#ifndef HEADER_CURL_BUFQ_H #define HEADER_CURL_BUFQ_H /*************************************************************************** * _ _ ____ _ * Project ___| | | | _ \| | * / __| | | | |_) | | * | (__| |_| | _ <| |___ * \___|\___/|_| \_\_____| * * Copyright (C) Daniel Stenberg, , et al. * * This software is licensed as described in the file COPYING, which * you should have received as part of this distribution. The terms * are also available at https://curl.se/docs/copyright.html. * * You may opt to use, copy, modify, merge, publish, distribute and/or sell * copies of the Software, and permit persons to whom the Software is * furnished to do so, under the terms of the COPYING file. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * * SPDX-License-Identifier: curl * ***************************************************************************/ #include "curl_setup.h" #include /** * A chunk of bytes for reading and writing. * The size is fixed a creation with read and write offset * for where unread content is. */ struct buf_chunk { struct buf_chunk *next; /* to keep it in a list */ size_t dlen; /* the amount of allocated x.data[] */ size_t r_offset; /* first unread bytes */ size_t w_offset; /* one after last written byte */ union { unsigned char data[1]; /* the buffer for `dlen` bytes */ void *dummy; /* alignment */ } x; }; /** * A pool for providing/keeping a number of chunks of the same size * * The same pool can be shared by many `bufq` instances. However, a pool * is not thread safe. All bufqs using it are supposed to operate in the * same thread. */ struct bufc_pool { struct buf_chunk *spare; /* list of available spare chunks */ size_t chunk_size; /* the size of chunks in this pool */ size_t spare_count; /* current number of spare chunks in list */ size_t spare_max; /* max number of spares to keep */ }; void Curl_bufcp_init(struct bufc_pool *pool, size_t chunk_size, size_t spare_max); void Curl_bufcp_free(struct bufc_pool *pool); /** * A queue of byte chunks for reading and writing. * Reading is done from `head`, writing is done to `tail`. * * `bufq`s can be empty or full or neither. Its `len` is the number * of bytes that can be read. For an empty bufq, `len` will be 0. * * By default, a bufq can hold up to `max_chunks * chunk_size` number * of bytes. When `max_chunks` are used (in the `head` list) and the * `tail` chunk is full, the bufq will report that it is full. * * On a full bufq, `len` may be less than the maximum number of bytes, * e.g. when the head chunk is partially read. `len` may also become * larger than the max when option `BUFQ_OPT_SOFT_LIMIT` is used. * * By default, writing to a full bufq will return (-1, CURLE_AGAIN). Same * as reading from an empty bufq. * With `BUFQ_OPT_SOFT_LIMIT` set, a bufq will allow writing becond this * limit and use more than `max_chunks`. However it will report that it * is full nevertheless. This is provided for situation where writes * preferably never fail (except for memory exhaustion). * * By default and without a pool, a bufq will keep chunks that read * empty in its `spare` list. Option `BUFQ_OPT_NO_SPARES` will * disable that and free chunks once they become empty. * * When providing a pool to a bufq, all chunk creation and spare handling * will be delegated to that pool. */ struct bufq { struct buf_chunk *head; /* chunk with bytes to read from */ struct buf_chunk *tail; /* chunk to write to */ struct buf_chunk *spare; /* list of free chunks, unless `pool` */ struct bufc_pool *pool; /* optional pool for free chunks */ size_t chunk_count; /* current number of chunks in `head+spare` */ size_t max_chunks; /* max `head` chunks to use */ size_t chunk_size; /* size of chunks to manage */ int opts; /* options for handling queue, see below */ }; /** * Default behaviour: chunk limit is "hard", meaning attempts to write * more bytes than can be hold in `max_chunks` is refused and will return * -1, CURLE_AGAIN. */ #define BUFQ_OPT_NONE (0) /** * Make `max_chunks` a "soft" limit. A bufq will report that it is "full" * when `max_chunks` are used, but allows writing beyond this limit. */ #define BUFQ_OPT_SOFT_LIMIT (1 << 0) /** * Do not keep spare chunks. */ #define BUFQ_OPT_NO_SPARES (1 << 1) /** * Initialize a buffer queue that can hold up to `max_chunks` buffers * each of size `chunk_size`. The bufq will not allow writing of * more bytes than can be held in `max_chunks`. */ void Curl_bufq_init(struct bufq *q, size_t chunk_size, size_t max_chunks); /** * Initialize a buffer queue that can hold up to `max_chunks` buffers * each of size `chunk_size` with the given options. See `BUFQ_OPT_*`. */ void Curl_bufq_init2(struct bufq *q, size_t chunk_size, size_t max_chunks, int opts); void