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cosmopolitan/tool/build/lib/stack.c
Justine Tunney bf03b2e64c Make major improvements to redbean and libraries 
The most exciting improvement is dynamic pages will soon be able to use
the executable itself as an object store. it required a heroic technique
for overcoming ETXTBSY restrictions which lets us open the executable in
read/write mode, which means (1) wa can restore the APE header, and (2)
we can potentially containerize redbean extension code so that modules
you download for your redbean online will only impact your redbean.

Here's a list of breaking changes to redbean:

- Remove /tool/net/ prefix from magic ZIP paths
- GetHeader() now returns NIL if header is absent

Here's a list of fixes and enhancements to redbean:

- Support 64-bit ZIP archives
- Record User-Agent header in logs
- Add twelve error handlers to accept()
- Display octal st_mode on listing page
- Show ZIP file comments on listing page
- Restore APE MZ header on redbean startup
- Track request count on redbean index page
- Report server uptime on redbean index page
- Don't bind server socket using SO_REUSEPORT
- Fix #151 where Lua LoadAsset() could free twice
- Report rusage accounting when workers exit w/ -vv
- Use ZIP iattr field as text/plain vs. binary hint
- Add ParseUrl() API for parsing things like a.href
- Add ParseParams() API for parsing HTTP POST bodies
- Add IsAcceptablePath() API for checking dots, etc.
- Add IsValidHttpToken() API for validating sane ASCII
- Add IsAcceptableHostPort() for validating HOST[:PORT]
- Send 400 response to HTTP/1.1 requests without a Host
- Send 403 response if ZIP or file isn't other readable
- Add virtual hosting that tries prepending Host to path
- Route requests based on Host in Request-URI if present
- Host routing will attempt to remove or add the www. prefix
- Sign-extend UNIX timestamps and don't adjust FileTime zone

Here's some of the improvements made to Cosmopolitan Libc:

- Fix ape.S indentation
- Improve consts.sh magnums
- Write pretty good URL parser
- Improve rusage accounting apis
- Bring mremap() closer to working
- Added ZIP APIs which will change
- Check for overflow in reallocarray()
- Remove overly fancy linkage in strerror()
- Fix GDB attach on crash w/ OpenBSD msyscall()
- Make sigqueue() portable to most UNIX distros
- Make integer serialization macros more elegant
- Bring back 34x tprecode8to16() performance boost
- Make malloc() more resilient to absurdly large sizes
2021-04-18 12:34:15 -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/log/check.h"
#include "libc/macros.internal.h"
#include "libc/str/str.h"
#include "tool/build/lib/address.h"
#include "tool/build/lib/endian.h"
#include "tool/build/lib/memory.h"
#include "tool/build/lib/modrm.h"
#include "tool/build/lib/stack.h"
#include "tool/build/lib/throw.h"
static const uint8_t kStackOsz[2][3] = {
[0][XED_MODE_REAL] = 2, [0][XED_MODE_LEGACY] = 4, [0][XED_MODE_LONG] = 8,
[1][XED_MODE_REAL] = 4, [1][XED_MODE_LEGACY] = 2, [1][XED_MODE_LONG] = 2,
};
static const uint8_t kCallOsz[2][3] = {
[0][XED_MODE_REAL] = 2, [0][XED_MODE_LEGACY] = 4, [0][XED_MODE_LONG] = 8,
[1][XED_MODE_REAL] = 4, [1][XED_MODE_LEGACY] = 2, [1][XED_MODE_LONG] = 8,
};
static void WriteStackWord(uint8_t *p, uint32_t rde, uint32_t osz, uint64_t x) {
if (osz == 8) {
Write64(p, x);
} else if (osz == 2) {
Write16(p, x);
} else {
Write32(p, x);
}
}
static uint64_t ReadStackWord(uint8_t *p, uint32_t osz) {
if (osz == 8) {
return Read64(p);
} else if (osz == 2) {
return Read16(p);
} else {
return Read32(p);
}
}
static void PushN(struct Machine *m, uint32_t rde, uint64_t x, unsigned osz) {
uint64_t v;
void *p[2];
uint8_t b[8];
switch (Eamode(rde)) {
case XED_MODE_REAL:
v = (Read32(m->sp) - osz) & 0xffff;
Write16(m->sp, v);
v += Read64(m->ss);
break;
case XED_MODE_LEGACY:
v = (Read32(m->sp) - osz) & 0xffffffff;
Write64(m->sp, v);
v += Read64(m->ss);
break;
case XED_MODE_LONG:
v = (Read64(m->sp) - osz) & 0xffffffffffffffff;
Write64(m->sp, v);
break;
default:
unreachable;
}
WriteStackWord(AccessRam(m, v, osz, p, b, false), rde, osz, x);
EndStore(m, v, osz, p, b);
}
void Push(struct Machine *m, uint32_t rde, uint64_t x) {
PushN(m, rde, x, kStackOsz[m->xedd->op.osz][Mode(rde)]);
}
void OpPushZvq(struct Machine *m, uint32_t rde) {
unsigned osz;
osz = kStackOsz[m->xedd->op.osz][Mode(rde)];
PushN(m, rde, ReadStackWord(RegRexbSrm(m, rde), osz), osz);
}
static uint64_t PopN(struct Machine *m, uint32_t rde, uint16_t extra,
unsigned osz) {
uint64_t v;
void *p[2];
uint8_t b[8];
switch (Eamode(rde)) {
case XED_MODE_LONG:
v = Read64(m->sp);
Write64(m->sp, v + osz + extra);
break;
case XED_MODE_LEGACY:
v = Read32(m->sp);
Write64(m->sp, (v + osz + extra) & 0xffffffff);
v += Read64(m->ss);
break;
case XED_MODE_REAL:
v = Read32(m->sp);
Write16(m->sp, v + osz + extra);
v += Read64(m->ss);
break;
default:
unreachable;
}
return ReadStackWord(AccessRam(m, v, osz, p, b, true), osz);
}
uint64_t Pop(struct Machine *m, uint32_t rde, uint16_t extra) {
return PopN(m, rde, extra, kStackOsz[m->xedd->op.osz][Mode(rde)]);
}
void OpPopZvq(struct Machine *m, uint32_t rde) {
uint64_t x;
unsigned osz;
osz = kStackOsz[m->xedd->op.osz][Mode(rde)];
x = PopN(m, rde, 0, osz);
switch (osz) {
case 8:
case 4:
Write64(RegRexbSrm(m, rde), x);
break;
case 2:
Write16(RegRexbSrm(m, rde), x);
break;
default:
unreachable;
}
}
static void OpCall(struct Machine *m, uint32_t rde, uint64_t func) {
Push(m, rde, m->ip);
m->ip = func;
}
void OpCallJvds(struct Machine *m, uint32_t rde) {
OpCall(m, rde, m->ip + m->xedd->op.disp);
}
static uint64_t LoadAddressFromMemory(struct Machine *m, uint32_t rde) {
unsigned osz;
