/**************************************************************************** * wireless/ieee802154/ieee802154_primitive.c * * 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. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include #include #include #include "mac802154.h" /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ /* NOTE: The CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE options is marked as * marked 'experimental' and with the default 0 zero because there are no * interrupt level allocations performed by the current IEEE 802.15.4 MAC * code. */ #if !defined(CONFIG_IEEE802154_PRIMITIVE_PREALLOC) || \ CONFIG_IEEE802154_PRIMITIVE_PREALLOC < 0 # undef CONFIG_IEEE802154_PRIMITIVE_PREALLOC # define CONFIG_IEEE802154_PRIMITIVE_PREALLOC 20 #endif #if !defined(CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE) || \ CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE < 0 # undef CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE # define CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE 0 #endif #if CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE > CONFIG_IEEE802154_PRIMITIVE_PREALLOC # undef CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE # define CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE CONFIG_IEEE802154_PRIMITIVE_PREALLOC #endif /* Memory Pools */ #define POOL_PRIMITIVE_GENERAL 0 #define POOL_PRIMITIVE_IRQ 1 #define POOL_PRIMITIVE_DYNAMIC 2 /**************************************************************************** * Private Data Types ****************************************************************************/ /* Private data type that extends the ieee802154_primitive_s struct */ struct ieee802154_priv_primitive_s { /* Must be first member so we can cast to/from */ struct ieee802154_primitive_s pub; FAR struct ieee802154_priv_primitive_s *flink; uint8_t pool; }; /**************************************************************************** * Private Data ****************************************************************************/ #if CONFIG_IEEE802154_PRIMITIVE_PREALLOC > 0 #if CONFIG_IEEE802154_PRIMITIVE_PREALLOC > CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE /* The g_primfree is a list of primitive structures that are available for * general use. The number of messages in this list is a system * configuration item. */ static struct ieee802154_priv_primitive_s *g_primfree; #endif #if CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE > 0 /* The g_primfree_irq is a list of primitive structures that are reserved for * use by only by interrupt handlers. */ static struct ieee802154_priv_primitive_s *g_primfree_irq; #endif /* Pool of pre-allocated primitive structures */ static struct ieee802154_priv_primitive_s g_primpool[CONFIG_IEEE802154_PRIMITIVE_PREALLOC]; #endif /* CONFIG_IEEE802154_PRIMITIVE_PREALLOC > 0 */ static bool g_poolinit = false; /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: ieee802154_primitivepool_initialize * * Description: * This function initializes the primitive allocator. This function must * be called early in the initialization sequence before any radios * begin operation. * * Input Parameters: * None * * Returned Value: * None * ****************************************************************************/ void ieee802154_primitivepool_initialize(void) { /* Only allow the pool to be initialized once */ if (g_poolinit) { return; } g_poolinit = true; #if CONFIG_IEEE802154_PRIMITIVE_PREALLOC > 0 FAR struct ieee802154_priv_primitive_s *pool = g_primpool; int remaining = CONFIG_IEEE802154_PRIMITIVE_PREALLOC; #if CONFIG_IEEE802154_PRIMITIVE_PREALLOC > CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE /* Initialize g_primfree, the list of primitive structures that are * available for general use. */ g_primfree = NULL; while (remaining > CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE) { FAR struct ieee802154_priv_primitive_s *prim = pool; /* Add the next meta data structure from the pool to the list of * general structures. */ prim->flink = g_primfree; g_primfree = prim; /* Set up for the next structure from the pool */ pool++; remaining--; } #endif #if CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE > 0 /* Initialize g_primfree_irq is a list of primitive structures reserved for * use by only by interrupt handlers. */ g_primfree_irq = NULL; while (remaining > 0) { FAR struct ieee802154_priv_primitive_s *prim = pool; /* Add the next meta data structure from the pool to the list of * general structures. */ prim->flink = g_primfree_irq; g_primfree_irq = prim; /* Set up for the next structure from the pool */ pool++; remaining--; } #endif #endif /* CONFIG_IEEE802154_PRIMITIVE_PREALLOC > 0 */ } /**************************************************************************** * Name: ieee802154_primitive_allocate * * Description: * The ieee802154_primitive_allocate function will get a free primitive * structure