mirror of
https://codeberg.org/superseriousbusiness/gotosocial.git
synced 2024-12-30 12:58:16 +03:00
772 lines
24 KiB
Go
772 lines
24 KiB
Go
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// Derived from Inferno utils/6l/l.h and related files.
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// https://bitbucket.org/inferno-os/inferno-os/src/master/utils/6l/l.h
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//
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// Copyright © 1994-1999 Lucent Technologies Inc. All rights reserved.
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// Portions Copyright © 1995-1997 C H Forsyth (forsyth@terzarima.net)
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// Portions Copyright © 1997-1999 Vita Nuova Limited
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// Portions Copyright © 2000-2007 Vita Nuova Holdings Limited (www.vitanuova.com)
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// Portions Copyright © 2004,2006 Bruce Ellis
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// Portions Copyright © 2005-2007 C H Forsyth (forsyth@terzarima.net)
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// Revisions Copyright © 2000-2007 Lucent Technologies Inc. and others
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// Portions Copyright © 2009 The Go Authors. All rights reserved.
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//
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// Permission is hereby granted, free of charge, to any person obtaining a copy
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// of this software and associated documentation files (the "Software"), to deal
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// in the Software without restriction, including without limitation the rights
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// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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// copies of the Software, and to permit persons to whom the Software is
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// furnished to do so, subject to the following conditions:
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//
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// The above copyright notice and this permission notice shall be included in
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// all copies or substantial portions of the Software.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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// THE SOFTWARE.
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package obj
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import (
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"bufio"
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"github.com/twitchyliquid64/golang-asm/dwarf"
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"github.com/twitchyliquid64/golang-asm/goobj"
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"github.com/twitchyliquid64/golang-asm/objabi"
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"github.com/twitchyliquid64/golang-asm/src"
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"github.com/twitchyliquid64/golang-asm/sys"
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"fmt"
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"sync"
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)
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// An Addr is an argument to an instruction.
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// The general forms and their encodings are:
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//
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// sym±offset(symkind)(reg)(index*scale)
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// Memory reference at address &sym(symkind) + offset + reg + index*scale.
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// Any of sym(symkind), ±offset, (reg), (index*scale), and *scale can be omitted.
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// If (reg) and *scale are both omitted, the resulting expression (index) is parsed as (reg).
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// To force a parsing as index*scale, write (index*1).
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// Encoding:
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// type = TYPE_MEM
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// name = symkind (NAME_AUTO, ...) or 0 (NAME_NONE)
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// sym = sym
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// offset = ±offset
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// reg = reg (REG_*)
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// index = index (REG_*)
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// scale = scale (1, 2, 4, 8)
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//
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// $<mem>
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// Effective address of memory reference <mem>, defined above.
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// Encoding: same as memory reference, but type = TYPE_ADDR.
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//
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// $<±integer value>
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// This is a special case of $<mem>, in which only ±offset is present.
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// It has a separate type for easy recognition.
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// Encoding:
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// type = TYPE_CONST
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// offset = ±integer value
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//
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// *<mem>
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// Indirect reference through memory reference <mem>, defined above.
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// Only used on x86 for CALL/JMP *sym(SB), which calls/jumps to a function
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// pointer stored in the data word sym(SB), not a function named sym(SB).
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// Encoding: same as above, but type = TYPE_INDIR.
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//
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// $*$<mem>
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// No longer used.
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// On machines with actual SB registers, $*$<mem> forced the
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// instruction encoding to use a full 32-bit constant, never a
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// reference relative to SB.
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//
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// $<floating point literal>
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// Floating point constant value.
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// Encoding:
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// type = TYPE_FCONST
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// val = floating point value
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//
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// $<string literal, up to 8 chars>
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// String literal value (raw bytes used for DATA instruction).
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// Encoding:
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// type = TYPE_SCONST
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// val = string
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//
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// <register name>
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// Any register: integer, floating point, control, segment, and so on.
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// If looking for specific register kind, must check type and reg value range.
