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There is a regular need in the kernel to provide a way to declare having a dynamically sized set of trailing elements in a structure. Kernel code should always use “flexible array members”[1] for these cases. The older style of one-element or zero-length arrays should no longer be used[2]. Also, make use of the struct_size() helper in kzalloc(). [1] https://en.wikipedia.org/wiki/Flexible_array_member [2] https://www.kernel.org/doc/html/v5.10/process/deprecated.html#zero-length-and-one-element-arrays Acked-by: Scott Branden <scott.branden@broadcom.com> Signed-off-by: Gustavo A. R. Silva <gustavoars@kernel.org> Link: https://lore.kernel.org/r/20210514230801.GA35863@embeddedor Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
164 lines
4.4 KiB
C
164 lines
4.4 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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/*
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* Copyright 2018-2020 Broadcom.
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*/
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#ifndef BCM_VK_MSG_H
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#define BCM_VK_MSG_H
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#include <uapi/linux/misc/bcm_vk.h>
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#include "bcm_vk_sg.h"
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/* Single message queue control structure */
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struct bcm_vk_msgq {
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u16 type; /* queue type */
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u16 num; /* queue number */
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u32 start; /* offset in BAR1 where the queue memory starts */
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u32 rd_idx; /* read idx */
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u32 wr_idx; /* write idx */
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u32 size; /*
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* size, which is in number of 16byte blocks,
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* to align with the message data structure.
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*/
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u32 nxt; /*
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* nxt offset to the next msg queue struct.
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* This is to provide flexibity for alignment purposes.
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*/
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/* Least significant 16 bits in below field hold doorbell register offset */
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#define DB_SHIFT 16
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u32 db_offset; /* queue doorbell register offset in BAR0 */
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u32 rsvd;
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};
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/*
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* Structure to record static info from the msgq sync. We keep local copy
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* for some of these variables for both performance + checking purpose.
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*/
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struct bcm_vk_sync_qinfo {
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void __iomem *q_start;
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u32 q_size;
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u32 q_mask;
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u32 q_low;
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u32 q_db_offset;
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};
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#define VK_MSGQ_MAX_NR 4 /* Maximum number of message queues */
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/*
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* message block - basic unit in the message where a message's size is always
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* N x sizeof(basic_block)
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*/
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struct vk_msg_blk {
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u8 function_id;
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#define VK_FID_TRANS_BUF 5
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#define VK_FID_SHUTDOWN 8
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#define VK_FID_INIT 9
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u8 size; /* size of the message in number of vk_msg_blk's */
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u16 trans_id; /* transport id, queue & msg_id */
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u32 context_id;
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#define VK_NEW_CTX 0
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u32 cmd;
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#define VK_CMD_PLANES_MASK 0x000f /* number of planes to up/download */
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#define VK_CMD_UPLOAD 0x0400 /* memory transfer to vk */
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#define VK_CMD_DOWNLOAD 0x0500 /* memory transfer from vk */
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#define VK_CMD_MASK 0x0f00 /* command mask */
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u32 arg;
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};
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/* vk_msg_blk is 16 bytes fixed */
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#define VK_MSGQ_BLK_SIZE (sizeof(struct vk_msg_blk))
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/* shift for fast division of basic msg blk size */
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#define VK_MSGQ_BLK_SZ_SHIFT 4
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/* use msg_id 0 for any simplex host2vk communication */
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#define VK_SIMPLEX_MSG_ID 0
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/* context per session opening of sysfs */
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struct bcm_vk_ctx {
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struct list_head node; /* use for linkage in Hash Table */
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unsigned int idx;
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bool in_use;
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pid_t pid;
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u32 hash_idx;
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u32 q_num; /* queue number used by the stream */
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struct miscdevice *miscdev;
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atomic_t pend_cnt; /* number of items pending to be read from host */
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atomic_t dma_cnt; /* any dma transaction outstanding */
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wait_queue_head_t rd_wq;
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};
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/* pid hash table entry */
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struct bcm_vk_ht_entry {
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struct list_head head;
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};
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#define VK_DMA_MAX_ADDRS 4 /* Max 4 DMA Addresses */
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/* structure for house keeping a single work entry */
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struct bcm_vk_wkent {
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struct list_head node; /* for linking purpose */
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struct bcm_vk_ctx *ctx;
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/* Store up to 4 dma pointers */
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struct bcm_vk_dma dma[VK_DMA_MAX_ADDRS];
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u32 to_h_blks; /* response */
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struct vk_msg_blk *to_h_msg;
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/*
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* put the to_v_msg at the end so that we could simply append to_v msg
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* to the end of the allocated block
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*/
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u32 usr_msg_id;
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u32 to_v_blks;
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u32 seq_num;
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struct vk_msg_blk to_v_msg[];
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};
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/* queue stats counters */
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struct bcm_vk_qs_cnts {
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u32 cnt; /* general counter, used to limit output */
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u32 acc_sum;
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u32 max_occ; /* max during a sampling period */
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u32 max_abs; /* the abs max since reset */
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};
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/* control channel structure for either to_v or to_h communication */
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struct bcm_vk_msg_chan {
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u32 q_nr;
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/* Mutex to access msgq */
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struct mutex msgq_mutex;
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/* pointing to BAR locations */
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struct bcm_vk_msgq __iomem *msgq[VK_MSGQ_MAX_NR];
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/* Spinlock to access pending queue */
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spinlock_t pendq_lock;
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/* for temporary storing pending items, one for each queue */
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struct list_head pendq[VK_MSGQ_MAX_NR];
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/* static queue info from the sync */
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struct bcm_vk_sync_qinfo sync_qinfo[VK_MSGQ_MAX_NR];
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};
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/* totol number of message q allowed by the driver */
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#define VK_MSGQ_PER_CHAN_MAX 3
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#define VK_MSGQ_NUM_DEFAULT (VK_MSGQ_PER_CHAN_MAX - 1)
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/* total number of supported ctx, 32 ctx each for 5 components */
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#define VK_CMPT_CTX_MAX (32 * 5)
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/* hash table defines to store the opened FDs */
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#define VK_PID_HT_SHIFT_BIT 7 /* 128 */
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#define VK_PID_HT_SZ BIT(VK_PID_HT_SHIFT_BIT)
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/* The following are offsets of DDR info provided by the vk card */
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#define VK_BAR0_SEG_SIZE (4 * SZ_1K) /* segment size for BAR0 */
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/* shutdown types supported */
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#define VK_SHUTDOWN_PID 1
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#define VK_SHUTDOWN_GRACEFUL 2
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#endif
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