/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
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* Copyright (c) 2002-2006 Neterion, Inc.
*/
#ifndef XGE_HAL_CONFIG_H
#define XGE_HAL_CONFIG_H
#include "xge-os-pal.h"
#include "xgehal-types.h"
#include "xge-queue.h"
/**
* struct xge_hal_tti_config_t - Xframe Tx interrupt configuration.
* @enabled: Set to 1, if TTI feature is enabled.
* @urange_a: Link utilization range A. The value from 0 to 100%.
* @ufc_a: Frame count for the utilization range A. Interrupt will be generated
* each time when (and only when) the line is utilized no more
* than @urange_a percent in the transmit direction,
* and number of transmitted frames is greater or equal @ufc_a.
* @urange_b: Link utilization range B.
* @ufc_b: Frame count for the utilization range B.
* @urange_c: Link utilization range C.
* @ufc_c: Frame count for the utilization range C.
* @urange_d: Link utilization range D.
* @ufc_d: Frame count for the utilization range D.
* @timer_val_us: Interval of time, in microseconds, at which transmit timer
* interrupt is to be generated. Note that unless @timer_ci_en
* is set, the timer interrupt is generated only in presence
* of the transmit traffic. Note also that timer interrupt
* and utilization interrupt are two separate interrupt
* sources.
* @timer_ac_en: Enable auto-cancel. That is, reset the timer if utilization
* interrupt was generated during the interval.
* to 1 in order to generate continuous interrupt
* at fixed @timer_val intervals of time, independently
* of whether there is transmit traffic or not.
* @enabled: Set to 1, if TTI feature is enabled.
*
* Xframe transmit interrupt configuration.
* See Xframe User Guide, Section 3.5 "Device Interrupts"
* for more details. Note also (min, max)
* ranges in the body of the xge_hal_tx_intr_config_t structure.
* Note: Valid (min, max) range for each attribute is specified in the body of
* the xge_hal_tti_config_t{} structure. Please refer to the
* corresponding header file.
*/
typedef struct xge_hal_tti_config_t {
int enabled;
#define XGE_HAL_TTI_DISABLE 0
/* Line utilization interrupts */
int urange_a;
#define XGE_HAL_MIN_TX_URANGE_A 0
int ufc_a;
#define XGE_HAL_MIN_TX_UFC_A 0
int urange_b;
#define XGE_HAL_MIN_TX_URANGE_B 0
int ufc_b;
#define XGE_HAL_MIN_TX_UFC_B 0
int urange_c;
#define XGE_HAL_MIN_TX_URANGE_C 0
int ufc_c;
#define XGE_HAL_MIN_TX_UFC_C 0
int ufc_d;
#define XGE_HAL_MIN_TX_UFC_D 0
int timer_val_us;
#define XGE_HAL_MIN_TX_TIMER_VAL 0
int timer_ac_en;
#define XGE_HAL_MIN_TX_TIMER_AC_EN 0
int timer_ci_en;
#define XGE_HAL_MIN_TX_TIMER_CI_EN 0
/**
* struct xge_hal_rti_config_t - Xframe Rx interrupt configuration.
* @urange_a: Link utilization range A. The value from 0 to 100%.
* @ufc_a: Frame count for the utilization range A. Interrupt will be generated
* each time when (and only when) the line is utilized no more
* than @urange_a percent inbound,
* and number of received frames is greater or equal @ufc_a.
* @urange_b: Link utilization range B.
* @ufc_b: Frame count for the utilization range B.
* @urange_c: Link utilization range C.
* @ufc_c: Frame count for the utilization range C.
* @urange_d: Link utilization range D.
* @ufc_d: Frame count for the utilization range D.
* @timer_ac_en: Enable auto-cancel. That is, reset the timer if utilization
* interrupt was generated during the interval.
* @timer_val_us: Interval of time, in microseconds, at which receive timer
* interrupt is to be generated. The timer interrupt is generated
* only in presence of the inbound traffic. Note also that timer
* interrupt and utilization interrupt are two separate interrupt
* sources.
*
* Xframe receive interrupt configuration.
* See Xframe User Guide, Section 3.5 "Device Interrupts"
* for more details. Note also (min, max)
* ranges in the body of the xge_hal_intr_config_t structure.
