X-Git-Url: https://git.saurik.com/apple/xnu.git/blobdiff_plain/2d21ac55c334faf3a56e5634905ed6987fc787d4..e2d2fc5c71f7d145cba7267989251af45e3bb5ba:/osfmk/i386/commpage/commpage.c diff --git a/osfmk/i386/commpage/commpage.c b/osfmk/i386/commpage/commpage.c index b2bd5af50..cc52576c5 100644 --- a/osfmk/i386/commpage/commpage.c +++ b/osfmk/i386/commpage/commpage.c @@ -1,5 +1,5 @@ /* - * Copyright (c) 2003-2007 Apple Inc. All rights reserved. + * Copyright (c) 2003-2010 Apple Inc. All rights reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * @@ -48,46 +48,53 @@ #include #include #include -#include -#include +#include +#include +#include #include +#include #include +#include +#include +#include #include #include #include #include #include + #include #include +#include /* the lists of commpage routines are in commpage_asm.s */ extern commpage_descriptor* commpage_32_routines[]; extern commpage_descriptor* commpage_64_routines[]; -/* translated commpage descriptors from commpage_sigs.c */ -extern commpage_descriptor sigdata_descriptor; -extern commpage_descriptor *ba_descriptors[]; - extern vm_map_t commpage32_map; // the shared submap, set up in vm init extern vm_map_t commpage64_map; // the shared submap, set up in vm init char *commPagePtr32 = NULL; // virtual addr in kernel map of 32-bit commpage char *commPagePtr64 = NULL; // ...and of 64-bit commpage -int _cpu_capabilities = 0; // define the capability vector +uint32_t _cpu_capabilities = 0; // define the capability vector int noVMX = 0; /* if true, do not set kHasAltivec in ppc _cpu_capabilities */ -static uintptr_t next; // next available byte in comm page -static int cur_routine; // comm page address of "current" routine -static int matched; // true if we've found a match for "current" routine +typedef uint32_t commpage_address_t; + +static commpage_address_t next; // next available address in comm page +static commpage_address_t cur_routine; // comm page address of "current" routine +static boolean_t matched; // true if we've found a match for "current" routine static char *commPagePtr; // virtual addr in kernel map of commpage we are working on -static size_t commPageBaseOffset; // add to 32-bit runtime address to get offset in commpage +static commpage_address_t commPageBaseOffset; // subtract from 32-bit runtime address to get offset in virtual commpage in kernel map static commpage_time_data *time_data32 = NULL; static commpage_time_data *time_data64 = NULL; +decl_simple_lock_data(static,commpage_active_cpus_lock); + /* Allocate the commpage and add to the shared submap created by vm: * 1. allocate a page in the kernel map (RW) * 2. wire it down @@ -149,17 +156,24 @@ commpage_allocate( panic("cannot map commpage"); ipc_port_release(handle); - - return (void*) kernel_addr; // return address in kernel map + + // Initialize the text section of the commpage with INT3 + char *commpage_ptr = (char*)(intptr_t)kernel_addr; + vm_size_t i; + for( i = _COMM_PAGE_TEXT_START - _COMM_PAGE_START_ADDRESS; i < size; i++ ) + // This is the hex for the X86 opcode INT3 + commpage_ptr[i] = 0xCC; + + return (void*)(intptr_t)kernel_addr; // return address in kernel map } /* Get address (in kernel map) of a commpage field. */ static void* commpage_addr_of( - int addr_at_runtime ) + commpage_address_t addr_at_runtime ) { - return (void*) ((uintptr_t)commPagePtr + addr_at_runtime - commPageBaseOffset); + return (void*) ((uintptr_t)commPagePtr + (addr_at_runtime - commPageBaseOffset)); } /* Determine number of CPUs on this system. We cannot rely on @@ -185,7 +199,7 @@ commpage_cpus( void ) static void commpage_init_cpu_capabilities( void ) { - int bits; + uint32_t bits; int cpus; ml_cpu_info_t cpu_info; @@ -193,6 +207,9 @@ commpage_init_cpu_capabilities( void ) ml_cpu_get_info(&cpu_info); switch (cpu_info.vector_unit) { + case 9: + bits |= kHasAVX1_0; + /* fall thru */ case 8: bits |= kHasSSE4_2; /* fall thru */ @@ -244,6 +261,9 @@ commpage_init_cpu_capabilities( void ) if (tscFreq <= SLOW_TSC_THRESHOLD) /* is TSC too slow for _commpage_nanotime? */ bits |= kSlow; + if (cpuid_features() & CPUID_FEATURE_AES) + bits |= kHasAES; + _cpu_capabilities = bits; // set kernel version for use by drivers etc } @@ -257,53 +277,18 @@ _get_cpu_capabilities(void) static void commpage_stuff( - int address, + commpage_address_t address, const void *source, int length ) { void *dest = commpage_addr_of(address); - if ((uintptr_t)dest < next) - panic("commpage overlap at address 0x%x, %p < 0x%lx", address, dest, next); + if (address < next) + panic("commpage overlap at address 0x%p, 0x%x < 0x%x", dest, address, next); bcopy(source,dest,length); - next = ((uintptr_t)dest + length); -} - -static void -commpage_stuff_swap( - int address, - void *source, - int length, - int legacy ) -{ - if ( legacy ) { - void *dest = commpage_addr_of(address); - dest = (void *)((uintptr_t) dest + _COMM_PAGE_SIGS_OFFSET); - switch (length) { - case 2: - OSWriteSwapInt16(dest, 0, *(uint16_t *)source); - break; - case 4: - OSWriteSwapInt32(dest, 0, *(uint32_t *)source); - break; - case 8: - OSWriteSwapInt64(dest, 0, *(uint64_t *)source); - break; - } - } -} - -static void -commpage_stuff2( - int address, - void *source, - int length, - int legacy ) -{ - commpage_stuff_swap(address, source, length, legacy); - commpage_stuff(address, source, length); + next = address + length; } /* Copy a routine into comm page if it matches running machine. @@ -312,11 +297,11 @@ static void commpage_stuff_routine( commpage_descriptor *rd ) { - int must,cant; + uint32_t must,cant; if (rd->commpage_address != cur_routine) { if ((cur_routine!=0) && (matched==0)) - panic("commpage no match for last, next address %08lx", rd->commpage_address); + panic("commpage no match for last, next address %08x", rd->commpage_address); cur_routine = rd->commpage_address; matched = 0; } @@ -326,7 +311,7 @@ commpage_stuff_routine( if ((must == rd->musthave) && (cant == 0)) { if (matched) - panic("commpage multiple matches for address %08lx", rd->commpage_address); + panic("commpage multiple matches for address %08x", rd->commpage_address); matched = 1; commpage_stuff(rd->commpage_address,rd->code_address,rd->code_length); @@ -334,8 +319,6 @@ commpage_stuff_routine( } /* Fill in the 32- or 64-bit commpage. Called once for each. - * The 32-bit ("legacy") commpage has a bunch of stuff added to it - * for translated processes, some of which is byte-swapped. */ static void @@ -343,59 +326,55 @@ commpage_populate_one( vm_map_t submap, // commpage32_map or compage64_map char ** kernAddressPtr, // &commPagePtr32 or &commPagePtr64 size_t area_used, // _COMM_PAGE32_AREA_USED or _COMM_PAGE64_AREA_USED - size_t base_offset, // will become commPageBaseOffset + commpage_address_t base_offset, // will become commPageBaseOffset