Curl_bufq_initp(struct bufq *q, struct bufc_pool *pool, size_t max_chunks, int opts); /** * Reset the buffer queue to be empty. Will keep any allocated buffer * chunks around. */ void Curl_bufq_reset(struct bufq *q); /** * Free all resources held by the buffer queue. */ void Curl_bufq_free(struct bufq *q); /** * Return the total amount of data in the queue. */ size_t Curl_bufq_len(const struct bufq *q); /** * Return the total amount of free space in the queue. * The returned length is the number of bytes that can * be expected to be written successfully to the bufq, * providing no memory allocations fail. */ size_t Curl_bufq_space(const struct bufq *q); /** * Returns TRUE iff there is no data in the buffer queue. */ bool Curl_bufq_is_empty(const struct bufq *q); /** * Returns TRUE iff there is no space left in the buffer queue. */ bool Curl_bufq_is_full(const struct bufq *q); /** * Write buf to the end of the buffer queue. The buf is copied * and the amount of copied bytes is returned. * A return code of -1 indicates an error, setting `err` to the * cause. An err of CURLE_AGAIN is returned if the buffer queue is full. */ ssize_t Curl_bufq_write(struct bufq *q, const unsigned char *buf, size_t len, CURLcode *err); CURLcode Curl_bufq_cwrite(struct bufq *q, const char *buf, size_t len, size_t *pnwritten); /** * Remove `len` bytes from the end of the buffer queue again. * Returns CURLE_AGAIN if less than `len` bytes were in the queue. */ CURLcode Curl_bufq_unwrite(struct bufq *q, size_t len); /** * Read buf from the start of the buffer queue. The buf is copied * and the amount of copied bytes is returned. * A return code of -1 indicates an error, setting `err` to the * cause. An err of CURLE_AGAIN is returned if the buffer queue is empty. */ ssize_t Curl_bufq_read(struct bufq *q, unsigned char *buf, size_t len, CURLcode *err); CURLcode Curl_bufq_cread(struct bufq *q, char *buf, size_t len, size_t *pnread); /** * Peek at the head chunk in the buffer queue. Returns a pointer to * the chunk buf (at the current offset) and its length. Does not * modify the buffer queue. * Returns TRUE iff bytes are available. Sets `pbuf` to NULL and `plen` * to 0 when no bytes are available. * Repeated calls return the same information until the buffer queue * is modified, see `Curl_bufq_skip()`` */ bool Curl_bufq_peek(struct bufq *q, const unsigned char **pbuf, size_t *plen); bool Curl_bufq_peek_at(struct bufq *q, size_t offset, const unsigned char **pbuf, size_t *plen); /** * Tell the buffer queue to discard `amount` buf bytes at the head * of the queue. Skipping more buf than is currently buffered will * just empty the queue. */ void Curl_bufq_skip(struct bufq *q, size_t amount); typedef ssize_t Curl_bufq_writer(void *writer_ctx, const unsigned char *buf, size_t len, CURLcode *err); /** * Passes the chunks in the buffer queue to the writer and returns * the amount of buf written. A writer may return -1 and CURLE_AGAIN * to indicate blocking at which point the queue will stop and return * the amount of buf passed so far. * -1 is returned on any other errors reported by the writer. * Note that in case of a -1 chunks may have been written and * the buffer queue will have different length than before. */ ssize_t Curl_bufq_pass(struct bufq *q, Curl_bufq_writer *writer, void *writer_ctx, CURLcode *err); typedef ssize_t Curl_bufq_reader(void *reader_ctx, unsigned char *buf, size_t len, CURLcode *err); /** * Read date and append it to the end of the buffer queue until the * reader returns blocking or the queue is full. A reader returns * -1 and CURLE_AGAIN to indicate blocking. * Returns the total amount of buf read (may be 0) or -1 on other * reader errors. * Note that in case of a -1 chunks may have been read and * the buffer queue will have different length than before. */ ssize_t Curl_bufq_slurp(struct bufq *q, Curl_bufq_reader *reader, void *reader_ctx, CURLcode *err); /** * Read *once* up to `max_len` bytes and append it to the buffer. * if `max_len` is 0, no limit is imposed besides the chunk space. * Returns the total amount of buf read (may be 0) or -1 on other * reader errors. */ ssize_t Curl_bufq_sipn(struct bufq *q, size_t max_len, Curl_bufq_reader *reader, void *reader_ctx, CURLcode *err); /** * Write buf to the end of the buffer queue. * Will write bufq content or passed `buf` directly using the `writer` * callback when it sees fit. 'buf' might get passed directly * on or is placed into the buffer, depending on `len` and current * amount buffered, chunk size, etc. */ ssize_t Curl_bufq_write_pass(struct bufq *q, const unsigned char *buf, size_t len, Curl_bufq_writer *writer, void *writer_ctx, CURLcode *err); #endif /* HEADER_CURL_BUFQ_H */