/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* vim: set ts=8 sts=2 et sw=2 tw=80:
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "js/Printer.h"
#include "mozilla/PodOperations.h"
#include "mozilla/Printf.h"
#include "mozilla/RangedPtr.h"
#include <stdarg.h>
#include <stdio.h>
#include "ds/LifoAlloc.h"
#include "js/CharacterEncoding.h"
#include "util/Memory.h"
#include "util/Text.h"
#include "util/WindowsWrapper.h"
#include "vm/StringType.h"
using mozilla::PodCopy;
namespace {
class GenericPrinterPrintfTarget :
public mozilla::PrintfTarget {
public:
explicit GenericPrinterPrintfTarget(js::GenericPrinter& p) : printer(p) {}
bool append(
const char* sp, size_t len) override {
printer.put(sp, len);
return true;
}
private:
js::GenericPrinter& printer;
};
}
// namespace
namespace js {
void GenericPrinter::setPendingOutOfMemory() {
if (hadOOM_) {
return;
}
hadOOM_ =
true;
}
void GenericPrinter::put(mozilla::Span<
const JS::Latin1Char> str) {
if (!str.Length()) {
return;
}
put(
reinterpret_cast<
const char*>(&str[0]), str.Length());
}
void GenericPrinter::put(mozilla::Span<
const char16_t> str) {
for (char16_t c : str) {
putChar(c);
}
}
void GenericPrinter::putString(JSContext* cx, JSString* str) {
StringSegmentRange iter(cx);
if (!iter.init(str)) {
setPendingOutOfMemory();
return;
}
JS::AutoCheckCannotGC nogc;
while (!iter.empty()) {
JSLinearString* linear = iter.front();
if (linear->hasLatin1Chars()) {
put(linear->latin1Range(nogc));
}
else {
put(linear->twoByteRange(nogc));
}
if (!iter.popFront()) {
setPendingOutOfMemory();
return;
}
}
}
void GenericPrinter::printf(
const char* fmt, ...) {
va_list va;
va_start(va, fmt);
vprintf(fmt, va);
va_end(va);
}
void GenericPrinter::vprintf(
const char* fmt, va_list ap) {
// Simple shortcut to avoid allocating strings.
if (strchr(fmt,
'%') == nullptr) {
put(fmt);
return;
}
GenericPrinterPrintfTarget printer(*
this);
(
void)printer.vprint(fmt, ap);
}
const size_t StringPrinter::DefaultSize = 64;
bool StringPrinter::realloc_(size_t newSize) {
MOZ_ASSERT(newSize > (size_t)offset);
if (hadOOM_) {
return false;
}
char* newBuf = (
char*)js_arena_realloc(arena, base, newSize);
if (!newBuf) {
// NOTE: The consumer of this method shouldn't directly propagate the error
// mode to the outside of this class.
// The OOM flag set here should be forwarded to the JSContext with
// the releaseChars etc.
setPendingOutOfMemory();
return false;
}
base = newBuf;
size = newSize;
base[size - 1] =
'\0';
return true;
}
StringPrinter::StringPrinter(arena_id_t arena, JSContext* maybeCx,
bool shouldReportOOM)
: maybeCx(maybeCx),
#ifdef DEBUG
initialized(
false),
#endif
shouldReportOOM(maybeCx && shouldReportOOM),
base(nullptr),
size(0),
offset(0),
arena(arena) {
}
StringPrinter::~StringPrinter() {
#ifdef DEBUG
if (initialized) {
checkInvariants();
}
#endif
js_free(base);
}
bool StringPrinter::init() {
MOZ_ASSERT(!initialized);
base = js_pod_arena_malloc<
char>(arena, DefaultSize);
if (!base) {
setPendingOutOfMemory();
forwardOutOfMemory();
return false;
}
#ifdef DEBUG
initialized =
true;
#endif
*base =
'\0';
size = DefaultSize;
base[size - 1] =
'\0';
return true;
}
void StringPrinter::checkInvariants()
const {
MOZ_ASSERT(initialized);
MOZ_ASSERT((size_t)offset < size);
MOZ_ASSERT(base[size - 1] ==
'\0');
}
UniqueChars StringPrinter::releaseChars() {
if (hadOOM_) {
forwardOutOfMemory();
return nullptr;
}
checkInvariants();
char* str = base;
base = nullptr;
offset = size = 0;
#ifdef DEBUG
initialized =
false;
#endif
return UniqueChars(str);
}
JSString* StringPrinter::releaseJS(JSContext* cx) {
if (hadOOM_) {
MOZ_ASSERT_IF(maybeCx, maybeCx == cx);
forwardOutOfMemory();
return nullptr;
}
checkInvariants();
// Extract StringPrinter data.
size_t len = length();
UniqueChars str(base);
// Reset StringPrinter.
base = nullptr;
offset = 0;
size = 0;
#ifdef DEBUG
initialized =
false;
#endif
// Convert extracted data to a JSString, reusing the current buffer whenever
// possible.
