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go/include/link.h
Russ Cox 1f2d7bf44f liblink: require use of TYPE_ADDR, not TYPE_CONST
Add Addr-checking for all Progs on input to liblink, in liblink/pass.c,
including requiring use of TYPE_ADDR, not TYPE_CONST.
Update compilers and assemblers to satisfy checks.

Change-Id: Idac36b9f6805f0451cb541d2338992ca5eaf3963
Reviewed-on: https://go-review.googlesource.com/3801
Reviewed-by: Austin Clements <austin@google.com>
2015-02-04 16:50:06 +00:00

800 lines
19 KiB
C

// Derived from Inferno utils/6l/l.h and related files.
// http://code.google.com/p/inferno-os/source/browse/utils/6l/l.h
//
// Copyright © 1994-1999 Lucent Technologies Inc. All rights reserved.
// Portions Copyright © 1995-1997 C H Forsyth (forsyth@terzarima.net)
// Portions Copyright © 1997-1999 Vita Nuova Limited
// Portions Copyright © 2000-2007 Vita Nuova Holdings Limited (www.vitanuova.com)
// Portions Copyright © 2004,2006 Bruce Ellis
// Portions Copyright © 2005-2007 C H Forsyth (forsyth@terzarima.net)
// Revisions Copyright © 2000-2007 Lucent Technologies Inc. and others
// Portions Copyright © 2009 The Go Authors. All rights reserved.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
typedef struct Addr Addr;
typedef struct Prog Prog;
typedef struct LSym LSym;
typedef struct Reloc Reloc;
typedef struct Auto Auto;
typedef struct Hist Hist;
typedef struct Link Link;
typedef struct Plist Plist;
typedef struct LinkArch LinkArch;
typedef struct Library Library;
typedef struct Pcln Pcln;
typedef struct Pcdata Pcdata;
typedef struct Pciter Pciter;
// An Addr is an argument to an instruction.
// The general forms and their encodings are:
//
// sym±offset(symkind)(reg)(index*scale)
// Memory reference at address &sym(symkind) + offset + reg + index*scale.
// Any of sym(symkind), ±offset, (reg), (index*scale), and *scale can be omitted.
// If (reg) and *scale are both omitted, the resulting expression (index) is parsed as (reg).
// To force a parsing as index*scale, write (index*1).
// Encoding:
// type = TYPE_MEM
// name = symkind (NAME_AUTO, ...) or 0 (NAME_NONE)
// sym = sym
// offset = ±offset
// reg = reg (REG_*)
// index = index (REG_*)
// scale = scale (1, 2, 4, 8)
//
// $<mem>
// Effective address of memory reference <mem>, defined above.
// Encoding: same as memory reference, but type = TYPE_ADDR.
//
// $<±integer value>
// This is a special case of $<mem>, in which only ±offset is present.
// It has a separate type for easy recognition.
// Encoding:
// type = TYPE_CONST
// offset = ±integer value
//
// *<mem>
// Indirect reference through memory reference <mem>, defined above.
// Only used on x86 for CALL/JMP *sym(SB), which calls/jumps to a function
// pointer stored in the data word sym(SB), not a function named sym(SB).
// Encoding: same as above, but type = TYPE_INDIR.
//
// $*$<mem>
// No longer used.
// On machines with actual SB registers, $*$<mem> forced the
// instruction encoding to use a full 32-bit constant, never a
// reference relative to SB.
//
// $<floating point literal>
// Floating point constant value.
// Encoding:
// type = TYPE_FCONST
// u.dval = floating point value
//
// $<string literal, up to 8 chars>
// String literal value (raw bytes used for DATA instruction).
// Encoding:
// type = TYPE_SCONST
// u.sval = string
//
// <register name>
// Any register: integer, floating point, control, segment, and so on.
// If looking for specific register kind, must check type and reg value range.
// Encoding:
// type = TYPE_REG
// reg = reg (REG_*)
//
// x(PC)
// Encoding:
// type = TYPE_BRANCH
// u.branch = Prog* reference OR ELSE offset = target pc (branch takes priority)
//
// $±x-±y
// Final argument to TEXT, specifying local frame size x and argument size y.
// In this form, x and y are integer literals only, not arbitrary expressions.
// This avoids parsing ambiguities due to the use of - as a separator.
// The ± are optional.
// If the final argument to TEXT omits the -±y, the encoding should still
// use TYPE_TEXTSIZE (not TYPE_CONST), with u.argsize = ArgsSizeUnknown.
// Encoding:
// type = TYPE_TEXTSIZE
// offset = x
// u.argsize = y
//
// reg<<shift, reg>>shift, reg->shift, reg@>shift
// Shifted register value, for ARM.
