1 /* SPDX-License-Identifier: GPL-2.0 */ 2 3 /* Copyright (c) 2012-2018, The Linux Foundation. All rights reserved. 4 * Copyright (C) 2019-2021 Linaro Ltd. 5 */ 6 #ifndef _IPA_DATA_H_ 7 #define _IPA_DATA_H_ 8 9 #include <linux/types.h> 10 11 #include "ipa_version.h" 12 #include "ipa_endpoint.h" 13 #include "ipa_mem.h" 14 15 /** 16 * DOC: IPA/GSI Configuration Data 17 * 18 * Boot-time configuration data is used to define the configuration of the 19 * IPA and GSI resources to use for a given platform. This data is supplied 20 * via the Device Tree match table, associated with a particular compatible 21 * string. The data defines information about how resources, endpoints and 22 * channels, memory, clocking and so on are allocated and used for the 23 * platform. 24 * 25 * Resources are data structures used internally by the IPA hardware. The 26 * configuration data defines the number (or limits of the number) of various 27 * types of these resources. 28 * 29 * Endpoint configuration data defines properties of both IPA endpoints and 30 * GSI channels. A channel is a GSI construct, and represents a single 31 * communication path between the IPA and a particular execution environment 32 * (EE), such as the AP or Modem. Each EE has a set of channels associated 33 * with it, and each channel has an ID unique for that EE. For the most part 34 * the only GSI channels of concern to this driver belong to the AP 35 * 36 * An endpoint is an IPA construct representing a single channel anywhere 37 * in the system. An IPA endpoint ID maps directly to an (EE, channel_id) 38 * pair. Generally, this driver is concerned with only endpoints associated 39 * with the AP, however this will change when support for routing (etc.) is 40 * added. IPA endpoint and GSI channel configuration data are defined 41 * together, establishing the endpoint_id->(EE, channel_id) mapping. 42 * 43 * Endpoint configuration data consists of three parts: properties that 44 * are common to IPA and GSI (EE ID, channel ID, endpoint ID, and direction); 45 * properties associated with the GSI channel; and properties associated with 46 * the IPA endpoint. 47 */ 48 49 /* The maximum possible number of source or destination resource groups */ 50 #define IPA_RESOURCE_GROUP_MAX 8 51 52 /** enum ipa_qsb_master_id - array index for IPA QSB configuration data */ 53 enum ipa_qsb_master_id { 54 IPA_QSB_MASTER_DDR, 55 IPA_QSB_MASTER_PCIE, 56 }; 57 58 /** 59 * struct ipa_qsb_data - Qualcomm System Bus configuration data 60 * @max_writes: Maximum outstanding write requests for this master 61 * @max_reads: Maximum outstanding read requests for this master 62 * @max_reads_beats: Max outstanding read bytes in 8-byte "beats" (if non-zero) 63 */ 64 struct ipa_qsb_data { 65 u8 max_writes; 66 u8 max_reads; 67 u8 max_reads_beats; /* Not present for IPA v3.5.1 */ 68 }; 69 70 /** 71 * struct gsi_channel_data - GSI channel configuration data 72 * @tre_count: number of TREs in the channel ring 73 * @event_count: number of slots in the associated event ring 74 * @tlv_count: number of entries in channel's TLV FIFO 75 * 76 * A GSI channel is a unidirectional means of transferring data to or 77 * from (and through) the IPA. A GSI channel has a ring buffer made 78 * up of "transfer ring elements" (TREs) that specify individual data 79 * transfers or IPA immediate commands. TREs are filled by the AP, 80 * and control is passed to IPA hardware by writing the last written 81 * element into a doorbell register. 82 * 83 * When data transfer commands have completed the GSI generates an 84 * event (a structure of data) and optionally signals the AP with 85 * an interrupt. Event structures are implemented by another ring 86 * buffer, directed toward the AP from the IPA. 87 * 88 * The input to a GSI channel is a FIFO of type/length/value (TLV) 89 * elements, and the size of this FIFO limits the number of TREs 90 * that can be included in a single transaction. 