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rshim.h
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rshim.h
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/*
* Copyright 2017 Mellanox Technologies. All Rights Reserved.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation, version 2.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, GOOD TITLE or
* NON INFRINGEMENT. See the GNU General Public License for
* more details.
*/
#ifndef _RSHIM_H
#define _RSHIM_H
#include <linux/kernel.h>
#include <linux/kref.h>
#include <linux/module.h>
#include <linux/mutex.h>
#include <linux/termios.h>
#include <linux/workqueue.h>
#include <linux/device.h>
#include <linux/cdev.h>
#include "rshim_regs.h"
/* Output macros. */
#define ERROR(fmt, ...) \
printk(KERN_ERR "rshim: " fmt "\n", ## __VA_ARGS__)
#define INFO(fmt, ...) \
printk(KERN_INFO "rshim: " fmt "\n", ## __VA_ARGS__)
/* ACCESS_ONCE() wrapper. */
#if LINUX_VERSION_CODE >= KERNEL_VERSION(4, 15, 0)
#define RSHIM_READ_ONCE(x) READ_ONCE(x)
#else
#define RSHIM_READ_ONCE(x) ACCESS_ONCE(x)
#endif
/*
* This forces only one reset to occur at a time. Once we've gotten
* more experience with this mode we'll probably remove the #define.
*/
#define RSH_RESET_MUTEX 1
/* Spin flag values. */
#define RSH_SFLG_READING 0x1 /* read is active. */
#define RSH_SFLG_WRITING 0x2 /* write_urb is active. */
#define RSH_SFLG_CONS_OPEN 0x4 /* console stream is open. */
/*
* Buffer/FIFO sizes. Note that the FIFO sizes must be powers of 2; also,
* the read and write buffers must be no larger than the corresponding
* FIFOs.
*/
#define READ_BUF_SIZE 2048
#define WRITE_BUF_SIZE 2048
#define READ_FIFO_SIZE (4 * 1024)
#define WRITE_FIFO_SIZE (4 * 1024)
#define BOOT_BUF_SIZE (16 * 1024)
/* Sub-device types. */
enum {
RSH_DEV_TYPE_RSHIM,
RSH_DEV_TYPE_BOOT,
RSH_DEV_TYPE_CONSOLE,
RSH_DEV_TYPE_NET,
RSH_DEV_TYPE_MISC,
RSH_DEV_TYPES
};
/* Event types used in rshim_notify(). */
enum {
RSH_EVENT_FIFO_INPUT, /* fifo ready for input */
RSH_EVENT_FIFO_OUTPUT, /* fifo ready for output */
RSH_EVENT_FIFO_ERR, /* fifo error */
RSH_EVENT_ATTACH, /* backend attaching */
RSH_EVENT_DETACH, /* backend detaching */
};
/* RShim service types. */
enum {
RSH_SVC_NET, /* networking service */
RSH_SVC_MAX
};
/* Internal message types in addition to the standard VIRTIO_ID_xxx types. */
enum {
TMFIFO_MSG_VLAN_ID = 0xFB, /* vlan id */
TMFIFO_MSG_PXE_ID = 0xFC, /* pxe client identifier */
TMFIFO_MSG_CTRL_REQ = 0xFD, /* ctrl request */
TMFIFO_MSG_MAC_1 = 0xFE, /* mac[0:2] */
TMFIFO_MSG_MAC_2 = 0xFF, /* mac[3:4] */
};
/* TMFIFO message header. */
union rshim_tmfifo_msg_hdr {
struct {
u8 type; /* message type */
__be16 len; /* payload length */
union {
u8 mac[3]; /* 3-bytes of the MAC address */
__be32 pxe_id; /* pxe identifier */
__be16 vlan[2]; /* up to two vlan id */
} __packed;
u8 checksum; /* header checksum */
} __packed;
u64 data;
};
/* TMFIFO demux channels. */
enum {
TMFIFO_CONS_CHAN, /* Console */
TMFIFO_NET_CHAN, /* Network */
TMFIFO_MAX_CHAN /* Number of channels */
};
/* Various rshim definitions. */
#define RSH_INT_VEC0_RTC__SWINT3_MASK 0x8
#define RSH_BYTE_ACC_READ_TRIGGER 0x50
#define RSH_BYTE_ACC_SIZE_4BYTE 0x10
#define RSH_BYTE_ACC_PENDING 0x20
#define BOOT_CHANNEL RSH_MMIO_ADDRESS_SPACE__CHANNEL_VAL_BOOT
#define RSHIM_CHANNEL RSH_MMIO_ADDRESS_SPACE__CHANNEL_VAL_RSHIM
#define UART0_CHANNEL RSH_MMIO_ADDRESS_SPACE__CHANNEL_VAL_UART0
#define UART1_CHANNEL RSH_MMIO_ADDRESS_SPACE__CHANNEL_VAL_UART1
/* Base RShim Address */
#define RSH_BASE_ADDR 0x80000000
