483 lines
16 KiB
C
483 lines
16 KiB
C
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/*
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* Copyright (c) Yann Collet, Facebook, Inc.
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* All rights reserved.
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*
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* This source code is licensed under both the BSD-style license (found in the
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* LICENSE file in the root directory of this source tree) and the GPLv2 (found
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* in the COPYING file in the root directory of this source tree).
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* You may select, at your option, one of the above-listed licenses.
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*/
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#ifndef ZSTD_CWKSP_H
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#define ZSTD_CWKSP_H
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/*-*************************************
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* Dependencies
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***************************************/
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#include "../common/zstd_internal.h"
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/*-*************************************
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* Constants
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***************************************/
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/* Since the workspace is effectively its own little malloc implementation /
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* arena, when we run under ASAN, we should similarly insert redzones between
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* each internal element of the workspace, so ASAN will catch overruns that
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* reach outside an object but that stay inside the workspace.
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*
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* This defines the size of that redzone.
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*/
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#ifndef ZSTD_CWKSP_ASAN_REDZONE_SIZE
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#define ZSTD_CWKSP_ASAN_REDZONE_SIZE 128
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#endif
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/*-*************************************
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* Structures
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***************************************/
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typedef enum {
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ZSTD_cwksp_alloc_objects,
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ZSTD_cwksp_alloc_buffers,
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ZSTD_cwksp_alloc_aligned
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} ZSTD_cwksp_alloc_phase_e;
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/*
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* Used to describe whether the workspace is statically allocated (and will not
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* necessarily ever be freed), or if it's dynamically allocated and we can
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* expect a well-formed caller to free this.
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*/
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typedef enum {
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ZSTD_cwksp_dynamic_alloc,
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ZSTD_cwksp_static_alloc
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} ZSTD_cwksp_static_alloc_e;
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/*
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* Zstd fits all its internal datastructures into a single continuous buffer,
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* so that it only needs to perform a single OS allocation (or so that a buffer
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* can be provided to it and it can perform no allocations at all). This buffer
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* is called the workspace.
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*
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* Several optimizations complicate that process of allocating memory ranges
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* from this workspace for each internal datastructure:
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*
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* - These different internal datastructures have different setup requirements:
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*
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* - The static objects need to be cleared once and can then be trivially
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* reused for each compression.
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*
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* - Various buffers don't need to be initialized at all--they are always
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* written into before they're read.
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*
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* - The matchstate tables have a unique requirement that they don't need
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* their memory to be totally cleared, but they do need the memory to have
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* some bound, i.e., a guarantee that all values in the memory they've been
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* allocated is less than some maximum value (which is the starting value
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* for the indices that they will then use for compression). When this
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* guarantee is provided to them, they can use the memory without any setup
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* work. When it can't, they have to clear the area.
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*
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* - These buffers also have different alignment requirements.
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*
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* - We would like to reuse the objects in the workspace for multiple
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* compressions without having to perform any expensive reallocation or
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* reinitialization work.
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*
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* - We would like to be able to efficiently reuse the workspace across
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* multiple compressions **even when the compression parameters change** and
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* we need to resize some of the objects (where possible).
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*
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* To attempt to manage this buffer, given these constraints, the ZSTD_cwksp
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* abstraction was created. It works as follows:
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*
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* Workspace Layout:
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*
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* [ ... workspace ... ]
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* [objects][tables ... ->] free space [<- ... aligned][<- ... buffers]
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*
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* The various objects that live in the workspace are divided into the
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* following categories, and are allocated separately:
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*
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* - Static objects: this is optionally the enclosing ZSTD_CCtx or ZSTD_CDict,
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* so that literally everything fits in a single buffer. Note: if present,
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* this must be the first object in the workspace, since ZSTD_customFree{CCtx,
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* CDict}() rely on a pointer comparison to see whether one or two frees are
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* required.
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*
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* - Fixed size objects: these are fixed-size, fixed-count objects that are
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* nonetheless "dynamically" allocated in the workspace so that we can
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* control how they're initialized separately from the broader ZSTD_CCtx.
