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/*
* Copyright (c) 2017-2020 The Linux Foundation. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of The Linux Foundation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef __TESTS_UTILS__H__
#define __TESTS_UTILS__H__
#include <stdarg.h>
#include <vector>
#include <string>
#include <linux/if_ether.h>
#include <linux/msm_ipa.h>
#include "TestBase.h"
#include "Constants.h"
#include "RoutingDriverWrapper.h"
#include "InterfaceAbstraction.h"
#include "ipa_test_module.h"
#include "TestManager.h"
#include "Logger.h"
#include "Constants.h"
extern "C" {
#include "ipa_nat_utils.h"
}
using namespace std;
#define TEST_APP_VERSION "2.00"
#define Free(x) do { if (x) {free(x); x = NULL; } } while (0)
#define MAX3(_X, _Y, _Z) max(max((_X), (_Y)), (_Z))
#define ETH2_DST_ADDR_OFFSET (0)
#define ETH2_SRC_ADDR_OFFSET (ETH_ALEN)
#define ETH2_ETH_TYPE_OFFSET (ETH2_SRC_ADDR_OFFSET + ETH_ALEN)
#define ETH2_ETH_TYPE_LEN (2)
#define ETH2_PAYLOAD_OFFSET (ETH2_ETH_TYPE_OFFSET + ETH2_ETH_TYPE_LEN)
#define ETH8021Q_HEADER_LEN (18)
#define ETH8021Q_METADATA_OFFSET (12)
#define ETH8021Q_8021Q_TAG_LEN (4)
#define ETH8021Q_ETH_TYPE_OFFSET (ETH8021Q_METADATA_OFFSET + ETH8021Q_8021Q_TAG_LEN)
#define WLAN_HDR_SIZE (4)
#define RNDIS_HDR_SIZE (44)
// 26 ROME WLAN Frame =
// 4 ROME WLAN header +
// 14 IEEE 802.3 +
// 8 802.2 LLC/SNAP
#define _802_3_HDR_SIZE (26)
// [WLAN][ETH2] header
#define WLAN_ETH2_HDR_SIZE (WLAN_HDR_SIZE + ETH_HLEN)
// [RNDIS][ETH2] header
#define RNDIS_ETH2_HDR_SIZE (RNDIS_HDR_SIZE + ETH_HLEN)
#define IP4_PACKET_SIZE (70) // Arbitrary number
// OFFSET = sizeof(struct rndis_pkt_hdr) - RNDIS_HDR_OFST(data_ofst)
#define RNDIS_DATA_OFFSET (36)
// [WLAN][802.3] header
#define WLAN_802_3_HDR_SIZE (WLAN_HDR_SIZE + _802_3_HDR_SIZE)
#define IPA_CLIENT_IS_PROD(x) \
(x < IPA_CLIENT_MAX && (x & 0x1) == 0)
#define IPA_CLIENT_IS_CONS(x) \
(x < IPA_CLIENT_MAX && (x & 0x1) == 1)
enum msgType {
ERROR = 0,
DEBUG,
INFO,
STACK
};
/**
@brief
Do not Use this function. Use MACROs instead.
@details
Do not Use this function.
Instead use the MACROs: LOG_MSG_ERROR, LOG_MSG_INFO & LOG_MSG_DEBUG
*/
void __log_msg(enum msgType,
const char *filename,
int line, const char *function,
const char *format, ...);
#define LOG_MSG_ERROR(...) \
__log_msg(ERROR, __FILE__, __LINE__, __func__, __VA_ARGS__)
#define LOG_MSG_DEBUG(...) \
__log_msg(DEBUG, __FILE__, __LINE__, __func__, __VA_ARGS__)
#define LOG_MSG_INFO(...) \
__log_msg(INFO, __FILE__, __LINE__, __func__, __VA_ARGS__)
#define LOG_MSG_STACK(...) \
__log_msg(STACK, __FILE__, __LINE__, __func__, __VA_ARGS__)
/*#define LOG_MSG_ERROR(x...)
__log_msg(ERROR, __FILE__, __LINE__, __func__, x)
#define LOG_MSG_DEBUG(x...)
__log_msg(DEBUG, __FILE__, __LINE__, __func__, x)
#define LOG_MSG_INFO(x...)
__log_msg(INFO, __FILE__, __LINE__, __func__, x)
#define LOG_MSG_STACK(x...)
