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/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2010-2018 Intel Corporation
*/
#ifndef _EAL_PRIVATE_H_
#define _EAL_PRIVATE_H_
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <rte_dev.h>
/**
* Initialize the memzone subsystem (private to eal).
*
* @return
* - 0 on success
* - Negative on error
*/
int rte_eal_memzone_init(void);
/**
* Common log initialization function (private to eal). Determines
* where log data is written when no call to rte_openlog_stream is
* in effect.
*
* @param default_log
* The default log stream to be used.
* @return
* - 0 on success
* - Negative on error
*/
void eal_log_set_default(FILE *default_log);
/**
* Fill configuration with number of physical and logical processors
*
* This function is private to EAL.
*
* Parse /proc/cpuinfo to get the number of physical and logical
* processors on the machine.
*
* @return
* 0 on success, negative on error
*/
int rte_eal_cpu_init(void);
/**
* Create memseg lists
*
* This function is private to EAL.
*
* Preallocate virtual memory.
*
* @return
* 0 on success, negative on error
*/
int rte_eal_memseg_init(void);
/**
* Map memory
*
* This function is private to EAL.
*
* Fill configuration structure with these infos, and return 0 on success.
*
* @return
* 0 on success, negative on error
*/
int rte_eal_memory_init(void);
/**
* Configure timers
*
* This function is private to EAL.
*
* Mmap memory areas used by HPET (high precision event timer) that will
* provide our time reference, and configure the TSC frequency also for it
* to be used as a reference.
*
* @return
* 0 on success, negative on error
*/
int rte_eal_timer_init(void);
/**
* Init the default log stream
*
* This function is private to EAL.
*
* @return
* 0 on success, negative on error
*/
int rte_eal_log_init(const char *id, int facility);
/**
* Save the log regexp for later
*/
int rte_log_save_regexp(const char *type, int priority);
int rte_log_save_pattern(const char *pattern, int priority);
/**
* Init tail queues for non-EAL library structures. This is to allow
* the rings, mempools, etc. lists to be shared among multiple processes
*
* This function is private to EAL
*
* @return
* 0 on success, negative on error
*/
int rte_eal_tailqs_init(void);
/**
* Init interrupt handling.
*
* This function is private to EAL.
*
* @return
* 0 on success, negative on error
*/
int rte_eal_intr_init(void);
/**
* Init alarm mechanism. This is to allow a callback be called after
* specific time.
*
* This function is private to EAL.
*
* @return
* 0 on success, negative on error
*/
int rte_eal_alarm_init(void);
/**
* Function is to check if the kernel module(like, vfio, vfio_iommu_type1,
* etc.) loaded.
*
* @param module_name
* The module's name which need to be checked
*
* @return
* -1 means some error happens(NULL pointer or open failure)
* 0 means the module not loaded
* 1 means the module loaded
*/
int rte_eal_check_module(const char *module_name);
/**
* Get virtual area of specified size from the OS.
*
* This function is private to the EAL.
*
* @param requested_addr
* Address where to request address space.
* @param size
* Size of requested area.
* @param page_sz
* Page size on which to align requested virtual area.
* @param flags
* EAL_VIRTUAL_AREA_* flags.
* @param mmap_flags
* Extra flags passed directly to mmap().
*
* @return
* Virtual area address if successful.
* NULL if unsuccessful.
*/
#define EAL_VIRTUAL_AREA_ADDR_IS_HINT (1 << 0)
/**< don't fail if cannot get exact requested address. */
#define EAL_VIRTUAL_AREA_ALLOW_SHRINK (1 << 1)
/**< try getting smaller sized (decrement by page size) virtual areas if cannot
* get area of requested size.
*/
#define EAL_VIRTUAL_AREA_UNMAP (1 << 2)
/**< immediately unmap reserved virtual area. */
void *
eal_get_virtual_area(void *requested_addr, size_t *size,
size_t page_sz, int flags, int mmap_flags);
/**
* Get cpu core_id.
*
* This function is private to the EAL.
