/* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements . See the NOTICE file distributed with * this work for additional information regarding copyright ownership . * The ASF licenses this file to You under the Apache License , Version 2 . 0 * ( the " License " ) ; you may not use this file except in compliance with * the License . You may obtain a copy of the License at * * http : //www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing , software * distributed under the License is distributed on an " AS IS " BASIS , * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND , either express or implied . * See the License for the specific language governing permissions and * limitations under the License . #ifndef h2_bucket_beam_h#define h2_bucket_beam_h#include "h2_conn_ctx.h" struct apr_thread_mutex_t;struct apr_thread_cond_t;/** * A h2_bucket_beam solves the task of transferring buckets , esp . their data , * across threads with as little copying as possible . typedef struct h2_bucket_beam h2_bucket_beam;typedef void h2_beam_io_callback(void *ctx, h2_bucket_beam *beam,typedef void h2_beam_ev_callback(void *ctx, h2_bucket_beam *beam);/** * h2_blist can hold a list of buckets just like apr_bucket_brigade , but * does not to any allocations or related features . typedef struct {struct h2_bucket_beam {int id;const char *name;int aborted;int closed;int tx_mem_limits; /* only memory size counts on transfers */ int copy_files;struct apr_thread_mutex_t *lock;struct apr_thread_cond_t *change;/* event: beam changed to non-empty in h2_beam_send() */ void *was_empty_ctx;/* event: buckets were transfered in h2_beam_receive() */ void *recv_ctx;/* event: buckets were added in h2_beam_send() */ void *send_ctx;/* event: a receive results in ARP_EAGAIN */ void *eagain_ctx;/* amount of bytes transferred in h2_beam_receive() */ /* amount of bytes reported as received via callback */ /* report: recv_bytes deltas for sender */ void *cons_ctx;/** * Creates a new bucket beam for transfer of buckets across threads . * * The pool the beam is created with will be protected by the given * mutex and will be used in multiple threads . It needs a pool allocator * that is only used inside that same mutex . * * @ param pbeam will hold the created beam on return * @ param c_from connection from which buchets are sent * @ param pool pool owning the beam , beam will cleanup when pool released * @ param id identifier of the beam * @ param tag tag identifying beam for logging * @ param buffer_size maximum memory footprint of buckets buffered in beam , or * 0 for no limitation * @ param timeout timeout for blocking operations int id, const char *tag,/** * Destroys the beam immediately without cleanup . /** * Switch copying of file buckets on / off . void h2_beam_set_copy_files(h2_bucket_beam * beam, int enabled);/** * Send buckets from the given brigade through the beam . * This can block of the amount of bucket data is above the buffer limit . * @ param beam the beam to add buckets to * @ param from the connection the sender operates on , must be the same as * used to create the beam * @ param bb the brigade to take buckets from * @ param block if the sending should block when the buffer is full * @ param pwritten on return , contains the number of data bytes sent * @ return APR_SUCCESS when buckets were added to the beam . This can be * a partial transfer and other buckets may still remain in bb * APR_EAGAIN on non - blocking send when the buffer is full * APR_TIMEUP on blocking semd that time out * APR_ECONNABORTED when beam has been aborted /** * Receive buckets from the beam into the given brigade . The caller is * operating on connection ` to ` . * @ param beam the beam to receive buckets from * @ param to the connection the receiver is working with * @ param bb the bucket brigade to append to * @ param block if the read should block when buckets are unavailable * @ param readbytes the amount of data the receiver wants * @ return APR_SUCCESS when buckets were appended * APR_EAGAIN on non - blocking read when no buckets are available * APR_TIMEUP on blocking reads that time out * APR_ECONNABORTED when beam has been aborted /** * Determine if beam is empty . int h2_beam_empty(h2_bucket_beam *beam);/** * Abort the beam , either from receiving or sending side . * * @ param beam the beam to abort * @ param c the connection the caller is working with void h2_beam_abort(h2_bucket_beam *beam, conn_rec *c);/** * Close the beam . Make certain an EOS is sent . * * @ param beam the beam to abort * @ param c the connection the caller is working with void h2_beam_close(h2_bucket_beam *beam, conn_rec *c);/** * Set / get the timeout for blocking sebd / receive operations . void h2_beam_timeout_set(h2_bucket_beam *beam, /** * Set / get the maximum buffer size for beam data ( memory footprint ) . void h2_beam_buffer_size_set(h2_bucket_beam *beam, /** * Register a callback to be invoked on the sender side with the * amount of bytes that have been consumed by the receiver , since the * last callback invocation or reset . * @ param beam the beam to set the callback on * @ param io_cb the callback or NULL , called on sender with bytes consumed * @ param ctx the context to use in callback invocation * * Call from the sender side , io callbacks invoked on sender side , ev callback * from any side . void h2_beam_on_consumed(h2_bucket_beam *beam, void *ctx);/** * Register a callback to be invoked on the receiver side whenever * buckets have been transfered in a h2_beam_receive ( ) call . * @ param beam the beam to set the callback on * @ param recv_cb the callback or NULL , called when buckets are received * @ param ctx the context to use in callback invocation void h2_beam_on_received(h2_bucket_beam *beam,void *ctx);/** * Register a callback to be invoked on the receiver side whenever * APR_EAGAIN is being returned in h2_beam_receive ( ) . * @ param beam the beam to set the callback on * @ param egain_cb the callback or NULL , called before APR_EAGAIN is returned * @ param ctx the context to use in callback invocation void h2_beam_on_eagain(h2_bucket_beam *beam,void *ctx);/** * Register a call back from the sender side to be invoked when send * has added buckets to the beam . * Unregister by passing a NULL on_send_cb . * @ param beam the beam to set the callback on * @ param on_send_cb the callback to invoke after buckets were added * @ param ctx the context to use in callback invocation void h2_beam_on_send(h2_bucket_beam *beam,void *ctx);/** * Register a call back from the sender side to be invoked when send * has added to a previously empty beam . * Unregister by passing a NULL was_empty_cb . * @ param beam the beam to set the callback on * @ param was_empty_cb the callback to invoke on blocked send * @ param ctx the context to use in callback invocation void h2_beam_on_was_empty(h2_bucket_beam *beam,void *ctx);/** * Call any registered consumed handler , if any changes have happened * since the last invocation . * @ return ! = 0 iff a handler has been called * * Needs to be invoked from the sending side . int h2_beam_report_consumption(h2_bucket_beam *beam);/** * Get the amount of bytes currently buffered in the beam ( unread ) . /** * Get the memory used by the buffered buckets , approximately . /** * @ return ! = 0 iff beam has been closed or has an EOS bucket buffered * waiting to be received . int h2_beam_is_complete(h2_bucket_beam *beam);#endif /* h2_bucket_beam_h */
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