esp-idf/components/bt/esp_ble_mesh/mesh_common/mesh_atomic.c

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ble_mesh: Add ESP BLE Mesh implementation 1. BLE Mesh Core * Provisioning: Node Role * PB-ADV and PB-GATT * Authentication OOB * Provisioning: Provisioner Role * PB-ADV and PB-GATT * Authentication OOB * Networking * Relay * Segmentation and Reassembly * Key Refresh * IV Update * Proxy Support * Multiple Client Models Run Simultaneously * Support multiple client models send packets to different nodes simultaneously * No blocking between client model and server * NVS Storage * Store BLE Mesh node related information in flash * Store BLE Mesh Provisioner related information in flash 2. BLE Mesh Models * Foundation Models * Configuration Server Model * Configuration Client Model * Health Server Model * Health Client Model * Generic * Generic OnOff Server * Generic OnOff Client * Generic Level Server * Generic Level Client * Generic Default Transition Time Server * Generic Default Transition Time Client * Generic Power OnOff Server * Generic Power OnOff Setup Server * Generic Power OnOff Client * Generic Power Level Server * Generic Power Level Setup Server * Generic Power Level Client * Generic Battery Server * Generic Battery Client * Generic Location Server * Generic Location Setup Server * Generic Location Client * Generic Admin Property Server * Generic Manufacturer Property Server * Generic User Property Server * Generic Client Property Server * Generic Property Client * Sensor Server Model * Sensor Server * Sensor Setup Server * Sensor Client * Time and Scenes * Time Server * Time Setup Server * Time Client * Scene Server * Scene Setup Server * Scene Client * Scheduler Server * Scheduler Setup Server * Scheduler Client * Lighting * Light Lightness Server * Light Lightness Setup Server * Light Lightness Client * Light CTL Server * Light CTL Setup Server * Light CTL Client * Light CTL Temperature Server * Light HSL Server * Light HSL Setup Server * Light HSL Client * Light HSL Hue Server * Light HSL Saturation Server * Light xyL Server * Light xyL Setup Server * Light xyL Client * Light LC Server * Light LC Setup Server * Light LC Client 3. BLE Mesh Applications * BLE Mesh Node * OnOff Client Example * OnOff Server Example * BLE Mesh Provisioner * Example * Fast Provisioning * Vendor Fast Prov Server Model * Vendor Fast Prov Client Model * Examples * Wi-Fi & BLE Mesh Coexistence * Example * BLE Mesh Console Commands * Examples
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/**
* @brief Atomically set a bit.
*
* Atomically set bit number @a bit of @a target.
* The target may be a single atomic variable or an array of them.
*
* @param target Address of atomic variable or array.
* @param bit Bit number (starting from 0).
*
* @return N/A
*/
/*
* Copyright (c) 2016 Intel Corporation
* Copyright (c) 2011-2014 Wind River Systems, Inc.
* Additional Copyright (c) 2018 Espressif Systems (Shanghai) PTE LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include "mesh_atomic.h"
#include "mesh_mutex.h"
ble_mesh: Add ESP BLE Mesh implementation 1. BLE Mesh Core * Provisioning: Node Role * PB-ADV and PB-GATT * Authentication OOB * Provisioning: Provisioner Role * PB-ADV and PB-GATT * Authentication OOB * Networking * Relay * Segmentation and Reassembly * Key Refresh * IV Update * Proxy Support * Multiple Client Models Run Simultaneously * Support multiple client models send packets to different nodes simultaneously * No blocking between client model and server * NVS Storage * Store BLE Mesh node related information in flash * Store BLE Mesh Provisioner related information in flash 2. BLE Mesh Models * Foundation Models * Configuration Server Model * Configuration Client Model * Health Server Model * Health Client Model * Generic * Generic OnOff Server * Generic OnOff Client * Generic Level Server * Generic Level Client * Generic Default Transition Time Server * Generic Default Transition Time Client * Generic Power OnOff Server * Generic Power OnOff Setup Server * Generic Power OnOff Client * Generic Power Level Server * Generic Power Level Setup Server * Generic Power Level Client * Generic Battery Server * Generic Battery Client * Generic Location Server * Generic Location Setup Server * Generic Location Client * Generic Admin Property Server * Generic Manufacturer Property Server * Generic User Property Server * Generic Client Property Server * Generic Property Client * Sensor Server Model * Sensor Server * Sensor Setup Server * Sensor Client * Time and Scenes * Time Server * Time Setup Server * Time Client * Scene Server * Scene Setup Server * Scene Client * Scheduler Server * Scheduler Setup Server * Scheduler Client * Lighting * Light Lightness Server * Light Lightness Setup Server * Light Lightness Client * Light CTL Server * Light CTL Setup Server * Light CTL Client * Light CTL Temperature Server * Light HSL Server * Light HSL Setup Server * Light HSL Client * Light HSL Hue Server * Light HSL Saturation Server * Light xyL Server * Light xyL Setup Server * Light xyL Client * Light LC Server * Light LC Setup Server * Light LC Client 3. BLE Mesh Applications * BLE Mesh Node * OnOff Client Example * OnOff Server Example * BLE Mesh Provisioner * Example * Fast Provisioning * Vendor Fast Prov Server Model * Vendor Fast Prov Client Model * Examples * Wi-Fi & BLE Mesh Coexistence * Example * BLE Mesh Console Commands * Examples
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#ifndef CONFIG_ATOMIC_OPERATIONS_BUILTIN
/**
*
* @brief Atomic get primitive
*
* @param target memory location to read from
*
* This routine provides the atomic get primitive to atomically read
* a value from <target>. It simply does an ordinary load. Note that <target>
* is expected to be aligned to a 4-byte boundary.
