1 /* 2 * Copyright 2017 Advanced Micro Devices, Inc. 3 * 4 * Permission is hereby granted, free of charge, to any person obtaining a 5 * copy of this software and associated documentation files (the "Software"), 6 * to deal in the Software without restriction, including without limitation 7 * the rights to use, copy, modify, merge, publish, distribute, sublicense, 8 * and/or sell copies of the Software, and to permit persons to whom the 9 * Software is furnished to do so, subject to the following conditions: 10 * 11 * The above copyright notice and this permission notice shall be included in 12 * all copies or substantial portions of the Software. 13 * 14 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR 15 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 16 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL 17 * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR 18 * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, 19 * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR 20 * OTHER DEALINGS IN THE SOFTWARE. 21 * 22 */ 23 24 #ifndef _PSP_TEE_GFX_IF_H_ 25 #define _PSP_TEE_GFX_IF_H_ 26 27 #define PSP_GFX_CMD_BUF_VERSION 0x00000001 28 29 #define GFX_CMD_STATUS_MASK 0x0000FFFF 30 #define GFX_CMD_ID_MASK 0x000F0000 31 #define GFX_CMD_RESERVED_MASK 0x7FF00000 32 #define GFX_CMD_RESPONSE_MASK 0x80000000 33 34 /* USBC PD FW version retrieval command */ 35 #define C2PMSG_CMD_GFX_USB_PD_FW_VER 0x2000000 36 37 /* TEE Gfx Command IDs for the register interface. 38 * Command ID must be between 0x00010000 and 0x000F0000. 39 */ 40 enum psp_gfx_crtl_cmd_id 41 { 42 GFX_CTRL_CMD_ID_INIT_RBI_RING = 0x00010000, /* initialize RBI ring */ 43 GFX_CTRL_CMD_ID_INIT_GPCOM_RING = 0x00020000, /* initialize GPCOM ring */ 44 GFX_CTRL_CMD_ID_DESTROY_RINGS = 0x00030000, /* destroy rings */ 45 GFX_CTRL_CMD_ID_CAN_INIT_RINGS = 0x00040000, /* is it allowed to initialized the rings */ 46 GFX_CTRL_CMD_ID_ENABLE_INT = 0x00050000, /* enable PSP-to-Gfx interrupt */ 47 GFX_CTRL_CMD_ID_DISABLE_INT = 0x00060000, /* disable PSP-to-Gfx interrupt */ 48 GFX_CTRL_CMD_ID_MODE1_RST = 0x00070000, /* trigger the Mode 1 reset */ 49 GFX_CTRL_CMD_ID_GBR_IH_SET = 0x00080000, /* set Gbr IH_RB_CNTL registers */ 50 GFX_CTRL_CMD_ID_CONSUME_CMD = 0x00090000, /* send interrupt to psp for updating write pointer of vf */ 51 GFX_CTRL_CMD_ID_DESTROY_GPCOM_RING = 0x000C0000, /* destroy GPCOM ring */ 52 53 GFX_CTRL_CMD_ID_MAX = 0x000F0000, /* max command ID */ 54 }; 55 56 57 /*----------------------------------------------------------------------------- 58 NOTE: All physical addresses used in this interface are actually 59 GPU Virtual Addresses. 60 */ 61 62 63 /* Control registers of the TEE Gfx interface. These are located in 64 * SRBM-to-PSP mailbox registers (total 8 registers). 65 */ 66 struct psp_gfx_ctrl 67 { 68 volatile uint32_t cmd_resp; /* +0 Command/Response register for Gfx commands */ 69 volatile uint32_t rbi_wptr; /* +4 Write pointer (index) of RBI ring */ 70 volatile uint32_t rbi_rptr; /* +8 Read pointer (index) of RBI ring */ 71 volatile uint32_t gpcom_wptr; /* +12 Write pointer (index) of GPCOM ring */ 72 volatile uint32_t gpcom_rptr; /* +16 Read pointer (index) of GPCOM ring */ 73 volatile uint32_t ring_addr_lo; /* +20 bits [31:0] of GPU Virtual of ring buffer (VMID=0)*/ 74 volatile uint32_t ring_addr_hi; /* +24 bits [63:32] of GPU Virtual of ring buffer (VMID=0) */ 75 volatile uint32_t ring_buf_size; /* +28 Ring buffer size (in bytes) */ 76 77 }; 78 79 80 /* Response flag is set in the command when command is completed by PSP. 81 * Used in the GFX_CTRL.CmdResp. 82 * When PSP GFX I/F is initialized, the flag is set. 83 */ 84 #define GFX_FLAG_RESPONSE 0x80000000 85 86 /* TEE Gfx Command IDs for the ring buffer interface. */ 87 enum psp_gfx_cmd_id 88 { 89 GFX_CMD_ID_LOAD_TA = 0x00000001, /* load TA */ 90 GFX_CMD_ID_UNLOAD_TA = 0x00000002, /* unload TA */ 91 GFX_CMD_ID_INVOKE_CMD = 0x00000003, /* send command to TA */ 92 GFX_CMD_ID_LOAD_ASD = 0x00000004, /* load ASD Driver */ 93 GFX_CMD_ID_SETUP_TMR = 0x00000005, /* setup TMR region */ 94 GFX_CMD_ID_LOAD_IP_FW = 0x00000006, /* load HW IP FW */ 95 GFX_CMD_ID_DESTROY_TMR = 0x00000007, /* destroy TMR region */ 96 GFX_CMD_ID_SAVE_RESTORE = 0x00000008, /* save/restore HW IP FW */ 97 GFX_CMD_ID_SETUP_VMR = 0x00000009, /* setup VMR region */ 98 GFX_CMD_ID_DESTROY_VMR = 0x0000000A, /* destroy VMR region */ 99 GFX_CMD_ID_PROG_REG = 0x0000000B, /* program regs */ 100 GFX_CMD_ID_GET_FW_ATTESTATION = 0x0000000F, /* Query GPUVA of the Fw Attestation DB */ 101 /* IDs upto 0x1F are reserved for older programs (Raven, Vega 10/12/20) */ 102 GFX_CMD_ID_LOAD_TOC = 0x00000020, /* Load TOC and obtain TMR size */ 103 GFX_CMD_ID_AUTOLOAD_RLC = 0x00000021, /* Indicates all graphics fw loaded, start RLC autoload */ 104 GFX_CMD_ID_BOOT_CFG = 0x00000022, /* Boot Config */ 105 GFX_CMD_ID_SRIOV_SPATIAL_PART = 0x00000027, /* Configure spatial partitioning mode */ 106 /*IDs of performance monitoring/profiling*/ 107 GFX_CMD_ID_CONFIG_SQ_PERFMON = 0x00000046, /* Config CGTT_SQ_CLK_CTRL */ 108 /* Dynamic memory partitioninig (NPS mode change)*/ 109 GFX_CMD_ID_FB_NPS_MODE = 0x00000048, /* Configure memory partitioning mode */ 110 }; 111 112 /* PSP boot config sub-commands */ 113 enum psp_gfx_boot_config_cmd 114 { 115 BOOTCFG_CMD_SET = 1, /* Set boot configuration settings */ 116 BOOTCFG_CMD_GET = 2, /* Get boot configuration settings */ 117 