numam-dpdk/drivers/crypto/caam_jr/caam_jr_desc.h

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/* SPDX-License-Identifier: BSD-3-Clause
* Copyright 2017-2018 NXP
*/
#ifndef CAAM_JR_DESC_H
#define CAAM_JR_DESC_H
#define CMD_HDR_CTYPE_SD 0x16
#define CMD_HDR_CTYPE_JD 0x17
/* The maximum size of a SEC descriptor, in WORDs (32 bits). */
#define MAX_DESC_SIZE_WORDS 64
/*
* Macros manipulating descriptors
*/
/* Macro for setting the SD pointer in a JD. Common for all protocols
* supported by the SEC driver.
*/
#define SEC_JD_SET_SD(descriptor, ptr, len) { \
(descriptor)->sd_ptr = (ptr); \
(descriptor)->deschdr.command.jd.shr_desc_len = (len); \
}
/* Macro for setting a pointer to the job which this descriptor processes.
* It eases the lookup procedure for identifying the descriptor that has
* completed.
*/
#define SEC_JD_SET_JOB_PTR(descriptor, ptr) \
((descriptor)->job_ptr = (ptr))
/* Macro for setting up a JD. The structure of the JD is common across all
* supported protocols, thus its structure is identical.
*/
#define SEC_JD_INIT(descriptor) ({ \
/* CTYPE = job descriptor \
* RSMS, DNR = 0
* ONE = 1
* Start Index = 0
* ZRO,TD, MTD = 0
* SHR = 1 (there's a shared descriptor referenced
* by this job descriptor,pointer in next word)
* REO = 1 (execute job descr. first, shared descriptor
* after)
* SHARE = DEFER
* Descriptor Length = 0 ( to be completed @ runtime ) */ \
(descriptor)->deschdr.command.word = 0xB0801C0D; \
/*
* CTYPE = SEQ OUT command * Scater Gather Flag = 0
* (can be updated @ runtime) PRE = 0 * EXT = 1
* (data length is in next word, following the * command)
* RTO = 0 */ \
(descriptor)->seq_out.command.word = 0xF8400000; /**/ \
/*
* CTYPE = SEQ IN command
* Scater Gather Flag = 0 (can be updated @ runtime)
* PRE = 0
* EXT = 1 ( data length is in next word, following the
* command)
* RTO = 0 */ \
(descriptor)->seq_in.command.word = 0xF0400000; /**/ \
/*
* In order to be compatible with QI scenarios, the DPOVRD value
* loaded must be formated like this:
* DPOVRD_EN (1b) | Res| DPOVRD Value (right aligned). */ \
(descriptor)->load_dpovrd.command.word = 0x16870004; \
/* By default, DPOVRD mechanism is disabled, thus the value to be
* LOAD-ed through the above descriptor command will be
* 0x0000_0000. */ \
(descriptor)->dpovrd = 0x00000000; \
})
/* Macro for setting the pointer to the input buffer in the JD, according to
* the parameters set by the user in the ::sec_packet_t structure.
*/
#define SEC_JD_SET_IN_PTR(descriptor, phys_addr, offset, length) { \
(descriptor)->seq_in_ptr = (phys_addr) + (offset); \
(descriptor)->in_ext_length = (length); \
}
/* Macro for setting the pointer to the output buffer in the JD, according to
* the parameters set by the user in the ::sec_packet_t structure.
*/
#define SEC_JD_SET_OUT_PTR(descriptor, phys_addr, offset, length) { \
(descriptor)->seq_out_ptr = (phys_addr) + (offset); \
(descriptor)->out_ext_length = (length); \
}
/* Macro for setting the Scatter-Gather flag in the SEQ IN command. Used in
* case the input buffer is split in multiple buffers, according to the user
* specification.
*/
#define SEC_JD_SET_SG_IN(descriptor) \
((descriptor)->seq_in.command.field.sgf = 1)
/* Macro for setting the Scatter-Gather flag in the SEQ OUT command. Used in
* case the output buffer is split in multiple buffers, according to the user
* specification.
*/
#define SEC_JD_SET_SG_OUT(descriptor) \
((descriptor)->seq_out.command.field.sgf = 1)
#define SEC_JD_SET_DPOVRD(descriptor) \
/* Macro for retrieving a descriptor's length. Works for both SD and JD. */
#define SEC_GET_DESC_LEN(descriptor) \
(((struct descriptor_header_s *)(descriptor))->command.sd.ctype == \
CMD_HDR_CTYPE_SD ? ((struct descriptor_header_s *) \
(descriptor))->command.sd.desclen : \
((struct descriptor_header_s *)(descriptor))->command.jd.desclen)
/* Helper macro for dumping the hex representation of a descriptor */
#define SEC_DUMP_DESC(descriptor) { \
int __i; \
CAAM_JR_INFO("Des@ 0x%08x\n", (uint32_t)((uint32_t *)(descriptor)));\
for (__i = 0; \
__i < SEC_GET_DESC_LEN(descriptor); \
__i++) { \
printf("0x%08x: 0x%08x\n", \
(uint32_t)(((uint32_t *)(descriptor)) + __i), \
*(((uint32_t *)(descriptor)) + __i)); \
} \
}
/* Union describing a descriptor header.