JS::UTF8Chars utf8(str.get(), len);
JS::SmallestEncoding encoding = JS::FindSmallestEncoding(utf8);
if (encoding == JS::SmallestEncoding::ASCII) {
UniqueLatin1Chars latin1(
reinterpret_cast<JS::Latin1Char*>(str.release()));
return js::NewString<js::CanGC>(cx, std::move(latin1), len);
}
size_t length;
if (encoding == JS::SmallestEncoding::Latin1) {
UniqueLatin1Chars latin1(
UTF8CharsToNewLatin1CharsZ(cx, utf8, &length, js::StringBufferArena)
.get());
if (!latin1) {
return nullptr;
}
return js::NewString<js::CanGC>(cx, std::move(latin1), length);
}
MOZ_ASSERT(encoding == JS::SmallestEncoding::UTF16);
UniqueTwoByteChars utf16(
UTF8CharsToNewTwoByteCharsZ(cx, utf8, &length, js::StringBufferArena)
.get());
if (!utf16) {
return nullptr;
}
return js::NewString<js::CanGC>(cx, std::move(utf16), length);
}
char* StringPrinter::reserve(size_t len) {
InvariantChecker ic(
this);
while (len + 1 > size - offset) {
/* Include trailing \0 */
if (!realloc_(size * 2)) {
return nullptr;
}
}
char* sb = base + offset;
offset += len;
return sb;
}
void StringPrinter::put(
const char* s, size_t len) {
InvariantChecker ic(
this);
const char* oldBase = base;
const char* oldEnd = base + size;
char* bp = reserve(len);
if (!bp) {
return;
}
// s is within the buffer already
if (s >= oldBase && s < oldEnd) {
// Update the source pointer in case of a realloc-ation.
size_t index = s - oldBase;
s = &base[index];
memmove(bp, s, len);
}
else {
js_memcpy(bp, s, len);
}
bp[len] =
'\0';
}
void StringPrinter::putString(JSContext* cx, JSString* s) {
MOZ_ASSERT(cx);
InvariantChecker ic(
this);
JSLinearString* linear = s->ensureLinear(cx);
if (!linear) {
return;
}
size_t length = JS::GetDeflatedUTF8StringLength(linear);
char* buffer = reserve(length);
if (!buffer) {
return;
}
mozilla::DebugOnly<size_t> written =
JS::DeflateStringToUTF8Buffer(linear, mozilla::Span(buffer, length));
MOZ_ASSERT(written == length);
buffer[length] =
'\0';
}
size_t StringPrinter::length()
const {
return size_t(offset); }
void StringPrinter::forwardOutOfMemory() {
MOZ_ASSERT(hadOOM_);
if (maybeCx && shouldReportOOM) {
ReportOutOfMemory(maybeCx);
}
}
const char js_EscapeMap[] = {
// clang-format off
'\b',
'b',
'\f',
'f',
'\n',
'n',
'\r',
'r',
'\t',
't',
'\v',
'v',
'"',
'"',
'\'', '\
'',
'\\',
'\\',
'\0'
// clang-format on
};
static const char JSONEscapeMap[] = {
// clang-format off
'\b',
'b',
'\f',
'f',
'\n',
'n',
'\r',
'r',
'\t',
't',
'"',
'"',
'\\',
'\\',
'\0'
// clang-format on
};
template <QuoteTarget target,
typename CharT>
JS_PUBLIC_API
void QuoteString(Sprinter* sp,
const mozilla::Range<
const CharT>& chars,
char quote) {
MOZ_ASSERT_IF(target == QuoteTarget::JSON, quote ==
'\0');
if (quote) {
sp->putChar(quote);
}
if (target == QuoteTarget::String) {
StringEscape esc(quote);
EscapePrinter ep(*sp, esc);
ep.put(chars);
}
else {
MOZ_ASSERT(target == QuoteTarget::JSON);
JSONEscape esc;
EscapePrinter ep(*sp, esc);
ep.put(chars);
}
if (quote) {