91 */ 92 struct gsi_channel_data { 93 u16 tre_count; /* must be a power of 2 */ 94 u16 event_count; /* must be a power of 2 */ 95 u8 tlv_count; 96 }; 97 98 /** 99 * struct ipa_endpoint_tx_data - configuration data for TX endpoints 100 * @seq_type: primary packet processing sequencer type 101 * @seq_rep_type: sequencer type for replication processing 102 * @status_endpoint: endpoint to which status elements are sent 103 * 104 * The @status_endpoint is only valid if the endpoint's @status_enable 105 * flag is set. 106 */ 107 struct ipa_endpoint_tx_data { 108 enum ipa_seq_type seq_type; 109 enum ipa_seq_rep_type seq_rep_type; 110 enum ipa_endpoint_name status_endpoint; 111 }; 112 113 /** 114 * struct ipa_endpoint_rx_data - configuration data for RX endpoints 115 * @pad_align: power-of-2 boundary to which packet payload is aligned 116 * @aggr_close_eof: whether aggregation closes on end-of-frame 117 * 118 * With each packet it transfers, the IPA hardware can perform certain 119 * transformations of its packet data. One of these is adding pad bytes 120 * to the end of the packet data so the result ends on a power-of-2 boundary. 121 * 122 * It is also able to aggregate multiple packets into a single receive buffer. 123 * Aggregation is "open" while a buffer is being filled, and "closes" when 124 * certain criteria are met. One of those criteria is the sender indicating 125 * a "frame" consisting of several transfers has ended. 126 */ 127 struct ipa_endpoint_rx_data { 128 u32 pad_align; 129 bool aggr_close_eof; 130 }; 131 132 /** 133 * struct ipa_endpoint_config_data - IPA endpoint hardware configuration 134 * @resource_group: resource group to assign endpoint to 135 * @checksum: whether checksum offload is enabled 136 * @qmap: whether endpoint uses QMAP protocol 137 * @aggregation: whether endpoint supports aggregation 138 * @status_enable: whether endpoint uses status elements 139 * @dma_mode: whether endpoint operates in DMA mode 140 * @dma_endpoint: peer endpoint, if operating in DMA mode 141 * @tx: TX-specific endpoint information (see above) 142 * @rx: RX-specific endpoint information (see above) 143 */ 144 struct ipa_endpoint_config_data { 145 u32 resource_group; 146 bool checksum; 147 bool qmap; 148 bool aggregation; 149 bool status_enable; 150 bool dma_mode; 151 enum ipa_endpoint_name dma_endpoint; 152 union { 153 struct ipa_endpoint_tx_data tx; 154 struct ipa_endpoint_rx_data rx; 155 }; 156 }; 157 158 /** 159 * struct ipa_endpoint_data - IPA endpoint configuration data 160 * @filter_support: whether endpoint supports filtering 161 * @config: hardware configuration (see above) 162 * 163 * Not all endpoints support the IPA filtering capability. A filter table 164 * defines the filters to apply for those endpoints that support it. The 165 * AP is responsible for initializing this table, and it must include entries 166 * for non-AP endpoints. For this reason we define *all* endpoints used 167 * in the system, and indicate whether they support filtering. 168 * 169 * The remaining endpoint configuration data applies only to AP endpoints. 170 */ 171 struct ipa_endpoint_data { 172 bool filter_support; 173 /* Everything else is specified only for AP endpoints */ 174 struct ipa_endpoint_config_data config; 175 }; 176 177 /** 178 * struct ipa_gsi_endpoint_data - GSI channel/IPA endpoint data 179 * @ee_id: GSI execution environment ID 180 * @channel_id: GSI channel ID 181 * @endpoint_id: IPA endpoint ID 182 * @toward_ipa: direction of data transfer 183 * @channel: GSI channel configuration data (see above) 184 * @endpoint: IPA endpoint configuration data (see above) 185 */ 186 struct ipa_gsi_endpoint_data { 187 u8 ee_id; /* enum gsi_ee_id */ 188 u8 channel_id; 189 u8 endpoint_id; 190 bool toward_ipa; 191 192 struct gsi_channel_data channel; 193 struct ipa_endpoint_data endpoint; 194 }; 195 196 /** 197 * struct ipa_resource_limits - minimum and maximum resource counts 198 * @min: minimum number of resources of a given type 199 * @max: maximum number of resources of a given type 200 */ 201 struct ipa_resource_limits { 202 u32 min; 203 u32 max; 204 }; 205 206 /** 207 * struct ipa_resource - resource group source or destination resource usage 208 * @limits: array of resource limits, indexed by group 209 */ 210 struct ipa_resource { 211 struct ipa_resource_limits limits[IPA_RESOURCE_GROUP_MAX]; 212 }; 213 214 /** 215 * struct ipa_resource_data - IPA resource configuration data 216 * @rsrc_group_src_count: number of source resource groups supported 217 * @rsrc_group_dst_count: number of destination resource groups supported 218 * @resource_src_count: number of entries in the resource_src array 219 * @resource_src: source endpoint group resources 220 * @resource_dst_count: number of entries in the resource_dst array 221 * @resource_dst: destination endpoint group resources 222 * 223 * In order to manage quality of service between endpoints, certain resources 224 * required for operation are allocated to groups of endpoints. Generally 225 * this information is invisible to the AP, but the AP is responsible for 226 * programming it at initialization time, so we specify it here. 227 */ 228 struct ipa_resource_data { 229 u32 rsrc_group_src_count; 230 u32 rsrc_group_dst_count; 231 u32 resource_src_count; 232 const struct ipa_resource *resource_src; 233 u32 resource_dst_count; 234 const struct ipa_resource *resource_dst; 235 }; 236 237 /** 238 * struct ipa_mem_data - description of IPA memory regions 239 * @local_count: number of regions defined in the local[] array 240 * @local: array of IPA-local memory region descriptors 241 * @imem_addr: physical address of IPA region within IMEM 242 * @imem_size: size in bytes of IPA IMEM region 243 * @smem_id: item identifier for IPA region within SMEM memory 244 * @smem_size: size in bytes of the IPA SMEM region 245 */ 246 struct ipa_mem_data { 247 u32 local_count; 248 const struct ipa_mem *local; 249 u32 imem_addr; 250 u32 imem_size; 251 u32 smem_id; 252 u32 smem_size; 253 }; 254 255 /** 256 * struct ipa_interconnect_data - description of IPA interconnect bandwidths 257 * @name: Interconnect name (matches interconnect-name in DT) 258 * @peak_bandwidth: Peak interconnect bandwidth (in 1000 byte/sec units) 259 * @average_bandwidth: Average interconnect bandwidth (in 1000 byte/sec units) 260 */ 261 struct ipa_interconnect_data { 262 const char *name; 263 u32 peak_bandwidth; 264 u32 average_bandwidth; 265 }; 266 267 /** 268 * struct ipa_clock_data - description of IPA clock and interconnect rates 269 * @core_clock_rate: Core clock rate (Hz) 270 * @interconnect_count: Number of entries in the interconnect_data array 271 * @interconnect_data: IPA interconnect configuration data 272 */ 273 struct ipa_clock_data { 274 u32 core_clock_rate; 275 u32 interconnect_count; /* # entries in interconnect_data[] */ 276 const struct ipa_interconnect_data *interconnect_data; 277 }; 278 279 /** 280 * struct ipa_data - combined IPA/GSI configuration data 281 * @version: IPA hardware version 282 * @backward_compat: BCR register value (prior to IPA v4.5 only) 283 * @qsb_count: number of entries in the qsb_data array 284 * @qsb_data: Qualcomm System Bus configuration data 285 * @endpoint_count: number of entries in the endpoint_data array 286 * @endpoint_data: IPA endpoint/GSI channel data 287 * @resource_data: IPA resource configuration data 288 * @mem_data: IPA memory region data 289 * @clock_data: IPA clock and interconnect data 290 */ 291 struct ipa_data { 292 enum ipa_version version; 293 u32 backward_compat; 294 u32 qsb_count; /* number of entries in qsb_data[] */ 295 const struct ipa_qsb_data *qsb_data; 296 u32 endpoint_count; /* number of entries in endpoint_data[] */ 297 const struct ipa_gsi_endpoint_data *endpoint_data; 298 const struct ipa_resource_data *resource_data; 299 const struct ipa_mem_data *mem_data; 300 const struct ipa_clock_data *clock_data; 301 }; 302 303 extern const struct ipa_data ipa_data_v3_5_1; 304 extern const struct ipa_data ipa_data_v4_2; 305 extern const struct ipa_data ipa_data_v4_5; 306 extern const struct ipa_data ipa_data_v4_9; 307 extern const struct ipa_data ipa_data_v4_11; 308 309 #endif /* _IPA_DATA_H_ */ 310