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cosmopolitan/tool/build/lib/disarg.c
Justine Tunney 8c4cce043c Make improvements to redbean 
The following Lua APIs have been added:

  - IsDaemon() → bool
  - ProgramPidPath(str)

The following Lua hooks have been added:

  - OnClientConnection(ip:int,port:int,serverip:int,serverport:int) → bool
  - OnProcessCreate(pid:int,ip:int,port:int,serverip:int,serverport:int)
  - OnProcessDestroy(pid:int)
  - OnServerStart()
  - OnServerStop()
  - OnWorkerStart()
  - OnWorkerStop()

redbean now does a better job at applying gzip on the fly from the local
filesystem, using a streaming chunked api with constant memory, which is
useful for doing things like serving a 4gb text file off NFS, and having
it start transmitting in milliseconds. redbean will also compute entropy
on the beginnings of files to determine if compression is profitable.

This change pays off technical debts relating to memory, such as relying
on exit() to free() allocations. That's now mostly fixed so it should be
easier now to spot memory leaks in malloc traces.

This change also fixes bugs and makes improvements to our SSL support.
Uniprocess mode failed handshakes are no longer an issue. Token Alpn is
offered so curl -v looks less weird. Hybrid SSL certificate loading is
now smarter about naming conflicts. Self-signed CA root anchors will no
longer be delivered to the client during the handshake.
2021-07-10 15:19:37 -07:00

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/*-*- mode:c;indent-tabs-mode:nil;c-basic-offset:2;tab-width:8;coding:utf-8 -*-│
│vi: set net ft=c ts=2 sts=2 sw=2 fenc=utf-8 :vi│
╞══════════════════════════════════════════════════════════════════════════════╡
│ Copyright 2020 Justine Alexandra Roberts Tunney │
│ │
│ Permission to use, copy, modify, and/or distribute this software for │
│ any purpose with or without fee is hereby granted, provided that the │
│ above copyright notice and this permission notice appear in all copies. │
│ │
│ THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL │
│ WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED │
│ WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE │
│ AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL │
│ DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR │
│ PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER │
│ TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR │
│ PERFORMANCE OF THIS SOFTWARE. │
╚─────────────────────────────────────────────────────────────────────────────*/
#include "libc/assert.h"
#include "libc/bits/bits.h"
#include "libc/fmt/itoa.h"
#include "libc/limits.h"
#include "libc/log/check.h"
#include "libc/macros.internal.h"
#include "libc/str/str.h"
#include "tool/build/lib/demangle.h"
#include "tool/build/lib/dis.h"
#include "tool/build/lib/endian.h"
#include "tool/build/lib/high.h"
#include "tool/build/lib/modrm.h"
static const char kRiz[2][4] = {"eiz", "riz"};
static const char kRip[2][4] = {"eip", "rip"};
static const char kSka[4][4] = {"", ",2", ",4", ",8"};
static const char kSeg[8][3] = {"es", "cs", "ss", "ds", "fs", "gs"};
static const char kCtl[8][4] = {"cr0", "wut", "cr2", "cr3",
"cr4", "wut", "wut", "wut"};
static const char kBreg[2][2][8][5] = {
{{"al", "cl", "dl", "bl", "ah", "ch", "dh", "bh"},
{"al", "cl", "dl", "bl", "spl", "bpl", "sil", "dil"}},
{{"wut", "wut", "wut", "wut", "wut", "wut", "wut", "wut"},
{"r8b", "r9b", "r10b", "r11b", "r12b", "r13b", "r14b", "r15b"}},
};
static const char kGreg[2][2][2][8][5] = {
{{{"eax", "ecx", "edx", "ebx", "esp", "ebp", "esi", "edi"},
{"r8d", "r9d", "r10d", "r11d", "r12d", "r13d", "r14d", "r15d"}},
{{"rax", "rcx", "rdx", "rbx", "rsp", "rbp", "rsi", "rdi"},
{"r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15"}}},
{{{"ax", "cx", "dx", "bx", "sp", "bp", "si", "di"},
{"r8w", "r9w", "r10w", "r11w", "r12w", "r13w", "r14w", "r15w"}},
{{"rax", "rcx", "rdx", "rbx", "rsp", "rbp", "rsi", "rdi"},
{"r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15"}}},
};
static int64_t RipRelative(struct Dis *d, int64_t i) {
return d->addr + d->xedd->length + i;
}
static int64_t ZeroExtend(uint32_t rde, int64_t i) {
switch (Mode(rde)) {
case XED_MODE_REAL:
return i & 0xffff;
case XED_MODE_LEGACY:
return i & 0xffffffff;
default:
return i;
}
}
static int64_t Unrelative(uint32_t rde, int64_t i) {
switch (Eamode(rde)) {
case XED_MODE_REAL:
return i & 0xffff;
case XED_MODE_LEGACY:
return i & 0xffffffff;
default:
return i;
}
}
static int64_t GetSeg(struct Dis *d, uint32_t rde, unsigned char *s) {
switch (Sego(rde) ? Sego(rde) : d->xedd->op.hint) {
default:
return Read64(s);
case 1:
return Read64(d->m->es);
case 2:
return Read64(d->m->cs);
case 3:
return Read64(d->m->ss);
case 4:
return Read64(d->m->ds);
}
}
static const char *GetAddrReg(struct Dis *d, uint32_t rde, uint8_t x,
uint8_t r) {
return kGreg[Eamode(rde) == XED_MODE_REAL][Eamode(rde) == XED_MODE_LONG]
[x & 1][r & 7];
}
static char *DisRegister(char *p, const char *s) {
p = HighStart(p, g_high.reg);
*p++ = '%';
p = stpcpy(p, s);
p = HighEnd(p);
return p;
}
static char *DisComment(char *p, const char *s) {
p = HighStart(p, g_high.comment);
p = stpcpy(p, s);
p = HighEnd(p);
return p;
}
static char *DisRegisterByte(struct Dis *d, uint32_t rde, char *p, bool g,
int r) {
return DisRegister(p, kBreg[g][Rex(rde)][r]);
}
static char *DisRegisterWord(struct Dis *d, uint32_t rde, char *p, bool g,
int r) {
return DisRegister(p, kGreg[Osz(rde)][Rexw(rde)][g][r]);
}
static char *DisInt(char *p, int64_t x) {
if (-15 <= x && x <= 15) {
p += int64toarray_radix10(x, p);
