numam-dpdk/drivers/net/ipn3ke/ipn3ke_ethdev.h
David Marchand 4851ef2b40 bus/vdev: make driver-only headers private
The vdev bus interface is for drivers only.
Mark as internal and move the header in the driver headers list.

While at it, cleanup the code:
- fix indentation,
- remove unneeded reference to bus specific singleton object,
- remove unneeded list head structure type,
- reorder the definitions and macro manipulating the bus singleton object,
- remove inclusion of rte_bus.h and fix the code that relied on implicit
  inclusion,

Signed-off-by: David Marchand <david.marchand@redhat.com>
Acked-by: Rosen Xu <rosen.xu@intel.com>
Reviewed-by: Ruifeng Wang <ruifeng.wang@arm.com>
2022-09-23 16:14:34 +02:00

1079 lines
46 KiB
C

/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2019 Intel Corporation
*/
#ifndef _IPN3KE_ETHDEV_H_
#define _IPN3KE_ETHDEV_H_
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
#include <limits.h>
#include <net/if.h>
#include <netinet/in.h>
#include <sys/queue.h>
#include <rte_mbuf.h>
#include <rte_flow_driver.h>
#include <ethdev_driver.h>
#include <ethdev_vdev.h>
#include <rte_malloc.h>
#include <rte_memcpy.h>
#include <bus_vdev_driver.h>
#include <rte_kvargs.h>
#include <rte_spinlock.h>
#include <rte_cycles.h>
#include <bus_ifpga_driver.h>
#include <rte_tm_driver.h>
#define IPN3KE_TM_SCRATCH_RW 0
/* TM Levels */
enum ipn3ke_tm_node_level {
IPN3KE_TM_NODE_LEVEL_PORT,
IPN3KE_TM_NODE_LEVEL_VT,
IPN3KE_TM_NODE_LEVEL_COS,
IPN3KE_TM_NODE_LEVEL_MAX,
};
/* TM Shaper Profile */
struct ipn3ke_tm_shaper_profile {
uint32_t valid;
uint32_t m;
uint32_t e;
uint64_t rate;
struct rte_tm_shaper_params params;
};
TAILQ_HEAD(ipn3ke_tm_shaper_profile_list, ipn3ke_tm_shaper_profile);
#define IPN3KE_TDROP_TH1_MASK 0x1ffffff
#define IPN3KE_TDROP_TH1_SHIFT (25)
#define IPN3KE_TDROP_TH2_MASK 0x1ffffff
/* TM TDROP Profile */
struct ipn3ke_tm_tdrop_profile {
uint32_t tdrop_profile_id;
uint32_t th1;
uint32_t th2;
uint32_t n_users;
uint32_t valid;
struct rte_tm_wred_params params;
};
/* TM node priority */
enum ipn3ke_tm_node_state {
IPN3KE_TM_NODE_STATE_IDLE = 0,
IPN3KE_TM_NODE_STATE_CONFIGURED_ADD,
IPN3KE_TM_NODE_STATE_CONFIGURED_DEL,
IPN3KE_TM_NODE_STATE_COMMITTED,
IPN3KE_TM_NODE_STATE_MAX,
};
TAILQ_HEAD(ipn3ke_tm_node_list, ipn3ke_tm_node);
/* IPN3KE TM Node */
struct ipn3ke_tm_node {
TAILQ_ENTRY(ipn3ke_tm_node) node;
uint32_t node_index;
uint32_t level;
uint32_t tm_id;
enum ipn3ke_tm_node_state node_state;
uint32_t parent_node_id;
uint32_t priority;
uint32_t weight;
struct ipn3ke_tm_node *parent_node;
struct ipn3ke_tm_shaper_profile shaper_profile;
struct ipn3ke_tm_tdrop_profile *tdrop_profile;
struct rte_tm_node_params params;
struct rte_tm_node_stats stats;
uint32_t n_children;
struct ipn3ke_tm_node_list children_node_list;
};
/* IPN3KE TM Hierarchy Specification */
struct ipn3ke_tm_hierarchy {
struct ipn3ke_tm_node *port_node;
uint32_t n_shaper_profiles;
uint32_t n_tdrop_profiles;
uint32_t n_vt_nodes;
uint32_t n_cos_nodes;
struct ipn3ke_tm_node *port_commit_node;
struct ipn3ke_tm_node_list vt_commit_node_list;
struct ipn3ke_tm_node_list cos_commit_node_list;
};
struct ipn3ke_tm_internals {
/** Hierarchy specification
*
* -Hierarchy is unfrozen at init and when port is stopped.
* -Hierarchy is frozen on successful hierarchy commit.
* -Run-time hierarchy changes are not allowed, therefore it makes
* sense to keep the hierarchy frozen after the port is started.
*/
struct ipn3ke_tm_hierarchy h;
int hierarchy_frozen;
int tm_started;
uint32_t tm_id;
};
#define IPN3KE_TM_COS_NODE_NUM (64 * 1024)
#define IPN3KE_TM_VT_NODE_NUM (IPN3KE_TM_COS_NODE_NUM / 8)
#define IPN3KE_TM_10G_PORT_NODE_NUM (8)
#define IPN3KE_TM_25G_PORT_NODE_NUM (4)
#define IPN3KE_TM_NODE_LEVEL_MOD (100000)
#define IPN3KE_TM_NODE_MOUNT_MAX (8)
#define IPN3KE_TM_TDROP_PROFILE_NUM (2 * 1024)
/* TM node priority */
enum ipn3ke_tm_node_priority {
IPN3KE_TM_NODE_PRIORITY_NORMAL0 = 0,
IPN3KE_TM_NODE_PRIORITY_LOW,
IPN3KE_TM_NODE_PRIORITY_NORMAL1,
IPN3KE_TM_NODE_PRIORITY_HIGHEST,
};
#define IPN3KE_TM_NODE_WEIGHT_MAX UINT8_MAX
/** Set a bit in the uint32 variable */
#define IPN3KE_BIT_SET(var, pos) \
((var) |= ((uint32_t)1 << ((pos))))
/** Reset the bit in the variable */
#define IPN3KE_BIT_RESET(var, pos) \
((var) &= ~((uint32_t)1 << ((pos))))
/** Check the bit is set in the variable */
#define IPN3KE_BIT_ISSET(var, pos) \
(((var) & ((uint32_t)1 << ((pos)))) ? 1 : 0)
struct ipn3ke_hw;
#define IPN3KE_HW_BASE 0x4000000
#define IPN3KE_CAPABILITY_REGISTERS_BLOCK_OFFSET \
(IPN3KE_HW_BASE + hw->hw_cap.capability_registers_block_offset)
#define IPN3KE_STATUS_REGISTERS_BLOCK_OFFSET \
(IPN3KE_HW_BASE + hw->hw_cap.status_registers_block_offset)
#define IPN3KE_CTRL_RESET \
(IPN3KE_HW_BASE + hw->hw_cap.control_registers_block_offset)
#define IPN3KE_CTRL_MTU \
(IPN3KE_HW_BASE + hw->hw_cap.control_registers_block_offset + 4)
#define IPN3KE_CLASSIFY_OFFSET \
(IPN3KE_HW_BASE + hw->hw_cap.classify_offset)
#define IPN3KE_POLICER_OFFSET \
(IPN3KE_HW_BASE + hw->hw_cap.policer_offset)
