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/* SPDX-License-Identifier: GPL-2.0 */
/* Copyright (c) 2012-2018, The Linux Foundation. All rights reserved.
* Copyright (C) 2019-2020 Linaro Ltd.
*/
#ifndef _IPA_DATA_H_
#define _IPA_DATA_H_
#include <linux/types.h>
#include "ipa_version.h"
#include "ipa_endpoint.h"
#include "ipa_mem.h"
/**
* DOC: IPA/GSI Configuration Data
*
* Boot-time configuration data is used to define the configuration of the
* IPA and GSI resources to use for a given platform. This data is supplied
* via the Device Tree match table, associated with a particular compatible
* string. The data defines information about resources, endpoints, and
* channels.
*
* Resources are data structures used internally by the IPA hardware. The
* configuration data defines the number (or limits of the number) of various
* types of these resources.
*
* Endpoint configuration data defines properties of both IPA endpoints and
* GSI channels. A channel is a GSI construct, and represents a single
* communication path between the IPA and a particular execution environment
* (EE), such as the AP or Modem. Each EE has a set of channels associated
* with it, and each channel has an ID unique for that EE. For the most part
* the only GSI channels of concern to this driver belong to the AP
*
* An endpoint is an IPA construct representing a single channel anywhere
* in the system. An IPA endpoint ID maps directly to an (EE, channel_id)
* pair. Generally, this driver is concerned with only endpoints associated
* with the AP, however this will change when support for routing (etc.) is
* added. IPA endpoint and GSI channel configuration data are defined
* together, establishing the endpoint_id->(EE, channel_id) mapping.
*
* Endpoint configuration data consists of three parts: properties that
* are common to IPA and GSI (EE ID, channel ID, endpoint ID, and direction);
* properties associated with the GSI channel; and properties associated with
* the IPA endpoint.
*/
/* The maximum value returned by ipa_resource_group_count() */
#define IPA_RESOURCE_GROUP_COUNT 4
/** enum ipa_resource_type_src - source resource types */
/**
* struct gsi_channel_data - GSI channel configuration data
* @tre_count: number of TREs in the channel ring
* @event_count: number of slots in the associated event ring
* @tlv_count: number of entries in channel's TLV FIFO
*
* A GSI channel is a unidirectional means of transferring data to or
* from (and through) the IPA. A GSI channel has a ring buffer made
* up of "transfer elements" (TREs) that specify individual data transfers
* or IPA immediate commands. TREs are filled by the AP, and control
* is passed to IPA hardware by writing the last written element
* into a doorbell register.
*
* When data transfer commands have completed the GSI generates an
* event (a structure of data) and optionally signals the AP with
* an interrupt. Event structures are implemented by another ring
* buffer, directed toward the AP from the IPA.
*
* The input to a GSI channel is a FIFO of type/length/value (TLV)
* elements, and the size of this FIFO limits the number of TREs
* that can be included in a single transaction.
*/
struct gsi_channel_data {
u16 tre_count;
u16 event_count;
u8 tlv_count;
};
/**
* struct ipa_endpoint_tx_data - configuration data for TX endpoints
* @status_endpoint: endpoint to which status elements are sent
*
* The @status_endpoint is only valid if the endpoint's @status_enable
* flag is set.
*/
struct ipa_endpoint_tx_data {
enum ipa_endpoint_name status_endpoint;
};
/**
* struct ipa_endpoint_rx_data - configuration data for RX endpoints
* @pad_align: power-of-2 boundary to which packet payload is aligned
* @aggr_close_eof: whether aggregation closes on end-of-frame
*
* With each packet it transfers, the IPA hardware can perform certain
* transformations of its packet data. One of these is adding pad bytes
* to the end of the packet data so the result ends on a power-of-2 boundary.
*
* It is also able to aggregate multiple packets into a single receive buffer.
* Aggregation is "open" while a buffer is being filled, and "closes" when
* certain criteria are met. One of those criteria is the sender indicating
* a "frame" consisting of several transfers has ended.
*/
struct ipa_endpoint_rx_data {
u32 pad_align;
bool aggr_close_eof;
};
/**
* struct ipa_endpoint_config_data - IPA endpoint hardware configuration
* @checksum: whether checksum offload is enabled
* @qmap: whether endpoint uses QMAP protocol
* @aggregation: whether endpoint supports aggregation
* @status_enable: whether endpoint uses status elements
* @dma_mode: whether endpoint operates in DMA mode
* @dma_endpoint: peer endpoint, if operating in DMA mode
* @tx: TX-specific endpoint information (see above)
* @rx: RX-specific endpoint information (see above)
*/
struct ipa_endpoint_config_data {
bool checksum;
bool qmap;
bool aggregation;
bool status_enable;
bool dma_mode;
enum ipa_endpoint_name dma_endpoint;
union {
struct ipa_endpoint_tx_data tx;
struct ipa_endpoint_rx_data rx;
};
};
/**
* struct ipa_endpoint_data - IPA endpoint configuration data
* @filter_support: whether endpoint supports filtering
* @seq_type: hardware sequencer type used for endpoint
* @config: hardware configuration (see above)
*
* Not all endpoints support the IPA filtering capability. A filter table
* defines the filters to apply for those endpoints that support it. The
* AP is responsible for initializing this table, and it must include entries
* for non-AP endpoints. For this reason we define *all* endpoints used
* in the system, and indicate whether they support filtering.