} else if (x == INT64_MIN) {
p = stpcpy(p, "-0x");
p += uint64toarray_radix16(INT64_MIN, p);
} else if (x < 0 && -x < 0xFFFFFFFF) {
p = stpcpy(p, "-0x");
p += uint64toarray_radix16(-x, p);
} else {
p = stpcpy(p, "0x");
p += uint64toarray_radix16(x, p);
}
return p;
}
static char *DisSymImpl(struct Dis *d, char *p, int64_t x, long sym) {
int64_t addend;
const char *name;
addend = x - d->syms.p[sym].addr;
name = d->syms.stab + d->syms.p[sym].name;
p = Demangle(p, name, DIS_MAX_SYMBOL_LENGTH);
if (addend) {
*p++ = '+';
p = DisInt(p, addend);
}
return p;
}
static char *DisSym(struct Dis *d, char *p, int64_t value, int64_t addr) {
long sym;
if ((sym = DisFindSym(d, addr)) != -1 && d->syms.p[sym].name) {
return DisSymImpl(d, p, addr, sym);
} else {
return DisInt(p, value);
}
}
static char *DisSymLiteral(struct Dis *d, uint32_t rde, char *p, uint64_t addr,
uint64_t ip) {
*p++ = '$';
p = HighStart(p, g_high.literal);
p = DisSym(d, p, addr, addr);
p = HighEnd(p);
return p;
}
static char *DisGvqp(struct Dis *d, uint32_t rde, char *p) {
return DisRegisterWord(d, rde, p, Rexr(rde), ModrmReg(rde));
}
static char *DisGdqp(struct Dis *d, uint32_t rde, char *p) {
return DisRegister(p, kGreg[0][Rexw(rde)][Rexr(rde)][ModrmReg(rde)]);
}
static char *DisGb(struct Dis *d, uint32_t rde, char *p) {
return DisRegisterByte(d, rde, p, Rexr(rde), ModrmReg(rde));
}
static char *DisSego(struct Dis *d, uint32_t rde, char *p) {
int seg;
seg = Sego(rde) ? Sego(rde) : d->xedd->op.hint;
if (seg) {
p = DisRegister(p, kSeg[seg - 1]);
*p++ = ':';
}
return p;
}
static bool IsRealModrmAbsolute(uint32_t rde) {
return Eamode(rde) == XED_MODE_REAL && ModrmRm(rde) == 6 && !ModrmMod(rde);
}
static char *DisDisp(struct Dis *d, uint32_t rde, char *p) {
bool rela;
int64_t disp;
if (ModrmMod(rde) == 0b01 || ModrmMod(rde) == 0b10 || IsRipRelative(rde) ||
IsRealModrmAbsolute(rde) ||
(Eamode(rde) != XED_MODE_REAL && ModrmMod(rde) == 0b00 &&
ModrmRm(rde) == 0b100 && SibBase(d->xedd) == 0b101)) {
disp = d->xedd->op.disp;
if (IsRipRelative(rde)) {
if (Mode(rde) == XED_MODE_LONG) {
disp = RipRelative(d, disp);
rela = true;
} else {
disp = Unrelative(rde, disp);
rela = false;
}
} else if (IsRealModrmAbsolute(rde)) {
disp = Unrelative(rde, disp);
rela = false;
} else {
rela = true;
}
p = DisSym(d, p, disp, disp);
}
return p;
}
static char *DisBis(struct Dis *d, uint32_t rde, char *p) {
const char *base, *index, *scale;
base = index = scale = NULL;
if (Eamode(rde) != XED_MODE_REAL) {
if (!SibExists(rde)) {
DCHECK(!d->xedd->op.has_sib);
if (IsRipRelative(rde)) {
if (Mode(rde) == XED_MODE_LONG) {
base = kRip[Eamode(rde) == XED_MODE_LONG];
}
} else {
base = GetAddrReg(d, rde, Rexb(rde), ModrmRm(rde));
}
} else if (!SibIsAbsolute(d->xedd, rde)) {
if (SibHasBase(d->xedd, rde)) {