BOOTCFG_CMD_INVALIDATE = 3 /* Reset current boot configuration settings to VBIOS defaults */ 118 }; 119 120 /* PSP boot config bitmask values */ 121 enum psp_gfx_boot_config 122 { 123 BOOT_CONFIG_GECC = 0x1, 124 }; 125 126 /* Command to load Trusted Application binary into PSP OS. */ 127 struct psp_gfx_cmd_load_ta 128 { 129 uint32_t app_phy_addr_lo; /* bits [31:0] of the GPU Virtual address of the TA binary (must be 4 KB aligned) */ 130 uint32_t app_phy_addr_hi; /* bits [63:32] of the GPU Virtual address of the TA binary */ 131 uint32_t app_len; /* length of the TA binary in bytes */ 132 uint32_t cmd_buf_phy_addr_lo; /* bits [31:0] of the GPU Virtual address of CMD buffer (must be 4 KB aligned) */ 133 uint32_t cmd_buf_phy_addr_hi; /* bits [63:32] of the GPU Virtual address of CMD buffer */ 134 uint32_t cmd_buf_len; /* length of the CMD buffer in bytes; must be multiple of 4 KB */ 135 136 /* Note: CmdBufLen can be set to 0. In this case no persistent CMD buffer is provided 137 * for the TA. Each InvokeCommand can have dinamically mapped CMD buffer instead 138 * of using global persistent buffer. 139 */ 140 }; 141 142 143 /* Command to Unload Trusted Application binary from PSP OS. */ 144 struct psp_gfx_cmd_unload_ta 145 { 146 uint32_t session_id; /* Session ID of the loaded TA to be unloaded */ 147 148 }; 149 150 151 /* Shared buffers for InvokeCommand. 152 */ 153 struct psp_gfx_buf_desc 154 { 155 uint32_t buf_phy_addr_lo; /* bits [31:0] of GPU Virtual address of the buffer (must be 4 KB aligned) */ 156 uint32_t buf_phy_addr_hi; /* bits [63:32] of GPU Virtual address of the buffer */ 157 uint32_t buf_size; /* buffer size in bytes (must be multiple of 4 KB and no bigger than 64 MB) */ 158 159 }; 160 161 /* Max number of descriptors for one shared buffer (in how many different 162 * physical locations one shared buffer can be stored). If buffer is too much 163 * fragmented, error will be returned. 164 */ 165 #define GFX_BUF_MAX_DESC 64 166 167 struct psp_gfx_buf_list 168 { 169 uint32_t num_desc; /* number of buffer descriptors in the list */ 170 uint32_t total_size; /* total size of all buffers in the list in bytes (must be multiple of 4 KB) */ 171 struct psp_gfx_buf_desc buf_desc[GFX_BUF_MAX_DESC]; /* list of buffer descriptors */ 172 173 /* total 776 bytes */ 174 }; 175 176 /* Command to execute InvokeCommand entry point of the TA. */ 177 struct psp_gfx_cmd_invoke_cmd 178 { 179 uint32_t session_id; /* Session ID of the TA to be executed */ 180 uint32_t ta_cmd_id; /* Command ID to be sent to TA */ 181 struct psp_gfx_buf_list buf; /* one indirect buffer (scatter/gather list) */ 182 183 }; 184 185 186 /* Command to setup TMR region. */ 187 struct psp_gfx_cmd_setup_tmr 188 { 189 uint32_t