/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) Peter Wemm <peter@netplex.com.au> * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifdef __i386__ #include <i386/pcpu.h> #else /* !__i386__ */ #ifndef _MACHINE_PCPU_H_ #define _MACHINE_PCPU_H_ #include <machine/_pmap.h> #include <machine/segments.h> #include <machine/tss.h> #define PC_PTI_STACK_SZ 16 struct monitorbuf { int idle_state; /* Used by cpu_idle_mwait. */ int stop_state; /* Used by cpustop_handler. */ char padding[128 - (2 * sizeof(int))]; }; _Static_assert(sizeof(struct monitorbuf) == 128, "2x cache line"); /* * The SMP parts are setup in pmap.c and locore.s for the BSP, and * mp_machdep.c sets up the data for the AP's to "see" when they awake. * The reason for doing it via a struct is so that an array of pointers * to each CPU's data can be set up for things like "check curproc on all * other processors" */ #define PCPU_MD_FIELDS \ struct monitorbuf pc_monitorbuf __aligned(128); /* cache line */\ struct pcpu *pc_prvspace; /* Self-reference */ \ struct pmap *pc_curpmap; \ struct amd64tss *pc_tssp; /* TSS segment active on CPU */ \ void *pc_pad0; \ uint64_t pc_kcr3; \ uint64_t pc_ucr3; \ uint64_t pc_saved_ucr3; \ register_t pc_rsp0; \ register_t pc_scratch_rsp; /* User %rsp in syscall */ \ register_t pc_scratch_rax; \ u_int pc_apic_id; \ u_int pc_acpi_id; /* ACPI CPU id */ \ /* Pointer to the CPU %fs descriptor */ \ struct user_segment_descriptor *pc_fs32p; \ /* Pointer to the CPU %gs descriptor */ \ struct user_segment_descriptor *pc_gs32p; \ /* Pointer to the CPU LDT descriptor */ \ struct system_segment_descriptor *pc_ldt; \ /* Pointer to the CPU TSS descriptor */ \ struct system_segment_descriptor *pc_tss; \ u_int pc_cmci_mask; /* MCx banks for CMCI */ \ uint64_t pc_dbreg[16]; /* ddb debugging regs */ \ uint64_t pc_pti_stack[PC_PTI_STACK_SZ]; \ register_t pc_pti_rsp0; \ int pc_dbreg_cmd; /* ddb debugging reg cmd */ \ u_int pc_vcpu_id; /* Xen vCPU ID */ \ uint32_t pc_pcid_next; \ uint32_t pc_pcid_gen; \ uint32_t pc_unused; \ uint32_t pc_ibpb_set; \ void *pc_mds_buf; \ void *pc_mds_buf64; \ uint32_t pc_pad[4]; \ uint8_t pc_mds_tmp[64]; \ u_int pc_ipi_bitmap; \ struct amd64tss pc_common_tss; \ struct user_segment_descriptor pc_gdt[NGDT]; \ void *pc_smp_tlb_pmap; \ uint64_t pc_smp_tlb_addr1; \ uint64_t pc_smp_tlb_addr2; \ uint32_t pc_smp_tlb_gen; \ u_int pc_smp_tlb_op; \ uint64_t pc_ucr3_load_mask; \ u_int pc_small_core; \ u_int pc_pcid_invlpg_workaround; \ struct pmap_pcid pc_kpmap_store; \ char __pad[2900] /* pad to UMA_PCPU_ALLOC_SIZE */ #define PC_DBREG_CMD_NONE 0 #define PC_DBREG_CMD_LOAD 1 #ifdef _KERNEL #define MONITOR_STOPSTATE_RUNNING 0 #define MONITOR_STOPSTATE_STOPPED 1 /* * Evaluates to the type of the per-cpu variable name. */ #define __pcpu_type(name) \ __typeof(((struct pcpu *)0)->name) #ifdef __SEG_GS #define get_pcpu() __extension__ ({ \ static struct pcpu __seg_gs *__pc = 0; \ \ __pc->pc_prvspace; \ }) /* * Evaluates to the address of the per-cpu variable name. */ #define __PCPU_PTR(name) __extension__ ({ \ struct pcpu *__pc = get_pcpu(); \ \ &__pc->name; \ }) /* * Evaluates to the value of the per-cpu variable name. */ #define __PCPU_GET(name) __extension__ ({ \ static struct pcpu __seg_gs *__pc = 0; \ \ __pc->name; \ }) /* * Adds the value to the per-cpu counter name. The implementation * must be atomic with respect to interrupts. */ #define __PCPU_ADD(name, val) do { \ static struct pcpu __seg_gs *__pc = 0; \ __pcpu_type(name) __val; \ \ __val = (val); \ if (sizeof(__val) == 1 || sizeof(__val) == 2 || \ sizeof(__val) == 4 || sizeof(__val) == 8) { \ __pc->name += __val; \ } else \ *__PCPU_PTR(name) += __val; \ } while (0) /* * Sets the value of the per-cpu variable name to value val. */ #define __PCPU_SET(name, val) do { \ static struct pcpu __seg_gs *__pc = 0; \ __pcpu_type(name) __val; \ \ __val = (val); \ if (sizeof(__val) == 1 || sizeof(__val) == 2 || \ sizeof(__val) == 4 || sizeof(__val) == 8) { \ __pc->name = __val; \ } else \ *__PCPU_PTR(name) = __val; \ } while (0) #else /* !