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// Encoding:
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// type = TYPE_REG
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// reg = reg (REG_*)
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//
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// x(PC)
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// Encoding:
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// type = TYPE_BRANCH
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// val = Prog* reference OR ELSE offset = target pc (branch takes priority)
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//
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// $±x-±y
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// Final argument to TEXT, specifying local frame size x and argument size y.
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// In this form, x and y are integer literals only, not arbitrary expressions.
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// This avoids parsing ambiguities due to the use of - as a separator.
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// The ± are optional.
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// If the final argument to TEXT omits the -±y, the encoding should still
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// use TYPE_TEXTSIZE (not TYPE_CONST), with u.argsize = ArgsSizeUnknown.
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// Encoding:
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// type = TYPE_TEXTSIZE
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// offset = x
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// val = int32(y)
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//
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// reg<<shift, reg>>shift, reg->shift, reg@>shift
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// Shifted register value, for ARM and ARM64.
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// In this form, reg must be a register and shift can be a register or an integer constant.
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// Encoding:
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// type = TYPE_SHIFT
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// On ARM:
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// offset = (reg&15) | shifttype<<5 | count
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// shifttype = 0, 1, 2, 3 for <<, >>, ->, @>
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// count = (reg&15)<<8 | 1<<4 for a register shift count, (n&31)<<7 for an integer constant.
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// On ARM64:
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// offset = (reg&31)<<16 | shifttype<<22 | (count&63)<<10
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// shifttype = 0, 1, 2 for <<, >>, ->
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//
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// (reg, reg)
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// A destination register pair. When used as the last argument of an instruction,
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// this form makes clear that both registers are destinations.
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// Encoding:
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// type = TYPE_REGREG
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// reg = first register
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// offset = second register
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//
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// [reg, reg, reg-reg]
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// Register list for ARM, ARM64, 386/AMD64.
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// Encoding:
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// type = TYPE_REGLIST
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// On ARM:
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// offset = bit mask of registers in list; R0 is low bit.
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// On ARM64:
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// offset = register count (Q:size) | arrangement (opcode) | first register
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// On 386/AMD64:
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// reg = range low register
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// offset = 2 packed registers + kind tag (see x86.EncodeRegisterRange)
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//
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// reg, reg
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// Register pair for ARM.
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// TYPE_REGREG2
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//
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// (reg+reg)
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// Register pair for PPC64.
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// Encoding:
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// type = TYPE_MEM
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// reg = first register
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// index = second register
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// scale = 1
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//
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// reg.[US]XT[BHWX]
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// Register extension for ARM64
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// Encoding:
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// type = TYPE_REG
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// reg = REG_[US]XT[BHWX] + register + shift amount
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// offset = ((reg&31) << 16) | (exttype << 13) | (amount<<10)
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//
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// reg.<T>
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// Register arrangement for ARM64 SIMD register
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// e.g.: V1.S4, V2.S2, V7.D2, V2.H4, V6.B16
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// Encoding:
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// type = TYPE_REG
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// reg = REG_ARNG + register + arrangement
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//
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// reg.<T>[index]
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// Register element for ARM64
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// Encoding:
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// type = TYPE_REG
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// reg = REG_ELEM + register + arrangement
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// index = element index
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type Addr struct {
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Reg int16
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Index int16
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Scale int16 // Sometimes holds a register.
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Type AddrType
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Name AddrName
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Class int8
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Offset int64
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Sym *LSym
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// argument value:
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// for TYPE_SCONST, a string
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// for TYPE_FCONST, a float64
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// for TYPE_BRANCH, a *Prog (optional)
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// for TYPE_TEXTSIZE, an int32 (optional)
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Val interface{}
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}
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type AddrName int8
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const (
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NAME_NONE AddrName = iota
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NAME_EXTERN
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NAME_STATIC
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NAME_AUTO
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NAME_PARAM
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// A reference to name@GOT(SB) is a reference to the entry in the global offset
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// table for 'name'.
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NAME_GOTREF
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// Indicates that this is a reference to a TOC anchor.
