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bee/vendor/github.com/derekparker/delve/proc/registers_darwin_amd64.go
2017-03-26 16:55:28 +02:00

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package proc
// #include "threads_darwin.h"
import "C"
import (
"encoding/binary"
"fmt"
"rsc.io/x86/x86asm"
"unsafe"
)
// Regs represents CPU registers on an AMD64 processor.
type Regs struct {
rax uint64
rbx uint64
rcx uint64
rdx uint64
rdi uint64
rsi uint64
rbp uint64
rsp uint64
r8 uint64
r9 uint64
r10 uint64
r11 uint64
r12 uint64
r13 uint64
r14 uint64
r15 uint64
rip uint64
rflags uint64
cs uint64
fs uint64
gs uint64
gsBase uint64
fpregs []Register
}
func (r *Regs) Slice() []Register {
var regs = []struct {
k string
v uint64
}{
{"Rip", r.rip},
{"Rsp", r.rsp},
{"Rax", r.rax},
{"Rbx", r.rbx},
{"Rcx", r.rcx},
{"Rdx", r.rdx},
{"Rdi", r.rdi},
{"Rsi", r.rsi},
{"Rbp", r.rbp},
{"R8", r.r8},
{"R9", r.r9},
{"R10", r.r10},
{"R11", r.r11},
{"R12", r.r12},
{"R13", r.r13},
{"R14", r.r14},
{"R15", r.r15},
{"Rflags", r.rflags},
{"Cs", r.cs},
{"Fs", r.fs},
{"Gs", r.gs},
{"Gs_base", r.gsBase},
}
out := make([]Register, 0, len(regs)+len(r.fpregs))
for _, reg := range regs {
if reg.k == "Rflags" {
out = appendFlagReg(out, reg.k, reg.v, eflagsDescription, 64)
} else {
out = appendQwordReg(out, reg.k, reg.v)
}
}
out = append(out, r.fpregs...)
return out
}
// PC returns the current program counter
// i.e. the RIP CPU register.
func (r *Regs) PC() uint64 {
return r.rip
}
// SP returns the stack pointer location,
// i.e. the RSP register.
func (r *Regs) SP() uint64 {
return r.rsp
}
// CX returns the value of the RCX register.
func (r *Regs) CX() uint64 {
return r.rcx
}
// TLS returns the value of the register
// that contains the location of the thread
// local storage segment.
func (r *Regs) TLS() uint64 {
return r.gsBase
}
// SetPC sets the RIP register to the value specified by `pc`.
func (r *Regs) SetPC(thread *Thread, pc uint64) error {
kret := C.set_pc(thread.os.threadAct, C.uint64_t(pc))
if kret != C.KERN_SUCCESS {
return fmt.Errorf("could not set pc")
}
return nil
}
func (r *Regs) Get(n int) (uint64, error) {
reg := x86asm.Reg(n)
const (
mask8 = 0x000f
mask16 = 0x00ff
mask32 = 0xffff
)
switch reg {
// 8-bit
case x86asm.AL:
return r.rax & mask8, nil
case x86asm.CL:
return r.rcx & mask8, nil
case x86asm.DL:
return r.rdx & mask8, nil
case x86asm.BL:
return r.rbx & mask8, nil
case x86asm.AH:
return (r.rax >> 8) & mask8, nil
case x86asm.CH:
return (r.rax >> 8) & mask8, nil
case x86asm.DH:
return (r.rdx >> 8) & mask8, nil
case x86asm.BH:
return (r.rbx >> 8) & mask8, nil
case x86asm.SPB:
return r.rsp & mask8, nil
case x86asm.BPB:
return r.rbp & mask8, nil
case x86asm.SIB:
return r.rsi & mask8, nil
case x86asm.DIB:
return r.rdi & mask8, nil
case x86asm.R8B:
return r.r8 & mask8, nil
case x86asm.R9B:
return r.r9 & mask8, nil
case x86asm.R10B:
return r.r10 & mask8, nil
case x86asm.R11B:
return r.r11 & mask8, nil
case x86asm.R12B:
return r.r12 & mask8, nil
case x86asm.R13B:
return r.r13 & mask8, nil
case x86asm.R14B:
return r.r14 & mask8, nil
case x86asm.R15B:
return r.r15 & mask8, nil
// 16-bit
case x86asm.AX:
return r.rax & mask16, nil
case x86asm.CX:
return r.rcx & mask16, nil
case x86asm.DX:
return r.rdx & mask16, nil
case x86asm.BX:
return r.rbx & mask16, nil
case x86asm.SP:
return r.rsp & mask16, nil
case x86asm.BP:
return r.rbp & mask16, nil
case x86asm.SI:
return r.rsi & mask16, nil
case x86asm.DI:
return r.rdi & mask16, nil
case x86asm.R8W:
return r.r8 & mask16, nil
case x86asm.R9W:
return r.r9 & mask16, nil
case x86asm.R10W:
return r.r10 & mask16, nil
case x86asm.R11W:
return r.r11 & mask16, nil
case x86asm.R12W:
return r.r12 & mask16, nil
case x86asm.R13W:
return r.r13 & mask16, nil
case x86asm.R14W:
return r.r14 & mask16, nil
case x86asm.R15W:
return r.r15 & mask16, nil
// 32-bit
case x86asm.EAX:
return r.rax & mask32, nil
case x86asm.ECX:
return r.rcx & mask32, nil
case x86asm.EDX:
return r.rdx & mask32, nil
case x86asm.EBX:
return r.rbx & mask32, nil
case x86asm.ESP:
return r.rsp & mask32, nil
case x86asm.EBP:
return r.rbp & mask32, nil
case x86asm.ESI:
return r.rsi & mask32, nil
case x86asm.EDI:
return r.rdi & mask32, nil
case x86asm.R8L:
return r.r8 & mask32, nil
case x86asm.R9L:
return r.r9 & mask32, nil
case x86asm.R10L:
return r.r10 & mask32, nil
case x86asm.R11L:
return r.r11 & mask32, nil
case x86asm.R12L:
return r.r12 & mask32, nil
case x86asm.R13L:
return r.r13 & mask32, nil
case x86asm.R14L:
return r.r14 & mask32, nil
case x86asm.R15L:
return r.r15 & mask32, nil
// 64-bit
case x86asm.RAX:
return r.rax, nil
case x86asm.RCX:
return r.rcx, nil
case x86asm.RDX:
return r.rdx, nil
case x86asm.RBX:
return r.rbx, nil
case x86asm.RSP:
return r.rsp, nil
case x86asm.RBP:
return r.rbp, nil
case x86asm.RSI:
return r.rsi, nil
case x86asm.RDI:
return r.rdi, nil
case x86asm.R8:
return r.r8, nil
case x86asm.R9:
return r.r9, nil
case x86asm.R10:
return r.r10, nil
case x86asm.R11:
return r.r11, nil
case x86asm.R12:
return r.r12, nil
case x86asm.R13:
return r.r13, nil
case x86asm.R14:
return r.r14, nil
case x86asm.R15:
return r.r15, nil
}
return 0, UnknownRegisterError
}
func registers(thread *Thread, floatingPoint bool) (Registers, error) {
var state C.x86_thread_state64_t
var identity C.thread_identifier_info_data_t
kret := C.get_registers(C.mach_port_name_t(thread.os.threadAct), &state)
if kret != C.KERN_SUCCESS {
return nil, fmt.Errorf("could not get registers")
}
kret = C.get_identity(C.mach_port_name_t(thread.os.threadAct), &identity)
if kret != C.KERN_SUCCESS {
return nil, fmt.Errorf("could not get thread identity informations")
}
/*
thread_identifier_info::thread_handle contains the base of the
thread-specific data area, which on x86 and x86_64 is the threads base
address of the %gs segment. 10.9.2 xnu-2422.90.20/osfmk/kern/thread.c
thread_info_internal() gets the value from
machine_thread::cthread_self, which is the same value used to set the
%gs base in xnu-2422.90.20/osfmk/i386/pcb_native.c
act_machine_switch_pcb().
--
comment copied from chromium's crashpad
https://chromium.googlesource.com/crashpad/crashpad/+/master/snapshot/mac/process_reader.cc
*/
regs := &Regs{
rax: uint64(state.__rax),
rbx: uint64(state.__rbx),
rcx: uint64(state.__rcx),
rdx: uint64(state.__rdx),
rdi: uint64(state.__rdi),
rsi: uint64(state.__rsi),
rbp: uint64(state.__rbp),
rsp: uint64(state.__rsp),
r8: uint64(state.__r8),
r9: uint64(state.__r9),
r10: uint64(state.__r10),
r11: uint64(state.__r11),
r12: uint64(state.__r12),
r13: uint64(state.__r13),
r14: uint64(state.__r14),
r15: uint64(state.__r15),
rip: uint64(state.__rip),
rflags: uint64(state.__rflags),
cs: uint64(state.__cs),
fs: uint64(state.__fs),
gs: uint64(state.__gs),
gsBase: uint64(identity.thread_handle),
}
if floatingPoint {
// https://opensource.apple.com/source/xnu/xnu-792.13.8/osfmk/mach/i386/thread_status.h?txt
var fpstate C.x86_float_state64_t
kret = C.get_fpu_registers(C.mach_port_name_t(thread.os.threadAct), &fpstate)
if kret != C.KERN_SUCCESS {
return nil, fmt.Errorf("could not get floating point registers")
}
regs.fpregs = appendWordReg(regs.fpregs, "CW", *((*uint16)(unsafe.Pointer(&fpstate.__fpu_fcw))))
regs.fpregs = appendWordReg(regs.fpregs, "SW", *((*uint16)(unsafe.Pointer(&fpstate.__fpu_fsw))))
regs.fpregs = appendWordReg(regs.fpregs, "TW", uint16(fpstate.__fpu_ftw))
regs.fpregs = appendWordReg(regs.fpregs, "FOP", uint16(fpstate.__fpu_fop))
regs.fpregs = appendQwordReg(regs.fpregs, "FIP", uint64(fpstate.__fpu_cs)<<32|uint64(fpstate.__fpu_ip))
regs.fpregs = appendQwordReg(regs.fpregs, "FDP", uint64(fpstate.__fpu_ds)<<32|uint64(fpstate.__fpu_dp))
for i, st := range []*C.char{&fpstate.__fpu_stmm0.__mmst_reg[0], &fpstate.__fpu_stmm1.__mmst_reg[0], &fpstate.__fpu_stmm2.__mmst_reg[0], &fpstate.__fpu_stmm3.__mmst_reg[0], &fpstate.__fpu_stmm4.__mmst_reg[0], &fpstate.__fpu_stmm5.__mmst_reg[0], &fpstate.__fpu_stmm6.__mmst_reg[0], &fpstate.__fpu_stmm7.__mmst_reg[0]} {
stb := C.GoBytes(unsafe.Pointer(st), 10)
mantissa := binary.LittleEndian.Uint64(stb[:8])
exponent := binary.LittleEndian.Uint16(stb[8:])
regs.fpregs = appendX87Reg(regs.fpregs, i, exponent, mantissa)
}
regs.fpregs = appendFlagReg(regs.fpregs, "MXCSR", uint64(fpstate.__fpu_mxcsr), mxcsrDescription, 32)
regs.fpregs = appendDwordReg(regs.fpregs, "MXCSR_MASK", uint32(fpstate.__fpu_mxcsrmask))
for i, xmm := range []*C.char{&fpstate.__fpu_xmm0.__xmm_reg[0], &fpstate.__fpu_xmm1.__xmm_reg[0], &fpstate.__fpu_xmm2.__xmm_reg[0], &fpstate.__fpu_xmm3.__xmm_reg[0], &fpstate.__fpu_xmm4.__xmm_reg[0], &fpstate.__fpu_xmm5.__xmm_reg[0], &fpstate.__fpu_xmm6.__xmm_reg[0], &fpstate.__fpu_xmm7.__xmm_reg[0], &fpstate.__fpu_xmm8.__xmm_reg[0], &fpstate.__fpu_xmm9.__xmm_reg[0], &fpstate.__fpu_xmm10.__xmm_reg[0], &fpstate.__fpu_xmm11.__xmm_reg[0], &fpstate.__fpu_xmm12.__xmm_reg[0], &fpstate.__fpu_xmm13.__xmm_reg[0], &fpstate.__fpu_xmm14.__xmm_reg[0], &fpstate.__fpu_xmm15.__xmm_reg[0]} {
regs.fpregs = appendSSEReg(regs.fpregs, fmt.Sprintf("XMM%d", i), C.GoBytes(unsafe.Pointer(xmm), 16))
}
}
return regs, nil
}
func (thread *Thread) saveRegisters() (Registers, error) {
kret := C.get_registers(C.mach_port_name_t(thread.os.threadAct), &thread.os.registers)
if kret != C.KERN_SUCCESS {
return nil, fmt.Errorf("could not save register contents")
}
return &Regs{rip: uint64(thread.os.registers.__rip), rsp: uint64(thread.os.registers.__rsp)}, nil
}
func (thread *Thread) restoreRegisters() error {
kret := C.set_registers(C.mach_port_name_t(thread.os.threadAct), &thread.os.registers)
if kret != C.KERN_SUCCESS {
return fmt.Errorf("could not save register contents")
}
return nil
}