1 // SPDX-License-Identifier: GPL-2.0-only
3 * Copyright (C) 2020-2023 Intel Corporation
9 #include "ivpu_hw_40xx_reg.h"
10 #include "ivpu_hw_reg_io.h"
15 #include <linux/dmi.h>
17 #define TILE_MAX_NUM 6
18 #define TILE_MAX_MASK 0x3f
20 #define LNL_HW_ID 0x4040
22 #define SKU_TILE_SHIFT 0u
23 #define SKU_TILE_MASK 0x0000ffffu
24 #define SKU_HW_ID_SHIFT 16u
25 #define SKU_HW_ID_MASK 0xffff0000u
27 #define PLL_CONFIG_DEFAULT 0x0
28 #define PLL_CDYN_DEFAULT 0x80
29 #define PLL_EPP_DEFAULT 0x80
30 #define PLL_REF_CLK_FREQ (50 * 1000000)
31 #define PLL_RATIO_TO_FREQ(x) ((x) * PLL_REF_CLK_FREQ)
33 #define PLL_PROFILING_FREQ_DEFAULT 38400000
34 #define PLL_PROFILING_FREQ_HIGH 400000000
36 #define TIM_SAFE_ENABLE 0xf1d0dead
37 #define TIM_WATCHDOG_RESET_VALUE 0xffffffff
39 #define TIMEOUT_US (150 * USEC_PER_MSEC)
40 #define PWR_ISLAND_STATUS_TIMEOUT_US (5 * USEC_PER_MSEC)
41 #define PLL_TIMEOUT_US (1500 * USEC_PER_MSEC)
42 #define IDLE_TIMEOUT_US (5 * USEC_PER_MSEC)
44 #define WEIGHTS_DEFAULT 0xf711f711u
45 #define WEIGHTS_ATS_DEFAULT 0x0000f711u
47 #define ICB_0_IRQ_MASK ((REG_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, HOST_IPC_FIFO_INT)) | \
48 (REG_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, MMU_IRQ_0_INT)) | \
49 (REG_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, MMU_IRQ_1_INT)) | \
50 (REG_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, MMU_IRQ_2_INT)) | \
51 (REG_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, NOC_FIREWALL_INT)) | \
52 (REG_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, CPU_INT_REDIRECT_0_INT)) | \
53 (REG_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, CPU_INT_REDIRECT_1_INT)))
55 #define ICB_1_IRQ_MASK ((REG_FLD(VPU_40XX_HOST_SS_ICB_STATUS_1, CPU_INT_REDIRECT_2_INT)) | \
56 (REG_FLD(VPU_40XX_HOST_SS_ICB_STATUS_1, CPU_INT_REDIRECT_3_INT)) | \
57 (REG_FLD(VPU_40XX_HOST_SS_ICB_STATUS_1, CPU_INT_REDIRECT_4_INT)))
59 #define ICB_0_1_IRQ_MASK ((((u64)ICB_1_IRQ_MASK) << 32) | ICB_0_IRQ_MASK)
61 #define BUTTRESS_IRQ_MASK ((REG_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, ATS_ERR)) | \
62 (REG_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, CFI0_ERR)) | \
63 (REG_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, CFI1_ERR)) | \
64 (REG_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, IMR0_ERR)) | \
65 (REG_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, IMR1_ERR)) | \
66 (REG_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, SURV_ERR)))
68 #define BUTTRESS_IRQ_ENABLE_MASK ((u32)~BUTTRESS_IRQ_MASK)
69 #define BUTTRESS_IRQ_DISABLE_MASK ((u32)-1)
71 #define ITF_FIREWALL_VIOLATION_MASK ((REG_FLD(VPU_40XX_HOST_SS_FW_SOC_IRQ_EN, CSS_ROM_CMX)) | \
72 (REG_FLD(VPU_40XX_HOST_SS_FW_SOC_IRQ_EN, CSS_DBG)) | \
73 (REG_FLD(VPU_40XX_HOST_SS_FW_SOC_IRQ_EN, CSS_CTRL)) | \
74 (REG_FLD(VPU_40XX_HOST_SS_FW_SOC_IRQ_EN, DEC400)) | \
75 (REG_FLD(VPU_40XX_HOST_SS_FW_SOC_IRQ_EN, MSS_NCE)) | \
76 (REG_FLD(VPU_40XX_HOST_SS_FW_SOC_IRQ_EN, MSS_MBI)) | \
77 (REG_FLD(VPU_40XX_HOST_SS_FW_SOC_IRQ_EN, MSS_MBI_CMX)))
79 static char *ivpu_platform_to_str(u32 platform)
82 case IVPU_PLATFORM_SILICON:
83 return "IVPU_PLATFORM_SILICON";
84 case IVPU_PLATFORM_SIMICS:
85 return "IVPU_PLATFORM_SIMICS";
86 case IVPU_PLATFORM_FPGA:
87 return "IVPU_PLATFORM_FPGA";
89 return "Invalid platform";
93 static const struct dmi_system_id ivpu_dmi_platform_simulation[] = {
95 .ident = "Intel Simics",
97 DMI_MATCH(DMI_BOARD_NAME, "lnlrvp"),
98 DMI_MATCH(DMI_BOARD_VERSION, "1.0"),
99 DMI_MATCH(DMI_BOARD_SERIAL, "123456789"),
103 .ident = "Intel Simics",
105 DMI_MATCH(DMI_BOARD_NAME, "Simics"),
111 static void ivpu_hw_read_platform(struct ivpu_device *vdev)
113 if (dmi_check_system(ivpu_dmi_platform_simulation))
114 vdev->platform = IVPU_PLATFORM_SIMICS;
116 vdev->platform = IVPU_PLATFORM_SILICON;
