// TODO: disassembler support should be compiled in unconditionally, // instead of being decided by the build-target architecture, and be // part of the Arch object instead. package proc import ( "github.com/go-delve/delve/pkg/dwarf/op" "github.com/go-delve/delve/pkg/dwarf/regnum" "golang.org/x/arch/x86/x86asm" ) func amd64AsmDecode(asmInst *AsmInstruction, mem []byte, regs *op.DwarfRegisters, memrw MemoryReadWriter, bi *BinaryInfo) error { return x86AsmDecode(asmInst, mem, regs, memrw, bi, 64) } // Possible stacksplit prologues are inserted by stacksplit in // $GOROOT/src/cmd/internal/obj/x86/obj6.go. // The stacksplit prologue will always begin with loading curg in CX, this // instruction is added by load_g_cx in the same file and is either 1 or 2 // MOVs. var prologuesAMD64 []opcodeSeq func init() { var tinyStacksplit = opcodeSeq{uint64(x86asm.CMP), uint64(x86asm.JBE)} var smallStacksplit = opcodeSeq{uint64(x86asm.LEA), uint64(x86asm.CMP), uint64(x86asm.JBE)} var bigStacksplit = opcodeSeq{uint64(x86asm.MOV), uint64(x86asm.CMP), uint64(x86asm.JE), uint64(x86asm.LEA), uint64(x86asm.SUB), uint64(x86asm.CMP), uint64(x86asm.JBE)} var unixGetG = opcodeSeq{uint64(x86asm.MOV)} var windowsGetG = opcodeSeq{uint64(x86asm.MOV), uint64(x86asm.MOV)} prologuesAMD64 = make([]opcodeSeq, 0, 2*3) for _, getG := range []opcodeSeq{unixGetG, windowsGetG} { for _, stacksplit := range []opcodeSeq{tinyStacksplit, smallStacksplit, bigStacksplit} { prologue := make(opcodeSeq, 0, len(getG)+len(stacksplit)) prologue = append(prologue, getG...) prologue = append(prologue, stacksplit...) prologuesAMD64 = append(prologuesAMD64, prologue) } } } var amd64AsmRegisters = map[int]asmRegister{ // 8-bit int(x86asm.AL): asmRegister{regnum.AMD64_Rax, 0, mask8}, int(x86asm.CL): asmRegister{regnum.AMD64_Rcx, 0, mask8}, int(x86asm.DL): asmRegister{regnum.AMD64_Rdx, 0, mask8}, int(x86asm.BL): asmRegister{regnum.AMD64_Rbx, 0, mask8}, int(x86asm.AH): asmRegister{regnum.AMD64_Rax, 8, mask8}, int(x86asm.CH): asmRegister{regnum.AMD64_Rcx, 8, mask8}, int(x86asm.DH): asmRegister{regnum.AMD64_Rdx, 8, mask8}, int(x86asm.BH): asmRegister{regnum.AMD64_Rbx, 8, mask8}, int(x86asm.SPB): asmRegister{regnum.AMD64_Rsp, 0, mask8}, int(x86asm.BPB): asmRegister{regnum.AMD64_Rbp, 0, mask8}, int(x86asm.SIB): asmRegister{regnum.AMD64_Rsi, 0, mask8}, int(x86asm.DIB): asmRegister{regnum.AMD64_Rdi, 0, mask8}, int(x86asm.R8B): asmRegister{regnum.AMD64_R8, 0, mask8}, int(x86asm.R9B): asmRegister{regnum.AMD64_R9, 0, mask8}, int(x86asm.R10B): asmRegister{regnum.AMD64_R10, 0, mask8}, int(x86asm.R11B): asmRegister{regnum.AMD64_R11, 0, mask8}, int(x86asm.R12B): asmRegister{regnum.AMD64_R12, 0, mask8}, int(x86asm.R13B): asmRegister{regnum.AMD64_R13, 0, mask8}, int(x86asm.R14B): asmRegister{regnum.AMD64_R14, 0, mask8}, int(x86asm.R15B): asmRegister{regnum.AMD64_R15, 