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// Copyright Joyent, Inc. and other Node contributors.
//
// 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.
#include "node.h"
#include "node_buffer.h"
#include "v8.h"
#include "v8-profiler.h"
#include <assert.h>
#include <string.h> // memcpy
#include <limits.h>
#define MIN(a,b) ((a) < (b) ? (a) : (b))
#define BUFFER_CLASS_ID (0xBABE)
15 years ago
namespace node {
using namespace v8;
#define SLICE_ARGS(start_arg, end_arg) \
if (!start_arg->IsInt32() || !end_arg->IsInt32()) { \
return ThrowException(Exception::TypeError( \
String::New("Bad argument."))); \
} \
int32_t start = start_arg->Int32Value(); \
int32_t end = end_arg->Int32Value(); \
if (start < 0 || end < 0) { \
return ThrowException(Exception::TypeError( \
String::New("Bad argument."))); \
} \
if (!(start <= end)) { \
return ThrowException(Exception::Error( \
String::New("Must have start <= end"))); \
} \
if ((size_t)end > parent->length_) { \
return ThrowException(Exception::Error( \
String::New("end cannot be longer than parent.length"))); \
}
15 years ago
static Persistent<String> length_symbol;
static Persistent<String> chars_written_sym;
static Persistent<String> write_sym;
static Persistent<Function> fast_buffer_constructor;
Persistent<FunctionTemplate> Buffer::constructor_template;
15 years ago
static inline size_t base64_decoded_size(const char *src, size_t size) {
const char *const end = src + size;
const int remainder = size % 4;
size = (size / 4) * 3;
if (remainder) {
if (size == 0 && remainder == 1) {
// special case: 1-byte input cannot be decoded
size = 0;
} else {
// non-padded input, add 1 or 2 extra bytes
size += 1 + (remainder == 3);
}
}
// check for trailing padding (1 or 2 bytes)
if (size > 0) {
if (end[-1] == '=') size--;
if (end[-2] == '=') size--;
}
return size;
}
static size_t ByteLength (Handle<String> string, enum encoding enc) {
HandleScope scope;
if (enc == UTF8) {
return string->Utf8Length();
} else if (enc == BASE64) {
String::Utf8Value v(string);
return base64_decoded_size(*v, v.length());
} else if (enc == UCS2) {
return string->Length() * 2;
} else if (enc == HEX) {
return string->Length() / 2;
} else {
return string->Length();
}
}
Handle<Object> Buffer::New(Handle<String> string) {
HandleScope scope;
// get Buffer from global scope.
Local<Object> global = v8::Context::GetCurrent()->Global();
Local<Value> bv = global->Get(String::NewSymbol("Buffer"));
assert(bv->IsFunction());
Local<Function> b = Local<Function>::Cast(bv);
Local<Value> argv[1] = { Local<Value>::New(string) };
Local<Object> instance = b->NewInstance(1, argv);
return scope.Close(instance);
}
Buffer* Buffer::New(size_t length) {
HandleScope scope;
Local<Value> arg = Integer::NewFromUnsigned(length);
Local<Object> b = constructor_template->GetFunction()->NewInstance(1, &arg);
if (b.IsEmpty()) return NULL;
return ObjectWrap::Unwrap<Buffer>(b);
}
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Buffer* Buffer::New(const char* data, size_t length) {
HandleScope scope;
Local<Value> arg = Integer::NewFromUnsigned(0);
Local<Object> obj = constructor_template->GetFunction()->NewInstance(1, &arg);
Buffer *buffer = ObjectWrap::Unwrap<Buffer>(obj);
buffer->Replace(const_cast<char*>(data), length, NULL, NULL);
return buffer;
}
Buffer* Buffer::New(char *data, size_t length,
free_callback callback, void *hint) {
HandleScope scope;
Local<Value> arg = Integer::NewFromUnsigned(0);
Local<Object> obj = constructor_template->GetFunction()->NewInstance(1, &arg);
Buffer *buffer = ObjectWrap::Unwrap<Buffer>(obj);
buffer->Replace(data, length, callback, hint);
return buffer;
}
Handle<Value> Buffer::New(const Arguments &args) {
if (!args.IsConstructCall()) {
return FromConstructorTemplate(constructor_template, args);
}
HandleScope scope;
