/* -*- 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 "vm/Printer.h" #include "mozilla/PodOperations.h" #include "mozilla/Printf.h" #include "mozilla/RangedPtr.h" #include #include #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 { return printer.put(sp, len); } private: js::GenericPrinter& printer; }; } // namespace namespace js { void GenericPrinter::reportOutOfMemory() { if (hadOOM_) { return; } hadOOM_ = true; } bool GenericPrinter::hadOutOfMemory() const { return hadOOM_; } bool GenericPrinter::printf(const char* fmt, ...) { va_list va; va_start(va, fmt); bool r = vprintf(fmt, va); va_end(va); return r; } bool GenericPrinter::vprintf(const char* fmt, va_list ap) { // Simple shortcut to avoid allocating strings. if (strchr(fmt, '%') == nullptr) { return put(fmt); } GenericPrinterPrintfTarget printer(*this); if (!printer.vprint(fmt, ap)) { reportOutOfMemory(); return false; } return true; } const size_t Sprinter::DefaultSize = 64; bool Sprinter::realloc_(size_t newSize) { MOZ_ASSERT(newSize > (size_t)offset); char* newBuf = (char*)js_realloc(base, newSize); if (!newBuf) { reportOutOfMemory(); return false; } base = newBuf; size = newSize; base[size - 1] = '\0'; return true; } Sprinter::Sprinter(JSContext* maybeCx, bool shouldReportOOM) : maybeCx(maybeCx), #ifdef DEBUG initialized(false), #endif shouldReportOOM(maybeCx && shouldReportOOM), base(nullptr), size(0), offset(0) { } Sprinter::~Sprinter() { #ifdef DEBUG if (initialized) { checkInvariants(); } #endif js_free(base); } bool Sprinter::init() { MOZ_ASSERT(!initialized); base = js_pod_malloc(DefaultSize); if (!base) { reportOutOfMemory(); return false; } #ifdef DEBUG initialized = true; #endif *base = '\0'; size = DefaultSize; base[size - 1] = '\0'; return true; } void Sprinter::checkInvariants() const { MOZ_ASSERT(initialized); MOZ_ASSERT((size_t)offset < size); MOZ_ASSERT(base[size - 1] == '\0'); } UniqueChars Sprinter::release() { checkInvariants(); if (hadOOM_) { return nullptr; } char* str = base; base = nullptr; offset = size = 0; #ifdef DEBUG initialized = false; #endif return UniqueChars(str); } char* Sprinter::stringAt(ptrdiff_t off) const { MOZ_ASSERT(off >= 0 && (size_t)off < size); return base + off; } char& Sprinter::operator[](size_t off) { MOZ_ASSERT(off < size); return *(base + off); } char* Sprinter::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; } bool Sprinter::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 false; } /* s is within the buffer already */ if (s >= oldBase && s < oldEnd) { /* buffer was realloc'ed */ if (base != oldBase) { s = stringAt(s - oldBase); /* this is where it lives now */ } memmove(bp, s, len); } else { js_memcpy(bp, s, len); } bp[len] = '\0'; return true; } bool Sprinter::putString(JSString* s) { MOZ_ASSERT(maybeCx); InvariantChecker ic(this); JSLinearString* linear = s->ensureLinear(maybeCx); if (!linear) { return false; } size_t length = JS::GetDeflatedUTF8StringLength(linear); char* buffer = reserve(length); if (!buffer) { return false; } mozilla::DebugOnly written = JS::DeflateStringToUTF8Buffer(linear, mozilla::Span(buffer, length)); MOZ_ASSERT(written == length); buffer[length] = '\0'; return true; } ptrdiff_t Sprinter::getOffset() const { return offset; } void Sprinter::reportOutOfMemory() { if (hadOOM_) { return; } if (maybeCx && shouldReportOOM) { ReportOutOfMemory(maybeCx); } hadOOM_ = true; } bool Sprinter::jsprintf(const char* format, ...) { va_list ap; va_start(ap, format); bool r = vprintf(format, ap); va_end(ap); return r; } 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 