/* * Copyright 2022 The OpenSSL Project Authors. All Rights Reserved. * * Licensed under the Apache License 2.0 (the "License"). You may not use * this file except in compliance with the License. You can obtain a copy * in the file LICENSE in the source distribution or at * https://www.openssl.org/source/license.html */ #ifndef OSSL_INTERNAL_QUIC_STREAM_H # define OSSL_INTERNAL_QUIC_STREAM_H # pragma once #include "internal/e_os.h" #include "internal/time.h" #include "internal/quic_types.h" #include "internal/quic_wire.h" #include "internal/quic_record_tx.h" #include "internal/quic_record_rx.h" #include "internal/quic_fc.h" #include "internal/quic_statm.h" # ifndef OPENSSL_NO_QUIC /* * QUIC Send Stream * ================ * * The QUIC Send Stream Manager (QUIC_SSTREAM) is responsible for: * * - accepting octet strings of stream data; * * - generating corresponding STREAM frames; * * - receiving notifications of lost frames, in order to generate new STREAM * frames for the lost data; * * - receiving notifications of acknowledged frames, in order to internally * reuse memory used to store acknowledged stream data; * * - informing the caller of how much more stream data it can accept into * its internal buffers, so as to ensure that the amount of unacknowledged * data which can be written to a stream is not infinite and to allow the * caller to manifest backpressure conditions to the user. * * The QUIC_SSTREAM is instantiated once for every stream with a send component * (i.e., for a unidirectional send stream or for the send component of a * bidirectional stream). * * Note: The terms 'TX' and 'RX' are used when referring to frames, packets and * datagrams. The terms 'send' and 'receive' are used when referring to the * stream abstraction. Applications send; we transmit. */ typedef struct quic_sstream_st QUIC_SSTREAM; /* * Instantiates a new QUIC_SSTREAM. init_buf_size specifies the initial size of * the stream data buffer in bytes, which must be positive. */ QUIC_SSTREAM *ossl_quic_sstream_new(size_t init_buf_size); /* * Frees a QUIC_SSTREAM and associated stream data storage. * * Any iovecs returned by ossl_quic_sstream_get_stream_frame cease to be valid after * calling this function. */ void ossl_quic_sstream_free(QUIC_SSTREAM *qss); /* * (For TX packetizer use.) Retrieves information about application stream data * which is ready for transmission. * * *hdr is filled with the logical offset, maximum possible length of stream * data which can be transmitted, and a pointer to the stream data to be * transmitted. is_fin is set to 1 if hdr->offset + hdr->len is the final size * of the stream and 0 otherwise. hdr->stream_id is not set; the caller must set * it. * * The caller is not obligated to send all of the data. If the caller does not * send all of the data, the caller must reduce hdr->len before serializing the * header structure and must ensure that hdr->is_fin is cleared. * * hdr->has_explicit_len is always set. It is the caller's responsibility to * clear this if it wants to use the optimization of omitting the length field, * as only the caller can know when this optimization can be performed. * * *num_iov must be set to the size of the iov array at call time. When this * function returns successfully, it is updated to the number of iov entries * which have been written. * * The stream data may be split across up to two IOVs due to internal ring * buffer organisation. The sum of the lengths of the IOVs and the value written * to hdr->len will always match. If the caller decides to send less than * hdr->len of stream data, it must adjust the IOVs accordingly. This may be * done by updating hdr->len and then calling the utility function * ossl_quic_sstream_adjust_iov(). * * After committing one or more bytes returned by ossl_quic_sstream_get_stream_frame to a * packet, call ossl_quic_sstream_mark_transmitted with the inclusive range of logical * byte numbers of the transmitted bytes (i.e., hdr->offset, hdr->offset + * hdr->len - 1). If you do not call ossl_quic_sstream_mark_transmitted, the next call