if (!args[0]->IsUint32()) return ThrowTypeError("Bad argument");
size_t length = args[0]->Uint32Value();
if (length > Buffer::kMaxLength) {
return ThrowRangeError("length > kMaxLength");
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}
new Buffer(args.This(), length);
return args.This();
}
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Buffer::Buffer(Handle<Object> wrapper, size_t length) : ObjectWrap() {
Wrap(wrapper);
length_ = 0;
callback_ = NULL;
handle_.SetWrapperClassId(BUFFER_CLASS_ID);
Replace(NULL, length, NULL, NULL);
}
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Buffer::~Buffer() {
Replace(NULL, 0, NULL, NULL);
}
// if replace doesn't have a callback, data must be copied
// const_cast in Buffer::New requires this
void Buffer::Replace(char *data, size_t length,
free_callback callback, void *hint) {
HandleScope scope;
if (callback_) {
callback_(data_, callback_hint_);
} else if (length_) {
delete [] data_;
V8::AdjustAmountOfExternalAllocatedMemory(
-static_cast<intptr_t>(sizeof(Buffer) + length_));
}
length_ = length;
callback_ = callback;
callback_hint_ = hint;
if (callback_) {
data_ = data;
} else if (length_) {
data_ = new char[length_];
if (data)
memcpy(data_, data, length_);
V8::AdjustAmountOfExternalAllocatedMemory(sizeof(Buffer) + length_);
} else {
data_ = NULL;
}
handle_->SetIndexedPropertiesToExternalArrayData(data_,
kExternalUnsignedByteArray,
length_);
handle_->Set(length_symbol, Integer::NewFromUnsigned(length_));
}
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Handle<Value> Buffer::BinarySlice(const Arguments &args) {
HandleScope scope;
Buffer *parent = ObjectWrap::Unwrap<Buffer>(args.This());
SLICE_ARGS(args[0], args[1])
char *data = parent->data_ + start;
//Local<String> string = String::New(data, end - start);
Local<Value> b = Encode(data, end - start, BINARY);
return scope.Close(b);
}
static bool contains_non_ascii_slow(const char* buf, size_t len) {
for (size_t i = 0; i < len; ++i) {
if (buf[i] & 0x80) return true;
}
return false;
}
static bool contains_non_ascii(const char* src, size_t len) {
if (len < 16) {
return contains_non_ascii_slow(src, len);
}
const unsigned bytes_per_word = BITS_PER_LONG / CHAR_BIT;
const unsigned align_mask = bytes_per_word - 1;
const unsigned unaligned = reinterpret_cast<uintptr_t>(src) & align_mask;
if (unaligned > 0) {
const unsigned n = bytes_per_word - unaligned;
if (contains_non_ascii_slow(src, n)) return true;
src += n;
len -= n;
}
#if BITS_PER_LONG == 64
typedef uint64_t word;
const uint64_t mask = 0x8080808080808080ll;
#else
typedef uint32_t word;
const uint32_t mask = 0x80808080l;
#endif
const word* srcw = reinterpret_cast<const word*>(src);
for (size_t i = 0, n = len / bytes_per_word; i < n; ++i) {
if (srcw[i] & mask) return true;
}
const unsigned remainder = len & align_mask;
if (remainder > 0) {
const size_t offset = len - remainder;
if (contains_non_ascii_slow(src + offset, remainder)) return true;
}
return false;
}
static void force_ascii_slow(const char* src, char* dst, size_t len) {
for (size_t i = 0; i < len; ++i) {
dst[i] = src[i] & 0x7f;
}
}
static void force_ascii(const char* src, char* dst, size_t len) {
if (len < 16) {
force_ascii_slow(src, dst, len);
return;
}
const unsigned bytes_per_word = BITS_PER_LONG / CHAR_BIT;
const unsigned align_mask = bytes_per_word - 1;
const unsigned src_unalign = reinterpret_cast<uintptr_t>(src) & align_mask;
const unsigned dst_unalign = reinterpret_cast<uintptr_t>(dst) & align_mask;
if (src_unalign > 0) {
if (src_unalign == dst_unalign) {
const unsigned unalign = bytes_per_word - src_unalign;
force_ascii_slow(src, dst, unalign);
src += unalign;
dst += unalign;
len -= src_unalign;
} else {
force_ascii_slow(src, dst, len);
return;
}
}
#if BITS_PER_LONG == 64
typedef uint64_t word;
const uint64_t mask = ~0x8080808080808080ll;
#else
typedef uint32_t word;
const uint32_t mask = ~0x80808080l;
#endif
const word* srcw = reinterpret_cast<const word*>(src);
word* dstw = reinterpret_cast<word*>(dst);
for (size_t i = 0, n = len / bytes_per_word; i < n; ++i) {
dstw[i] = srcw[i] & mask;
}
const unsigned remainder = len & align_mask;
if (remainder > 0) {
const size_t offset = len - remainder;
force_ascii_slow(src + offset, dst + offset, remainder);
}
}
Handle<Value> Buffer::AsciiSlice(const Arguments &args) {
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HandleScope scope;
Buffer *parent = ObjectWrap::Unwrap<Buffer>(args.This());
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SLICE_ARGS(args[0], args[1])
char* data = parent->data_ + start;
size_t len = end - start;
if (contains_non_ascii(data, len)) {
char* out = new char[len];
force_ascii(data, out, len);
Local<String> rc = String::New(out, len);
delete[] out;
return scope.Close(rc);
}
return scope.Close(String::New(data, len));
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}
Handle<Value> Buffer::Utf8Slice(const Arguments &args) {
HandleScope scope;
Buffer *parent = ObjectWrap::Unwrap<Buffer>(args.This());
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SLICE_ARGS(args[0], args[1])
char *data = parent->data_ + start;
Local<String> string = String::New(data, end - start);
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return scope.Close(string);
}
Handle<Value> Buffer::Ucs2Slice(const Arguments &args) {
HandleScope scope;
Buffer *parent = ObjectWrap::Unwrap<Buffer>(args.This());
SLICE_ARGS(args[0], args[1])
uint16_t *data = (uint16_t*)(parent->data_ + start);
Local<String> string = String::New(data, (end - start) / 2);
return scope.Close(string);
}
Handle<Value> Buffer::HexSlice(const Arguments &args) {
HandleScope scope;
Buffer* parent = ObjectWrap::Unwrap<Buffer>(args.This());
SLICE_ARGS(args[0], args[1])
char* src = parent->data_ + start;
uint32_t dstlen = (end - start) * 2;
if (dstlen == 0) return scope.Close(String::Empty());
char* dst = new char[dstlen];
for (uint32_t i = 0, k = 0; k < dstlen; i += 1, k += 2) {
static const char hex[] = "0123456789abcdef";
uint8_t val = static_cast<uint8_t>(src[i]);
dst[k + 0] = hex[val >> 4];
dst[k + 1] = hex[val & 15];
}
Local<String> string = String::New(dst, dstlen);
delete[] dst;
return scope.Close(string);
}
// supports regular and URL-safe base64
static const int unbase64_table[] =
{-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-2,-1,-1,-2,-1,-1
,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1
,-2,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,62,-1,62,-1,63
,52,53,54,55,56,57,58,59,60,61,-1,-1,-1,-1,-1,-1
,-1, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10,11,12,13,14
,15,16,17,18,19,20,21,22,23,24,25,-1,-1,-1,-1,63
,-1,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40
,41,42,43,44,45,46,47,48,49,50,51,-1,-1,-1,-1,-1
,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1
,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1
,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1
,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1
,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1
,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1
,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1
,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1
};
#define unbase64(x) unbase64_table[(uint8_t)(x)]
Handle<Value> Buffer::Base64Slice(const Arguments &args) {
HandleScope scope;
Buffer *parent = ObjectWrap::Unwrap<Buffer>(args.This());
SLICE_ARGS(args[0], args[1])
unsigned slen = end - start;
const char* src = parent->data_ + start;
unsigned dlen = (slen + 2 - ((slen + 2) % 3)) / 3 * 4;
char* dst = new char[dlen];
unsigned a;
unsigned b;
unsigned c;
unsigned i;