base = GetAddrReg(d, rde, Rexb(rde), SibBase(d->xedd));
}
if (SibHasIndex(d->xedd)) {
index = GetAddrReg(d, rde, Rexx(d->xedd), SibIndex(d->xedd));
} else if (d->xedd->op.scale) {
index = kRiz[Eamode(rde) == XED_MODE_LONG];
}
scale = kSka[d->xedd->op.scale];
}
} else {
switch (ModrmRm(rde)) {
case 0:
base = "bx";
index = "si";
break;
case 1:
base = "bx";
index = "di";
break;
case 2:
base = "bp";
index = "si";
break;
case 3:
base = "bp";
index = "di";
break;
case 4:
base = "si";
break;
case 5:
base = "di";
break;
case 6:
if (ModrmMod(rde)) base = "bp";
break;
case 7:
base = "bx";
break;
default:
unreachable;
}
}
if (base || index) {
*p++ = '(';
if (base) {
p = DisRegister(p, base);
}
if (index) {
*p++ = ',';
p = DisRegister(p, index);
if (scale) {
p = stpcpy(p, scale);
}
}
*p++ = ')';
}
*p = '\0';
return p;
}
static char *DisM(struct Dis *d, uint32_t rde, char *p) {
p = DisSego(d, rde, p);
p = DisDisp(d, rde, p);
p = DisBis(d, rde, p);
return p;
}
static char *DisRegMem(struct Dis *d, uint32_t rde, char *p,
char *f(struct Dis *, uint32_t, char *)) {
if (IsModrmRegister(rde)) {
return f(d, rde, p);
} else {
return DisM(d, rde, p);
}
}
static noinline char *DisE(struct Dis *d, uint32_t rde, char *p,
char *f(struct Dis *, uint32_t, char *, bool, int)) {
if (IsModrmRegister(rde)) {
return f(d, rde, p, Rexb(rde), ModrmRm(rde));
} else {
return DisM(d, rde, p);
}
}
static char *DisEb(struct Dis *d, uint32_t rde, char *p) {
return DisE(d, rde, p, DisRegisterByte);
}
static char *DisEvqp(struct Dis *d, uint32_t rde, char *p) {
return DisE(d, rde, p, DisRegisterWord);
}
static char *DisRv(struct Dis *d, uint32_t rde, char *p) {
return DisRegister(p, kGreg[Osz(rde)][0][Rexb(rde)][ModrmRm(rde)]);
}
static char *DisRvqp(struct Dis *d, uint32_t rde, char *p) {
return DisRegister(p, kGreg[Osz(rde)][Rexw(rde)][Rexb(rde)][ModrmRm(rde)]);
}
static char *DisRdqp(struct Dis *d, uint32_t rde, char *p) {
return DisRegister(p, kGreg[0][Rexw(rde)][Rexb(rde)][ModrmRm(rde)]);
}
static char *DisEdqp(struct Dis *d, uint32_t rde, char *p) {
return DisRegMem(d, rde, p, DisRdqp);
}
static char *DisEv(struct Dis *d, uint32_t rde, char *p) {
return DisRegMem(d, rde, p, DisRv);
}
static char *DisGvq(struct Dis *d, uint32_t rde, char *p, int r) {
const char *s;
if (Mode(rde) == XED_MODE_LONG) {
s = kGreg[Osz(rde)][!Osz(rde)][Rexb(rde)][r];
} else {
s = kGreg[Osz(rde)][0][Rexb(rde)][r];
}
return DisRegister(p, s);
}
static char *DisZvq(struct Dis *d, uint32_t rde, char *p) {
return DisGvq(d, rde, p, ModrmSrm(rde));
}
static char *DisEvqReg(struct Dis *d, uint32_t rde, char *p) {
return DisGvq(d, rde, p, ModrmRm(rde));
}
static char *DisEvq(struct Dis *d, uint32_t rde, char *p) {
return DisRegMem(d, rde, p, DisEvqReg);
}
static char *DisEdReg(struct Dis *d, uint32_t rde, char *p) {
