mirror of
https://github.com/cwinfo/matterbridge.git
synced 2024-11-14 16:40:26 +00:00
216 lines
5.2 KiB
Go
216 lines
5.2 KiB
Go
// Copyright 2014 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package armasm
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import (
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"bytes"
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"encoding/binary"
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"fmt"
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"io"
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"strings"
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)
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// GoSyntax returns the Go assembler syntax for the instruction.
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// The syntax was originally defined by Plan 9.
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// The pc is the program counter of the instruction, used for expanding
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// PC-relative addresses into absolute ones.
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// The symname function queries the symbol table for the program
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// being disassembled. Given a target address it returns the name and base
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// address of the symbol containing the target, if any; otherwise it returns "", 0.
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// The reader r should read from the text segment using text addresses
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// as offsets; it is used to display pc-relative loads as constant loads.
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func GoSyntax(inst Inst, pc uint64, symname func(uint64) (string, uint64), text io.ReaderAt) string {
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if symname == nil {
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symname = func(uint64) (string, uint64) { return "", 0 }
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}
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var args []string
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for _, a := range inst.Args {
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if a == nil {
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break
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}
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args = append(args, plan9Arg(&inst, pc, symname, a))
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}
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op := inst.Op.String()
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switch inst.Op &^ 15 {
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case LDR_EQ, LDRB_EQ, LDRH_EQ:
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// Check for RET
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reg, _ := inst.Args[0].(Reg)
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mem, _ := inst.Args[1].(Mem)
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if inst.Op&^15 == LDR_EQ && reg == R15 && mem.Base == SP && mem.Sign == 0 && mem.Mode == AddrPostIndex {
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return fmt.Sprintf("RET%s #%d", op[3:], mem.Offset)
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}
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// Check for PC-relative load.
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if mem.Base == PC && mem.Sign == 0 && mem.Mode == AddrOffset && text != nil {
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addr := uint32(pc) + 8 + uint32(mem.Offset)
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buf := make([]byte, 4)
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switch inst.Op &^ 15 {
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case LDRB_EQ:
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if _, err := text.ReadAt(buf[:1], int64(addr)); err != nil {
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break
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}
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args[1] = fmt.Sprintf("$%#x", buf[0])
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case LDRH_EQ:
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if _, err := text.ReadAt(buf[:2], int64(addr)); err != nil {
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break
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}
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args[1] = fmt.Sprintf("$%#x", binary.LittleEndian.Uint16(buf))
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case LDR_EQ:
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if _, err := text.ReadAt(buf, int64(addr)); err != nil {
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break
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}
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x := binary.LittleEndian.Uint32(buf)
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if s, base := symname(uint64(x)); s != "" && uint64(x) == base {
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args[1] = fmt.Sprintf("$%s(SB)", s)
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} else {
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args[1] = fmt.Sprintf("$%#x", x)
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}
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}
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}
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}
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// Move addressing mode into opcode suffix.
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suffix := ""
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switch inst.Op &^ 15 {
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case LDR_EQ, LDRB_EQ, LDRH_EQ, STR_EQ, STRB_EQ, STRH_EQ:
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mem, _ := inst.Args[1].(Mem)
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switch mem.Mode {
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case AddrOffset, AddrLDM:
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// no suffix
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case AddrPreIndex, AddrLDM_WB:
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suffix = ".W"
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case AddrPostIndex:
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suffix = ".P"
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}
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off := ""
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if mem.Offset != 0 {
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off = fmt.Sprintf("%#x", mem.Offset)
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}
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base := fmt.Sprintf("(R%d)", int(mem.Base))
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index := ""
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if mem.Sign != 0 {
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sign := ""
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if mem.Sign < 0 {
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sign = ""
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}
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shift := ""
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if mem.Count != 0 {
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shift = fmt.Sprintf("%s%d", plan9Shift[mem.Shift], mem.Count)
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}
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index = fmt.Sprintf("(%sR%d%s)", sign, int(mem.Index), shift)
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}
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args[1] = off + base + index
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}
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// Reverse args, placing dest last.
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for i, j := 0, len(args)-1; i < j; i, j = i+1, j-1 {
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args[i], args[j] = args[j], args[i]
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}
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switch inst.Op &^ 15 {
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case MOV_EQ:
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op = "MOVW" + op[3:]
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case LDR_EQ:
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op = "MOVW" + op[3:] + suffix
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case LDRB_EQ:
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op = "MOVB" + op[4:] + suffix
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case LDRH_EQ:
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op = "MOVH" + op[4:] + suffix
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case STR_EQ:
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op = "MOVW" + op[3:] + suffix
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args[0], args[1] = args[1], args[0]
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case STRB_EQ:
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op = "MOVB" + op[4:] + suffix
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args[0], args[1] = args[1], args[0]
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case STRH_EQ:
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op = "MOVH" + op[4:] + suffix
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args[0], args[1] = args[1], args[0]
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}
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if args != nil {
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op += " " + strings.Join(args, ", ")
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}
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return op
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}
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// assembler syntax for the various shifts.
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// @x> is a lie; the assembler uses @> 0
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// instead of @x> 1, but i wanted to be clear that it
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// was a different operation (rotate right extended, not rotate right).
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var plan9Shift = []string{"<<", ">>", "->", "@>", "@x>"}
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func plan9Arg(inst *Inst, pc uint64, symname func(uint64) (string, uint64), arg Arg) string {
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switch a := arg.(type) {
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case Endian:
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case Imm:
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return fmt.Sprintf("$%d", int(a))
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case Mem:
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case PCRel:
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addr := uint32(pc) + 8 + uint32(a)
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if s, base := symname(uint64(addr)); s != "" && uint64(addr) == base {
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return fmt.Sprintf("%s(SB)", s)
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}
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return fmt.Sprintf("%#x", addr)
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case Reg:
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if a < 16 {
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return fmt.Sprintf("R%d", int(a))
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}
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case RegList:
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var buf bytes.Buffer
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start := -2
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end := -2
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fmt.Fprintf(&buf, "[")
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flush := func() {
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if start >= 0 {
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if buf.Len() > 1 {
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fmt.Fprintf(&buf, ",")
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}
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if start == end {
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fmt.Fprintf(&buf, "R%d", start)
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} else {
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fmt.Fprintf(&buf, "R%d-R%d", start, end)
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}
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start = -2
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end = -2
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}
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}
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for i := 0; i < 16; i++ {
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if a&(1<<uint(i)) != 0 {
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if i == end+1 {
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end++
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continue
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}
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start = i
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end = i
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} else {
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flush()
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}
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}
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flush()
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fmt.Fprintf(&buf, "]")
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return buf.String()
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case RegShift:
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return fmt.Sprintf("R%d%s$%d", int(a.Reg), plan9Shift[a.Shift], int(a.Count))
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case RegShiftReg:
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return fmt.Sprintf("R%d%sR%d", int(a.Reg), plan9Shift[a.Shift], int(a.RegCount))
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}
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return strings.ToUpper(arg.String())
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}
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