unsigned k;
unsigned n;
static const char table[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"
"abcdefghijklmnopqrstuvwxyz"
"0123456789+/";
i = 0;
k = 0;
n = slen / 3 * 3;
while (i < n) {
a = src[i + 0] & 0xff;
b = src[i + 1] & 0xff;
c = src[i + 2] & 0xff;
dst[k + 0] = table[a >> 2];
dst[k + 1] = table[((a & 3) << 4) | (b >> 4)];
dst[k + 2] = table[((b & 0x0f) << 2) | (c >> 6)];
dst[k + 3] = table[c & 0x3f];
i += 3;
k += 4;
}
if (n != slen) {
switch (slen - n) {
case 1:
a = src[i + 0] & 0xff;
dst[k + 0] = table[a >> 2];
dst[k + 1] = table[(a & 3) << 4];
dst[k + 2] = '=';
dst[k + 3] = '=';
break;
case 2:
a = src[i + 0] & 0xff;
b = src[i + 1] & 0xff;
dst[k + 0] = table[a >> 2];
dst[k + 1] = table[((a & 3) << 4) | (b >> 4)];
dst[k + 2] = table[(b & 0x0f) << 2];
dst[k + 3] = '=';
break;
}
}
Local<String> string = String::New(dst, dlen);
delete [] dst;
return scope.Close(string);
}
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// buffer.fill(value, start, end);
Handle<Value> Buffer::Fill(const Arguments &args) {
HandleScope scope;
if (!args[0]->IsInt32()) {
return ThrowException(Exception::Error(String::New(
"value is not a number")));
}
int value = (char)args[0]->Int32Value();
Buffer *parent = ObjectWrap::Unwrap<Buffer>(args.This());
SLICE_ARGS(args[1], args[2])
memset( (void*)(parent->data_ + start),
value,
end - start);
return Undefined();
}
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// var bytesCopied = buffer.copy(target, targetStart, sourceStart, sourceEnd);
Handle<Value> Buffer::Copy(const Arguments &args) {
HandleScope scope;
Buffer *source = ObjectWrap::Unwrap<Buffer>(args.This());
if (!Buffer::HasInstance(args[0])) {
return ThrowTypeError("First arg should be a Buffer");
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}
Local<Value> target = args[0];
char* target_data = Buffer::Data(target);
size_t target_length = Buffer::Length(target);
size_t target_start = args[1]->IsUndefined() ? 0 : args[1]->Uint32Value();
size_t source_start = args[2]->IsUndefined() ? 0 : args[2]->Uint32Value();
size_t source_end = args[3]->IsUndefined() ? source->length_
: args[3]->Uint32Value();
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if (source_end < source_start) {
return ThrowRangeError("sourceEnd < sourceStart");
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}
// Copy 0 bytes; we're done
if (source_end == source_start) {
return scope.Close(Integer::New(0));
}
if (target_start >= target_length) {
return ThrowRangeError("targetStart out of bounds");
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}
if (source_start >= source->length_) {
return ThrowRangeError("sourceStart out of bounds");
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}
if (source_end > source->length_) {
return ThrowRangeError("sourceEnd out of bounds");
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}
size_t to_copy = MIN(MIN(source_end - source_start,
target_length - target_start),
source->length_ - source_start);
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// need to use slightly slower memmove is the ranges might overlap
memmove((void *)(target_data + target_start),
(const void*)(source->data_ + source_start),
to_copy);
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return scope.Close(Integer::New(to_copy));
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}
// var charsWritten = buffer.utf8Write(string, offset, [maxLength]);
Handle<Value> Buffer::Utf8Write(const Arguments &args) {
HandleScope scope;
Buffer *buffer = ObjectWrap::Unwrap<Buffer>(args.This());
if (!args[0]->IsString()) {
return ThrowException(Exception::TypeError(String::New(
"Argument must be a string")));
}
Local<String> s = args[0]->ToString();
size_t offset = args[1]->Uint32Value();
int length = s->Length();
if (length == 0) {
