317 lines
9.9 KiB
C
317 lines
9.9 KiB
C
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/*
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* tegra-nvlink.h:
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* This header contains the structures and APIs needed by Tegra NVLINK core and
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* endpoint drivers for interacting with each other.
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*
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* Copyright (c) 2017-2018, NVIDIA CORPORATION. All rights reserved.
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms and conditions of the GNU General Public License,
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* version 2, as published by the Free Software Foundation.
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*
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* This program is distributed in the hope it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef TEGRA_NVLINK_H
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#define TEGRA_NVLINK_H
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#include <linux/mutex.h>
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#define NVLINK_MAX_DEVICES 2
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#define NVLINK_MAX_LINKS 2
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#define DEFAULT_LOOP_SLEEP_US 100
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#define DEFAULT_LOOP_TIMEOUT_US 1000000
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#define LINK_BITRATE_150MHZ_16GBPS 15500000000ULL
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#define LINK_BITRATE_156MHZ_16GBPS 16145830000ULL
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#define LINK_BITRATE_150MHZ_20GBPS 19200000000ULL
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#define LINK_BITRATE_156MHZ_20GBPS 20001280000ULL
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struct nvlink_link;
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struct nvlink_device;
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enum nvlink_log_categories {
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nvlink_log_err = BIT(0), /* Error prints - these will be printed
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unconditionally */
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nvlink_log_dbg = BIT(1), /* Debug prints */
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};
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#ifdef CONFIG_DEBUG_FS
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/* This is the root debugfs directory for the entire NVLINK driver stack */
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extern struct dentry *nvlink_debugfs_root;
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/* This is the parent debugfs directory for NVLINK tests */
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extern struct dentry *nvlink_debugfs_tests;
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#endif /* CONFIG_DEBUG_FS */
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extern u32 nvlink_log_mask;
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#define NVLINK_DEFAULT_LOG_MASK nvlink_log_err
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#define nvlink_print(log_mask, fmt, arg...) \
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do { \
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if ((log_mask) & nvlink_log_mask) \
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printk("%s: %s: %d: " fmt "\n", \
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NVLINK_MODULE_NAME, \
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__func__, \
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__LINE__, \
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##arg); \
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} while (0)
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#define nvlink_err(fmt, arg...) nvlink_print(nvlink_log_err, fmt, ##arg)
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#define nvlink_dbg(fmt, arg...) nvlink_print(nvlink_log_dbg, fmt, ##arg)
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/* Enum to represent link speed. Nvlink 2.0 can support below 2 speeds */
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enum nvlink_speed {
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NVLINK_SPEED_16,
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NVLINK_SPEED_20
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};
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/* Enum nvlink_endpt will be used to initialize device ID in device struct */
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enum nvlink_endpt {
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NVLINK_ENDPT_T19X,
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NVLINK_ENDPT_GV100
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};
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/*
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* Link modes are SW defined. Some modes map to HW link state, while some
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* falicitate transiting to a power state or off state.
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*/
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enum link_mode {
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NVLINK_LINK_OFF,
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NVLINK_LINK_HS,
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NVLINK_LINK_SAFE,
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NVLINK_LINK_FAULT,
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NVLINK_LINK_RCVY_AC,
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NVLINK_LINK_RCVY_SW,
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NVLINK_LINK_RCVY_RX,
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NVLINK_LINK_DETECT,
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NVLINK_LINK_RESET,
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NVLINK_LINK_ENABLE_PM,
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NVLINK_LINK_DISABLE_PM,
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NVLINK_LINK_DISABLE_ERR_DETECT,
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NVLINK_LINK_LANE_DISABLE,
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NVLINK_LINK_LANE_SHUTDOWN
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};
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/*
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* TX_mode and RX_mode contains SW defined sublink modes. Some modes map to HW
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* sublink states while some are intermediate states needed for link training
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* and other sequences.