#define IPN3KE_RSS_KEY_ARRAY_OFFSET \
(IPN3KE_HW_BASE + hw->hw_cap.rss_key_array_offset)
#define IPN3KE_RSS_INDIRECTION_TABLE_ARRAY_OFFSET \
(IPN3KE_HW_BASE + hw->hw_cap.rss_indirection_table_array_offset)
#define IPN3KE_DMAC_MAP_OFFSET \
(IPN3KE_HW_BASE + hw->hw_cap.dmac_map_offset)
#define IPN3KE_QM_OFFSET \
(IPN3KE_HW_BASE + hw->hw_cap.qm_offset)
#define IPN3KE_CCB_OFFSET \
(IPN3KE_HW_BASE + hw->hw_cap.ccb_offset)
#define IPN3KE_QOS_OFFSET \
(IPN3KE_HW_BASE + hw->hw_cap.qos_offset)
struct ipn3ke_hw_cap {
uint32_t version_number;
uint32_t capability_registers_block_offset;
uint32_t status_registers_block_offset;
uint32_t control_registers_block_offset;
uint32_t classify_offset;
uint32_t classy_size;
uint32_t policer_offset;
uint32_t policer_entry_size;
uint32_t rss_key_array_offset;
uint32_t rss_key_entry_size;
uint32_t rss_indirection_table_array_offset;
uint32_t rss_indirection_table_entry_size;
uint32_t dmac_map_offset;
uint32_t dmac_map_size;
uint32_t qm_offset;
uint32_t qm_size;
uint32_t ccb_offset;
uint32_t ccb_entry_size;
uint32_t qos_offset;
uint32_t qos_size;
uint32_t num_rx_flow; /* Default: 64K */
uint32_t num_rss_blocks; /* Default: 512 */
uint32_t num_dmac_map; /* Default: 1K */
uint32_t num_tx_flow; /* Default: 64K */
uint32_t num_smac_map; /* Default: 1K */
uint32_t link_speed_mbps;
};
/**
* Structure to store private data for each representor instance
*/
struct ipn3ke_rpst {
TAILQ_ENTRY(ipn3ke_rpst) next; /**< Next in device list. */
uint16_t switch_domain_id;
/**< Switch ID */
uint16_t port_id;
struct rte_eth_dev *ethdev;
/**< Port ID */
struct ipn3ke_hw *hw;
struct rte_eth_dev *i40e_pf_eth;
uint16_t i40e_pf_eth_port_id;
struct rte_eth_link ori_linfo;
struct ipn3ke_tm_internals tm;
/**< Private data store of associated physical function */
struct rte_ether_addr mac_addr;
};
/* UUID IDs */
#define MAP_UUID_10G_LOW 0xffffffffffffffff
#define MAP_UUID_10G_HIGH 0xffffffffffffffff
#define IPN3KE_UUID_10G_LOW 0xc000c9660d824272
#define IPN3KE_UUID_10G_HIGH 0x9aeffe5f84570612
#define IPN3KE_UUID_VBNG_LOW 0x8991165349d23ff9
#define IPN3KE_UUID_VBNG_HIGH 0xb74cf419d15a481f
#define IPN3KE_UUID_25G_LOW 0xb7d9bac566bfbc80
#define IPN3KE_UUID_25G_HIGH 0xb07bac1aeef54d67
#define IPN3KE_AFU_BUF_SIZE_MIN 1024
#define IPN3KE_AFU_FRAME_SIZE_MAX 9728
#define IPN3KE_RAWDEV_ATTR_LEN_MAX (64)
typedef int (*ipn3ke_indirect_mac_read_t)(struct ipn3ke_hw *hw,
uint32_t *rd_data, uint32_t addr, uint32_t mac_num,
uint32_t eth_wrapper_sel);
typedef int (*ipn3ke_indirect_mac_write_t)(struct ipn3ke_hw *hw,
uint32_t wr_data, uint32_t addr, uint32_t mac_num,
uint32_t eth_wrapper_sel);
struct ipn3ke_hw {
struct rte_eth_dev *eth_dev;
/* afu info */
struct rte_afu_id afu_id;
struct rte_rawdev *rawdev;
struct ipn3ke_hw_cap hw_cap;
struct ifpga_rawdevg_retimer_info retimer;
uint16_t switch_domain_id;
uint16_t port_num;
uint32_t tm_hw_enable;
uint32_t flow_hw_enable;
uint32_t acc_tm;
uint32_t acc_flow;
struct ipn3ke_flow_list flow_list;
uint32_t flow_max_entries;
uint32_t flow_num_entries;
struct ipn3ke_tm_node *nodes;
struct ipn3ke_tm_node *port_nodes;
struct ipn3ke_tm_node *vt_nodes;
struct ipn3ke_tm_node *cos_nodes;
struct ipn3ke_tm_tdrop_profile *tdrop_profile;
uint32_t tdrop_profile_num;
uint32_t ccb_status;
uint32_t ccb_seg_free;
uint32_t ccb_seg_num;
uint32_t ccb_seg_k;
uint8_t *eth_group_bar[2];
/**< MAC Register read */
ipn3ke_indirect_mac_read_t f_mac_read;
/**< MAC Register write */
ipn3ke_indirect_mac_write_t f_mac_write;
uint8_t *hw_addr;
};
/**
* @internal
* Helper macro for drivers that need to convert to struct rte_afu_device.
*/
#define RTE_DEV_TO_AFU(ptr) \
container_of(ptr, struct rte_afu_device, device)
#define RTE_DEV_TO_AFU_CONST(ptr) \
container_of(ptr, const struct rte_afu_device, device)
#define RTE_ETH_DEV_TO_AFU(eth_dev) \
RTE_DEV_TO_AFU((eth_dev)->device)
/**
* PCIe MMIO Access
*/
#define IPN3KE_PCI_REG(reg) rte_read32(reg)
#define IPN3KE_PCI_REG_ADDR(a, reg) \
((volatile uint32_t *)((char *)(a)->hw_addr + (reg)))
static inline uint32_t ipn3ke_read_addr(volatile void *addr)
{
return rte_le_to_cpu_32(IPN3KE_PCI_REG(addr));
}
#define WCMD 0x8000000000000000
#define RCMD 0x4000000000000000
#define INDRCT_CTRL 0x30
#define INDRCT_STS 0x38
static inline uint32_t _ipn3ke_indrct_read(struct ipn3ke_hw *hw,
uint32_t addr)
{
uint64_t word_offset;
uint64_t read_data = 0;
uint64_t indirect_value;
volatile void *indirect_addrs;
word_offset = (addr & 0x1FFFFFF) >> 2;
indirect_value = RCMD | word_offset << 32;
indirect_addrs = hw->hw_addr + (uint32_t)(INDRCT_CTRL);
rte_delay_us(10);
rte_write64((rte_cpu_to_le_64(indirect_value)), indirect_addrs);
indirect_addrs = hw->hw_addr + (uint32_t)(INDRCT_STS);
while ((read_data >> 32) != 1)
read_data = rte_read64(indirect_addrs);
return rte_le_to_cpu_32(read_data);
}
static inline void _ipn3ke_indrct_write(struct ipn3ke_hw *hw,
uint32_t addr, uint32_t value)
{
uint64_t word_offset;
uint64_t indirect_value;
volatile void *indirect_addrs = 0;
