.hlt:
jmp .hlt
+[extern MM_Clone]
+[extern MM_DumpTables]
+[global Proc_CloneInt]
+Proc_CloneInt:
+ PUSH_GPR
+ ; Save RSP
+ mov [rdi], rsp
+ call MM_Clone
+ ; Save CR3
+ mov rsi, [rsp+0x30] ; Saved version of RSI
+ mov [rsi], rax
+ ; Undo the PUSH_GPR
+ add rsp, 0x80
+ mov rax, .newTask
+ ret
+.newTask:
+; mov rdi, 0
+; mov rsi, 0x800000000000
+; call MM_DumpTables
+ POP_GPR
+ xor eax, eax
+ ret
+
[global SaveState]
SaveState:
; Save regs to RSI
mov [rsp], rax ; Restore return address
xor eax, eax
ret
+
+[global SwitchTasks]
+; rdi = New RSP
+; rsi = Old RSP save loc
+; rdx = New RIP
+; rcx = Old RIP save loc
+; r8 = CR3
+SwitchTasks:
+ PUSH_GPR
+
+ ; Save state RIP and RSP
+ lea rax, [rel .restore]
+ mov [rcx], rax
+ mov [rsi], rsp
+
+ ; Change CR3 if requested
+ test r8, r8
+ jz .setState
+ mov cr3, r8
+ ; Make sure the stack is valid before jumping
+ invlpg [rdi]
+ invlpg [rdi+0x1000]
+
+ ; Go to new state
+.setState:
+ mov rsp, rdi
+ jmp rdx
+
+ ; Restore point for saved state
+.restore:
+ POP_GPR
+ xor eax, eax ; Return zero
+ ret
+
+[global Proc_InitialiseSSE]
+Proc_InitialiseSSE:
+ mov rax, cr4
+ or ax, (1 << 9)|(1 << 10) ; Set OSFXSR and OSXMMEXCPT
+ mov cr4, rax
+ mov rax, cr0
+ and ax, ~(1 << 2) ; Clear EM
+ or rax, (1 << 1) ; Set MP
+ mov rax, cr0
+ ret
+[global Proc_DisableSSE]
+Proc_DisableSSE:
+ mov rax, cr0
+ or ax, 1 << 3 ; Set TS
+ mov cr0, rax
+ ret
+[global Proc_EnableSSE]
+Proc_EnableSSE:
+ mov rax, cr0
+ and ax, ~(1 << 3) ; Clear TS
+ mov cr0, rax
+ ret
+
+[global Proc_SaveSSE]
+Proc_SaveSSE:
+ fxsave [rdi]
+ ret
+[global Proc_RestoreSSE]
+Proc_RestoreSSE:
+ fxrstor [rdi]
+ ret
+
+; vim: ft=nasm