constructor_template->GetFunction()->Set(chars_written_sym,
Integer::New(0));
return scope.Close(Integer::New(0));
}
if (length > 0 && offset >= buffer->length_) {
return ThrowTypeError("Offset is out of bounds");
}
size_t max_length = args[2]->IsUndefined() ? buffer->length_ - offset
: args[2]->Uint32Value();
max_length = MIN(buffer->length_ - offset, max_length);
char* p = buffer->data_ + offset;
int char_written;
int written = s->WriteUtf8(p,
max_length,
&char_written,
(String::HINT_MANY_WRITES_EXPECTED |
String::NO_NULL_TERMINATION));
constructor_template->GetFunction()->Set(chars_written_sym,
Integer::New(char_written));
return scope.Close(Integer::New(written));
}
// var charsWritten = buffer.ucs2Write(string, offset, [maxLength]);
Handle<Value> Buffer::Ucs2Write(const Arguments &args) {
HandleScope scope;
Buffer *buffer = ObjectWrap::Unwrap<Buffer>(args.This());
if (!args[0]->IsString()) {
return ThrowTypeError("Argument must be a string");
}
Local<String> s = args[0]->ToString();
size_t offset = args[1]->Uint32Value();
if (s->Length() > 0 && offset >= buffer->length_) {
return ThrowException(Exception::TypeError(String::New(
"Offset is out of bounds")));
}
size_t max_length = args[2]->IsUndefined() ? buffer->length_ - offset
: args[2]->Uint32Value();
max_length = MIN(buffer->length_ - offset, max_length) / 2;
uint16_t* p = (uint16_t*)(buffer->data_ + offset);
int written = s->Write(p,
0,
max_length,
(String::HINT_MANY_WRITES_EXPECTED |
String::NO_NULL_TERMINATION));
constructor_template->GetFunction()->Set(chars_written_sym,
Integer::New(written));
return scope.Close(Integer::New(written * 2));
}
inline unsigned hex2bin(char c) {
if (c >= '0' && c <= '9') return c - '0';
if (c >= 'A' && c <= 'F') return 10 + (c - 'A');
if (c >= 'a' && c <= 'f') return 10 + (c - 'a');
return static_cast<unsigned>(-1);
}
Handle<Value> Buffer::HexWrite(const Arguments& args) {
HandleScope scope;
Buffer* parent = ObjectWrap::Unwrap<Buffer>(args.This());
if (args[0]->IsString() == false) {
return ThrowTypeError("Argument must be a string");
}
Local<String> s = args[0].As<String>();
if (s->Length() % 2 != 0) {
return ThrowTypeError("Invalid hex string");
}
uint32_t start = args[1]->Uint32Value();
uint32_t size = args[2]->Uint32Value();
uint32_t end = start + size;
if (start >= parent->length_) {
Local<Integer> val = Integer::New(0);
constructor_template->GetFunction()->Set(chars_written_sym, val);
return scope.Close(val);
}
if (end < start || end > parent->length_) { // Overflow + bounds check.
end = parent->length_;
size = parent->length_ - start;
}
if (size == 0) {
Local<Integer> val = Integer::New(0);
constructor_template->GetFunction()->Set(chars_written_sym, val);
return scope.Close(val);
}
char* dst = parent->data_ + start;
String::AsciiValue string(s);
const char* src = *string;
uint32_t max = string.length() / 2;
if (max > size) {
max = size;
}
for (uint32_t i = 0; i < max; ++i) {
unsigned a = hex2bin(src[i * 2 + 0]);
unsigned b = hex2bin(src[i * 2 + 1]);
if (!~a || !~b) return ThrowTypeError("Invalid hex string");
dst[i] = a * 16 + b;
}
constructor_template->GetFunction()->Set(chars_written_sym,
Integer::New(max * 2));
return scope.Close(Integer::New(max));
}
// var charsWritten = buffer.asciiWrite(string, offset);
Handle<Value> Buffer::AsciiWrite(const Arguments &args) {
HandleScope scope;
Buffer *buffer = ObjectWrap::Unwrap<Buffer>(args.This());
if (!args[0]->IsString()) {
return ThrowTypeError("Argument must be a string");
}
Local<String> s = args[0]->ToString();
size_t length = s->Length();
size_t offset = args[1]->Int32Value();
if (length > 0 && offset >= buffer->length_) {
return ThrowTypeError("Offset is out of bounds");
}
size_t max_length = args[2]->IsUndefined() ? buffer->length_ - offset
: args[2]->Uint32Value();