__log_msg(STACK, __FILE__, __LINE__, __func__, x)*/
/**
@brief
Function loads a default IPv4 / IPv6 Packet
@param [in] eIP - Type of Packet to load (IPA_IP_v4 / IPA_IP_v6)
@param [in] pBuffer - pointer to the destination buffer
@param [in,out] nMaxSize - The size of the buffer.
Upon function return,
the total number of bytes copied will be stored in this parameter.
@return boolean indicating whether the
operation completed successfully or not.
@details
Function loads a default IPv4 / IPv6 packet into pBuffer.
*/
bool LoadDefaultPacket(
enum ipa_ip_type eIP,
uint8_t *pBuffer,
size_t &nMaxSize);
bool LoadDefaultEth2Packet(
enum ipa_ip_type eIP,
uint8_t *pBuffer,
size_t &nMaxSize);
bool LoadDefaultWLANEth2Packet(
enum ipa_ip_type eIP,
uint8_t *pBuffer,
size_t &nMaxSize);
bool LoadDefaultWLAN802_32Packet(
enum ipa_ip_type eIP,
uint8_t *pBuffer,
size_t &nMaxSize);
bool LoadNoPayloadPacket(
enum ipa_ip_type eIP,
uint8_t *pBuffer,
size_t &nMaxSize);
bool LoadDefault802_1Q(
enum ipa_ip_type eIP,
uint8_t *pBuffer,
size_t &nMaxSize);
/**
@brief
Function loads a default IPv4 / IPv6 Packet
@param [in] eIP - Type of Packet to load (IPA_IP_v4 / IPA_IP_v6)
@param [in] extHdrType - Type of IPV6 extension header(FRAGMENT / NONE)
@param [in] pBuffer - pointer to the destination buffer
@param [in,out] nMaxSize - The size of the buffer.
Upon function return,
the total number of bytes copied will be stored in this parameter.
@return boolean indicating whether the
operation completed successfully or not.
@details
Function loads a default IPv4 / IPv6 packet into pBuffer.
*/
bool LoadDefaultPacket(
enum ipa_ip_type eIP,
enum ipv6_ext_hdr_type extHdrType,
uint8_t *pBuffer,
size_t &nMaxSize);
/**
@brief
Function Sends a Packet, Receive a packet
and compares the received result with an expected buffer
@param [in] pSink - Destination to which a packet will be sent.
@param [in] pSendBuffer -
Pointer to a buffer containing the packet that will be sent.
@param [in] nSendBuffSize - The size of the data in the packet.
@param [in] pSource - Source from which a packet will be received.
@param [in] pExpectedBuffer - Pointer a
buffer containing the expected packet (from the receiver)
@param [in] nExpectedBuffSize - The size of
valid data within pExpectedBuffer.
@return Boolean indicating whether the operation
completed successfully and the buffers matching or not.
@details
Function sends a packet to pSink, and receives a packet from pSource.
The packet received from pSource
is compared to the expected data from pExpectedBuffer.
If ExpectData is identical to the
received data, the function returns TRUE.
*/
bool SendReceiveAndCompare(
InterfaceAbstraction * pSink,
uint8_t *pSendBuffer,
size_t nSendBuffSize,
InterfaceAbstraction * pSource,
uint8_t *pExpectedBuffer,
size_t nExpectedBuffSize);
/**
@brief
This function creates a bypass rule within a table in the Routing block
@param [in] pRouting - pointer to the Routing Class
@param [in] eIP - Type of Packet to load (IPA_IP_v4 / IPA_IP_v6)
@param [in] pTableName - pointer to the Table's Name.
@param [in] eRuleDestination - destination of the bypass rule.
@param [in] uHeaderHandle -
handle to the Header that should be Added (0 should be used as default).
@param [out] pTableHdl -
pointer to the table Handle (Can be Null)
@return boolean indicating whether
the operation completed successfully or not.
@details
This function creates bypass rule within a table in the Routing block.
*/
bool CreateBypassRoutingTable(
RoutingDriverWrapper * pRouting,
enum ipa_ip_type eIP,
const char *pTableName,
enum ipa_client_type eRuleDestination,
uint32_t uHeaderHandle,
uint32_t *pTableHdl);
/**
@brief
This function creates a bypass rule within a table in the Routing block
@param [in] pRouting - pointer to the Routing Class
@param [in] eIP - Type of Packet to load (IPA_IP_v4 / IPA_IP_v6)
@param [in] pTableName - pointer to the Table's Name.