commpage_descriptor** commpage_routines, // list of routine ptrs for this commpage - boolean_t legacy, // true if 32-bit commpage commpage_time_data** time_data, // &time_data32 or &time_data64 const char* signature ) // "commpage 32-bit" or "commpage 64-bit" { + uint8_t c1; short c2; - static double two52 = 1048576.0 * 1048576.0 * 4096.0; // 2**52 - static double ten6 = 1000000.0; // 10**6 + int c4; + uint64_t c8; + uint32_t cfamily; commpage_descriptor **rd; short version = _COMM_PAGE_THIS_VERSION; - int swapcaps; - next = (uintptr_t) NULL; + next = 0; cur_routine = 0; commPagePtr = (char *)commpage_allocate( submap, (vm_size_t) area_used ); *kernAddressPtr = commPagePtr; // save address either in commPagePtr32 or 64 commPageBaseOffset = base_offset; - + *time_data = commpage_addr_of( _COMM_PAGE_TIME_DATA_START ); /* Stuff in the constants. We move things into the comm page in strictly * ascending order, so we can check for overlap and panic if so. */ - commpage_stuff(_COMM_PAGE_SIGNATURE,signature,strlen(signature)); - commpage_stuff2(_COMM_PAGE_VERSION,&version,sizeof(short),legacy); + commpage_stuff(_COMM_PAGE_SIGNATURE,signature,(int)strlen(signature)); + commpage_stuff(_COMM_PAGE_VERSION,&version,sizeof(short)); commpage_stuff(_COMM_PAGE_CPU_CAPABILITIES,&_cpu_capabilities,sizeof(int)); - /* excuse our magic constants, we cannot include ppc/cpu_capabilities.h */ - /* always set kCache32 and kDcbaAvailable */ - swapcaps = 0x44; - if ( _cpu_capabilities & kUP ) - swapcaps |= (kUP + (1 << kNumCPUsShift)); - else - swapcaps |= 2 << kNumCPUsShift; /* limit #cpus to 2 */ - if ( ! noVMX ) /* if rosetta will be emulating altivec... */ - swapcaps |= 0x101; /* ...then set kHasAltivec and kDataStreamsAvailable too */ - commpage_stuff_swap(_COMM_PAGE_CPU_CAPABILITIES, &swapcaps, sizeof(int), legacy); - c2 = 32; - commpage_stuff_swap(_COMM_PAGE_CACHE_LINESIZE,&c2,2,legacy); - - if (_cpu_capabilities & kCache32) - c2 = 32; - else if (_cpu_capabilities & kCache64) + c2 = 32; // default + if (_cpu_capabilities & kCache64) c2 = 64; else if (_cpu_capabilities & kCache128) c2 = 128; commpage_stuff(_COMM_PAGE_CACHE_LINESIZE,&c2,2); + + c4 = MP_SPIN_TRIES; + commpage_stuff(_COMM_PAGE_SPIN_COUNT,&c4,4); - if ( legacy ) { - commpage_stuff2(_COMM_PAGE_2_TO_52,&two52,8,legacy); - commpage_stuff2(_COMM_PAGE_10_TO_6,&ten6,8,legacy); - } + /* machine_info valid after ml_get_max_cpus() */ + c1 = machine_info.physical_cpu_max; + commpage_stuff(_COMM_PAGE_PHYSICAL_CPUS,&c1,1); + c1 = machine_info.logical_cpu_max; + commpage_stuff(_COMM_PAGE_LOGICAL_CPUS,&c1,1); + + c8 = ml_cpu_cache_size(0); + commpage_stuff(_COMM_PAGE_MEMORY_SIZE, &c8, 8); + + cfamily = cpuid_info()->cpuid_cpufamily; + commpage_stuff(_COMM_PAGE_CPUFAMILY, &cfamily, 4); for( rd = commpage_routines; *rd != NULL ; rd++ ) commpage_stuff_routine(*rd); @@ -403,17 +382,9 @@ commpage_populate_one( if (!matched) panic("commpage no match on last routine"); - if (next > (uintptr_t)_COMM_PAGE_END) - panic("commpage overflow: next = 0x%08lx, commPagePtr = 0x%08lx", next, (uintptr_t)commPagePtr); - - if ( legacy ) { - next = (uintptr_t) NULL; - for( rd = ba_descriptors; *rd != NULL ; rd++ ) - commpage_stuff_routine(*rd); + if (next > _COMM_PAGE_END) + panic("commpage overflow: next = 0x%08x, commPagePtr = 0x%p", next, commPagePtr); - next = (uintptr_t) NULL; - commpage_stuff_routine(&sigdata_descriptor); - } } @@ -434,27 +405,31 @@ commpage_populate( void ) _COMM_PAGE32_AREA_USED, _COMM_PAGE32_BASE_ADDRESS, commpage_32_routines, - TRUE, /* legacy (32-bit) commpage */ &time_data32, "commpage 32-bit"); +#ifndef __LP64__ pmap_commpage32_init((vm_offset_t) commPagePtr32, _COMM_PAGE32_BASE_ADDRESS, _COMM_PAGE32_AREA_USED/INTEL_PGBYTES); - +#endif time_data64 = time_data32; /* if no 64-bit commpage, point to 32-bit */ if (_cpu_capabilities & k64Bit) { commpage_populate_one( commpage64_map, &commPagePtr64, _COMM_PAGE64_AREA_USED, - _COMM_PAGE32_START_ADDRESS, /* because kernel is built 32-bit */ + _COMM_PAGE32_START_ADDRESS, /* commpage address are relative to 32-bit commpage placement */ commpage_64_routines, - FALSE, /* not a legacy commpage */ &time_data64, "commpage 64-bit"); +#ifndef __LP64__ pmap_commpage64_init((vm_offset_t) commPagePtr64, _COMM_PAGE64_BASE_ADDRESS, _COMM_PAGE64_AREA_USED/INTEL_PGBYTES); +#endif } + simple_lock_init(&commpage_active_cpus_lock, 0); + + commpage_update_active_cpus(); rtc_nanotime_init_commpage(); } @@ -555,3 +530,111 @@ commpage_disable_timestamp( void ) p32->gtod_generation = next_gen; /* mark data as valid */ p64->gtod_generation = next_gen; } + + +/* Update _COMM_PAGE_MEMORY_PRESSURE. Called periodically from vm's compute_memory_pressure() */ + +void +commpage_set_memory_pressure( + unsigned int pressure ) +{ + char *cp; + uint32_t *ip; + + cp = commPagePtr32; + if ( cp ) { + cp += (_COMM_PAGE_MEMORY_PRESSURE - _COMM_PAGE32_BASE_ADDRESS); + ip = (uint32_t*) cp; + *ip = (uint32_t) pressure; + } + + cp = commPagePtr64; + if ( cp ) { + cp += (_COMM_PAGE_MEMORY_PRESSURE - _COMM_PAGE32_START_ADDRESS); + ip = (uint32_t*) cp; + *ip = (uint32_t) pressure; + } + +} + + +/* Update _COMM_PAGE_SPIN_COUNT. We might want to reduce when running on a battery, etc. */ + +void +commpage_set_spin_count( + unsigned int count ) +{ + char *cp; + uint32_t *ip; + + if (count == 0) /* we test for 0 after decrement, not before */ + count = 1; + + cp = commPagePtr32; + if ( cp ) { + cp += (_COMM_PAGE_SPIN_COUNT - _COMM_PAGE32_BASE_ADDRESS); + ip = (uint32_t*) cp; + *ip = (uint32_t) count; + } + + cp = commPagePtr64; + if ( cp ) { + cp += (_COMM_PAGE_SPIN_COUNT - _COMM_PAGE32_START_ADDRESS); + ip = (uint32_t*) cp; + *ip = (uint32_t) count; + } + +} + +/* Updated every time a logical CPU goes offline/online */ +void +commpage_update_active_cpus(void) +{ + char *cp; + volatile uint8_t *ip; + + /* At least 32-bit commpage must be initialized */ + if (!commPagePtr32) + return; + + simple_lock(&commpage_active_cpus_lock); + + cp = commPagePtr32; + cp += (_COMM_PAGE_ACTIVE_CPUS - _COMM_PAGE32_BASE_ADDRESS); + ip = (volatile uint8_t*) cp; + *ip = (uint8_t) processor_avail_count; + + cp = commPagePtr64; + if ( cp ) { + cp += (_COMM_PAGE_ACTIVE_CPUS - _COMM_PAGE32_START_ADDRESS); + ip = (volatile uint8_t*) cp; + *ip = (uint8_t) processor_avail_count; + } + + simple_unlock(&commpage_active_cpus_lock); +} + + +/* Check to see if a given address is in the Preemption Free Zone (PFZ) */ + +uint32_t +commpage_is_in_pfz32(uint32_t addr32) +{ + if ( (addr32 >= _COMM_PAGE_PFZ_START) && (addr32 < _COMM_PAGE_PFZ_END)) { + return 1; + } + else + return 0; +} + +uint32_t +commpage_is_in_pfz64(addr64_t addr64) +{ + if ( (addr64 >= _COMM_PAGE_32_TO_64(_COMM_PAGE_PFZ_START)) + && (addr64 < _COMM_PAGE_32_TO_64(_COMM_PAGE_PFZ_END))) { + return 1; + } + else + return 0; +} +