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Release 4.14 drivers/dma/fsl_raid.h

Directory: drivers/dma
/*
 * drivers/dma/fsl_raid.h
 *
 * Freescale RAID Engine device driver
 *
 * Author:
 *      Harninder Rai <harninder.rai@freescale.com>
 *      Naveen Burmi <naveenburmi@freescale.com>
 *
 * Rewrite:
 *      Xuelin Shi <xuelin.shi@freescale.com>

 * Copyright (c) 2010-2012 Freescale Semiconductor, Inc.
 *
 * 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 Freescale Semiconductor nor the
 *       names of its contributors may be used to endorse or promote products
 *       derived from this software without specific prior written permission.
 *
 * ALTERNATIVELY, this software may be distributed under the terms of the
 * GNU General Public License ("GPL") as published by the Free Software
 * Foundation, either version 2 of that License or (at your option) any
 * later version.
 *
 * THIS SOFTWARE IS PROVIDED BY Freescale Semiconductor ``AS IS'' AND ANY
 * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
 * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 * DISCLAIMED. IN NO EVENT SHALL Freescale Semiconductor 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.
 *
 */


#define FSL_RE_MAX_CHANS		4

#define FSL_RE_DPAA_MODE		BIT(30)

#define FSL_RE_NON_DPAA_MODE		BIT(31)

#define FSL_RE_GFM_POLY			0x1d000000

#define FSL_RE_ADD_JOB(x)		((x) << 16)

#define FSL_RE_RMVD_JOB(x)		((x) << 16)

#define FSL_RE_CFG1_CBSI		0x08000000

#define FSL_RE_CFG1_CBS0		0x00080000

#define FSL_RE_SLOT_FULL_SHIFT		8

#define FSL_RE_SLOT_FULL(x)		((x) >> FSL_RE_SLOT_FULL_SHIFT)

#define FSL_RE_SLOT_AVAIL_SHIFT		8

#define FSL_RE_SLOT_AVAIL(x)		((x) >> FSL_RE_SLOT_AVAIL_SHIFT)

#define FSL_RE_PQ_OPCODE		0x1B

#define FSL_RE_XOR_OPCODE		0x1A

#define FSL_RE_MOVE_OPCODE		0x8

#define FSL_RE_FRAME_ALIGN		16

#define FSL_RE_BLOCK_SIZE		0x3 
/* 4096 bytes */

#define FSL_RE_CACHEABLE_IO		0x0

#define FSL_RE_BUFFER_OUTPUT		0x0

#define FSL_RE_INTR_ON_ERROR		0x1

#define FSL_RE_DATA_DEP			0x1

#define FSL_RE_ENABLE_DPI		0x0

#define FSL_RE_RING_SIZE		0x400

#define FSL_RE_RING_SIZE_MASK		(FSL_RE_RING_SIZE - 1)

#define FSL_RE_RING_SIZE_SHIFT		8

#define FSL_RE_ADDR_BIT_SHIFT		4

#define FSL_RE_ADDR_BIT_MASK		(BIT(FSL_RE_ADDR_BIT_SHIFT) - 1)

