xref: /freebsd/contrib/xz/src/liblzma/common/outqueue.h (revision ebacd8013fe5f7fdf9f6a5b286f6680dd2891036)
1 ///////////////////////////////////////////////////////////////////////////////
2 //
3 /// \file       outqueue.h
4 /// \brief      Output queue handling in multithreaded coding
5 //
6 //  Author:     Lasse Collin
7 //
8 //  This file has been put into the public domain.
9 //  You can do whatever you want with this file.
10 //
11 ///////////////////////////////////////////////////////////////////////////////
12 
13 #include "common.h"
14 
15 
16 /// Output buffer for a single thread
17 typedef struct lzma_outbuf_s lzma_outbuf;
18 struct lzma_outbuf_s {
19 	/// Pointer to the next buffer. This is used for the cached buffers.
20 	/// The worker thread must not modify this.
21 	lzma_outbuf *next;
22 
23 	/// This initialized by lzma_outq_get_buf() and
24 	/// is used by lzma_outq_enable_partial_output().
25 	/// The worker thread must not modify this.
26 	void *worker;
27 
28 	/// Amount of memory allocated for buf[].
29 	/// The worker thread must not modify this.
30 	size_t allocated;
31 
32 	/// Writing position in the worker thread or, in other words, the
33 	/// amount of finished data written to buf[] which can be copied out
34 	///
35 	/// \note       This is read by another thread and thus access
36 	///             to this variable needs a mutex.
37 	size_t pos;
38 
39 	/// Decompression: Position in the input buffer in the worker thread
40 	/// that matches the output "pos" above. This is used to detect if
41 	/// more output might be possible from the worker thread: if it has
42 	/// consumed all its input, then more output isn't possible.
43 	///
44 	/// \note       This is read by another thread and thus access
45 	///             to this variable needs a mutex.
46 	size_t decoder_in_pos;
47 
48 	/// True when no more data will be written into this buffer.
49 	///
50 	/// \note       This is read by another thread and thus access
51 	///             to this variable needs a mutex.
52 	bool finished;
53 
54 	/// Return value for lzma_outq_read() when the last byte from
55 	/// a finished buffer has been read. Defaults to LZMA_STREAM_END.
56 	/// This must *not* be LZMA_OK. The idea is to allow a decoder to
57 	/// pass an error code to the main thread, setting the code here
58 	/// together with finished = true.
59 	lzma_ret finish_ret;
60 
61 	/// Additional size information. lzma_outq_read() may read these
62 	/// when "finished" is true.
63 	lzma_vli unpadded_size;
64 	lzma_vli uncompressed_size;
65 
66 	/// Buffer of "allocated" bytes
67 	uint8_t buf[];
68 };
69 
70 
71 typedef struct {
72 	/// Linked list of buffers in use. The next output byte will be
73 	/// read from the head and buffers for the next thread will be
74 	/// appended to the tail. tail->next is always NULL.
75 	lzma_outbuf *head;
76 	lzma_outbuf *tail;
77 
78 	/// Number of bytes read from head->buf[] in lzma_outq_read()
79 	size_t read_pos;
80 
81 	/// Linked list of allocated buffers that aren't currently used.
82 	/// This way buffers of similar size can be reused and don't
83 	/// need to be reallocated every time. For simplicity, all
84 	/// cached buffers in the list have the same allocated size.
85 	lzma_outbuf *cache;
86 
87 	/// Total amount of memory allocated for buffers
88 	uint64_t mem_allocated;
89 
90 	/// Amount of memory used by the buffers that are in use in
91 	/// the head...tail linked list.
92 	uint64_t mem_in_use;
93 
94 	/// Number of buffers in use in the head...tail list. If and only if
95 	/// this is zero, the pointers head and tail above are NULL.
96 	uint32_t bufs_in_use;
97 
98 	/// Number of buffers allocated (in use + cached)
99 	uint32_t bufs_allocated;
100 
101 	/// Maximum allowed number of allocated buffers
102 	uint32_t bufs_limit;
103 } lzma_outq;
104 
105 
106 /**
107  * \brief       Calculate the memory usage of an output queue
108  *
109  * \return      Approximate memory usage in bytes or UINT64_MAX on error.
110  */
111 extern uint64_t lzma_outq_memusage(uint64_t buf_size_max, uint32_t threads);
112 
113 
114 /// \brief      Initialize an output queue
115 ///
116 /// \param      outq            Pointer to an output queue. Before calling
117 ///                             this function the first time, *outq should
118 ///                             have been zeroed with memzero() so that this
119 ///                             function knows that there are no previous
120 ///                             allocations to free.
121 /// \param      allocator       Pointer to allocator or NULL
122 /// \param      threads         Number of buffers that may be in use
123 ///                             concurrently. Note that more than this number
124 ///                             of buffers may actually get allocated to
125 ///                             improve performance when buffers finish
126 ///                             out of order. The actual maximum number of
127 ///                             allocated buffers is derived from the number
128 ///                             of threads.