word_offset = (addr & 0x1FFFFFF) >> 2;
indirect_value = WCMD | word_offset << 32 | value;
indirect_addrs = hw->hw_addr + (uint32_t)(INDRCT_CTRL);
rte_write64((rte_cpu_to_le_64(indirect_value)), indirect_addrs);
rte_delay_us(10);
}
#define IPN3KE_PCI_REG_WRITE(reg, value) \
rte_write32((rte_cpu_to_le_32(value)), reg)
#define IPN3KE_PCI_REG_WRITE_RELAXED(reg, value) \
rte_write32_relaxed((rte_cpu_to_le_32(value)), reg)
#define IPN3KE_READ_REG(hw, reg) \
_ipn3ke_indrct_read((hw), (reg))
#define IPN3KE_WRITE_REG(hw, reg, value) \
_ipn3ke_indrct_write((hw), (reg), (value))
#define IPN3KE_MASK_READ_REG(hw, reg, x, mask) \
((mask) & IPN3KE_READ_REG((hw), ((reg) + (0x4 * (x)))))
#define IPN3KE_MASK_WRITE_REG(hw, reg, x, value, mask) \
IPN3KE_WRITE_REG((hw), ((reg) + (0x4 * (x))), ((mask) & (value)))
#define IPN3KE_DEV_PRIVATE_TO_HW(dev) \
(((struct ipn3ke_rpst *)(dev)->data->dev_private)->hw)
#define IPN3KE_DEV_PRIVATE_TO_RPST(dev) \
((struct ipn3ke_rpst *)(dev)->data->dev_private)
#define IPN3KE_DEV_PRIVATE_TO_TM(dev) \
(&(((struct ipn3ke_rpst *)(dev)->data->dev_private)->tm))
#define IPN3KE_VBNG_INIT_DONE (0x3)
#define IPN3KE_VBNG_INIT_STS (0x204)
/* Byte address of IPN3KE internal module */
#define IPN3KE_TM_VERSION (IPN3KE_QM_OFFSET + 0x0000)
#define IPN3KE_TM_SCRATCH (IPN3KE_QM_OFFSET + 0x0004)
#define IPN3KE_TM_STATUS (IPN3KE_QM_OFFSET + 0x0008)
#define IPN3KE_TM_MISC_STATUS (IPN3KE_QM_OFFSET + 0x0010)
#define IPN3KE_TM_MISC_WARNING_0 (IPN3KE_QM_OFFSET + 0x0040)
#define IPN3KE_TM_MISC_MON_0 (IPN3KE_QM_OFFSET + 0x0048)
#define IPN3KE_TM_MISC_FATAL_0 (IPN3KE_QM_OFFSET + 0x0050)
#define IPN3KE_TM_BW_MON_CTRL_1 (IPN3KE_QM_OFFSET + 0x0080)
#define IPN3KE_TM_BW_MON_CTRL_2 (IPN3KE_QM_OFFSET + 0x0084)
#define IPN3KE_TM_BW_MON_RATE (IPN3KE_QM_OFFSET + 0x0088)
#define IPN3KE_TM_STATS_CTRL (IPN3KE_QM_OFFSET + 0x0100)
#define IPN3KE_TM_STATS_DATA_0 (IPN3KE_QM_OFFSET + 0x0110)
#define IPN3KE_TM_STATS_DATA_1 (IPN3KE_QM_OFFSET + 0x0114)
#define IPN3KE_QM_UID_CONFIG_CTRL (IPN3KE_QM_OFFSET + 0x0200)
#define IPN3KE_QM_UID_CONFIG_DATA (IPN3KE_QM_OFFSET + 0x0204)
#define IPN3KE_BM_VERSION (IPN3KE_QM_OFFSET + 0x4000)
#define IPN3KE_BM_STATUS (IPN3KE_QM_OFFSET + 0x4008)
#define IPN3KE_BM_STORE_CTRL (IPN3KE_QM_OFFSET + 0x4010)
#define IPN3KE_BM_STORE_STATUS (IPN3KE_QM_OFFSET + 0x4018)
#define IPN3KE_BM_STORE_MON (IPN3KE_QM_OFFSET + 0x4028)
#define IPN3KE_BM_WARNING_0 (IPN3KE_QM_OFFSET + 0x4040)
#define IPN3KE_BM_MON_0 (IPN3KE_QM_OFFSET + 0x4048)
#define IPN3KE_BM_FATAL_0 (IPN3KE_QM_OFFSET + 0x4050)
#define IPN3KE_BM_DRAM_ACCESS_CTRL (IPN3KE_QM_OFFSET + 0x4100)
#define IPN3KE_BM_DRAM_ACCESS_DATA_0 (IPN3KE_QM_OFFSET + 0x4120)
#define IPN3KE_BM_DRAM_ACCESS_DATA_1 (IPN3KE_QM_OFFSET + 0x4124)
#define IPN3KE_BM_DRAM_ACCESS_DATA_2 (IPN3KE_QM_OFFSET + 0x4128)
#define IPN3KE_BM_DRAM_ACCESS_DATA_3 (IPN3KE_QM_OFFSET + 0x412C)
#define IPN3KE_BM_DRAM_ACCESS_DATA_4 (IPN3KE_QM_OFFSET + 0x4130)
#define IPN3KE_BM_DRAM_ACCESS_DATA_5 (IPN3KE_QM_OFFSET + 0x4134)
#define IPN3KE_BM_DRAM_ACCESS_DATA_6 (IPN3KE_QM_OFFSET + 0x4138)
#define IPN3KE_QM_VERSION (IPN3KE_QM_OFFSET + 0x8000)
#define IPN3KE_QM_STATUS (IPN3KE_QM_OFFSET + 0x8008)
#define IPN3KE_QM_LL_TABLE_MON (IPN3KE_QM_OFFSET + 0x8018)
#define IPN3KE_QM_WARNING_0 (IPN3KE_QM_OFFSET + 0x8040)
#define IPN3KE_QM_MON_0 (IPN3KE_QM_OFFSET + 0x8048)
#define IPN3KE_QM_FATAL_0 (IPN3KE_QM_OFFSET + 0x8050)
#define IPN3KE_QM_FATAL_1 (IPN3KE_QM_OFFSET + 0x8054)
#define IPN3KE_LL_TABLE_ACCESS_CTRL (IPN3KE_QM_OFFSET + 0x8100)
#define IPN3KE_LL_TABLE_ACCESS_DATA_0 (IPN3KE_QM_OFFSET + 0x8110)
#define IPN3KE_LL_TABLE_ACCESS_DATA_1 (IPN3KE_QM_OFFSET + 0x8114)
#define IPN3KE_CCB_ERROR (IPN3KE_CCB_OFFSET + 0x0008)
#define IPN3KE_CCB_NSEGFREE (IPN3KE_CCB_OFFSET + 0x200000)
#define IPN3KE_CCB_NSEGFREE_MASK 0x3FFFFF
#define IPN3KE_CCB_PSEGMAX_COEF (IPN3KE_CCB_OFFSET + 0x200008)
#define IPN3KE_CCB_PSEGMAX_COEF_MASK 0xFFFFF
#define IPN3KE_CCB_NSEG_P (IPN3KE_CCB_OFFSET + 0x200080)
#define IPN3KE_CCB_NSEG_MASK 0x3FFFFF
#define IPN3KE_CCB_QPROFILE_Q (IPN3KE_CCB_OFFSET + 0x240000)
#define IPN3KE_CCB_QPROFILE_MASK 0x7FF
#define IPN3KE_CCB_PROFILE_P (IPN3KE_CCB_OFFSET + 0x280000)
#define IPN3KE_CCB_PROFILE_MASK 0x1FFFFFF
#define IPN3KE_CCB_PROFILE_MS (IPN3KE_CCB_OFFSET + 0xC)
#define IPN3KE_CCB_PROFILE_MS_MASK 0x1FFFFFF
#define IPN3KE_CCB_LR_LB_DBG_CTRL (IPN3KE_CCB_OFFSET + 0x2C0000)
#define IPN3KE_CCB_LR_LB_DBG_DONE (IPN3KE_CCB_OFFSET + 0x2C0004)
#define IPN3KE_CCB_LR_LB_DBG_RDATA (IPN3KE_CCB_OFFSET + 0x2C000C)
#define IPN3KE_QOS_MAP_L1_X (IPN3KE_QOS_OFFSET + 0x000000)
#define IPN3KE_QOS_MAP_L1_MASK 0x1FFF
#define IPN3KE_QOS_MAP_L2_X (IPN3KE_QOS_OFFSET + 0x040000)
#define IPN3KE_QOS_MAP_L2_MASK 0x7
#define IPN3KE_QOS_TYPE_MASK 0x3
#define IPN3KE_QOS_TYPE_L1_X (IPN3KE_QOS_OFFSET + 0x200000)
#define IPN3KE_QOS_TYPE_L2_X (IPN3KE_QOS_OFFSET + 0x240000)
#define IPN3KE_QOS_TYPE_L3_X (IPN3KE_QOS_OFFSET + 0x280000)
#define IPN3KE_QOS_SCH_WT_MASK 0xFF
#define IPN3KE_QOS_SCH_WT_L1_X (IPN3KE_QOS_OFFSET + 0x400000)
#define IPN3KE_QOS_SCH_WT_L2_X (IPN3KE_QOS_OFFSET + 0x440000)