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NAME_TOCREF
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)
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//go:generate stringer -type AddrType
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type AddrType uint8
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const (
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TYPE_NONE AddrType = iota
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TYPE_BRANCH
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TYPE_TEXTSIZE
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TYPE_MEM
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TYPE_CONST
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TYPE_FCONST
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TYPE_SCONST
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TYPE_REG
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TYPE_ADDR
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TYPE_SHIFT
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TYPE_REGREG
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TYPE_REGREG2
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TYPE_INDIR
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TYPE_REGLIST
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)
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func (a *Addr) Target() *Prog {
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if a.Type == TYPE_BRANCH && a.Val != nil {
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return a.Val.(*Prog)
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}
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return nil
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}
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func (a *Addr) SetTarget(t *Prog) {
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if a.Type != TYPE_BRANCH {
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panic("setting branch target when type is not TYPE_BRANCH")
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}
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a.Val = t
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}
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// Prog describes a single machine instruction.
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//
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// The general instruction form is:
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//
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// (1) As.Scond From [, ...RestArgs], To
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// (2) As.Scond From, Reg [, ...RestArgs], To, RegTo2
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//
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// where As is an opcode and the others are arguments:
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// From, Reg are sources, and To, RegTo2 are destinations.
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// RestArgs can hold additional sources and destinations.
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// Usually, not all arguments are present.
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// For example, MOVL R1, R2 encodes using only As=MOVL, From=R1, To=R2.
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// The Scond field holds additional condition bits for systems (like arm)
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// that have generalized conditional execution.
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// (2) form is present for compatibility with older code,
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// to avoid too much changes in a single swing.
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// (1) scheme is enough to express any kind of operand combination.
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//
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// Jump instructions use the To.Val field to point to the target *Prog,
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// which must be in the same linked list as the jump instruction.
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//
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// The Progs for a given function are arranged in a list linked through the Link field.
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//
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// Each Prog is charged to a specific source line in the debug information,
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// specified by Pos.Line().
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// Every Prog has a Ctxt field that defines its context.
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// For performance reasons, Progs usually are usually bulk allocated, cached, and reused;
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// those bulk allocators should always be used, rather than new(Prog).
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//
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// The other fields not yet mentioned are for use by the back ends and should
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// be left zeroed by creators of Prog lists.
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type Prog struct {
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Ctxt *Link // linker context
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Link *Prog // next Prog in linked list
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From Addr // first source operand
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RestArgs []Addr // can pack any operands that not fit into {Prog.From, Prog.To}
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To Addr // destination operand (second is RegTo2 below)
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Pool *Prog // constant pool entry, for arm,arm64 back ends
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Forwd *Prog // for x86 back end
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Rel *Prog // for x86, arm back ends
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Pc int64 // for back ends or assembler: virtual or actual program counter, depending on phase
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Pos src.XPos // source position of this instruction
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Spadj int32 // effect of instruction on stack pointer (increment or decrement amount)
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As As // assembler opcode
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Reg int16 // 2nd source operand
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RegTo2 int16 // 2nd destination operand
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Mark uint16 // bitmask of arch-specific items
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Optab uint16 // arch-specific opcode index
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Scond uint8 // bits that describe instruction suffixes (e.g. ARM conditions)
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Back uint8 // for x86 back end: backwards branch state
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Ft uint8 // for x86 back end: type index of Prog.From
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Tt uint8 // for x86 back end: type index of Prog.To
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Isize uint8 // for x86 back end: size of the instruction in bytes
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}
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// From3Type returns p.GetFrom3().Type, or TYPE_NONE when
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// p.GetFrom3() returns nil.
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//
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// Deprecated: for the same reasons as Prog.GetFrom3.
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func (p *Prog) From3Type() AddrType {
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if p.RestArgs == nil {
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return TYPE_NONE
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}
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return p.RestArgs[0].Type
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}
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// GetFrom3 returns second source operand (the first is Prog.From).
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// In combination with Prog.From and Prog.To it makes common 3 operand
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// case easier to use.
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//
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// Should be used only when RestArgs is set with SetFrom3.
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//
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// Deprecated: better use RestArgs directly or define backend-specific getters.