* Note: Valid (min, max) range for each attribute is specified in the body of
* the xge_hal_rti_config_t{} structure. Please refer to the
* corresponding header file.
*/
typedef struct xge_hal_rti_config_t {
int urange_a;
#define XGE_HAL_MIN_RX_URANGE_A 0
int ufc_a;
#define XGE_HAL_MIN_RX_UFC_A 0
int urange_b;
#define XGE_HAL_MIN_RX_URANGE_B 0
int ufc_b;
#define XGE_HAL_MIN_RX_UFC_B 0
int urange_c;
#define XGE_HAL_MIN_RX_URANGE_C 0
int ufc_c;
#define XGE_HAL_MIN_RX_UFC_C 0
int ufc_d;
#define XGE_HAL_MIN_RX_UFC_D 0
int timer_ac_en;
#define XGE_HAL_MIN_RX_TIMER_AC_EN 0
int timer_val_us;
#define XGE_HAL_MIN_RX_TIMER_VAL 0
/**
* struct xge_hal_fifo_queue_t - Single fifo configuration.
* @max: Max numbers of TxDLs (that is, lists of Tx descriptors) per queue.
* @initial: Initial numbers of TxDLs per queue (can grow up to @max).
* @intr: Boolean. Use 1 to generate interrupt for each completed TxDL.
* Use 0 otherwise.
* @intr_vector: TBD
* @no_snoop_bits: If non-zero, specifies no-snoop PCI operation,
* which generally improves latency of the host bridge operation
* (see PCI specification). For valid values please refer
* to xge_hal_fifo_queue_t{} in the driver sources.
* @priority: TBD
* @configured: Boolean. Use 1 to specify that the fifo is configured.
* Only "configured" fifos can be activated and used to post
* Tx descriptors. Any subset of 8 available fifos can be
* "configured".
* @tti: TBD
*
* Single fifo configuration.
* Note: Valid (min, max) range for each attribute is specified in the body of
* the xge_hal_fifo_queue_t{} structure. Please refer to the
* corresponding header file.
* See also: xge_hal_fifo_config_t{}
*/
typedef struct xge_hal_fifo_queue_t {
int max;
int initial;
int intr;
#define XGE_HAL_MIN_FIFO_QUEUE_INTR 0
int intr_vector;
#define XGE_HAL_MIN_FIFO_QUEUE_INTR_VECTOR 0
int no_snoop_bits;
#define XGE_HAL_MIN_FIFO_QUEUE_NO_SNOOP_DISABLED 0
int priority;
#define XGE_HAL_MIN_FIFO_PRIORITY 0
int configured;
#define XGE_HAL_MIN_FIFO_CONFIGURED 0
/**
* struct xge_hal_fifo_config_t - Configuration of all 8 fifos.
* @max_frags: Max number of Tx buffers per TxDL (that is, per single
* transmit operation).
* No more than 256 transmit buffers can be specified.
* @max_aligned_frags: Number of fragments to be aligned out of
* maximum fragments (see @max_frags).
* @reserve_threshold: Descriptor reservation threshold.
* At least @reserve_threshold descriptors will remain
* unallocated at all times.
* @memblock_size: Fifo descriptors are allocated in blocks of @mem_block_size
* bytes. Setting @memblock_size to page size ensures
* by-page allocation of descriptors. 128K bytes is the
* maximum supported block size.
* @queue: Array of per-fifo configurations.
* @alignment_size: per Tx fragment DMA-able memory used to align transmit data
* (e.g., to align on a cache line).
*
* Configuration of all Xframe fifos. Includes array of xge_hal_fifo_queue_t
* structures.
* Note: Valid (min, max) range for each attribute is specified in the body of
* the xge_hal_fifo_config_t{} structure. Please refer to the
* corresponding header file.
* See also: xge_hal_ring_queue_t{}.
*/
typedef struct xge_hal_fifo_config_t {
int max_frags;
int reserve_threshold;
#define XGE_HAL_MIN_FIFO_RESERVE_THRESHOLD 0
int memblock_size;
int alignment_size;
#define XGE_HAL_MIN_ALIGNMENT_SIZE 0
int max_aligned_frags;
/* range: (1, @max_frags) */
/**
* struct xge_hal_rts_port_t - RTS port entry
* @num: Port number
* @udp: Port is UDP (default TCP)
* @src: Port is Source (default Destination)
*/
typedef struct xge_hal_rts_port_t {
int num;
int udp;
int src;
/**
* struct xge_hal_ring_queue_t - Single ring configuration.