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* Examples:
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* - Entropy Workspace
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* - 2 x ZSTD_compressedBlockState_t
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* - CDict dictionary contents
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*
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* - Tables: these are any of several different datastructures (hash tables,
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* chain tables, binary trees) that all respect a common format: they are
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* uint32_t arrays, all of whose values are between 0 and (nextSrc - base).
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* Their sizes depend on the cparams.
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*
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* - Aligned: these buffers are used for various purposes that require 4 byte
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* alignment, but don't require any initialization before they're used.
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*
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* - Buffers: these buffers are used for various purposes that don't require
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* any alignment or initialization before they're used. This means they can
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* be moved around at no cost for a new compression.
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*
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* Allocating Memory:
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*
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* The various types of objects must be allocated in order, so they can be
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* correctly packed into the workspace buffer. That order is:
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*
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* 1. Objects
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* 2. Buffers
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* 3. Aligned
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* 4. Tables
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*
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* Attempts to reserve objects of different types out of order will fail.
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*/
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typedef struct {
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void* workspace;
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void* workspaceEnd;
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void* objectEnd;
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void* tableEnd;
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void* tableValidEnd;
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void* allocStart;
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BYTE allocFailed;
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int workspaceOversizedDuration;
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ZSTD_cwksp_alloc_phase_e phase;
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ZSTD_cwksp_static_alloc_e isStatic;
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} ZSTD_cwksp;
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/*-*************************************
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* Functions
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***************************************/
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MEM_STATIC size_t ZSTD_cwksp_available_space(ZSTD_cwksp* ws);
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MEM_STATIC void ZSTD_cwksp_assert_internal_consistency(ZSTD_cwksp* ws) {
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(void)ws;
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assert(ws->workspace <= ws->objectEnd);
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assert(ws->objectEnd <= ws->tableEnd);
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assert(ws->objectEnd <= ws->tableValidEnd);
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assert(ws->tableEnd <= ws->allocStart);
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assert(ws->tableValidEnd <= ws->allocStart);
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assert(ws->allocStart <= ws->workspaceEnd);
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}
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/*
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* Align must be a power of 2.
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*/
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MEM_STATIC size_t ZSTD_cwksp_align(size_t size, size_t const align) {
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size_t const mask = align - 1;
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assert((align & mask) == 0);
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return (size + mask) & ~mask;
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}
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/*
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* Use this to determine how much space in the workspace we will consume to
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* allocate this object. (Normally it should be exactly the size of the object,
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* but under special conditions, like ASAN, where we pad each object, it might
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* be larger.)
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*
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* Since tables aren't currently redzoned, you don't need to call through this
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* to figure out how much space you need for the matchState tables. Everything
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* else is though.
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*/
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MEM_STATIC size_t ZSTD_cwksp_alloc_size(size_t size) {
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if (size == 0)
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return 0;
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return size;
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}
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MEM_STATIC void ZSTD_cwksp_internal_advance_phase(
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ZSTD_cwksp* ws, ZSTD_cwksp_alloc_phase_e phase) {
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assert(phase >= ws->phase);
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if (phase > ws->phase) {
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if (ws->phase < ZSTD_cwksp_alloc_buffers &&
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phase >= ZSTD_cwksp_alloc_buffers) {
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ws->tableValidEnd = ws->objectEnd;
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}
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if (ws->phase < ZSTD_cwksp_alloc_aligned &&
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phase >= ZSTD_cwksp_alloc_aligned) {
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/* If unaligned allocations down from a too-large top have left us
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* unaligned, we need to realign our alloc ptr. Technically, this
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* can consume space that is unaccounted for in the neededSpace
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* calculation. However, I believe this can only happen when the
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* workspace is too large, and specifically when it is too large
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* by a larger margin than the space that will be consumed. */
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/* TODO: cleaner, compiler warning friendly way to do this??? */
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ws->allocStart = (BYTE*)ws->allocStart - ((size_t)ws->allocStart & (sizeof(U32)-1));
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if (ws->allocStart < ws->tableValidEnd) {
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ws->tableValidEnd = ws->allocStart;
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}
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}
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ws->phase = phase;
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}
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}
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/*
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* Returns whether this object/buffer/etc was allocated in this workspace.
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*/
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MEM_STATIC int ZSTD_cwksp_owns_buffer(const ZSTD_cwksp* ws, const void* ptr) {
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return (ptr != NULL) && (ws->workspace <= ptr) && (ptr <= ws->workspaceEnd);
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}
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/*
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* Internal function. Do not use directly.