max_length = MIN(length, MIN(buffer->length_ - offset, max_length));
char *p = buffer->data_ + offset;
int written = s->WriteAscii(p,
0,
max_length,
(String::HINT_MANY_WRITES_EXPECTED |
String::NO_NULL_TERMINATION));
constructor_template->GetFunction()->Set(chars_written_sym,
Integer::New(written));
return scope.Close(Integer::New(written));
}
// var bytesWritten = buffer.base64Write(string, offset, [maxLength]);
Handle<Value> Buffer::Base64Write(const Arguments &args) {
HandleScope scope;
Buffer *buffer = ObjectWrap::Unwrap<Buffer>(args.This());
if (!args[0]->IsString()) {
return ThrowTypeError("Argument must be a string");
}
String::AsciiValue s(args[0]);
size_t length = s.length();
size_t offset = args[1]->Int32Value();
size_t max_length = args[2]->IsUndefined() ? buffer->length_ - offset
: args[2]->Uint32Value();
max_length = MIN(length, MIN(buffer->length_ - offset, max_length));
if (max_length && offset >= buffer->length_) {
return ThrowTypeError("Offset is out of bounds");
}
char a, b, c, d;
char* start = buffer->data_ + offset;
char* dst = start;
char* const dstEnd = dst + max_length;
const char* src = *s;
const char* const srcEnd = src + s.length();
while (src < srcEnd && dst < dstEnd) {
int remaining = srcEnd - src;
while (unbase64(*src) < 0 && src < srcEnd) src++, remaining--;
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if (remaining == 0 || *src == '=') break;
a = unbase64(*src++);
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while (unbase64(*src) < 0 && src < srcEnd) src++, remaining--;
if (remaining <= 1 || *src == '=') break;
b = unbase64(*src++);
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*dst++ = (a << 2) | ((b & 0x30) >> 4);
if (dst == dstEnd) break;
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while (unbase64(*src) < 0 && src < srcEnd) src++, remaining--;
if (remaining <= 2 || *src == '=') break;
c = unbase64(*src++);
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*dst++ = ((b & 0x0F) << 4) | ((c & 0x3C) >> 2);
if (dst == dstEnd) break;
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while (unbase64(*src) < 0 && src < srcEnd) src++, remaining--;
if (remaining <= 3 || *src == '=') break;
d = unbase64(*src++);
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*dst++ = ((c & 0x03) << 6) | (d & 0x3F);
}
constructor_template->GetFunction()->Set(chars_written_sym,
Integer::New(dst - start));
return scope.Close(Integer::New(dst - start));
}
Handle<Value> Buffer::BinaryWrite(const Arguments &args) {
HandleScope scope;
Buffer *buffer = ObjectWrap::Unwrap<Buffer>(args.This());
if (!args[0]->IsString()) {
return ThrowTypeError("Argument must be a string");
}
Local<String> s = args[0]->ToString();
size_t length = s->Length();
size_t offset = args[1]->Int32Value();
if (s->Length() > 0 && offset >= buffer->length_) {
return ThrowTypeError("Offset is out of bounds");
}
char *p = (char*)buffer->data_ + offset;
size_t max_length = args[2]->IsUndefined() ? buffer->length_ - offset
: args[2]->Uint32Value();
max_length = MIN(length, MIN(buffer->length_ - offset, max_length));
int written = DecodeWrite(p, max_length, s, BINARY);
constructor_template->GetFunction()->Set(chars_written_sym,
Integer::New(written));
return scope.Close(Integer::New(written));
}
static bool is_big_endian() {
const union { uint8_t u8[2]; uint16_t u16; } u = {{0, 1}};
return u.u16 == 1 ? true : false;
}
static void swizzle(char* buf, size_t len) {
char t;
for (size_t i = 0; i < len / 2; ++i) {
t = buf[i];
buf[i] = buf[len - i - 1];
buf[len - i - 1] = t;
}
}
template <typename T, bool ENDIANNESS>
Handle<Value> ReadFloatGeneric(const Arguments& args) {
double offset_tmp = args[0]->NumberValue();
int64_t offset = static_cast<int64_t>(offset_tmp);
bool doAssert = !args[1]->BooleanValue();
if (doAssert) {
if (offset_tmp != offset || offset < 0)
