2 * UCW Library -- Fast Buffered I/O
4 * (c) 1997--2011 Martin Mares <mj@ucw.cz>
5 * (c) 2004 Robert Spalek <robert@ucw.cz>
6 * (c) 2014 Pavel Charvat <pchar@ucw.cz>
8 * This software may be freely distributed and used according to the terms
9 * of the GNU Lesser General Public License.
12 #ifndef _UCW_FASTBUF_H
13 #define _UCW_FASTBUF_H
18 #ifdef CONFIG_UCW_CLEAN_ABI
19 #define bbcopy_slow ucw_bbcopy_slow
20 #define bclose ucw_bclose
21 #define bclose_file_helper ucw_bclose_file_helper
22 #define bconfig ucw_bconfig
23 #define beof_slow ucw_beof_slow
24 #define bfdopen ucw_bfdopen
25 #define bfdopen_internal ucw_bfdopen_internal
26 #define bfdopen_shared ucw_bfdopen_shared
27 #define bfilesize ucw_bfilesize
28 #define bfilesync ucw_bfilesync
29 #define bfix_tmp_file ucw_bfix_tmp_file
30 #define bflush ucw_bflush
31 #define bfmmopen_internal ucw_bfmmopen_internal
32 #define bgetc_slow ucw_bgetc_slow
33 #define bgets ucw_bgets
34 #define bgets0 ucw_bgets0
35 #define bgets_bb ucw_bgets_bb
36 #define bgets_mp ucw_bgets_mp
37 #define bgets_nodie ucw_bgets_nodie
38 #define bgets_stk_init ucw_bgets_stk_init
39 #define bgets_stk_step ucw_bgets_stk_step
40 #define bopen ucw_bopen
41 #define bopen_fd_name ucw_bopen_fd_name
42 #define bopen_file ucw_bopen_file
43 #define bopen_file_try ucw_bopen_file_try
44 #define bopen_limited_fd ucw_bopen_limited_fd
45 #define bopen_tmp ucw_bopen_tmp
46 #define bopen_tmp_file ucw_bopen_tmp_file
47 #define bopen_try ucw_bopen_try
48 #define bpeekc_slow ucw_bpeekc_slow
49 #define bprintf ucw_bprintf
50 #define bputc_slow ucw_bputc_slow
51 #define bread_slow ucw_bread_slow
52 #define brefill ucw_brefill
53 #define brewind ucw_brewind
54 #define bseek ucw_bseek
55 #define bsetpos ucw_bsetpos
56 #define bskip_slow ucw_bskip_slow
57 #define bspout ucw_bspout
58 #define bthrow ucw_bthrow
59 #define bwrite_slow ucw_bwrite_slow
60 #define fb_tie ucw_fb_tie
61 #define fbatomic_internal_write ucw_fbatomic_internal_write
62 #define fbatomic_open ucw_fbatomic_open
63 #define fbbuf_init_read ucw_fbbuf_init_read
64 #define fbbuf_init_write ucw_fbbuf_init_write
65 #define fbdir_cheat ucw_fbdir_cheat
66 #define fbdir_open_fd_internal ucw_fbdir_open_fd_internal
67 #define fbgrow_create ucw_fbgrow_create
68 #define fbgrow_create_mp ucw_fbgrow_create_mp
69 #define fbgrow_get_buf ucw_fbgrow_get_buf
70 #define fbgrow_reset ucw_fbgrow_reset
71 #define fbgrow_rewind ucw_fbgrow_rewind
72 #define fbmem_clone_read ucw_fbmem_clone_read
73 #define fbmem_create ucw_fbmem_create
74 #define fbmulti_append ucw_fbmulti_append
75 #define fbmulti_create ucw_fbmulti_create
76 #define fbmulti_remove ucw_fbmulti_remove
77 #define fbpar_cf ucw_fbpar_cf
78 #define fbpar_def ucw_fbpar_def
79 #define fbpool_end ucw_fbpool_end
80 #define fbpool_init ucw_fbpool_init
81 #define fbpool_start ucw_fbpool_start
82 #define fbnull_open ucw_fbnull_open
83 #define fbnull_start ucw_fbnull_start
84 #define fbnull_test ucw_fbnull_test
85 #define open_tmp ucw_open_tmp
86 #define temp_file_name ucw_temp_file_name
87 #define vbprintf ucw_vbprintf
91 * === Internal structure [[internal]]
93 * Generally speaking, a fastbuf consists of a buffer and a set of callbacks.