118 ivpu_dbg(vdev, MISC, "Platform type: %s (%d)\n",
119 ivpu_platform_to_str(vdev->platform), vdev->platform);
122 static void ivpu_hw_wa_init(struct ivpu_device *vdev)
124 vdev->wa.punit_disabled = ivpu_is_fpga(vdev);
125 vdev->wa.clear_runtime_mem = false;
127 if (ivpu_hw_gen(vdev) == IVPU_HW_40XX)
128 vdev->wa.disable_clock_relinquish = true;
130 IVPU_PRINT_WA(punit_disabled);
131 IVPU_PRINT_WA(clear_runtime_mem);
132 IVPU_PRINT_WA(disable_clock_relinquish);
135 static void ivpu_hw_timeouts_init(struct ivpu_device *vdev)
137 if (ivpu_is_fpga(vdev)) {
138 vdev->timeout.boot = 100000;
139 vdev->timeout.jsm = 50000;
140 vdev->timeout.tdr = 2000000;
141 vdev->timeout.reschedule_suspend = 1000;
142 vdev->timeout.autosuspend = -1;
143 vdev->timeout.d0i3_entry_msg = 500;
144 } else if (ivpu_is_simics(vdev)) {
145 vdev->timeout.boot = 50;
146 vdev->timeout.jsm = 500;
147 vdev->timeout.tdr = 10000;
148 vdev->timeout.reschedule_suspend = 10;
149 vdev->timeout.autosuspend = -1;
150 vdev->timeout.d0i3_entry_msg = 100;
152 vdev->timeout.boot = 1000;
153 vdev->timeout.jsm = 500;
154 vdev->timeout.tdr = 2000;
155 vdev->timeout.reschedule_suspend = 10;
156 vdev->timeout.autosuspend = 10;
157 vdev->timeout.d0i3_entry_msg = 5;
161 static int ivpu_pll_wait_for_cmd_send(struct ivpu_device *vdev)
163 return REGB_POLL_FLD(VPU_40XX_BUTTRESS_WP_REQ_CMD, SEND, 0, PLL_TIMEOUT_US);
166 static int ivpu_pll_cmd_send(struct ivpu_device *vdev, u16 min_ratio, u16 max_ratio,
167 u16 target_ratio, u16 epp, u16 config, u16 cdyn)
172 ret = ivpu_pll_wait_for_cmd_send(vdev);
174 ivpu_err(vdev, "Failed to sync before WP request: %d\n", ret);
178 val = REGB_RD32(VPU_40XX_BUTTRESS_WP_REQ_PAYLOAD0);
179 val = REG_SET_FLD_NUM(VPU_40XX_BUTTRESS_WP_REQ_PAYLOAD0, MIN_RATIO, min_ratio, val);
180 val = REG_SET_FLD_NUM(VPU_40XX_BUTTRESS_WP_REQ_PAYLOAD0, MAX_RATIO, max_ratio, val);
181 REGB_WR32(VPU_40XX_BUTTRESS_WP_REQ_PAYLOAD0, val);
183 val = REGB_RD32(VPU_40XX_BUTTRESS_WP_REQ_PAYLOAD1);
184 val = REG_SET_FLD_NUM(VPU_40XX_BUTTRESS_WP_REQ_PAYLOAD1, TARGET_RATIO, target_ratio, val);
185 val = REG_SET_FLD_NUM(VPU_40XX_BUTTRESS_WP_REQ_PAYLOAD1, EPP, epp, val);
186 REGB_WR32(VPU_40XX_BUTTRESS_WP_REQ_PAYLOAD1, val);
188 val = REGB_RD32(VPU_40XX_BUTTRESS_WP_REQ_PAYLOAD2);
189 val = REG_SET_FLD_NUM(VPU_40XX_BUTTRESS_WP_REQ_PAYLOAD2, CONFIG, config, val);
190 val = REG_SET_FLD_NUM(VPU_40XX_BUTTRESS_WP_REQ_PAYLOAD2, CDYN, cdyn, val);
191 REGB_WR32(VPU_40XX_BUTTRESS_WP_REQ_PAYLOAD2, val);
193 val = REGB_RD32(VPU_40XX_BUTTRESS_WP_REQ_CMD);
194 val = REG_SET_FLD(VPU_40XX_BUTTRESS_WP_REQ_CMD, SEND, val);
195 REGB_WR32(VPU_40XX_BUTTRESS_WP_REQ_CMD, val);
197 ret = ivpu_pll_wait_for_cmd_send(vdev);
199 ivpu_err(vdev, "Failed to sync after WP request: %d\n", ret);
204 static int ivpu_pll_wait_for_status_ready(struct ivpu_device *vdev)
206 return REGB_POLL_FLD(VPU_40XX_BUTTRESS_VPU_STATUS, READY, 1, PLL_TIMEOUT_US);
209 static int ivpu_wait_for_clock_own_resource_ack(struct ivpu_device *vdev)
211 if (ivpu_is_simics(vdev))
214 return REGB_POLL_FLD(VPU_40XX_BUTTRESS_VPU_STATUS, CLOCK_RESOURCE_OWN_ACK, 1, TIMEOUT_US);
217 static void ivpu_pll_init_frequency_ratios(struct ivpu_device *vdev)
219 struct ivpu_hw_info *hw = vdev->hw;
220 u8 fuse_min_ratio, fuse_pn_ratio, fuse_max_ratio;
221 u32 fmin_fuse, fmax_fuse;
223 fmin_fuse = REGB_RD32(VPU_40XX_BUTTRESS_FMIN_FUSE);
224 fuse_min_ratio = REG_GET_FLD(VPU_40XX_BUTTRESS_FMIN_FUSE, MIN_RATIO, fmin_fuse);
225 fuse_pn_ratio = REG_GET_FLD(VPU_40XX_BUTTRESS_FMIN_FUSE, PN_RATIO, fmin_fuse);
227 fmax_fuse = REGB_RD32(VPU_40XX_BUTTRESS_FMAX_FUSE);
228 fuse_max_ratio = REG_GET_FLD(VPU_40XX_BUTTRESS_FMAX_FUSE, MAX_RATIO, fmax_fuse);
230 hw->pll.min_ratio = clamp_t(u8, ivpu_pll_min_ratio, fuse_min_ratio, fuse_max_ratio);
231 hw->pll.max_ratio = clamp_t(u8, ivpu_pll_max_ratio, hw->pll.min_ratio, fuse_max_ratio);