buf_phy_addr_lo; /* bits [31:0] of GPU Virtual address of TMR buffer (must be 4 KB aligned) */ 190 uint32_t buf_phy_addr_hi; /* bits [63:32] of GPU Virtual address of TMR buffer */ 191 uint32_t buf_size; /* buffer size in bytes (must be multiple of 4 KB) */ 192 union { 193 struct { 194 uint32_t sriov_enabled:1; /* whether the device runs under SR-IOV*/ 195 uint32_t virt_phy_addr:1; /* driver passes both virtual and physical address to PSP*/ 196 uint32_t reserved:30; 197 } bitfield; 198 uint32_t tmr_flags; 199 }; 200 uint32_t system_phy_addr_lo; /* bits [31:0] of system physical address of TMR buffer (must be 4 KB aligned) */ 201 uint32_t system_phy_addr_hi; /* bits [63:32] of system physical address of TMR buffer */ 202 203 }; 204 205 /* FW types for GFX_CMD_ID_LOAD_IP_FW command. Limit 31. */ 206 enum psp_gfx_fw_type { 207 GFX_FW_TYPE_NONE = 0, /* */ 208 GFX_FW_TYPE_CP_ME = 1, /* CP-ME VG + RV */ 209 GFX_FW_TYPE_CP_PFP = 2, /* CP-PFP VG + RV */ 210 GFX_FW_TYPE_CP_CE = 3, /* CP-CE VG + RV */ 211 GFX_FW_TYPE_CP_MEC = 4, /* CP-MEC FW VG + RV */ 212 GFX_FW_TYPE_CP_MEC_ME1 = 5, /* CP-MEC Jump Table 1 VG + RV */ 213 GFX_FW_TYPE_CP_MEC_ME2 = 6, /* CP-MEC Jump Table 2 VG */ 214 GFX_FW_TYPE_RLC_V = 7, /* RLC-V VG */ 215 GFX_FW_TYPE_RLC_G = 8, /* RLC-G VG + RV */ 216 GFX_FW_TYPE_SDMA0 = 9, /* SDMA0 VG + RV */ 217 GFX_FW_TYPE_SDMA1 = 10, /* SDMA1 VG */ 218 GFX_FW_TYPE_DMCU_ERAM = 11, /* DMCU-ERAM VG + RV */ 219 GFX_FW_TYPE_DMCU_ISR = 12, /* DMCU-ISR VG + RV */ 220 GFX_FW_TYPE_VCN = 13, /* VCN RV */ 221 GFX_FW_TYPE_UVD = 14, /* UVD VG */ 222 GFX_FW_TYPE_VCE = 15, /* VCE VG */ 223 GFX_FW_TYPE_ISP = 16, /* ISP RV */ 224 GFX_FW_TYPE_ACP = 17, /* ACP RV */ 225 GFX_FW_TYPE_SMU = 18, /* SMU VG */ 226 GFX_FW_TYPE_MMSCH = 19, /* MMSCH VG */ 227 GFX_FW_TYPE_RLC_RESTORE_LIST_GPM_MEM = 20, /* RLC GPM VG + RV */ 228 GFX_FW_TYPE_RLC_RESTORE_LIST_SRM_MEM = 21, /* RLC SRM VG + RV */ 229 GFX_FW_TYPE_RLC_RESTORE_LIST_SRM_CNTL = 22, /* RLC CNTL VG + RV */ 230 GFX_FW_TYPE_UVD1 = 23, /* UVD1 VG-20 */ 231 GFX_FW_TYPE_TOC = 24, /* TOC NV-10 */ 232 GFX_FW_TYPE_RLC_P = 25, /* RLC P NV */ 233 GFX_FW_TYPE_RLC_IRAM = 26, /* RLC_IRAM NV */ 234 GFX_FW_TYPE_GLOBAL_TAP_DELAYS = 27, /* GLOBAL TAP DELAYS NV */ 235 GFX_FW_TYPE_SE0_TAP_DELAYS = 28, /* SE0 TAP DELAYS NV */ 236 GFX_FW_TYPE_SE1_TAP_DELAYS = 29, /* SE1 TAP DELAYS NV */ 237 GFX_FW_TYPE_GLOBAL_SE0_SE1_SKEW_DELAYS = 30, /* GLOBAL SE0/1 SKEW DELAYS NV */ 238 GFX_FW_TYPE_SDMA0_JT = 31, /* SDMA0 JT NV */ 239 GFX_FW_TYPE_SDMA1_JT = 32, /* SDNA1 JT NV */ 240 GFX_FW_TYPE_CP_MES = 33, /* CP MES NV */ 241 GFX_FW_TYPE_MES_STACK = 34, /* MES STACK NV */ 242 GFX_FW_TYPE_RLC_SRM_DRAM_SR = 35, /* RLC SRM DRAM NV */ 243 GFX_FW_TYPE_RLCG_SCRATCH_SR = 36, /* RLCG