bool QuoteString(Sprinter* sp, const mozilla::Range chars, char quote) { MOZ_ASSERT_IF(target == QuoteTarget::JSON, quote == '\0'); using CharPtr = mozilla::RangedPtr; const char* escapeMap = (target == QuoteTarget::String) ? js_EscapeMap : JSONEscapeMap; if (quote) { if (!sp->putChar(quote)) { return false; } } const CharPtr end = chars.end(); /* Loop control variables: end points at end of string sentinel. */ for (CharPtr t = chars.begin(); t < end; ++t) { /* Move t forward from s past un-quote-worthy characters. */ const CharPtr s = t; char16_t c = *t; while (c < 127 && c != '\\') { if (target == QuoteTarget::String) { if (!IsAsciiPrintable(c) || c == quote || c == '\t') { break; } } else { if (c < ' ' || c == '"') { break; } } ++t; if (t == end) { break; } c = *t; } { ptrdiff_t len = t - s; ptrdiff_t base = sp->getOffset(); if (!sp->reserve(len)) { return false; } for (ptrdiff_t i = 0; i < len; ++i) { (*sp)[base + i] = char(s[i]); } (*sp)[base + len] = '\0'; } if (t == end) { break; } /* Use escapeMap, \u, or \x only if necessary. */ const char* escape; if (!(c >> 8) && c != 0 && (escape = strchr(escapeMap, int(c))) != nullptr) { if (!sp->jsprintf("\\%c", escape[1])) { return false; } } 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). */ if (!sp->jsprintf((quote && !(c >> 8)) ? "\\x%02X" : "\\u%04X", c)) { return false; } } } /* Sprint the closing quote and return the quoted string. */ if (quote) { if (!sp->putChar(quote)) { return false; } } return true; } template bool QuoteString( Sprinter* sp, const mozilla::Range chars, char quote); template bool QuoteString( Sprinter* sp, const mozilla::Range chars, char quote); template bool QuoteString( Sprinter* sp, const mozilla::Range chars, char quote); template bool QuoteString( Sprinter* sp, const mozilla::Range chars, char quote); bool QuoteString(Sprinter* sp, JSString* str, char quote /*= '\0' */) { MOZ_ASSERT(sp->maybeCx); JSLinearString* linear = str->ensureLinear(sp->maybeCx); if (!linear) { return false; } JS::AutoCheckCannotGC nogc; return linear->hasLatin1Chars() ? QuoteString( sp, linear->latin1Range(nogc), quote) : QuoteString( sp, linear->twoByteRange(nogc), quote); } UniqueChars QuoteString(JSContext* cx, JSString* str, char quote /* = '\0' */) { Sprinter sprinter(cx); if (!sprinter.init()) { return nullptr; } if (!QuoteString(&sprinter, str, quote)) { return nullptr; } return sprinter.release(); } bool JSONQuoteString(Sprinter* sp, JSString* str) { MOZ_ASSERT(sp->maybeCx); JSLinearString* linear = str->ensureLinear(sp->maybeCx); if (!linear) { return false; } JS::AutoCheckCannotGC nogc; return linear->hasLatin1Chars() ? QuoteString( sp, linear->latin1Range(nogc), '\0') : QuoteString( sp, linear->twoByteRange(nogc), '\0'); } 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; } bool Fprinter::put(const char* s, size_t len) { MOZ_ASSERT(file_); int i = fwrite(s, /*size=*/1, /*nitems=*/len, file_); if (size_t(i) != len) { reportOutOfMemory(); return false; } #ifdef XP_WIN if ((file_ == stderr) && (IsDebuggerPresent())) { UniqueChars buf = DuplicateString(s, len); if (!buf) { reportOutOfMemory(); return false; } OutputDebugStringA(buf.get()); } #endif return true; } 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; } bool LSprinter::put(const char* s, size_t len) { // 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(alloc_->alloc(allocLength)); if (!last) { reportOutOfMemory(); return false; } } // 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(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); return true; } } // namespace js