232 hw->pll.pn_ratio = clamp_t(u8, fuse_pn_ratio, hw->pll.min_ratio, hw->pll.max_ratio);
235 static int ivpu_pll_drive(struct ivpu_device *vdev, bool enable)
237 u16 config = enable ? PLL_CONFIG_DEFAULT : 0;
238 u16 cdyn = enable ? PLL_CDYN_DEFAULT : 0;
239 u16 epp = enable ? PLL_EPP_DEFAULT : 0;
240 struct ivpu_hw_info *hw = vdev->hw;
241 u16 target_ratio = hw->pll.pn_ratio;
244 ivpu_dbg(vdev, PM, "PLL workpoint request: %u Hz, epp: 0x%x, config: 0x%x, cdyn: 0x%x\n",
245 PLL_RATIO_TO_FREQ(target_ratio), epp, config, cdyn);
247 ret = ivpu_pll_cmd_send(vdev, hw->pll.min_ratio, hw->pll.max_ratio,
248 target_ratio, epp, config, cdyn);
250 ivpu_err(vdev, "Failed to send PLL workpoint request: %d\n", ret);
255 ret = ivpu_pll_wait_for_status_ready(vdev);
257 ivpu_err(vdev, "Timed out waiting for PLL ready status\n");
265 static int ivpu_pll_enable(struct ivpu_device *vdev)
267 return ivpu_pll_drive(vdev, true);
270 static int ivpu_pll_disable(struct ivpu_device *vdev)
272 return ivpu_pll_drive(vdev, false);
275 static void ivpu_boot_host_ss_rst_drive(struct ivpu_device *vdev, bool enable)
277 u32 val = REGV_RD32(VPU_40XX_HOST_SS_CPR_RST_EN);
280 val = REG_SET_FLD(VPU_40XX_HOST_SS_CPR_RST_EN, TOP_NOC, val);
281 val = REG_SET_FLD(VPU_40XX_HOST_SS_CPR_RST_EN, DSS_MAS, val);
282 val = REG_SET_FLD(VPU_40XX_HOST_SS_CPR_RST_EN, CSS_MAS, val);
284 val = REG_CLR_FLD(VPU_40XX_HOST_SS_CPR_RST_EN, TOP_NOC, val);
285 val = REG_CLR_FLD(VPU_40XX_HOST_SS_CPR_RST_EN, DSS_MAS, val);
286 val = REG_CLR_FLD(VPU_40XX_HOST_SS_CPR_RST_EN, CSS_MAS, val);
289 REGV_WR32(VPU_40XX_HOST_SS_CPR_RST_EN, val);
292 static void ivpu_boot_host_ss_clk_drive(struct ivpu_device *vdev, bool enable)
294 u32 val = REGV_RD32(VPU_40XX_HOST_SS_CPR_CLK_EN);
297 val = REG_SET_FLD(VPU_40XX_HOST_SS_CPR_CLK_EN, TOP_NOC, val);
298 val = REG_SET_FLD(VPU_40XX_HOST_SS_CPR_CLK_EN, DSS_MAS, val);
299 val = REG_SET_FLD(VPU_40XX_HOST_SS_CPR_CLK_EN, CSS_MAS, val);
301 val = REG_CLR_FLD(VPU_40XX_HOST_SS_CPR_CLK_EN, TOP_NOC, val);
302 val = REG_CLR_FLD(VPU_40XX_HOST_SS_CPR_CLK_EN, DSS_MAS, val);
303 val = REG_CLR_FLD(VPU_40XX_HOST_SS_CPR_CLK_EN, CSS_MAS, val);
306 REGV_WR32(VPU_40XX_HOST_SS_CPR_CLK_EN, val);
309 static int ivpu_boot_noc_qreqn_check(struct ivpu_device *vdev, u32 exp_val)
311 u32 val = REGV_RD32(VPU_40XX_HOST_SS_NOC_QREQN);
313 if (!REG_TEST_FLD_NUM(VPU_40XX_HOST_SS_NOC_QREQN, TOP_SOCMMIO, exp_val, val))
319 static int ivpu_boot_noc_qacceptn_check(struct ivpu_device *vdev, u32 exp_val)
321 u32 val = REGV_RD32(VPU_40XX_HOST_SS_NOC_QACCEPTN);
323 if (!REG_TEST_FLD_NUM(VPU_40XX_HOST_SS_NOC_QACCEPTN, TOP_SOCMMIO, exp_val, val))
329 static int ivpu_boot_noc_qdeny_check(struct ivpu_device *vdev, u32 exp_val)
331 u32 val = REGV_RD32(VPU_40XX_HOST_SS_NOC_QDENY);
333 if (!REG_TEST_FLD_NUM(VPU_40XX_HOST_SS_NOC_QDENY, TOP_SOCMMIO, exp_val, val))
339 static int ivpu_boot_top_noc_qrenqn_check(struct ivpu_device *vdev, u32 exp_val)
341 u32 val = REGV_RD32(VPU_40XX_TOP_NOC_QREQN);
343 if (!REG_TEST_FLD_NUM(VPU_40XX_TOP_NOC_QREQN, CPU_CTRL, exp_val, val) ||
344 !REG_TEST_FLD_NUM(VPU_40XX_TOP_NOC_QREQN, HOSTIF_L2CACHE, exp_val, val))
350 static int ivpu_boot_top_noc_qacceptn_check(struct ivpu_device *vdev, u32 exp_val)
352 u32 val = REGV_RD32(VPU_40XX_TOP_NOC_QACCEPTN);
354 if (!REG_TEST_FLD_NUM(VPU_40XX_TOP_NOC_QACCEPTN, CPU_CTRL, exp_val, val) ||
355 !REG_TEST_FLD_NUM(VPU_40XX_TOP_NOC_QACCEPTN, HOSTIF_L2CACHE, exp_val, val))
361 static int ivpu_boot_top_noc_qdeny_check(struct ivpu_device *vdev, u32 exp_val)
363 u32 val = REGV_RD32(VPU_40XX_TOP_NOC_QDENY);
365 if (!REG_TEST_FLD_NUM(VPU_40XX_TOP_NOC_QDENY, CPU_CTRL, exp_val, val) ||
366 !REG_TEST_FLD_NUM(VPU_40XX_TOP_NOC_QDENY, HOSTIF_L2CACHE, exp_val, val))
372 static void ivpu_boot_idle_gen_drive(struct ivpu_device *vdev, bool enable)
374 u32 val = REGV_RD32(VPU_40XX_HOST_SS_AON_IDLE_GEN);
