mirror of https://github.com/vacp2p/nim-libp2p.git
95 lines
3.0 KiB
Nim
95 lines
3.0 KiB
Nim
# Nim-LibP2P
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# Copyright (c) 2023 Status Research & Development GmbH
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# Licensed under either of
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# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
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# * MIT license ([LICENSE-MIT](LICENSE-MIT))
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# at your option.
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# This file may not be copied, modified, or distributed except according to
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# those terms.
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{.push raises: [].}
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import stew/bitops2
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type StreamSeq* = object
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# Seq adapted to the stream use case where we add data at the back and
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# consume at the front in chunks. A bit like a deque but contiguous memory
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# area - will try to avoid moving data unless it has to, subject to buffer
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# space. The assumption is that data is typically consumed fully.
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#
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# See also asio::stream_buf
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buf: seq[byte] # Data store
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rpos: int # Reading position - valid data starts here
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wpos: int # Writing position - valid data ends here
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template len*(v: StreamSeq): int =
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v.wpos - v.rpos
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func grow(v: var StreamSeq, n: int) =
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if v.rpos == v.wpos:
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# All data has been consumed, reset positions
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v.rpos = 0
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v.wpos = 0
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if v.buf.len - v.wpos < n:
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if v.rpos > 0:
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# We've consumed some data so we'll try to move that data to the beginning
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# of the buffer, hoping that this will clear up enough capacity to avoid
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# reallocation
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moveMem(addr v.buf[0], addr v.buf[v.rpos], v.wpos - v.rpos)
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v.wpos -= v.rpos
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v.rpos = 0
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if v.buf.len - v.wpos >= n:
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return
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# TODO this is inefficient - `setLen` will copy all data of buf, even though
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# we know that only a part of it contains "valid" data
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v.buf.setLen(nextPow2(max(64, v.wpos + n).uint64).int)
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template prepare*(v: var StreamSeq, n: int): var openArray[byte] =
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## Return a buffer that is at least `n` bytes long
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mixin grow
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v.grow(n)
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v.buf.toOpenArray(v.wpos, v.buf.len - 1)
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template commit*(v: var StreamSeq, n: int) =
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## Mark `n` bytes in the buffer returned by `prepare` as ready for reading
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v.wpos += n
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func add*(v: var StreamSeq, data: openArray[byte]) =
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## Add data - the equivalent of `buf.prepare(n) = data; buf.commit(n)`
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if data.len > 0:
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v.grow(data.len)
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copyMem(addr v.buf[v.wpos], unsafeAddr data[0], data.len)
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v.commit(data.len)
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template data*(v: StreamSeq): openArray[byte] =
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# Data that is ready to be consumed
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# TODO a double-hash comment here breaks compile (!)
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v.buf.toOpenArray(v.rpos, v.wpos - 1)
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template toOpenArray*(v: StreamSeq, b, e: int): openArray[byte] =
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# Data that is ready to be consumed
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# TODO a double-hash comment here breaks compile (!)
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v.buf.toOpenArray(v.rpos + b, v.rpos + e - b)
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func consume*(v: var StreamSeq, n: int) =
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## Mark `n` bytes that were returned via `data` as consumed
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v.rpos += n
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func consumeTo*(v: var StreamSeq, buf: var openArray[byte]): int =
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let bytes = min(buf.len, v.len)
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if bytes > 0:
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copyMem(addr buf[0], addr v.buf[v.rpos], bytes)
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v.consume(bytes)
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bytes
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func clear*(v: var StreamSeq) =
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v.consume(v.len)
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func assign*(v: var StreamSeq, buf: openArray[byte]) =
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v.clear()
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v.add(buf)
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