* @max: Max numbers of RxD blocks per queue
* @initial: Initial numbers of RxD blocks per queue
* (can grow up to @max)
* @buffer_mode: Receive buffer mode (1, 2, 3, or 5); for details please refer
* to Xframe User Guide.
* @dram_size_mb: Size (in MB) of Xframe DRAM used for _that_ ring.
* Note that 64MB of available
* on-board DRAM is shared between receive rings.
* If a single ring is used, @dram_size_mb can be set to 64.
* Sum of all rings' @dram_size_mb cannot exceed 64.
* @intr_vector: TBD
* @backoff_interval_us: Time (in microseconds), after which Xframe
* tries to download RxDs posted by the host.
* Note that the "backoff" does not happen if host posts receive
* descriptors in the timely fashion.
* @max_frm_len: Maximum frame length that can be received on _that_ ring.
* Setting this field to -1 ensures that the ring will
* "accept" MTU-size frames (note that MTU can be changed at
* runtime).
* Any value other than (-1) specifies a certain "hard"
* limit on the receive frame sizes.
* The field can be used to activate receive frame-length based
* steering.
* @priority: Ring priority. 0 - highest, 7 - lowest. The value is used
* to give prioritized access to PCI-X. See Xframe documentation
* for details.
* @rth_en: Enable Receive Traffic Hashing (RTH).
* @no_snoop_bits: If non-zero, specifies no-snoop PCI operation,
* which generally improves latency of the host bridge operation
* (see PCI specification). For valid values please refer
* to xge_hal_ring_queue_t{} in the driver sources.
* @indicate_max_pkts: Sets maximum number of received frames to be processed
* within single interrupt.
* @configured: Boolean. Use 1 to specify that the ring is configured.
* Only "configured" rings can be activated and used to post
* Rx descriptors. Any subset of 8 available rings can be
* "configured".
* @rts_mac_en: 1 - To enable Receive MAC address steering.
* 0 - To disable Receive MAC address steering.
* @rth_en: TBD
* @rts_port_en: TBD
* @rts_ports: TBD
* @rti: Xframe receive interrupt configuration.
*
* Single ring configuration.
* Note: Valid (min, max) range for each attribute is specified in the body of
* the xge_hal_ring_queue_t{} structure. Please refer to the
* corresponding header file.
* See also: xge_hal_fifo_config_t{}.
*/
typedef struct xge_hal_ring_queue_t {
int max;
int initial;
int buffer_mode;
int dram_size_mb;
#define XGE_HAL_MIN_RING_QUEUE_SIZE 0
int intr_vector;
#define XGE_HAL_MIN_RING_QUEUE_INTR_VECTOR 0
int backoff_interval_us;
int max_frm_len;
int priority;
#define XGE_HAL_MIN_RING_PRIORITY 0
int no_snoop_bits;
#define XGE_HAL_MIN_RING_QUEUE_NO_SNOOP_DISABLED 0
int indicate_max_pkts;
int configured;
#define XGE_HAL_MIN_RING_CONFIGURED 0
int rts_mac_en;
#define XGE_HAL_MIN_RING_RTS_MAC_EN 0
int rth_en;
#define XGE_HAL_MIN_RING_RTH_EN 0
int rts_port_en;
#define XGE_HAL_MIN_RING_RTS_PORT_EN 0
/**
* struct xge_hal_ring_config_t - Array of ring configurations.
* @memblock_size: Ring descriptors are allocated in blocks of @mem_block_size
* bytes. Setting @memblock_size to page size ensures
* by-page allocation of descriptors. 128K bytes is the
* upper limit.
* @scatter_mode: Xframe supports two receive scatter modes: A and B.
* For details please refer to Xframe User Guide.
* @strip_vlan_tag: TBD
* @queue: Array of all Xframe ring configurations.
*
* Array of ring configurations.
* See also: xge_hal_ring_queue_t{}.
*/
typedef struct xge_hal_ring_config_t {
int memblock_size;
int scatter_mode;
#define XGE_HAL_RING_QUEUE_SCATTER_MODE_A 0
int strip_vlan_tag;
#define XGE_HAL_RING_DONOT_STRIP_VLAN_TAG 0
/**
* struct xge_hal_mac_config_t - MAC configuration.