377 val = REG_SET_FLD(VPU_40XX_HOST_SS_AON_IDLE_GEN, EN, val);
379 val = REG_CLR_FLD(VPU_40XX_HOST_SS_AON_IDLE_GEN, EN, val);
381 REGV_WR32(VPU_40XX_HOST_SS_AON_IDLE_GEN, val);
384 static int ivpu_boot_host_ss_check(struct ivpu_device *vdev)
388 ret = ivpu_boot_noc_qreqn_check(vdev, 0x0);
390 ivpu_err(vdev, "Failed qreqn check: %d\n", ret);
394 ret = ivpu_boot_noc_qacceptn_check(vdev, 0x0);
396 ivpu_err(vdev, "Failed qacceptn check: %d\n", ret);
400 ret = ivpu_boot_noc_qdeny_check(vdev, 0x0);
402 ivpu_err(vdev, "Failed qdeny check %d\n", ret);
407 static int ivpu_boot_host_ss_axi_drive(struct ivpu_device *vdev, bool enable)
412 val = REGV_RD32(VPU_40XX_HOST_SS_NOC_QREQN);
414 val = REG_SET_FLD(VPU_40XX_HOST_SS_NOC_QREQN, TOP_SOCMMIO, val);
416 val = REG_CLR_FLD(VPU_40XX_HOST_SS_NOC_QREQN, TOP_SOCMMIO, val);
417 REGV_WR32(VPU_40XX_HOST_SS_NOC_QREQN, val);
419 ret = ivpu_boot_noc_qacceptn_check(vdev, enable ? 0x1 : 0x0);
421 ivpu_err(vdev, "Failed qacceptn check: %d\n", ret);
425 ret = ivpu_boot_noc_qdeny_check(vdev, 0x0);
427 ivpu_err(vdev, "Failed qdeny check: %d\n", ret);
432 REGB_WR32(VPU_40XX_BUTTRESS_PORT_ARBITRATION_WEIGHTS, WEIGHTS_DEFAULT);
433 REGB_WR32(VPU_40XX_BUTTRESS_PORT_ARBITRATION_WEIGHTS_ATS, WEIGHTS_ATS_DEFAULT);
439 static int ivpu_boot_host_ss_axi_enable(struct ivpu_device *vdev)
441 return ivpu_boot_host_ss_axi_drive(vdev, true);
444 static int ivpu_boot_host_ss_top_noc_drive(struct ivpu_device *vdev, bool enable)
449 val = REGV_RD32(VPU_40XX_TOP_NOC_QREQN);
451 val = REG_SET_FLD(VPU_40XX_TOP_NOC_QREQN, CPU_CTRL, val);
452 val = REG_SET_FLD(VPU_40XX_TOP_NOC_QREQN, HOSTIF_L2CACHE, val);
454 val = REG_CLR_FLD(VPU_40XX_TOP_NOC_QREQN, CPU_CTRL, val);
455 val = REG_CLR_FLD(VPU_40XX_TOP_NOC_QREQN, HOSTIF_L2CACHE, val);
457 REGV_WR32(VPU_40XX_TOP_NOC_QREQN, val);
459 ret = ivpu_boot_top_noc_qacceptn_check(vdev, enable ? 0x1 : 0x0);
461 ivpu_err(vdev, "Failed qacceptn check: %d\n", ret);
465 ret = ivpu_boot_top_noc_qdeny_check(vdev, 0x0);
467 ivpu_err(vdev, "Failed qdeny check: %d\n", ret);
472 static int ivpu_boot_host_ss_top_noc_enable(struct ivpu_device *vdev)
474 return ivpu_boot_host_ss_top_noc_drive(vdev, true);
477 static void ivpu_boot_pwr_island_trickle_drive(struct ivpu_device *vdev, bool enable)
479 u32 val = REGV_RD32(VPU_40XX_HOST_SS_AON_PWR_ISLAND_TRICKLE_EN0);
482 val = REG_SET_FLD(VPU_40XX_HOST_SS_AON_PWR_ISLAND_TRICKLE_EN0, CSS_CPU, val);
484 val = REG_CLR_FLD(VPU_40XX_HOST_SS_AON_PWR_ISLAND_TRICKLE_EN0, CSS_CPU, val);
486 REGV_WR32(VPU_40XX_HOST_SS_AON_PWR_ISLAND_TRICKLE_EN0, val);
492 static void ivpu_boot_pwr_island_drive(struct ivpu_device *vdev, bool enable)
494 u32 val = REGV_RD32(VPU_40XX_HOST_SS_AON_PWR_ISLAND_EN0);
497 val = REG_SET_FLD(VPU_40XX_HOST_SS_AON_PWR_ISLAND_EN0, CSS_CPU, val);
499 val = REG_CLR_FLD(VPU_40XX_HOST_SS_AON_PWR_ISLAND_EN0, CSS_CPU, val);
501 REGV_WR32(VPU_40XX_HOST_SS_AON_PWR_ISLAND_EN0, val);
507 static int ivpu_boot_wait_for_pwr_island_status(struct ivpu_device *vdev, u32 exp_val)
509 if (ivpu_is_fpga(vdev))
512 return REGV_POLL_FLD(VPU_40XX_HOST_SS_AON_PWR_ISLAND_STATUS0, CSS_CPU,
513 exp_val, PWR_ISLAND_STATUS_TIMEOUT_US);
516 static void ivpu_boot_pwr_island_isolation_drive(struct ivpu_device *vdev, bool enable)
518 u32 val = REGV_RD32(VPU_40XX_HOST_SS_AON_PWR_ISO_EN0);
521 val = REG_SET_FLD(VPU_40XX_HOST_SS_AON_PWR_ISO_EN0, CSS_CPU, val);
523 val = REG_CLR_FLD(VPU_40XX_HOST_SS_AON_PWR_ISO_EN0, CSS_CPU, val);
525 REGV_WR32(VPU_40XX_HOST_SS_AON_PWR_ISO_EN0, val);
528 static void ivpu_boot_no_snoop_enable(struct ivpu_device *vdev)
530 u32 val = REGV_RD32(VPU_40XX_HOST_IF_TCU_PTW_OVERRIDES);
532 val = REG_SET_FLD(VPU_40XX_HOST_IF_TCU_PTW_OVERRIDES, SNOOP_OVERRIDE_EN, val);
533 val = REG_SET_FLD(VPU_40XX_HOST_IF_TCU_PTW_OVERRIDES, AW_SNOOP_OVERRIDE, val);
534 val = REG_CLR_FLD(VPU_40XX_HOST_IF_TCU_PTW_OVERRIDES, AR_SNOOP_OVERRIDE, val);