*
* The remaining endpoint configuration data applies only to AP endpoints.
* The IPA hardware is implemented by sequencers, and the AP must program
* the type(s) of these sequencers at initialization time. The remaining
* endpoint configuration data is defined above.
*/
struct ipa_endpoint_data {
bool filter_support;
/* The next two are specified only for AP endpoints */
enum ipa_seq_type seq_type;
struct ipa_endpoint_config_data config;
};
/**
* struct ipa_gsi_endpoint_data - GSI channel/IPA endpoint data
* ee: GSI execution environment ID
* channel_id: GSI channel ID
* endpoint_id: IPA endpoint ID
* toward_ipa: direction of data transfer
* gsi: GSI channel configuration data (see above)
* ipa: IPA endpoint configuration data (see above)
*/
struct ipa_gsi_endpoint_data {
u8 ee_id; /* enum gsi_ee_id */
u8 channel_id;
u8 endpoint_id;
bool toward_ipa;
struct gsi_channel_data channel;
struct ipa_endpoint_data endpoint;
};
/** enum ipa_resource_type_src - source resource types */
enum ipa_resource_type_src {
IPA_RESOURCE_TYPE_SRC_PKT_CONTEXTS,
IPA_RESOURCE_TYPE_SRC_DESCRIPTOR_LISTS,
IPA_RESOURCE_TYPE_SRC_DESCRIPTOR_BUFF,
IPA_RESOURCE_TYPE_SRC_HPS_DMARS,
IPA_RESOURCE_TYPE_SRC_ACK_ENTRIES,
};
/** enum ipa_resource_type_dst - destination resource types */
enum ipa_resource_type_dst {
IPA_RESOURCE_TYPE_DST_DATA_SECTORS,
IPA_RESOURCE_TYPE_DST_DPS_DMARS,
};
/**
* struct ipa_resource_limits - minimum and maximum resource counts
* @min: minimum number of resources of a given type
* @max: maximum number of resources of a given type
*/
struct ipa_resource_limits {
u32 min;
u32 max;
};
/**
* struct ipa_resource_src - source endpoint group resource usage
* @type: source group resource type
* @limits: array of limits to use for each resource group
*/
struct ipa_resource_src {
enum ipa_resource_type_src type;
struct ipa_resource_limits limits[IPA_RESOURCE_GROUP_COUNT];
};
/**
* struct ipa_resource_dst - destination endpoint group resource usage
* @type: destination group resource type
* @limits: array of limits to use for each resource group
*/
struct ipa_resource_dst {
enum ipa_resource_type_dst type;
struct ipa_resource_limits limits[IPA_RESOURCE_GROUP_COUNT];
};
/**
* struct ipa_resource_data - IPA resource configuration data
* @resource_src_count: number of entries in the resource_src array
* @resource_src: source endpoint group resources
* @resource_dst_count: number of entries in the resource_dst array
* @resource_dst: destination endpoint group resources
*
* In order to manage quality of service between endpoints, certain resources
* required for operation are allocated to groups of endpoints. Generally
* this information is invisible to the AP, but the AP is responsible for
* programming it at initialization time, so we specify it here.
*/
struct ipa_resource_data {
u32 resource_src_count;
const struct ipa_resource_src *resource_src;
u32 resource_dst_count;
const struct ipa_resource_dst *resource_dst;
};
/**
* struct ipa_mem - description of IPA memory regions
* @local_count: number of regions defined in the local[] array
* @local: array of IPA-local memory region descriptors
* @imem_addr: physical address of IPA region within IMEM
* @imem_size: size in bytes of IPA IMEM region
* @smem_id: item identifier for IPA region within SMEM memory
* @imem_size: size in bytes of the IPA SMEM region
*/
struct ipa_mem_data {
u32 local_count;
const struct ipa_mem *local;
u32 imem_addr;
u32 imem_size;
u32 smem_id;
u32 smem_size;
};
/**
* struct ipa_data - combined IPA/GSI configuration data
* @version: IPA hardware version
* @endpoint_count: number of entries in endpoint_data array
* @endpoint_data: IPA endpoint/GSI channel data
* @resource_data: IPA resource configuration data
* @mem_count: number of entries in mem_data array
* @mem_data: IPA-local shared memory region data
*/
struct ipa_data {
enum ipa_version version;
u32 endpoint_count; /* # entries in endpoint_data[] */
const struct ipa_gsi_endpoint_data *endpoint_data;
const struct ipa_resource_data *resource_data;
const struct ipa_mem_data *mem_data;
};
extern const struct ipa_data ipa_data_sdm845;
extern const struct ipa_data ipa_data_sc7180;
#endif /* _IPA_DATA_H_ */