return DisRegister(p, kGreg[0][0][Rexb(rde)][ModrmRm(rde)]);
}
static char *DisEd(struct Dis *d, uint32_t rde, char *p) {
return DisRegMem(d, rde, p, DisEdReg);
}
static char *DisEqReg(struct Dis *d, uint32_t rde, char *p) {
const char *r;
if (Mode(rde) == XED_MODE_LONG) {
r = kGreg[0][1][Rexb(rde)][ModrmRm(rde)];
} else {
r = kGreg[Osz(rde)][0][Rexb(rde)][ModrmRm(rde)];
}
return DisRegister(p, r);
}
static char *DisEq(struct Dis *d, uint32_t rde, char *p) {
return DisRegMem(d, rde, p, DisEqReg);
}
static char *DisZvqp(struct Dis *d, uint32_t rde, char *p) {
return DisRegisterWord(d, rde, p, Rexb(rde), ModrmSrm(rde));
}
static char *DisZb(struct Dis *d, uint32_t rde, char *p) {
return DisRegisterByte(d, rde, p, Rexb(rde), ModrmSrm(rde));
}
static char *DisEax(struct Dis *d, uint32_t rde, char *p) {
return DisRegister(p, kGreg[Osz(rde)][0][0][0]);
}
static char *DisRax(struct Dis *d, uint32_t rde, char *p) {
return DisRegister(p, kGreg[Osz(rde)][Rexw(rde)][0][0]);
}
static char *DisRdx(struct Dis *d, uint32_t rde, char *p) {
return DisRegister(p, kGreg[Osz(rde)][Rexw(rde)][0][2]);
}
static char *DisPort(struct Dis *d, uint32_t rde, char *p) {
*p++ = '(';
p = DisRegister(p, kGreg[1][0][0][2]);
*p++ = ')';
*p = '\0';
return p;
}
static char *DisCd(struct Dis *d, uint32_t rde, char *p) {
return DisRegister(p, kCtl[ModrmReg(rde)]);
}
static char *DisHd(struct Dis *d, uint32_t rde, char *p) {
return DisRegister(p, kGreg[0][Mode(rde) == XED_MODE_LONG][0][ModrmRm(rde)]);
}
static char *DisImm(struct Dis *d, uint32_t rde, char *p) {
return DisSymLiteral(d, rde, p, d->xedd->op.uimm0,
ZeroExtend(rde, d->xedd->op.uimm0));
}
static char *DisRvds(struct Dis *d, uint32_t rde, char *p) {
return DisSymLiteral(d, rde, p, d->xedd->op.disp, d->xedd->op.disp);
}
static char *DisKpvds(struct Dis *d, uint32_t rde, char *p, uint64_t x) {
*p++ = '$';
p = HighStart(p, g_high.literal);
p = DisInt(p, x);
p = HighEnd(p);
return p;
}
static char *DisKvds(struct Dis *d, uint32_t rde, char *p) {
return DisKpvds(d, rde, p, d->xedd->op.uimm0);
}
static char *DisPvds(struct Dis *d, uint32_t rde, char *p) {
return DisKpvds(d, rde, p,
d->xedd->op.disp & (Osz(rde) ? 0xffff : 0xffffffff));
}
static char *DisOne(struct Dis *d, uint32_t rde, char *p) {
*p++ = '$';
p = HighStart(p, g_high.literal);
p = stpcpy(p, "1");
p = HighEnd(p);
return p;
}
static char *DisJbs(struct Dis *d, uint32_t rde, char *p) {
if (d->xedd->op.disp > 0) *p++ = '+';
p += int64toarray_radix10(d->xedd->op.disp, p);
return p;
}
static char *DisJb(struct Dis *d, uint32_t rde, char *p) {
if (d->xedd->op.disp > 0) *p++ = '+';
p += uint64toarray_radix10(d->xedd->op.disp & 0xff, p);
return p;
}
static char *DisJvds(struct Dis *d, uint32_t rde, char *p) {
return DisSym(d, p, RipRelative(d, d->xedd->op.disp),