#define RSH_CHANNEL_BASE(chan) (RSH_BASE_ADDR | (chan << 16))
#define RSH_BOOT_FIFO_SIZE 512
#define LOCK_RETRY_CNT 100000
/* FIFO structure. */
struct rshim_fifo {
unsigned char *data;
unsigned int head;
unsigned int tail;
wait_queue_head_t operable;
};
/* RShim backend. */
struct rshim_backend {
/* Device name. */
char *dev_name;
/* Backend owner. */
struct module *owner;
/* Pointer to the backend device. */
struct device *dev;
/* Pointer to the net device. */
void *net;
/* House-keeping Timer. */
struct timer_list timer;
/* Character device structure for each device. */
struct cdev cdevs[RSH_DEV_TYPES];
/*
* The reference count for this structure. This is incremented by
* each open, and by the probe routine (thus, one reference for
* each of the two interfaces). It's decremented on each release,
* and on each disconnect.
*/
struct kref kref;
/* State flags. */
u32 is_booting : 1; /* Waiting for device to come back. */
u32 is_boot_open : 1; /* Boot device is open. */
u32 is_tm_open : 1; /* TM FIFO device is open. */
u32 is_cons_open : 1; /* Console device is open. */
u32 is_in_boot_write : 1; /* A thread is in boot_write(). */
u32 has_cons_work : 1; /* Console worker thread running. */
u32 has_debug : 1; /* Debug enabled for this device. */
u32 has_tm : 1; /* TM FIFO found. */
u32 has_rshim : 1; /* RSHIM found. */
u32 has_fifo_work : 1; /* FIFO output to be done in worker. */
u32 has_reprobe : 1; /* Reprobe support after SW reset. */
u32 drop : 1; /* Drop the rest of the packet. */
u32 registered : 1; /* Backend has been registered. */
u32 keepalive : 1; /* A flag to update keepalive. */
u32 peer_ctrl_req : 1; /* A flag to send ctrl request. */
u32 peer_ctrl_resp : 1; /* A flag to indicate MAC response rcvd. */
u32 peer_mac_set : 1; /* A flag to send MAC-set request. */
u32 peer_pxe_id_set : 1; /* A flag to send pxe-id-set request. */
u32 peer_vlan_set : 1; /* A flag to set vlan IDs. */
/* Jiffies of last keepalive. */
u64 last_keepalive;
/* State flag bits from RSH_SFLG_xxx (see above). */
int spin_flags;
/* Total bytes in the read buffer. */
int read_buf_bytes;
/* Offset of next unread byte in the read buffer. */
int read_buf_next;
/* Bytes left in the current packet, or 0 if no current packet. */
int read_buf_pkt_rem;
/* Padded bytes in the read buffer. */
int read_buf_pkt_padding;
/* Bytes left in the current packet pending to write. */
int write_buf_pkt_rem;
/* Current message header. */
union rshim_tmfifo_msg_hdr msg_hdr;
/* Read FIFOs. */
struct rshim_fifo read_fifo[TMFIFO_MAX_CHAN];
/* Write FIFOs. */
struct rshim_fifo write_fifo[TMFIFO_MAX_CHAN];
/* Read buffer. This is a DMA'able buffer. */
unsigned char *read_buf;
dma_addr_t read_buf_dma;
/* Write buffer. This is a DMA'able buffer. */
unsigned char *write_buf;
dma_addr_t write_buf_dma;
/* Current Tx FIFO channel. */
int tx_chan;
/* Current Rx FIFO channel. */
int rx_chan;
/* First error encountered during read or write. */
int tmfifo_error;
/* Buffers used for boot writes. Allocated at startup. */
char *boot_buf[2];
/* Buffer to store the remaining data when it's not 8B unaligned. */
u8 boot_rem_cnt;
u64 boot_rem_data;
/*
* This mutex is used to prevent the interface pointers and the
* device pointer from disappearing while a driver entry point
* is using them. It's held throughout a read or write operation
* (at least the parts of those operations which depend upon those
* pointers) and is also held whenever those pointers are modified.
* It also protects state flags, and booting_complete.
