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When a GSI channel is initially allocated, and after it has been reset, the hardware assumes its ring index is 0. And although we do initialize channels this way, the comments in the IPA code don't really explain this. For event rings, it doesn't matter what value we use initially, so using 0 is just fine. Add some information about the assumptions made by hardware above the definition of the gsi_ring structure in "gsi.h". Zero the index field for all rings (channel and event) when the ring is allocated. As a result, that function initializes all fields in the structure. Stop zeroing the index the top of gsi_channel_program(). Initially we'll use the index value set when the channel ring was allocated. And we'll explicitly zero the index value in gsi_channel_reset() before programming the hardware, adding a comment explaining why it's required. For event rings, use the index initialized by gsi_ring_alloc() rather than 0 when ringing the doorbell in gsi_evt_ring_program(). (It'll still be zero, but we won't assume that to be the case.) Use a local variable in gsi_evt_ring_program() that represents the address of the event ring's ring structure. Signed-off-by: Alex Elder <elder@linaro.org> Signed-off-by: David S. Miller <davem@davemloft.net>
287 lines
8.9 KiB
C
287 lines
8.9 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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/* Copyright (c) 2015-2018, The Linux Foundation. All rights reserved.
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* Copyright (C) 2018-2021 Linaro Ltd.
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*/
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#ifndef _GSI_H_
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#define _GSI_H_
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#include <linux/types.h>
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#include <linux/spinlock.h>
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#include <linux/mutex.h>
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#include <linux/completion.h>
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#include <linux/platform_device.h>
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#include <linux/netdevice.h>
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#include "ipa_version.h"
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/* Maximum number of channels and event rings supported by the driver */
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#define GSI_CHANNEL_COUNT_MAX 23
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#define GSI_EVT_RING_COUNT_MAX 24
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/* Maximum TLV FIFO size for a channel; 64 here is arbitrary (and high) */
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#define GSI_TLV_MAX 64
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struct device;
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struct scatterlist;
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struct platform_device;
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struct gsi;
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struct gsi_trans;
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struct gsi_channel_data;
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struct ipa_gsi_endpoint_data;
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/* Execution environment IDs */
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enum gsi_ee_id {
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GSI_EE_AP = 0x0,
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GSI_EE_MODEM = 0x1,
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GSI_EE_UC = 0x2,
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GSI_EE_TZ = 0x3,
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};
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struct gsi_ring {
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void *virt; /* ring array base address */
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dma_addr_t addr; /* primarily low 32 bits used */
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u32 count; /* number of elements in ring */
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/* The ring index value indicates the next "open" entry in the ring.
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*
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* A channel ring consists of TRE entries filled by the AP and passed
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* to the hardware for processing. For a channel ring, the ring index
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* identifies the next unused entry to be filled by the AP. In this
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* case the initial value is assumed by hardware to be 0.
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*
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* An event ring consists of event structures filled by the hardware
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* and passed to the AP. For event rings, the ring index identifies
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* the next ring entry that is not known to have been filled by the
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* hardware. The initial value used is arbitrary (so we use 0).
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*/
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u32 index;
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};
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/* Transactions use several resources that can be allocated dynamically
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* but taken from a fixed-size pool. The number of elements required for
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* the pool is limited by the total number of TREs that can be outstanding.
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*
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* If sufficient TREs are available to reserve for a transaction,
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* allocation from these pools is guaranteed to succeed. Furthermore,
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* these resources are implicitly freed whenever the TREs in the
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* transaction they're associated with are released.
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*
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* The result of a pool allocation of multiple elements is always
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* contiguous.
