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/**********************************************************************
* Author: Cavium, Inc.
*
* Contact: support@cavium.com
* Please include "LiquidIO" in the subject.
*
* Copyright (c) 2003-2016 Cavium, Inc.
*
* This file is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License, Version 2, as
* published by the Free Software Foundation.
*
* This file is distributed in the hope that it will be useful, but
* AS-IS and WITHOUT ANY WARRANTY; without even the implied warranty
* of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE, TITLE, or
* NONINFRINGEMENT. See the GNU General Public License for more details.
***********************************************************************/
/*! \file octeon_iq.h
* \brief Host Driver: Implementation of Octeon input queues. "Input" is
* with respect to the Octeon device on the NIC. From this driver's
* point of view they are egress queues.
*/
#ifndef __OCTEON_IQ_H__
#define __OCTEON_IQ_H__
#define IQ_STATUS_RUNNING 1
#define IQ_SEND_OK 0
#define IQ_SEND_STOP 1
#define IQ_SEND_FAILED -1
/*------------------------- INSTRUCTION QUEUE --------------------------*/
/* \cond */
#define REQTYPE_NONE 0
#define REQTYPE_NORESP_NET 1
#define REQTYPE_NORESP_NET_SG 2
#define REQTYPE_RESP_NET 3
#define REQTYPE_RESP_NET_SG 4
#define REQTYPE_SOFT_COMMAND 5
#define REQTYPE_LAST 5
struct octeon_request_list {
u32 reqtype;
void *buf;
};
/* \endcond */
/** Input Queue statistics. Each input queue has four stats fields. */
struct oct_iq_stats {
u64 instr_posted; /**< Instructions posted to this queue. */
u64 instr_processed; /**< Instructions processed in this queue. */
u64 instr_dropped; /**< Instructions that could not be processed */
u64 bytes_sent; /**< Bytes sent through this queue. */
u64 sgentry_sent;/**< Gather entries sent through this queue. */
u64 tx_done;/**< Num of packets sent to network. */
u64 tx_iq_busy;/**< Numof times this iq was found to be full. */
u64 tx_dropped;/**< Numof pkts dropped dueto xmitpath errors. */
u64 tx_tot_bytes;/**< Total count of bytes sento to network. */
u64 tx_gso; /* count of tso */
u64 tx_vxlan; /* tunnel */
u64 tx_dmamap_fail; /* Number of times dma mapping failed */
u64 tx_restart; /* Number of times this queue restarted */
};
#define OCT_IQ_STATS_SIZE (sizeof(struct oct_iq_stats))
/** The instruction (input) queue.
* The input queue is used to post raw (instruction) mode data or packet
* data to Octeon device from the host. Each input queue (upto 4) for
* a Octeon device has one such structure to represent it.
*/
struct octeon_instr_queue {
struct octeon_device *oct_dev;
/** A spinlock to protect access to the input ring. */
spinlock_t lock;
/** A spinlock to protect while posting on the ring. */
spinlock_t post_lock;
/** This flag indicates if the queue can be used for soft commands.
* If this flag is set, post_lock must be acquired before posting
* a command to the queue.
* If this flag is clear, post_lock is invalid for the queue.
* All control commands (soft commands) will go through only Queue 0
* (control and data queue). So only queue-0 needs post_lock,
* other queues are only data queues and does not need post_lock
*/
bool allow_soft_cmds;
u32 pkt_in_done;
u32 pkts_processed;
/** A spinlock to protect access to the input ring.*/
spinlock_t iq_flush_running_lock;
/** Flag that indicates if the queue uses 64 byte commands. */
u32 iqcmd_64B:1;
/** Queue info. */
union oct_txpciq txpciq;
u32 rsvd:17;
/* Controls whether extra flushing of IQ is done on Tx */
u32 do_auto_flush:1;
u32 status:8;
/** Maximum no. of instructions in this queue. */
u32 max_count;
/** Index in input ring where the driver should write the next packet */
u32 host_write_index;
/** Index in input ring where Octeon is expected to read the next
* packet.
*/
u32 octeon_read_index;
/** This index aids in finding the window in the queue where Octeon
* has read the commands.
*/
u32 flush_index;
/** This field keeps track of the instructions pending in this queue. */
atomic_t instr_pending;
u32 reset_instr_cnt;
/** Pointer to the Virtual Base addr of the input ring. */
u8 *base_addr;
struct octeon_request_list *request_list;
/** Octeon doorbell register for the ring. */
void __iomem *doorbell_reg;
/** Octeon instruction count register for this ring. */
void __iomem *inst_cnt_reg;
/** Number of instructions pending to be posted to Octeon. */
u32 fill_cnt;
/** The max. number of instructions that can be held pending by the
* driver.
*/
u32 fill_threshold;
/** The last time that the doorbell was rung. */
u64 last_db_time;
/** The doorbell timeout. If the doorbell was not rung for this time and
* fill_cnt is non-zero, ring the doorbell again.
*/
u32 db_timeout;
/** Statistics for this input queue. */
struct oct_iq_stats stats;
/** DMA mapped base address of the input descriptor ring. */
dma_addr_t base_addr_dma;
/** Application context */
void *app_ctx;
/* network stack queue index */
int q_index;
/*os ifidx associated with this queue */
int ifidx;
};
/*---------------------- INSTRUCTION FORMAT ----------------------------*/
/** 32-byte instruction format.
* Format of instruction for a 32-byte mode input queue.
*/
struct octeon_instr_32B {
/** Pointer where the input data is available. */
u64 dptr;
/** Instruction Header. */
u64 ih;
/** Pointer where the response for a RAW mode packet will be written
* by Octeon.