94 * All front-end functions operate on the buffer and if the buffer becomes
95 * empty or fills up, they ask the corresponding callback to handle the
96 * situation. Back-ends then differ just in the definition of the callbacks.
98 * The state of the fastbuf is represented by a <<struct_fastbuf,`struct fastbuf`>>,
99 * which is a simple structure describing the state of the buffer (the pointers
100 * `buffer`, `bufend`), the front-end cursor (`bptr`), the back-end cursor (`bstop`),
101 * position of the back-end cursor in the file (`pos`), some flags (`flags`)
102 * and pointers to the callback functions.
104 * The buffer can be in one of the following states:
108 * +------------------------------------+---------------------------+
109 * | unused | free space |
110 * +------------------------------------+---------------------------+
112 * buffer <= bstop (BE pos) <= bptr (FE pos) <= bufend
114 * * This schema describes a fastbuf after its initialization or @bflush().
115 * * There is no cached data and we are ready for any read or write operation
116 * (well, only if the back-end supports it).
117 * * The interval `[bptr, bufend]` can be used by front-ends
118 * for writing. If it is empty, the `spout` callback gets called
119 * upon the first write attempt to allocate a new buffer. Otherwise
120 * the fastbuf silently comes to the writing mode.
121 * * When a front-end needs to read something, it calls the `refill` callback.
122 * * The pointers can be either all non-`NULL` or all NULL.
123 * * `bstop == bptr` in most back-ends, but it is not necessary. Some
124 * in-memory streams take advantage of this.
128 * +------------------------------------+---------------------------+
129 * | read data | unused |
130 * +------------------------------------+---------------------------+
132 * buffer <= bptr (FE pos) <= bstop (BE pos) <= bufend
134 * * If we try to read something, we get to the reading mode.
135 * * No writing is allowed until a flush operation. But note that @bflush()
136 * will simply set `bptr` to `bstop` before `spout`
137 * and it breaks the position of the front-end's cursor,
138 * so the user should seek afwards.
139 * * The interval `[buffer, bstop]` contains a block of data read by the back-end.
140 * `bptr` is the front-end's cursor which points to the next character to be read.
141 * After the last character is read, `bptr == bstop` and the `refill` callback
142 * gets called upon the next read attempt to bring further data.
143 * This gives us an easy way how to implement @bungetc().
147 * +-----------------------+----------------+-----------------------+
148 * | unused | written data | free space |
149 * +-----------------------+----------------+-----------------------+
151 * buffer <= bstop (BE pos) < bptr (FE pos) <= bufend
153 * * This schema corresponds to the situation after a write attempt.
154 * * No reading is allowed until a flush operation.
155 * * The `bptr` points at the position where the next character
156 * will be written to. When we want to write, but `bptr == bufend`, we call
157 * the `spout` hook to flush the witten data and get an empty buffer.
158 * * `bstop` usually points at the beginning of the written data,
159 * but it is not necessary.
162 * Rules for back-ends:
164 * - Front-ends are only allowed to change the value of `bptr`, some flags
165 * and if a fatal error occurs, then also `bstop`. Back-ends can rely on it.
166 * - `buffer <= bstop <= bufend` and `buffer <= bptr <= bufend`.
167 * - `pos` should be the real position in the file corresponding to the location of `bstop` in the buffer.
168 * It can be modified by any back-end's callback, but the position of `bptr` (`pos + (bptr - bstop)`)
169 * must stay unchanged after `refill` or `spout`.
170 * - Failed callbacks (except `close`) should use @bthrow().
171 * - Any callback pointer may be NULL in case the callback is not implemented.
172 * - Callbacks can change not only `bptr` and `bstop`, but also the location and size of the buffer;
173 * the fb-mem back-end takes advantage of it.
176 * * out: `buffer <= bstop <= bptr <= bufend` (flushed).
177 * * @fb_tie() should be called on the newly created fastbuf.
180 * * in: `buffer <= bstop <= bptr <= bufend` (reading or flushed).
181 * * out: `buffer <= bptr <= bstop <= bufend` (reading).
182 * * Resulting `bptr == bstop` signals the end of file.
183 * The next reading attempt will again call `refill` which can succeed this time.
184 * * The callback must also return zero on EOF (iff `bptr == bstop`).
187 * * in: `buffer <= bstop <= bptr <= bufend` (writing or flushed).