RipRelative(d, d->xedd->op.disp) - Read64(d->m->cs));
}
static char *DisAbs(struct Dis *d, uint32_t rde, char *p) {
return DisSym(d, p, d->xedd->op.disp, d->xedd->op.disp);
}
static char *DisSw(struct Dis *d, uint32_t rde, char *p) {
if (kSeg[ModrmReg(rde)][0]) p = DisRegister(p, kSeg[ModrmReg(rde)]);
return p;
}
static char *DisSpecialAddr(struct Dis *d, uint32_t rde, char *p, int r) {
*p++ = '(';
p = DisRegister(p, GetAddrReg(d, rde, 0, r));
*p++ = ')';
*p = '\0';
return p;
}
static char *DisY(struct Dis *d, uint32_t rde, char *p) {
return DisSpecialAddr(d, rde, p, 7); // es:di
}
static char *DisX(struct Dis *d, uint32_t rde, char *p) {
p = DisSego(d, rde, p);
return DisSpecialAddr(d, rde, p, 6); // ds:si
}
static char *DisBBb(struct Dis *d, uint32_t rde, char *p) {
p = DisSego(d, rde, p);
return DisSpecialAddr(d, rde, p, 3); // ds:bx
}
static char *DisXmm(struct Dis *d, uint32_t rde, char *p, const char *s,
int reg) {
p = HighStart(p, g_high.reg);
*p++ = '%';
p = stpcpy(p, s);
p += uint64toarray_radix10(reg, p);
p = HighEnd(p);
return p;
}
static char *DisNq(struct Dis *d, uint32_t rde, char *p) {
return DisXmm(d, rde, p, "mm", ModrmRm(rde));
}
static char *DisPq(struct Dis *d, uint32_t rde, char *p) {
return DisXmm(d, rde, p, "mm", ModrmReg(rde));
}
static char *DisUq(struct Dis *d, uint32_t rde, char *p) {
return DisXmm(d, rde, p, "xmm", RexbRm(rde));
}
static char *DisUdq(struct Dis *d, uint32_t rde, char *p) {
return DisXmm(d, rde, p, "xmm", RexbRm(rde));
}
static char *DisVdq(struct Dis *d, uint32_t rde, char *p) {
return DisXmm(d, rde, p, "xmm", RexrReg(rde));
}
static char *DisQq(struct Dis *d, uint32_t rde, char *p) {
return DisRegMem(d, rde, p, DisNq);
}
static char *DisEst(struct Dis *d, uint32_t rde, char *p) {
p = DisRegister(p, "st");
if (ModrmRm(rde) != 0) {
*p++ = '(';
*p++ = '0' + ModrmRm(rde);
*p++ = ')';
*p = '\0';
}
return p;
}
static char *DisEst1(struct Dis *d, uint32_t rde, char *p) {
if (ModrmRm(rde) != 1) {
p = DisEst(d, rde, p);
} else {
*p = '\0';
}
return p;
}
static char *DisEssr(struct Dis *d, uint32_t rde, char *p) {
return DisRegMem(d, rde, p, DisEst);
}
static char *DisWps(struct Dis *d, uint32_t rde, char *p) {
return DisRegMem(d, rde, p, DisUdq);
}
#define DisEdr DisM
#define DisEqp DisEq
#define DisEsr DisM
#define DisGv DisGvqp
#define DisIb DisImm
#define DisIbs DisImm
#define DisIbss DisImm
#define DisIvds DisImm
#define DisIvqp DisImm
#define DisIvs DisImm
#define DisIw DisImm
#define DisMdi DisM
#define DisMdq DisM
#define DisMdqp DisM
#define DisMdr DisM
#define DisMe DisM
#define DisMer DisM
#define DisMp DisM
#define DisMps DisM
#define DisMq DisM
#define DisMqi DisM
#define DisMs DisM
#define DisMsr DisEssr
#define DisMw DisM
#define DisMwi DisM
#define DisOb DisAbs
#define DisOvqp DisAbs
#define DisPpi DisPq