* @media: Transponder type.
* @tmac_util_period: The sampling period over which the transmit utilization
* is calculated.
* @rmac_util_period: The sampling period over which the receive utilization
* is calculated.
* @rmac_strip_pad: Determines whether padding of received frames is removed by
* the MAC or sent to the host.
* @rmac_bcast_en: Enable frames containing broadcast address to be
* passed to the host.
* @rmac_pause_gen_en: Received pause generation enable.
* @rmac_pause_rcv_en: Receive pause enable.
* @rmac_pause_time: The value to be inserted in outgoing pause frames.
* Has units of pause quanta (one pause quanta = 512 bit times).
* @mc_pause_threshold_q0q3: Contains thresholds for pause frame generation
* for queues 0 through 3. The threshold value indicates portion of the
* individual receive buffer queue size. Thresholds have a range of 0 to
* 255, allowing 256 possible watermarks in a queue.
* @mc_pause_threshold_q4q7: Contains thresholds for pause frame generation
* for queues 4 through 7. The threshold value indicates portion of the
* individual receive buffer queue size. Thresholds have a range of 0 to
* 255, allowing 256 possible watermarks in a queue.
*
* MAC configuration. This includes various aspects of configuration, including:
* - Pause frame threshold;
* - sampling rate to calculate link utilization;
*
* See Xframe User Guide for more details.
* Note: Valid (min, max) range for each attribute is specified in the body of
* the xge_hal_mac_config_t{} structure. Please refer to the
* corresponding include file.
*/
typedef struct xge_hal_mac_config_t {
int media;
#define XGE_HAL_MIN_MEDIA 0
#define XGE_HAL_MEDIA_SR 0
int tmac_util_period;
#define XGE_HAL_MIN_TMAC_UTIL_PERIOD 0
int rmac_util_period;
#define XGE_HAL_MIN_RMAC_UTIL_PERIOD 0
int rmac_bcast_en;
#define XGE_HAL_MIN_RMAC_BCAST_EN 0
int rmac_pause_gen_en;
#define XGE_HAL_MIN_RMAC_PAUSE_GEN_EN 0
int rmac_pause_rcv_en;
#define XGE_HAL_MIN_RMAC_PAUSE_RCV_EN 0
int rmac_pause_time;
#define XGE_HAL_MIN_MC_PAUSE_THRESHOLD_Q0Q3 0
#define XGE_HAL_MIN_MC_PAUSE_THRESHOLD_Q4Q7 0
/**
* struct xge_hal_device_config_t - Device configuration.
* @mtu: Current mtu size.
* @isr_polling_cnt: Maximum number of times to "poll" for Tx and Rx
* completions. Used in xge_hal_device_handle_irq().
* @latency_timer: Specifies, in units of PCI bus clocks, and in conformance
* with the PCI Specification, the value of the Latency Timer
* for this PCI bus master.
* Specify either zero or -1 to use BIOS default.
* @napi_weight: (TODO)
* @max_splits_trans: Maximum number of PCI-X split transactions.
* Specify (-1) to use BIOS default.
* @mmrb_count: Maximum Memory Read Byte Count. Use (-1) to use default
* BIOS value. Otherwise: mmrb_count = 0 corresponds to 512B;
* 1 - 1KB, 2 - 2KB, and 3 - 4KB.
* @shared_splits: The number of Outstanding Split Transactions that is
* shared by Tx and Rx requests. The device stops issuing Tx
* requests once the number of Outstanding Split Transactions is
* equal to the value of Shared_Splits.
* A value of zero indicates that the Tx and Rx share all allocated
* Split Requests, i.e. the device can issue both types (Tx and Rx)
* of read requests until the number of Maximum Outstanding Split
* Transactions is reached.
* @stats_refresh_time_sec: Sets the default interval for automatic stats transfer
* to the host. This includes MAC stats as well as PCI stats.
* See xge_hal_stats_hw_info_t{}.
* @pci_freq_mherz: PCI clock frequency, e.g.: 133 for 133MHz.
* @intr_mode: Line, MSI, or MSI-X interrupt.