188 * * out: `buffer <= bstop <= bptr < bufend` (flushed).
191 * * in: `buffer <= bstop <= bptr <= bufend` (flushed).
192 * * in: `(ofs >= 0 && whence == SEEK_SET) || (ofs <= 0 && whence == SEEK_END)`.
193 * * out: `buffer <= bstop <= bptr <= bufend` (flushed).
196 * * in: `buffer <= bstop <= bptr <= bufend` (flushed or after @bthrow()).
197 * * `close` must always free all internal structures, even when it throws an exception.
201 * This structure contains the state of the fastbuf. See the discussion above
205 byte *bptr, *bstop; /* State of the buffer */
206 byte *buffer, *bufend; /* Start and end of the buffer */
207 char *name; /* File name (used for error messages) */
208 ucw_off_t pos; /* Position of bstop in the file */
209 uns flags; /* See enum fb_flags */
210 int (*refill)(struct fastbuf *); /* Get a buffer with new data, returns 0 on EOF */
211 void (*spout)(struct fastbuf *); /* Write buffer data to the file */
212 int (*seek)(struct fastbuf *, ucw_off_t, int);/* Slow path for @bseek(), buffer already flushed; returns success */
213 void (*close)(struct fastbuf *); /* Close the stream */
214 int (*config)(struct fastbuf *, uns, int); /* Configure the stream */
215 int can_overwrite_buffer; /* Can the buffer be altered? 0=never, 1=temporarily, 2=permanently */
216 struct resource *res; /* The fastbuf can be tied to a resource pool */
223 FB_DEAD = 0x1, /* Some fastbuf's method has thrown an exception */
224 FB_DIE_ON_EOF = 0x2, /* Most of read operations throw "fb.eof" on EOF */
227 /** Tie a fastbuf to a resource in the current resource pool. Returns the pointer to the same fastbuf. **/
228 struct fastbuf *fb_tie(struct fastbuf *b); /* Tie fastbuf to a resource if there is an active pool */
231 * === Fastbuf on files [[fbparam]]
233 * If you want to use fastbufs to access files, you can choose one of several
234 * back-ends and set their parameters.
241 FB_STD, /* Standard buffered I/O */
242 FB_DIRECT, /* Direct I/O bypassing system caches (see fb-direct.c for a description) */
243 FB_MMAP /* Memory mapped files */
247 * When you open a file fastbuf, you can use this structure to select a back-end
248 * and set its parameters. If you want just an "ordinary" file stream, you can
249 * happily pass NULL instead and the defaults from the configuration file (or
250 * hard-wired defaults if no config file has been read) will be used.
253 enum fb_type type; /* The chosen back-end */
254 uns buffer_size; /* 0 for default size */
255 uns keep_back_buf; /* FB_STD: optimize for bi-directional access */
256 uns read_ahead; /* FB_DIRECT options */
258 struct asio_queue *asio;
262 extern struct cf_section fbpar_cf; /** Configuration section with which you can fill the `fb_params` **/
263 extern struct fb_params fbpar_def; /** The default `fb_params` **/
266 * Opens a file with file mode @mode (see the man page of open()).
267 * Use @params to select the fastbuf back-end and its parameters or
268 * pass NULL if you are fine with defaults.
270 * Raises `ucw.fb.open` if the file does not exist.
272 struct fastbuf *bopen_file(const char *name, int mode, struct fb_params *params);
273 struct fastbuf *bopen_file_try(const char *name, int mode, struct fb_params *params); /** Like @bopen_file(), but returns NULL on failure. **/
276 * Opens a temporary file.
277 * It is placed with other temp files and it is deleted when closed.
278 * Again, use NULL for @params if you want the defaults.
280 struct fastbuf *bopen_tmp_file(struct fb_params *params);
283 * Creates a fastbuf from a file descriptor @fd and sets its filename
284 * to @name (the name is used only in error messages).
285 * When the fastbuf is closed, the fd is closed as well. You can override
286 * this behavior by calling @bconfig().
288 struct fastbuf *bopen_fd_name(int fd, struct fb_params *params, const char *name);
289 static inline struct fastbuf *bopen_fd(int fd, struct fb_params *params) /** Same as above, but with an auto-generated filename. **/
291 return bopen_fd_name(fd, params, NULL);
295 * Flushes all buffers and makes sure that they are written to the disk.