#define IPN3KE_QOS_SCH_WT_L3_X (IPN3KE_QOS_OFFSET + 0x480000)
#define IPN3KE_QOS_SHAP_WT_MASK 0x3FFF
#define IPN3KE_QOS_SHAP_WT_L1_X (IPN3KE_QOS_OFFSET + 0x600000)
#define IPN3KE_QOS_SHAP_WT_L2_X (IPN3KE_QOS_OFFSET + 0x640000)
#define IPN3KE_QOS_SHAP_WT_L3_X (IPN3KE_QOS_OFFSET + 0x680000)
#define IPN3KE_CLF_BASE_DST_MAC_ADDR_HI (IPN3KE_CLASSIFY_OFFSET + 0x0000)
#define IPN3KE_CLF_BASE_DST_MAC_ADDR_LOW (IPN3KE_CLASSIFY_OFFSET + 0x0004)
#define IPN3KE_CLF_QINQ_STAG (IPN3KE_CLASSIFY_OFFSET + 0x0008)
#define IPN3KE_CLF_LKUP_ENABLE (IPN3KE_CLASSIFY_OFFSET + 0x000C)
#define IPN3KE_CLF_DFT_FLOW_ID (IPN3KE_CLASSIFY_OFFSET + 0x0040)
#define IPN3KE_CLF_RX_PARSE_CFG (IPN3KE_CLASSIFY_OFFSET + 0x0080)
#define IPN3KE_CLF_RX_STATS_CFG (IPN3KE_CLASSIFY_OFFSET + 0x00C0)
#define IPN3KE_CLF_RX_STATS_RPT (IPN3KE_CLASSIFY_OFFSET + 0x00C4)
#define IPN3KE_CLF_RX_TEST (IPN3KE_CLASSIFY_OFFSET + 0x0400)
#define IPN3KE_CLF_EM_VERSION (IPN3KE_CLASSIFY_OFFSET + 0x40000 + 0x0000)
#define IPN3KE_CLF_EM_NUM (IPN3KE_CLASSIFY_OFFSET + 0x40000 + 0x0008)
#define IPN3KE_CLF_EM_KEY_WDTH (IPN3KE_CLASSIFY_OFFSET + 0x40000 + 0x000C)
#define IPN3KE_CLF_EM_RES_WDTH (IPN3KE_CLASSIFY_OFFSET + 0x40000 + 0x0010)
#define IPN3KE_CLF_EM_ALARMS (IPN3KE_CLASSIFY_OFFSET + 0x40000 + 0x0014)
#define IPN3KE_CLF_EM_DRC_RLAT (IPN3KE_CLASSIFY_OFFSET + 0x40000 + 0x0018)
#define IPN3KE_CLF_MHL_VERSION (IPN3KE_CLASSIFY_OFFSET + 0x50000 + 0x0000)
#define IPN3KE_CLF_MHL_GEN_CTRL (IPN3KE_CLASSIFY_OFFSET + 0x50000 + 0x0018)
#define IPN3KE_CLF_MHL_MGMT_CTRL (IPN3KE_CLASSIFY_OFFSET + 0x50000 + 0x0020)
#define IPN3KE_CLF_MHL_MGMT_CTRL_BIT_BUSY 31
#define IPN3KE_CLF_MHL_MGMT_CTRL_FLUSH 0x0
#define IPN3KE_CLF_MHL_MGMT_CTRL_INSERT 0x1
#define IPN3KE_CLF_MHL_MGMT_CTRL_DELETE 0x2
#define IPN3KE_CLF_MHL_MGMT_CTRL_SEARCH 0x3
#define IPN3KE_CLF_MHL_FATAL_0 (IPN3KE_CLASSIFY_OFFSET + 0x50000 + 0x0050)
#define IPN3KE_CLF_MHL_MON_0 (IPN3KE_CLASSIFY_OFFSET + 0x50000 + 0x0060)
#define IPN3KE_CLF_MHL_TOTAL_ENTRIES (IPN3KE_CLASSIFY_OFFSET + \
0x50000 + 0x0080)
#define IPN3KE_CLF_MHL_ONEHIT_BUCKETS (IPN3KE_CLASSIFY_OFFSET + \
0x50000 + 0x0084)
#define IPN3KE_CLF_MHL_KEY_MASK 0xFFFFFFFF
#define IPN3KE_CLF_MHL_KEY_0 (IPN3KE_CLASSIFY_OFFSET + 0x50000 + 0x1000)
#define IPN3KE_CLF_MHL_KEY_1 (IPN3KE_CLASSIFY_OFFSET + 0x50000 + 0x1004)
#define IPN3KE_CLF_MHL_KEY_2 (IPN3KE_CLASSIFY_OFFSET + 0x50000 + 0x1008)
#define IPN3KE_CLF_MHL_KEY_3 (IPN3KE_CLASSIFY_OFFSET + 0x50000 + 0x100C)
#define IPN3KE_CLF_MHL_RES_MASK 0xFFFFFFFF
#define IPN3KE_CLF_MHL_RES (IPN3KE_CLASSIFY_OFFSET + 0x50000 + 0x2000)
int
ipn3ke_rpst_dev_set_link_up(struct rte_eth_dev *dev);
int
ipn3ke_rpst_dev_set_link_down(struct rte_eth_dev *dev);
int
ipn3ke_rpst_link_update(struct rte_eth_dev *ethdev,
__rte_unused int wait_to_complete);
int
ipn3ke_rpst_promiscuous_enable(struct rte_eth_dev *ethdev);
int
ipn3ke_rpst_promiscuous_disable(struct rte_eth_dev *ethdev);
int
ipn3ke_rpst_allmulticast_enable(struct rte_eth_dev *ethdev);
int
ipn3ke_rpst_allmulticast_disable(struct rte_eth_dev *ethdev);
int
ipn3ke_rpst_mac_addr_set(struct rte_eth_dev *ethdev,
struct rte_ether_addr *mac_addr);
int
ipn3ke_rpst_mtu_set(struct rte_eth_dev *ethdev, uint16_t mtu);
int
ipn3ke_rpst_init(struct rte_eth_dev *ethdev, void *init_params);
int
ipn3ke_rpst_uninit(struct rte_eth_dev *ethdev);
int
ipn3ke_hw_tm_init(struct ipn3ke_hw *hw);
void
ipn3ke_tm_init(struct ipn3ke_rpst *rpst);
int
ipn3ke_tm_ops_get(struct rte_eth_dev *ethdev,
void *arg);
/* IPN3KE_MASK is a macro used on 32 bit registers */
#define IPN3KE_MASK(mask, shift) ((mask) << (shift))
#define IPN3KE_MAC_CTRL_BASE_0 0x00000000
#define IPN3KE_MAC_CTRL_BASE_1 0x00008000
#define IPN3KE_MAC_STATS_MASK 0xFFFFFFFFF
/* All the address are in 4Bytes*/
#define IPN3KE_MAC_PRIMARY_MAC_ADDR0 0x0010
#define IPN3KE_MAC_PRIMARY_MAC_ADDR1 0x0011
#define IPN3KE_MAC_MAC_RESET_CONTROL 0x001F
#define IPN3KE_MAC_MAC_RESET_CONTROL_TX_SHIFT 0
#define IPN3KE_MAC_MAC_RESET_CONTROL_TX_MASK \
IPN3KE_MASK(0x1, IPN3KE_MAC_MAC_RESET_CONTROL_TX_SHIFT)
#define IPN3KE_MAC_MAC_RESET_CONTROL_RX_SHIFT 8
#define IPN3KE_MAC_MAC_RESET_CONTROL_RX_MASK \
IPN3KE_MASK(0x1, IPN3KE_MAC_MAC_RESET_CONTROL_RX_SHIFT)
#define IPN3KE_MAC_TX_PACKET_CONTROL 0x0020
#define IPN3KE_MAC_TX_PACKET_CONTROL_SHIFT 0
#define IPN3KE_MAC_TX_PACKET_CONTROL_MASK \
IPN3KE_MASK(0x1, IPN3KE_MAC_TX_PACKET_CONTROL_SHIFT)
#define IPN3KE_MAC_TX_SRC_ADDR_OVERRIDE 0x002A
#define IPN3KE_MAC_TX_SRC_ADDR_OVERRIDE_SHIFT 0
#define IPN3KE_MAC_TX_SRC_ADDR_OVERRIDE_MASK \
IPN3KE_MASK(0x1, IPN3KE_MAC_TX_SRC_ADDR_OVERRIDE_SHIFT)
#define IPN3KE_MAC_TX_FRAME_MAXLENGTH 0x002C
#define IPN3KE_MAC_TX_FRAME_MAXLENGTH_SHIFT 0
#define IPN3KE_MAC_TX_FRAME_MAXLENGTH_MASK \
IPN3KE_MASK(0xFFFF, IPN3KE_MAC_TX_FRAME_MAXLENGTH_SHIFT)
#define IPN3KE_MAC_TX_PAUSEFRAME_CONTROL 0x0040
#define IPN3KE_MAC_TX_PAUSEFRAME_CONTROL_SHIFT 0
#define IPN3KE_MAC_TX_PAUSEFRAME_CONTROL_MASK \
IPN3KE_MASK(0x3, IPN3KE_MAC_TX_PAUSEFRAME_CONTROL_SHIFT)
#define IPN3KE_MAC_TX_PAUSEFRAME_QUANTA 0x0042