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*/
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MEM_STATIC void* ZSTD_cwksp_reserve_internal(
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ZSTD_cwksp* ws, size_t bytes, ZSTD_cwksp_alloc_phase_e phase) {
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void* alloc;
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void* bottom = ws->tableEnd;
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ZSTD_cwksp_internal_advance_phase(ws, phase);
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alloc = (BYTE *)ws->allocStart - bytes;
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if (bytes == 0)
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return NULL;
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DEBUGLOG(5, "cwksp: reserving %p %zd bytes, %zd bytes remaining",
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alloc, bytes, ZSTD_cwksp_available_space(ws) - bytes);
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ZSTD_cwksp_assert_internal_consistency(ws);
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assert(alloc >= bottom);
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if (alloc < bottom) {
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DEBUGLOG(4, "cwksp: alloc failed!");
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ws->allocFailed = 1;
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return NULL;
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}
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if (alloc < ws->tableValidEnd) {
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ws->tableValidEnd = alloc;
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}
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ws->allocStart = alloc;
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return alloc;
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}
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/*
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* Reserves and returns unaligned memory.
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*/
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MEM_STATIC BYTE* ZSTD_cwksp_reserve_buffer(ZSTD_cwksp* ws, size_t bytes) {
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return (BYTE*)ZSTD_cwksp_reserve_internal(ws, bytes, ZSTD_cwksp_alloc_buffers);
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}
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/*
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* Reserves and returns memory sized on and aligned on sizeof(unsigned).
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*/
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MEM_STATIC void* ZSTD_cwksp_reserve_aligned(ZSTD_cwksp* ws, size_t bytes) {
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assert((bytes & (sizeof(U32)-1)) == 0);
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return ZSTD_cwksp_reserve_internal(ws, ZSTD_cwksp_align(bytes, sizeof(U32)), ZSTD_cwksp_alloc_aligned);
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}
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/*
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* Aligned on sizeof(unsigned). These buffers have the special property that
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* their values remain constrained, allowing us to re-use them without
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* memset()-ing them.
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*/
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MEM_STATIC void* ZSTD_cwksp_reserve_table(ZSTD_cwksp* ws, size_t bytes) {
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const ZSTD_cwksp_alloc_phase_e phase = ZSTD_cwksp_alloc_aligned;
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void* alloc = ws->tableEnd;
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void* end = (BYTE *)alloc + bytes;
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void* top = ws->allocStart;
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DEBUGLOG(5, "cwksp: reserving %p table %zd bytes, %zd bytes remaining",
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alloc, bytes, ZSTD_cwksp_available_space(ws) - bytes);
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assert((bytes & (sizeof(U32)-1)) == 0);
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ZSTD_cwksp_internal_advance_phase(ws, phase);
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ZSTD_cwksp_assert_internal_consistency(ws);
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assert(end <= top);
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if (end > top) {
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DEBUGLOG(4, "cwksp: table alloc failed!");
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ws->allocFailed = 1;
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return NULL;
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}
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ws->tableEnd = end;
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return alloc;
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}
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/*
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* Aligned on sizeof(void*).
