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/* SPDX-License-Identifier: GPL-2.0-only */
#include <cpu/x86/cpu_info.S.inc>
#include <cpu/x86/cr.h>
#include <cpu/amd/mtrr.h>
#include <cpu/x86/msr.h>
#include <arch/ram_segs.h>
#define __RAMSTAGE__
/* The SIPI vector is responsible for initializing the APs in the system. It
* loads microcode, sets up MSRs, and enables caching before calling into
* C code. */
.section ".module_parameters", "aw", @progbits
ap_start_params:
gdtaddr:
.word 0 /* limit */
.long 0 /* table */
.word 0 /* unused */
idt_ptr:
.long 0
per_cpu_segment_descriptors:
.long 0
per_cpu_segment_selector:
.long 0
stack_top:
.long 0
stack_size:
.long 0
microcode_lock:
.long 0
microcode_ptr:
.long 0
msr_table_ptr:
.long 0
msr_count:
.long 0
c_handler:
.long 0
ap_count:
.long 0
#define CR0_CLEAR_FLAGS_CACHE_ENABLE (CR0_CD | CR0_NW)
#define CR0_SET_FLAGS (CR0_CLEAR_FLAGS_CACHE_ENABLE | CR0_PE)
#define CR0_CLEAR_FLAGS \
(CR0_PG | CR0_AM | CR0_WP | CR0_NE | CR0_TS | CR0_EM | CR0_MP)
.text
.code16
.global _start
_start:
cli
xorl %eax, %eax
movl %eax, %cr3 /* Invalidate TLB*/
/* On hyper threaded cpus, invalidating the cache here is
* very very bad. Don't.
*/
/* setup the data segment */
movw %cs, %ax
movw %ax, %ds
/* The gdtaddr needs to be relative to the data segment in order
* to properly dereference it. The .text section comes first in an
* rmodule so _start can be used as a proxy for the load address. */
movl $(gdtaddr), %ebx
sub $(_start), %ebx
lgdtl (%ebx)
movl %cr0, %eax
andl $~CR0_CLEAR_FLAGS, %eax
orl $CR0_SET_FLAGS, %eax
movl %eax, %cr0
ljmpl $RAM_CODE_SEG, $1f
1:
.code32
movw $RAM_DATA_SEG, %ax
movw %ax, %ds
movw %ax, %es
movw %ax, %ss
xor %ax, %ax /* zero out the gs and fs segment index */
movw %ax, %fs
movw %ax, %gs /* Will be used for cpu_info */
/* Load the Interrupt descriptor table */
mov idt_ptr, %ebx
lidt (%ebx)
1:
/* Obtain CPU number. */
movl ap_count, %ecx
inc %ecx
lock cmpxchg %ecx, ap_count
jnz 1b
/* Setup stacks for each CPU. */
movl stack_size, %eax
mul %ecx
movl stack_top, %edx
subl %eax, %edx
mov %edx, %esp
push_cpu_info index=%ecx
push_per_cpu_segment_data
/*
* Update the AP's per_cpu_segment_descriptor to point to the
* per_cpu_segment_data that was allocated on the stack.
*/
set_segment_descriptor_base per_cpu_segment_descriptors, %esp, %ecx
mov %ecx, %eax
shl $3, %eax /* The index is << 3 in the segment selector */
add per_cpu_segment_selector, %eax
mov %eax, %gs
/*
* The following code only needs to run on Intel platforms and thus the caller
* doesn't provide a microcode_ptr if not on Intel.
* On Intel platforms which update microcode using FIT the version check will
* also skip the microcode update.
*/
/* Determine if one should check microcode versions. */
mov microcode_ptr, %edi
test %edi, %edi
jz microcode_done /* Bypass if no microde exists. */
/* Get the Microcode version. */
xorl %eax, %eax
xorl %edx, %edx
movl $IA32_BIOS_SIGN_ID, %ecx
wrmsr
mov $1, %eax
cpuid
mov $IA32_BIOS_SIGN_ID, %ecx
rdmsr
/* If something already loaded skip loading again. */
test %edx, %edx
jnz microcode_done
/*
* Intel SDM and various BWGs specify to use a semaphore to update microcode
* on one thread per core on Hyper-Threading enabled CPUs. Due to this complex
* code would be necessary to determine the core #ID, initializing and picking
* the right semaphore out of CONFIG_MAX_CPUS / 2.
* Instead of the per core approachm, as recommended, use one global spinlock.
* Assuming that only pre-FIT platforms with Hyper-Threading enabled and at
* most 8 threads will ever run into this condition, the boot delay is negligible.
*/
/* Determine if parallel microcode loading is allowed. */
cmpl $0xffffffff, microcode_lock
je load_microcode
/* Protect microcode loading. */
lock_microcode:
lock btsl $0, microcode_lock
jc lock_microcode
load_microcode:
/* Load new microcode. */
mov $IA32_BIOS_UPDT_TRIG, %ecx
xor %edx, %edx
mov %edi, %eax
/* The microcode pointer is passed in pointing to the header. Adjust
* pointer to reflect the payload (header size is 48 bytes). */
add $48, %eax
pusha
wrmsr
popa
/* Unconditionally unlock microcode loading. */
cmpl $0xffffffff, microcode_lock
je microcode_done
xor %eax, %eax
mov %eax, microcode_lock
microcode_done:
/*
* Load MSRs. Each entry in the table consists of:
* 0: index,
* 4: value[31:0]
* 8: value[63:32]
*/
mov msr_table_ptr, %edi
mov msr_count, %ebx
test %ebx, %ebx
jz 1f
#if CONFIG(X86_AMD_FIXED_MTRRS)
/* Allow modification of RdDram and WrDram bits */
mov $SYSCFG_MSR, %ecx
rdmsr
or $SYSCFG_MSR_MtrrFixDramModEn, %eax
wrmsr
#endif
load_msr:
mov (%edi), %ecx
mov 4(%edi), %eax
mov 8(%edi), %edx
wrmsr
add $12, %edi
dec %ebx
jnz load_msr
#if CONFIG(X86_AMD_FIXED_MTRRS)
mov $SYSCFG_MSR, %ecx
rdmsr
and $~SYSCFG_MSR_MtrrFixDramModEn, %eax
wrmsr
#endif
1:
/* Enable caching. */
mov %cr0, %eax
and $~(CR0_CLEAR_FLAGS_CACHE_ENABLE), %eax
mov %eax, %cr0
#if CONFIG(SSE)
/* Enable sse instructions. */
mov %cr4, %eax
orl $(CR4_OSFXSR | CR4_OSXMMEXCPT), %eax
mov %eax, %cr4
#endif
andl $0xfffffff0, %esp /* ensure stack alignment */
#if ENV_X86_64
/* entry64.inc preserves ebx. */
#include <cpu/x86/64bit/entry64.inc>
movabs c_handler, %eax
call *%rax
#else
mov c_handler, %eax
call *%eax
#endif
halt_jump:
hlt
jmp halt_jump
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