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// Introduced to simplify transition to []Addr.
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// Usage of this is discouraged due to fragility and lack of guarantees.
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func (p *Prog) GetFrom3() *Addr {
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if p.RestArgs == nil {
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return nil
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}
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return &p.RestArgs[0]
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}
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// SetFrom3 assigns []Addr{a} to p.RestArgs.
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// In pair with Prog.GetFrom3 it can help in emulation of Prog.From3.
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//
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// Deprecated: for the same reasons as Prog.GetFrom3.
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func (p *Prog) SetFrom3(a Addr) {
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p.RestArgs = []Addr{a}
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}
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// An As denotes an assembler opcode.
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// There are some portable opcodes, declared here in package obj,
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// that are common to all architectures.
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// However, the majority of opcodes are arch-specific
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// and are declared in their respective architecture's subpackage.
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type As int16
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// These are the portable opcodes.
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const (
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AXXX As = iota
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ACALL
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ADUFFCOPY
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ADUFFZERO
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AEND
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AFUNCDATA
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AJMP
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ANOP
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APCALIGN
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APCDATA
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ARET
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AGETCALLERPC
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ATEXT
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AUNDEF
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A_ARCHSPECIFIC
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)
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// Each architecture is allotted a distinct subspace of opcode values
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// for declaring its arch-specific opcodes.
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// Within this subspace, the first arch-specific opcode should be
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// at offset A_ARCHSPECIFIC.
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//
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// Subspaces are aligned to a power of two so opcodes can be masked
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// with AMask and used as compact array indices.
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const (
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ABase386 = (1 + iota) << 11
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ABaseARM
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ABaseAMD64
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ABasePPC64
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ABaseARM64
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ABaseMIPS
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ABaseRISCV
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ABaseS390X
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ABaseWasm
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AllowedOpCodes = 1 << 11 // The number of opcodes available for any given architecture.
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AMask = AllowedOpCodes - 1 // AND with this to use the opcode as an array index.
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)
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// An LSym is the sort of symbol that is written to an object file.
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// It represents Go symbols in a flat pkg+"."+name namespace.
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type LSym struct {
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Name string
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Type objabi.SymKind
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Attribute
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RefIdx int // Index of this symbol in the symbol reference list.
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Size int64
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Gotype *LSym
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P []byte
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R []Reloc
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Func *FuncInfo
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Pkg string
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PkgIdx int32
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SymIdx int32 // TODO: replace RefIdx
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}
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// A FuncInfo contains extra fields for STEXT symbols.
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type FuncInfo struct {
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Args int32
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Locals int32
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Align int32
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FuncID objabi.FuncID
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Text *Prog
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Autot map[*LSym]struct{}
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Pcln Pcln
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InlMarks []InlMark
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|
dwarfInfoSym *LSym
|
||
|
dwarfLocSym *LSym
|
||
|
dwarfRangesSym *LSym
|
||
|
dwarfAbsFnSym *LSym
|
||
|
dwarfDebugLinesSym *LSym
|
||
|
|
||
|
GCArgs *LSym
|
||
|
GCLocals *LSym
|
||
|
GCRegs *LSym // Only if !go115ReduceLiveness
|
||
|
StackObjects *LSym
|
||
|
OpenCodedDeferInfo *LSym
|
||
|
|
||
|
FuncInfoSym *LSym
|
||
|
}
|
||
|
|
||
|
type InlMark struct {
|
||
|
// When unwinding from an instruction in an inlined body, mark
|
||
|
// where we should unwind to.
|
||
|
// id records the global inlining id of the inlined body.
|
||
|
// p records the location of an instruction in the parent (inliner) frame.
|
||
|
p *Prog
|
||
|
id int32
|
||
|
}
|
||
|
|
||
|
// Mark p as the instruction to set as the pc when
|
||
|
// "unwinding" the inlining global frame id. Usually it should be
|
||
|
// instruction with a file:line at the callsite, and occur
|
||
|
// just before the body of the inlined function.