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*/
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MEM_STATIC void* ZSTD_cwksp_reserve_object(ZSTD_cwksp* ws, size_t bytes) {
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size_t roundedBytes = ZSTD_cwksp_align(bytes, sizeof(void*));
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void* alloc = ws->objectEnd;
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void* end = (BYTE*)alloc + roundedBytes;
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DEBUGLOG(5,
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"cwksp: reserving %p object %zd bytes (rounded to %zd), %zd bytes remaining",
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alloc, bytes, roundedBytes, ZSTD_cwksp_available_space(ws) - roundedBytes);
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assert(((size_t)alloc & (sizeof(void*)-1)) == 0);
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assert((bytes & (sizeof(void*)-1)) == 0);
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ZSTD_cwksp_assert_internal_consistency(ws);
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/* we must be in the first phase, no advance is possible */
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if (ws->phase != ZSTD_cwksp_alloc_objects || end > ws->workspaceEnd) {
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DEBUGLOG(4, "cwksp: object alloc failed!");
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ws->allocFailed = 1;
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return NULL;
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}
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ws->objectEnd = end;
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ws->tableEnd = end;
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ws->tableValidEnd = end;
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return alloc;
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}
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MEM_STATIC void ZSTD_cwksp_mark_tables_dirty(ZSTD_cwksp* ws) {
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DEBUGLOG(4, "cwksp: ZSTD_cwksp_mark_tables_dirty");
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assert(ws->tableValidEnd >= ws->objectEnd);
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assert(ws->tableValidEnd <= ws->allocStart);
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ws->tableValidEnd = ws->objectEnd;
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ZSTD_cwksp_assert_internal_consistency(ws);
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}
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MEM_STATIC void ZSTD_cwksp_mark_tables_clean(ZSTD_cwksp* ws) {
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DEBUGLOG(4, "cwksp: ZSTD_cwksp_mark_tables_clean");
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assert(ws->tableValidEnd >= ws->objectEnd);
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assert(ws->tableValidEnd <= ws->allocStart);
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if (ws->tableValidEnd < ws->tableEnd) {
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ws->tableValidEnd = ws->tableEnd;
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}
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ZSTD_cwksp_assert_internal_consistency(ws);
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}
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/*
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* Zero the part of the allocated tables not already marked clean.
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*/
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MEM_STATIC void ZSTD_cwksp_clean_tables(ZSTD_cwksp* ws) {
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DEBUGLOG(4, "cwksp: ZSTD_cwksp_clean_tables");
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assert(ws->tableValidEnd >= ws->objectEnd);
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assert(ws->tableValidEnd <= ws->allocStart);
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if (ws->tableValidEnd < ws->tableEnd) {
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ZSTD_memset(ws->tableValidEnd, 0, (BYTE*)ws->tableEnd - (BYTE*)ws->tableValidEnd);
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}
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ZSTD_cwksp_mark_tables_clean(ws);
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}
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/*
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* Invalidates table allocations.
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* All other allocations remain valid.
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*/
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MEM_STATIC void ZSTD_cwksp_clear_tables(ZSTD_cwksp* ws) {
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DEBUGLOG(4, "cwksp: clearing tables!");
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ws->tableEnd = ws->objectEnd;
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ZSTD_cwksp_assert_internal_consistency(ws);
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}
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/*
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* Invalidates all buffer, aligned, and table allocations.
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* Object allocations remain valid.
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*/
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MEM_STATIC void ZSTD_cwksp_clear(ZSTD_cwksp* ws) {
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DEBUGLOG(4, "cwksp: clearing!");
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ws->tableEnd = ws->objectEnd;
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ws->allocStart = ws->workspaceEnd;
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ws->allocFailed = 0;
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if (ws->phase > ZSTD_cwksp_alloc_buffers) {
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ws->phase = ZSTD_cwksp_alloc_buffers;
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}
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ZSTD_cwksp_assert_internal_consistency(ws);
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}
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/*
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* The provided workspace takes ownership of the buffer [start, start+size).
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* Any existing values in the workspace are ignored (the previously managed
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* buffer, if present, must be separately freed).
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*/
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MEM_STATIC void ZSTD_cwksp_init(ZSTD_cwksp* ws, void* start, size_t size, ZSTD_cwksp_static_alloc_e isStatic) {
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DEBUGLOG(4, "cwksp: init'ing workspace with %zd bytes", size);
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assert(((size_t)start & (sizeof(void*)-1)) == 0); /* ensure correct alignment */
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ws->workspace = start;
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ws->workspaceEnd = (BYTE*)start + size;
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ws->objectEnd = ws->workspace;
|
||
|
ws->tableValidEnd = ws->objectEnd;
|
||
|
ws->phase = ZSTD_cwksp_alloc_objects;
|
||
|
ws->isStatic = isStatic;
|
||
|
ZSTD_cwksp_clear(ws);
|
||
|
ws->workspaceOversizedDuration = 0;
|
||
|
ZSTD_cwksp_assert_internal_consistency(ws);
|
||
|
}
|
||
|
|
||
|
MEM_STATIC size_t ZSTD_cwksp_create(ZSTD_cwksp* ws, size_t size, ZSTD_customMem customMem) {
|
||
|
void* workspace = ZSTD_customMalloc(size, customMem);
|
||
|
DEBUGLOG(4, "cwksp: creating new workspace with %zd bytes", size);
|
||
|
RETURN_ERROR_IF(workspace == NULL, memory_allocation, "NULL pointer!");
|
||
|
ZSTD_cwksp_init(ws, workspace, size, ZSTD_cwksp_dynamic_alloc);
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
MEM_STATIC void ZSTD_cwksp_free(ZSTD_cwksp* ws, ZSTD_customMem customMem) {
|
||
|
void *ptr = ws->workspace;
|
||
|
DEBUGLOG(4, "cwksp: freeing workspace");
|
||
|
ZSTD_memset(ws, 0, sizeof(ZSTD_cwksp));
|
||
|
ZSTD_customFree(ptr, customMem);
|
||
|
}
|
||
|
|
||
|
/*
|
||
|
* Moves the management of a workspace from one cwksp to another. The src cwksp
|
||
|
* is left in an invalid state (src must be re-init()'ed before it's used again).