*/
unsigned eal_cpu_core_id(unsigned lcore_id);
/**
* Check if cpu is present.
*
* This function is private to the EAL.
*/
int eal_cpu_detected(unsigned lcore_id);
/**
* Set TSC frequency from precise value or estimation
*
* This function is private to the EAL.
*/
void set_tsc_freq(void);
/**
* Get precise TSC frequency from system
*
* This function is private to the EAL.
*/
uint64_t get_tsc_freq(void);
/**
* Get TSC frequency if the architecture supports.
*
* This function is private to the EAL.
*
* @return
* The number of TSC cycles in one second.
* Returns zero if the architecture support is not available.
*/
uint64_t get_tsc_freq_arch(void);
/**
* Prepare physical memory mapping
* i.e. hugepages on Linux and
* contigmem on BSD.
*
* This function is private to the EAL.
*/
int rte_eal_hugepage_init(void);
/**
* Creates memory mapping in secondary process
* i.e. hugepages on Linux and
* contigmem on BSD.
*
* This function is private to the EAL.
*/
int rte_eal_hugepage_attach(void);
/**
* Find a bus capable of identifying a device.
*
* @param str
* A device identifier (PCI address, virtual PMD name, ...).
*
* @return
* A valid bus handle if found.
* NULL if no bus is able to parse this device.
*/
struct rte_bus *rte_bus_find_by_device_name(const char *str);
/**
* Create the unix channel for primary/secondary communication.
*
* @return
* 0 on success;
* (<0) on failure.
*/
int rte_mp_channel_init(void);
/**
* @internal
* Parse a device string and store its information in an
* rte_devargs structure.
*
* A device description is split by layers of abstraction of the device:
* bus, class and driver. Each layer will offer a set of properties that
* can be applied either to configure or recognize a device.
*
* This function will parse those properties and prepare the rte_devargs
* to be given to each layers for processing.
*
* Note: if the "data" field of the devargs points to devstr,
* then no dynamic allocation is performed and the rte_devargs
* can be safely discarded.
*
* Otherwise ``data`` will hold a workable copy of devstr, that will be
* used by layers descriptors within rte_devargs. In this case,
* any rte_devargs should be cleaned-up before being freed.
*
* @param da
* rte_devargs structure to fill.
*
* @param devstr
* Device string.
*
* @return
* 0 on success.
* Negative errno values on error (rte_errno is set).
*/
int
rte_devargs_layers_parse(struct rte_devargs *devargs,
const char *devstr);
/*
* probe a device at local process.
*
* @param devargs
* Device arguments including bus, class and driver properties.
* @param new_dev
* new device be probed as output.
* @return
* 0 on success, negative on error.
*/
int local_dev_probe(const char *devargs, struct rte_device **new_dev);
/**
* Hotplug remove a given device from a specific bus at local process.
*
* @param dev
* Data structure of the device to remove.
* @return
* 0 on success, negative on error.
*/
int local_dev_remove(struct rte_device *dev);
/**
* Iterate over all buses to find the corresponding bus to handle the sigbus
* error.
* @param failure_addr
* Pointer of the fault address of the sigbus error.
*
* @return
* 0 success to handle the sigbus.
* -1 failed to handle the sigbus
* 1 no bus can handler the sigbus
*/
int rte_bus_sigbus_handler(const void *failure_addr);
/**
* @internal
* Register the sigbus handler.
*
* @return
* - On success, zero.
* - On failure, a negative value.
*/
int
dev_sigbus_handler_register(void);
/**
* @internal
* Unregister the sigbus handler.
*
* @return
* - On success, zero.
* - On failure, a negative value.
*/
int
dev_sigbus_handler_unregister(void);
/**
* Check if the option is registered.
*
* @param option
* The option to be parsed.
*
* @return
* 0 on success
* @return
* -1 on fail
*/
int
rte_option_parse(const char *opt);
/**
* Iterate through the registered options and execute the associated
* callback if enabled.
*/
void
rte_option_init(void);
#endif /* _EAL_PRIVATE_H_ */
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