return ThrowTypeError("offset is not uint");
size_t len = static_cast<size_t>(
args.This()->GetIndexedPropertiesExternalArrayDataLength());
if (offset + sizeof(T) > len)
return ThrowRangeError("Trying to read beyond buffer length");
}
T val;
char* data = static_cast<char*>(
args.This()->GetIndexedPropertiesExternalArrayData());
char* ptr = data + offset;
memcpy(&val, ptr, sizeof(T));
if (ENDIANNESS != is_big_endian())
swizzle(reinterpret_cast<char*>(&val), sizeof(T));
// TODO: when Number::New is updated to accept an Isolate, make the change
return Number::New(val);
}
Handle<Value> Buffer::ReadFloatLE(const Arguments& args) {
return ReadFloatGeneric<float, false>(args);
}
Handle<Value> Buffer::ReadFloatBE(const Arguments& args) {
return ReadFloatGeneric<float, true>(args);
}
Handle<Value> Buffer::ReadDoubleLE(const Arguments& args) {
return ReadFloatGeneric<double, false>(args);
}
Handle<Value> Buffer::ReadDoubleBE(const Arguments& args) {
return ReadFloatGeneric<double, true>(args);
}
template <typename T, bool ENDIANNESS>
Handle<Value> WriteFloatGeneric(const Arguments& args) {
bool doAssert = !args[2]->BooleanValue();
if (doAssert) {
if (!args[0]->IsNumber())
return ThrowTypeError("value not a number");
if (!args[1]->IsUint32())
return ThrowTypeError("offset is not uint");
}
T val = static_cast<T>(args[0]->NumberValue());
size_t offset = args[1]->Uint32Value();
char* data = static_cast<char*>(
args.This()->GetIndexedPropertiesExternalArrayData());
char* ptr = data + offset;
if (doAssert) {
size_t len = static_cast<size_t>(
args.This()->GetIndexedPropertiesExternalArrayDataLength());
if (offset + sizeof(T) > len || offset + sizeof(T) < offset)
return ThrowRangeError("Trying to write beyond buffer length");
}
memcpy(ptr, &val, sizeof(T));
if (ENDIANNESS != is_big_endian())
swizzle(ptr, sizeof(T));
return Undefined();
}
Handle<Value> Buffer::WriteFloatLE(const Arguments& args) {
return WriteFloatGeneric<float, false>(args);
}
Handle<Value> Buffer::WriteFloatBE(const Arguments& args) {
return WriteFloatGeneric<float, true>(args);
}
Handle<Value> Buffer::WriteDoubleLE(const Arguments& args) {
return WriteFloatGeneric<double, false>(args);
}
Handle<Value> Buffer::WriteDoubleBE(const Arguments& args) {
return WriteFloatGeneric<double, true>(args);
}
// var nbytes = Buffer.byteLength("string", "utf8")
Handle<Value> Buffer::ByteLength(const Arguments &args) {
HandleScope scope;
if (!args[0]->IsString()) {
return ThrowTypeError("Argument must be a string");
}
Local<String> s = args[0]->ToString();
enum encoding e = ParseEncoding(args[1], UTF8);
return scope.Close(Integer::New(node::ByteLength(s, e)));
}
Handle<Value> Buffer::MakeFastBuffer(const Arguments &args) {
HandleScope scope;
if (!Buffer::HasInstance(args[0])) {
return ThrowTypeError("First argument must be a Buffer");
}
Buffer *buffer = ObjectWrap::Unwrap<Buffer>(args[0]->ToObject());
Local<Object> fast_buffer = args[1]->ToObject();;
uint32_t offset = args[2]->Uint32Value();
uint32_t length = args[3]->Uint32Value();
if (offset > buffer->length_) {
return ThrowRangeError("offset out of range");
}
if (offset + length > buffer->length_) {
return ThrowRangeError("length out of range");
}
// Check for wraparound. Safe because offset and length are unsigned.
if (offset + length < offset) {
return ThrowRangeError("offset or length out of range");
}
fast_buffer->SetIndexedPropertiesToExternalArrayData(buffer->data_ + offset,
kExternalUnsignedByteArray,
length);
return Undefined();
}
bool Buffer::HasInstance(Handle<Value> val) {
if (!val->IsObject()) return false;
Local<Object> obj = val->ToObject();
ExternalArrayType type = obj->GetIndexedPropertiesExternalArrayDataType();
if (type != kExternalUnsignedByteArray)
return false;
// Also check for SlowBuffers that are empty.
