table of contents
| rte_pmd_cnxk.h(3) | DPDK | rte_pmd_cnxk.h(3) |
NAME¶
rte_pmd_cnxk.h
SYNOPSIS¶
#include <rte_compat.h>
#include <rte_ethdev.h>
#include <rte_ether.h>
#include <rte_security.h>
Enumerations¶
enum rte_pmd_cnxk_sec_action_alg {
RTE_PMD_CNXK_SEC_ACTION_ALG0, RTE_PMD_CNXK_SEC_ACTION_ALG1,
RTE_PMD_CNXK_SEC_ACTION_ALG2, RTE_PMD_CNXK_SEC_ACTION_ALG3,
RTE_PMD_CNXK_SEC_ACTION_ALG4 }
Functions¶
__rte_experimental int rte_pmd_cnxk_hw_sa_read (void
*device, struct rte_security_session *sess, void *data, uint32_t len)
__rte_experimental int rte_pmd_cnxk_hw_sa_write (void *device, struct
rte_security_session *sess, void *data, uint32_t len)
__rte_experimental void * rte_pmd_cnxk_inl_ipsec_res (struct
rte_mbuf *mbuf)
Detailed Description¶
CNXK PMD specific functions.
Definition in file rte_pmd_cnxk.h.
Enumeration Type Documentation¶
enum rte_pmd_cnxk_sec_action_alg¶
Algorithm type to be used with security action to calculate SA_index
Enumerator
- RTE_PMD_CNXK_SEC_ACTION_ALG0
- No swizzling of SPI bits into SA index. SA_index is from SA_XOR if enabled.
- RTE_PMD_CNXK_SEC_ACTION_ALG1
- SPI<31:28> has 4 upper bits which segment the sequence number space. Initial SA_index is from SA_XOR if enabled. SA_alg = { 4'b0, SA_mcam[27:0] + SPI[31:28]}
- RTE_PMD_CNXK_SEC_ACTION_ALG2
- SPI<27:25> segment the sequence number space. Initial SA_index is from SA_XOR if enabled. SA_alg = { 7'b0, SA_mcam[24:0] + SPI[27:25]}
- RTE_PMD_CNXK_SEC_ACTION_ALG3
- SPI<28:25> segment the sequence number space. Initial SA_index is from SA_XOR if enabled. SA_alg = { 7'b0, SA_mcam[24:0] + SPI[28:25]}
- RTE_PMD_CNXK_SEC_ACTION_ALG4
- The inbound SPI maybe 'random', therefore we want the MCAM to be capable of remapping the SPI to an arbitrary SA_index. SPI to SA is done using a lookup in NIX/NPC cam entry with key as SPI, MATCH_ID, LFID.
Definition at line 22 of file rte_pmd_cnxk.h.
Function Documentation¶
__rte_experimental int rte_pmd_cnxk_hw_sa_read (void * device, struct rte_security_session * sess, void * data, uint32_t len)¶
Read HW SA context from session.
Parameters
sess Handle of the security session.
data Destination pointer to copy SA context for application.
len Length of SA context to copy into data parameter.
Returns
__rte_experimental int rte_pmd_cnxk_hw_sa_write (void * device, struct rte_security_session * sess, void * data, uint32_t len)¶
Write HW SA context to session.
Parameters
sess Handle of the security session.
data Source data pointer from application to copy SA context into session.
len Length of SA context to copy from data parameter.
Returns
__rte_experimental void* rte_pmd_cnxk_inl_ipsec_res (struct rte_mbuf * mbuf)¶
Get pointer to CPT result info for inline inbound processed pkt.
It is recommended to use this API only when mbuf indicates packet was processed with inline IPsec and there was a failure with the same i.e mbuf->ol_flags indicates (RTE_MBUF_F_RX_SEC_OFFLOAD | RTE_MBUF_F_RX_SEC_OFFLOAD_FAILED).
Parameters
Returns
- Pointer to mbuf location where CPT result info is stored on success.
- NULL on failure.
Author¶
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| Fri Dec 15 2023 | Version 23.11.0 |