536 REGV_WR32(VPU_40XX_HOST_IF_TCU_PTW_OVERRIDES, val);
539 static void ivpu_boot_tbu_mmu_enable(struct ivpu_device *vdev)
541 u32 val = REGV_RD32(VPU_40XX_HOST_IF_TBU_MMUSSIDV);
543 val = REG_SET_FLD(VPU_40XX_HOST_IF_TBU_MMUSSIDV, TBU0_AWMMUSSIDV, val);
544 val = REG_SET_FLD(VPU_40XX_HOST_IF_TBU_MMUSSIDV, TBU0_ARMMUSSIDV, val);
545 val = REG_SET_FLD(VPU_40XX_HOST_IF_TBU_MMUSSIDV, TBU1_AWMMUSSIDV, val);
546 val = REG_SET_FLD(VPU_40XX_HOST_IF_TBU_MMUSSIDV, TBU1_ARMMUSSIDV, val);
547 val = REG_SET_FLD(VPU_40XX_HOST_IF_TBU_MMUSSIDV, TBU2_AWMMUSSIDV, val);
548 val = REG_SET_FLD(VPU_40XX_HOST_IF_TBU_MMUSSIDV, TBU2_ARMMUSSIDV, val);
550 REGV_WR32(VPU_40XX_HOST_IF_TBU_MMUSSIDV, val);
553 static int ivpu_boot_cpu_noc_qacceptn_check(struct ivpu_device *vdev, u32 exp_val)
555 u32 val = REGV_RD32(VPU_40XX_CPU_SS_CPR_NOC_QACCEPTN);
557 if (!REG_TEST_FLD_NUM(VPU_40XX_CPU_SS_CPR_NOC_QACCEPTN, TOP_MMIO, exp_val, val))
563 static int ivpu_boot_cpu_noc_qdeny_check(struct ivpu_device *vdev, u32 exp_val)
565 u32 val = REGV_RD32(VPU_40XX_CPU_SS_CPR_NOC_QDENY);
567 if (!REG_TEST_FLD_NUM(VPU_40XX_CPU_SS_CPR_NOC_QDENY, TOP_MMIO, exp_val, val))
573 static int ivpu_boot_pwr_domain_enable(struct ivpu_device *vdev)
577 ret = ivpu_wait_for_clock_own_resource_ack(vdev);
579 ivpu_err(vdev, "Timed out waiting for clock own resource ACK\n");
583 ivpu_boot_pwr_island_trickle_drive(vdev, true);
584 ivpu_boot_pwr_island_drive(vdev, true);
586 ret = ivpu_boot_wait_for_pwr_island_status(vdev, 0x1);
588 ivpu_err(vdev, "Timed out waiting for power island status\n");
592 ret = ivpu_boot_top_noc_qrenqn_check(vdev, 0x0);
594 ivpu_err(vdev, "Failed qrenqn check %d\n", ret);
598 ivpu_boot_host_ss_clk_drive(vdev, true);
599 ivpu_boot_host_ss_rst_drive(vdev, true);
600 ivpu_boot_pwr_island_isolation_drive(vdev, false);
605 static int ivpu_boot_soc_cpu_drive(struct ivpu_device *vdev, bool enable)
610 val = REGV_RD32(VPU_40XX_CPU_SS_CPR_NOC_QREQN);
612 val = REG_SET_FLD(VPU_40XX_CPU_SS_CPR_NOC_QREQN, TOP_MMIO, val);
614 val = REG_CLR_FLD(VPU_40XX_CPU_SS_CPR_NOC_QREQN, TOP_MMIO, val);
615 REGV_WR32(VPU_40XX_CPU_SS_CPR_NOC_QREQN, val);
617 ret = ivpu_boot_cpu_noc_qacceptn_check(vdev, enable ? 0x1 : 0x0);
619 ivpu_err(vdev, "Failed qacceptn check: %d\n", ret);
623 ret = ivpu_boot_cpu_noc_qdeny_check(vdev, 0x0);
625 ivpu_err(vdev, "Failed qdeny check: %d\n", ret);
630 static int ivpu_boot_soc_cpu_enable(struct ivpu_device *vdev)
632 return ivpu_boot_soc_cpu_drive(vdev, true);
635 static int ivpu_boot_soc_cpu_boot(struct ivpu_device *vdev)
641 ret = ivpu_boot_soc_cpu_enable(vdev);
643 ivpu_err(vdev, "Failed to enable SOC CPU: %d\n", ret);
647 val64 = vdev->fw->entry_point;
648 val64 <<= ffs(VPU_40XX_HOST_SS_VERIFICATION_ADDRESS_LO_IMAGE_LOCATION_MASK) - 1;
649 REGV_WR64(VPU_40XX_HOST_SS_VERIFICATION_ADDRESS_LO, val64);
651 val = REGV_RD32(VPU_40XX_HOST_SS_VERIFICATION_ADDRESS_LO);
652 val = REG_SET_FLD(VPU_40XX_HOST_SS_VERIFICATION_ADDRESS_LO, DONE, val);
653 REGV_WR32(VPU_40XX_HOST_SS_VERIFICATION_ADDRESS_LO, val);
655 ivpu_dbg(vdev, PM, "Booting firmware, mode: %s\n",
656 ivpu_fw_is_cold_boot(vdev) ? "cold boot" : "resume");
661 static int ivpu_boot_d0i3_drive(struct ivpu_device *vdev, bool enable)
666 ret = REGB_POLL_FLD(VPU_40XX_BUTTRESS_D0I3_CONTROL, INPROGRESS, 0, TIMEOUT_US);
668 ivpu_err(vdev, "Failed to sync before D0i3 transition: %d\n", ret);
672 val = REGB_RD32(VPU_40XX_BUTTRESS_D0I3_CONTROL);
674 val = REG_SET_FLD(VPU_40XX_BUTTRESS_D0I3_CONTROL, I3, val);
676 val = REG_CLR_FLD(VPU_40XX_BUTTRESS_D0I3_CONTROL, I3, val);
677 REGB_WR32(VPU_40XX_BUTTRESS_D0I3_CONTROL, val);
679 ret = REGB_POLL_FLD(VPU_40XX_BUTTRESS_D0I3_CONTROL, INPROGRESS, 0, TIMEOUT_US);
681 ivpu_err(vdev, "Failed to sync after D0i3 transition: %d\n", ret);
688 static bool ivpu_tile_disable_check(u32 config)
