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7e0880b9fb
Offload split key generation in CAAM engine, using DKP. DKP is supported starting with Era 6. Note that the way assoclen is transmitted from the job descriptor to the shared descriptor changes - DPOVRD register is used instead of MATH3 (where available), since DKP protocol thrashes the MATH registers. The replacement of MDHA split key generation with DKP has the side effect of the crypto engine writing the authentication key, and thus the DMA mapping direction for the buffer holding the key has to change from DMA_TO_DEVICE to DMA_BIDIRECTIONAL. There are two cases: -key is inlined in descriptor - descriptor buffer mapping changes -key is referenced - key buffer mapping changes Signed-off-by: Horia Geantă <horia.geanta@nxp.com> Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
541 lines
17 KiB
C
541 lines
17 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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/*
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* caam descriptor construction helper functions
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*
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* Copyright 2008-2012 Freescale Semiconductor, Inc.
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*/
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#ifndef DESC_CONSTR_H
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#define DESC_CONSTR_H
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#include "desc.h"
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#include "regs.h"
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#define IMMEDIATE (1 << 23)
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#define CAAM_CMD_SZ sizeof(u32)
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#define CAAM_PTR_SZ sizeof(dma_addr_t)
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#define CAAM_DESC_BYTES_MAX (CAAM_CMD_SZ * MAX_CAAM_DESCSIZE)
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#define DESC_JOB_IO_LEN (CAAM_CMD_SZ * 5 + CAAM_PTR_SZ * 3)
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#ifdef DEBUG
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#define PRINT_POS do { printk(KERN_DEBUG "%02d: %s\n", desc_len(desc),\
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&__func__[sizeof("append")]); } while (0)
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#else
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#define PRINT_POS
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#endif
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#define SET_OK_NO_PROP_ERRORS (IMMEDIATE | LDST_CLASS_DECO | \
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LDST_SRCDST_WORD_DECOCTRL | \
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(LDOFF_CHG_SHARE_OK_NO_PROP << \
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LDST_OFFSET_SHIFT))
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#define DISABLE_AUTO_INFO_FIFO (IMMEDIATE | LDST_CLASS_DECO | \
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LDST_SRCDST_WORD_DECOCTRL | \
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(LDOFF_DISABLE_AUTO_NFIFO << LDST_OFFSET_SHIFT))
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#define ENABLE_AUTO_INFO_FIFO (IMMEDIATE | LDST_CLASS_DECO | \
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LDST_SRCDST_WORD_DECOCTRL | \
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(LDOFF_ENABLE_AUTO_NFIFO << LDST_OFFSET_SHIFT))
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extern bool caam_little_end;
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static inline int desc_len(u32 * const desc)
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{
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return caam32_to_cpu(*desc) & HDR_DESCLEN_MASK;
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}
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static inline int desc_bytes(void * const desc)
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{
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return desc_len(desc) * CAAM_CMD_SZ;
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}
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static inline u32 *desc_end(u32 * const desc)
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{
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return desc + desc_len(desc);
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}
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static inline void *sh_desc_pdb(u32 * const desc)
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{
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return desc + 1;
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}
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static inline void init_desc(u32 * const desc, u32 options)
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{
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*desc = cpu_to_caam32((options | HDR_ONE) + 1);
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}
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static inline void init_sh_desc(u32 * const desc, u32 options)
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{
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PRINT_POS;
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init_desc(desc, CMD_SHARED_DESC_HDR | options);
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}
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static inline void init_sh_desc_pdb(u32 * const desc, u32 options,
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size_t pdb_bytes)
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{
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u32 pdb_len = (pdb_bytes + CAAM_CMD_SZ - 1) / CAAM_CMD_SZ;
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init_sh_desc(desc, (((pdb_len + 1) << HDR_START_IDX_SHIFT) + pdb_len) |
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options);
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}
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static inline void init_job_desc(u32 * const desc, u32 options)
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{
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init_desc(desc, CMD_DESC_HDR | options);
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}
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static inline void init_job_desc_pdb(u32 * const desc, u32 options,
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size_t pdb_bytes)
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{
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u32 pdb_len = (pdb_bytes + CAAM_CMD_SZ - 1) / CAAM_CMD_SZ;