#define IPN3KE_MAC_TX_PAUSEFRAME_QUANTA_SHIFT 0
#define IPN3KE_MAC_TX_PAUSEFRAME_QUANTA_MASK \
IPN3KE_MASK(0xFFFF, IPN3KE_MAC_TX_PAUSEFRAME_QUANTA_SHIFT)
#define IPN3KE_MAC_TX_PAUSEFRAME_HOLDOFF_QUANTA 0x0043
#define IPN3KE_MAC_TX_PAUSEFRAME_HOLDOFF_QUANTA_SHIFT 0
#define IPN3KE_MAC_TX_PAUSEFRAME_HOLDOFF_QUANTA_MASK \
IPN3KE_MASK(0xFFFF, IPN3KE_MAC_TX_PAUSEFRAME_HOLDOFF_QUANTA_SHIFT)
#define IPN3KE_MAC_TX_PAUSEFRAME_ENABLE 0x0044
#define IPN3KE_MAC_TX_PAUSEFRAME_ENABLE_CFG_SHIFT 0
#define IPN3KE_MAC_TX_PAUSEFRAME_ENABLE_CFG_MASK \
IPN3KE_MASK(0x1, IPN3KE_MAC_TX_PAUSEFRAME_ENABLE_CFG_SHIFT)
#define IPN3KE_MAC_TX_PAUSEFRAME_ENABLE_TYPE_SHIFT 1
#define IPN3KE_MAC_TX_PAUSEFRAME_ENABLE_TYPE_MASK \
IPN3KE_MASK(0x3, IPN3KE_MAC_TX_PAUSEFRAME_ENABLE_TYPE_SHIFT)
#define IPN3KE_MAC_RX_TRANSFER_CONTROL 0x00A0
#define IPN3KE_MAC_RX_TRANSFER_CONTROL_SHIFT 0x0
#define IPN3KE_MAC_RX_TRANSFER_CONTROL_MASK \
IPN3KE_MASK(0x1, IPN3KE_MAC_RX_TRANSFER_CONTROL_SHIFT)
#define IPN3KE_MAC_RX_FRAME_CONTROL 0x00AC
#define IPN3KE_MAC_RX_FRAME_CONTROL_EN_ALLUCAST_SHIFT 0x0
#define IPN3KE_MAC_RX_FRAME_CONTROL_EN_ALLUCAST_MASK \
IPN3KE_MASK(0x1, IPN3KE_MAC_RX_FRAME_CONTROL_EN_ALLUCAST_SHIFT)
#define IPN3KE_MAC_RX_FRAME_CONTROL_EN_ALLMCAST_SHIFT 0x1
#define IPN3KE_MAC_RX_FRAME_CONTROL_EN_ALLMCAST_MASK \
IPN3KE_MASK(0x1, IPN3KE_MAC_RX_FRAME_CONTROL_EN_ALLMCAST_SHIFT)
/**
* The overhead from MTU to max frame size.
* Considering QinQ packet, the VLAN tag needs to be counted twice.
*/
#define IPN3KE_ETH_OVERHEAD \
(RTE_ETHER_HDR_LEN + RTE_ETHER_CRC_LEN + RTE_VLAN_HLEN * 2)
#define IPN3KE_ETH_MAX_LEN (RTE_ETHER_MTU + IPN3KE_ETH_OVERHEAD)
#define IPN3KE_MAC_FRAME_SIZE_MAX 9728
#define IPN3KE_MAC_RX_FRAME_MAXLENGTH 0x00AE
#define IPN3KE_MAC_RX_FRAME_MAXLENGTH_SHIFT 0
#define IPN3KE_MAC_RX_FRAME_MAXLENGTH_MASK \
IPN3KE_MASK(0xFFFF, IPN3KE_MAC_RX_FRAME_MAXLENGTH_SHIFT)
#define IPN3KE_25G_MAX_TX_SIZE_CONFIG 0x407
#define IPN3KE_25G_MAX_RX_SIZE_CONFIG 0x506
#define IPN3KE_10G_TX_FRAME_MAXLENGTH 0x002C
#define IPN3KE_10G_RX_FRAME_MAXLENGTH 0x00AE
#define IPN3KE_REGISTER_WIDTH 32
/*Bits[2:0]: Configuration of TX statistics counters:
*Bit[2]: Shadow request (active high): When set to the value of 1,
*TX statistics collection is paused. The underlying counters
*continue to operate, but the readable values reflect a snapshot at
*the time the pause flag was activated. Write a 0 to release.
*Bit[1]: Parity-error clear. When software sets this bit, the IP core
*clears the parity bit CNTR_TX_STATUS[0]. This bit
*(CNTR_TX_CONFIG[1]) is self-clearing.
*Bit[0]: Software can set this bit to the value of 1 to reset all of
*the TX statistics registers at the same time. This bit is selfclearing.
*Bits[31:3] are Reserved
*/
#define IPN3KE_25G_TX_STATISTICS_CONFIG 0x845
#define IPN3KE_25G_TX_STATISTICS_CONFIG_SHADOW_REQUEST_MASK 0x00000004
/*Bit[1]: Indicates that the TX statistics registers are paused (while
*CNTR_TX_CONFIG[2] is asserted).
*Bit[0]: Indicates the presence of at least one parity error in the
*TX statistics counters.
*Bits[31:2] are Reserved.
*/
#define IPN3KE_25G_TX_STATISTICS_STATUS 0x846
#define IPN3KE_25G_TX_STATISTICS_STATUS_SHADOW_REQUEST_MASK 0x00000002
#define IPN3KE_25G_CNTR_TX_FRAGMENTS_LO 0x800
#define IPN3KE_25G_CNTR_TX_FRAGMENTS_HI 0x801
#define IPN3KE_25G_CNTR_TX_JABBERS_LO 0x802
#define IPN3KE_25G_CNTR_TX_JABBERS_HI 0x803
#define IPN3KE_25G_CNTR_TX_FCS_LO 0x804
#define IPN3KE_25G_CNTR_TX_FCS_HI 0x805
#define IPN3KE_25G_CNTR_TX_CRCERR_LO 0x806
#define IPN3KE_25G_CNTR_TX_CRCERR_HI 0x807
#define IPN3KE_25G_CNTR_TX_MCAST_DATA_ERR_LO 0x808
#define IPN3KE_25G_CNTR_TX_MCAST_DATA_ERR_HI 0x809
#define IPN3KE_25G_CNTR_TX_BCAST_DATA_ERR_LO 0x80A
#define IPN3KE_25G_CNTR_TX_BCAST_DATA_ERR_HI 0x80B
#define IPN3KE_25G_CNTR_TX_UCAST_DATA_ERR_LO 0x80C
#define IPN3KE_25G_CNTR_TX_UCAST_DATA_ERR_HI 0x80D
#define IPN3KE_25G_CNTR_TX_MCAST_CTRL_ERR_LO 0x80E
#define IPN3KE_25G_CNTR_TX_MCAST_CTRL_ERR_HI 0x80F
#define IPN3KE_25G_CNTR_TX_BCAST_CTRL_ERR_LO 0x810
#define IPN3KE_25G_CNTR_TX_BCAST_CTRL_ERR_HI 0x811
#define IPN3KE_25G_CNTR_TX_UCAST_CTRL_ERR_LO 0x812
#define IPN3KE_25G_CNTR_TX_UCAST_CTRL_ERR_HI 0x813
#define IPN3KE_25G_CNTR_TX_PAUSE_ERR_LO 0x814
#define IPN3KE_25G_CNTR_TX_PAUSE_ERR_HI 0x815
#define IPN3KE_25G_CNTR_TX_64B_LO 0x816
#define IPN3KE_25G_CNTR_TX_64B_HI 0x817
#define IPN3KE_25G_CNTR_TX_65_127B_LO 0x818
#define IPN3KE_25G_CNTR_TX_65_127B_HI 0x819
#define IPN3KE_25G_CNTR_TX_128_255B_LO 0x81A
#define IPN3KE_25G_CNTR_TX_128_255B_HI 0x81B
#define IPN3KE_25G_CNTR_TX_256_511B_LO 0x81C
#define IPN3KE_25G_CNTR_TX_256_511B_HI 0x81D
#define IPN3KE_25G_CNTR_TX_512_1023B_LO 0x81E
#define IPN3KE_25G_CNTR_TX_512_1023B_HI 0x81F
#define IPN3KE_25G_CNTR_TX_1024_1518B_LO 0x820
#define IPN3KE_25G_CNTR_TX_1024_1518B_HI 0x821
#define IPN3KE_25G_CNTR_TX_1519_MAXB_LO 0x822
#define IPN3KE_25G_CNTR_TX_1519_MAXB_HI 0x823
#define IPN3KE_25G_CNTR_TX_OVERSIZE_LO 0x824
#define IPN3KE_25G_CNTR_TX_OVERSIZE_HI 0x825
#define IPN3KE_25G_CNTR_TX_MCAST_DATA_OK_LO 0x826