297 void bfilesync(struct fastbuf *b);
300 * === Fastbufs on regular files [[fbfile]]
302 * If you want to use the `FB_STD` back-end and not worry about setting
303 * up any parameters, there is a couple of shortcuts.
306 struct fastbuf *bopen(const char *name, uns mode, uns buflen); /** Equivalent to @bopen_file() with `FB_STD` back-end. **/
307 struct fastbuf *bopen_try(const char *name, uns mode, uns buflen); /** Equivalent to @bopen_file_try() with `FB_STD` back-end. **/
308 struct fastbuf *bopen_tmp(uns buflen); /** Equivalent to @bopen_tmp_file() with `FB_STD` back-end. **/
309 struct fastbuf *bfdopen(int fd, uns buflen); /** Equivalent to @bopen_fd() with `FB_STD` back-end. **/
310 struct fastbuf *bfdopen_shared(int fd, uns buflen); /** Like @bfdopen(), but it does not close the @fd on @bclose(). **/
313 * === Temporary files [[fbtemp]]
315 * Usually, @bopen_tmp_file() is the best way how to come to a temporary file.
316 * However, in some specific cases you can need more, so there is also a set
317 * of more general functions.
320 #define TEMP_FILE_NAME_LEN 256
323 * Generates a temporary filename and stores it to the @name_buf (of size
324 * at least * `TEMP_FILE_NAME_LEN`). If @open_flags are not NULL, flags that
325 * should be OR-ed with other flags to open() will be stored there.
327 * The location and style of temporary files is controlled by the configuration.
328 * By default, the system temp directory (`$TMPDIR` or `/tmp`) is used.
330 * If the location is a publicly writeable directory (like `/tmp`), the
331 * generated filename cannot be guaranteed to be unique, so @open_flags
332 * will include `O_EXCL` and you have to check the result of open() and
335 * This function is not specific to fastbufs, it can be used separately.
337 void temp_file_name(char *name_buf, int *open_flags);
340 * Opens a temporary file and returns its file descriptor.
341 * You specify the file @mode and @open_flags passed to open().
343 * If the @name_buf (of at last `TEMP_FILE_NAME_LEN` chars) is not NULL,
344 * the filename is also stored in it.
346 * This function is not specific to fastbufs, it can be used separately.
348 int open_tmp(char *name_buf, int open_flags, int mode);
351 * Sometimes, a file is created as temporary and then moved to a stable
352 * location. This function takes a fastbuf created by @bopen_tmp_file()
353 * or @bopen_tmp(), marks it as permanent, closes it and renames it to
356 * Please note that it assumes that the temporary file and the @name
357 * are on the same volume (otherwise, rename() fails), so you might
358 * want to configure a special location for the temporary files
361 void bfix_tmp_file(struct fastbuf *fb, const char *name);
363 /* Internal functions of some file back-ends */
365 struct fastbuf *bfdopen_internal(int fd, const char *name, uns buflen);
366 struct fastbuf *bfmmopen_internal(int fd, const char *name, uns mode);
368 #ifdef CONFIG_UCW_FB_DIRECT
369 extern uns fbdir_cheat;
371 struct fastbuf *fbdir_open_fd_internal(int fd, const char *name, struct asio_queue *io_queue, uns buffer_size, uns read_ahead, uns write_back);
374 void bclose_file_helper(struct fastbuf *f, int fd, int is_temp_file);
377 * === Fastbufs on file fragments [[fblim]]
379 * The `fblim` back-end reads from a file handle, but at most a given
380 * number of bytes. This is frequently used for reading from sockets.
383 struct fastbuf *bopen_limited_fd(int fd, uns bufsize, uns limit); /** Create a fastbuf which reads at most @limit bytes from @fd. **/
386 * === Fastbufs on in-memory streams [[fbmem]]
388 * The `fbmem` back-end keeps the whole contents of the stream
389 * in memory (as a linked list of memory blocks, so address space
390 * fragmentation is avoided).
392 * First, you use @fbmem_create() to create the stream and the fastbuf
393 * used for writing to it. Then you can call @fbmem_clone_read() to get
394 * an arbitrary number of fastbuf for reading from the stream.
397 struct fastbuf *fbmem_create(uns blocksize); /** Create stream and return its writing fastbuf. **/
398 struct fastbuf *fbmem_clone_read(struct fastbuf *f); /** Given a writing fastbuf, create a new reading fastbuf. **/
401 * === Fastbufs on static buffers [[fbbuf]]
403 * The `fbbuf` back-end stores the stream in a given block of memory.