|
||
|
func (fi *FuncInfo) AddInlMark(p *Prog, id int32) {
|
||
|
fi.InlMarks = append(fi.InlMarks, InlMark{p: p, id: id})
|
||
|
}
|
||
|
|
||
|
// Record the type symbol for an auto variable so that the linker
|
||
|
// an emit DWARF type information for the type.
|
||
|
func (fi *FuncInfo) RecordAutoType(gotype *LSym) {
|
||
|
if fi.Autot == nil {
|
||
|
fi.Autot = make(map[*LSym]struct{})
|
||
|
}
|
||
|
fi.Autot[gotype] = struct{}{}
|
||
|
}
|
||
|
|
||
|
//go:generate stringer -type ABI
|
||
|
|
||
|
// ABI is the calling convention of a text symbol.
|
||
|
type ABI uint8
|
||
|
|
||
|
const (
|
||
|
// ABI0 is the stable stack-based ABI. It's important that the
|
||
|
// value of this is "0": we can't distinguish between
|
||
|
// references to data and ABI0 text symbols in assembly code,
|
||
|
// and hence this doesn't distinguish between symbols without
|
||
|
// an ABI and text symbols with ABI0.
|
||
|
ABI0 ABI = iota
|
||
|
|
||
|
// ABIInternal is the internal ABI that may change between Go
|
||
|
// versions. All Go functions use the internal ABI and the
|
||
|
// compiler generates wrappers for calls to and from other
|
||
|
// ABIs.
|
||
|
ABIInternal
|
||
|
|
||
|
ABICount
|
||
|
)
|
||
|
|
||
|
// Attribute is a set of symbol attributes.
|
||
|
type Attribute uint32
|
||
|
|
||
|
const (
|
||
|
AttrDuplicateOK Attribute = 1 << iota
|
||
|
AttrCFunc
|
||
|
AttrNoSplit
|
||
|
AttrLeaf
|
||
|
AttrWrapper
|
||
|
AttrNeedCtxt
|
||
|
AttrNoFrame
|
||
|
AttrOnList
|
||
|
AttrStatic
|
||
|
|
||
|
// MakeTypelink means that the type should have an entry in the typelink table.
|
||
|
AttrMakeTypelink
|
||
|
|
||
|
// ReflectMethod means the function may call reflect.Type.Method or
|
||
|
// reflect.Type.MethodByName. Matching is imprecise (as reflect.Type
|
||
|
// can be used through a custom interface), so ReflectMethod may be
|
||
|
// set in some cases when the reflect package is not called.
|
||
|
//
|
||
|
// Used by the linker to determine what methods can be pruned.
|
||
|
AttrReflectMethod
|
||
|
|
||
|
// Local means make the symbol local even when compiling Go code to reference Go
|
||
|
// symbols in other shared libraries, as in this mode symbols are global by
|
||
|
// default. "local" here means in the sense of the dynamic linker, i.e. not
|
||
|
// visible outside of the module (shared library or executable) that contains its
|
||
|
// definition. (When not compiling to support Go shared libraries, all symbols are
|
||
|
// local in this sense unless there is a cgo_export_* directive).
|
||
|
AttrLocal
|
||
|
|
||
|
// For function symbols; indicates that the specified function was the
|
||
|
// target of an inline during compilation
|
||
|
AttrWasInlined
|
||
|
|
||
|
// TopFrame means that this function is an entry point and unwinders should not
|
||
|
// keep unwinding beyond this frame.
|
||
|
AttrTopFrame
|
||
|
|
||
|
// Indexed indicates this symbol has been assigned with an index (when using the
|
||
|
// new object file format).
|
||
|
AttrIndexed
|
||
|
|
||
|
// Only applied on type descriptor symbols, UsedInIface indicates this type is
|
||
|
// converted to an interface.
|
||
|
//
|
||
|
// Used by the linker to determine what methods can be pruned.
|
||
|
AttrUsedInIface
|
||
|
|
||
|
// ContentAddressable indicates this is a content-addressable symbol.