#define IPN3KE_25G_CNTR_TX_MCAST_DATA_OK_HI 0x827
#define IPN3KE_25G_CNTR_TX_BCAST_DATA_OK_LO 0x828
#define IPN3KE_25G_CNTR_TX_BCAST_DATA_OK_HI 0x829
#define IPN3KE_25G_CNTR_TX_UCAST_DATA_OK_LO 0x82A
#define IPN3KE_25G_CNTR_TX_UCAST_DATA_OK_HI 0x82B
#define IPN3KE_25G_CNTR_TX_MCAST_CTRL_LO 0x82C
#define IPN3KE_25G_CNTR_TX_MCAST_CTRL_HI 0x82D
#define IPN3KE_25G_CNTR_TX_BCAST_CTRL_LO 0x82E
#define IPN3KE_25G_CNTR_TX_BCAST_CTRL_HI 0x82F
#define IPN3KE_25G_CNTR_TX_UCAST_CTRL_LO 0x830
#define IPN3KE_25G_CNTR_TX_UCAST_CTRL_HI 0x831
#define IPN3KE_25G_CNTR_TX_PAUSE_LO 0x832
#define IPN3KE_25G_CNTR_TX_PAUSE_HI 0x833
#define IPN3KE_25G_CNTR_TX_RUNT_LO 0x834
#define IPN3KE_25G_CNTR_TX_RUNT_HI 0x835
#define IPN3KE_25G_TX_PAYLOAD_OCTETS_OK_LO 0x860
#define IPN3KE_25G_TX_PAYLOAD_OCTETS_OK_HI 0x861
#define IPN3KE_25G_TX_FRAME_OCTETS_OK_LO 0x862
#define IPN3KE_25G_TX_FRAME_OCTETS_OK_HI 0x863
/*Bits[2:0]: Configuration of RX statistics counters:
*Bit[2]: Shadow request (active high): When set to the value of 1,
*RX statistics collection is paused. The underlying counters
*continue to operate, but the readable values reflect a snapshot
*at the time the pause flag was activated. Write a 0 to release.
*Bit[1]: Parity-error clear. When software sets this bit, the IP
*core clears the parity bit CNTR_RX_STATUS[0]. This bit
*(CNTR_RX_CONFIG[1]) is self-clearing.
*Bit[0]: Software can set this bit to the value of 1 to reset all of
*the RX statistics registers at the same time. This bit is selfclearing.
*Bits[31:3] are Reserved.
*/
#define IPN3KE_25G_RX_STATISTICS_CONFIG 0x945
#define IPN3KE_25G_RX_STATISTICS_CONFIG_SHADOW_REQUEST_MASK 0x00000004
/*Bit[1]: Indicates that the RX statistics registers are paused
*(while CNTR_RX_CONFIG[2] is asserted).
*Bit[0]: Indicates the presence of at least one parity error in the
*RX statistics counters.
*Bits [31:2] are Reserved
*/
#define IPN3KE_25G_RX_STATISTICS_STATUS 0x946
#define IPN3KE_25G_RX_STATISTICS_STATUS_SHADOW_REQUEST_MASK 0x00000002
#define IPN3KE_25G_CNTR_RX_FRAGMENTS_LO 0x900
#define IPN3KE_25G_CNTR_RX_FRAGMENTS_HI 0x901
#define IPN3KE_25G_CNTR_RX_JABBERS_LO 0x902
#define IPN3KE_25G_CNTR_RX_JABBERS_HI 0x903
#define IPN3KE_25G_CNTR_RX_FCS_LO 0x904
#define IPN3KE_25G_CNTR_RX_FCS_HI 0x905
#define IPN3KE_25G_CNTR_RX_CRCERR_LO 0x906
#define IPN3KE_25G_CNTR_RX_CRCERR_HI 0x907
#define IPN3KE_25G_CNTR_RX_MCAST_DATA_ERR_LO 0x908
#define IPN3KE_25G_CNTR_RX_MCAST_DATA_ERR_HI 0x909
#define IPN3KE_25G_CNTR_RX_BCAST_DATA_ERR_LO 0x90A
#define IPN3KE_25G_CNTR_RX_BCAST_DATA_ERR_HI 0x90B
#define IPN3KE_25G_CNTR_RX_UCAST_DATA_ERR_LO 0x90C
#define IPN3KE_25G_CNTR_RX_UCAST_DATA_ERR_HI 0x90D
#define IPN3KE_25G_CNTR_RX_MCAST_CTRL_ERR_LO 0x90E
#define IPN3KE_25G_CNTR_RX_MCAST_CTRL_ERR_HI 0x90F
#define IPN3KE_25G_CNTR_RX_BCAST_CTRL_ERR_LO 0x910
#define IPN3KE_25G_CNTR_RX_BCAST_CTRL_ERR_HI 0x911
#define IPN3KE_25G_CNTR_RX_UCAST_CTRL_ERR_LO 0x912
#define IPN3KE_25G_CNTR_RX_UCAST_CTRL_ERR_HI 0x913
#define IPN3KE_25G_CNTR_RX_PAUSE_ERR_LO 0x914
#define IPN3KE_25G_CNTR_RX_PAUSE_ERR_HI 0x915
#define IPN3KE_25G_CNTR_RX_64B_LO 0x916
#define IPN3KE_25G_CNTR_RX_64B_HI 0x917
#define IPN3KE_25G_CNTR_RX_65_127B_LO 0x918
#define IPN3KE_25G_CNTR_RX_65_127B_HI 0x919
#define IPN3KE_25G_CNTR_RX_128_255B_LO 0x91A
#define IPN3KE_25G_CNTR_RX_128_255B_HI 0x91B
#define IPN3KE_25G_CNTR_RX_256_511B_LO 0x91C
#define IPN3KE_25G_CNTR_RX_256_511B_HI 0x91D
#define IPN3KE_25G_CNTR_RX_512_1023B_LO 0x91E
#define IPN3KE_25G_CNTR_RX_512_1023B_HI 0x91F
#define IPN3KE_25G_CNTR_RX_1024_1518B_LO 0x920
#define IPN3KE_25G_CNTR_RX_1024_1518B_HI 0x921
#define IPN3KE_25G_CNTR_RX_1519_MAXB_LO 0x922
#define IPN3KE_25G_CNTR_RX_1519_MAXB_HI 0x923
#define IPN3KE_25G_CNTR_RX_OVERSIZE_LO 0x924
#define IPN3KE_25G_CNTR_RX_OVERSIZE_HI 0x925
#define IPN3KE_25G_CNTR_RX_MCAST_DATA_OK_LO 0x926
#define IPN3KE_25G_CNTR_RX_MCAST_DATA_OK_HI 0x927
#define IPN3KE_25G_CNTR_RX_BCAST_DATA_OK_LO 0x928
#define IPN3KE_25G_CNTR_RX_BCAST_DATA_OK_HI 0x929
#define IPN3KE_25G_CNTR_RX_UCAST_DATA_OK_LO 0x92A
#define IPN3KE_25G_CNTR_RX_UCAST_DATA_OK_HI 0x92B
#define IPN3KE_25G_CNTR_RX_MCAST_CTRL_LO 0x92C
#define IPN3KE_25G_CNTR_RX_MCAST_CTRL_HI 0x92D
#define IPN3KE_25G_CNTR_RX_BCAST_CTRL_LO 0x92E
#define IPN3KE_25G_CNTR_RX_BCAST_CTRL_HI 0x92F
#define IPN3KE_25G_CNTR_RX_UCAST_CTRL_LO 0x930
#define IPN3KE_25G_CNTR_RX_UCAST_CTRL_HI 0x931
#define IPN3KE_25G_CNTR_RX_PAUSE_LO 0x932
#define IPN3KE_25G_CNTR_RX_PAUSE_HI 0x933
#define IPN3KE_25G_CNTR_RX_RUNT_LO 0x934
#define IPN3KE_25G_CNTR_RX_RUNT_HI 0x935
#define IPN3KE_25G_RX_PAYLOAD_OCTETS_OK_LO 0x960
#define IPN3KE_25G_RX_PAYLOAD_OCTETS_OK_HI 0x961
#define IPN3KE_25G_RX_FRAME_OCTETS_OK_LO 0x962
#define IPN3KE_25G_RX_FRAME_OCTETS_OK_HI 0x963
#define IPN3KE_10G_STATS_HI_VALID_MASK 0x0000000F
#define IPN3KE_10G_TX_STATS_CLR 0x0140
#define IPN3KE_10G_TX_STATS_CLR_CLEAR_SHIFT 0
#define IPN3KE_10G_TX_STATS_CLR_CLEAR_MASK \
IPN3KE_MASK(0x1, IPN3KE_10G_TX_STATS_CLR_CLEAR_SHIFT)
#define IPN3KE_10G_RX_STATS_CLR 0x01C0
#define IPN3KE_10G_RX_STATS_CLR_CLEAR_SHIFT 0