#define FSL_RE_ERROR			0x40000000

#define FSL_RE_INTR			0x80000000

#define FSL_RE_CLR_INTR			0x80000000

#define FSL_RE_PAUSE			0x80000000

#define FSL_RE_ENABLE			0x80000000

#define FSL_RE_REG_LIODN_MASK		0x00000FFF


#define FSL_RE_CDB_OPCODE_MASK		0xF8000000

#define FSL_RE_CDB_OPCODE_SHIFT		27

#define FSL_RE_CDB_EXCLEN_MASK		0x03000000

#define FSL_RE_CDB_EXCLEN_SHIFT		24

#define FSL_RE_CDB_EXCLQ1_MASK		0x00F00000

#define FSL_RE_CDB_EXCLQ1_SHIFT		20

#define FSL_RE_CDB_EXCLQ2_MASK		0x000F0000

#define FSL_RE_CDB_EXCLQ2_SHIFT		16

#define FSL_RE_CDB_BLKSIZE_MASK		0x0000C000

#define FSL_RE_CDB_BLKSIZE_SHIFT	14

#define FSL_RE_CDB_CACHE_MASK		0x00003000

#define FSL_RE_CDB_CACHE_SHIFT		12

#define FSL_RE_CDB_BUFFER_MASK		0x00000800

#define FSL_RE_CDB_BUFFER_SHIFT		11

#define FSL_RE_CDB_ERROR_MASK		0x00000400

#define FSL_RE_CDB_ERROR_SHIFT		10

#define FSL_RE_CDB_NRCS_MASK		0x0000003C

#define FSL_RE_CDB_NRCS_SHIFT		6

#define FSL_RE_CDB_DEPEND_MASK		0x00000008

#define FSL_RE_CDB_DEPEND_SHIFT		3

#define FSL_RE_CDB_DPI_MASK		0x00000004

#define FSL_RE_CDB_DPI_SHIFT		2

/*
 * the largest cf block is 19*sizeof(struct cmpnd_frame), which is 304 bytes.
 * here 19 = 1(cdb)+2(dest)+16(src), align to 64bytes, that is 320 bytes.
 * the largest cdb block: struct pq_cdb which is 180 bytes, adding to cf block
 * 320+180=500, align to 64bytes, that is 512 bytes.
 */

#define FSL_RE_CF_DESC_SIZE		320

#define FSL_RE_CF_CDB_SIZE		512

#define FSL_RE_CF_CDB_ALIGN		64


struct fsl_re_ctrl {
	/* General Configuration Registers */
	
__be32 global_config;	/* Global Configuration Register */
	
u8     rsvd1[4];
	
__be32 galois_field_config; /* Galois Field Configuration Register */
	
u8     rsvd2[4];
	
__be32 jq_wrr_config;   /* WRR Configuration register */
	
u8     rsvd3[4];
	
__be32 crc_config;	/* CRC Configuration register */
	
u8     rsvd4[228];
	
__be32 system_reset;	/* System Reset Register */
	
u8     rsvd5[252];
	
__be32 global_status;	/* Global Status Register */
	
u8     rsvd6[832];
	
__be32 re_liodn_base;	/* LIODN Base Register */
	
u8     rsvd7[1712];
	
__be32 re_version_id;	/* Version ID register of RE */
	
__be32 re_version_id_2; /* Version ID 2 register of RE */
	
u8     rsvd8[512];
	
__be32 host_config;	/* Host I/F Configuration Register */
};


struct fsl_re_chan_cfg {
	/* Registers for JR interface */
	
__be32 jr_config_0;	/* Job Queue Configuration 0 Register */
	
__be32 jr_config_1;	/* Job Queue Configuration 1 Register */
	
__be32 jr_interrupt_status; /* Job Queue Interrupt Status Register */
	
u8     rsvd1[4];
	
__be32 jr_command;	/* Job Queue Command Register */
	
u8     rsvd2[4];
	
__be32 jr_status;	/* Job Queue Status Register */
	
u8     rsvd3[228];

	/* Input Ring */
	
__be32 inbring_base_h;	/* Inbound Ring Base Address Register - High */
	
__be32 inbring_base_l;	/* Inbound Ring Base Address Register - Low */
	
__be32 inbring_size;	/* Inbound Ring Size Register */
	
u8     rsvd4[4];
	
__be32 inbring_slot_avail; /* Inbound Ring Slot Available Register */
	
u8     rsvd5[4];
	
__be32 inbring_add_job;	/* Inbound Ring Add Job Register */
	
u8     rsvd6[4];
	
__be32 inbring_cnsmr_indx; /* Inbound Ring Consumer Index Register */
	
u8     rsvd7[220];

	/* Output Ring */
	
__be32 oubring_base_h;	/* Outbound Ring Base Address Register - High */
	
__be32 oubring_base_l;	/* Outbound Ring Base Address Register - Low */
	
__be32 oubring_size;	/* Outbound Ring Size Register */
	
u8     rsvd8[4];
	
__be32 oubring_job_rmvd; /* Outbound Ring Job Removed Register */
	
u8     rsvd9[4];
	
__be32 oubring_slot_full; /* Outbound Ring Slot Full Register */
	
u8     rsvd10[4];
	
__be32 oubring_prdcr_indx; /* Outbound Ring Producer Index */
};

/*
 * Command Descriptor Block (CDB) for unicast move command.
 * In RAID Engine terms, memcpy is done through move command
 */

struct fsl_re_move_cdb {
	
__be32 cdb32;
};

/* Data protection/integrity related fields */

#define FSL_RE_DPI_APPS_MASK		0xC0000000

#define FSL_RE_DPI_APPS_SHIFT		30

#define FSL_RE_DPI_REF_MASK		0x30000000

#define FSL_RE_DPI_REF_SHIFT		28

#define FSL_RE_DPI_GUARD_MASK		0x0C000000

#define FSL_RE_DPI_GUARD_SHIFT		26

#define FSL_RE_DPI_ATTR_MASK		0x03000000

#define FSL_RE_DPI_ATTR_SHIFT		24

#define FSL_RE_DPI_META_MASK		0x0000FFFF


struct fsl_re_dpi {
	
__be32 dpi32;
	
__be32 ref;
};

/*
 * CDB for GenQ command. In RAID Engine terminology, XOR is
 * done through this command
 */

struct fsl_re_xor_cdb {
	
__be32 cdb32;
	
u8 gfm[16];
	
struct fsl_re_dpi dpi_dest_spec;
	
struct fsl_re_dpi dpi_src_spec[16];
};