SCRATCH NV */ 244 GFX_FW_TYPE_RLCP_SCRATCH_SR = 37, /* RLCP SCRATCH NV */ 245 GFX_FW_TYPE_RLCV_SCRATCH_SR = 38, /* RLCV SCRATCH NV */ 246 GFX_FW_TYPE_RLX6_DRAM_SR = 39, /* RLX6 DRAM NV */ 247 GFX_FW_TYPE_SDMA0_PG_CONTEXT = 40, /* SDMA0 PG CONTEXT NV */ 248 GFX_FW_TYPE_SDMA1_PG_CONTEXT = 41, /* SDMA1 PG CONTEXT NV */ 249 GFX_FW_TYPE_GLOBAL_MUX_SELECT_RAM = 42, /* GLOBAL MUX SEL RAM NV */ 250 GFX_FW_TYPE_SE0_MUX_SELECT_RAM = 43, /* SE0 MUX SEL RAM NV */ 251 GFX_FW_TYPE_SE1_MUX_SELECT_RAM = 44, /* SE1 MUX SEL RAM NV */ 252 GFX_FW_TYPE_ACCUM_CTRL_RAM = 45, /* ACCUM CTRL RAM NV */ 253 GFX_FW_TYPE_RLCP_CAM = 46, /* RLCP CAM NV */ 254 GFX_FW_TYPE_RLC_SPP_CAM_EXT = 47, /* RLC SPP CAM EXT NV */ 255 GFX_FW_TYPE_RLC_DRAM_BOOT = 48, /* RLC DRAM BOOT NV */ 256 GFX_FW_TYPE_VCN0_RAM = 49, /* VCN_RAM NV + RN */ 257 GFX_FW_TYPE_VCN1_RAM = 50, /* VCN_RAM NV + RN */ 258 GFX_FW_TYPE_DMUB = 51, /* DMUB RN */ 259 GFX_FW_TYPE_SDMA2 = 52, /* SDMA2 MI */ 260 GFX_FW_TYPE_SDMA3 = 53, /* SDMA3 MI */ 261 GFX_FW_TYPE_SDMA4 = 54, /* SDMA4 MI */ 262 GFX_FW_TYPE_SDMA5 = 55, /* SDMA5 MI */ 263 GFX_FW_TYPE_SDMA6 = 56, /* SDMA6 MI */ 264 GFX_FW_TYPE_SDMA7 = 57, /* SDMA7 MI */ 265 GFX_FW_TYPE_VCN1 = 58, /* VCN1 MI */ 266 GFX_FW_TYPE_CAP = 62, /* CAP_FW */ 267 GFX_FW_TYPE_SE2_TAP_DELAYS = 65, /* SE2 TAP DELAYS NV */ 268 GFX_FW_TYPE_SE3_TAP_DELAYS = 66, /* SE3 TAP DELAYS NV */ 269 GFX_FW_TYPE_REG_LIST = 67, /* REG_LIST MI */ 270 GFX_FW_TYPE_IMU_I = 68, /* IMU Instruction FW SOC21 */ 271 GFX_FW_TYPE_IMU_D = 69, /* IMU Data FW SOC21 */ 272 GFX_FW_TYPE_LSDMA = 70, /* LSDMA FW SOC21 */ 273 GFX_FW_TYPE_SDMA_UCODE_TH0 = 71, /* SDMA Thread 0/CTX SOC21 */ 274 GFX_FW_TYPE_SDMA_UCODE_TH1 = 72, /* SDMA Thread 1/CTL SOC21 */ 275 GFX_FW_TYPE_PPTABLE = 73, /* PPTABLE SOC21 */ 276 GFX_FW_TYPE_DISCRETE_USB4 = 74, /* dUSB4 FW SOC21 */ 277 GFX_FW_TYPE_TA = 75, /* SRIOV TA FW UUID SOC21 */ 278 GFX_FW_TYPE_RS64_MES = 76, /* RS64 MES ucode SOC21 */ 279 GFX_FW_TYPE_RS64_MES_STACK = 77, /* RS64 MES stack ucode SOC21 */ 280 GFX_FW_TYPE_RS64_KIQ = 78, /* RS64 KIQ ucode SOC21 */ 281 GFX_FW_TYPE_RS64_KIQ_STACK = 79, /* RS64 KIQ Heap stack SOC21 */ 282 GFX_FW_TYPE_ISP_DATA = 80, /* ISP DATA SOC21 */ 283 GFX_FW_TYPE_CP_MES_KIQ = 81, /* MES KIQ ucode SOC21 */ 284 GFX_FW_TYPE_MES_KIQ_STACK = 82, /* MES KIQ stack SOC21 */ 285 GFX_FW_TYPE_UMSCH_DATA = 83, /* User Mode Scheduler Data SOC21 */ 286 GFX_FW_TYPE_UMSCH_UCODE = 84, /* User Mode Scheduler Ucode SOC21 */ 287 GFX_FW_TYPE_UMSCH_CMD_BUFFER = 85, /* User Mode Scheduler Command Buffer SOC21 */ 288 GFX_FW_TYPE_USB_DP_COMBO_PHY = 86, /* USB-Display port Combo SOC21 */ 289 GFX_FW_TYPE_RS64_PFP = 87, /* RS64 PFP SOC21 */ 290 GFX_FW_TYPE_RS64_ME = 88, /* RS64 ME SOC21 */ 291 GFX_FW_TYPE_RS64_MEC = 89, /* RS64 MEC SOC21 */ 292 GFX_FW_TYPE_RS64_PFP_P0_STACK = 90, /* RS64 PFP stack P0 SOC21 */ 293 GFX_FW_TYPE_RS64_PFP_P1_STACK = 91, /* RS64 PFP stack P1 SOC21 */ 294 GFX_FW_TYPE_RS64_ME_P0_STACK = 92, /* RS64 ME stack P0 SOC21 */ 295 GFX_FW_TYPE_RS64_ME_P1_STACK = 93, /* RS64 ME stack P1 SOC21 */ 296 GFX_FW_TYPE_RS64_MEC_P0_STACK = 94, /* RS64 MEC stack P0 SOC21 */ 297 GFX_FW_TYPE_RS64_MEC_P1_STACK = 95, /* RS64 MEC stack P1 SOC21 */ 298 GFX_FW_TYPE_RS64_MEC_P2_STACK = 96, /* RS64 MEC stack P2 SOC21 */ 299 GFX_FW_TYPE_RS64_MEC_P3_STACK = 97, /* RS64 MEC stack P3 SOC21 */ 300 GFX_FW_TYPE_VPEC_FW1 = 100, /* VPEC FW1 To Save VPE */ 301 GFX_FW_TYPE_VPEC_FW2 = 101, /* VPEC FW2 To Save VPE */ 302 GFX_FW_TYPE_VPE = 102, 303 GFX_FW_TYPE_JPEG_RAM = 128, /**< JPEG Command buffer */ 304 GFX_FW_TYPE_P2S_TABLE = 129, 305 GFX_FW_TYPE_MAX 306 }; 307 308 /* Command to load HW IP FW. */ 309 struct psp_gfx_cmd_load_ip_fw 310 { 311 uint32_t fw_phy_addr_lo; /* bits [31:0] of GPU Virtual address of FW location (must be 4 KB aligned) */ 312 uint32_t fw_phy_addr_hi; /* bits [63:32] of GPU Virtual address of FW location */ 313 uint32_t fw_size; /* FW buffer size in bytes */ 314 enum psp_gfx_fw_type fw_type; /* FW type */ 315 316 }; 317 318 /* Command to save/restore HW IP FW. */ 319 struct psp_gfx_cmd_save_restore_ip_fw 320 { 321 uint32_t save_fw; /* if set, command is used for saving fw otherwise for resetoring*/ 322 uint32_t save_restore_addr_lo; /* bits [31:0] of FB address of GART memory used as save/restore buffer (must be 4 KB aligned) */ 323 uint32_t save_restore_addr_hi; /* bits [63:32] of FB address of GART memory used as save/restore buffer */ 324 uint32_t buf_size; /* Size of the save/restore buffer in bytes */ 325 enum psp_gfx_fw_type fw_type; /* FW type */ 326 }; 327 328 /* Command to setup register program */ 329 struct psp_gfx_cmd_reg_prog { 330 uint32_t reg_value; 331 uint32_t reg_id; 332 }; 333 334 /* Command to load TOC */ 335 struct psp_gfx_cmd_load_toc 336 { 337 uint32_t toc_phy_addr_lo; /* bits [31:0] of GPU Virtual address of FW location (must be 4 KB aligned) */ 338 uint32_t toc_phy_addr_hi; /* bits [63:32] of GPU Virtual address of FW location */ 339 uint32_t toc_size; /* FW buffer size in bytes */ 340 }; 341 342 /* Dynamic boot configuration */ 343 struct psp_gfx_cmd_boot_cfg 344 { 345 uint32_t timestamp; /* calendar time as number of seconds */ 346 enum psp_gfx_boot_config_cmd sub_cmd; /* sub-command indicating how to process command data */ 347 uint32_t boot_config; /* dynamic boot configuration bitmask */ 348 uint32_t boot_config_valid; /* dynamic boot configuration valid bits bitmask */ 349 }; 350 351 struct psp_gfx_cmd_sriov_spatial_part { 352 uint32_t mode; 