404 * This is useful for parsing and generating of complex data structures.
408 * Creates a read-only fastbuf that takes its data from a given buffer.
409 * The fastbuf structure is allocated by the caller and pointed to by @f.
410 * The @buffer and @size specify the location and size of the buffer.
412 * In some cases, the front-ends can take advantage of rewriting the contents
413 * of the buffer temporarily. In this case, set @can_overwrite as described
414 * in <<internal,Internals>>. If you do not care, keep @can_overwrite zero.
416 * It is not possible to close this fastbuf. This implies that no tying to
417 * resources takes place.
419 void fbbuf_init_read(struct fastbuf *f, byte *buffer, uns size, uns can_overwrite);
422 * Creates a write-only fastbuf which writes into a provided memory buffer.
423 * The fastbuf structure is allocated by the caller and pointed to by @f.
424 * An attempt to write behind the end of the buffer causes the `ucw.fb.write` exception.
426 * Data are written directly into the buffer, so it is not necessary to call @bflush()
429 * It is not possible to close this fastbuf. This implies that no tying to
430 * resources takes place.
432 void fbbuf_init_write(struct fastbuf *f, byte *buffer, uns size);
434 static inline uns fbbuf_count_written(struct fastbuf *f) /** Calculates, how many bytes were already written into the buffer. **/
436 return f->bptr - f->bstop;
440 * === Fastbuf on recyclable growing buffers [[fbgrow]]
442 * The `fbgrow` back-end keeps the stream in a contiguous buffer stored in the
443 * main memory, but unlike <<fbmem,`fbmem`>>, the buffer does not have a fixed
444 * size and it is expanded to accomodate all data.
446 * At every moment, you can use `fastbuf->buffer` to gain access to the stream.
451 struct fastbuf *fbgrow_create(unsigned basic_size); /** Create the growing buffer pre-allocated to @basic_size bytes. **/
452 struct fastbuf *fbgrow_create_mp(struct mempool *mp, unsigned basic_size); /** Create the growing buffer pre-allocated to @basic_size bytes. **/
453 void fbgrow_reset(struct fastbuf *b); /** Reset stream and prepare for writing. **/
454 void fbgrow_rewind(struct fastbuf *b); /** Prepare for reading (of already written data). **/
457 * Can be used in any state of @b (for example when writing or after
458 * @fbgrow_rewind()) to return the pointer to internal buffer and its length in
459 * bytes. The returned buffer can be invalidated by further requests.
461 uns fbgrow_get_buf(struct fastbuf *b, byte **buf);
464 * === Fastbuf on memory pools [[fbpool]]
466 * The write-only `fbpool` back-end also keeps the stream in a contiguous
467 * buffer, but this time the buffer is allocated from within a memory pool.
470 struct fbpool { /** Structure for fastbufs & mempools. **/
476 * Initialize a new `fbpool`. The structure is allocated by the caller,
477 * so @bclose() should not be called and no resource tying takes place.
479 void fbpool_init(struct fbpool *fb); /** Initialize a new mempool fastbuf. **/
481 * Start a new continuous block and prepare for writing (see <<mempool:mp_start()>>).
482 * Provide the memory pool you want to use for this block as @mp.
484 void fbpool_start(struct fbpool *fb, struct mempool *mp, uns init_size);
486 * Close the block and return the address of its start (see <<mempool:mp_end()>>).
487 * The length can be determined by calling <<mempool:mp_size(mp, ptr)>>.
489 void *fbpool_end(struct fbpool *fb);
492 * === Atomic files for multi-threaded programs [[fbatomic]]
494 * This fastbuf backend is designed for cases when several threads
495 * of a single program append records to a common file and while the
496 * record can mix in an arbitrary way, the bytes inside a single
497 * record must remain uninterrupted.
499 * In case of files with fixed record size, we just allocate the
500 * buffer to hold a whole number of records and take advantage
501 * of the atomicity of the write() system call.
503 * With variable-sized records, we need another solution: when
504 * writing a record, we keep the fastbuf in a locked state, which
505 * prevents buffer flushing (and if the buffer becomes full, we extend it),
506 * and we wait for an explicit commit operation which write()s the buffer
507 * if the free space in the buffer falls below the expected maximum record
510 * Please note that initialization of the clones is not thread-safe,
511 * so you have to serialize it yourself.
