X-Git-Url: https://git.saurik.com/apple/xnu.git/blobdiff_plain/55e303ae13a4cf49d70f2294092726f2fffb9ef2..b0d623f7f2ae71ed96e60569f61f9a9a27016e80:/osfmk/i386/machine_routines.c diff --git a/osfmk/i386/machine_routines.c b/osfmk/i386/machine_routines.c index 754f3b82f..d0307ca7f 100644 --- a/osfmk/i386/machine_routines.c +++ b/osfmk/i386/machine_routines.c @@ -1,16 +1,19 @@ /* - * Copyright (c) 2000 Apple Computer, Inc. All rights reserved. + * Copyright (c) 2000-2009 Apple Inc. All rights reserved. * - * @APPLE_LICENSE_HEADER_START@ - * - * Copyright (c) 1999-2003 Apple Computer, Inc. All Rights Reserved. + * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in - * compliance with the License. Please obtain a copy of the License at - * http://www.opensource.apple.com/apsl/ and read it before using this - * file. + * compliance with the License. The rights granted to you under the License + * may not be used to create, or enable the creation or redistribution of, + * unlawful or unlicensed copies of an Apple operating system, or to + * circumvent, violate, or enable the circumvention or violation of, any + * terms of an Apple operating system software license agreement. + * + * Please obtain a copy of the License at + * http://www.opensource.apple.com/apsl/ and read it before using this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER @@ -20,21 +23,56 @@ * Please see the License for the specific language governing rights and * limitations under the License. * - * @APPLE_LICENSE_HEADER_END@ + * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ + #include #include #include #include +#include #include +#include #include -#include +#include +#include #include -#include +#include #include +#include +#include +#include +#include +#include +#include +#include +#if MACH_KDB +#include +#include +#include +#include +#include +#include +#include +#include +#endif + +#if DEBUG +#define DBG(x...) kprintf("DBG: " x) +#else +#define DBG(x...) +#endif + + +extern void wakeup(void *); static int max_cpus_initialized = 0; +unsigned int LockTimeOut; +unsigned int LockTimeOutTSC; +unsigned int MutexSpin; +uint64_t LastDebuggerEntryAllowance; + #define MAX_CPUS_SET 0x1 #define MAX_CPUS_WAIT 0x2 @@ -45,36 +83,117 @@ vm_offset_t ml_io_map( vm_offset_t phys_addr, vm_size_t size) { - return(io_map(phys_addr,size)); + return(io_map(phys_addr,size,VM_WIMG_IO)); } /* boot memory allocation */ vm_offset_t ml_static_malloc( - vm_size_t size) + __unused vm_size_t size) { return((vm_offset_t)NULL); } + +void ml_get_bouncepool_info(vm_offset_t *phys_addr, vm_size_t *size) +{ + *phys_addr = bounce_pool_base; + *size = bounce_pool_size; +} + + vm_offset_t ml_static_ptovirt( vm_offset_t paddr) { - return phystokv(paddr); +#if defined(__x86_64__) + return (vm_offset_t)(((unsigned long) paddr) | VM_MIN_KERNEL_ADDRESS); +#else + return (vm_offset_t)((paddr) | LINEAR_KERNEL_ADDRESS); +#endif } + +/* + * Routine: ml_static_mfree + * Function: + */ void ml_static_mfree( - vm_offset_t vaddr, - vm_size_t size) + vm_offset_t vaddr, + vm_size_t size) { - return; + addr64_t vaddr_cur; + ppnum_t ppn; + + assert(vaddr >= VM_MIN_KERNEL_ADDRESS); + + assert((vaddr & (PAGE_SIZE-1)) == 0); /* must be page aligned */ + + + for (vaddr_cur = vaddr; + vaddr_cur < round_page_64(vaddr+size); + vaddr_cur += PAGE_SIZE) { + ppn = pmap_find_phys(kernel_pmap, vaddr_cur); + if (ppn != (vm_offset_t)NULL) { + kernel_pmap->stats.resident_count++; + if (kernel_pmap->stats.resident_count > + kernel_pmap->stats.resident_max) { + kernel_pmap->stats.resident_max = + kernel_pmap->stats.resident_count; + } + pmap_remove(kernel_pmap, vaddr_cur, vaddr_cur+PAGE_SIZE); + vm_page_create(ppn,(ppn+1)); + vm_page_wire_count--; + } + } } + /* virtual to physical on wired pages */ vm_offset_t ml_vtophys( vm_offset_t vaddr) { - return kvtophys(vaddr); + return (vm_offset_t)kvtophys(vaddr); +} + +/* + * Routine: ml_nofault_copy + * Function: Perform a physical mode copy if the source and + * destination have valid translations in the kernel pmap. + * If translations are present, they are assumed to + * be wired; i.e. no attempt is made to guarantee that the + * translations obtained remained valid for + * the duration of the copy process. + */ + +vm_size_t ml_nofault_copy( + vm_offset_t virtsrc, vm_offset_t virtdst, vm_size_t size) +{ + addr64_t cur_phys_dst, cur_phys_src; + uint32_t count, nbytes = 0; + + while (size > 0) { + if (!(cur_phys_src = kvtophys(virtsrc))) + break; + if (!(cur_phys_dst = kvtophys(virtdst))) + break; + if (!pmap_valid_page(i386_btop(cur_phys_dst)) || !pmap_valid_page(i386_btop(cur_phys_src))) + break; + count = (uint32_t)(PAGE_SIZE - (cur_phys_src & PAGE_MASK)); + if (count > (PAGE_SIZE - (cur_phys_dst & PAGE_MASK))) + count = (uint32_t)(PAGE_SIZE - (cur_phys_dst & PAGE_MASK)); + if (count > size) + count = (uint32_t)size; + + bcopy_phys(cur_phys_src, cur_phys_dst, count); + + nbytes += count; + virtsrc += count; + virtdst += count; + size -= count; + } + + return nbytes; } /* Interrupt handling */ @@ -85,12 +204,14 @@ void ml_init_interrupt(void) (void) ml_set_interrupts_enabled(TRUE); } + + /* Get Interrupts Enabled */ boolean_t ml_get_interrupts_enabled(void) { unsigned long flags; - __asm__ volatile("pushf; popl %0" : "=r" (flags)); + __asm__ volatile("pushf; pop %0" : "=r" (flags)); return (flags & EFL_IF) != 0; } @@ -99,12 +220,23 @@ boolean_t ml_set_interrupts_enabled(boolean_t enable) { unsigned long flags; - __asm__ volatile("pushf; popl %0" : "=r" (flags)); + __asm__ volatile("pushf; pop %0" : "=r" (flags)); + + if (enable) { + ast_t *myast; - if (enable) + myast = ast_pending(); + + if ( (get_preemption_level() == 0) && (*myast & AST_URGENT) ) { __asm__ volatile("sti"); - else + __asm__ volatile ("int $0xff"); + } else { + __asm__ volatile ("sti"); + } + } + else { __asm__ volatile("cli"); + } return (flags & EFL_IF) != 0; } @@ -123,12 +255,9 @@ void ml_cause_interrupt(void) void ml_thread_policy( thread_t thread, - unsigned policy_id, +__unused unsigned policy_id, unsigned policy_info) { - if (policy_id == MACHINE_GROUP) - thread_bind(thread, master_processor); - if (policy_info & MACHINE_NETWORK_WORKLOOP) { spl_t s = splsched(); @@ -158,87 +287,193 @@ void ml_install_interrupt_handler( (void) ml_set_interrupts_enabled(current_state); - initialize_screen(0, kPEAcquireScreen); + initialize_screen(NULL, kPEAcquireScreen); } -void -machine_idle(void) -{ - DBGLOG(cpu_handle, cpu_number(), MP_IDLE); - __asm__ volatile("sti; hlt": : :"memory"); - __asm__ volatile("cli"); - DBGLOG(cpu_handle, cpu_number(), MP_UNIDLE); -} void machine_signal_idle( processor_t processor) { - cpu_interrupt(processor->slot_num); + cpu_interrupt(processor->cpu_id); } -kern_return_t -ml_processor_register( - cpu_id_t cpu_id, - uint32_t lapic_id, - processor_t *processor, - ipi_handler_t *ipi_handler, - boolean_t boot_cpu) +static kern_return_t +register_cpu( + uint32_t lapic_id, + processor_t *processor_out, + boolean_t boot_cpu ) { - kern_return_t ret; int target_cpu; + cpu_data_t *this_cpu_datap; - if (cpu_register(&target_cpu) != KERN_SUCCESS) + this_cpu_datap = cpu_data_alloc(boot_cpu); + if (this_cpu_datap == NULL) { return KERN_FAILURE; - + } + target_cpu = this_cpu_datap->cpu_number; assert((boot_cpu && (target_cpu == 0)) || (!boot_cpu && (target_cpu != 0))); lapic_cpu_map(lapic_id, target_cpu); - cpu_data[target_cpu].cpu_id = cpu_id; - cpu_data[target_cpu].cpu_phys_number = lapic_id; - *processor = cpu_to_processor(target_cpu); - *ipi_handler = NULL; + + /* The cpu_id is not known at registration phase. Just do + * lapic_id for now + */ + this_cpu_datap->cpu_phys_number = lapic_id; + + this_cpu_datap->cpu_console_buf = console_cpu_alloc(boot_cpu); + if (this_cpu_datap->cpu_console_buf == NULL) + goto failed; + + this_cpu_datap->cpu_chud = chudxnu_cpu_alloc(boot_cpu); + if (this_cpu_datap->cpu_chud == NULL) + goto failed; + + if (!boot_cpu) { + cpu_thread_alloc(this_cpu_datap->cpu_number); + if (this_cpu_datap->lcpu.core == NULL) + goto failed; + + pmCPUStateInit(); + +#if NCOPY_WINDOWS > 0 + this_cpu_datap->cpu_pmap = pmap_cpu_alloc(boot_cpu); + if (this_cpu_datap->cpu_pmap == NULL) + goto failed; +#endif + + this_cpu_datap->cpu_processor = cpu_processor_alloc(boot_cpu); + if (this_cpu_datap->cpu_processor == NULL) + goto failed; + /* + * processor_init() deferred to topology start + * because "slot numbers" a.k.a. logical processor numbers + * are not yet finalized. + */ + } + + *processor_out = this_cpu_datap->cpu_processor; return KERN_SUCCESS; + +failed: + cpu_processor_free(this_cpu_datap->cpu_processor); +#if NCOPY_WINDOWS > 0 + pmap_cpu_free(this_cpu_datap->cpu_pmap); +#endif + chudxnu_cpu_free(this_cpu_datap->cpu_chud); + console_cpu_free(this_cpu_datap->cpu_console_buf); + return KERN_FAILURE; +} + + +kern_return_t +ml_processor_register( + cpu_id_t cpu_id, + uint32_t lapic_id, + processor_t *processor_out, + boolean_t boot_cpu, + boolean_t start ) +{ + static boolean_t done_topo_sort = FALSE; + static uint32_t num_registered = 0; + + /* Register all CPUs first, and track max */ + if( start == FALSE ) + { + num_registered++; + + DBG( "registering CPU lapic id %d\n", lapic_id ); + + return register_cpu( lapic_id, processor_out, boot_cpu ); + } + + /* Sort by topology before we start anything */ + if( !done_topo_sort ) + { + DBG( "about to start CPUs. %d registered\n", num_registered ); + + cpu_topology_sort( num_registered ); + done_topo_sort = TRUE; + } + + /* Assign the cpu ID */ + uint32_t cpunum = -1; + cpu_data_t *this_cpu_datap = NULL; + + /* find cpu num and pointer */ + cpunum = ml_get_cpuid( lapic_id ); + + if( cpunum == 0xFFFFFFFF ) /* never heard of it? */ + panic( "trying to start invalid/unregistered CPU %d\n", lapic_id ); + + this_cpu_datap = cpu_datap(cpunum); + + /* fix the CPU id */ + this_cpu_datap->cpu_id = cpu_id; + + /* output arg */ + *processor_out = this_cpu_datap->cpu_processor; + + /* OK, try and start this CPU */ + return cpu_topology_start_cpu( cpunum ); } + void -ml_cpu_get_info(ml_cpu_info_t *cpu_info) +ml_cpu_get_info(ml_cpu_info_t *cpu_infop) { boolean_t os_supports_sse; i386_cpu_info_t *cpuid_infop; - if (cpu_info == NULL) + if (cpu_infop == NULL) return; /* - * Are we supporting XMM/SSE/SSE2? + * Are we supporting MMX/SSE/SSE2/SSE3? * As distinct from whether the cpu has these capabilities. */ - os_supports_sse = get_cr4() & CR4_XMM; - if ((cpuid_features() & CPUID_FEATURE_SSE2) && os_supports_sse) - cpu_info->vector_unit = 4; + os_supports_sse = !!