osz = kCallOsz[m->xedd->op.osz][Mode(rde)];
return ReadStackWord(GetModrmRegisterWordPointerRead(m, rde, osz), osz);
}
void OpCallEq(struct Machine *m, uint32_t rde) {
OpCall(m, rde, LoadAddressFromMemory(m, rde));
}
void OpJmpEq(struct Machine *m, uint32_t rde) {
m->ip = LoadAddressFromMemory(m, rde);
}
void OpLeave(struct Machine *m, uint32_t rde) {
switch (Eamode(rde)) {
case XED_MODE_LONG:
Write64(m->sp, Read64(m->bp));
Write64(m->bp, Pop(m, rde, 0));
break;
case XED_MODE_LEGACY:
Write64(m->sp, Read32(m->bp));
Write64(m->bp, Pop(m, rde, 0));
break;
case XED_MODE_REAL:
Write16(m->sp, Read16(m->bp));
Write16(m->bp, Pop(m, rde, 0));
break;
default:
unreachable;
}
}
void OpRet(struct Machine *m, uint32_t rde) {
m->ip = Pop(m, rde, m->xedd->op.uimm0);
}
void OpPushEvq(struct Machine *m, uint32_t rde) {
unsigned osz;
osz = kStackOsz[m->xedd->op.osz][Mode(rde)];
Push(m, rde,
ReadStackWord(GetModrmRegisterWordPointerRead(m, rde, osz), osz));
}
void OpPopEvq(struct Machine *m, uint32_t rde) {
unsigned osz;
osz = kStackOsz[m->xedd->op.osz][Mode(rde)];
WriteStackWord(GetModrmRegisterWordPointerWrite(m, rde, osz), rde, osz,
Pop(m, rde, 0));
}
static relegated void Pushaw(struct Machine *m, uint32_t rde) {
uint16_t v;
uint8_t b[8][2];
memcpy(b[0], m->di, 2);
memcpy(b[1], m->si, 2);
memcpy(b[2], m->bp, 2);
memcpy(b[3], m->sp, 2);
memcpy(b[4], m->bx, 2);
memcpy(b[5], m->dx, 2);
memcpy(b[6], m->cx, 2);
memcpy(b[7], m->ax, 2);
Write16(m->sp, (v = (Read16(m->sp) - sizeof(b)) & 0xffff));
VirtualRecv(m, Read64(m->ss) + v, b, sizeof(b));
}
static relegated void Pushad(struct Machine *m, uint32_t rde) {
uint32_t v;
uint8_t b[8][4];
memcpy(b[0], m->di, 4);
memcpy(b[1], m->si, 4);
memcpy(b[2], m->bp, 4);
memcpy(b[3], m->sp, 4);
memcpy(b[4], m->bx, 4);
memcpy(b[5], m->dx, 4);
memcpy(b[6], m->cx, 4);
memcpy(b[7], m->ax, 4);
Write64(m->sp, (v = (Read32(m->sp) - sizeof(b)) & 0xffffffff));
VirtualRecv(m, Read64(m->ss) + v, b, sizeof(b));
}
static relegated void Popaw(struct Machine *m, uint32_t rde) {
uint8_t b[8][2];
VirtualSend(m, b, Read64(m->ss) + Read16(m->sp), sizeof(b));
Write16(m->sp, (Read32(m->sp) + sizeof(b)) & 0xffff);
memcpy(m->di, b[0], 2);
memcpy(m->si, b[1], 2);
memcpy(m->bp, b[2], 2);
memcpy(m->sp, b[3], 2);
memcpy(m->bx, b[4], 2);
memcpy(m->dx, b[5], 2);
memcpy(m->cx, b[6], 2);
memcpy(m->ax, b[7], 2);
}
static relegated void Popad(struct Machine *m, uint32_t rde) {
uint8_t b[8][4];
VirtualSend(m, b, Read64(m->ss) + Read32(m->sp), sizeof(b));
Write64(m->sp, (Read32(m->sp) + sizeof(b)) & 0xffffffff);
memcpy(m->di, b[0], 4);
memcpy(m->si, b[1], 4);
memcpy(m->bp, b[2], 4);
memcpy(m->sp, b[3], 4);
memcpy(m->bx, b[4], 4);
memcpy(m->dx, b[5], 4);
memcpy(m->cx, b[6], 4);
memcpy(m->ax, b[7], 4);
}
relegated void OpPusha(struct Machine *m, uint32_t rde) {
switch (Eamode(rde)) {
case XED_MODE_REAL:
Pushaw(m, rde);
break;
case XED_MODE_LEGACY:
Pushad(m, rde);
break;
case XED_MODE_LONG:
OpUd(m, rde);
default:
unreachable;
}
}
relegated void OpPopa(struct Machine *m, uint32_t rde) {
switch (Eamode(rde)) {
case XED_MODE_REAL:
Popaw(m, rde);
break;
case XED_MODE_LEGACY:
Popad(m, rde);
break;
case XED_MODE_LONG:
OpUd(m, rde);
default:
unreachable;
}
}
relegated void OpCallf(struct Machine *m, uint32_t rde) {
Push(m, rde, Read64(m->cs) >> 4);
Push(m, rde, m->ip);
Write64(m->cs, m->xedd->op.uimm0 << 4);
m->ip = m->xedd->op.disp & (Osz(rde) ? 0xffff : 0xffffffff);
if (m->onlongbranch) {
m->onlongbranch(m);
}
}
relegated void OpRetf(struct Machine *m, uint32_t rde) {
m->ip = Pop(m, rde, 0);
Write64(m->cs, Pop(m, rde, m->xedd->op.uimm0) << 4);
if (m->onlongbranch) {
m->onlongbranch(m);
}
}
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