* @sched_timer_us: If greater than zero, specifies time interval
* (in microseconds) for the device to generate
* interrupt. Note that unlike tti and rti interrupts,
* the scheduled interrupt is generated independently of
* whether there is transmit or receive traffic, respectively.
* @sched_timer_one_shot: 1 - generate scheduled interrupt only once.
* 0 - generate scheduled interrupt periodically at the specified
* @sched_timer_us interval.
*
* @ring: See xge_hal_ring_config_t{}.
* @mac: See xge_hal_mac_config_t{}.
* @tti: See xge_hal_tti_config_t{}.
* @fifo: See xge_hal_fifo_config_t{}.
*
* @dump_on_serr: Dump adapter state ("about", statistics, registers) on SERR#.
* @dump_on_eccerr: Dump adapter state ("about", statistics, registers) on
* ECC error.
* @dump_on_parityerr: Dump adapter state ("about", statistics, registers) on
* parity error.
* @rth_en: Enable Receive Traffic Hashing(RTH) using IT(Indirection Table).
* @rth_bucket_size: RTH bucket width (in bits). For valid range please see
* xge_hal_device_config_t{} in the driver sources.
* @rth_spdm_en: Enable Receive Traffic Hashing(RTH) using SPDM(Socket Pair
* Direct Match).
* @rth_spdm_use_l4: Set to 1, if the L4 ports are used in the calculation of
* hash value in the RTH SPDM based steering.
* @rxufca_intr_thres: (TODO)
* @rxufca_lo_lim: (TODO)
* @rxufca_hi_lim: (TODO)
* @rxufca_lbolt_period: (TODO)
* @link_valid_cnt: link-valid counting is done only at device-open time,
* to determine with the specified certainty that the link is up. See also
* @link_retry_cnt.
* @link_retry_cnt: Max number of polls for link-up. Done only at device
* open time. Reducing this value as well as the previous @link_valid_cnt,
* speeds up device startup, which may be important if the driver
* is compiled into OS.
* @link_stability_period: Specify the period for which the link must be
* stable in order for the adapter to declare "LINK UP".
* The enumerated settings (see Xframe-II UG) are:
* 0 ........... instantaneous
* 1 ........... 500 �s
* 2 ........... 1 ms
* 3 ........... 64 ms
* 4 ........... 256 ms
* 5 ........... 512 ms
* 6 ........... 1 s
* 7 ........... 2 s
* @device_poll_millis: Specify the interval (in mulliseconds) between
* successive xge_hal_device_poll() runs.
* stable in order for the adapter to declare "LINK UP".
* @no_isr_events: TBD
* @lro_sg_size: TBD
* @lro_frm_len: TBD
* @bimodal_interrupts: Enable bimodal interrupts in device
* @bimodal_timer_lo_us: TBD
* @bimodal_timer_hi_us: TBD
* @rts_mac_en: Enable Receive Traffic Steering using MAC destination address
* @rts_qos_en: TBD
* @rts_port_en: TBD
* @vp_config: Configuration for virtual paths
* @max_cqe_groups: The maximum number of adapter CQE group blocks a CQRQ
* can own at any one time.
* this S-RQ can own at any one time.
* @no_wqe_threshold: Maximum number of times adapter polls WQE Hdr blocks for
* WQEs before generating a message or interrupt.
* @refill_threshold_high:This field provides a hysteresis upper bound for
* automatic adapter refill operations.
* @refill_threshold_low:This field provides a hysteresis lower bound for
* automatic adapter refill operations.
* @eol_policy:This field sets the policy for handling the end of list condition.
* 2'b00 - When EOL is reached,poll until last block wrapper size is no longer 0.
* 2'b01 - Send UMQ message when EOL is reached.
* 2'b1x - Poll until the poll_count_max is reached and if still EOL,send UMQ message
* @eol_poll_count_max:sets the maximum number of times the queue manager will poll for
* a non-zero block wrapper before giving up and sending a UMQ message
* @ack_blk_limit: Limit on the maximum number of ACK list blocks that can be held
* by a session at any one time.
* @poll_or_doorbell: TBD
*
* Xframe configuration.
* Contains per-device configuration parameters, including:
* - latency timer (settable via PCI configuration space);
* - maximum number of split transactions;
* - maximum number of shared splits;
* - stats sampling interval, etc.