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*/
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struct gsi_trans_pool {
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void *base; /* base address of element pool */
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u32 count; /* # elements in the pool */
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u32 free; /* next free element in pool (modulo) */
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u32 size; /* size (bytes) of an element */
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u32 max_alloc; /* max allocation request */
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dma_addr_t addr; /* DMA address if DMA pool (or 0) */
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};
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struct gsi_trans_info {
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atomic_t tre_avail; /* TREs available for allocation */
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struct gsi_trans_pool pool; /* transaction pool */
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struct gsi_trans_pool sg_pool; /* scatterlist pool */
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struct gsi_trans_pool cmd_pool; /* command payload DMA pool */
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struct gsi_trans **map; /* TRE -> transaction map */
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spinlock_t spinlock; /* protects updates to the lists */
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struct list_head alloc; /* allocated, not committed */
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struct list_head pending; /* committed, awaiting completion */
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struct list_head complete; /* completed, awaiting poll */
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struct list_head polled; /* returned by gsi_channel_poll_one() */
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};
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/* Hardware values signifying the state of a channel */
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enum gsi_channel_state {
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GSI_CHANNEL_STATE_NOT_ALLOCATED = 0x0,
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GSI_CHANNEL_STATE_ALLOCATED = 0x1,
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GSI_CHANNEL_STATE_STARTED = 0x2,
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GSI_CHANNEL_STATE_STOPPED = 0x3,
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GSI_CHANNEL_STATE_STOP_IN_PROC = 0x4,
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GSI_CHANNEL_STATE_FLOW_CONTROLLED = 0x5, /* IPA v4.2-v4.9 */
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GSI_CHANNEL_STATE_ERROR = 0xf,
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};
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/* We only care about channels between IPA and AP */
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struct gsi_channel {
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struct gsi *gsi;
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bool toward_ipa;
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bool command; /* AP command TX channel or not */
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u8 trans_tre_max; /* max TREs in a transaction */
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u16 tre_count;
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u16 event_count;
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struct gsi_ring tre_ring;
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u32 evt_ring_id;
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/* The following counts are used only for TX endpoints */
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u64 byte_count; /* total # bytes transferred */
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u64 trans_count; /* total # transactions */
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u64 queued_byte_count; /* last reported queued byte count */
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u64 queued_trans_count; /* ...and queued trans count */
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u64 compl_byte_count; /* last reported completed byte count */
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u64 compl_trans_count; /* ...and completed trans count */
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struct gsi_trans_info trans_info;
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struct napi_struct napi;
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};
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/* Hardware values signifying the state of an event ring */
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enum gsi_evt_ring_state {
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GSI_EVT_RING_STATE_NOT_ALLOCATED = 0x0,
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GSI_EVT_RING_STATE_ALLOCATED = 0x1,
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GSI_EVT_RING_STATE_ERROR = 0xf,
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};
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struct gsi_evt_ring {
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struct gsi_channel *channel;
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struct gsi_ring ring;
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};
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struct gsi {
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struct device *dev; /* Same as IPA device */
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enum ipa_version version;
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void __iomem *virt_raw; /* I/O mapped address range */
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void __iomem *virt; /* Adjusted for most registers */
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u32 irq;
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u32 channel_count;
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u32 evt_ring_count;
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u32 event_bitmap; /* allocated event rings */
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u32 modem_channel_bitmap; /* modem channels to allocate */
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u32 type_enabled_bitmap; /* GSI IRQ types enabled */
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u32 ieob_enabled_bitmap; /* IEOB IRQ enabled (event rings) */
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int result; /* Negative errno (generic commands) */
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struct completion completion; /* Signals GSI command completion */
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struct mutex mutex; /* protects commands, programming */
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struct gsi_channel channel[GSI_CHANNEL_COUNT_MAX];
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struct gsi_evt_ring evt_ring[GSI_EVT_RING_COUNT_MAX];
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struct net_device dummy_dev; /* needed for NAPI */
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};
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/**
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* gsi_setup() - Set up the GSI subsystem
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* @gsi: Address of GSI structure embedded in an IPA structure
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*
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* Return: 0 if successful, or a negative error code
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*
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* Performs initialization that must wait until the GSI hardware is
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* ready (including firmware loaded).