if (constructor_template->HasInstance(obj))
return true;
assert(!fast_buffer_constructor.IsEmpty());
return obj->GetConstructor()->StrictEquals(fast_buffer_constructor);
}
Handle<Value> SetFastBufferConstructor(const Arguments& args) {
assert(args[0]->IsFunction());
fast_buffer_constructor = Persistent<Function>::New(args[0].As<Function>());
return Undefined();
}
class RetainedBufferInfo: public RetainedObjectInfo {
public:
RetainedBufferInfo(Buffer* buffer);
virtual void Dispose();
virtual bool IsEquivalent(RetainedObjectInfo* other);
virtual intptr_t GetHash();
virtual const char* GetLabel();
virtual intptr_t GetSizeInBytes();
private:
Buffer* buffer_;
static const char label[];
};
const char RetainedBufferInfo::label[] = "Buffer";
RetainedBufferInfo::RetainedBufferInfo(Buffer* buffer): buffer_(buffer) {
}
void RetainedBufferInfo::Dispose() {
buffer_ = NULL;
delete this;
}
bool RetainedBufferInfo::IsEquivalent(RetainedObjectInfo* other) {
return label == other->GetLabel() &&
buffer_ == static_cast<RetainedBufferInfo*>(other)->buffer_;
}
intptr_t RetainedBufferInfo::GetHash() {
return reinterpret_cast<intptr_t>(buffer_);
}
const char* RetainedBufferInfo::GetLabel() {
return label;
}
intptr_t RetainedBufferInfo::GetSizeInBytes() {
return Buffer::Length(buffer_);
}
RetainedObjectInfo* WrapperInfo(uint16_t class_id, Handle<Value> wrapper) {
assert(class_id == BUFFER_CLASS_ID);
assert(Buffer::HasInstance(wrapper));
Buffer* buffer = Buffer::Unwrap<Buffer>(wrapper.As<Object>());
return new RetainedBufferInfo(buffer);
}
void Buffer::Initialize(Handle<Object> target) {
15 years ago
HandleScope scope;
// sanity checks
assert(unbase64('/') == 63);
assert(unbase64('+') == 62);
assert(unbase64('T') == 19);
assert(unbase64('Z') == 25);
assert(unbase64('t') == 45);
assert(unbase64('z') == 51);
assert(unbase64(' ') == -2);
assert(unbase64('\n') == -2);
assert(unbase64('\r') == -2);
length_symbol = NODE_PSYMBOL("length");
chars_written_sym = NODE_PSYMBOL("_charsWritten");
15 years ago
Local<FunctionTemplate> t = FunctionTemplate::New(Buffer::New);
constructor_template = Persistent<FunctionTemplate>::New(t);
constructor_template->InstanceTemplate()->SetInternalFieldCount(1);
constructor_template->SetClassName(String::NewSymbol("SlowBuffer"));
15 years ago
// copy free
NODE_SET_PROTOTYPE_METHOD(constructor_template, "binarySlice", Buffer::BinarySlice);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "asciiSlice", Buffer::AsciiSlice);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "base64Slice", Buffer::Base64Slice);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "ucs2Slice", Buffer::Ucs2Slice);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "hexSlice", Buffer::HexSlice);
15 years ago
// TODO NODE_SET_PROTOTYPE_METHOD(t, "utf16Slice", Utf16Slice);
// copy
NODE_SET_PROTOTYPE_METHOD(constructor_template, "utf8Slice", Buffer::Utf8Slice);
15 years ago
NODE_SET_PROTOTYPE_METHOD(constructor_template, "utf8Write", Buffer::Utf8Write);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "asciiWrite", Buffer::AsciiWrite);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "binaryWrite", Buffer::BinaryWrite);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "base64Write", Buffer::Base64Write);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "ucs2Write", Buffer::Ucs2Write);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "hexWrite", Buffer::HexWrite);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "readFloatLE", Buffer::ReadFloatLE);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "readFloatBE", Buffer::ReadFloatBE);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "readDoubleLE", Buffer::ReadDoubleLE);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "readDoubleBE", Buffer::ReadDoubleBE);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "writeFloatLE", Buffer::WriteFloatLE);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "writeFloatBE", Buffer::WriteFloatBE);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "writeDoubleLE", Buffer::WriteDoubleLE);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "writeDoubleBE", Buffer::WriteDoubleBE);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "fill", Buffer::Fill);
NODE_SET_PROTOTYPE_METHOD(constructor_template, "copy", Buffer::Copy);
NODE_SET_METHOD(constructor_template->GetFunction(),
"byteLength",
Buffer::ByteLength);
NODE_SET_METHOD(constructor_template->GetFunction(),
"makeFastBuffer",
Buffer::MakeFastBuffer);
target->Set(String::NewSymbol("SlowBuffer"), constructor_template->GetFunction());
target->Set(String::NewSymbol("setFastBufferConstructor"),
FunctionTemplate::New(SetFastBufferConstructor)->GetFunction());
HeapProfiler::DefineWrapperClass(BUFFER_CLASS_ID, WrapperInfo);
15 years ago
}
15 years ago
} // namespace node
NODE_MODULE(node_buffer, node::Buffer::Initialize)