353 uint32_t override_ips; 354 uint32_t override_xcds_avail; 355 uint32_t override_this_aid; 356 }; 357 358 /*Structure for sq performance monitoring/profiling enable/disable*/ 359 struct psp_gfx_cmd_config_sq_perfmon { 360 uint32_t gfx_xcp_mask; 361 uint8_t core_override; 362 uint8_t reg_override; 363 uint8_t perfmon_override; 364 uint8_t reserved[5]; 365 }; 366 367 struct psp_gfx_cmd_fb_memory_part { 368 uint32_t mode; /* requested NPS mode */ 369 uint32_t resvd; 370 }; 371 372 /* All GFX ring buffer commands. */ 373 union psp_gfx_commands 374 { 375 struct psp_gfx_cmd_load_ta cmd_load_ta; 376 struct psp_gfx_cmd_unload_ta cmd_unload_ta; 377 struct psp_gfx_cmd_invoke_cmd cmd_invoke_cmd; 378 struct psp_gfx_cmd_setup_tmr cmd_setup_tmr; 379 struct psp_gfx_cmd_load_ip_fw cmd_load_ip_fw; 380 struct psp_gfx_cmd_save_restore_ip_fw cmd_save_restore_ip_fw; 381 struct psp_gfx_cmd_reg_prog cmd_setup_reg_prog; 382 struct psp_gfx_cmd_setup_tmr cmd_setup_vmr; 383 struct psp_gfx_cmd_load_toc cmd_load_toc; 384 struct psp_gfx_cmd_boot_cfg boot_cfg; 385 struct psp_gfx_cmd_sriov_spatial_part cmd_spatial_part; 386 struct psp_gfx_cmd_config_sq_perfmon config_sq_perfmon; 387 struct psp_gfx_cmd_fb_memory_part cmd_memory_part; 388 }; 389 390 struct psp_gfx_uresp_reserved 391 { 392 uint32_t reserved[8]; 393 }; 394 395 /* Command-specific response for Fw Attestation Db */ 396 struct psp_gfx_uresp_fwar_db_info 397 { 398 uint32_t fwar_db_addr_lo; 399 uint32_t fwar_db_addr_hi; 400 }; 401 402 /* Command-specific response for boot config. */ 403 struct psp_gfx_uresp_bootcfg { 404 uint32_t boot_cfg; /* boot config data */ 405 }; 406 407 /* Union of command-specific responses for GPCOM ring. */ 408 union psp_gfx_uresp { 409 struct psp_gfx_uresp_reserved reserved; 410 struct psp_gfx_uresp_bootcfg boot_cfg; 411 struct psp_gfx_uresp_fwar_db_info fwar_db_info; 412 }; 413 414 /* Structure of GFX Response buffer. 415 * For GPCOM I/F it is part of GFX_CMD_RESP buffer, for RBI 416 * it is separate buffer. 417 */ 418 struct psp_gfx_resp 419 { 420 uint32_t status; /* +0 status of command execution */ 421 uint32_t session_id; /* +4 session ID in response to LoadTa command */ 422 uint32_t fw_addr_lo; /* +8 bits [31:0] of FW address within TMR (in response to cmd_load_ip_fw command) */ 423 uint32_t fw_addr_hi; /* +12 bits [63:32] of FW address within TMR (in response to cmd_load_ip_fw command) */ 424 uint32_t tmr_size; /* +16 size of the TMR to be reserved including MM fw and Gfx fw in response to cmd_load_toc command */ 425 426 uint32_t reserved[11]; 427 428 union psp_gfx_uresp uresp; /* +64 response union containing command-specific responses */ 429 430 /* total 96 bytes */ 431 }; 432 433 /* Structure of Command