516 struct fb_atomic_file *af;
517 byte *expected_max_bptr;
522 * Open an atomic fastbuf.
523 * If @master is NULL, the file @name is opened. If it is non-null,
524 * a new clone of an existing atomic fastbuf is created.
526 * If the file has fixed record length, just set @record_len to it.
527 * Otherwise set @record_len to the expected maximum record length
528 * with a negative sign (you need not fit in this length, but as long
529 * as you do, the fastbuf is more efficient) and call @fbatomic_commit()
532 * You can specify @record_len, if it is known (for optimisations).
534 * The file is closed when all fastbufs using it are closed.
536 struct fastbuf *fbatomic_open(const char *name, struct fastbuf *master, uns bufsize, int record_len);
537 void fbatomic_internal_write(struct fastbuf *b);
540 * Declare that you have finished writing a record. This is required only
541 * if a fixed record size was not specified.
543 static inline void fbatomic_commit(struct fastbuf *b)
545 if (b->bptr >= ((struct fb_atomic *)b)->expected_max_bptr)
546 fbatomic_internal_write(b);
549 /*** === Null fastbufs ***/
552 * Creates a new "/dev/null"-like fastbuf.
553 * Any read attempt returns an EOF, any write attempt is silently ignored.
555 struct fastbuf *fbnull_open(uns bufsize);
558 * Can be used by any back-end to switch it to the null mode.
559 * You need to provide at least one byte long buffer for writing.
561 void fbnull_start(struct fastbuf *b, byte *buf, uns bufsize);
564 * Checks whether a fastbuf has been switched to the null mode.
566 bool fbnull_test(struct fastbuf *b);
569 * === Fastbufs atop other fastbufs [[fbmulti]]
571 * Imagine some code which does massive string processing. It takes an input
572 * buffer, writes a part of it into an output buffer, then some other string
573 * and then the remaining part of the input buffer. Or anything else where you
574 * copy all the data at each stage of the complicated process.
576 * This backend takes multiple fastbufs and concatenates them formally into
577 * one. You may then read them consecutively as they were one fastbuf at all.
579 * This backend is read-only.
581 * This backend is seekable iff all of the supplied fastbufs are seekable.
583 * You aren't allowed to do anything with the underlying buffers while these
584 * are connected into fbmulti.
586 * The fbmulti is inited by @fbmulti_create(). It returns an empty fbmulti.
587 * Then you call @fbmulti_append() for each fbmulti.
589 * If @bclose() is called on fbmulti, all the underlying buffers get closed
592 * If you want to keep an underlying fastbuf open after @bclose, just remove it
593 * by @fbmulti_remove where the second parameter is a pointer to the removed
594 * fastbuf. If you pass NULL, all the underlying fastbufs are removed.
596 * After @fbmulti_remove, the state of the fbmulti is undefined. The only allowed
597 * operation is either another @fbmulti_remove or @bclose on the fbmulti.
601 * Create an empty fbmulti
603 struct fastbuf *fbmulti_create(void);
606 * Append a fb to fbmulti
608 void fbmulti_append(struct fastbuf *f, struct fastbuf *fb);
611 * Remove a fb from fbmulti
613 void fbmulti_remove(struct fastbuf *f, struct fastbuf *fb);
615 /*** === Configuring stream parameters [[bconfig]] ***/
617 enum bconfig_type { /** Parameters that could be configured. **/
618 BCONFIG_IS_TEMP_FILE, /* 0=normal file, 1=temporary file, 2=shared fd */
619 BCONFIG_KEEP_BACK_BUF, /* Optimize for bi-directional access */
622 int bconfig(struct fastbuf *f, uns type, int data); /** Configure a fastbuf. Returns previous value. **/
624 /*** === Universal functions working on all fastbuf's [[ffbasic]] ***/
627 * Close and free fastbuf.
628 * Can not be used for fastbufs not returned from function (initialized in a parameter, for example the one from `fbbuf_init_read`).
