Gathering detailed insights and metrics for bl
Gathering detailed insights and metrics for bl
Gathering detailed insights and metrics for bl
Gathering detailed insights and metrics for bl
Buffer List: collect buffers and access with a standard readable Buffer interface, streamable too!
npm install bl
98.2
Supply Chain
99.6
Quality
82.2
Maintenance
100
Vulnerability
100
License
Module System
Min. Node Version
Typescript Support
Node Version
NPM Version
431 Stars
252 Commits
69 Forks
14 Watching
7 Branches
32 Contributors
Updated on 19 Nov 2024
JavaScript (100%)
Cumulative downloads
Total Downloads
Last day
-5.9%
6,519,056
Compared to previous day
Last week
2.4%
37,636,071
Compared to previous week
Last month
7.2%
156,514,616
Compared to previous month
Last year
15.5%
1,671,949,768
Compared to previous year
4
4
A Node.js Buffer list collector, reader and streamer thingy.
bl is a storage object for collections of Node Buffers, exposing them with the main Buffer readable API. Also works as a duplex stream so you can collect buffers from a stream that emits them and emit buffers to a stream that consumes them!
The original buffers are kept intact and copies are only done as necessary. Any reads that require the use of a single original buffer will return a slice of that buffer only (which references the same memory as the original buffer). Reads that span buffers perform concatenation as required and return the results transparently.
1const { BufferList } = require('bl') 2 3const bl = new BufferList() 4bl.append(Buffer.from('abcd')) 5bl.append(Buffer.from('efg')) 6bl.append('hi') // bl will also accept & convert Strings 7bl.append(Buffer.from('j')) 8bl.append(Buffer.from([ 0x3, 0x4 ])) 9 10console.log(bl.length) // 12 11 12console.log(bl.slice(0, 10).toString('ascii')) // 'abcdefghij' 13console.log(bl.slice(3, 10).toString('ascii')) // 'defghij' 14console.log(bl.slice(3, 6).toString('ascii')) // 'def' 15console.log(bl.slice(3, 8).toString('ascii')) // 'defgh' 16console.log(bl.slice(5, 10).toString('ascii')) // 'fghij' 17 18console.log(bl.indexOf('def')) // 3 19console.log(bl.indexOf('asdf')) // -1 20 21// or just use toString! 22console.log(bl.toString()) // 'abcdefghij\u0003\u0004' 23console.log(bl.toString('ascii', 3, 8)) // 'defgh' 24console.log(bl.toString('ascii', 5, 10)) // 'fghij' 25 26// other standard Buffer readables 27console.log(bl.readUInt16BE(10)) // 0x0304 28console.log(bl.readUInt16LE(10)) // 0x0403
Give it a callback in the constructor and use it just like concat-stream:
1const { BufferListStream } = require('bl') 2const fs = require('fs') 3 4fs.createReadStream('README.md') 5 .pipe(BufferListStream((err, data) => { // note 'new' isn't strictly required 6 // `data` is a complete Buffer object containing the full data 7 console.log(data.toString()) 8 }))
Note that when you use the callback method like this, the resulting data
parameter is a concatenation of all Buffer
objects in the list. If you want to avoid the overhead of this concatenation (in cases of extreme performance consciousness), then avoid the callback method and just listen to 'end'
instead, like a standard Stream.
Or to fetch a URL using hyperquest (should work with request and even plain Node http too!):
1const hyperquest = require('hyperquest') 2const { BufferListStream } = require('bl') 3 4const url = 'https://raw.github.com/rvagg/bl/master/README.md' 5 6hyperquest(url).pipe(BufferListStream((err, data) => { 7 console.log(data.toString()) 8}))
Or, use it as a readable stream to recompose a list of Buffers to an output source:
1const { BufferListStream } = require('bl') 2const fs = require('fs') 3 4var bl = new BufferListStream() 5bl.append(Buffer.from('abcd')) 6bl.append(Buffer.from('efg')) 7bl.append(Buffer.from('hi')) 8bl.append(Buffer.from('j')) 9 10bl.pipe(fs.createWriteStream('gibberish.txt'))
new BufferList([ buf ])
BufferList.isBufferList(obj)
bl.length
bl.append(buffer)
bl.get(index)
bl.indexOf(value[, byteOffset][, encoding])
bl.slice([ start[, end ] ])
bl.shallowSlice([ start[, end ] ])
bl.copy(dest, [ destStart, [ srcStart [, srcEnd ] ] ])
bl.duplicate()
bl.consume(bytes)
bl.toString([encoding, [ start, [ end ]]])
bl.readDoubleBE()
, bl.readDoubleLE()
, bl.readFloatBE()
, bl.readFloatLE()
, bl.readBigInt64BE()
, bl.readBigInt64LE()
, bl.readBigUInt64BE()
, bl.readBigUInt64LE()
, bl.readInt32BE()
, bl.readInt32LE()
, bl.readUInt32BE()
, bl.readUInt32LE()
, bl.readInt16BE()
, bl.readInt16LE()
, bl.readUInt16BE()
, bl.readUInt16LE()
, bl.readInt8()
, bl.readUInt8()
new BufferListStream([ callback ])
No arguments are required for the constructor, but you can initialise the list by passing in a single Buffer
object or an array of Buffer
objects.
new
is not strictly required, if you don't instantiate a new object, it will be done automatically for you so you can create a new instance simply with:
1const { BufferList } = require('bl') 2const bl = BufferList() 3 4// equivalent to: 5 6const { BufferList } = require('bl') 7const bl = new BufferList()
Determines if the passed object is a BufferList
. It will return true
if the passed object is an instance of BufferList
or BufferListStream
and false
otherwise.
