/* Simple DirectMedia Layer Copyright (C) 1997-2023 Sam Lantinga This software is provided 'as-is', without any express or implied warranty. In no event will the authors be held liable for any damages arising from the use of this software. Permission is granted to anyone to use this software for any purpose, including commercial applications, and to alter it and redistribute it freely, subject to the following restrictions: 1. The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation would be appreciated but is not required. 2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software. 3. This notice may not be removed or altered from any source distribution. */ #include "./SDL_internal.h" #include "SDL.h" #include "./SDL_dataqueue.h" typedef struct SDL_DataQueuePacket { size_t datalen; /* bytes currently in use in this packet. */ size_t startpos; /* bytes currently consumed in this packet. */ struct SDL_DataQueuePacket *next; /* next item in linked list. */ Uint8 data[SDL_VARIABLE_LENGTH_ARRAY]; /* packet data */ } SDL_DataQueuePacket; struct SDL_DataQueue { SDL_mutex *lock; SDL_DataQueuePacket *head; /* device fed from here. */ SDL_DataQueuePacket *tail; /* queue fills to here. */ SDL_DataQueuePacket *pool; /* these are unused packets. */ size_t packet_size; /* size of new packets */ size_t queued_bytes; /* number of bytes of data in the queue. */ }; static void SDL_FreeDataQueueList(SDL_DataQueuePacket *packet) { while (packet) { SDL_DataQueuePacket *next = packet->next; SDL_free(packet); packet = next; } } SDL_DataQueue *SDL_NewDataQueue(const size_t _packetlen, const size_t initialslack) { SDL_DataQueue *queue = (SDL_DataQueue *)SDL_calloc(1, sizeof(SDL_DataQueue)); if (queue == NULL) { SDL_OutOfMemory(); } else { const size_t packetlen = _packetlen ? _packetlen : 1024; const size_t wantpackets = (initialslack + (packetlen - 1)) / packetlen; size_t i; queue->packet_size = packetlen; queue->lock = SDL_CreateMutex(); if (!queue->lock) { SDL_free(queue); return NULL; } for (i = 0; i < wantpackets; i++) { SDL_DataQueuePacket *packet = (SDL_DataQueuePacket *)SDL_malloc(sizeof(SDL_DataQueuePacket) + packetlen); if (packet) { /* don't care if this fails, we'll deal later. */ packet->datalen = 0; packet->startpos = 0; packet->next = queue->pool; queue->pool = packet; } } } return queue; } void SDL_FreeDataQueue(SDL_DataQueue *queue) { if (queue) { SDL_FreeDataQueueList(queue->head); SDL_FreeDataQueueList(queue->pool); SDL_DestroyMutex(queue->lock); SDL_free(queue); } } void SDL_ClearDataQueue(SDL_DataQueue *queue, const size_t slack) { const size_t packet_size = queue ? queue->packet_size : 1; const size_t slackpackets = (slack + (packet_size - 1)) / packet_size; SDL_DataQueuePacket *packet; SDL_DataQueuePacket *prev = NULL; size_t i; if (queue == NULL) { return; } SDL_LockMutex(queue->lock); packet = queue->head; /* merge the available pool and the current queue into one list. */ if (packet) { queue->tail->next = queue->pool; } else { packet = queue->pool; } /* Remove the queued packets from the device. */ queue->tail = NULL; queue->head = NULL; queue->queued_bytes = 0; queue->pool = packet; /* Optionally keep some slack in the pool to reduce memory allocation pressure. */ for (i = 0; packet && (i < slackpackets); i++) { prev = packet; packet = packet->next; } if (prev) { prev->next = NULL; } else { queue->pool = NULL; } SDL_UnlockMutex(queue->lock); SDL_FreeDataQueueList(packet); /* free extra packets */ } /* You must hold queue->lock before calling this! */ static SDL_DataQueuePacket *AllocateDataQueuePacket(SDL_DataQueue *queue) { SDL_DataQueuePacket *packet; SDL_assert(queue != NULL); packet = queue->pool; if (packet != NULL) { /* we have one available in the pool. */ queue->pool = packet->next; } else { /* Have to allocate a new