@param [in] eRuleDestination - destination of the bypass rule.
@param [in] uHeaderHandle -
handle to the Header that should be Added (0 should be used as default).
@param [out] pTableHdl -
pointer to the table Handle (Can be Null)
@return boolean indicating whether
the operation completed successfully or not.
@details
This function creates bypass rule within a table in the Routing block.
*/
bool CreateBypassRoutingTable_v2(
RoutingDriverWrapper * pRouting,
enum ipa_ip_type eIP,
const char *pTableName,
enum ipa_client_type eRuleDestination,
uint32_t uHeaderHandle,
uint32_t *pTableHdl,
uint8_t uClsAggrIrqMod);
/**
@brief
Configures the sytem to one of the pre-determined
configurations.
@param [in] testConfiguration - Configuration number
@param [in] params - additional parameters
@return void
@details
Writes the configuration index to /dev/ipa_test. In case
the system has already been configured, returns.
*/
void ConfigureScenario(int testConfiguration);
void ConfigureScenario(int testConfiguration, const char *params);
int GenericConfigureScenario(struct ipa_test_config_header *header,
bool isUlso=false);
int GenericConfigureScenarioDestory(void);
int ConfigureSystem(int testConfiguration, int fd);
int ConfigureSystem(int testConfiguration, int fd, const char *params);
void prepare_channel_struct(struct ipa_channel_config *channel,
int index,
enum ipa_client_type client,
void *cfg,
size_t config_size,
bool en_status = 0);
void prepare_header_struct(struct ipa_test_config_header *header,
struct ipa_channel_config **from,
struct ipa_channel_config **to);
/**
@brief
Compares two data buffers.
@param [in] goldenBuffer - Pointer to the first data
buffer
@param [in] goldenSize - First data buffer size
@param [in] receivedBuffer - Pointer to the second data
buffer
@param [in] receivedSize - Second data buffer size
@return True - the buffers are identical. False
otherwise.
@details
In case the sizes are differnt, false is returned.
*/
bool CompareResultVsGolden(
unsigned char *goldenBuffer,
unsigned int goldenSize,
unsigned char *receivedBuffer,
unsigned int receivedSize);
/**
@brief
Compares two data buffers considering the returned status.
@param [in] goldenBuffer - Pointer to the first data
buffer
@param [in] goldenSize - First data buffer size
@param [in] receivedBuffer - Pointer to the second data
buffer
@param [in] receivedSize - Second data buffer size
@return True - the buffers are identical. False
otherwise.
@details
In case the sizes are differnt, false is returned.
*/
bool CompareResultVsGolden_w_Status(
Byte *goldenBuffer,
unsigned int goldenSize,
Byte *receivedBuffer,
unsigned int receivedSize);
/**
@brief
Loads a file to memory
@param [in] fileFullPath
@param [inout] sizeLoaded - returns the number of bytes
which were read from the file
@return Address of the loaded data buffer
@details
Allocates memory by itself, user should free the memory
*/
unsigned char *LoadFileToMemory(
const string & fileFullPath,
unsigned int *sizeLoaded);
/**
@brief
Checks whether a file exists on disk
@param [in] filename
@return True if the file exists, false otherwise.
@details
*/
bool file_exists(const char *filename);
/**
@brief
Prints a data buffer.
@param [in] data - Pointer to the data
@param [in] size - How many bytes to print
@return void
@details
*/
void print_buff(void *data, size_t size);
void add_buff(uint8_t *data, size_t size, uint8_t val);
/**
@brief
Performes ep control of a specific endpoint.
@param [in] ep_ctrl - Pointer to ipa_test_ep_ctrl struct with
the data of the requested operation
@return bool
@details
Suspend\Unsuspends\Delays\resumes an endpoint.
*/
bool configure_ep_ctrl(struct ipa_test_ep_ctrl *ep_ctrl);
/**
@brief
Performes holb config of a specific pipe.
* @param [in] test_holb_config - Pointer to
* ipa_test_holb_config struct with the data of
* the requested operation
@return bool
@details
Configures HOLB parameters on a pipe.