__SEG_GS */ /* * Evaluates to the byte offset of the per-cpu variable name. */ #define __pcpu_offset(name) \ __offsetof(struct pcpu, name) /* * Evaluates to the address of the per-cpu variable name. */ #define __PCPU_PTR(name) __extension__ ({ \ __pcpu_type(name) *__p; \ \ __asm __volatile("movq %%gs:%1,%0; addq %2,%0" \ : "=r" (__p) \ : "m" (*(struct pcpu *)(__pcpu_offset(pc_prvspace))), \ "i" (__pcpu_offset(name))); \ \ __p; \ }) /* * Evaluates to the value of the per-cpu variable name. */ #define __PCPU_GET(name) __extension__ ({ \ __pcpu_type(name) __res; \ struct __s { \ u_char __b[MIN(sizeof(__pcpu_type(name)), 8)]; \ } __s; \ \ if (sizeof(__res) == 1 || sizeof(__res) == 2 || \ sizeof(__res) == 4 || sizeof(__res) == 8) { \ __asm __volatile("mov %%gs:%1,%0" \ : "=r" (__s) \ : "m" (*(struct __s *)(__pcpu_offset(name)))); \ *(struct __s *)(void *)&__res = __s; \ } else { \ __res = *__PCPU_PTR(name); \ } \ __res; \ }) /* * Adds the value to the per-cpu counter name. The implementation * must be atomic with respect to interrupts. */ #define __PCPU_ADD(name, val) do { \ __pcpu_type(name) __val; \ struct __s { \ u_char __b[MIN(sizeof(__pcpu_type(name)), 8)]; \ } __s; \ \ __val = (val); \ if (sizeof(__val) == 1 || sizeof(__val) == 2 || \ sizeof(__val) == 4 || sizeof(__val) == 8) { \ __s = *(struct __s *)(void *)&__val; \ __asm __volatile("add %1,%%gs:%0" \ : "=m" (*(struct __s *)(__pcpu_offset(name))) \ : "r" (__s)); \ } else \ *__PCPU_PTR(name) += __val; \ } while (0) /* * Sets the value of the per-cpu variable name to value val. */ #define __PCPU_SET(name, val) { \ __pcpu_type(name) __val; \ struct __s { \ u_char __b[MIN(sizeof(__pcpu_type(name)), 8)]; \ } __s; \ \ __val = (val); \ if (sizeof(__val) == 1 || sizeof(__val) == 2 || \ sizeof(__val) == 4 || sizeof(__val) == 8) { \ __s = *(struct __s *)(void *)&__val; \ __asm __volatile("mov %1,%%gs:%0" \ : "=m" (*(struct __s *)(__pcpu_offset(name))) \ : "r" (__s)); \ } else { \ *__PCPU_PTR(name) = __val; \ } \ } #define get_pcpu() __extension__ ({ \ struct pcpu *__pc; \ \ __asm __volatile("movq %%gs:%1,%0" \ : "=r" (__pc) \ : "m" (*(struct pcpu *)(__pcpu_offset(pc_prvspace)))); \ __pc; \ }) #endif /* !__SEG_GS */ #define PCPU_GET(member) __PCPU_GET(pc_ ## member) #define PCPU_ADD(member, val) __PCPU_ADD(pc_ ## member, val) #define PCPU_PTR(member) __PCPU_PTR(pc_ ## member) #define PCPU_SET(member, val) __PCPU_SET(pc_ ## member, val) #define IS_BSP() (PCPU_GET(cpuid) == 0) #define zpcpu_offset_cpu(cpu) ((uintptr_t)&__pcpu[0] + UMA_PCPU_ALLOC_SIZE * cpu) #define zpcpu_base_to_offset(base) (void *)((uintptr_t)(base) - (uintptr_t)&__pcpu[0]) #define zpcpu_offset_to_base(base) (void *)((uintptr_t)(base) + (uintptr_t)&__pcpu[0]) #define zpcpu_sub_protected(base, n) do { \ ZPCPU_ASSERT_PROTECTED(); \ zpcpu_sub(base, n); \ } while (0) #define zpcpu_set_protected(base, n) do { \ __typeof(*base) __n = (n); \ ZPCPU_ASSERT_PROTECTED(); \ switch (sizeof(*base)) { \ case 4: \ __asm __volatile("movl\t%1,%%gs:(%0)" \ : : "r" (base), "ri" (__n) : "memory", "cc"); \ break; \ case 8: \ __asm __volatile("movq\t%1,%%gs:(%0)" \ : : "r" (base), "ri" (__n) : "memory", "cc"); \ break; \ default: \ *zpcpu_get(base) = __n; \ } \ } while (0); #define zpcpu_add(base, n) do { \ __typeof(*base) __n = (n); \ CTASSERT(sizeof(*base) == 4 || sizeof(*base) == 8); \ switch (sizeof(*base)) { \ case 4: \ __asm __volatile("addl\t%1,%%gs:(%0)" \ : : "r" (base), "ri" (__n) : "memory", "cc"); \ break; \ case 8: \ __asm __volatile("addq\t%1,%%gs:(%0)" \ : : "r" (base), "ri" (__n) : "memory", "cc"); \ break; \ } \ } while (0) #define zpcpu_add_protected(base, n) do { \ ZPCPU_ASSERT_PROTECTED(); \ zpcpu_add(base, n); \ } while (0) #define zpcpu_sub(base, n) do { \ __typeof(*base) __n = (n); \ CTASSERT(sizeof(*base) == 4 || sizeof(*base) == 8); \ switch (sizeof(*base)) { \ case 4: \ __asm __volatile("subl\t%1,%%gs:(%0)" \ : : "r" (base), "ri" (__n) : "memory", "cc"); \ break; \ case 8: \ __asm __volatile("subq\t%1,%%gs:(%0)" \ : : "r" (base), "ri" (__n) : "memory", "cc"); \ break; \ } \ } while (0); #endif /* _KERNEL */ #endif /* !_MACHINE_PCPU_H_ */ #endif /* __i386__ */