#define IPN3KE_10G_RX_STATS_CLR_CLEAR_MASK \
IPN3KE_MASK(0x1, IPN3KE_10G_RX_STATS_CLR_CLEAR_SHIFT)
#define IPN3KE_10G_TX_STATS_FRAME_OK_LO 0x0142
#define IPN3KE_10G_TX_STATS_FRAME_OK_HI 0x0143
#define IPN3KE_10G_RX_STATS_FRAME_OK_LO 0x01C2
#define IPN3KE_10G_RX_STATS_FRAME_OK_HI 0x01C3
#define IPN3KE_10G_TX_STATS_FRAME_ERR_LO 0x0144
#define IPN3KE_10G_TX_STATS_FRAME_ERR_HI 0x0145
#define IPN3KE_10G_RX_STATS_FRAME_ERR_LO 0x01C4
#define IPN3KE_10G_RX_STATS_FRAME_ERR_HI 0x01C5
#define IPN3KE_10G_RX_STATS_FRAME_CRC_ERR_LO 0x01C6
#define IPN3KE_10G_RX_STATS_FRAME_CRC_ERR_HI 0x01C7
#define IPN3KE_10G_TX_STATS_OCTETS_OK_LO 0x0148
#define IPN3KE_10G_TX_STATS_OCTETS_OK_HI 0x0149
#define IPN3KE_10G_RX_STATS_OCTETS_OK_LO 0x01C8
#define IPN3KE_10G_RX_STATS_OCTETS_OK_HI 0x01C9
#define IPN3KE_10G_TX_STATS_PAUSE_MAC_CTRL_FRAMES_LO 0x014A
#define IPN3KE_10G_TX_STATS_PAUSE_MAC_CTRL_FRAMES_HI 0x014B
#define IPN3KE_10G_RX_STATS_PAUSE_MAC_CTRL_FRAMES_LO 0x01CA
#define IPN3KE_10G_RX_STATS_PAUSE_MAC_CTRL_FRAMES_HI 0x01CB
#define IPN3KE_10G_TX_STATS_IF_ERRORS_LO 0x014C
#define IPN3KE_10G_TX_STATS_IF_ERRORS_HI 0x014D
#define IPN3KE_10G_RX_STATS_IF_ERRORS_LO 0x01CC
#define IPN3KE_10G_RX_STATS_IF_ERRORS_HI 0x01CD
#define IPN3KE_10G_TX_STATS_UNICAST_FRAME_OK_LO 0x014E
#define IPN3KE_10G_TX_STATS_UNICAST_FRAME_OK_HI 0x014F
#define IPN3KE_10G_RX_STATS_UNICAST_FRAME_OK_LO 0x01CE
#define IPN3KE_10G_RX_STATS_UNICAST_FRAME_OK_HI 0x01CF
#define IPN3KE_10G_TX_STATS_UNICAST_FRAME_ERR_LO 0x0150
#define IPN3KE_10G_TX_STATS_UNICAST_FRAME_ERR_HI 0x0151
#define IPN3KE_10G_RX_STATS_UNICAST_FRAME_ERR_LO 0x01D0
#define IPN3KE_10G_RX_STATS_UNICAST_FRAME_ERR_HI 0x01D1
#define IPN3KE_10G_TX_STATS_MULTICAST_FRAME_OK_LO 0x0152
#define IPN3KE_10G_TX_STATS_MULTICAST_FRAME_OK_HI 0x0153
#define IPN3KE_10G_RX_STATS_MULTICAST_FRAME_OK_LO 0x01D2
#define IPN3KE_10G_RX_STATS_MULTICAST_FRAME_OK_HI 0x01D3
#define IPN3KE_10G_TX_STATS_MULTICAST_FRAME_ERR_LO 0x0154
#define IPN3KE_10G_TX_STATS_MULTICAST_FRAME_ERR_HI 0x0155
#define IPN3KE_10G_RX_STATS_MULTICAST_FRAME_ERR_LO 0x01D4
#define IPN3KE_10G_RX_STATS_MULTICAST_FRAME_ERR_HI 0x01D5
#define IPN3KE_10G_TX_STATS_BROADCAST_FRAME_OK_LO 0x0156
#define IPN3KE_10G_TX_STATS_BROADCAST_FRAME_OK_HI 0x0157
#define IPN3KE_10G_RX_STATS_BROADCAST_FRAME_OK_LO 0x01D6
#define IPN3KE_10G_RX_STATS_BROADCAST_FRAME_OK_HI 0x01D7
#define IPN3KE_10G_TX_STATS_BROADCAST_FRAME_ERR_LO 0x0158
#define IPN3KE_10G_TX_STATS_BROADCAST_FRAME_ERR_HI 0x0159
#define IPN3KE_10G_RX_STATS_BROADCAST_FRAME_ERR_LO 0x01D8
#define IPN3KE_10G_RX_STATS_BROADCAST_FRAME_ERR_HI 0x01D9
#define IPN3KE_10G_TX_STATS_ETHER_STATS_OCTETS_LO 0x015A
#define IPN3KE_10G_TX_STATS_ETHER_STATS_OCTETS_HI 0x015B
#define IPN3KE_10G_RX_STATS_ETHER_STATS_OCTETS_LO 0x01DA
#define IPN3KE_10G_RX_STATS_ETHER_STATS_OCTETS_HI 0x01DB
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_LO 0x015C
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_HI 0x015D
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_LO 0x01DC
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_HI 0x01DD
#define IPN3KE_10G_TX_STATS_ETHER_STATS_UNDER_SIZE_PKTS_LO 0x015E
#define IPN3KE_10G_TX_STATS_ETHER_STATS_UNDER_SIZE_PKTS_HI 0x015F
#define IPN3KE_10G_RX_STATS_ETHER_STATS_UNDER_SIZE_PKTS_LO 0x01DE
#define IPN3KE_10G_RX_STATS_ETHER_STATS_UNDER_SIZE_PKTS_HI 0x01DF
#define IPN3KE_10G_TX_STATS_ETHER_STATS_OVER_SIZE_PKTS_LO 0x0160
#define IPN3KE_10G_TX_STATS_ETHER_STATS_OVER_SIZE_PKTS_HI 0x0161
#define IPN3KE_10G_RX_STATS_ETHER_STATS_OVER_SIZE_PKTS_LO 0x01E0
#define IPN3KE_10G_RX_STATS_ETHER_STATS_OVER_SIZE_PKTS_HI 0x01E1
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_64_OCTETS_LO 0x0162
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_64_OCTETS_HI 0x0163
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_64_OCTETS_LO 0x01E2
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_64_OCTETS_HI 0x01E3
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_65_127_OCTETS_LO 0x0164
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_65_127_OCTETS_HI 0x0165
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_65_127_OCTETS_LO 0x01E4
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_65_127_OCTETS_HI 0x01E5
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_128_255_OCTETS_LO 0x0166
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_128_255_OCTETS_HI 0x0167
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_128_255_OCTETS_LO 0x01E6
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_128_255_OCTETS_HI 0x01E7
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_256_511_OCTETS_LO 0x0168
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_256_511_OCTETS_HI 0x0169
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_256_511_OCTETS_LO 0x01E8
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_256_511_OCTETS_HI 0x01E9
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_512_1023_OCTETS_LO 0x016A
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_512_1023_OCTETS_HI 0x016B