*/
bool configure_holb(struct ipa_test_holb_config *test_holb_config);
/**
@brief
Register an alternative suspend handler
@param [in] deferred_flag - should the handler execute in defer mode
@param [in] reg - register or unregister the suspend handler
@param [in] DevNum - the index of the ep that the handler is registered to
@return bool
@details
Register the test framework suspend handler for a given endpoint
*/
bool RegSuspendHandler(bool deferred_flag, bool reg, int DevNum);
class Eth2Helper {
public:
static const Byte m_ETH2_IP4_HDR[ETH_HLEN];
static bool LoadEth2IP4Header(
uint8_t *pBuffer,
size_t bufferSize,
size_t *pLen);
static bool LoadEth2IP6Header(
uint8_t *pBuffer,
size_t bufferSize,
size_t *pLen);
static bool LoadEth2IP4Packet(
uint8_t *pBuffer,
size_t bufferSize,
size_t *pLen);
static bool LoadEth2IP6Packet(
uint8_t *pBuffer,
size_t bufferSize,
size_t *pLen);
};
class WlanHelper {
public:
static const Byte m_WLAN_HDR[WLAN_HDR_SIZE];
static bool LoadWlanHeader(
uint8_t *pBuffer,
size_t bufferSize,
size_t *pLen);
static bool LoadWlanEth2IP4Header(
uint8_t *pBuffer,
size_t bufferSize,
size_t *pLen);
static bool LoadWlanEth2IP6Header(
uint8_t *pBuffer,
size_t bufferSize,
size_t *pLen);
static bool LoadWlanEth2IP4Packet(
uint8_t *pBuffer,
size_t bufferSize,
size_t *pLen);
static bool LoadWlanEth2IP4PacketByLength(
uint8_t *pBuffer,
size_t bufferSize,
size_t len,
uint8_t padValue);
static bool LoadWlanEth2IP6Packet(
uint8_t *pBuffer,
size_t bufferSize,
size_t *pLen);
};
#pragma pack(push) /* push current alignment to stack */
#pragma pack(1) /* set alignment to 1 byte boundary */
struct RndisHeader {
uint32_t MessageType;
uint32_t MessageLength;
uint32_t DataOffset;
uint32_t DataLength;
uint32_t OOBDataOffset;
uint32_t OOBDataLength;
uint32_t OOBNumber;
uint32_t PacketInfoOffset;
uint32_t PacketInfoLength;
uint64_t Reserved;
};
struct RndisEtherHeader {
struct RndisHeader rndisHeader;
struct ethhdr etherHeader;
};
#pragma pack(pop) /* restore original alignment from stack */
class RNDISAggregationHelper {
public:
static const size_t RNDIS_AGGREGATION_BYTE_LIMIT = 1024;
static bool LoadRNDISHeader(
uint8_t *pBuffer,
size_t bufferSize,
uint32_t messageLength,
size_t *pLen);
static bool LoadRNDISEth2IP4Header(
uint8_t *pBuffer,
size_t bufferSize,
uint32_t messageLength,
size_t *pLen);
static bool LoadRNDISPacket(
enum ipa_ip_type eIP,
uint8_t *pBuffer,
size_t &nMaxSize);
static bool LoadEtherPacket(
enum ipa_ip_type eIP,
uint8_t *pBuffer,
size_t &nMaxSize);
static bool ComparePackets(
Byte *pPacket1,
int pPacket1Size,
Byte *pPacket2,
int pPacket2Size);
static bool CompareEthervsRNDISPacket(
Byte *pIPPacket,
size_t ipPacketSize,
Byte *pRNDISPacket,
size_t rndisPacketSize);
static bool CompareIPvsRNDISPacket(
Byte *pIPPacket,
int ipPacketSize,
Byte *pRNDISPacket,
size_t rndisPacketSize);
};
enum ipa_nat_en_type {
IPA_BYPASS_NAT,
IPA_SRC_NAT,
IPA_DST_NAT,
};
enum ipa_ipv6ct_en_type {
IPA_BYPASS_IPV6CT,
IPA_ENABLE_IPV6CT,
};
enum ipa_mode_type {