*/
struct mutex mutex;
/* We'll signal completion on this when FLG_BOOTING is turned off. */
struct completion booting_complete;
#ifdef RSH_RESET_MUTEX
/* Signaled when a device is disconnected. */
struct completion reset_complete;
#endif
/*
* This wait queue supports fsync; it's woken up whenever an
* outstanding USB write URB is done. This will need to be more
* complex if we start doing write double-buffering.
*/
wait_queue_head_t write_completed;
/* Wait queue for control messages. */
wait_queue_head_t ctrl_wait;
/* State for our outstanding boot write. */
struct completion boot_write_complete;
/*
* This spinlock is used to protect items which must be updated by
* URB completion handlers, since those can't sleep. This includes
* the read and write buffer pointers, as well as spin_flags.
*/
spinlock_t spinlock;
/* Current termios settings for the console. */
#if LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 20)
struct termios cons_termios;
#else
struct ktermios cons_termios;
#endif
/* Work queue entry. */
#if LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 20)
struct work_struct work;
#else
struct delayed_work work;
#endif
/* Pending boot & fifo request for the worker. */
u8 *boot_work_buf;
u32 boot_work_buf_len;
u32 boot_work_buf_actual_len;
u8 *fifo_work_buf;
u32 fifo_work_buf_len;
int fifo_work_devtype;
/* Number of open console files. */
long console_opens;
/*
* Our index in rshim_devs, which is also the high bits of our
* minor number.
*/
int dev_index;
/* Configured MAC address of the peer-side. */
u8 peer_mac[6];
/* Configured PXE client identifier. */
u32 pxe_client_id;
/* Up to two VLAN IDs for PXE purpose. */
u16 vlan[2];
/* APIs provided by backend. */
/* API to write bulk data to RShim via the backend. */
ssize_t (*write)(struct rshim_backend *bd, int devtype,
const char *buf, size_t count);
/* API to read bulk data from RShim via the backend. */
ssize_t (*read)(struct rshim_backend *bd, int devtype,
char *buf, size_t count);
/* API to cancel a read / write request (optional). */
void (*cancel)(struct rshim_backend *bd, int devtype, bool is_write);
/* API to destroy the backend. */
void (*destroy)(struct kref *kref);
/* API to read 8 bytes from RShim. */
int (*read_rshim)(struct rshim_backend *bd, int chan, int addr,
u64 *value);
/* API to write 8 bytes to RShim. */
int (*write_rshim)(struct rshim_backend *bd, int chan, int addr,
u64 value);
};
/* RShim service. */
struct rshim_service {
/* Service type RSH_SVC_xxx. */
int type;
/* Reference number. */
atomic_t ref;
/* Create service. */
int (*create)(struct rshim_backend *bd);
/* Delete service. */
int (*delete)(struct rshim_backend *bd);
/* Notify service Rx is ready. */
void (*rx_notify)(struct rshim_backend *bd);
};
/* Global variables. */
/* Global array to store RShim devices and names. */
extern struct workqueue_struct *rshim_wq;
/* Boot timeout value. */
extern int rshim_boot_timeout;
/* Common APIs. */
/* Register/unregister backend. */
int rshim_register(struct rshim_backend *bd);
void rshim_deregister(struct rshim_backend *bd);
/* Register / deregister service. */
int rshim_register_service(struct rshim_service *service);
void rshim_deregister_service(struct rshim_service *service);
/* Find backend by name. */
struct rshim_backend *rshim_find(char *dev_name);
/* RShim global lock. */
void rshim_lock(void);
void rshim_unlock(void);
/* Event notification. */
int rshim_notify(struct rshim_backend *bd, int event, int code);
/*
* FIFO APIs.
*
* FIFO is demuxed into two channels, one for network interface
* (TMFIFO_NET_CHAN), one for console (TMFIFO_CONS_CHAN).
*/
/* Write / read some bytes to / from the FIFO via the backend. */
ssize_t rshim_fifo_read(struct rshim_backend *bd, char *buffer,
size_t count, int chan, bool nonblock,
bool to_user);
ssize_t rshim_fifo_write(struct rshim_backend *bd, const char *buffer,
size_t count, int chan, bool nonblock,
bool from_user);
/* Alloc/free the FIFO. */
int rshim_fifo_alloc(struct rshim_backend *bd);
void rshim_fifo_free(struct rshim_backend *bd);
/* Console APIs. */
/* Enable early console. */
int rshim_cons_early_enable(struct rshim_backend *bd);
#endif /* _RSHIM_H */