*
* In addition, xge_hal_device_config_t{} includes "subordinate"
* configurations, including:
* - fifos and rings;
* - MAC (see xge_hal_mac_config_t{}).
*
* See Xframe User Guide for more details.
* Note: Valid (min, max) range for each attribute is specified in the body of
* the xge_hal_device_config_t{} structure. Please refer to the
* corresponding include file.
* See also: xge_hal_tti_config_t{}, xge_hal_stats_hw_info_t{},
* xge_hal_mac_config_t{}.
*/
typedef struct xge_hal_device_config_t {
int mtu;
int isr_polling_cnt;
#define XGE_HAL_MIN_ISR_POLLING_CNT 0
int latency_timer;
int napi_weight;
int max_splits_trans;
#define XGE_HAL_ONE_SPLIT_TRANSACTION 0
int mmrb_count;
int shared_splits;
#define XGE_HAL_MIN_SHARED_SPLITS 0
#define XGE_HAL_STATS_REFRESH_DISABLE 0
int pci_freq_mherz;
int intr_mode;
#define XGE_HAL_INTR_MODE_IRQLINE 0
int sched_timer_us;
#define XGE_HAL_SCHED_TIMER_DISABLED 0
#define XGE_HAL_SCHED_TIMER_MIN 0
int sched_timer_one_shot;
#define XGE_HAL_SCHED_TIMER_ON_SHOT_DISABLE 0
int dump_on_serr;
#define XGE_HAL_DUMP_ON_SERR_DISABLE 0
int dump_on_eccerr;
#define XGE_HAL_DUMP_ON_ECCERR_DISABLE 0
int dump_on_parityerr;
#define XGE_HAL_DUMP_ON_PARITYERR_DISABLE 0
int rth_en;
#define XGE_HAL_RTH_DISABLE 0
int rth_bucket_size;
int rth_spdm_en;
#define XGE_HAL_RTH_SPDM_DISABLE 0
int rth_spdm_use_l4;
int rxufca_intr_thres;
int rxufca_lo_lim;
int rxufca_hi_lim;
int rxufca_lbolt_period;
int link_valid_cnt;
#define XGE_HAL_LINK_VALID_CNT_MIN 0
int link_retry_cnt;
#define XGE_HAL_LINK_RETRY_CNT_MIN 0
int device_poll_millis;
int no_isr_events;
#define XGE_HAL_NO_ISR_EVENTS_MIN 0
int lro_sg_size;
int lro_frm_len;
int bimodal_interrupts;
int bimodal_timer_lo_us;
int bimodal_timer_hi_us;
int rts_mac_en;
#define XGE_HAL_RTS_MAC_DISABLE 0
int rts_qos_en;
#define XGE_HAL_RTS_QOS_DISABLE 0
int rts_port_en;
#define XGE_HAL_RTS_PORT_DISABLE 0
/**
* struct xge_hal_driver_config_t - HAL (layer) configuration.
* @periodic_poll_interval_millis: Interval, in milliseconds, which is used to
* periodically poll HAL, i.e, invoke
* xge_hal_device_poll().
* Note that HAL does not maintain its own
* polling context. HAL relies on ULD to
* provide one.
* @queue_size_initial: Initial size of the HAL protected event queue.
* The queue is shared by HAL and upper-layer drivers.
* The queue is used to exchange and process slow-path
* events. See xge_hal_event_e.
* @queue_size_max: Maximum size of the HAL queue. Depending on the load,
* the queue may grow at run-time up to @queue_max_size.
* @tracebuf_size: Size of the trace buffer. Set it to '0' to disable.
* HAL configuration. (Note: do not confuse HAL layer with (possibly multiple)
* HAL devices.)
* Currently this structure contains just a few basic values.
* Note: Valid (min, max) range for each attribute is specified in the body of
* the structure. Please refer to the corresponding header file.
* See also: xge_hal_device_poll()
*/
typedef struct xge_hal_driver_config_t {
int queue_size_initial;
int queue_size_max;
#ifdef XGE_TRACE_INTO_CIRCULAR_ARR
int tracebuf_size;
#define XGE_HAL_MIN_TIMESTAMP_EN 0
#endif
/* ========================== PRIVATE API ================================= */
#endif /* XGE_HAL_CONFIG_H */