IPA_BASIC,
IPA_ENABLE_FRAMING_HDLC,
IPA_ENABLE_DEFRAMING_HDLC,
IPA_DMA,
};
enum ipa_aggr_en_type {
IPA_BYPASS_AGGR,
IPA_ENABLE_AGGR,
IPA_ENABLE_DEAGGR,
};
enum ipa_aggr_type {
IPA_MBIM_16 = 0,
IPA_HDLC = 1,
IPA_TLP = 2,
IPA_RNDIS = 3,
IPA_GENERIC = 4,
IPA_QCMAP = 6,
};
enum ipa_aggr_mode {
IPA_MBIM_AGGR,
IPA_QCNCM_AGGR,
};
enum hdr_total_len_or_pad_type {
IPA_HDR_PAD = 0,
IPA_HDR_TOTAL_LEN = 1,
};
struct ipa_ep_cfg_nat {
enum ipa_nat_en_type nat_en;
bool nat_exc_suppress;
};
struct ipa_ep_cfg_conn_track {
enum ipa_ipv6ct_en_type conn_track_en;
};
struct ipa_ep_cfg_hdr {
uint32_t hdr_len;
uint32_t hdr_ofst_metadata_valid;
uint32_t hdr_ofst_metadata;
uint32_t hdr_additional_const_len;
uint32_t hdr_ofst_pkt_size_valid;
uint32_t hdr_ofst_pkt_size;
uint32_t hdr_a5_mux;
uint32_t hdr_remove_additional;
uint32_t hdr_metadata_reg_valid;
};
struct ipa_ep_cfg_hdr_ext {
uint32_t hdr_pad_to_alignment;
uint32_t hdr_total_len_or_pad_offset;
bool hdr_payload_len_inc_padding;
enum hdr_total_len_or_pad_type hdr_total_len_or_pad;
bool hdr_total_len_or_pad_valid;
bool hdr_little_endian;
struct ipa_ep_cfg_hdr *hdr;
bool hdr_bytes_to_remove_valid;
uint32_t hdr_bytes_to_remove;
};
struct ipa_ep_cfg_mode {
enum ipa_mode_type mode;
enum ipa_client_type dst;
};
struct ipa_ep_cfg_aggr {
enum ipa_aggr_en_type aggr_en;
enum ipa_aggr_type aggr;
uint32_t aggr_byte_limit;
uint32_t aggr_time_limit;
uint32_t aggr_pkt_limit;
uint32_t aggr_hard_byte_limit_en;
bool aggr_sw_eof_active;
uint8_t pulse_generator;
uint8_t scaled_time;
bool aggr_coal_l2;
};
struct ipa_ep_cfg_route {
uint32_t rt_tbl_hdl;
};
struct ipa_ep_cfg_deaggr {
uint32_t deaggr_hdr_len;
bool syspipe_err_detection;
bool packet_offset_valid;
uint32_t packet_offset_location;
bool ignore_min_pkt_err;
uint32_t max_packet_len;
};
enum ipa_cs_offload {
IPA_DISABLE_CS_OFFLOAD,
IPA_ENABLE_CS_OFFLOAD_UL,
IPA_ENABLE_CS_OFFLOAD_DL,
IPA_CS_RSVD
};
struct ipa_ep_cfg_cfg {
bool frag_offload_en;
enum ipa_cs_offload cs_offload_en;
uint8_t cs_metadata_hdr_offset;
uint8_t gen_qmb_master_sel;
uint8_t tx_instance;
bool pipe_replicate_en;
};
struct ipa_ep_cfg_metadata_mask {
uint32_t metadata_mask;
};
struct ipa_ep_cfg_metadata {
uint32_t qmap_id;
};
struct ipa_ep_cfg_seq {
bool set_dynamic;
int seq_type;
};
struct ipa_ep_cfg_ulso {
int ipid_min_max_idx;
bool is_ulso_pipe;
};
struct ipa_ep_cfg_holb {
uint32_t tmr_val;
uint32_t base_val;
uint32_t scale;
uint16_t en;
uint8_t pulse_generator;
uint8_t scaled_time;
};
struct ipa_pkt_init_ex_hdr_ofst_set {
char name[IPA_RESOURCE_NAME_MAX];
enum ipa_client_type ep;
};
struct ipa_ep_cfg_prod_cfg {
uint8_t tx_instance;
bool tsp_enable;
bool max_output_size_drop_enable;
uint8_t tsp_idx;
uint8_t max_output_size;
uint8_t egress_tc_lowest;
uint8_t egress_tc_highest;
};
/*
* This struct is a mirroring of the ipa struct
* the test module expect to get from user-space the
* exact same struct as IPA driver defined.
* In case of any change to IPA driver struct
* this struct should be updated as well!