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init_job_desc(desc, (((pdb_len + 1) << HDR_START_IDX_SHIFT)) | options);
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}
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static inline void append_ptr(u32 * const desc, dma_addr_t ptr)
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{
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dma_addr_t *offset = (dma_addr_t *)desc_end(desc);
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*offset = cpu_to_caam_dma(ptr);
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(*desc) = cpu_to_caam32(caam32_to_cpu(*desc) +
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CAAM_PTR_SZ / CAAM_CMD_SZ);
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}
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static inline void init_job_desc_shared(u32 * const desc, dma_addr_t ptr,
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int len, u32 options)
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{
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PRINT_POS;
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init_job_desc(desc, HDR_SHARED | options |
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(len << HDR_START_IDX_SHIFT));
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append_ptr(desc, ptr);
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}
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static inline void append_data(u32 * const desc, const void *data, int len)
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{
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u32 *offset = desc_end(desc);
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if (len) /* avoid sparse warning: memcpy with byte count of 0 */
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memcpy(offset, data, len);
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(*desc) = cpu_to_caam32(caam32_to_cpu(*desc) +
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(len + CAAM_CMD_SZ - 1) / CAAM_CMD_SZ);
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}
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static inline void append_cmd(u32 * const desc, u32 command)
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{
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u32 *cmd = desc_end(desc);
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*cmd = cpu_to_caam32(command);
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(*desc) = cpu_to_caam32(caam32_to_cpu(*desc) + 1);
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}
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#define append_u32 append_cmd
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static inline void append_u64(u32 * const desc, u64 data)
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{
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u32 *offset = desc_end(desc);
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/* Only 32-bit alignment is guaranteed in descriptor buffer */
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if (caam_little_end) {
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*offset = cpu_to_caam32(lower_32_bits(data));
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*(++offset) = cpu_to_caam32(upper_32_bits(data));
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} else {
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*offset = cpu_to_caam32(upper_32_bits(data));
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*(++offset) = cpu_to_caam32(lower_32_bits(data));
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}
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(*desc) = cpu_to_caam32(caam32_to_cpu(*desc) + 2);
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}
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/* Write command without affecting header, and return pointer to next word */
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static inline u32 *write_cmd(u32 * const desc, u32 command)
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{
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*desc = cpu_to_caam32(command);
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return desc + 1;
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}
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static inline void append_cmd_ptr(u32 * const desc, dma_addr_t ptr, int len,
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u32 command)
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{
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append_cmd(desc, command | len);
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append_ptr(desc, ptr);
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}
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/* Write length after pointer, rather than inside command */
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static inline void append_cmd_ptr_extlen(u32 * const desc, dma_addr_t ptr,
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unsigned int len, u32 command)
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{
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append_cmd(desc, command);
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if (!(command & (SQIN_RTO | SQIN_PRE)))
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append_ptr(desc, ptr);
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append_cmd(desc, len);
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}
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static inline void append_cmd_data(u32 * const desc, const void *data, int len,
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u32 command)
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{
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append_cmd(desc, command | IMMEDIATE | len);
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append_data(desc, data, len);
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}
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#define APPEND_CMD_RET(cmd, op) \
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static inline u32 *append_##cmd(u32 * const desc, u32 options) \
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{ \
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u32 *cmd = desc_end(desc); \
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PRINT_POS; \
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append_cmd(desc, CMD_##op | options); \
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return cmd; \
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}
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APPEND_CMD_RET(jump, JUMP)