for use by the IEEE 802.15.4 MAC. * * Interrupt handling logic will first attempt to allocate from the * g_primfree list. If that list is empty, it will attempt to allocate * from its reserve, g_primfree_irq. If that list is empty, then the * allocation fails (NULL is returned). * * Non-interrupt handler logic will attempt to allocate from g_primfree * list. If that the list is empty, then the primitive structure will be * allocated from the dynamic memory pool. * * Input Parameters: * None * * Returned Value: * A reference to the allocated primitive structure. * All user fields in this structure have been zeroed. * On a failure to allocate, NULL is returned. * ****************************************************************************/ FAR struct ieee802154_primitive_s *ieee802154_primitive_allocate(void) { #if CONFIG_IEEE802154_PRIMITIVE_PREALLOC > 0 FAR struct ieee802154_priv_primitive_s *prim; irqstate_t flags; uint8_t pool; /* If we were called from an interrupt handler, then try to get the meta- * data structure from generally available list of messages. If this fails, * then try the list of messages reserved for interrupt handlers */ flags = enter_critical_section(); /* Always necessary in SMP mode */ if (up_interrupt_context()) { #if CONFIG_IEEE802154_PRIMITIVE_PREALLOC > CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE /* Try the general free list */ if (g_primfree != NULL) { prim = g_primfree; g_primfree = prim->flink; leave_critical_section(flags); pool = POOL_PRIMITIVE_GENERAL; } else #endif #if CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE > 0 /* Try the list list reserved for interrupt handlers */ if (g_primfree_irq != NULL) { prim = g_primfree_irq; g_primfree_irq = prim->flink; leave_critical_section(flags); pool = POOL_PRIMITIVE_IRQ; } else #endif { leave_critical_section(flags); return NULL; } } /* We were not called from an interrupt handler. */ else { #if CONFIG_IEEE802154_PRIMITIVE_PREALLOC > CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE /* Try the general free list */ if (g_primfree != NULL) { prim = g_primfree; g_primfree = prim->flink; leave_critical_section(flags); pool = POOL_PRIMITIVE_GENERAL; } else #endif { /* If we cannot a primitive structure from the free list, then we * will have to allocate one from the kernel memory pool. */ leave_critical_section(flags); prim = (FAR struct ieee802154_priv_primitive_s *) kmm_malloc((sizeof (struct ieee802154_priv_primitive_s))); /* Check if we allocated the primitive structure */ if (prim == NULL) { /* No.. memory not available */ wlerr("ERROR: Failed to allocate primitive.\n"); return NULL; } /* Remember that this primitive structure * was dynamically allocated */ pool = POOL_PRIMITIVE_DYNAMIC; } } /* We have successfully allocated memory from some source. * Zero and tag the allocated primitive structure. */ prim->pool = pool; memset(&prim->pub, 0, sizeof(struct ieee802154_primitive_s)); wlinfo("Primitive allocated: %p\n", prim); return &prim->pub; #else return NULL; #endif } /**************************************************************************** * Name: ieee802154_primitive_free * * Description: * The ieee802154_primitive_free function will return a primitive structure * to the free pool of messages if it was a pre-allocated primitive * structure. If the primitive structure was allocated dynamically it will * be deallocated. * * Input Parameters: * prim - primitive structure to free * * Returned Value: * None * ****************************************************************************/ void ieee802154_primitive_free(FAR struct ieee802154_primitive_s *prim) { if (--prim->nclients > 0) { wlinfo("Remaining Clients: %d\n", prim->nclients); return; } #if CONFIG_IEEE802154_PRIMITIVE_PREALLOC > 0 irqstate_t flags; FAR struct ieee802154_priv_primitive_s *priv = (FAR struct ieee802154_priv_primitive_s *)prim; #if CONFIG_IEEE802154_PRIMITIVE_PREALLOC > CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE /* If this is a generally available pre-allocated primitive structure, * then just put it back in the free list. */ if (priv->pool == POOL_PRIMITIVE_GENERAL) { /* Make sure we avoid concurrent access to the free * list from interrupt handlers. */ flags = enter_critical_section(); priv->flink = g_primfree; g_primfree = priv; leave_critical_section(flags); } else #endif #if CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE > 0 /* If this is a primitive structure pre-allocated for interrupts, * then put it back in the correct free list. */ if (priv->pool == POOL_PRIMITIVE_IRQ) { /* Make sure we avoid concurrent access to the free * list from interrupt handlers. */ flags = enter_critical_section(); priv->flink = g_primfree_irq; g_primfree_irq = priv; leave_critical_section(flags); } else #endif { /* Otherwise, deallocate it. */ DEBUGASSERT(priv->pool == POOL_PRIMITIVE_DYNAMIC); kmm_free(priv); } #endif wlinfo("Primitive freed: %p\n", prim); }