sp->putChar(quote);
}
}
template JS_PUBLIC_API
void QuoteString<QuoteTarget::String, Latin1Char>(
Sprinter* sp,
const mozilla::Range<
const Latin1Char>& chars,
char quote);
template JS_PUBLIC_API
void QuoteString<QuoteTarget::String, char16_t>(
Sprinter* sp,
const mozilla::Range<
const char16_t>& chars,
char quote);
template JS_PUBLIC_API
void QuoteString<QuoteTarget::JSON, Latin1Char>(
Sprinter* sp,
const mozilla::Range<
const Latin1Char>& chars,
char quote);
template JS_PUBLIC_API
void QuoteString<QuoteTarget::JSON, char16_t>(
Sprinter* sp,
const mozilla::Range<
const char16_t>& chars,
char quote);
JS_PUBLIC_API
void QuoteString(Sprinter* sp, JSString* str,
char quote
/*= '\0' */) {
MOZ_ASSERT(sp->maybeCx);
if (quote) {
sp->putChar(quote);
}
StringEscape esc(quote);
EscapePrinter ep(*sp, esc);
ep.putString(sp->maybeCx, str);
if (quote) {
sp->putChar(quote);
}
}
JS_PUBLIC_API UniqueChars QuoteString(JSContext* cx, JSString* str,
char quote
/* = '\0' */) {
Sprinter sprinter(cx);
if (!sprinter.init()) {
return nullptr;
}
QuoteString(&sprinter, str, quote);
return sprinter.release();
}
JS_PUBLIC_API
void JSONQuoteString(StringPrinter* sp, JSString* str) {
MOZ_ASSERT(sp->maybeCx);
JSONEscape esc;
EscapePrinter ep(*sp, esc);
ep.putString(sp->maybeCx, str);
}
Fprinter::Fprinter(FILE* fp) : file_(nullptr), init_(
false) { init(fp); }
#ifdef DEBUG
Fprinter::~Fprinter() { MOZ_ASSERT_IF(init_, !file_); }
#endif
bool Fprinter::init(
const char* path) {
MOZ_ASSERT(!file_);
file_ = fopen(path,
"w");
if (!file_) {
return false;
}
init_ =
true;
return true;
}
void Fprinter::init(FILE* fp) {
MOZ_ASSERT(!file_);
file_ = fp;
init_ =
false;
}
void Fprinter::flush() {
MOZ_ASSERT(file_);
fflush(file_);
}
void Fprinter::finish() {
MOZ_ASSERT(file_);
if (init_) {
fclose(file_);
}
file_ = nullptr;
}
void Fprinter::put(
const char* s, size_t len) {
if (hadOutOfMemory()) {
return;
}
MOZ_ASSERT(file_);
int i = fwrite(s,
/*size=*/1, /*nitems=*/len, file_);
if (size_t(i) != len) {
setPendingOutOfMemory();
return;
}
#ifdef XP_WIN
if ((file_ == stderr) && (IsDebuggerPresent())) {
UniqueChars buf = DuplicateString(s, len);
if (!buf) {
setPendingOutOfMemory();
return;
}
OutputDebugStringA(buf.get());
}
#endif
}
LSprinter::LSprinter(LifoAlloc* lifoAlloc)
: alloc_(lifoAlloc), head_(nullptr), tail_(nullptr), unused_(0) {}
LSprinter::~LSprinter() {
// This LSprinter might be allocated as part of the same LifoAlloc, so we
// should not expect the destructor to be called.
}
void LSprinter::exportInto(GenericPrinter& out)
const {
if (!head_) {
return;
}
for (Chunk* it = head_; it != tail_; it = it->next) {
out.put(it->chars(), it->length);
}
out.put(tail_->chars(), tail_->length - unused_);
}
void LSprinter::clear() {
head_ = nullptr;
tail_ = nullptr;
unused_ = 0;
hadOOM_ =
false;
}
void LSprinter::put(
const char* s, size_t len) {
if (hadOutOfMemory()) {
return;
}
// Compute how much data will fit in the current chunk.