690 /* Allowed values: 0 or one bit from range 0-5 (6 tiles) */
694 if (config > BIT(TILE_MAX_NUM - 1))
697 if ((config & (config - 1)) == 0)
703 static int ivpu_hw_40xx_info_init(struct ivpu_device *vdev)
705 struct ivpu_hw_info *hw = vdev->hw;
709 fuse = REGB_RD32(VPU_40XX_BUTTRESS_TILE_FUSE);
710 if (!REG_TEST_FLD(VPU_40XX_BUTTRESS_TILE_FUSE, VALID, fuse)) {
711 ivpu_err(vdev, "Fuse: invalid (0x%x)\n", fuse);
715 tile_disable = REG_GET_FLD(VPU_40XX_BUTTRESS_TILE_FUSE, CONFIG, fuse);
716 if (!ivpu_tile_disable_check(tile_disable)) {
717 ivpu_err(vdev, "Fuse: Invalid tile disable config (0x%x)\n", tile_disable);
722 ivpu_dbg(vdev, MISC, "Fuse: %d tiles enabled. Tile number %d disabled\n",
723 TILE_MAX_NUM - 1, ffs(tile_disable) - 1);
725 ivpu_dbg(vdev, MISC, "Fuse: All %d tiles enabled\n", TILE_MAX_NUM);
727 hw->tile_fuse = tile_disable;
728 hw->pll.profiling_freq = PLL_PROFILING_FREQ_DEFAULT;
730 ivpu_pll_init_frequency_ratios(vdev);
732 ivpu_hw_init_range(&vdev->hw->ranges.global, 0x80000000, SZ_512M);
733 ivpu_hw_init_range(&vdev->hw->ranges.user, 0x80000000, SZ_256M);
734 ivpu_hw_init_range(&vdev->hw->ranges.shave, 0x80000000 + SZ_256M, SZ_2G - SZ_256M);
735 ivpu_hw_init_range(&vdev->hw->ranges.dma, 0x200000000, SZ_8G);
737 ivpu_hw_read_platform(vdev);
738 ivpu_hw_wa_init(vdev);
739 ivpu_hw_timeouts_init(vdev);
744 static int ivpu_hw_40xx_ip_reset(struct ivpu_device *vdev)
749 ret = REGB_POLL_FLD(VPU_40XX_BUTTRESS_IP_RESET, TRIGGER, 0, TIMEOUT_US);
751 ivpu_err(vdev, "Wait for *_TRIGGER timed out\n");
755 val = REGB_RD32(VPU_40XX_BUTTRESS_IP_RESET);
756 val = REG_SET_FLD(VPU_40XX_BUTTRESS_IP_RESET, TRIGGER, val);
757 REGB_WR32(VPU_40XX_BUTTRESS_IP_RESET, val);
759 ret = REGB_POLL_FLD(VPU_40XX_BUTTRESS_IP_RESET, TRIGGER, 0, TIMEOUT_US);
761 ivpu_err(vdev, "Timed out waiting for RESET completion\n");
766 static int ivpu_hw_40xx_reset(struct ivpu_device *vdev)
770 if (ivpu_hw_40xx_ip_reset(vdev)) {
771 ivpu_err(vdev, "Failed to reset VPU IP\n");
775 if (ivpu_pll_disable(vdev)) {
776 ivpu_err(vdev, "Failed to disable PLL\n");
783 static int ivpu_hw_40xx_d0i3_enable(struct ivpu_device *vdev)
787 if (IVPU_WA(punit_disabled))
790 ret = ivpu_boot_d0i3_drive(vdev, true);
792 ivpu_err(vdev, "Failed to enable D0i3: %d\n", ret);
794 udelay(5); /* VPU requires 5 us to complete the transition */
799 static int ivpu_hw_40xx_d0i3_disable(struct ivpu_device *vdev)
803 if (IVPU_WA(punit_disabled))
806 ret = ivpu_boot_d0i3_drive(vdev, false);
808 ivpu_err(vdev, "Failed to disable D0i3: %d\n", ret);
813 static void ivpu_hw_40xx_profiling_freq_reg_set(struct ivpu_device *vdev)
815 u32 val = REGB_RD32(VPU_40XX_BUTTRESS_VPU_STATUS);
817 if (vdev->hw->pll.profiling_freq == PLL_PROFILING_FREQ_DEFAULT)
818 val = REG_CLR_FLD(VPU_40XX_BUTTRESS_VPU_STATUS, PERF_CLK, val);
820 val = REG_SET_FLD(VPU_40XX_BUTTRESS_VPU_STATUS, PERF_CLK, val);
822 REGB_WR32(VPU_40XX_BUTTRESS_VPU_STATUS, val);
825 static void ivpu_hw_40xx_ats_print(struct ivpu_device *vdev)
827 ivpu_dbg(vdev, MISC, "Buttress ATS: %s\n",
828 REGB_RD32(VPU_40XX_BUTTRESS_HM_ATS) ? "Enable" : "Disable");
831 static void ivpu_hw_40xx_clock_relinquish_disable(struct ivpu_device *vdev)
833 u32 val = REGB_RD32(VPU_40XX_BUTTRESS_VPU_STATUS);
835 val = REG_SET_FLD(VPU_40XX_BUTTRESS_VPU_STATUS, DISABLE_CLK_RELINQUISH, val);
836 REGB_WR32(VPU_40XX_BUTTRESS_VPU_STATUS, val);
839 static int ivpu_hw_40xx_power_up(struct ivpu_device *vdev)
843 ret = ivpu_hw_40xx_d0i3_disable(vdev);
845 ivpu_warn(vdev, "Failed to disable D0I3: %d\n", ret);
847 ret = ivpu_pll_enable(vdev);
849 ivpu_err(vdev, "Failed to enable PLL: %d\n", ret);
853 if (IVPU_WA(disable_clock_relinquish))
854 ivpu_hw_40xx_clock_relinquish_disable(vdev);
855 ivpu_hw_40xx_profiling_freq_reg_set(vdev);
856 ivpu_hw_40xx_ats_print(vdev);
858 ret = ivpu_boot_host_ss_check(vdev);
