VMEXIT_XSETBV = 55
} vmx_exit_t;
+/* VMCS Exit QUALIFICATIONs */
+struct vmexit_io_qual {
+ uint32_t access_size : 3; // (0: 1 Byte ;; 1: 2 Bytes ;; 3: 4 Bytes)
+ uint32_t dir : 1; // (0: Out ;; 1: In)
+ uint32_t string : 1; // (0: not string ;; 1: string)
+ uint32_t rep : 1; // (0: not REP ;; 1: REP)
+ uint32_t op_enc : 1; // (0: DX ;; 1: immediate)
+ uint32_t rsvd : 9; // Set to 0
+ uint32_t port : 16; // IO Port Number
+} __attribute__((packed));
+
+
+
+struct VMExitDBGQual {
+ uint32_t B0 : 1; // Breakpoint 0 condition met
+ uint32_t B1 : 1; // Breakpoint 1 condition met
+ uint32_t B2 : 1; // Breakpoint 2 condition met
+ uint32_t B3 : 1; // Breakpoint 3 condition met
+ uint32_t rsvd : 9; // reserved to 0
+ uint32_t BD : 1; // detected DBG reg access
+ uint32_t BS : 1; // cause either single instr or taken branch
+} __attribute__((packed));
+
+
+struct VMExitTSQual {
+ uint32_t selector : 16; // selector of destination TSS
+ uint32_t rsvd : 14; // reserved to 0
+ uint32_t src : 2; // (0: CALL ; 1: IRET ; 2: JMP ; 3: Task gate in IDT)
+} __attribute__((packed));
+
+struct vmexit_cr_qual {
+ uint32_t cr_id : 4; // cr number (0 for CLTS and LMSW) (bit 3 always 0, on 32bit)
+ uint32_t access_type : 2; // (0: MOV to CR ; 1: MOV from CR ; 2: CLTS ; 3: LMSW)
+ uint32_t lmsw_op_type : 1; // (0: register ; 1: memory)
+ uint32_t rsvd1 : 1; // reserved to 0
+ uint32_t gpr : 4; // (0:RAX+[CLTS/LMSW], 1:RCX, 2:RDX, 3:RBX, 4:RSP, 5:RBP, 6:RSI, 6:RDI, 8-15:64bit regs)
+ uint32_t rsvd2 : 4; // reserved to 0
+ uint32_t lmsw_src : 16; // src data for lmsw
+} __attribute__((packed));
+
+struct VMExitMovDRQual {
+ uint32_t regID : 3; // debug register number
+ uint32_t rsvd1 : 1; // reserved to 0
+ uint32_t dir : 1; // (0: MOV to DR , 1: MOV from DR)
+ uint32_t rsvd2 : 3; // reserved to 0
+ uint32_t gpr : 4; // (0:RAX, 1:RCX, 2:RDX, 3:RBX, 4:RSP, 5:RBP, 6:RSI, 6:RDI, 8-15:64bit regs)
+} __attribute__((packed));
+
+/* End Exit Qualifications */
+
+
int v3_handle_vmx_exit(struct v3_gprs * gprs, struct guest_info * info);
#endif