// In this form, reg must be a register and shift can be a register or an integer constant.
// Encoding:
// type = TYPE_SHIFT
// offset = (reg&15) | shifttype<<5 | count
// shifttype = 0, 1, 2, 3 for <<, >>, ->, @>
// count = (reg&15)<<8 | 1<<4 for a register shift count, (n&31)<<7 for an integer constant.
//
// (reg, reg)
// A destination register pair. When used as the last argument of an instruction,
// this form makes clear that both registers are destinations.
// Encoding:
// type = TYPE_REGREG
// reg = first register
// offset = second register
//
// reg, reg
// TYPE_REGREG2, to be removed.
//
struct Addr
{
int16 type; // could be int8
int16 reg;
int16 index;
int8 scale;
int8 name;
int64 offset;
LSym* sym;
union
{
char sval[8];
float64 dval;
Prog* branch;
int32 argsize; // for 5l, 8l
uint64 bits; // raw union bits, for testing if anything has been written to any field
} u;
// gotype is the name of the Go type descriptor for sym.
// It cannot be set using assembly syntax.
// It is generated by the Go compiler for global declarations,
// to convey information about pointer locations to the back end
// and for use in generating debug information.
LSym* gotype;
int8 class; // for internal use by liblink
uint8 etype; // for internal use by 5g, 6g, 8g
void* node; // for internal use by 5g, 6g, 8g
int64 width; // for internal use by 5g, 6g, 8g
};
enum {
NAME_NONE = 0,
NAME_EXTERN,
NAME_STATIC,
NAME_AUTO,
NAME_PARAM,
};
enum {
TYPE_NONE = 0,
TYPE_BRANCH = 5, // avoid accidental conflicts with NAME_*
TYPE_TEXTSIZE,
TYPE_MEM,
TYPE_CONST,
TYPE_FCONST,
TYPE_SCONST,
TYPE_REG,
TYPE_ADDR,
TYPE_SHIFT,
TYPE_REGREG,
TYPE_REGREG2,
TYPE_INDIR,
};
struct Reloc
{
int32 off;
uchar siz;
uchar done;
int32 type;
int32 variant; // RV_*: variant on computed value
int64 add;
int64 xadd;
LSym* sym;
LSym* xsym;
};
// TODO(rsc): Describe prog.
// TODO(rsc): Describe TEXT/GLOBL flag in from3, DATA width in from3.
struct Prog
{
vlong pc;
int32 lineno;
Prog* link;
short as;
uchar scond; // arm only; condition codes
// operands
Addr from;
int16 reg; // arm, ppc64 only (e.g., ADD from, reg, to);
// starts at 0 for both GPRs and FPRs;
// also used for ADATA width on arm, ppc64
Addr from3; // addl source argument (e.g., RLWM/FMADD from, reg, from3, to)
Addr to;
// for 5g, 6g, 8g internal use
void* opt;
// for liblink internal use
Prog* forwd;
Prog* pcond;
Prog* comefrom; // amd64, 386
Prog* pcrel; // arm
int32 spadj;
uint16 mark;
uint16 optab; // arm, ppc64
uchar back; // amd64, 386
uchar ft; // oclass cache
uchar tt; // oclass cache
uchar isize; // amd64, 386
char width; /* fake for DATA */
char mode; /* 16, 32, or 64 in 6l, 8l; internal use in 5g, 6g, 8g */
};
extern Prog zprog; // zeroed Prog
// Prog.as opcodes.
// These are the portable opcodes, common to all architectures.
// Each architecture defines many more arch-specific opcodes,
// with values starting at A_ARCHSPECIFIC.
enum {
AXXX = 0,
ACALL,
ACHECKNIL,
ADATA,
ADUFFCOPY,
ADUFFZERO,
AEND,
AFUNCDATA,
AGLOBL,
AJMP,
ANOP,
APCDATA,
ARET,
ATEXT,
ATYPE,
AUNDEF,
AUSEFIELD,
AVARDEF,
AVARKILL,
A_ARCHSPECIFIC, // first architecture-specific opcode value
};
// prevent incompatible type signatures between liblink and 8l on Plan 9
#pragma incomplete struct Section
struct LSym
{
char* name;
char* extname; // name used in external object files
short type;
short version;
uchar dupok;
uchar cfunc;
uchar external;
uchar nosplit;
uchar reachable;
uchar cgoexport;
uchar special;
uchar stkcheck;
uchar hide;
uchar leaf; // arm only
uchar fnptr; // arm only
uchar localentry; // ppc64: instrs between global & local entry
uchar seenglobl;
uchar onlist; // on the textp or datap lists
int16 symid; // for writing .5/.6/.8 files
int32 dynid;
int32 sig;
int32 plt;
int32 got;
int32 align; // if non-zero, required alignment in bytes
int32 elfsym;
int32 args; // size of stack frame incoming arguments area
int32 locals; // size of stack frame locals area (arm only?)