*
* @return The value read from <target>
*/
bt_mesh_atomic_val_t bt_mesh_atomic_get(const bt_mesh_atomic_t *target)
{
return *target;
}
/**
*
* @brief Atomic get-and-set primitive
*
* This routine provides the atomic set operator. The <value> is atomically
* written at <target> and the previous value at <target> is returned.
*
* @param target the memory location to write to
* @param value the value to write
*
* @return The previous value from <target>
*/
bt_mesh_atomic_val_t bt_mesh_atomic_set(bt_mesh_atomic_t *target, bt_mesh_atomic_val_t value)
{
bt_mesh_atomic_val_t ret = 0;
bt_mesh_atomic_lock();
ret = *target;
*target = value;
bt_mesh_atomic_unlock();
return ret;
}
/**
*
* @brief Atomic bitwise inclusive OR primitive
*
* This routine provides the atomic bitwise inclusive OR operator. The <value>
* is atomically bitwise OR'ed with the value at <target>, placing the result
* at <target>, and the previous value at <target> is returned.
*
* @param target the memory location to be modified
* @param value the value to OR
*
* @return The previous value from <target>
*/
bt_mesh_atomic_val_t bt_mesh_atomic_or(bt_mesh_atomic_t *target, bt_mesh_atomic_val_t value)
{
bt_mesh_atomic_val_t ret = 0;
bt_mesh_atomic_lock();
ret = *target;
*target |= value;
bt_mesh_atomic_unlock();
return ret;
}
/**
*
* @brief Atomic bitwise AND primitive
*
* This routine provides the atomic bitwise AND operator. The <value> is
* atomically bitwise AND'ed with the value at <target>, placing the result
* at <target>, and the previous value at <target> is returned.
*
* @param target the memory location to be modified
* @param value the value to AND
*
* @return The previous value from <target>
*/
bt_mesh_atomic_val_t bt_mesh_atomic_and(bt_mesh_atomic_t *target, bt_mesh_atomic_val_t value)
{
bt_mesh_atomic_val_t ret = 0;
bt_mesh_atomic_lock();
ret = *target;
*target &= value;
bt_mesh_atomic_unlock();
return ret;
}
/**
*
* @brief Atomic decrement primitive
*
* @param target memory location to decrement
*
* This routine provides the atomic decrement operator. The value at <target>
* is atomically decremented by 1, and the old value from <target> is returned.
*
* @return The value from <target> prior to the decrement
*/
bt_mesh_atomic_val_t bt_mesh_atomic_dec(bt_mesh_atomic_t *target)
{
bt_mesh_atomic_val_t ret = 0;
bt_mesh_atomic_lock();
ret = *target;
(*target)--;
bt_mesh_atomic_unlock();
return ret;
}
/**
*
* @brief Atomic increment primitive
*
* @param target memory location to increment
*
* This routine provides the atomic increment operator. The value at <target>
* is atomically incremented by 1, and the old value from <target> is returned.
*
* @return The value from <target> before the increment
*/
bt_mesh_atomic_val_t bt_mesh_atomic_inc(bt_mesh_atomic_t *target)
{
bt_mesh_atomic_val_t ret = 0;
bt_mesh_atomic_lock();
ret = *target;
(*target)++;
bt_mesh_atomic_unlock();
return ret;
}
#endif /* #ifndef CONFIG_ATOMIC_OPERATIONS_BUILTIN */