|
||
|
*/
|
||
|
MEM_STATIC void ZSTD_cwksp_move(ZSTD_cwksp* dst, ZSTD_cwksp* src) {
|
||
|
*dst = *src;
|
||
|
ZSTD_memset(src, 0, sizeof(ZSTD_cwksp));
|
||
|
}
|
||
|
|
||
|
MEM_STATIC size_t ZSTD_cwksp_sizeof(const ZSTD_cwksp* ws) {
|
||
|
return (size_t)((BYTE*)ws->workspaceEnd - (BYTE*)ws->workspace);
|
||
|
}
|
||
|
|
||
|
MEM_STATIC size_t ZSTD_cwksp_used(const ZSTD_cwksp* ws) {
|
||
|
return (size_t)((BYTE*)ws->tableEnd - (BYTE*)ws->workspace)
|
||
|
+ (size_t)((BYTE*)ws->workspaceEnd - (BYTE*)ws->allocStart);
|
||
|
}
|
||
|
|
||
|
MEM_STATIC int ZSTD_cwksp_reserve_failed(const ZSTD_cwksp* ws) {
|
||
|
return ws->allocFailed;
|
||
|
}
|
||
|
|
||
|
/*-*************************************
|
||
|
* Functions Checking Free Space
|
||
|
***************************************/
|
||
|
|
||
|
MEM_STATIC size_t ZSTD_cwksp_available_space(ZSTD_cwksp* ws) {
|
||
|
return (size_t)((BYTE*)ws->allocStart - (BYTE*)ws->tableEnd);
|
||
|
}
|
||
|
|
||
|
MEM_STATIC int ZSTD_cwksp_check_available(ZSTD_cwksp* ws, size_t additionalNeededSpace) {
|
||
|
return ZSTD_cwksp_available_space(ws) >= additionalNeededSpace;
|
||
|
}
|
||
|
|
||
|
MEM_STATIC int ZSTD_cwksp_check_too_large(ZSTD_cwksp* ws, size_t additionalNeededSpace) {
|
||
|
return ZSTD_cwksp_check_available(
|
||
|
ws, additionalNeededSpace * ZSTD_WORKSPACETOOLARGE_FACTOR);
|
||
|
}
|
||
|
|
||
|
MEM_STATIC int ZSTD_cwksp_check_wasteful(ZSTD_cwksp* ws, size_t additionalNeededSpace) {
|
||
|
return ZSTD_cwksp_check_too_large(ws, additionalNeededSpace)
|
||
|
&& ws->workspaceOversizedDuration > ZSTD_WORKSPACETOOLARGE_MAXDURATION;
|
||
|
}
|
||
|
|
||
|
MEM_STATIC void ZSTD_cwksp_bump_oversized_duration(
|
||
|
ZSTD_cwksp* ws, size_t additionalNeededSpace) {
|
||
|
if (ZSTD_cwksp_check_too_large(ws, additionalNeededSpace)) {
|
||
|
ws->workspaceOversizedDuration++;
|
||
|
} else {
|
||
|
ws->workspaceOversizedDuration = 0;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
|
||
|
#endif /* ZSTD_CWKSP_H */
|