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*/
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enum tx_mode {
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NVLINK_TX_HS,
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NVLINK_TX_ENABLE_PM,
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NVLINK_TX_DISABLE_PM,
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NVLINK_TX_SINGLE_LANE,
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NVLINK_TX_SAFE,
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NVLINK_TX_OFF,
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NVLINK_TX_COMMON,
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NVLINK_TX_COMMON_DISABLE,
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NVLINK_TX_DATA_READY,
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NVLINK_TX_PRBS_EN,
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};
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enum rx_mode {
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NVLINK_RX_HS,
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NVLINK_RX_ENABLE_PM,
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NVLINK_RX_DISABLE_PM,
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NVLINK_RX_SINGLE_LANE,
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NVLINK_RX_SAFE,
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NVLINK_RX_OFF,
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NVLINK_RX_RXCAL,
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};
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/*
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* During nvlink device initialization, we use enum init_state to keep track of
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* what state we have reached. Based on the init state and the link mode, only
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* necessary steps will be executed. This allows us to call enumerate function
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* multiple times.
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*
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* NVLINK_DEV_OFF : The device is off and no part of nvlink controller hardware
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* is out of reset and clocked.
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*
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* NVLINK_DEV_EARLY_INIT_DONE: The clocks are up, all resets deasserted, the
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* minion has booted and device level interrupts are initialized.
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*
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* NVLINK_LINK_EARLY_INIT_DONE: The link level initialization is done like -
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* initialization of PHY, link interrupts and TLC buffers.
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*
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* NVLINK_DEV_INTERFACE_INIT_DONE: The memory interface is initialized.
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*
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* NVLINK_REG_INIT_DONE: The prod settings are incorporated. At this point
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* the link is ready to transition to safe mode and eventually to
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* High-Speed mode.
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*/
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enum init_state {
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NVLINK_DEV_OFF,
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NVLINK_DEV_EARLY_INIT_DONE,
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NVLINK_LINK_EARLY_INIT_DONE,
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NVLINK_DEV_INTERFACE_INIT_DONE,
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NVLINK_DEV_REG_INIT_DONE,
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NVLINK_INIT_STATE_INVALID
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};
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/*
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* These callbacks should be registered with core-driver during link
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* registration. These link_ops allow core-driver to enquire/set link and
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* sublink modes. Some help during link initializatiion.
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*
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* TODO: Pass struct nvlink_link as argument to below link_ops instead of using
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* struct nvlink_device. All the link level readl/writel functions need to
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* use link struct instead of device struct for above change.
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*/
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struct link_operations {
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u32 (*get_link_mode)(struct nvlink_device *ndev);
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int (*set_link_mode)(struct nvlink_device *ndev, u32 mode);
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u32 (*get_sublink_mode)(struct nvlink_device *ndev, bool is_rx_sublink);
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int (*set_sublink_mode)(struct nvlink_device *ndev, bool is_rx_sublink,
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u32 mode);
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u32 (*get_link_state)(struct nvlink_device *ndev);
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void (*get_tx_sublink_state)(struct nvlink_device *ndev,
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u32 *tx_sublink_state);
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void (*get_rx_sublink_state)(struct nvlink_device *ndev,
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u32 *rx_sublink_state);
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int (*link_early_init)(struct nvlink_device *ndev);
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};
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/* These dev_ops expose interface between the core driver and endpoint device */
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struct device_operations {
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int (*dev_early_init)(struct nvlink_device *ndev);
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int (*dev_interface_init)(struct nvlink_device *ndev);
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int (*dev_reg_init)(struct nvlink_device *ndev);
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int (*dev_interface_disable)(struct nvlink_device *ndev);
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int (*dev_shutdown)(struct nvlink_device *ndev);
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};
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struct nvlink_device_pci_info {
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u16 domain;
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u16 bus;
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u16 device;
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u16 function;
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u32 pci_device_id;
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};
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/*
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* The core-driver maintains the topology information. We use remote_device_info
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* so that the endpoint driver can pass the topology information to the core
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* driver.