size_t existingSpaceWrite = 0;
size_t overflow = len;
if (unused_ > 0 && tail_) {
existingSpaceWrite = std::min(unused_, len);
overflow = len - existingSpaceWrite;
}
// If necessary, allocate a new chunk for overflow data.
size_t allocLength = 0;
Chunk* last = nullptr;
if (overflow > 0) {
allocLength =
AlignBytes(
sizeof(Chunk) + overflow, js::detail::LIFO_ALLOC_ALIGN);
LifoAlloc::AutoFallibleScope fallibleAllocator(alloc_);
last =
reinterpret_cast<Chunk*>(alloc_->alloc(allocLength));
if (!last) {
setPendingOutOfMemory();
return;
}
}
// All fallible operations complete: now fill up existing space, then
// overflow space in any new chunk.
MOZ_ASSERT(existingSpaceWrite + overflow == len);
if (existingSpaceWrite > 0) {
PodCopy(tail_->end() - unused_, s, existingSpaceWrite);
unused_ -= existingSpaceWrite;
s += existingSpaceWrite;
}
if (overflow > 0) {
if (tail_ &&
reinterpret_cast<
char*>(last) == tail_->end()) {
// tail_ and last are consecutive in memory. LifoAlloc has no
// metadata and is just a bump allocator, so we can cheat by
// appending the newly-allocated space to tail_.
unused_ = allocLength;
tail_->length += allocLength;
}
else {
// Remove the size of the header from the allocated length.
size_t availableSpace = allocLength -
sizeof(Chunk);
last->next = nullptr;
last->length = availableSpace;
unused_ = availableSpace;
if (!head_) {
head_ = last;
}
else {
tail_->next = last;
}
tail_ = last;
}
PodCopy(tail_->end() - unused_, s, overflow);
MOZ_ASSERT(unused_ >= overflow);
unused_ -= overflow;
}
MOZ_ASSERT(len <= INT_MAX);
}
bool JSONEscape::isSafeChar(char16_t c) {
return js::IsAsciiPrintable(c) && c !=
'"' && c !=
'\\';
}
void JSONEscape::convertInto(GenericPrinter& out, char16_t c) {
const char* escape = nullptr;
if (!(c >> 8) && c != 0 &&
(escape = strchr(JSONEscapeMap,
int(c))) != nullptr) {
out.printf(
"\\%c", escape[1]);
}
else {
out.printf(
"\\u%04X", c);
}
}
bool StringEscape::isSafeChar(char16_t c) {
return js::IsAsciiPrintable(c) && c != quote && c !=
'\\';
}
void StringEscape::convertInto(GenericPrinter& out, char16_t c) {
const char* escape = nullptr;
if (!(c >> 8) && c != 0 &&
(escape = strchr(js_EscapeMap,
int(c))) != nullptr) {
out.printf(
"\\%c", escape[1]);
}
else {
// Use \x only if the high byte is 0 and we're in a quoted string, because
// ECMA-262 allows only \u, not \x, in Unicode identifiers (see bug 621814).
out.printf(!(c >> 8) ?
"\\x%02X" :
"\\u%04X", c);
}
}
void IndentedPrinter::putIndent() {
// Allocate a static buffer of 16 spaces (plus null terminator) and use that
// in batches for the total number of spaces we need to put.
static const char spaceBuffer[17] =
" ";
size_t remainingSpaces = indentLevel_ * indentAmount_;
while (remainingSpaces > 16) {
out_.put(spaceBuffer, 16);
remainingSpaces -= 16;
}
if (remainingSpaces) {
out_.put(spaceBuffer, remainingSpaces);
}
}
void IndentedPrinter::putWithMaybeIndent(
const char* s, size_t len) {
if (len == 0) {
return;
}
if (pendingIndent_) {
putIndent();
pendingIndent_ =
false;
}
out_.put(s, len);
}
void IndentedPrinter::put(
const char* s, size_t len) {
const char* current = s;
// Split the text into lines and output each with an indent
while (
const char* nextLineEnd = (
const char*)memchr(current,
'\n', len)) {
// Put this line (including the new-line)
size_t lineWithNewLineSize = nextLineEnd - current + 1;
putWithMaybeIndent(current, lineWithNewLineSize);
// The next put should have an indent added
pendingIndent_ =
true;
// Advance the cursor
current += lineWithNewLineSize;
len -= lineWithNewLineSize;
}
// Put any remaining text
putWithMaybeIndent(current, len);
}
}
// namespace js