860 ivpu_err(vdev, "Failed to configure host SS: %d\n", ret);
864 ivpu_boot_idle_gen_drive(vdev, false);
866 ret = ivpu_boot_pwr_domain_enable(vdev);
868 ivpu_err(vdev, "Failed to enable power domain: %d\n", ret);
872 ret = ivpu_boot_host_ss_axi_enable(vdev);
874 ivpu_err(vdev, "Failed to enable AXI: %d\n", ret);
878 ret = ivpu_boot_host_ss_top_noc_enable(vdev);
880 ivpu_err(vdev, "Failed to enable TOP NOC: %d\n", ret);
885 static int ivpu_hw_40xx_boot_fw(struct ivpu_device *vdev)
889 ivpu_boot_no_snoop_enable(vdev);
890 ivpu_boot_tbu_mmu_enable(vdev);
892 ret = ivpu_boot_soc_cpu_boot(vdev);
894 ivpu_err(vdev, "Failed to boot SOC CPU: %d\n", ret);
899 static bool ivpu_hw_40xx_is_idle(struct ivpu_device *vdev)
903 if (IVPU_WA(punit_disabled))
906 val = REGB_RD32(VPU_40XX_BUTTRESS_VPU_STATUS);
907 return REG_TEST_FLD(VPU_40XX_BUTTRESS_VPU_STATUS, READY, val) &&
908 REG_TEST_FLD(VPU_40XX_BUTTRESS_VPU_STATUS, IDLE, val);
911 static int ivpu_hw_40xx_wait_for_idle(struct ivpu_device *vdev)
913 return REGB_POLL_FLD(VPU_40XX_BUTTRESS_VPU_STATUS, IDLE, 0x1, IDLE_TIMEOUT_US);
916 static void ivpu_hw_40xx_save_d0i3_entry_timestamp(struct ivpu_device *vdev)
918 vdev->hw->d0i3_entry_host_ts = ktime_get_boottime();
919 vdev->hw->d0i3_entry_vpu_ts = REGV_RD64(VPU_40XX_CPU_SS_TIM_PERF_EXT_FREE_CNT);
922 static int ivpu_hw_40xx_power_down(struct ivpu_device *vdev)
926 ivpu_hw_40xx_save_d0i3_entry_timestamp(vdev);
928 if (!ivpu_hw_40xx_is_idle(vdev) && ivpu_hw_40xx_ip_reset(vdev))
929 ivpu_warn(vdev, "Failed to reset the VPU\n");
931 if (ivpu_pll_disable(vdev)) {
932 ivpu_err(vdev, "Failed to disable PLL\n");
936 if (ivpu_hw_40xx_d0i3_enable(vdev)) {
937 ivpu_err(vdev, "Failed to enter D0I3\n");
944 static void ivpu_hw_40xx_wdt_disable(struct ivpu_device *vdev)
948 REGV_WR32(VPU_40XX_CPU_SS_TIM_SAFE, TIM_SAFE_ENABLE);
949 REGV_WR32(VPU_40XX_CPU_SS_TIM_WATCHDOG, TIM_WATCHDOG_RESET_VALUE);
951 REGV_WR32(VPU_40XX_CPU_SS_TIM_SAFE, TIM_SAFE_ENABLE);
952 REGV_WR32(VPU_40XX_CPU_SS_TIM_WDOG_EN, 0);
954 val = REGV_RD32(VPU_40XX_CPU_SS_TIM_GEN_CONFIG);
955 val = REG_CLR_FLD(VPU_40XX_CPU_SS_TIM_GEN_CONFIG, WDOG_TO_INT_CLR, val);
956 REGV_WR32(VPU_40XX_CPU_SS_TIM_GEN_CONFIG, val);
959 static u32 ivpu_hw_40xx_profiling_freq_get(struct ivpu_device *vdev)
961 return vdev->hw->pll.profiling_freq;
964 static void ivpu_hw_40xx_profiling_freq_drive(struct ivpu_device *vdev, bool enable)
967 vdev->hw->pll.profiling_freq = PLL_PROFILING_FREQ_HIGH;
969 vdev->hw->pll.profiling_freq = PLL_PROFILING_FREQ_DEFAULT;
972 /* Register indirect accesses */
973 static u32 ivpu_hw_40xx_reg_pll_freq_get(struct ivpu_device *vdev)
977 pll_curr_ratio = REGB_RD32(VPU_40XX_BUTTRESS_PLL_FREQ);
978 pll_curr_ratio &= VPU_40XX_BUTTRESS_PLL_FREQ_RATIO_MASK;
980 return PLL_RATIO_TO_FREQ(pll_curr_ratio);
983 static u32 ivpu_hw_40xx_ratio_to_freq(struct ivpu_device *vdev, u32 ratio)
985 return PLL_RATIO_TO_FREQ(ratio);
988 static u32 ivpu_hw_40xx_reg_telemetry_offset_get(struct ivpu_device *vdev)
990 return REGB_RD32(VPU_40XX_BUTTRESS_VPU_TELEMETRY_OFFSET);
993 static u32 ivpu_hw_40xx_reg_telemetry_size_get(struct ivpu_device *vdev)
995 return REGB_RD32(VPU_40XX_BUTTRESS_VPU_TELEMETRY_SIZE);
998 static u32 ivpu_hw_40xx_reg_telemetry_enable_get(struct ivpu_device *vdev)
1000 return REGB_RD32(VPU_40XX_BUTTRESS_VPU_TELEMETRY_ENABLE);
1003 static void ivpu_hw_40xx_reg_db_set(struct ivpu_device *vdev, u32 db_id)
1005 u32 reg_stride = VPU_40XX_CPU_SS_DOORBELL_1 - VPU_40XX_CPU_SS_DOORBELL_0;
1006 u32 val = REG_FLD(VPU_40XX_CPU_SS_DOORBELL_0, SET);
1008 REGV_WR32I(VPU_40XX_CPU_SS_DOORBELL_0, reg_stride, db_id, val);
1011 static u32 ivpu_hw_40xx_reg_ipc_rx_addr_get(struct ivpu_device *vdev)
1013 return REGV_RD32(VPU_40XX_HOST_SS_TIM_IPC_FIFO_ATM);
1016 static u32 ivpu_hw_40xx_reg_ipc_rx_count_get(struct ivpu_device *vdev)