630 void bclose(struct fastbuf *f);
631 void bthrow(struct fastbuf *f, const char *id, const char *fmt, ...) FORMAT_CHECK(printf,3,4) NONRET; /** Throw exception on a given fastbuf **/
632 int brefill(struct fastbuf *f, int allow_eof);
633 void bspout(struct fastbuf *f);
634 void bflush(struct fastbuf *f); /** Write data (if it makes any sense, do not use for in-memory buffers). **/
635 void bseek(struct fastbuf *f, ucw_off_t pos, int whence); /** Seek in the buffer. See `man fseek` for description of @whence. Only for seekable fastbufs. **/
636 void bsetpos(struct fastbuf *f, ucw_off_t pos); /** Set position to @pos bytes from beginning. Only for seekable fastbufs. **/
637 void brewind(struct fastbuf *f); /** Go to the beginning of the fastbuf. Only for seekable ones. **/
638 ucw_off_t bfilesize(struct fastbuf *f); /** How large is the file? -1 if not seekable. **/
640 static inline ucw_off_t btell(struct fastbuf *f) /** Where am I (from the beginning)? **/
642 return f->pos + (f->bptr - f->bstop);
645 int bgetc_slow(struct fastbuf *f);
646 static inline int bgetc(struct fastbuf *f) /** Return next character from the buffer. **/
648 return (f->bptr < f->bstop) ? (int) *f->bptr++ : bgetc_slow(f);
651 int bpeekc_slow(struct fastbuf *f);
652 static inline int bpeekc(struct fastbuf *f) /** Return next character from the buffer, but keep the current position. **/
654 return (f->bptr < f->bstop) ? (int) *f->bptr : bpeekc_slow(f);
657 int beof_slow(struct fastbuf *f);
658 static inline int beof(struct fastbuf *f) /** Have I reached EOF? **/
660 return (f->bptr < f->bstop) ? 0 : beof_slow(f);
663 static inline void bungetc(struct fastbuf *f) /** Return last read character back. Only one back is guaranteed to work. **/
668 void bputc_slow(struct fastbuf *f, uns c);
669 static inline void bputc(struct fastbuf *f, uns c) /** Write a single character. **/
671 if (f->bptr < f->bufend)
677 static inline uns bavailr(struct fastbuf *f) /** Return the length of the cached data to be read. Do not use directly. **/
679 return f->bstop - f->bptr;
682 static inline uns bavailw(struct fastbuf *f) /** Return the length of the buffer available for writing. Do not use directly. **/
684 return f->bufend - f->bptr;
687 uns bread_slow(struct fastbuf *f, void *b, uns l, uns check);
689 * Read at most @l bytes of data into @b.
690 * Returns number of bytes read.
691 * 0 means end of file.
693 static inline uns bread(struct fastbuf *f, void *b, uns l)
697 memcpy(b, f->bptr, l);
702 return bread_slow(f, b, l, 0);
706 * Reads exactly @l bytes of data into @b.
707 * If at the end of file, it returns 0.
708 * If there are data, but less than @l, it raises `ucw.fb.eof`.
710 static inline uns breadb(struct fastbuf *f, void *b, uns l)
714 memcpy(b, f->bptr, l);
719 return bread_slow(f, b, l, 1);
722 void bwrite_slow(struct fastbuf *f, const void *b, uns l);
723 static inline void bwrite(struct fastbuf *f, const void *b, uns l) /** Writes buffer @b of length @l into fastbuf. **/
727 memcpy(f->bptr, b, l);
731 bwrite_slow(f, b, l);
735 * Reads a line into @b and strips trailing `\n`.
736 * Returns pointer to the terminating 0 or NULL on `EOF`.
737 * Raises `ucw.fb.toolong` if the line is longer than @l.
739 char *bgets(struct fastbuf *f, char *b, uns l);
740 char *bgets0(struct fastbuf *f, char *b, uns l); /** The same as @bgets(), but for 0-terminated strings. **/
742 * Returns either length of read string (excluding the terminator) or -1 if it is too long.
743 * In such cases exactly @l bytes are read.
745 int bgets_nodie(struct fastbuf *f, char *b, uns l);
750 * Read a string, strip the trailing `\n` and store it into growing buffer @b.
751 * Raises `ucw.fb.toolong` if the line is longer than @limit.
753 uns bgets_bb(struct fastbuf *f, struct bb_t *b, uns limit);
755 * Read a string, strip the trailing `\n` and store it into buffer allocated from a memory pool.
757 char *bgets_mp(struct fastbuf *f, struct mempool *mp);
759 struct bgets_stk_struct {
761 byte *old_buf, *cur_buf, *src;
762 uns old_len, cur_len, src_len;
764 void bgets_stk_init(struct bgets_stk_struct *s);
765 void bgets_stk_step(struct bgets_stk_struct *s);
768 * Read a string, strip the trailing `\n` and store it on the stack (allocated using alloca()).