*/
struct test_ipa_ep_cfg {
struct ipa_ep_cfg_nat nat;
struct ipa_ep_cfg_conn_track conn_track;
struct ipa_ep_cfg_hdr hdr;
struct ipa_ep_cfg_hdr_ext hdr_ext;
struct ipa_ep_cfg_mode mode;
struct ipa_ep_cfg_aggr aggr;
struct ipa_ep_cfg_deaggr deaggr;
struct ipa_ep_cfg_route route;
struct ipa_ep_cfg_cfg cfg;
struct ipa_ep_cfg_metadata_mask metadata_mask;
struct ipa_ep_cfg_metadata meta;
struct ipa_ep_cfg_seq seq;
struct ipa_ep_cfg_ulso ulso;
struct ipa_ep_cfg_prod_cfg prod_cfg;
};
/*! @brief Struct for the IPAv3.0 UL packet status header */
struct ipa3_hw_pkt_status {
uint64_t status_opcode:8;
uint64_t exception:8;
uint64_t status_mask:16;
uint64_t pkt_len:16;
uint64_t endp_src_idx:5;
uint64_t reserved_1:3;
uint64_t endp_dest_idx:5;
uint64_t reserved_2:3;
uint64_t metadata:32;
uint64_t filt_local:1;
uint64_t filt_hash:1;
uint64_t filt_global:1;
uint64_t ret_hdr:1;
uint64_t filt_rule_id:10;
uint64_t route_local:1;
uint64_t route_hash:1;
uint64_t ucp:1;
uint64_t route_tbl_idx:5;
uint64_t route_rule_id:10;
uint64_t nat_hit:1;
uint64_t nat_tbl_idx:13;
uint64_t nat_type:2;
uint64_t tag:48;
uint64_t seq_num:8;
uint64_t time_day_ctr:24;
uint64_t hdr_local:1;
uint64_t hdr_offset:10;
uint64_t frag_hit:1;
uint64_t frag_rule:4;
uint64_t reserved_4:16;
};
struct ipa3_hw_pkt_status_hw_v5_0 {
uint64_t status_opcode : 8;
uint64_t exception : 8;
uint64_t status_mask : 16;
uint64_t pkt_len : 16;
uint64_t endp_src_idx : 8;
uint64_t reserved_1 : 3;
uint64_t route_local : 1;
uint64_t route_hash : 1;
uint64_t reserved_2 : 3;
uint64_t metadata : 32;
uint64_t filt_local : 1;
uint64_t filt_hash : 1;
uint64_t filt_global : 1;
uint64_t ret_hdr : 1;
uint64_t filt_rule_id : 10;
uint64_t route_tbl_idx : 8;
uint64_t route_rule_id : 10;
uint64_t nat_hit : 1;
uint64_t nat_tbl_idx : 13;
uint64_t nat_type : 2;
uint64_t tag : 48;
uint64_t seq_num : 8;
uint64_t time_day_ctr : 24;
uint64_t hdr_local : 1;
uint64_t hdr_offset : 10;
uint64_t frag_hit : 1;
uint64_t frag_rule : 4;
uint64_t endp_dest_idx : 8;
uint64_t reserved_4 : 7;
uint64_t ucp : 1;
};
struct ipa3_hw_pkt_status_hw_v5_5 {
uint64_t status_opcode:8;
uint64_t exception:8;
uint64_t status_mask:16;
uint64_t pkt_len:16;
uint64_t endp_src_idx:8;
uint64_t reserved_1:3;
uint64_t rt_local:1;
uint64_t rt_hash:1;
uint64_t reserved_2:3;
uint64_t metadata:32;
uint64_t flt_local:1;
uint64_t flt_hash:1;
uint64_t flt_global:1;
uint64_t flt_ret_hdr:1;
uint64_t flt_rule_id:10;
uint64_t rt_tbl_idx:8;
uint64_t rt_rule_id:10;
uint64_t nat_hit:1;
uint64_t nat_entry_idx:13;
uint64_t nat_type:2;
uint64_t tag_info:36;
uint64_t egress_tc:6;
uint64_t ingress_tc:6;
uint64_t seq_num:8;
uint64_t time_of_day_ctr:24;
uint64_t hdr_local:1;
uint64_t hdr_offset:10;
uint64_t frag_hit:1;
uint64_t frag_rule:4;
uint64_t endp_dest_idx:8;
uint64_t hw_specific:4;
uint64_t nat_exc_suppress:1;
uint64_t tsp:1;
uint64_t ttl_dec:1;
uint64_t ucp:1;
};
#endif