one! */ packet = (SDL_DataQueuePacket *)SDL_malloc(sizeof(SDL_DataQueuePacket) + queue->packet_size); if (packet == NULL) { return NULL; } } packet->datalen = 0; packet->startpos = 0; packet->next = NULL; SDL_assert((queue->head != NULL) == (queue->queued_bytes != 0)); if (queue->tail == NULL) { queue->head = packet; } else { queue->tail->next = packet; } queue->tail = packet; return packet; } int SDL_WriteToDataQueue(SDL_DataQueue *queue, const void *_data, const size_t _len) { size_t len = _len; const Uint8 *data = (const Uint8 *)_data; const size_t packet_size = queue ? queue->packet_size : 0; SDL_DataQueuePacket *orighead; SDL_DataQueuePacket *origtail; size_t origlen; size_t datalen; if (queue == NULL) { return SDL_InvalidParamError("queue"); } SDL_LockMutex(queue->lock); orighead = queue->head; origtail = queue->tail; origlen = origtail ? origtail->datalen : 0; while (len > 0) { SDL_DataQueuePacket *packet = queue->tail; SDL_assert(packet == NULL || (packet->datalen <= packet_size)); if (packet == NULL || (packet->datalen >= packet_size)) { /* tail packet missing or completely full; we need a new packet. */ packet = AllocateDataQueuePacket(queue); if (packet == NULL) { /* uhoh, reset so we've queued nothing new, free what we can. */ if (origtail == NULL) { packet = queue->head; /* whole queue. */ } else { packet = origtail->next; /* what we added to existing queue. */ origtail->next = NULL; origtail->datalen = origlen; } queue->head = orighead; queue->tail = origtail; queue->pool = NULL; SDL_UnlockMutex(queue->lock); SDL_FreeDataQueueList(packet); /* give back what we can. */ return SDL_OutOfMemory(); } } datalen = SDL_min(len, packet_size - packet->datalen); SDL_memcpy(packet->data + packet->datalen, data, datalen); data += datalen; len -= datalen; packet->datalen += datalen; queue->queued_bytes += datalen; } SDL_UnlockMutex(queue->lock); return 0; } size_t SDL_PeekIntoDataQueue(SDL_DataQueue *queue, void *_buf, const size_t _len) { size_t len = _len; Uint8 *buf = (Uint8 *)_buf; Uint8 *ptr = buf; SDL_DataQueuePacket *packet; if (queue == NULL) { return 0; } SDL_LockMutex(queue->lock); for (packet = queue->head; len && packet; packet = packet->next) { const size_t avail = packet->datalen - packet->startpos; const size_t cpy = SDL_min(len, avail); SDL_assert(queue->queued_bytes >= avail); SDL_memcpy(ptr, packet->data + packet->startpos, cpy); ptr += cpy; len -= cpy; } SDL_UnlockMutex(queue->lock); return (size_t)(ptr - buf); } size_t SDL_ReadFromDataQueue(SDL_DataQueue *queue, void *_buf, const size_t _len) { size_t len = _len; Uint8 *buf = (Uint8 *)_buf; Uint8 *ptr = buf; SDL_DataQueuePacket *packet; if (queue == NULL) { return 0; } SDL_LockMutex(queue->lock); while ((len > 0) && ((packet = queue->head) != NULL)) { const size_t avail = packet->datalen - packet->startpos; const size_t cpy = SDL_min(len, avail); SDL_assert(queue->queued_bytes >= avail); SDL_memcpy(ptr, packet->data + packet->startpos, cpy); packet->startpos += cpy; ptr += cpy; queue->queued_bytes -= cpy; len -= cpy; if (packet->startpos == packet->datalen) { /* packet is done, put it in the pool. */ queue->head = packet->next; SDL_assert((packet->next != NULL) || (packet == queue->tail)); packet->next = queue->pool; queue->pool = packet; } } SDL_assert((queue->head != NULL) == (queue->queued_bytes != 0)); if (queue->head == NULL) { queue->tail = NULL; /* in case we drained the queue entirely. */ } SDL_UnlockMutex(queue->lock); return (size_t)(ptr - buf); } size_t SDL_CountDataQueue(SDL_DataQueue *queue) { size_t retval = 0; if (queue) { SDL_LockMutex(queue->lock); retval = queue->queued_bytes; SDL_UnlockMutex(queue->lock); } return retval; } SDL_mutex *SDL_GetDataQueueMutex(SDL_DataQueue *queue) { return queue ? queue->lock : NULL; } /* vi: set ts=4 sw=4 expandtab: */