*/
struct descriptor_header_s {
union {
uint32_t word;
struct {
/* 4 */ unsigned int ctype:5;
/* 5 */ unsigned int res1:2;
/* 7 */ unsigned int dnr:1;
/* 8 */ unsigned int one:1;
/* 9 */ unsigned int res2:1;
/* 10 */ unsigned int start_idx:6;
/* 16 */ unsigned int res3:2;
/* 18 */ unsigned int cif:1;
/* 19 */ unsigned int sc:1;
/* 20 */ unsigned int pd:1;
/* 21 */ unsigned int res4:1;
/* 22 */ unsigned int share:2;
/* 24 */ unsigned int res5:2;
/* 26 */ unsigned int desclen:6;
} sd;
struct {
/* TODO only below struct members are corrected,
* all others also need to be reversed please verify it
*/
/* 0 */ unsigned int desclen:7;
/* 7 */ unsigned int res4:1;
/* 8 */ unsigned int share:3;
/* 11 */ unsigned int reo:1;
/* 12 */ unsigned int shr:1;
/* 13 */ unsigned int mtd:1;
/* 14 */ unsigned int td:1;
/* 15 */ unsigned int zero:1;
/* 16 */ unsigned int shr_desc_len:6;
/* 22 */ unsigned int res2:1;
/* 23 */ unsigned int one:1;
/* 24 */ unsigned int dnr:1;
/* 25 */ unsigned int rsms:1;
/* 26 */ unsigned int res1:1;
/* 27 */ unsigned int ctype:5;
} jd;
} __rte_packed command;
} __rte_packed;
/* Union describing a KEY command in a descriptor.
*/
struct key_command_s {
union {
uint32_t word;
struct {
unsigned int ctype:5;
unsigned int cls:2;
unsigned int sgf:1;
unsigned int imm:1;
unsigned int enc:1;
unsigned int nwb:1;
unsigned int ekt:1;
unsigned int kdest:4;
unsigned int tk:1;
unsigned int rsvd1:5;
unsigned int length:10;
} __rte_packed field;
} __rte_packed command;
} __rte_packed;
/* Union describing a PROTOCOL command
* in a descriptor.
*/
struct protocol_operation_command_s {
union {
uint32_t word;
struct {
unsigned int ctype:5;
unsigned int optype:3;
unsigned char protid;
unsigned short protinfo;
} __rte_packed field;
} __rte_packed command;
} __rte_packed;
/* Union describing a SEQIN command in a
* descriptor.
*/
struct seq_in_command_s {
union {
uint32_t word;
struct {
unsigned int ctype:5;
unsigned int res1:1;
unsigned int inl:1;
unsigned int sgf:1;
unsigned int pre:1;
unsigned int ext:1;
unsigned int rto:1;
unsigned int rjd:1;
unsigned int res2:4;
unsigned int length:16;
} field;
} __rte_packed command;
} __rte_packed;
/* Union describing a SEQOUT command in a
* descriptor.
*/
struct seq_out_command_s {
union {
uint32_t word;
struct {
unsigned int ctype:5;
unsigned int res1:2;
unsigned int sgf:1;
unsigned int pre:1;
unsigned int ext:1;
unsigned int rto:1;
unsigned int res2:5;
unsigned int length:16;
} field;
} __rte_packed command;
} __rte_packed;
struct load_command_s {
union {
uint32_t word;
struct {
unsigned int ctype:5;
unsigned int class:2;
unsigned int sgf:1;
unsigned int imm:1;
unsigned int dst:7;
unsigned char offset;
unsigned char length;
} fields;
} __rte_packed command;
} __rte_packed;
/* Structure encompassing a general shared descriptor of maximum
* size (64 WORDs). Usually, other specific shared descriptor structures
* will be type-casted to this one
* this one.
*/
struct sec_sd_t {
uint32_t rsvd[MAX_DESC_SIZE_WORDS];
} __rte_packed __rte_aligned(64);
/* Structure encompassing a job descriptor which processes
* a single packet from a context. The job descriptor references
* a shared descriptor from a SEC context.
*/
struct sec_job_descriptor_t {
struct descriptor_header_s deschdr;
dma_addr_t sd_ptr;
struct seq_out_command_s seq_out;
dma_addr_t seq_out_ptr;
uint32_t out_ext_length;
struct seq_in_command_s seq_in;
dma_addr_t seq_in_ptr;
uint32_t in_ext_length;
struct load_command_s load_dpovrd;
uint32_t dpovrd;
} __rte_packed __rte_aligned(64);
#endif