*/
u64 rptr;
/** Input Request Header. Additional info about the input. */
u64 irh;
};
#define OCT_32B_INSTR_SIZE (sizeof(struct octeon_instr_32B))
/** 64-byte instruction format.
* Format of instruction for a 64-byte mode input queue.
*/
struct octeon_instr2_64B {
/** Pointer where the input data is available. */
u64 dptr;
/** Instruction Header. */
u64 ih2;
/** Input Request Header. */
u64 irh;
/** opcode/subcode specific parameters */
u64 ossp[2];
/** Return Data Parameters */
u64 rdp;
/** Pointer where the response for a RAW mode packet will be written
* by Octeon.
*/
u64 rptr;
u64 reserved;
};
struct octeon_instr3_64B {
/** Pointer where the input data is available. */
u64 dptr;
/** Instruction Header. */
u64 ih3;
/** Instruction Header. */
u64 pki_ih3;
/** Input Request Header. */
u64 irh;
/** opcode/subcode specific parameters */
u64 ossp[2];
/** Return Data Parameters */
u64 rdp;
/** Pointer where the response for a RAW mode packet will be written
* by Octeon.
*/
u64 rptr;
};
union octeon_instr_64B {
struct octeon_instr2_64B cmd2;
struct octeon_instr3_64B cmd3;
};
#define OCT_64B_INSTR_SIZE (sizeof(union octeon_instr_64B))
/** The size of each buffer in soft command buffer pool
*/
#define SOFT_COMMAND_BUFFER_SIZE 2048
struct octeon_soft_command {
/** Soft command buffer info. */
struct list_head node;
u64 dma_addr;
u32 size;
/** Command and return status */
union octeon_instr_64B cmd;
#define COMPLETION_WORD_INIT 0xffffffffffffffffULL
u64 *status_word;
/** Data buffer info */
void *virtdptr;
u64 dmadptr;
u32 datasize;
/** Return buffer info */
void *virtrptr;
u64 dmarptr;
u32 rdatasize;
/** Context buffer info */
void *ctxptr;
u32 ctxsize;
/** Time out and callback */
size_t expiry_time;
u32 iq_no;
void (*callback)(struct octeon_device *, u32, void *);
void *callback_arg;
int caller_is_done;
u32 sc_status;
struct completion complete;
};
/* max timeout (in milli sec) for soft request */
#define LIO_SC_MAX_TMO_MS 60000
/** Maximum number of buffers to allocate into soft command buffer pool
*/
#define MAX_SOFT_COMMAND_BUFFERS 256
/** Head of a soft command buffer pool.
*/
struct octeon_sc_buffer_pool {
/** List structure to add delete pending entries to */
struct list_head head;
/** A lock for this response list */
spinlock_t lock;
atomic_t alloc_buf_count;
};
#define INCR_INSTRQUEUE_PKT_COUNT(octeon_dev_ptr, iq_no, field, count) \
(((octeon_dev_ptr)->instr_queue[iq_no]->stats.field) += count)
int octeon_setup_sc_buffer_pool(struct octeon_device *oct);
int octeon_free_sc_done_list(struct octeon_device *oct);
int octeon_free_sc_zombie_list(struct octeon_device *oct);
int octeon_free_sc_buffer_pool(struct octeon_device *oct);
struct octeon_soft_command *
octeon_alloc_soft_command(struct octeon_device *oct,
u32 datasize, u32 rdatasize,
u32 ctxsize);
void octeon_free_soft_command(struct octeon_device *oct,
struct octeon_soft_command *sc);
/**
* octeon_init_instr_queue()
* @param octeon_dev - pointer to the octeon device structure.
* @param txpciq - queue to be initialized (0 <= q_no <= 3).
*
* Called at driver init time for each input queue. iq_conf has the
* configuration parameters for the queue.
*
* @return Success: 0 Failure: 1
*/
int octeon_init_instr_queue(struct octeon_device *octeon_dev,
union oct_txpciq txpciq,
u32 num_descs);
/**
* octeon_delete_instr_queue()
* @param octeon_dev - pointer to the octeon device structure.
* @param iq_no - queue to be deleted (0 <= q_no <= 3).
*
* Called at driver unload time for each input queue. Deletes all
* allocated resources for the input queue.
*
* @return Success: 0 Failure: 1
*/
int octeon_delete_instr_queue(struct octeon_device *octeon_dev, u32 iq_no);
int lio_wait_for_instr_fetch(struct octeon_device *oct);
void
octeon_ring_doorbell_locked(struct octeon_device *oct, u32 iq_no);
int
octeon_register_reqtype_free_fn(struct octeon_device *oct, int reqtype,
void (*fn)(void *));
int
lio_process_iq_request_list(struct octeon_device *oct,
struct octeon_instr_queue *iq, u32 napi_budget);
int octeon_send_command(struct octeon_device *oct, u32 iq_no,
u32 force_db, void *cmd, void *buf,
u32 datasize, u32 reqtype);
void octeon_dump_soft_command(struct octeon_device *oct,
struct octeon_soft_command *sc);
void octeon_prepare_soft_command(struct octeon_device *oct,
struct octeon_soft_command *sc,
u8 opcode, u8 subcode,
u32 irh_ossp, u64 ossp0,
u64 ossp1);
int octeon_send_soft_command(struct octeon_device *oct,
struct octeon_soft_command *sc);
int octeon_setup_iq(struct octeon_device *oct, int ifidx,
int q_index, union oct_txpciq iq_no, u32 num_descs,
void *app_ctx);
int
octeon_flush_iq(struct octeon_device *oct, struct octeon_instr_queue *iq,
u32 napi_budget);
#endif /* __OCTEON_IQ_H__ */