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*/
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struct remote_device_info {
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/* Device id of remote device connected */
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enum nvlink_endpt device_id;
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/* Link id of the remote link connected */
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u32 link_id;
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/* Information about device's PCI connection */
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struct nvlink_device_pci_info pci_info;
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};
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/* Structure representing the MINION ucode header */
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struct minion_hdr {
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u32 os_code_offset;
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u32 os_code_size;
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u32 os_data_offset;
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u32 os_data_size;
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u32 num_apps;
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u32 *app_code_offsets;
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u32 *app_code_sizes;
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u32 *app_data_offsets;
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u32 *app_data_sizes;
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u32 ovl_offset;
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u32 ovl_size;
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u32 ucode_data_size;
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};
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/*
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* nvlink_link struct stores all link specific data which is relevant
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* to core-driver.
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*/
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struct nvlink_link {
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/*
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* The link id is unique across the entire nvlink system. Same link_id
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* should not be used in different device structs. This is a HACK we
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* need while we hardcode the topology in device tree.
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* TODO: Add an enum for link_id like we have for device_id.
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*/
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u32 link_id;
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/* ID of the device that this link belongs to */
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enum nvlink_endpt device_id;
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/* link mode TODO: Add locks to protect the link_mode changes */
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enum link_mode mode;
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/*
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* is the link connected to an endpt. Useful for devices with multiple
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* links. Currenly unused on Tegra.
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* TODO: Set this before registering the link
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*/
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bool is_connected;
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/* Is single-lane mode supported for this link ? */
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bool is_sl_supported;
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/* Pointer to device info of connected end point */
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struct remote_device_info remote_dev_info;
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/*
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* Pointer to struct containing callback functions to do link specific
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* operation from core driver
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*/
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struct link_operations link_ops;
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/* Pointer to parent struct nvlink_device */
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struct nvlink_device *ndev;
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/* Pointer to implementations specific private data */
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void *priv;
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};
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/* nvlink_device struct stores all device specific data. */
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struct nvlink_device {
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/* device_id */
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enum nvlink_endpt device_id;
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/* Information about device's PCI connection */
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struct nvlink_device_pci_info pci_info;
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/* init state */
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enum init_state init_state;
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/* Mutex to protect init_state access */
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struct mutex init_state_mutex;
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/*
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* Only the master device can initiate enumeration and data transfer
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* on nvlink. bool to check this device is master.
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*/
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bool is_master;
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/* NVlink Speed */
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enum nvlink_speed speed;
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/* The bitrate at which the link is operating */
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u64 link_bitrate;
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/* MINION FW - contains both the ucode header and image */
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const struct firmware *minion_fw;
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/* MINION ucode header */
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struct minion_hdr minion_hdr;
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/* MINION ucode image */
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const u8 *minion_img;
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/*nvlink link data. We assume there is single link per device*/
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struct nvlink_link link;
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/* Pointer to struct containing callback functions to do device specific
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* operation from core driver
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*/
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struct device_operations dev_ops;
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/* pointer to private data of this device */
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void *priv;
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};
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/* APIs used by endpoint drivers for interfacing with the core driver */
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void nvlink_print_topology(void);
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void __nvlink_dma_flush_area(const void *ptr, size_t size);
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int nvlink_register_device(struct nvlink_device* device);
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int nvlink_register_link(struct nvlink_link* link);
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int nvlink_unregister_device(struct nvlink_device* device);
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int nvlink_unregister_link(struct nvlink_link* link);
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int nvlink_get_init_state(struct nvlink_device *ndev, enum init_state *state);
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int nvlink_set_init_state(struct nvlink_device *ndev, enum init_state state);
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int nvlink_enumerate(struct nvlink_device *ndev);
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int nvlink_transition_intranode_conn_off_to_safe(struct nvlink_device *ndev);
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int nvlink_train_intranode_conn_safe_to_hs(struct nvlink_device *ndev);
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int nvlink_initialize_endpoint(struct nvlink_device *ndev);
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int nvlink_transition_intranode_conn_hs_to_safe(struct nvlink_device *ndev);
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int nvlink_shutdown(struct nvlink_device *ndev);
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#endif /* TEGRA_NVLINK_H */
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