0, mask8}, // 16-bit int(x86asm.AX): asmRegister{regnum.AMD64_Rax, 0, mask16}, int(x86asm.CX): asmRegister{regnum.AMD64_Rcx, 0, mask16}, int(x86asm.DX): asmRegister{regnum.AMD64_Rdx, 0, mask16}, int(x86asm.BX): asmRegister{regnum.AMD64_Rbx, 0, mask16}, int(x86asm.SP): asmRegister{regnum.AMD64_Rsp, 0, mask16}, int(x86asm.BP): asmRegister{regnum.AMD64_Rbp, 0, mask16}, int(x86asm.SI): asmRegister{regnum.AMD64_Rsi, 0, mask16}, int(x86asm.DI): asmRegister{regnum.AMD64_Rdi, 0, mask16}, int(x86asm.R8W): asmRegister{regnum.AMD64_R8, 0, mask16}, int(x86asm.R9W): asmRegister{regnum.AMD64_R9, 0, mask16}, int(x86asm.R10W): asmRegister{regnum.AMD64_R10, 0, mask16}, int(x86asm.R11W): asmRegister{regnum.AMD64_R11, 0, mask16}, int(x86asm.R12W): asmRegister{regnum.AMD64_R12, 0, mask16}, int(x86asm.R13W): asmRegister{regnum.AMD64_R13, 0, mask16}, int(x86asm.R14W): asmRegister{regnum.AMD64_R14, 0, mask16}, int(x86asm.R15W): asmRegister{regnum.AMD64_R15, 0, mask16}, // 32-bit int(x86asm.EAX): asmRegister{regnum.AMD64_Rax, 0, mask32}, int(x86asm.ECX): asmRegister{regnum.AMD64_Rcx, 0, mask32}, int(x86asm.EDX): asmRegister{regnum.AMD64_Rdx, 0, mask32}, int(x86asm.EBX): asmRegister{regnum.AMD64_Rbx, 0, mask32}, int(x86asm.ESP): asmRegister{regnum.AMD64_Rsp, 0, mask32}, int(x86asm.EBP): asmRegister{regnum.AMD64_Rbp, 0, mask32}, int(x86asm.ESI): asmRegister{regnum.AMD64_Rsi, 0, mask32}, int(x86asm.EDI): asmRegister{regnum.AMD64_Rdi, 0, mask32}, int(x86asm.R8L): asmRegister{regnum.AMD64_R8, 0, mask32}, int(x86asm.R9L): asmRegister{regnum.AMD64_R9, 0, mask32}, int(x86asm.R10L): asmRegister{regnum.AMD64_R10, 0, mask32}, int(x86asm.R11L): asmRegister{regnum.AMD64_R11, 0, mask32}, int(x86asm.R12L): asmRegister{regnum.AMD64_R12, 0, mask32}, int(x86asm.R13L): asmRegister{regnum.AMD64_R13, 0, mask32}, int(x86asm.R14L): asmRegister{regnum.AMD64_R14, 0, mask32}, int(x86asm.R15L): asmRegister{regnum.AMD64_R15, 0, mask32}, // 64-bit int(x86asm.RAX): asmRegister{regnum.AMD64_Rax, 0, 0}, int(x86asm.RCX): asmRegister{regnum.AMD64_Rcx, 0, 0}, int(x86asm.RDX): asmRegister{regnum.AMD64_Rdx, 0, 0}, int(x86asm.RBX): asmRegister{regnum.AMD64_Rbx, 0, 0}, int(x86asm.RSP): asmRegister{regnum.AMD64_Rsp, 0, 0}, int(x86asm.RBP): asmRegister{regnum.AMD64_Rbp, 0, 0}, int(x86asm.RSI): asmRegister{regnum.AMD64_Rsi, 0, 0}, int(x86asm.RDI): asmRegister{regnum.AMD64_Rdi, 0, 0}, int(x86asm.R8): asmRegister{regnum.AMD64_R8, 0, 0}, int(x86asm.R9): asmRegister{regnum.AMD64_R9, 0, 0}, int(x86asm.R10): asmRegister{regnum.AMD64_R10, 0, 0}, int(x86asm.R11): asmRegister{regnum.AMD64_R11, 0, 0}, int(x86asm.R12): asmRegister{regnum.AMD64_R12, 0, 0}, int(x86asm.R13): asmRegister{regnum.AMD64_R13, 0, 0}, int(x86asm.R14): asmRegister{regnum.AMD64_R14, 0, 0}, int(x86asm.R15): asmRegister{regnum.AMD64_R15, 0, 0}, }