vlong value;
vlong size;
LSym* hash; // in hash table
LSym* allsym; // in all symbol list
LSym* next; // in text or data list
LSym* sub; // in SSUB list
LSym* outer; // container of sub
LSym* gotype;
LSym* reachparent;
LSym* queue;
char* file;
char* dynimplib;
char* dynimpvers;
struct Section* sect;
// STEXT
Auto* autom;
Prog* text;
Prog* etext;
Pcln* pcln;
// SDATA, SBSS
uchar* p;
int np;
int32 maxp;
Reloc* r;
int32 nr;
int32 maxr;
};
// LSym.type
enum
{
Sxxx,
/* order here is order in output file */
/* readonly, executable */
STEXT,
SELFRXSECT,
/* readonly, non-executable */
STYPE,
SSTRING,
SGOSTRING,
SGOFUNC,
SRODATA,
SFUNCTAB,
STYPELINK,
SSYMTAB, // TODO: move to unmapped section
SPCLNTAB,
SELFROSECT,
/* writable, non-executable */
SMACHOPLT,
SELFSECT,
SMACHO, /* Mach-O __nl_symbol_ptr */
SMACHOGOT,
SWINDOWS,
SELFGOT, /* also .toc in ppc64 ABI */
SNOPTRDATA,
SINITARR,
SDATA,
SBSS,
SNOPTRBSS,
STLSBSS,
/* not mapped */
SXREF,
SMACHOSYMSTR,
SMACHOSYMTAB,
SMACHOINDIRECTPLT,
SMACHOINDIRECTGOT,
SFILE,
SFILEPATH,
SCONST,
SDYNIMPORT,
SHOSTOBJ,
SSUB = 1<<8, /* sub-symbol, linked from parent via ->sub list */
SMASK = SSUB - 1,
SHIDDEN = 1<<9, // hidden or local symbol
};
// Reloc.type
enum
{
R_ADDR = 1,
R_ADDRPOWER, // relocation for loading 31-bit address using addis and addi/ld/st for Power
R_SIZE,
R_CALL, // relocation for direct PC-relative call
R_CALLARM, // relocation for ARM direct call
R_CALLIND, // marker for indirect call (no actual relocating necessary)
R_CALLPOWER, // relocation for Power direct call
R_CONST,
R_PCREL,
R_TLS,
R_TLS_LE, // TLS local exec offset from TLS segment register
R_TLS_IE, // TLS initial exec offset from TLS base pointer
R_GOTOFF,
R_PLT0,
R_PLT1,
R_PLT2,
R_USEFIELD,
R_POWER_TOC, // ELF R_PPC64_TOC16*
};
// Reloc.variant
enum
{
RV_NONE, // identity variant
RV_POWER_LO, // x & 0xFFFF
RV_POWER_HI, // x >> 16
RV_POWER_HA, // (x + 0x8000) >> 16
RV_POWER_DS, // x & 0xFFFC, check x&0x3 == 0
RV_CHECK_OVERFLOW = 1<<8, // check overflow flag
RV_TYPE_MASK = (RV_CHECK_OVERFLOW - 1),
};
// Auto.name
enum
{
A_AUTO = 1,
A_PARAM,
};
struct Auto
{
LSym* asym;
Auto* link;
int32 aoffset;
int16 name;
LSym* gotype;
};
enum
{
LINKHASH = 100003,
};
struct Hist
{
Hist* link;
char* name;
int32 line;
int32 offset;
};
struct Plist
{
LSym* name;
Prog* firstpc;
int recur;
Plist* link;
};
struct Library
{
char *objref; // object where we found the reference
char *srcref; // src file where we found the reference
char *file; // object file
char *pkg; // import path
};
struct Pcdata
{
uchar *p;
int n;
int m;
};
struct Pcln
{
Pcdata pcsp;
Pcdata pcfile;
Pcdata pcline;
Pcdata *pcdata;
int npcdata;
LSym **funcdata;
int64 *funcdataoff;
int nfuncdata;
LSym **file;
int nfile;
int mfile;
LSym *lastfile;
int lastindex;
};
// Pcdata iterator.
// for(pciterinit(ctxt, &it, &pcd); !it.done; pciternext(&it)) { it.value holds in [it.pc, it.nextpc) }
struct Pciter
{
Pcdata d;
uchar *p;
uint32 pc;
uint32 nextpc;
uint32 pcscale;
int32 value;
int start;
int done;
};
void pciterinit(Link*, Pciter*, Pcdata*);
void pciternext(Pciter*);
// symbol version, incremented each time a file is loaded.
// version==1 is reserved for savehist.
enum
{
HistVersion = 1,
};
// Link holds the context for writing object code from a compiler
// to be linker input or for reading that input into the linker.
struct Link
{
int32 thechar; // '5' (arm), '6' (amd64), etc.
char* thestring; // full name of architecture ("arm", "amd64", ..)
int32 goarm; // for arm only, GOARM setting
int headtype;
LinkArch* arch;
int32 (*ignore)(char*); // do not emit names satisfying this function
int32 debugasm; // -S flag in compiler
int32 debugline; // -L flag in compiler
int32 debughist; // -O flag in linker
int32 debugread; // -W flag in linker
int32 debugvlog; // -v flag in linker
int32 debugstack; // -K flag in linker
int32 debugzerostack; // -Z flag in linker
int32 debugdivmod; // -M flag in 5l
int32 debugfloat; // -F flag in 5l
int32 debugpcln; // -O flag in linker
int32 flag_shared; // -shared flag in linker
int32 iself;
Biobuf* bso; // for -v flag
char* pathname;
int32 windows;
char* trimpath;
char* goroot;
char* goroot_final;
int32 enforce_data_order; // for use by assembler
// hash table of all symbols
LSym* hash[LINKHASH];
LSym* allsym;
int32 nsymbol;
// file-line history
Hist* hist;
Hist* ehist;
// all programs
Plist* plist;
Plist* plast;
// code generation
LSym* sym_div;
LSym* sym_divu;
LSym* sym_mod;
LSym* sym_modu;
LSym* symmorestack[2];
LSym* tlsg;
LSym* plan9privates;
Prog* curp;
Prog* printp;
Prog* blitrl;
Prog* elitrl;
int rexflag;
int rep; // for nacl
int repn; // for nacl
int lock; // for nacl
int asmode;
uchar* andptr;
uchar and[100];
int64 instoffset;
int32 autosize;
int32 armsize;
// for reading input files (during linker)
vlong pc;
char** libdir;
int32 nlibdir;
int32 maxlibdir;
Library* library;
int libraryp;
int nlibrary;
int tlsoffset;
void (*diag)(char*, ...);
int mode;
Auto* curauto;
Auto* curhist;
LSym* cursym;
int version;
LSym* textp;
LSym* etextp;
int32 histdepth;
int32 nhistfile;
LSym* filesyms;
};
enum {
LittleEndian = 0x04030201,
BigEndian = 0x01020304,
};
// LinkArch is the definition of a single architecture.
struct LinkArch
{
char* name; // "arm", "amd64", and so on
int thechar; // '5', '6', and so on
int32 endian; // LittleEndian or BigEndian
void (*preprocess)(Link*, LSym*);
void (*assemble)(Link*, LSym*);
void (*follow)(Link*, LSym*);
void (*progedit)(Link*, Prog*);
int minlc;
int ptrsize;
int regsize;
};
/* executable header types */
enum {
Hunknown = 0,
Hdarwin,
Hdragonfly,
Helf,
Hfreebsd,
Hlinux,
Hnacl,
Hnetbsd,
Hopenbsd,
Hplan9,
Hsolaris,
Hwindows,
};
enum
{
LinkAuto = 0,
LinkInternal,
LinkExternal,
};
extern uchar fnuxi8[8];
extern uchar fnuxi4[4];
extern uchar inuxi1[1];
extern uchar inuxi2[2];
extern uchar inuxi4[4];
extern uchar inuxi8[8];
// asm5.c
void span5(Link *ctxt, LSym *s);
int chipfloat5(Link *ctxt, float64 e);
int chipzero5(Link *ctxt, float64 e);
// asm6.c
void span6(Link *ctxt, LSym *s);
// asm8.c
void span8(Link *ctxt, LSym *s);
// asm9.c
void span9(Link *ctxt, LSym *s);
// data.c
vlong addaddr(Link *ctxt, LSym *s, LSym *t);
vlong addaddrplus(Link *ctxt, LSym *s, LSym *t, vlong add);
vlong addaddrplus4(Link *ctxt, LSym *s, LSym *t, vlong add);