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APPEND_CMD_RET(move, MOVE)
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static inline void set_jump_tgt_here(u32 * const desc, u32 *jump_cmd)
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{
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*jump_cmd = cpu_to_caam32(caam32_to_cpu(*jump_cmd) |
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(desc_len(desc) - (jump_cmd - desc)));
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}
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static inline void set_move_tgt_here(u32 * const desc, u32 *move_cmd)
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{
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u32 val = caam32_to_cpu(*move_cmd);
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val &= ~MOVE_OFFSET_MASK;
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val |= (desc_len(desc) << (MOVE_OFFSET_SHIFT + 2)) & MOVE_OFFSET_MASK;
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*move_cmd = cpu_to_caam32(val);
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}
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#define APPEND_CMD(cmd, op) \
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static inline void append_##cmd(u32 * const desc, u32 options) \
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{ \
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PRINT_POS; \
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append_cmd(desc, CMD_##op | options); \
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}
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APPEND_CMD(operation, OPERATION)
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#define APPEND_CMD_LEN(cmd, op) \
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static inline void append_##cmd(u32 * const desc, unsigned int len, \
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u32 options) \
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{ \
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PRINT_POS; \
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append_cmd(desc, CMD_##op | len | options); \
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}
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APPEND_CMD_LEN(seq_load, SEQ_LOAD)
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APPEND_CMD_LEN(seq_store, SEQ_STORE)
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APPEND_CMD_LEN(seq_fifo_load, SEQ_FIFO_LOAD)
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APPEND_CMD_LEN(seq_fifo_store, SEQ_FIFO_STORE)
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#define APPEND_CMD_PTR(cmd, op) \
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static inline void append_##cmd(u32 * const desc, dma_addr_t ptr, \
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unsigned int len, u32 options) \
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{ \
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PRINT_POS; \
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append_cmd_ptr(desc, ptr, len, CMD_##op | options); \
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}
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APPEND_CMD_PTR(key, KEY)
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APPEND_CMD_PTR(load, LOAD)
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APPEND_CMD_PTR(fifo_load, FIFO_LOAD)
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APPEND_CMD_PTR(fifo_store, FIFO_STORE)
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static inline void append_store(u32 * const desc, dma_addr_t ptr,
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unsigned int len, u32 options)
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{
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u32 cmd_src;
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cmd_src = options & LDST_SRCDST_MASK;
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append_cmd(desc, CMD_STORE | options | len);
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/* The following options do not require pointer */
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if (!(cmd_src == LDST_SRCDST_WORD_DESCBUF_SHARED ||
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cmd_src == LDST_SRCDST_WORD_DESCBUF_JOB ||
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cmd_src == LDST_SRCDST_WORD_DESCBUF_JOB_WE ||
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cmd_src == LDST_SRCDST_WORD_DESCBUF_SHARED_WE))
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append_ptr(desc, ptr);
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}
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#define APPEND_SEQ_PTR_INTLEN(cmd, op) \
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static inline void append_seq_##cmd##_ptr_intlen(u32 * const desc, \
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dma_addr_t ptr, \
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unsigned int len, \
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u32 options) \
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{ \
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PRINT_POS; \
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if (options & (SQIN_RTO | SQIN_PRE)) \
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append_cmd(desc, CMD_SEQ_##op##_PTR | len | options); \
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else \
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append_cmd_ptr(desc, ptr, len, CMD_SEQ_##op##_PTR | options); \
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}
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APPEND_SEQ_PTR_INTLEN(in, IN)
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APPEND_SEQ_PTR_INTLEN(out, OUT)
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#define APPEND_CMD_PTR_TO_IMM(cmd, op) \
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static inline void append_##cmd##_as_imm(u32 * const desc, const void *data, \
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unsigned int len, u32 options) \
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{ \
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PRINT_POS; \
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append_cmd_data(desc, data, len, CMD_##op | options); \
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}
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APPEND_CMD_PTR_TO_IMM(load, LOAD);
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APPEND_CMD_PTR_TO_IMM(fifo_load, FIFO_LOAD);
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#define APPEND_CMD_PTR_EXTLEN(cmd, op) \
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static inline void append_##cmd##_extlen(u32 * const desc, dma_addr_t ptr, \
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unsigned int len, u32 options) \
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{ \
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PRINT_POS; \
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append_cmd_ptr_extlen(desc, ptr, len, CMD_##op | SQIN_EXT | options); \
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}
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APPEND_CMD_PTR_EXTLEN(seq_in_ptr, SEQ_IN_PTR)
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APPEND_CMD_PTR_EXTLEN(seq_out_ptr, SEQ_OUT_PTR)
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/*
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* Determine whether to store length internally or externally depending on
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* the size of its type
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*/
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#define APPEND_CMD_PTR_LEN(cmd, op, type) \
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static inline void append_##cmd(u32 * const desc, dma_addr_t ptr, \
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type len, u32 options) \
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{ \
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PRINT_POS; \
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if (sizeof(type) > sizeof(u16)) \
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append_##cmd##_extlen(desc, ptr, len, options); \
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else \
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append_##cmd##_intlen(desc, ptr, len, options); \
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}
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APPEND_CMD_PTR_LEN(seq_in_ptr, SEQ_IN_PTR, u32)
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APPEND_CMD_PTR_LEN(seq_out_ptr, SEQ_OUT_PTR, u32)
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/*
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* 2nd variant for commands whose specified immediate length differs
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* from length of immediate data provided, e.g., split keys
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*/
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#define APPEND_CMD_PTR_TO_IMM2(cmd, op) \
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static inline void append_##cmd##_as_imm(u32 * const desc, const void *data, \
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unsigned int data_len, \
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unsigned int len, u32 options) \
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{ \
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PRINT_POS; \
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append_cmd(desc, CMD_##op | IMMEDIATE | len | options); \
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append_data(desc, data, data_len); \
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}
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APPEND_CMD_PTR_TO_IMM2(key, KEY);
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#define APPEND_CMD_RAW_IMM(cmd, op, type) \
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static inline void append_##cmd##_imm_##type(u32 * const desc, type immediate, \
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u32 options) \
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{ \
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PRINT_POS; \
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append_cmd(desc, CMD_##op | IMMEDIATE | options | sizeof(type)); \
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append_cmd(desc, immediate); \
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}
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APPEND_CMD_RAW_IMM(load, LOAD, u32);
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/*
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* ee - endianness
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* size - size of immediate type in bytes
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*/
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#define APPEND_CMD_RAW_IMM2(cmd, op, ee, size) \
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static inline void append_##cmd##_imm_##ee##size(u32 *desc, \
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u##size immediate, \
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u32 options) \
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{ \
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__##ee##size data = cpu_to_##ee##size(immediate); \
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PRINT_POS; \
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append_cmd(desc, CMD_##op | IMMEDIATE | options | sizeof(data)); \
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append_data(desc, &data, sizeof(data)); \
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}
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APPEND_CMD_RAW_IMM2(load, LOAD, be, 32);
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/*
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* Append math command. Only the last part of destination and source need to
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* be specified
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*/
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#define APPEND_MATH(op, desc, dest, src_0, src_1, len) \
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append_cmd(desc, CMD_MATH | MATH_FUN_##op | MATH_DEST_##dest | \
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MATH_SRC0_##src_0 | MATH_SRC1_##src_1 | (u32)len);
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#define append_math_add(desc, dest, src0, src1, len) \
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APPEND_MATH(ADD, desc, dest, src0, src1, len)
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#define append_math_sub(desc, dest, src0, src1, len) \
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APPEND_MATH(SUB, desc, dest, src0, src1, len)
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#define append_math_add_c(desc, dest, src0, src1, len) \
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APPEND_MATH(ADDC, desc, dest, src0, src1, len)
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#define append_math_sub_b(desc, dest, src0, src1, len) \
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APPEND_MATH(SUBB, desc, dest, src0, src1, len)
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#define append_math_and(desc, dest, src0, src1, len) \
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APPEND_MATH(AND, desc, dest, src0, src1, len)
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#define append_math_or(desc, dest, src0, src1, len) \
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APPEND_MATH(OR, desc, dest, src0, src1, len)
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#define append_math_xor(desc, dest, src0, src1, len) \
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APPEND_MATH(XOR, desc, dest, src0, src1, len)
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#define append_math_lshift(desc, dest, src0, src1, len) \
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APPEND_MATH(LSHIFT, desc, dest, src0, src1, len)
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#define append_math_rshift(desc, dest, src0, src1, len) \
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APPEND_MATH(RSHIFT, desc, dest, src0, src1, len)
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#define append_math_ldshift(desc, dest, src0, src1, len) \
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APPEND_MATH(SHLD, desc, dest, src0, src1, len)
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/* Exactly one source is IMM. Data is passed in as u32 value */
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#define APPEND_MATH_IMM_u32(op, desc, dest, src_0, src_1, data) \
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do { \
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APPEND_MATH(op, desc, dest, src_0, src_1, CAAM_CMD_SZ); \
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append_cmd(desc, data); \
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} while (0)
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#define append_math_add_imm_u32(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u32(ADD, desc, dest, src0, src1, data)
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#define append_math_sub_imm_u32(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u32(SUB, desc, dest, src0, src1, data)
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#define append_math_add_c_imm_u32(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u32(ADDC, desc, dest, src0, src1, data)
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#define append_math_sub_b_imm_u32(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u32(SUBB, desc, dest, src0, src1, data)
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#define append_math_and_imm_u32(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u32(AND, desc, dest, src0, src1, data)
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#define append_math_or_imm_u32(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u32(OR, desc, dest, src0, src1, data)
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#define append_math_xor_imm_u32(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u32(XOR, desc, dest, src0, src1, data)
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#define append_math_lshift_imm_u32(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u32(LSHIFT, desc, dest, src0, src1, data)
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#define append_math_rshift_imm_u32(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u32(RSHIFT, desc, dest, src0, src1, data)
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/* Exactly one source is IMM. Data is passed in as u64 value */
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#define APPEND_MATH_IMM_u64(op, desc, dest, src_0, src_1, data) \
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do { \
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u32 upper = (data >> 16) >> 16; \
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APPEND_MATH(op, desc, dest, src_0, src_1, CAAM_CMD_SZ * 2 | \
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(upper ? 0 : MATH_IFB)); \
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if (upper) \
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append_u64(desc, data); \
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else \
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append_u32(desc, lower_32_bits(data)); \
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} while (0)
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#define append_math_add_imm_u64(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u64(ADD, desc, dest, src0, src1, data)
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#define append_math_sub_imm_u64(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u64(SUB, desc, dest, src0, src1, data)
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#define append_math_add_c_imm_u64(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u64(ADDC, desc, dest, src0, src1, data)
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#define append_math_sub_b_imm_u64(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u64(SUBB, desc, dest, src0, src1, data)
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#define append_math_and_imm_u64(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u64(AND, desc, dest, src0, src1, data)
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#define append_math_or_imm_u64(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u64(OR, desc, dest, src0, src1, data)
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#define append_math_xor_imm_u64(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u64(XOR, desc, dest, src0, src1, data)
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#define append_math_lshift_imm_u64(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u64(LSHIFT, desc, dest, src0, src1, data)
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#define append_math_rshift_imm_u64(desc, dest, src0, src1, data) \
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APPEND_MATH_IMM_u64(RSHIFT, desc, dest, src0, src1, data)
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/**
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* struct alginfo - Container for algorithm details
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* @algtype: algorithm selector; for valid values, see documentation of the
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* functions where it is used.
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* @keylen: length of the provided algorithm key, in bytes
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* @keylen_pad: padded length of the provided algorithm key, in bytes
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* @key: address where algorithm key resides; virtual address if key_inline
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* is true, dma (bus) address if key_inline is false.
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* @key_inline: true - key can be inlined in the descriptor; false - key is
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|
* referenced by the descriptor
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|
*/
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struct alginfo {
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|
u32 algtype;
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|
unsigned int keylen;
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|
unsigned int keylen_pad;
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|
union {
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|
dma_addr_t key_dma;
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|
const void *key_virt;
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|
};
|
|
bool key_inline;
|
|
};
|
|
|
|
/**
|
|
* desc_inline_query() - Provide indications on which data items can be inlined
|
|
* and which shall be referenced in a shared descriptor.
|
|
* @sd_base_len: Shared descriptor base length - bytes consumed by the commands,
|
|
* excluding the data items to be inlined (or corresponding
|
|
* pointer if an item is not inlined). Each cnstr_* function that
|
|
* generates descriptors should have a define mentioning
|
|
* corresponding length.
|
|
* @jd_len: Maximum length of the job descriptor(s) that will be used
|
|
* together with the shared descriptor.
|
|
* @data_len: Array of lengths of the data items trying to be inlined
|
|
* @inl_mask: 32bit mask with bit x = 1 if data item x can be inlined, 0
|
|
* otherwise.
|
|
* @count: Number of data items (size of @data_len array); must be <= 32
|
|
*
|
|
* Return: 0 if data can be inlined / referenced, negative value if not. If 0,
|
|
* check @inl_mask for details.
|
|
*/
|
|
static inline int desc_inline_query(unsigned int sd_base_len,
|
|
unsigned int jd_len, unsigned int *data_len,
|
|
u32 *inl_mask, unsigned int count)
|
|
{
|
|
int rem_bytes = (int)(CAAM_DESC_BYTES_MAX - sd_base_len - jd_len);
|
|
unsigned int i;
|
|
|
|
*inl_mask = 0;
|
|
for (i = 0; (i < count) && (rem_bytes > 0); i++) {
|
|
if (rem_bytes - (int)(data_len[i] +
|
|
(count - i - 1) * CAAM_PTR_SZ) >= 0) {
|
|
rem_bytes -= data_len[i];
|
|
*inl_mask |= (1 << i);
|
|
} else {
|
|
rem_bytes -= CAAM_PTR_SZ;
|
|
}
|
|
}
|
|
|
|
return (rem_bytes >= 0) ? 0 : -1;
|
|
}
|
|
|
|
/**
|
|
* append_proto_dkp - Derived Key Protocol (DKP): key -> split key
|
|
* @desc: pointer to buffer used for descriptor construction
|
|
* @adata: pointer to authentication transform definitions.
|
|
* keylen should be the length of initial key, while keylen_pad
|
|
* the length of the derived (split) key.
|
|
* Valid algorithm values - one of OP_ALG_ALGSEL_{MD5, SHA1, SHA224,
|
|
* SHA256, SHA384, SHA512}.
|
|
*/
|
|
static inline void append_proto_dkp(u32 * const desc, struct alginfo *adata)
|
|
{
|
|
u32 protid;
|
|
|
|
/*
|
|
* Quick & dirty translation from OP_ALG_ALGSEL_{MD5, SHA*}
|
|
* to OP_PCLID_DKP_{MD5, SHA*}
|
|
*/
|
|
protid = (adata->algtype & OP_ALG_ALGSEL_SUBMASK) |
|
|
(0x20 << OP_ALG_ALGSEL_SHIFT);
|
|
|
|
if (adata->key_inline) {
|
|
int words;
|
|
|
|
append_operation(desc, OP_TYPE_UNI_PROTOCOL | protid |
|
|
OP_PCL_DKP_SRC_IMM | OP_PCL_DKP_DST_IMM |
|
|
adata->keylen);
|
|
append_data(desc, adata->key_virt, adata->keylen);
|
|
|
|
/* Reserve space in descriptor buffer for the derived key */
|
|
words = (ALIGN(adata->keylen_pad, CAAM_CMD_SZ) -
|
|
ALIGN(adata->keylen, CAAM_CMD_SZ)) / CAAM_CMD_SZ;
|
|
if (words)
|
|
(*desc) = cpu_to_caam32(caam32_to_cpu(*desc) + words);
|
|
} else {
|
|
append_operation(desc, OP_TYPE_UNI_PROTOCOL | protid |
|
|
OP_PCL_DKP_SRC_PTR | OP_PCL_DKP_DST_PTR |
|
|
adata->keylen);
|
|
append_ptr(desc, adata->key_dma);
|
|
}
|
|
}
|
|
|
|
#endif /* DESC_CONSTR_H */
|