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_512_1023_OCTETS_LO 0x01EA
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_512_1023_OCTETS_HI 0x01EB
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_1024_1518_OCTETS_LO 0x016C
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_1024_1518_OCTETS_HI 0x016D
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_1024_1518_OCTETS_LO 0x01EC
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_1024_1518_OCTETS_HI 0x01ED
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_1519_X_OCTETS_LO 0x016E
#define IPN3KE_10G_TX_STATS_ETHER_STATS_PKTS_1519_X_OCTETS_HI 0x016F
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_1519_X_OCTETS_LO 0x01EE
#define IPN3KE_10G_RX_STATS_ETHER_STATS_PKTS_1519_X_OCTETS_HI 0x01EF
#define IPN3KE_10G_RX_STATS_ETHER_STATS_FRAGMENTS_LO 0x01E0
#define IPN3KE_10G_RX_STATS_ETHER_STATS_FRAGMENTS_HI 0x01F1
#define IPN3KE_10G_RX_STATS_ETHER_STATS_JABBERS_LO 0x01E2
#define IPN3KE_10G_RX_STATS_ETHER_STATS_JABBERS_HI 0x01F3
#define IPN3KE_10G_RX_STATS_ETHER_STATS_CRC_ERR_LO 0x01E4
#define IPN3KE_10G_RX_STATS_ETHER_STATS_CRC_ERR_HI 0x01F5
#define IPN3KE_10G_TX_STATS_UNICAST_MAC_CTRL_FRAMES_LO 0x0176
#define IPN3KE_10G_TX_STATS_UNICAST_MAC_CTRL_FRAMES_HI 0x0177
#define IPN3KE_10G_RX_STATS_UNICAST_MAC_CTRL_FRAMES_LO 0x01F6
#define IPN3KE_10G_RX_STATS_UNICAST_MAC_CTRL_FRAMES_HI 0x01F7
#define IPN3KE_10G_TX_STATS_MULTICAST_MAC_CTRL_FRAMES_LO 0x0178
#define IPN3KE_10G_TX_STATS_MULTICAST_MAC_CTRL_FRAMES_HI 0x0179
#define IPN3KE_10G_RX_STATS_MULTICAST_MAC_CTRL_FRAMES_LO 0x01F8
#define IPN3KE_10G_RX_STATS_MULTICAST_MAC_CTRL_FRAMES_HI 0x01F9
#define IPN3KE_10G_TX_STATS_BROADCAST_MAC_CTRL_FRAMES_LO 0x017A
#define IPN3KE_10G_TX_STATS_BROADCAST_MAC_CTRL_FRAMES_HI 0x017B
#define IPN3KE_10G_RX_STATS_BROADCAST_MAC_CTRL_FRAMES_LO 0x01FA
#define IPN3KE_10G_RX_STATS_BROADCAST_MAC_CTRL_FRAMES_HI 0x01FB
#define IPN3KE_10G_TX_STATS_PFC_MAC_CTRL_FRAMES_LO 0x017C
#define IPN3KE_10G_TX_STATS_PFC_MAC_CTRL_FRAMES_HI 0x017D
#define IPN3KE_10G_RX_STATS_PFC_MAC_CTRL_FRAMES_LO 0x01FC
#define IPN3KE_10G_RX_STATS_PFC_MAC_CTRL_FRAMES_HI 0x01FD
static inline void ipn3ke_xmac_tx_enable(struct ipn3ke_hw *hw,
uint32_t mac_num, uint32_t eth_group_sel)
{
#define IPN3KE_XMAC_TX_ENABLE (0 & (IPN3KE_MAC_TX_PACKET_CONTROL_MASK))
(*hw->f_mac_write)(hw,
IPN3KE_XMAC_TX_ENABLE,
IPN3KE_MAC_TX_PACKET_CONTROL,
mac_num,
eth_group_sel);
}
static inline void ipn3ke_xmac_tx_disable(struct ipn3ke_hw *hw,
uint32_t mac_num, uint32_t eth_group_sel)
{
#define IPN3KE_XMAC_TX_DISABLE (1 & (IPN3KE_MAC_TX_PACKET_CONTROL_MASK))
(*hw->f_mac_write)(hw,
IPN3KE_XMAC_TX_DISABLE,
IPN3KE_MAC_TX_PACKET_CONTROL,
mac_num,
eth_group_sel);
}
static inline void ipn3ke_xmac_rx_enable(struct ipn3ke_hw *hw,
uint32_t mac_num, uint32_t eth_group_sel)
{
#define IPN3KE_XMAC_RX_ENABLE (0 & (IPN3KE_MAC_RX_TRANSFER_CONTROL_MASK))
(*hw->f_mac_write)(hw,
IPN3KE_XMAC_RX_ENABLE,
IPN3KE_MAC_RX_TRANSFER_CONTROL,
mac_num,
eth_group_sel);
}
static inline void ipn3ke_xmac_rx_disable(struct ipn3ke_hw *hw,
uint32_t mac_num, uint32_t eth_group_sel)
{
#define IPN3KE_XMAC_RX_DISABLE (1 & (IPN3KE_MAC_RX_TRANSFER_CONTROL_MASK))
(*hw->f_mac_write)(hw,
IPN3KE_XMAC_RX_DISABLE,
IPN3KE_MAC_RX_TRANSFER_CONTROL,
mac_num,
eth_group_sel);
}
static inline void ipn3ke_xmac_smac_ovd_dis(struct ipn3ke_hw *hw,
uint32_t mac_num, uint32_t eth_group_sel)
{
#define IPN3KE_XMAC_SMAC_OVERRIDE_DISABLE (0 & \
(IPN3KE_MAC_TX_SRC_ADDR_OVERRIDE_MASK))
(*hw->f_mac_write)(hw,
IPN3KE_XMAC_SMAC_OVERRIDE_DISABLE,
IPN3KE_MAC_TX_SRC_ADDR_OVERRIDE,
mac_num,
eth_group_sel);
}
static inline void ipn3ke_xmac_tx_clr_10G_stcs
(struct ipn3ke_hw *hw, uint32_t mac_num, uint32_t eth_group_sel)
{
uint32_t tmp;
tmp = 0x00000000;
(*hw->f_mac_read)(hw,
&tmp,
IPN3KE_10G_TX_STATS_CLR,
mac_num,
eth_group_sel);
tmp |= 0x00000001;
(*hw->f_mac_write)(hw,
tmp,
IPN3KE_10G_TX_STATS_CLR,
mac_num,
eth_group_sel);
}
static inline void ipn3ke_xmac_rx_clr_10G_stcs
(struct ipn3ke_hw *hw, uint32_t mac_num, uint32_t eth_group_sel)
{
uint32_t tmp;
tmp = 0x00000000;
(*hw->f_mac_read)(hw,
&tmp,
IPN3KE_10G_RX_STATS_CLR,
mac_num,
eth_group_sel);
tmp |= 0x00000001;
(*hw->f_mac_write)(hw,
tmp,
IPN3KE_10G_RX_STATS_CLR,
mac_num,
eth_group_sel);
}
static inline void ipn3ke_xmac_tx_clr_25G_stcs
(struct ipn3ke_hw *hw, uint32_t mac_num, uint32_t eth_group_sel)
{
uint32_t tmp = 0x00000001;
/* Bit[0]: Software can set this bit to the value of 1
* to reset all of the TX statistics registers at the same time.
* This bit is selfclearing.
*/
(*hw->f_mac_write)(hw,
tmp,
IPN3KE_25G_TX_STATISTICS_CONFIG,
mac_num,
eth_group_sel);
}
static inline void ipn3ke_xmac_rx_clr_25G_stcs
(struct ipn3ke_hw *hw, uint32_t mac_num, uint32_t eth_group_sel)
{
uint32_t tmp = 0x00000001;
/* Bit[0]: Software can set this bit to the value of 1
* to reset all of the RX statistics registers at the same time.
* This bit is selfclearing.
*/
(*hw->f_mac_write)(hw,
tmp,
IPN3KE_25G_RX_STATISTICS_CONFIG,
mac_num,
eth_group_sel);
}
#endif /* _IPN3KE_ETHDEV_H_ */