vlong addpcrelplus(Link *ctxt, LSym *s, LSym *t, vlong add);
Reloc* addrel(LSym *s);
vlong addsize(Link *ctxt, LSym *s, LSym *t);
vlong adduint16(Link *ctxt, LSym *s, uint16 v);
vlong adduint32(Link *ctxt, LSym *s, uint32 v);
vlong adduint64(Link *ctxt, LSym *s, uint64 v);
vlong adduint8(Link *ctxt, LSym *s, uint8 v);
vlong adduintxx(Link *ctxt, LSym *s, uint64 v, int wid);
void mangle(char *file);
void savedata(Link *ctxt, LSym *s, Prog *p, char *pn);
void savedata1(Link *ctxt, LSym *s, Prog *p, char *pn, int enforce_order);
vlong setaddr(Link *ctxt, LSym *s, vlong off, LSym *t);
vlong setaddrplus(Link *ctxt, LSym *s, vlong off, LSym *t, vlong add);
vlong setuint16(Link *ctxt, LSym *s, vlong r, uint16 v);
vlong setuint32(Link *ctxt, LSym *s, vlong r, uint32 v);
vlong setuint64(Link *ctxt, LSym *s, vlong r, uint64 v);
vlong setuint8(Link *ctxt, LSym *s, vlong r, uint8 v);
vlong setuintxx(Link *ctxt, LSym *s, vlong off, uint64 v, vlong wid);
void symgrow(Link *ctxt, LSym *s, vlong siz);
// go.c
void double2ieee(uint64 *ieee, double native);
void* emallocz(long n);
void* erealloc(void *p, long n);
char* estrdup(char *p);
char* expandpkg(char *t0, char *pkg);
void linksetexp(void);
char* expstring(void);
extern int fieldtrack_enabled;
extern int framepointer_enabled;
// ld.c
void addhist(Link *ctxt, int32 line, int type);
void addlib(Link *ctxt, char *src, char *obj, char *path);
void addlibpath(Link *ctxt, char *srcref, char *objref, char *file, char *pkg);
void collapsefrog(Link *ctxt, LSym *s);
void copyhistfrog(Link *ctxt, char *buf, int nbuf);
int find1(int32 l, int c);
void linkgetline(Link *ctxt, int32 line, LSym **f, int32 *l);
void histtoauto(Link *ctxt);
void mkfwd(LSym*);
void nuxiinit(LinkArch*);
void savehist(Link *ctxt, int32 line, int32 off);
Prog* copyp(Link*, Prog*);
Prog* appendp(Link*, Prog*);
vlong atolwhex(char*);
// list[5689].c
void listinit5(void);
void listinit6(void);
void listinit8(void);
void listinit9(void);
// obj.c
int linklinefmt(Link *ctxt, Fmt *fp);
void linklinehist(Link *ctxt, int lineno, char *f, int offset);
Plist* linknewplist(Link *ctxt);
void linkprfile(Link *ctxt, int32 l);
// objfile.c
void ldobjfile(Link *ctxt, Biobuf *b, char *pkg, int64 len, char *path);
void writeobj(Link *ctxt, Biobuf *b);
// pass.c
Prog* brchain(Link *ctxt, Prog *p);
Prog* brloop(Link *ctxt, Prog *p);
void linkpatch(Link *ctxt, LSym *sym);
// pcln.c
void linkpcln(Link*, LSym*);
// sym.c
LSym* linklookup(Link *ctxt, char *name, int v);
Link* linknew(LinkArch*);
LSym* linknewsym(Link *ctxt, char *symb, int v);
LSym* linkrlookup(Link *ctxt, char *name, int v);
int linksymfmt(Fmt *f);
int headtype(char*);
char* headstr(int);
extern char* anames5[];
extern char* anames6[];
extern char* anames8[];
extern char* anames9[];
extern char* cnames5[];
extern char* cnames9[];
extern char* dnames5[];
extern char* dnames6[];
extern char* dnames8[];
extern char* dnames9[];
extern LinkArch link386;
extern LinkArch linkamd64;
extern LinkArch linkamd64p32;
extern LinkArch linkarm;
extern LinkArch linkppc64;
extern LinkArch linkppc64le;
extern int linkbasepointer;
extern void linksetexp(void);
#pragma varargck type "A" int
#pragma varargck type "E" uint
#pragma varargck type "D" Addr*
#pragma varargck type "lD" Addr*
#pragma varargck type "P" Prog*
#pragma varargck type "R" int
#pragma varargck type "^" int // for 5l/9l, C_* classes (liblink internal)
// TODO(ality): remove this workaround.
// It's here because Pconv in liblink/list?.c references %L.
#pragma varargck type "L" int32