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161 lines
4.9 KiB
161 lines
4.9 KiB
// Copyright 2014 The lldb Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Package lldb implements a low level database engine. The database model used
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// could be considered a specific implementation of some small(est)
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// intersection of models listed in [1]. As a settled term is lacking, it'll be
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// called here a 'Virtual memory model' (VMM).
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//
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// Changelog
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//
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// 2016-07-24: v1.0.4 brings some performance improvements.
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//
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// 2016-07-22: v1.0.3 brings some small performance improvements.
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//
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// 2016-07-12: v1.0.2 now uses packages from modernc.org/internal.
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//
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// 2016-07-12: v1.0.1 adds a license for testdata/fortunes.txt.
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//
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// 2016-07-11: First standalone release v1.0.0 of the package previously
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// published as experimental (modernc.org/exp/lldb).
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//
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// Filers
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//
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// A Filer is an abstraction of storage. A Filer may be a part of some process'
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// virtual address space, an OS file, a networked, remote file etc. Persistence
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// of the storage is optional, opaque to VMM and it is specific to a concrete
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// Filer implementation.
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//
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// Space management
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//
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// Mechanism to allocate, reallocate (resize), deallocate (and later reclaim
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// the unused) contiguous parts of a Filer, called blocks. Blocks are
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// identified and referred to by a handle, an int64.
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//
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// BTrees
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//
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// In addition to the VMM like services, lldb provides volatile and
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// non-volatile BTrees. Keys and values of a BTree are limited in size to 64kB
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// each (a bit more actually). Support for larger keys/values, if desired, can
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// be built atop a BTree to certain limits.
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//
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// Handles vs pointers
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//
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// A handle is the abstracted storage counterpart of a memory address. There
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// is one fundamental difference, though. Resizing a block never results in a
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// change to the handle which refers to the resized block, so a handle is more
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// akin to an unique numeric id/key. Yet it shares one property of pointers -
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// handles can be associated again with blocks after the original handle block
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// was deallocated. In other words, a handle uniqueness domain is the state of
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// the database and is not something comparable to e.g. an ever growing
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// numbering sequence.
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//
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// Also, as with memory pointers, dangling handles can be created and blocks
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// overwritten when such handles are used. Using a zero handle to refer to a
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// block will not panic; however, the resulting error is effectively the same
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// exceptional situation as dereferencing a nil pointer.
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//
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// Blocks
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//
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// Allocated/used blocks, are limited in size to only a little bit more than
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// 64kB. Bigger semantic entities/structures must be built in lldb's client
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// code. The content of a block has no semantics attached, it's only a fully
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// opaque `[]byte`.
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//
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// Scalars
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//
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// Use of "scalars" applies to EncodeScalars, DecodeScalars and Collate. Those
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// first two "to bytes" and "from bytes" functions are suggested for handling
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// multi-valued Allocator content items and/or keys/values of BTrees (using
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// Collate for keys). Types called "scalar" are:
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//
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// nil (the typeless one)
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// bool
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// all integral types: [u]int8, [u]int16, [u]int32, [u]int, [u]int64
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// all floating point types: float32, float64
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// all complex types: complex64, complex128
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// []byte (64kB max)
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// string (64kb max)
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//
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// Specific implementations
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//
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// Included are concrete implementations of some of the VMM interfaces included
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// to ease serving simple client code or for testing and possibly as an
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// example. More details in the documentation of such implementations.
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//
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// [1]: http://en.wikipedia.org/wiki/Database_model
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package lldb // import "modernc.org/lldb"
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const (
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fltSz = 0x70 // size of the FLT
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maxShort = 251
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maxRq = 65787
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maxFLTRq = 4112
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maxHandle = 1<<56 - 1
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atomLen = 16
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tagUsedLong = 0xfc
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tagUsedRelocated = 0xfd
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tagFreeShort = 0xfe
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tagFreeLong = 0xff
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tagNotCompressed = 0
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tagCompressed = 1
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)
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// Content size n -> blocksize in atoms.
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func n2atoms(n int) int {
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if n > maxShort {
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n += 2
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}
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return (n+1)/16 + 1
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}
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// Content size n -> number of padding zeros.
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func n2padding(n int) int {
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if n > maxShort {
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n += 2
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}
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return 15 - (n+1)&15
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}
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// Handle <-> offset
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func h2off(h int64) int64 { return (h + 6) * 16 }
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func off2h(off int64) int64 { return off/16 - 6 }
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// Get a 7B int64 from b
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func b2h(b []byte) (h int64) {
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for _, v := range b[:7] {
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h = h<<8 | int64(v)
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}
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return
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}
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// Put a 7B int64 into b
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func h2b(b []byte, h int64) []byte {
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for i := range b[:7] {
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b[i], h = byte(h>>48), h<<8
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}
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return b
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}
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// Content length N (must be in [252, 65787]) to long used block M field.
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func n2m(n int) (m int) {
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return n % 0x10000
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}
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// Long used block M (must be in [0, 65535]) field to content length N.
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func m2n(m int) (n int) {
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if m <= maxShort {
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m += 0x10000
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}
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return m
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}
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func bpack(a []byte) []byte {
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if cap(a) > len(a) {
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return append([]byte(nil), a...)
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}
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return a
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}
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