/* CDB for no-op command */

struct fsl_re_noop_cdb {
	
__be32 cdb32;
};

/*
 * CDB for GenQQ command. In RAID Engine terminology, P/Q is
 * done through this command
 */

struct fsl_re_pq_cdb {
	
__be32 cdb32;
	
u8 gfm_q1[16];
	
u8 gfm_q2[16];
	
struct fsl_re_dpi dpi_dest_spec[2];
	
struct fsl_re_dpi dpi_src_spec[16];
};

/* Compound frame */

#define FSL_RE_CF_ADDR_HIGH_MASK	0x000000FF

#define FSL_RE_CF_EXT_MASK		0x80000000

#define FSL_RE_CF_EXT_SHIFT		31

#define FSL_RE_CF_FINAL_MASK		0x40000000

#define FSL_RE_CF_FINAL_SHIFT		30

#define FSL_RE_CF_LENGTH_MASK		0x000FFFFF

#define FSL_RE_CF_BPID_MASK		0x00FF0000

#define FSL_RE_CF_BPID_SHIFT		16

#define FSL_RE_CF_OFFSET_MASK		0x00001FFF


struct fsl_re_cmpnd_frame {
	
__be32 addr_high;
	
__be32 addr_low;
	
__be32 efrl32;
	
__be32 rbro32;
};

/* Frame descriptor */

#define FSL_RE_HWDESC_LIODN_MASK	0x3F000000

#define FSL_RE_HWDESC_LIODN_SHIFT	24

#define FSL_RE_HWDESC_BPID_MASK		0x00FF0000

#define FSL_RE_HWDESC_BPID_SHIFT	16

#define FSL_RE_HWDESC_ELIODN_MASK	0x0000F000

#define FSL_RE_HWDESC_ELIODN_SHIFT	12

#define FSL_RE_HWDESC_FMT_SHIFT		29

#define FSL_RE_HWDESC_FMT_MASK		(0x3 << FSL_RE_HWDESC_FMT_SHIFT)


struct fsl_re_hw_desc {
	
__be32 lbea32;
	
__be32 addr_low;
	
__be32 fmt32;
	
__be32 status;
};

/* Raid Engine device private data */

struct fsl_re_drv_private {
	
u8 total_chans;
	
struct dma_device dma_dev;
	
struct fsl_re_ctrl *re_regs;
	
struct fsl_re_chan *re_jrs[FSL_RE_MAX_CHANS];
	
struct dma_pool *cf_desc_pool;
	
struct dma_pool *hw_desc_pool;
};

/* Per job ring data structure */

struct fsl_re_chan {
	
char name[16];
	
spinlock_t desc_lock; /* queue lock */
	
struct list_head ack_q;  /* wait to acked queue */
	
struct list_head active_q; /* already issued on hw, not completed */
	
struct list_head submit_q;
	
struct list_head free_q; /* alloc available queue */
	
struct device *dev;
	
struct fsl_re_drv_private *re_dev;
	
struct dma_chan chan;
	
struct fsl_re_chan_cfg *jrregs;
	
int irq;
	
struct tasklet_struct irqtask;
	
u32 alloc_count;

	/* hw descriptor ring for inbound queue*/
	
dma_addr_t inb_phys_addr;
	
struct fsl_re_hw_desc *inb_ring_virt_addr;
	
u32 inb_count;

	/* hw descriptor ring for outbound queue */
	
dma_addr_t oub_phys_addr;
	
struct fsl_re_hw_desc *oub_ring_virt_addr;
	
u32 oub_count;
};

/* Async transaction descriptor */

struct fsl_re_desc {
	
struct dma_async_tx_descriptor async_tx;
	
struct list_head node;
	
struct fsl_re_hw_desc hwdesc;
	
struct fsl_re_chan *re_chan;

	/* hwdesc will point to cf_addr */
	
void *cf_addr;
	
dma_addr_t cf_paddr;

	
void *cdb_addr;
	
dma_addr_t cdb_paddr;
	
int status;
};

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