to * ossl_quic_sstream_get_stream_frame will return the same data (or potentially the same * and more, if more data has been appended by the application). * * It is the caller's responsibility to clamp the length of data which this * function indicates is available according to other concerns, such as * stream-level flow control, connection-level flow control, or the applicable * maximum datagram payload length (MDPL) for a packet under construction. * * The skip argument can usually be given as zero. If it is non-zero, this * function outputs a range which would be output if it were called again after * calling ossl_quic_sstream_mark_transmitted() with the returned range, repeated 'skip' * times, and so on. This may be useful for callers which wish to enumerate * available stream frames and batch their calls to ossl_quic_sstream_mark_transmitted at * a later time. * * On success, this function will never write *num_iov with a value other than * 0, 1 or 2. A *num_iov value of 0 can only occurs when hdr->is_fin is set (for * example, when a stream is closed after all existing data has been sent, and * without sending any more data); otherwise the function returns 0 as there is * nothing useful to report. * * Returns 1 on success and 0 if there is no stream data available for * transmission, or on other error (such as if the caller provides fewer * than two IOVs.) */ int ossl_quic_sstream_get_stream_frame(QUIC_SSTREAM *qss, size_t skip, OSSL_QUIC_FRAME_STREAM *hdr, OSSL_QTX_IOVEC *iov, size_t *num_iov); /* * Returns 1 if there is data pending transmission. Equivalent to calling * ossl_quic_sstream_get_stream_frame and seeing if it succeeds. */ int ossl_quic_sstream_has_pending(QUIC_SSTREAM *qss); /* * Returns the current size of the stream; i.e., the number of bytes which have * been appended to the stream so far. */ uint64_t ossl_quic_sstream_get_cur_size(QUIC_SSTREAM *qss); /* * (For TX packetizer use.) Marks a logical range of the send stream as having * been transmitted. * * 0 denotes the first byte ever sent on the stream. The start and end values * are both inclusive, therefore all calls to this function always mark at least * one byte as being transmitted; if no bytes have been transmitted, do not call * this function. * * If the STREAM frame sent had the FIN bit set, you must also call * ossl_quic_sstream_mark_transmitted_fin() after calling this function. * * If you sent a zero-length STREAM frame with the FIN bit set, you need only * call ossl_quic_sstream_mark_transmitted_fin() and must not call this function. * * Returns 1 on success and 0 on error (e.g. if end < start). */ int ossl_quic_sstream_mark_transmitted(QUIC_SSTREAM *qss, uint64_t start, uint64_t end); /* * (For TX packetizer use.) Marks a STREAM frame with the FIN bit set as having * been transmitted. final_size is the final size of the stream (i.e., the value * offset + len of the transmitted STREAM frame). * * This function fails returning 0 if ossl_quic_sstream_fin() has not been called or if * final_size is not correct. The final_size argument is not strictly needed by * the QUIC_SSTREAM but is required as a sanity check. */ int ossl_quic_sstream_mark_transmitted_fin(QUIC_SSTREAM *qss, uint64_t final_size); /* * (RX/ACKM use.) Marks a logical range of the send stream as having been lost. * The send stream will return the lost data for retransmission on a future call * to ossl_quic_sstream_get_stream_frame. The start and end values denote logical byte * numbers and are inclusive. * * If the lost frame had the FIN bit set, you must also call * ossl_quic_sstream_mark_lost_fin() after calling this function. * * Returns 1 on success and 0 on error (e.g. if end < start). */ int ossl_quic_sstream_mark_lost(QUIC_SSTREAM *qss, uint64_t start, uint64_t end); /* * (RX/ACKM use.) Informs the QUIC_SSTREAM that a STREAM frame with the FIN bit * set was lost. * * Returns 1 on success and 0 on error. */ int ossl_quic_sstream_mark_lost_fin(QUIC_SSTREAM *qss); /* * (RX/ACKM use.) Marks a logical range of the send stream as having been * acknowledged, meaning that the storage for the data in that range of the * stream can be now recycled and neither that logical range of the stream nor * any subset of it can be retransmitted again. The start and end values are * inclusive. * * If the acknowledged frame had the FIN bit set, you must also call * ossl_quic_sstream_mark_acked_fin() after calling this function. * * Returns 1 on success and 0 on error (e.g. if end < start). */ int ossl_quic_sstream_mark_acked(QUIC_SSTREAM *qss, uint64_t start, uint64_t end); /* * (RX/ACKM use.) Informs the QUIC_SSTREAM that a STREAM frame with the FIN bit * set was acknowledged. * * Returns 1 on success and 0 on error. */ int ossl_quic_sstream_mark_acked_fin(QUIC_SSTREAM *qss); /* * (Front end use.) Appends user data to the stream. The data is copied into the * stream. The amount of data consumed from buf is written to *consumed on * success (short writes are possible). The amount of data which can be written * can be determined in advance by calling the ossl_quic_sstream_get_buffer_avail() * function; data is copied into an internal ring buffer of finite size. * * If the buffer is full, this should be materialised as a backpressure * condition by the front end. This is not considered a failure condition; * *consumed is written as 0 and the function returns 1. * * Returns 1 on success or 0 on failure. */ int ossl_quic_sstream_append(QUIC_SSTREAM *qss, const unsigned char *buf, size_t buf_len, size_t *consumed); /* * Marks a stream as finished. ossl_quic_sstream_append() may not be called anymore * after calling this. */ void ossl_quic_sstream_fin(QUIC_SSTREAM *qss); /* * If the stream has had ossl_quic_sstream_fin() called, returns 1 and writes * the final size to *final_size. Otherwise, returns 0. */ int ossl_quic_sstream_get_final_size(QUIC_SSTREAM *qss, uint64_t *final_size); /* * Returns 1 iff all bytes (and any FIN, if any) which have been appended to the * QUIC_SSTREAM so far, and any FIN (if any), have been both sent and acked. */ int ossl_quic_sstream_is_totally_acked(QUIC_SSTREAM *qss); /* * Resizes the internal ring buffer. All stream data is preserved safely. * * This can be used to expand or contract the ring buffer, but not to contract * the ring buffer below the amount of stream data currently stored in it. * Returns 1 on success and 0 on failure. * * IMPORTANT: Any buffers referenced by iovecs output by * ossl_quic_sstream_get_stream_frame() cease to be valid after calling this function. */ int ossl_quic_sstream_set_buffer_size(QUIC_SSTREAM *qss, size_t num_bytes); /* * Gets the internal ring buffer size in bytes. */ size_t ossl_quic_sstream_get_buffer_size(QUIC_SSTREAM *qss); /* * Gets the number of bytes used in the internal ring buffer. */ size_t ossl_quic_sstream_get_buffer_used(QUIC_SSTREAM *qss); /* * Gets the number of bytes free in the internal ring buffer. */ size_t ossl_quic_sstream_get_buffer_avail(QUIC_SSTREAM *qss); /* * Utility function to ensure the length of an array of iovecs matches the * length given as len. Trailing iovecs have their length values reduced or set * to 0 as necessary. */ void ossl_quic_sstream_adjust_iov(size_t len, OSSL_QTX_IOVEC *iov, size_t num_iov); /* * QUIC Receive Stream Manager * =========================== * * The QUIC Receive Stream Manager (QUIC_RSTREAM) is responsible for * storing the received stream data frames until the application * is able to read the data. * * The QUIC_RSTREAM is instantiated once for every stream that can receive data. * (i.e., for a unidirectional receiving stream or for the receiving component * of a bidirectional stream). */ typedef struct quic_rstream_st QUIC_RSTREAM; /* * Create a new instance of QUIC_RSTREAM with pointers to the flow * controller and statistics module. They can be NULL for unit testing. * If they are non-NULL, the `rxfc` is called when receive stream data * is read by application. `statm` is queried for current rtt. * `rbuf_size` is the initial size of the ring buffer to be used * when ossl_quic_rstream_move_to_rbuf() is called. */ QUIC_RSTREAM *ossl_quic_rstream_new(QUIC_RXFC *rxfc, OSSL_STATM *statm, size_t rbuf_size); /* * Frees a QUIC_RSTREAM and any associated storage. */ void ossl_quic_rstream_free(QUIC_RSTREAM *qrs); /* * Adds received stream frame data to `qrs`. The `pkt_wrap` refcount is * incremented if the `data` is queued directly without copying. * It can be NULL for unit-testing purposes, i.e. if `data` is static or * never released before calling ossl_quic_rstream_free(). * The `offset` is the absolute offset of the data in the stream. * `data_len` can be 0 - can be useful for indicating `fin` for empty stream. * Or to indicate `fin` without any further data added to the stream. */ int ossl_quic_rstream_queue_data(QUIC_RSTREAM *qrs, OSSL_QRX_PKT *pkt, uint64_t offset, const unsigned char *data, uint64_t data_len, int fin); /* * Copies the data from the stream storage to buffer `buf` of size `size`. * `readbytes` is set to the number of bytes actually copied. * `fin` is set to 1 if all the data from the stream were read so the * stream is finished. It is set to 0 otherwise. */ int ossl_quic_rstream_read(QUIC_RSTREAM *qrs, unsigned char *buf, size_t size, size_t *readbytes, int *fin); /* * Peeks at the data in the stream storage. It copies them to buffer `buf` * of size `size` and sets `readbytes` to the number of bytes actually copied. * `fin` is set to 1 if the copied data reach end of the stream. * It is set to 0 otherwise. */ int ossl_quic_rstream_peek(QUIC_RSTREAM *qrs, unsigned char *buf, size_t size, size_t *readbytes, int *fin); /* * Returns the size of the data available for reading. `fin` is set to 1 if * after reading all the available data the stream will be finished, * set to 0 otherwise. */ int ossl_quic_rstream_available(QUIC_RSTREAM *qrs, size_t *avail, int *fin); /* * Sets *record to the beginning of the first readable stream data chunk and * *reclen to the size of the chunk. *fin is set to 1 if the end of the * chunk is the last of the stream data chunks. * If there is no record available *record is set to NULL and *rec_len to 0; * ossl_quic_rstream_release_record() should not be called in that case. * Returns 1 on success (including calls if no record is available, or * after end of the stream - in that case *fin will be set to 1 and * *rec_len to 0), 0 on error. * It is an error to call ossl_quic_rstream_get_record() multiple times * without calling ossl_quic_rstream_release_record() in between. */ int ossl_quic_rstream_get_record(QUIC_RSTREAM *qrs, const unsigned char **record, size_t *rec_len, int *fin); /* * Releases (possibly partially) the record returned by * previous ossl_quic_rstream_get_record() call. * read_len between previously returned *rec_len and SIZE_MAX indicates * release of the whole record. Otherwise only part of the record is * released. The remaining part of the record is unlocked, another * call to ossl_quic_rstream_get_record() is needed to obtain further * stream data. * Returns 1 on success, 0 on error. * It is an error to call ossl_quic_rstream_release_record() multiple * times without calling ossl_quic_rstream_get_record() in between. */ int ossl_quic_rstream_release_record(QUIC_RSTREAM *qrs, size_t read_len); /* * Moves received frame data from decrypted packets to ring buffer. * This should be called when there are too many decrypted packets allocated. * Returns 1 on success, 0 when it was not possible to release all * referenced packets due to an insufficient size of the ring buffer. * Exception is the packet from the record returned previously by * ossl_quic_rstream_get_record() - that one will be always skipped. */ int ossl_quic_rstream_move_to_rbuf(QUIC_RSTREAM *qrs); /* * Resizes the internal ring buffer to a new `rbuf_size` size. * Returns 1 on success, 0 on error. * Possible error conditions are an allocation failure, trying to resize * the ring buffer when ossl_quic_rstream_get_record() was called and * not yet released, or trying to resize the ring buffer to a smaller size * than currently occupied. */ int ossl_quic_rstream_resize_rbuf(QUIC_RSTREAM *qrs, size_t rbuf_size); # endif #endif