|
||
|
AttrContentAddressable
|
||
|
|
||
|
// attrABIBase is the value at which the ABI is encoded in
|
||
|
// Attribute. This must be last; all bits after this are
|
||
|
// assumed to be an ABI value.
|
||
|
//
|
||
|
// MUST BE LAST since all bits above this comprise the ABI.
|
||
|
attrABIBase
|
||
|
)
|
||
|
|
||
|
func (a Attribute) DuplicateOK() bool { return a&AttrDuplicateOK != 0 }
|
||
|
func (a Attribute) MakeTypelink() bool { return a&AttrMakeTypelink != 0 }
|
||
|
func (a Attribute) CFunc() bool { return a&AttrCFunc != 0 }
|
||
|
func (a Attribute) NoSplit() bool { return a&AttrNoSplit != 0 }
|
||
|
func (a Attribute) Leaf() bool { return a&AttrLeaf != 0 }
|
||
|
func (a Attribute) OnList() bool { return a&AttrOnList != 0 }
|
||
|
func (a Attribute) ReflectMethod() bool { return a&AttrReflectMethod != 0 }
|
||
|
func (a Attribute) Local() bool { return a&AttrLocal != 0 }
|
||
|
func (a Attribute) Wrapper() bool { return a&AttrWrapper != 0 }
|
||
|
func (a Attribute) NeedCtxt() bool { return a&AttrNeedCtxt != 0 }
|
||
|
func (a Attribute) NoFrame() bool { return a&AttrNoFrame != 0 }
|
||
|
func (a Attribute) Static() bool { return a&AttrStatic != 0 }
|
||
|
func (a Attribute) WasInlined() bool { return a&AttrWasInlined != 0 }
|
||
|
func (a Attribute) TopFrame() bool { return a&AttrTopFrame != 0 }
|
||
|
func (a Attribute) Indexed() bool { return a&AttrIndexed != 0 }
|
||
|
func (a Attribute) UsedInIface() bool { return a&AttrUsedInIface != 0 }
|
||
|
func (a Attribute) ContentAddressable() bool { return a&AttrContentAddressable != 0 }
|
||
|
|
||
|
func (a *Attribute) Set(flag Attribute, value bool) {
|
||
|
if value {
|
||
|
*a |= flag
|
||
|
} else {
|
||
|
*a &^= flag
|
||
|
}
|
||
|
}
|
||
|
|
||
|
func (a Attribute) ABI() ABI { return ABI(a / attrABIBase) }
|
||
|
func (a *Attribute) SetABI(abi ABI) {
|
||
|
const mask = 1 // Only one ABI bit for now.
|
||
|
*a = (*a &^ (mask * attrABIBase)) | Attribute(abi)*attrABIBase
|
||
|
}
|
||
|
|
||
|
var textAttrStrings = [...]struct {
|
||
|
bit Attribute
|
||
|
s string
|
||
|
}{
|
||
|
{bit: AttrDuplicateOK, s: "DUPOK"},
|
||
|
{bit: AttrMakeTypelink, s: ""},
|
||
|
{bit: AttrCFunc, s: "CFUNC"},
|
||
|
{bit: AttrNoSplit, s: "NOSPLIT"},
|
||
|
{bit: AttrLeaf, s: "LEAF"},
|
||
|
{bit: AttrOnList, s: ""},
|
||
|
{bit: AttrReflectMethod, s: "REFLECTMETHOD"},
|
||
|
{bit: AttrLocal, s: "LOCAL"},
|
||
|
{bit: AttrWrapper, s: "WRAPPER"},
|
||
|
{bit: AttrNeedCtxt, s: "NEEDCTXT"},
|
||
|
{bit: AttrNoFrame, s: "NOFRAME"},
|
||
|
{bit: AttrStatic, s: "STATIC"},
|
||
|
{bit: AttrWasInlined, s: ""},
|
||
|
{bit: AttrTopFrame, s: "TOPFRAME"},
|
||
|
{bit: AttrIndexed, s: ""},
|
||
|
{bit: AttrContentAddressable, s: ""},
|
||
|
}
|
||
|
|
||
|
// TextAttrString formats a for printing in as part of a TEXT prog.