N.B. this won't return true
for BufferList
or BufferListStream
instances created by versions of this library before this static method was added.
Get the length of the list in bytes. This is the sum of the lengths of all of the buffers contained in the list, minus any initial offset for a semi-consumed buffer at the beginning. Should accurately represent the total number of bytes that can be read from the list.
append(buffer)
adds an additional buffer or BufferList to the internal list. this
is returned so it can be chained.
get()
will return the byte at the specified index.
get()
will return the byte at the specified index.
indexOf()
method returns the first index at which a given element can be found in the BufferList, or -1 if it is not present.
slice()
returns a new Buffer
object containing the bytes within the range specified. Both start
and end
are optional and will default to the beginning and end of the list respectively.
If the requested range spans a single internal buffer then a slice of that buffer will be returned which shares the original memory range of that Buffer. If the range spans multiple buffers then copy operations will likely occur to give you a uniform Buffer.
shallowSlice()
returns a new BufferList
object containing the bytes within the range specified. Both start
and end
are optional and will default to the beginning and end of the list respectively.
No copies will be performed. All buffers in the result share memory with the original list.
copy()
copies the content of the list in the dest
buffer, starting from destStart
and containing the bytes within the range specified with srcStart
to srcEnd
. destStart
, start
and end
are optional and will default to the beginning of the dest
buffer, and the beginning and end of the list respectively.
duplicate()
performs a shallow-copy of the list. The internal Buffers remains the same, so if you change the underlying Buffers, the change will be reflected in both the original and the duplicate. This method is needed if you want to call consume()
or pipe()
and still keep the original list.Example:
1var bl = new BufferListStream() 2 3bl.append('hello') 4bl.append(' world') 5bl.append('\n') 6 7bl.duplicate().pipe(process.stdout, { end: false }) 8 9console.log(bl.toString())
consume()
will shift bytes off the start of the list. The number of bytes consumed don't need to line up with the sizes of the internal Buffers—initial offsets will be calculated accordingly in order to give you a consistent view of the data.
toString()
will return a string representation of the buffer. The optional start
and end
arguments are passed on to slice()
, while the encoding
is passed on to toString()
of the resulting Buffer. See the Buffer#toString() documentation for more information.
All of the standard byte-reading methods of the Buffer
interface are implemented and will operate across internal Buffer boundaries transparently.
See the Buffer
documentation for how these work.
BufferListStream is a Node Duplex Stream, so it can be read from and written to like a standard Node stream. You can also pipe()
to and from a BufferListStream instance.
The constructor takes an optional callback, if supplied, the callback will be called with an error argument followed by a reference to the bl instance, when bl.end()
is called (i.e. from a piped stream). This is a convenient method of collecting the entire contents of a stream, particularly when the stream is chunky, such as a network stream.
Normally, no arguments are required for the constructor, but you can initialise the list by passing in a single Buffer
object or an array of Buffer
object.
new
is not strictly required, if you don't instantiate a new object, it will be done automatically for you so you can create a new instance simply with:
1const { BufferListStream } = require('bl') 2const bl = BufferListStream() 3 4// equivalent to: 5 6const { BufferListStream } = require('bl') 7const bl = new BufferListStream()
N.B. For backwards compatibility reasons, BufferListStream
is the default export when you require('bl')
:
1const { BufferListStream } = require('bl') 2// equivalent to: 3const BufferListStream = require('bl')
bl is brought to you by the following hackers:
Copyright (c) 2013-2019 bl contributors (listed above).
bl is licensed under the MIT license. All rights not explicitly granted in the MIT license are reserved. See the included LICENSE.md file for more details.
The latest stable version of the package.
Stable Version
6
6.5/10
Summary
Remote Memory Exposure in bl
Affected Versions
>= 2.0.0, < 2.2.1
Patched Versions
2.2.1
6.5/10
Summary
Remote Memory Exposure in bl
Affected Versions
< 1.2.3
Patched Versions
1.2.3
6.5/10
Summary
Remote Memory Exposure in bl
Affected Versions
>= 4.0.0, < 4.0.3
Patched Versions
4.0.3
6.5/10
Summary
Remote Memory Exposure in bl
Affected Versions
= 3.0.0
Patched Versions
3.0.1
0/10
Summary
Memory Exposure in bl
Affected Versions
= 1.0.0
Patched Versions
1.0.1
0/10
Summary
Memory Exposure in bl
Affected Versions
< 0.9.5
Patched Versions
0.9.5
Reason
no binaries found in the repo
Reason
no dangerous workflow patterns detected
Reason
0 existing vulnerabilities detected
Reason
packaging workflow detected
Details
Reason
license file detected
Details
Reason
4 commit(s) and 0 issue activity found in the last 90 days -- score normalized to 3
Reason
Found 1/16 approved changesets -- score normalized to 0
Reason
detected GitHub workflow tokens with excessive permissions
Details
Reason
dependency not pinned by hash detected -- score normalized to 0
Details
Reason
no effort to earn an OpenSSF best practices badge detected
Reason
security policy file not detected
Details
Reason
project is not fuzzed
Details
Reason
branch protection not enabled on development/release branches
Details
Reason
SAST tool is not run on all commits -- score normalized to 0
Details
Score
Last Scanned on 2024-11-18
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