770 #define bgets_stk(fb) \
771 ({ struct bgets_stk_struct _s; _s.f = (fb); for (bgets_stk_init(&_s); _s.cur_len; _s.cur_buf = alloca(_s.cur_len), bgets_stk_step(&_s)); _s.cur_buf; })
774 * Write a string, without 0 or `\n` at the end.
776 static inline void bputs(struct fastbuf *f, const char *b)
778 bwrite(f, b, strlen(b));
782 * Write string, including terminating 0.
784 static inline void bputs0(struct fastbuf *f, const char *b)
786 bwrite(f, b, strlen(b)+1);
790 * Write string and append a newline to the end.
792 static inline void bputsn(struct fastbuf *f, const char *b)
798 void bbcopy_slow(struct fastbuf *f, struct fastbuf *t, uns l);
800 * Copy @l bytes of data from fastbuf @f to fastbuf @t.
801 * `UINT_MAX` (`~0U`) means all data, even if more than `UINT_MAX` bytes remain.
803 static inline void bbcopy(struct fastbuf *f, struct fastbuf *t, uns l)
805 if (bavailr(f) >= l && bavailw(t) >= l)
807 memcpy(t->bptr, f->bptr, l);
812 bbcopy_slow(f, t, l);
815 int bskip_slow(struct fastbuf *f, uns len);
816 static inline int bskip(struct fastbuf *f, uns len) /** Skip @len bytes without reading them. **/
818 if (bavailr(f) >= len)
824 return bskip_slow(f, len);
827 /*** === Direct I/O on buffers ***/
830 * Begin direct reading from fastbuf's internal buffer to avoid unnecessary copying.
831 * The function returns a buffer @buf together with its length in bytes (zero means EOF)
832 * with cached data to be read.
834 * Some back-ends allow the user to modify the data in the returned buffer to avoid unnecessary.
835 * If the back-end allows such modifications, it can set `f->can_overwrite_buffer` accordingly:
837 * - 0 if no modification is allowed,
838 * - 1 if the user can modify the buffer on the condition that
839 * the modifications will be undone before calling the next
841 * - 2 if the user is allowed to overwrite the data in the buffer
842 * if @bdirect_read_commit_modified() is called afterwards.
843 * In this case, the back-end must be prepared for trimming
844 * of the buffer which is done by the commit function.
846 * The reading must be ended by @bdirect_read_commit() or @bdirect_read_commit_modified(),
847 * unless the user did not read or modify anything.
849 static inline uns bdirect_read_prepare(struct fastbuf *f, byte **buf)
851 if (f->bptr == f->bstop && !f->refill(f))
853 *buf = NULL; // This is not needed, but it helps to get rid of spurious warnings
861 * End direct reading started by @bdirect_read_prepare() and move the cursor at @pos.
862 * Data in the returned buffer must be same as after @bdirect_read_prepare() and
863 * @pos must point somewhere inside the buffer.
865 static inline void bdirect_read_commit(struct fastbuf *f, byte *pos)
871 * Similar to @bdirect_read_commit(), but accepts also modified data before @pos.
872 * Note that such modifications are supported only if `f->can_overwrite_buffer == 2`.
874 static inline void bdirect_read_commit_modified(struct fastbuf *f, byte *pos)
877 f->buffer = pos; /* Avoid seeking backwards in the buffer */
881 * Start direct writing to fastbuf's internal buffer to avoid copy overhead.
882 * The function returns the length of the buffer in @buf (at least one byte)
883 * where we can write to. The operation must be ended by @bdirect_write_commit(),
884 * unless nothing is written.
886 static inline uns bdirect_write_prepare(struct fastbuf *f, byte **buf)
888 if (f->bptr == f->bufend)
895 * Commit the data written to the buffer returned by @bdirect_write_prepare().
896 * The length is specified by @pos which must point just after the written data.
897 * Also moves the cursor to @pos.
899 static inline void bdirect_write_commit(struct fastbuf *f, byte *pos)
904 /*** === Formatted output ***/
907 * printf into a fastbuf.
909 int bprintf(struct fastbuf *b, const char *msg, ...)
910 FORMAT_CHECK(printf,2,3);
911 int vbprintf(struct fastbuf *b, const char *msg, va_list args); /** vprintf into a fastbuf. **/