|
||
|
func (a Attribute) TextAttrString() string {
|
||
|
var s string
|
||
|
for _, x := range textAttrStrings {
|
||
|
if a&x.bit != 0 {
|
||
|
if x.s != "" {
|
||
|
s += x.s + "|"
|
||
|
}
|
||
|
a &^= x.bit
|
||
|
}
|
||
|
}
|
||
|
switch a.ABI() {
|
||
|
case ABI0:
|
||
|
case ABIInternal:
|
||
|
s += "ABIInternal|"
|
||
|
a.SetABI(0) // Clear ABI so we don't print below.
|
||
|
}
|
||
|
if a != 0 {
|
||
|
s += fmt.Sprintf("UnknownAttribute(%d)|", a)
|
||
|
}
|
||
|
// Chop off trailing |, if present.
|
||
|
if len(s) > 0 {
|
||
|
s = s[:len(s)-1]
|
||
|
}
|
||
|
return s
|
||
|
}
|
||
|
|
||
|
func (s *LSym) String() string {
|
||
|
return s.Name
|
||
|
}
|
||
|
|
||
|
// The compiler needs *LSym to be assignable to cmd/compile/internal/ssa.Sym.
|
||
|
func (s *LSym) CanBeAnSSASym() {
|
||
|
}
|
||
|
|
||
|
type Pcln struct {
|
||
|
Pcsp Pcdata
|
||
|
Pcfile Pcdata
|
||
|
Pcline Pcdata
|
||
|
Pcinline Pcdata
|
||
|
Pcdata []Pcdata
|
||
|
Funcdata []*LSym
|
||
|
Funcdataoff []int64
|
||
|
UsedFiles map[goobj.CUFileIndex]struct{} // file indices used while generating pcfile
|
||
|
InlTree InlTree // per-function inlining tree extracted from the global tree
|
||
|
}
|
||
|
|
||
|
type Reloc struct {
|
||
|
Off int32
|
||
|
Siz uint8
|
||
|
Type objabi.RelocType
|
||
|
Add int64
|
||
|
Sym *LSym
|
||
|
}
|
||
|
|
||
|
type Auto struct {
|
||
|
Asym *LSym
|
||
|
Aoffset int32
|
||
|
Name AddrName
|
||
|
Gotype *LSym
|
||
|
}
|
||
|
|
||
|
type Pcdata struct {
|
||
|
P []byte
|
||
|
}
|
||
|
|
||
|
// Link holds the context for writing object code from a compiler
|
||
|
// to be linker input or for reading that input into the linker.
|
||
|
type Link struct {
|
||
|
Headtype objabi.HeadType
|
||
|
Arch *LinkArch
|
||
|
Debugasm int
|
||
|
Debugvlog bool
|
||
|
Debugpcln string
|
||
|
Flag_shared bool
|
||
|
Flag_dynlink bool
|
||
|
Flag_linkshared bool
|
||
|
Flag_optimize bool
|
||
|
Flag_locationlists bool
|
||
|
Retpoline bool // emit use of retpoline stubs for indirect jmp/call
|
||
|
Bso *bufio.Writer
|
||
|
Pathname string
|
||
|
Pkgpath string // the current package's import path, "" if unknown
|
||
|
hashmu sync.Mutex // protects hash, funchash
|
||
|
hash map[string]*LSym // name -> sym mapping
|
||
|
funchash map[string]*LSym // name -> sym mapping for ABIInternal syms
|
||
|
statichash map[string]*LSym // name -> sym mapping for static syms
|
||
|
PosTable src.PosTable
|
||
|
InlTree InlTree // global inlining tree used by gc/inl.go
|
||
|
DwFixups *DwarfFixupTable
|
||
|
Imports []goobj.ImportedPkg
|
||
|
DiagFunc func(string, ...interface{})
|
||
|
DiagFlush func()
|
||
|
DebugInfo func(fn *LSym, info *LSym, curfn interface{}) ([]dwarf.Scope, dwarf.InlCalls) // if non-nil, curfn is a *gc.Node
|
||
|
GenAbstractFunc func(fn *LSym)
|
||
|
Errors int
|
||
|
|
||
|
InParallel bool // parallel backend phase in effect
|
||
|
UseBASEntries bool // use Base Address Selection Entries in location lists and PC ranges
|
||
|
IsAsm bool // is the source assembly language, which may contain surprising idioms (e.g., call tables)
|
||
|
|
||
|
// state for writing objects
|
||
|
Text []*LSym
|
||
|
Data []*LSym
|
||
|
|
||
|
// ABIAliases are text symbols that should be aliased to all
|
||
|
// ABIs. These symbols may only be referenced and not defined
|
||
|
// by this object, since the need for an alias may appear in a
|
||
|
// different object than the definition. Hence, this
|
||
|
// information can't be carried in the symbol definition.