buffer pointed by psp_gfx_rb_frame.cmd_buf_addr_hi 434 * and psp_gfx_rb_frame.cmd_buf_addr_lo. 435 */ 436 struct psp_gfx_cmd_resp 437 { 438 uint32_t buf_size; /* +0 total size of the buffer in bytes */ 439 uint32_t buf_version; /* +4 version of the buffer strusture; must be PSP_GFX_CMD_BUF_VERSION */ 440 uint32_t cmd_id; /* +8 command ID */ 441 442 /* These fields are used for RBI only. They are all 0 in GPCOM commands 443 */ 444 uint32_t resp_buf_addr_lo; /* +12 bits [31:0] of GPU Virtual address of response buffer (must be 4 KB aligned) */ 445 uint32_t resp_buf_addr_hi; /* +16 bits [63:32] of GPU Virtual address of response buffer */ 446 uint32_t resp_offset; /* +20 offset within response buffer */ 447 uint32_t resp_buf_size; /* +24 total size of the response buffer in bytes */ 448 449 union psp_gfx_commands cmd; /* +28 command specific structures */ 450 451 uint8_t reserved_1[864 - sizeof(union psp_gfx_commands) - 28]; 452 453 /* Note: Resp is part of this buffer for GPCOM ring. For RBI ring the response 454 * is separate buffer pointed by resp_buf_addr_hi and resp_buf_addr_lo. 455 */ 456 struct psp_gfx_resp resp; /* +864 response */ 457 458 uint8_t reserved_2[1024 - 864 - sizeof(struct psp_gfx_resp)]; 459 460 /* total size 1024 bytes */ 461 }; 462 463 464 #define FRAME_TYPE_DESTROY 1 /* frame sent by KMD driver when UMD Scheduler context is destroyed*/ 465 466 /* Structure of the Ring Buffer Frame */ 467 struct psp_gfx_rb_frame 468 { 469 uint32_t cmd_buf_addr_lo; /* +0 bits [31:0] of GPU Virtual address of command buffer (must be 4 KB aligned) */ 470 uint32_t cmd_buf_addr_hi; /* +4 bits [63:32] of GPU Virtual address of command buffer */ 471 uint32_t cmd_buf_size; /* +8 command buffer size in bytes */ 472 uint32_t fence_addr_lo; /* +12 bits [31:0] of GPU Virtual address of Fence for this frame */ 473 uint32_t fence_addr_hi; /* +16 bits [63:32] of GPU Virtual address of Fence for this frame */ 474 uint32_t fence_value; /* +20 Fence value */ 475 uint32_t sid_lo; /* +24 bits [31:0] of SID value (used only for RBI frames) */ 476 uint32_t sid_hi; /* +28 bits [63:32] of SID value (used only for RBI frames) */ 477 uint8_t vmid; /* +32 VMID value used for mapping of all addresses for this frame */ 478 uint8_t frame_type; /* +33 1: destory context frame, 0: all other frames; used only for RBI frames */ 479 uint8_t reserved1[2]; /* +34 reserved, must be 0 */ 480 uint32_t reserved2[7]; /* +36 reserved, must be 0 */ 481 /* total 64 bytes */ 482 }; 483 484 #define PSP_ERR_UNKNOWN_COMMAND 0x00000100 485 486 enum tee_error_code { 487 TEE_SUCCESS = 0x00000000, 488 TEE_ERROR_CANCEL = 0xFFFF0002, 489 TEE_ERROR_NOT_SUPPORTED = 0xFFFF000A, 490 }; 491 492 #endif /* _PSP_TEE_GFX_IF_H_ */ 493