Machine-specific helper function for switching the processor a thread is * running on. Basically, the thread suicides on the departing core and is * reborn on the destination. Were it not for gcc's ill-behavior regarding * naked functions written in C where it actually clobbers non-volatile * registers before the intended prologue code, this would all be much * simpler. Generic setup is done in switch_core itself. */ /*--------------------------------------------------------------------------- * This actually performs the core switch. */ static void __attribute__((naked)) switch_thread_core(unsigned int core, struct thread_entry *thread) { /* Pure asm for this because compiler behavior isn't sufficiently predictable. * Stack access also isn't permitted until restoring the original stack and * context. */ asm volatile ( "stmfd sp!, { r4-r11, lr } \n" /* Stack all non-volatile context on current core */ "ldr r2, =idle_stacks \n" /* r2 = &idle_stacks[core][IDLE_STACK_WORDS] */ "ldr r2, [r2, r0, lsl #2] \n" "add r2, r2, %0*4 \n" "stmfd r2!, { sp } \n" /* save original stack pointer on idle stack */ "mov sp, r2 \n" /* switch stacks */ "adr r2, 1f \n" /* r2 = new core restart address */ "str r2, [r1, #40] \n" /* thread->context.start = r2 */ "ldr pc, =switch_thread \n" /* r0 = thread after call - see load_context */ "1: \n" "ldr sp, [r0, #32] \n" /* Reload original sp from context structure */ "mov r1, #0 \n" /* Clear start address */ "str r1, [r0, #40] \n" "ldr r0, =commit_discard_idcache \n" /* Invalidate new core's cache */ "mov lr, pc \n" "bx r0 \n" "ldmfd sp!, { r4-r11, pc } \n" /* Restore non-volatile context to new core and return */ : : "i"(IDLE_STACK_WORDS) ); (void)core; (void)thread; } /** PP-model-specific dual-core code **/ #if CONFIG_CPU == PP5002 /* PP5002 has no mailboxes - Bytes to emulate the PP502x mailbox bits */ struct core_semaphores { volatile uint8_t intend_wake; /* 00h */ volatile uint8_t stay_awake; /* 01h */ volatile uint8_t intend_sleep; /* 02h */ volatile uint8_t unused; /* 03h */ }; static struct core_semaphores core_semaphores[NUM_CORES] IBSS_ATTR; #if 1 /* Select ASM */ /*--------------------------------------------------------------------------- * Put core in a power-saving state if waking list wasn't repopulated and if * no other core requested a wakeup for it to perform a task. *--------------------------------------------------------------------------- */ static inline void core_sleep(unsigned int core) { asm volatile ( "mov r0, #1 \n" /* Signal intent to sleep */ "strb r0, [%[sem], #2] \n" "ldrb r0, [%[sem], #1] \n" /* && stay_awake == 0? */ "cmp r0, #0 \n" "bne 2f \n" /* Sleep: PP5002 crashes if the instruction that puts it to sleep is * located at 0xNNNNNNN0. 4/8/C works. This sequence makes sure * that the correct alternative is executed. Don't change the order * of the next 4 instructions! */ "tst pc, #0x0c \n" "mov r0, #0xca \n" "strne r0, [%[ctl], %[c], lsl #2] \n" "streq r0, [%[ctl], %[c], lsl #2] \n" "nop \n" /* nop's needed because of pipeline */ "nop \n" "nop \n" "2: \n" "mov r0, #0 \n" /* Clear stay_awake and sleep intent */ "strb r0, [%[sem], #1] \n" "strb r0, [%[sem], #2] \n" "1: \n" /* Wait for wake procedure to finish */ "ldrb r0, [%[sem], #0] \n" "cmp r0, #0 \n" "bne 1b \n" : : [sem]"r"(&core_semaphores[core]), [c]"r"(core), [ctl]"r"(&CPU_CTL) : "r0" ); enable_irq(); } /*--------------------------------------------------------------------------- * Wake another processor core that is sleeping or prevent it from doing so * if it was already destined. FIQ, IRQ should be disabled before calling. *--------------------------------------------------------------------------- */ void core_wake(unsigned int othercore) { /* avoid r0 since that contains othercore */ asm volatile ( "mrs r3, cpsr \n" /* Disable IRQ */ "orr r1, r3, #0x80 \n" "msr cpsr_c, r1 \n" "mov r1, #1 \n" /* Signal intent to wake other core */ "orr r1, r1, r1, lsl #8 \n" /* and set stay_awake */ "strh r1, [%[sem], #0] \n" "mov r2, #0x8000 \n" "1: \n" /* If it intends to sleep, let it first */ "ldrb r1, [%[sem], #2] \n" /* intend_sleep != 0 ? */ "cmp r1, #1 \n" "ldr r1, [%[st]] \n" /* && not sleeping ? */ "tsteq r1, r2, lsr %[oc] \n" "beq 1b \n" /* Wait for sleep or wake */ "tst r1, r2, lsr %[oc] \n" "ldrne r2, =0xcf004054 \n" /* If sleeping, wake it */ "movne r1, #0xce \n" "strne r1, [r2, %[oc], lsl #2] \n" "mov r1, #0 \n" /* Done with wake procedure */ "strb r1, [%[sem], #0] \n" "msr cpsr_c, r3 \n" /* Restore IRQ */ : : [sem]"r"(&core_semaphores[othercore]), [st]"r"(&PROC_STAT), [oc]"r"(othercore) : "r1", "r2", "r3" ); } #else /* C version for reference */ static inline void core_sleep(unsigned int core) { /* Signal intent to sleep */ core_semaphores[core].intend_sleep = 1; /* Something waking or other processor intends to wake us? */ if (core_semaphores[core].stay_awake == 0) { sleep_core(core); } /* Signal wake - clear wake flag */ core_semaphores[core].stay_awake = 0; core_semaphores[core].intend_sleep = 0; /* Wait for other processor to finish wake procedure */ while (core_semaphores[core].intend_wake != 0); /* Enable IRQ */ enable_irq(); } void core_wake(unsigned int othercore) { /* Disable interrupts - avoid reentrancy from the tick */ int oldlevel = disable_irq_save(); /* Signal intent to wake other processor - set stay awake */ core_semaphores[othercore].intend_wake = 1; core_semaphores[othercore].stay_awake = 1; /* If it intends to sleep, wait until it does or aborts */ while (core_semaphores[othercore].intend_sleep != 0 && (PROC_STAT & PROC_SLEEPING(othercore)) == 0); /* If sleeping, wake it up */ if (PROC_STAT & PROC_SLEEPING(othercore)) wake_core(othercore); /* Done with wake procedure */ core_semaphores[othercore].intend_wake = 0; restore_irq(oldlevel); } #endif /* ASM/C selection */ #elif defined (CPU_PP502x) #if 1 /* Select ASM */ /*--------------------------------------------------------------------------- * Put core in a power-saving state if waking list wasn't repopulated and if * no other core requested a wakeup for it to perform a task. *--------------------------------------------------------------------------- */ static inline void core_sleep(unsigned int core) { asm volatile ( "mov r0, #4 \n" /* r0 = 0x4 << core */ "mov r0, r0, lsl %[c] \n" "str r0, [%[mbx], #4] \n" /* signal intent to sleep */ "ldr r1, [%[mbx], #0] \n" /* && !(MBX_MSG_STAT & (0x10<