(get_cr4() & CR4_XMM); + if ((cpuid_features() & CPUID_FEATURE_SSE4_2) && os_supports_sse) + cpu_infop->vector_unit = 8; + else if ((cpuid_features() & CPUID_FEATURE_SSE4_1) && os_supports_sse) + cpu_infop->vector_unit = 7; + else if ((cpuid_features() & CPUID_FEATURE_SSSE3) && os_supports_sse) + cpu_infop->vector_unit = 6; + else if ((cpuid_features() & CPUID_FEATURE_SSE3) && os_supports_sse) + cpu_infop->vector_unit = 5; + else if ((cpuid_features() & CPUID_FEATURE_SSE2) && os_supports_sse) + cpu_infop->vector_unit = 4; else if ((cpuid_features() & CPUID_FEATURE_SSE) && os_supports_sse) - cpu_info->vector_unit = 3; + cpu_infop->vector_unit = 3; else if (cpuid_features() & CPUID_FEATURE_MMX) - cpu_info->vector_unit = 2; + cpu_infop->vector_unit = 2; else - cpu_info->vector_unit = 0; + cpu_infop->vector_unit = 0; cpuid_infop = cpuid_info(); - cpu_info->cache_line_size = cpuid_infop->cache_linesize; + cpu_infop->cache_line_size = cpuid_infop->cache_linesize; - cpu_info->l1_icache_size = cpuid_infop->cache_size[L1I]; - cpu_info->l1_dcache_size = cpuid_infop->cache_size[L1D]; + cpu_infop->l1_icache_size = cpuid_infop->cache_size[L1I]; + cpu_infop->l1_dcache_size = cpuid_infop->cache_size[L1D]; - cpu_info->l2_settings = 1; - cpu_info->l2_cache_size = cpuid_infop->cache_size[L2U]; + if (cpuid_infop->cache_size[L2U] > 0) { + cpu_infop->l2_settings = 1; + cpu_infop->l2_cache_size = cpuid_infop->cache_size[L2U]; + } else { + cpu_infop->l2_settings = 0; + cpu_infop->l2_cache_size = 0xFFFFFFFF; + } - /* XXX No L3 */ - cpu_info->l3_settings = 0; - cpu_info->l3_cache_size = 0xFFFFFFFF; + if (cpuid_infop->cache_size[L3U] > 0) { + cpu_infop->l3_settings = 1; + cpu_infop->l3_cache_size = cpuid_infop->cache_size[L3U]; + } else { + cpu_infop->l3_settings = 0; + cpu_infop->l3_cache_size = 0xFFFFFFFF; + } } void @@ -248,8 +483,15 @@ ml_init_max_cpus(unsigned long max_cpus) current_state = ml_set_interrupts_enabled(FALSE); if (max_cpus_initialized != MAX_CPUS_SET) { - if (max_cpus > 0 && max_cpus < NCPUS) - machine_info.max_cpus = max_cpus; + if (max_cpus > 0 && max_cpus <= MAX_CPUS) { + /* + * Note: max_cpus is the number of enabled processors + * that ACPI found; max_ncpus is the maximum number + * that the kernel supports or that the "cpus=" + * boot-arg has set. Here we take int minimum. + */ + machine_info.max_cpus = (integer_t)MIN(max_cpus, max_ncpus); + } if (max_cpus_initialized == MAX_CPUS_WAIT) wakeup((event_t)&max_cpus_initialized); max_cpus_initialized = MAX_CPUS_SET; @@ -272,39 +514,178 @@ ml_get_max_cpus(void) return(machine_info.max_cpus); } -/* Stubs for pc tracing mechanism */ - -int *pc_trace_buf; -int pc_trace_cnt = 0; - -int -set_be_bit() +/* + * Routine: ml_init_lock_timeout + * Function: + */ +void +ml_init_lock_timeout(void) { - return(0); + uint64_t abstime; + uint32_t mtxspin; + uint64_t default_timeout_ns = NSEC_PER_SEC>>2; + uint32_t slto; + + if (PE_parse_boot_argn("slto_us", &slto, sizeof (slto))) + default_timeout_ns = slto * NSEC_PER_USEC; + + /* LockTimeOut is absolutetime, LockTimeOutTSC is in TSC ticks */ + nanoseconds_to_absolutetime(default_timeout_ns, &abstime); + LockTimeOut = (uint32_t) abstime; + LockTimeOutTSC = (uint32_t) tmrCvt(abstime, tscFCvtn2t); + + if (PE_parse_boot_argn("mtxspin", &mtxspin, sizeof (mtxspin))) { + if (mtxspin > USEC_PER_SEC>>4) + mtxspin = USEC_PER_SEC>>4; + nanoseconds_to_absolutetime(mtxspin*NSEC_PER_USEC, &abstime); + } else { + nanoseconds_to_absolutetime(10*NSEC_PER_USEC, &abstime); + } + MutexSpin = (unsigned int)abstime; + + nanoseconds_to_absolutetime(2 * NSEC_PER_SEC, &LastDebuggerEntryAllowance); } -int -clr_be_bit() +/* + * This is called from the machine-independent routine cpu_up() + * to perform machine-dependent info updates. Defer to cpu_thread_init(). + */ +void +ml_cpu_up(void) { - return(0); + return; } -int -be_tracing() +/* + * This is called from the machine-independent routine cpu_down() + * to perform machine-dependent info updates. + */ +void +ml_cpu_down(void) { - return(0); + return; } -#undef current_act -thread_act_t +/* + * The following are required for parts of the kernel + * that cannot resolve these functions as inlines: + */ +extern thread_t current_act(void); +thread_t current_act(void) -{ - return(current_act_fast()); -} +{ + return(current_thread_fast()); +} #undef current_thread +extern thread_t current_thread(void); thread_t current_thread(void) { - return(current_act_fast()); + return(current_thread_fast()); +} + + +boolean_t ml_is64bit(void) { + + return (cpu_mode_is64bit()); +} + + +boolean_t ml_thread_is64bit(thread_t thread) { + + return (thread_is_64bit(thread)); +} + + +boolean_t ml_state_is64bit(void *saved_state) { + + return is_saved_state64(saved_state); +} + +void ml_cpu_set_ldt(int selector) +{ + /* + * Avoid loading the LDT + * if we're setting the KERNEL LDT and it's already set. + */ + if (selector == KERNEL_LDT && + current_cpu_datap()->cpu_ldt == KERNEL_LDT) + return; + +#if defined(__i386__) + /* + * If 64bit this requires a mode switch (and back). + */ + if (cpu_mode_is64bit()) + ml_64bit_lldt(selector); + else + lldt(selector); +#else + lldt(selector); +#endif + current_cpu_datap()->cpu_ldt = selector; +} + +void ml_fp_setvalid(boolean_t value) +{ + fp_setvalid(value); +} + +uint64_t ml_cpu_int_event_time(void) +{ + return current_cpu_datap()->cpu_int_event_time; +} + +vm_offset_t ml_stack_remaining(void) +{ + uintptr_t local = (uintptr_t) &local; + + if (ml_at_interrupt_context() != 0) { + return (local - (current_cpu_datap()->cpu_int_stack_top - INTSTACK_SIZE)); + } else { + return (local - current_thread()->kernel_stack); + } } + +#if MACH_KDB + +/* + * Display the global msrs + * * + * ms + */ +void +db_msr(__unused db_expr_t addr, + __unused int have_addr, + __unused db_expr_t count, + __unused char *modif) +{ + + uint32_t i, msrlow, msrhigh; + + /* Try all of the first 4096 msrs */ + for (i = 0; i < 4096; i++) { + if (!rdmsr_carefully(i, &msrlow, &msrhigh)) { + db_printf("%08X - %08X.%08X\n", i, msrhigh, msrlow); + } + } + + /* Try all of the 4096 msrs at 0x0C000000 */ + for (i = 0; i < 4096; i++) { + if (!rdmsr_carefully(0x0C000000 | i, &msrlow, &msrhigh)) { + db_printf("%08X - %08X.%08X\n", + 0x0C000000 | i, msrhigh, msrlow); + } + } + + /* Try all of the 4096 msrs at 0xC0000000 */ + for (i = 0; i < 4096; i++) { + if (!rdmsr_carefully(0xC0000000 | i, &msrlow, &msrhigh)) { + db_printf("%08X - %08X.%08X\n", + 0xC0000000 | i, msrhigh, msrlow); + } + } +} + +#endif