#define DisQpi DisQq
#define DisVpd DisVdq
#define DisVps DisVdq
#define DisVq DisVdq
#define DisVsd DisVdq
#define DisVss DisVdq
#define DisWdq DisWps
#define DisWpd DisWps
#define DisWpsq DisWps
#define DisWq DisWps
#define DisWsd DisWps
#define DisWss DisWps
#define DisXb DisX
#define DisXv DisX
#define DisXvqp DisX
#define DisYb DisY
#define DisYv DisY
#define DisYvqp DisY
#define DisZv DisZvqp
static const struct DisArg {
char s[8];
char *(*f)(struct Dis *, uint32_t, char *);
} kDisArgs[] = /* <sorted> */ {
{"$1", DisOne}, //
{"%Cd", DisCd}, //
{"%Gb", DisGb}, //
{"%Gdqp", DisGdqp}, //
{"%Gv", DisGv}, //
{"%Gvqp", DisGvqp}, //
{"%Hd", DisHd}, //
{"%Nq", DisNq}, //
{"%Ppi", DisPpi}, //
{"%Pq", DisPq}, //
{"%Rdqp", DisRdqp}, //
{"%Rvqp", DisRvqp}, //
{"%Sw", DisSw}, //
{"%Udq", DisUdq}, //
{"%Uq", DisUq}, //
{"%Vdq", DisVdq}, //
{"%Vpd", DisVpd}, //
{"%Vps", DisVps}, //
{"%Vq", DisVq}, //
{"%Vsd", DisVsd}, //
{"%Vss", DisVss}, //
{"%Zb", DisZb}, //
{"%Zv", DisZv}, //
{"%Zvq", DisZvq}, //
{"%Zvqp", DisZvqp}, //
{"%eAX", DisEax}, //
{"%rAX", DisRax}, //
{"%rDX", DisRdx}, //
{"BBb", DisBBb}, //
{"DX", DisPort}, //
{"EST", DisEst}, //
{"EST1", DisEst1}, //
{"ESsr", DisEssr}, //
{"Eb", DisEb}, //
{"Ed", DisEd}, //
{"Edqp", DisEdqp}, //
{"Edr", DisEdr}, //
{"Eq", DisEq}, //
{"Eqp", DisEqp}, //
{"Esr", DisEsr}, //
{"Ev", DisEv}, //
{"Evq", DisEvq}, //
{"Evqp", DisEvqp}, //
{"Ew", DisEvqp}, //
{"Ib", DisIb}, //
{"Ibs", DisIbs}, //
{"Ibss", DisIbss}, //
{"Ivds", DisIvds}, //
{"Ivqp", DisIvqp}, //
{"Ivs", DisIvs}, //
{"Iw", DisIw}, //
{"Jb", DisJb}, //
{"Jbs", DisJbs}, //
{"Jvds", DisJvds}, //
{"Kvds", DisKvds}, //
{"M", DisM}, //
{"Mdi", DisMdi}, //
{"Mdq", DisMdq}, //
{"Mdqp", DisMdqp}, //
{"Mdr", DisMdr}, //
{"Me", DisMe}, //
{"Mer", DisMer}, //
{"Mp", DisMp}, //
{"Mps", DisMps}, //
{"Mq", DisMq}, //
{"Mqi", DisMqi}, //
{"Ms", DisMs}, //
{"Msr", DisMsr}, //
{"Mw", DisMw}, //
{"Mwi", DisMwi}, //
{"Ob", DisOb}, //
{"Ovqp", DisOvqp}, //
{"Pvds", DisPvds}, //
{"Qpi", DisQpi}, //
{"Qq", DisQq}, //
{"Rvds", DisRvds}, //
{"Wdq", DisWdq}, //
{"Wpd", DisWpd}, //
{"Wps", DisWps}, //
{"Wpsq", DisWpsq}, //
{"Wq", DisWq}, //
{"Wsd", DisWsd}, //
{"Wss", DisWss}, //
{"Xb", DisXb}, //
{"Xv", DisXv}, //
{"Xvqp", DisXvqp}, //
{"Yb", DisYb}, //
{"Yv", DisYv}, //
{"Yvqp", DisYvqp}, //
};
char *DisArg(struct Dis *d, char *p, const char *s) {
char k[8];
int m, l, r;
l = 0;
r = ARRAYLEN(kDisArgs) - 1;
strncpy(k, s, 8);
while (l <= r) {
m = (l + r) >> 1;
if (READ64BE(kDisArgs[m].s) < READ64BE(k)) {
l = m + 1;
} else if (READ64BE(kDisArgs[m].s) > READ64BE(k)) {
r = m - 1;
} else {
return kDisArgs[m].f(d, d->xedd->op.rde, p);
}
}
if (*s == '%') {
p = DisRegister(p, s + 1);
} else {
p = stpcpy(p, s);
}
return p;
}
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