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*/
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int gsi_setup(struct gsi *gsi);
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/**
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* gsi_teardown() - Tear down GSI subsystem
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* @gsi: GSI address previously passed to a successful gsi_setup() call
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*/
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void gsi_teardown(struct gsi *gsi);
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/**
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* gsi_channel_tre_max() - Channel maximum number of in-flight TREs
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* @gsi: GSI pointer
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* @channel_id: Channel whose limit is to be returned
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*
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* Return: The maximum number of TREs oustanding on the channel
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*/
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u32 gsi_channel_tre_max(struct gsi *gsi, u32 channel_id);
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/**
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* gsi_channel_start() - Start an allocated GSI channel
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* @gsi: GSI pointer
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* @channel_id: Channel to start
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*
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* Return: 0 if successful, or a negative error code
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*/
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int gsi_channel_start(struct gsi *gsi, u32 channel_id);
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/**
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* gsi_channel_stop() - Stop a started GSI channel
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* @gsi: GSI pointer returned by gsi_setup()
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* @channel_id: Channel to stop
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*
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* Return: 0 if successful, or a negative error code
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*/
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int gsi_channel_stop(struct gsi *gsi, u32 channel_id);
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/**
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* gsi_modem_channel_flow_control() - Set channel flow control state (IPA v4.2+)
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* @gsi: GSI pointer returned by gsi_setup()
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* @channel_id: Modem TX channel to control
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* @enable: Whether to enable flow control (i.e., prevent flow)
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*/
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void gsi_modem_channel_flow_control(struct gsi *gsi, u32 channel_id,
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bool enable);
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/**
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* gsi_channel_reset() - Reset an allocated GSI channel
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* @gsi: GSI pointer
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* @channel_id: Channel to be reset
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* @doorbell: Whether to (possibly) enable the doorbell engine
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*
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* Reset a channel and reconfigure it. The @doorbell flag indicates
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* that the doorbell engine should be enabled if needed.
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*
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* GSI hardware relinquishes ownership of all pending receive buffer
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* transactions and they will complete with their cancelled flag set.
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*/
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void gsi_channel_reset(struct gsi *gsi, u32 channel_id, bool doorbell);
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/**
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* gsi_suspend() - Prepare the GSI subsystem for suspend
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* @gsi: GSI pointer
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*/
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void gsi_suspend(struct gsi *gsi);
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/**
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* gsi_resume() - Resume the GSI subsystem following suspend
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* @gsi: GSI pointer
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*/
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void gsi_resume(struct gsi *gsi);
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/**
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* gsi_channel_suspend() - Suspend a GSI channel
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* @gsi: GSI pointer
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* @channel_id: Channel to suspend
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*
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* For IPA v4.0+, suspend is implemented by stopping the channel.
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*/
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int gsi_channel_suspend(struct gsi *gsi, u32 channel_id);
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/**
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* gsi_channel_resume() - Resume a suspended GSI channel
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* @gsi: GSI pointer
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* @channel_id: Channel to resume
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*
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* For IPA v4.0+, the stopped channel is started again.
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*/
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int gsi_channel_resume(struct gsi *gsi, u32 channel_id);
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/**
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* gsi_init() - Initialize the GSI subsystem
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* @gsi: Address of GSI structure embedded in an IPA structure
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* @pdev: IPA platform device
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* @version: IPA hardware version (implies GSI version)
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* @count: Number of entries in the configuration data array
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* @data: Endpoint and channel configuration data
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*
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* Return: 0 if successful, or a negative error code
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*
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* Early stage initialization of the GSI subsystem, performing tasks
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* that can be done before the GSI hardware is ready to use.
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*/
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int gsi_init(struct gsi *gsi, struct platform_device *pdev,
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enum ipa_version version, u32 count,
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const struct ipa_gsi_endpoint_data *data);
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/**
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* gsi_exit() - Exit the GSI subsystem
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* @gsi: GSI address previously passed to a successful gsi_init() call
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*/
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void gsi_exit(struct gsi *gsi);
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#endif /* _GSI_H_ */
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