129 ///
130 /// \return     - LZMA_OK
131 ///             - LZMA_MEM_ERROR
132 ///
133 extern lzma_ret lzma_outq_init(lzma_outq *outq,
134 		const lzma_allocator *allocator, uint32_t threads);
135 
136 
137 /// \brief      Free the memory associated with the output queue
138 extern void lzma_outq_end(lzma_outq *outq, const lzma_allocator *allocator);
139 
140 
141 /// \brief      Free all cached buffers that consume memory but aren't in use
142 extern void lzma_outq_clear_cache(
143 		lzma_outq *outq, const lzma_allocator *allocator);
144 
145 
146 /// \brief      Like lzma_outq_clear_cache() but might keep one buffer
147 ///
148 /// One buffer is not freed if its size is equal to keep_size.
149 /// This is useful if the caller knows that it will soon need a buffer of
150 /// keep_size bytes. This way it won't be freed and immediately reallocated.
151 extern void lzma_outq_clear_cache2(
152 		lzma_outq *outq, const lzma_allocator *allocator,
153 		size_t keep_size);
154 
155 
156 /// \brief      Preallocate a new buffer into cache
157 ///
158 /// Splitting the buffer allocation into a separate function makes it
159 /// possible to ensure that way lzma_outq_get_buf() cannot fail.
160 /// If the preallocated buffer isn't actually used (for example, some
161 /// other error occurs), the caller has to do nothing as the buffer will
162 /// be used later or cleared from the cache when not needed.
163 ///
164 /// \return     LZMA_OK on success, LZMA_MEM_ERROR if allocation fails
165 ///
166 extern lzma_ret lzma_outq_prealloc_buf(
167 		lzma_outq *outq, const lzma_allocator *allocator, size_t size);
168 
169 
170 /// \brief      Get a new buffer
171 ///
172 /// lzma_outq_prealloc_buf() must be used to ensure that there is a buffer
173 /// available before calling lzma_outq_get_buf().
174 ///
175 extern lzma_outbuf *lzma_outq_get_buf(lzma_outq *outq, void *worker);
176 
177 
178 /// \brief      Test if there is data ready to be read
179 ///
180 /// Call to this function must be protected with the same mutex that
181 /// is used to protect lzma_outbuf.finished.
182 ///
183 extern bool lzma_outq_is_readable(const lzma_outq *outq);
184 
185 
186 /// \brief      Read finished data
187 ///
188 /// \param      outq            Pointer to an output queue
189 /// \param      out             Beginning of the output buffer
190 /// \param      out_pos         The next byte will be written to
191 ///                             out[*out_pos].
192 /// \param      out_size        Size of the out buffer; the first byte into
193 ///                             which no data is written to is out[out_size].
194 /// \param      unpadded_size   Unpadded Size from the Block encoder
195 /// \param      uncompressed_size Uncompressed Size from the Block encoder
196 ///
197 /// \return     - LZMA: All OK. Either no data was available or the buffer
198 ///               being read didn't become empty yet.
199 ///             - LZMA_STREAM_END: The buffer being read was finished.
200 ///               *unpadded_size and *uncompressed_size were set if they
201 ///               were not NULL.
202 ///
203 /// \note       This reads lzma_outbuf.finished and .pos variables and thus
204 ///             calls to this function need to be protected with a mutex.
205 ///
206 extern lzma_ret lzma_outq_read(lzma_outq *restrict outq,
207 		const lzma_allocator *restrict allocator,
208 		uint8_t *restrict out, size_t *restrict out_pos,
209 		size_t out_size, lzma_vli *restrict unpadded_size,
210 		lzma_vli *restrict uncompressed_size);
211 
212 
213 /// \brief      Enable partial output from a worker thread
214 ///
215 /// If the buffer at the head of the output queue isn't finished,
216 /// this will call enable_partial_output on the worker associated with
217 /// that output buffer.
218 ///
219 /// \note       This reads a lzma_outbuf.finished variable and thus
220 ///             calls to this function need to be protected with a mutex.
221 ///
222 extern void lzma_outq_enable_partial_output(lzma_outq *outq,
223 		void (*enable_partial_output)(void *worker));
224 
225 
226 /// \brief      Test if there is at least one buffer free
227 ///
228 /// This must be used before getting a new buffer with lzma_outq_get_buf().
229 ///
230 static inline bool
231 lzma_outq_has_buf(const lzma_outq *outq)
232 {
233 	return outq->bufs_in_use < outq->bufs_limit;
234 }
235 
236 
237 /// \brief      Test if the queue is completely empty
238 static inline bool
239 lzma_outq_is_empty(const lzma_outq *outq)
240 {
241 	return outq->bufs_in_use == 0;
242 }
243 
244 
245 /// \brief      Get the amount of memory needed for a single lzma_outbuf
246 ///
247 /// \note       Caller must check that the argument is significantly less
248 ///             than SIZE_MAX to avoid an integer overflow!
249 static inline uint64_t
250 lzma_outq_outbuf_memusage(size_t buf_size)
251 {
252 	assert(buf_size <= SIZE_MAX - sizeof(lzma_outbuf));
253 	return sizeof(lzma_outbuf) + buf_size;
254 }
255