Memory reservations done using the APIs provided by rte_malloc are also backed by pages from the hugetlbfs filesystem.
-Xen Dom0 support without hugetbls
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-
-The existing memory management implementation is based on the Linux kernel hugepage mechanism.
-However, Xen Dom0 does not support hugepages, so a new Linux kernel module rte_dom0_mm is added to workaround this limitation.
-
-The EAL uses IOCTL interface to notify the Linux kernel module rte_dom0_mm to allocate memory of specified size,
-and get all memory segments information from the module,
-and the EAL uses MMAP interface to map the allocated memory.
-For each memory segment, the physical addresses are contiguous within it but actual hardware addresses are contiguous within 2MB.
-
PCI Access
~~~~~~~~~~
CPU Feature Identification
~~~~~~~~~~~~~~~~~~~~~~~~~~
-The EAL can query the CPU at runtime (using the rte_cpu_get_feature() function) to determine which CPU features are available.
+The EAL can query the CPU at runtime (using the rte_cpu_get_features() function) to determine which CPU features are available.
User Space Interrupt Event
~~~~~~~~~~~~~~~~~~~~~~~~~~
.. note::
- In DPDK PMD, the only interrupts handled by the dedicated host thread are those for link status change,
- i.e. link up and link down notification.
+ In DPDK PMD, the only interrupts handled by the dedicated host thread are those for link status change
+ (link up and link down notification) and for sudden device removal.
+ RX Interrupt Event
The RX interrupt are controlled/enabled/disabled by ethdev APIs - 'rte_eth_dev_rx_intr_*'. They return failure if the PMD
hasn't support them yet. The intr_conf.rxq flag is used to turn on the capability of RX interrupt per device.
++ Device Removal Event
+
+This event is triggered by a device being removed at a bus level. Its
+underlying resources may have been made unavailable (i.e. PCI mappings
+unmapped). The PMD must make sure that on such occurrence, the application can
+still safely use its callbacks.
+
+This event can be subscribed to in the same way one would subscribe to a link
+status change event. The execution context is thus the same, i.e. it is the
+dedicated interrupt host thread.
+
+Considering this, it is likely that an application would want to close a
+device having emitted a Device Removal Event. In such case, calling
+``rte_eth_dev_close()`` can trigger it to unregister its own Device Removal Event
+callback. Care must be taken not to close the device from the interrupt handler
+context. It is necessary to reschedule such closing operation.
+
Blacklisting
~~~~~~~~~~~~
Public Thread API
~~~~~~~~~~~~~~~~~
-There are two public APIs ``rte_thread_set_affinity()`` and ``rte_pthread_get_affinity()`` introduced for threads.
+There are two public APIs ``rte_thread_set_affinity()`` and ``rte_thread_get_affinity()`` introduced for threads.
When they're used in any pthread context, the Thread Local Storage(TLS) will be set/get.
Those TLS include *_cpuset* and *_socket_id*: