linux/drivers/crypto/cavium/cpt/cpt_common.h
Christoph Hellwig f4f228bff3 crypto: cavium - remove dead MSI-X related define
Signed-off-by: Christoph Hellwig <hch@lst.de>
Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
2017-02-23 20:10:59 +08:00

157 lines
6.0 KiB
C

/*
* Copyright (C) 2016 Cavium, Inc.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of version 2 of the GNU General Public License
* as published by the Free Software Foundation.
*/
#ifndef __CPT_COMMON_H
#define __CPT_COMMON_H
#include <asm/byteorder.h>
#include <linux/delay.h>
#include <linux/pci.h>
#include "cpt_hw_types.h"
/* Device ID */
#define CPT_81XX_PCI_PF_DEVICE_ID 0xa040
#define CPT_81XX_PCI_VF_DEVICE_ID 0xa041
/* flags to indicate the features supported */
#define CPT_FLAG_SRIOV_ENABLED BIT(1)
#define CPT_FLAG_VF_DRIVER BIT(2)
#define CPT_FLAG_DEVICE_READY BIT(3)
#define cpt_sriov_enabled(cpt) ((cpt)->flags & CPT_FLAG_SRIOV_ENABLED)
#define cpt_vf_driver(cpt) ((cpt)->flags & CPT_FLAG_VF_DRIVER)
#define cpt_device_ready(cpt) ((cpt)->flags & CPT_FLAG_DEVICE_READY)
#define CPT_MBOX_MSG_TYPE_ACK 1
#define CPT_MBOX_MSG_TYPE_NACK 2
#define CPT_MBOX_MSG_TIMEOUT 2000
#define VF_STATE_DOWN 0
#define VF_STATE_UP 1
/*
* CPT Registers map for 81xx
*/
/* PF registers */
#define CPTX_PF_CONSTANTS(a) (0x0ll + ((u64)(a) << 36))
#define CPTX_PF_RESET(a) (0x100ll + ((u64)(a) << 36))
#define CPTX_PF_DIAG(a) (0x120ll + ((u64)(a) << 36))
#define CPTX_PF_BIST_STATUS(a) (0x160ll + ((u64)(a) << 36))
#define CPTX_PF_ECC0_CTL(a) (0x200ll + ((u64)(a) << 36))
#define CPTX_PF_ECC0_FLIP(a) (0x210ll + ((u64)(a) << 36))
#define CPTX_PF_ECC0_INT(a) (0x220ll + ((u64)(a) << 36))
#define CPTX_PF_ECC0_INT_W1S(a) (0x230ll + ((u64)(a) << 36))
#define CPTX_PF_ECC0_ENA_W1S(a) (0x240ll + ((u64)(a) << 36))
#define CPTX_PF_ECC0_ENA_W1C(a) (0x250ll + ((u64)(a) << 36))
#define CPTX_PF_MBOX_INTX(a, b) \
(0x400ll + ((u64)(a) << 36) + ((b) << 3))
#define CPTX_PF_MBOX_INT_W1SX(a, b) \
(0x420ll + ((u64)(a) << 36) + ((b) << 3))
#define CPTX_PF_MBOX_ENA_W1CX(a, b) \
(0x440ll + ((u64)(a) << 36) + ((b) << 3))
#define CPTX_PF_MBOX_ENA_W1SX(a, b) \
(0x460ll + ((u64)(a) << 36) + ((b) << 3))
#define CPTX_PF_EXEC_INT(a) (0x500ll + 0x1000000000ll * ((a) & 0x1))
#define CPTX_PF_EXEC_INT_W1S(a) (0x520ll + ((u64)(a) << 36))
#define CPTX_PF_EXEC_ENA_W1C(a) (0x540ll + ((u64)(a) << 36))
#define CPTX_PF_EXEC_ENA_W1S(a) (0x560ll + ((u64)(a) << 36))
#define CPTX_PF_GX_EN(a, b) \
(0x600ll + ((u64)(a) << 36) + ((b) << 3))
#define CPTX_PF_EXEC_INFO(a) (0x700ll + ((u64)(a) << 36))
#define CPTX_PF_EXEC_BUSY(a) (0x800ll + ((u64)(a) << 36))
#define CPTX_PF_EXEC_INFO0(a) (0x900ll + ((u64)(a) << 36))
#define CPTX_PF_EXEC_INFO1(a) (0x910ll + ((u64)(a) << 36))
#define CPTX_PF_INST_REQ_PC(a) (0x10000ll + ((u64)(a) << 36))
#define CPTX_PF_INST_LATENCY_PC(a) \
(0x10020ll + ((u64)(a) << 36))
#define CPTX_PF_RD_REQ_PC(a) (0x10040ll + ((u64)(a) << 36))
#define CPTX_PF_RD_LATENCY_PC(a) (0x10060ll + ((u64)(a) << 36))
#define CPTX_PF_RD_UC_PC(a) (0x10080ll + ((u64)(a) << 36))
#define CPTX_PF_ACTIVE_CYCLES_PC(a) (0x10100ll + ((u64)(a) << 36))
#define CPTX_PF_EXE_CTL(a) (0x4000000ll + ((u64)(a) << 36))
#define CPTX_PF_EXE_STATUS(a) (0x4000008ll + ((u64)(a) << 36))
#define CPTX_PF_EXE_CLK(a) (0x4000010ll + ((u64)(a) << 36))
#define CPTX_PF_EXE_DBG_CTL(a) (0x4000018ll + ((u64)(a) << 36))
#define CPTX_PF_EXE_DBG_DATA(a) (0x4000020ll + ((u64)(a) << 36))
#define CPTX_PF_EXE_BIST_STATUS(a) (0x4000028ll + ((u64)(a) << 36))
#define CPTX_PF_EXE_REQ_TIMER(a) (0x4000030ll + ((u64)(a) << 36))
#define CPTX_PF_EXE_MEM_CTL(a) (0x4000038ll + ((u64)(a) << 36))
#define CPTX_PF_EXE_PERF_CTL(a) (0x4001000ll + ((u64)(a) << 36))
#define CPTX_PF_EXE_DBG_CNTX(a, b) \
(0x4001100ll + ((u64)(a) << 36) + ((b) << 3))
#define CPTX_PF_EXE_PERF_EVENT_CNT(a) (0x4001180ll + ((u64)(a) << 36))
#define CPTX_PF_EXE_EPCI_INBX_CNT(a, b) \
(0x4001200ll + ((u64)(a) << 36) + ((b) << 3))
#define CPTX_PF_EXE_EPCI_OUTBX_CNT(a, b) \
(0x4001240ll + ((u64)(a) << 36) + ((b) << 3))
#define CPTX_PF_ENGX_UCODE_BASE(a, b) \
(0x4002000ll + ((u64)(a) << 36) + ((b) << 3))
#define CPTX_PF_QX_CTL(a, b) \
(0x8000000ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_PF_QX_GMCTL(a, b) \
(0x8000020ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_PF_QX_CTL2(a, b) \
(0x8000100ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_PF_VFX_MBOXX(a, b, c) \
(0x8001000ll + ((u64)(a) << 36) + ((b) << 20) + ((c) << 8))
/* VF registers */
#define CPTX_VQX_CTL(a, b) (0x100ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_VQX_SADDR(a, b) (0x200ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_VQX_DONE_WAIT(a, b) (0x400ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_VQX_INPROG(a, b) (0x410ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_VQX_DONE(a, b) (0x420ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_VQX_DONE_ACK(a, b) (0x440ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_VQX_DONE_INT_W1S(a, b) (0x460ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_VQX_DONE_INT_W1C(a, b) (0x468ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_VQX_DONE_ENA_W1S(a, b) (0x470ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_VQX_DONE_ENA_W1C(a, b) (0x478ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_VQX_MISC_INT(a, b) (0x500ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_VQX_MISC_INT_W1S(a, b) (0x508ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_VQX_MISC_ENA_W1S(a, b) (0x510ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_VQX_MISC_ENA_W1C(a, b) (0x518ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_VQX_DOORBELL(a, b) (0x600ll + ((u64)(a) << 36) + ((b) << 20))
#define CPTX_VFX_PF_MBOXX(a, b, c) \
(0x1000ll + ((u64)(a) << 36) + ((b) << 20) + ((c) << 3))
enum vftype {
AE_TYPES = 1,
SE_TYPES = 2,
BAD_CPT_TYPES,
};
/* Max CPT devices supported */
enum cpt_mbox_opcode {
CPT_MSG_VF_UP = 1,
CPT_MSG_VF_DOWN,
CPT_MSG_READY,
CPT_MSG_QLEN,
CPT_MSG_QBIND_GRP,
CPT_MSG_VQ_PRIORITY,
};
/* CPT mailbox structure */
struct cpt_mbox {
u64 msg; /* Message type MBOX[0] */
u64 data;/* Data MBOX[1] */
};
/* Register read/write APIs */
static inline void cpt_write_csr64(u8 __iomem *hw_addr, u64 offset,
u64 val)
{
writeq(val, hw_addr + offset);
}
static inline u64 cpt_read_csr64(u8 __iomem *hw_addr, u64 offset)
{
return readq(hw_addr + offset);
}
#endif /* __CPT_COMMON_H */