|
||
|
//
|
||
|
// TODO(austin): Replace this with ABI wrappers once the ABIs
|
||
|
// actually diverge.
|
||
|
ABIAliases []*LSym
|
||
|
|
||
|
// Constant symbols (e.g. $i64.*) are data symbols created late
|
||
|
// in the concurrent phase. To ensure a deterministic order, we
|
||
|
// add them to a separate list, sort at the end, and append it
|
||
|
// to Data.
|
||
|
constSyms []*LSym
|
||
|
|
||
|
// pkgIdx maps package path to index. The index is used for
|
||
|
// symbol reference in the object file.
|
||
|
pkgIdx map[string]int32
|
||
|
|
||
|
defs []*LSym // list of defined symbols in the current package
|
||
|
hashed64defs []*LSym // list of defined short (64-bit or less) hashed (content-addressable) symbols
|
||
|
hasheddefs []*LSym // list of defined hashed (content-addressable) symbols
|
||
|
nonpkgdefs []*LSym // list of defined non-package symbols
|
||
|
nonpkgrefs []*LSym // list of referenced non-package symbols
|
||
|
|
||
|
Fingerprint goobj.FingerprintType // fingerprint of symbol indices, to catch index mismatch
|
||
|
}
|
||
|
|
||
|
func (ctxt *Link) Diag(format string, args ...interface{}) {
|
||
|
ctxt.Errors++
|
||
|
ctxt.DiagFunc(format, args...)
|
||
|
}
|
||
|
|
||
|
func (ctxt *Link) Logf(format string, args ...interface{}) {
|
||
|
fmt.Fprintf(ctxt.Bso, format, args...)
|
||
|
ctxt.Bso.Flush()
|
||
|
}
|
||
|
|
||
|
// The smallest possible offset from the hardware stack pointer to a local
|
||
|
// variable on the stack. Architectures that use a link register save its value
|
||
|
// on the stack in the function prologue and so always have a pointer between
|
||
|
// the hardware stack pointer and the local variable area.
|
||
|
func (ctxt *Link) FixedFrameSize() int64 {
|
||
|
switch ctxt.Arch.Family {
|
||
|
case sys.AMD64, sys.I386, sys.Wasm:
|
||
|
return 0
|
||
|
case sys.PPC64:
|
||
|
// PIC code on ppc64le requires 32 bytes of stack, and it's easier to
|
||
|
// just use that much stack always on ppc64x.
|
||
|
return int64(4 * ctxt.Arch.PtrSize)
|
||
|
default:
|
||
|
return int64(ctxt.Arch.PtrSize)
|
||
|
}
|
||
|
}
|
||
|
|
||
|
// LinkArch is the definition of a single architecture.
|
||
|
type LinkArch struct {
|
||
|
*sys.Arch
|
||
|
Init func(*Link)
|
||
|
Preprocess func(*Link, *LSym, ProgAlloc)
|
||
|
Assemble func(*Link, *LSym, ProgAlloc)
|
||
|
Progedit func(*Link, *Prog, ProgAlloc)
|
||
|
UnaryDst map[As]bool // Instruction takes one operand, a destination.
|
||
|
DWARFRegisters map[int16]int16
|
||
|
}
|