1018 u32 count = REGV_RD32_SILENT(VPU_40XX_HOST_SS_TIM_IPC_FIFO_STAT);
1020 return REG_GET_FLD(VPU_40XX_HOST_SS_TIM_IPC_FIFO_STAT, FILL_LEVEL, count);
1023 static void ivpu_hw_40xx_reg_ipc_tx_set(struct ivpu_device *vdev, u32 vpu_addr)
1025 REGV_WR32(VPU_40XX_CPU_SS_TIM_IPC_FIFO, vpu_addr);
1028 static void ivpu_hw_40xx_irq_clear(struct ivpu_device *vdev)
1030 REGV_WR64(VPU_40XX_HOST_SS_ICB_CLEAR_0, ICB_0_1_IRQ_MASK);
1033 static void ivpu_hw_40xx_irq_enable(struct ivpu_device *vdev)
1035 REGV_WR32(VPU_40XX_HOST_SS_FW_SOC_IRQ_EN, ITF_FIREWALL_VIOLATION_MASK);
1036 REGV_WR64(VPU_40XX_HOST_SS_ICB_ENABLE_0, ICB_0_1_IRQ_MASK);
1037 REGB_WR32(VPU_40XX_BUTTRESS_LOCAL_INT_MASK, BUTTRESS_IRQ_ENABLE_MASK);
1038 REGB_WR32(VPU_40XX_BUTTRESS_GLOBAL_INT_MASK, 0x0);
1041 static void ivpu_hw_40xx_irq_disable(struct ivpu_device *vdev)
1043 REGB_WR32(VPU_40XX_BUTTRESS_GLOBAL_INT_MASK, 0x1);
1044 REGB_WR32(VPU_40XX_BUTTRESS_LOCAL_INT_MASK, BUTTRESS_IRQ_DISABLE_MASK);
1045 REGV_WR64(VPU_40XX_HOST_SS_ICB_ENABLE_0, 0x0ull);
1046 REGV_WR32(VPU_40XX_HOST_SS_FW_SOC_IRQ_EN, 0x0ul);
1049 static void ivpu_hw_40xx_irq_wdt_nce_handler(struct ivpu_device *vdev)
1051 /* TODO: For LNN hang consider engine reset instead of full recovery */
1052 ivpu_pm_trigger_recovery(vdev, "WDT NCE IRQ");
1055 static void ivpu_hw_40xx_irq_wdt_mss_handler(struct ivpu_device *vdev)
1057 ivpu_hw_wdt_disable(vdev);
1058 ivpu_pm_trigger_recovery(vdev, "WDT MSS IRQ");
1061 static void ivpu_hw_40xx_irq_noc_firewall_handler(struct ivpu_device *vdev)
1063 ivpu_pm_trigger_recovery(vdev, "NOC Firewall IRQ");
1066 /* Handler for IRQs from VPU core (irqV) */
1067 static bool ivpu_hw_40xx_irqv_handler(struct ivpu_device *vdev, int irq, bool *wake_thread)
1069 u32 status = REGV_RD32(VPU_40XX_HOST_SS_ICB_STATUS_0) & ICB_0_IRQ_MASK;
1074 REGV_WR32(VPU_40XX_HOST_SS_ICB_CLEAR_0, status);
1076 if (REG_TEST_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, MMU_IRQ_0_INT, status))
1077 ivpu_mmu_irq_evtq_handler(vdev);
1079 if (REG_TEST_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, HOST_IPC_FIFO_INT, status))
1080 ivpu_ipc_irq_handler(vdev, wake_thread);
1082 if (REG_TEST_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, MMU_IRQ_1_INT, status))
1083 ivpu_dbg(vdev, IRQ, "MMU sync complete\n");
1085 if (REG_TEST_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, MMU_IRQ_2_INT, status))
1086 ivpu_mmu_irq_gerr_handler(vdev);
1088 if (REG_TEST_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, CPU_INT_REDIRECT_0_INT, status))
1089 ivpu_hw_40xx_irq_wdt_mss_handler(vdev);
1091 if (REG_TEST_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, CPU_INT_REDIRECT_1_INT, status))
1092 ivpu_hw_40xx_irq_wdt_nce_handler(vdev);
1094 if (REG_TEST_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, NOC_FIREWALL_INT, status))
1095 ivpu_hw_40xx_irq_noc_firewall_handler(vdev);
1100 /* Handler for IRQs from Buttress core (irqB) */
1101 static bool ivpu_hw_40xx_irqb_handler(struct ivpu_device *vdev, int irq)
1103 bool schedule_recovery = false;
1104 u32 status = REGB_RD32(VPU_40XX_BUTTRESS_INTERRUPT_STAT) & BUTTRESS_IRQ_MASK;
1109 if (REG_TEST_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, FREQ_CHANGE, status))
1110 ivpu_dbg(vdev, IRQ, "FREQ_CHANGE");
1112 if (REG_TEST_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, ATS_ERR, status)) {
1113 ivpu_err(vdev, "ATS_ERR LOG1 0x%08x ATS_ERR_LOG2 0x%08x\n",
1114 REGB_RD32(VPU_40XX_BUTTRESS_ATS_ERR_LOG1),
1115 REGB_RD32(VPU_40XX_BUTTRESS_ATS_ERR_LOG2));
1116 REGB_WR32(VPU_40XX_BUTTRESS_ATS_ERR_CLEAR, 0x1);
1117 schedule_recovery = true;
1120 if (REG_TEST_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, CFI0_ERR, status)) {
1121 ivpu_err(vdev, "CFI0_ERR 0x%08x", REGB_RD32(VPU_40XX_BUTTRESS_CFI0_ERR_LOG));
1122 REGB_WR32(VPU_40XX_BUTTRESS_CFI0_ERR_CLEAR, 0x1);
1123 schedule_recovery = true;
1126 if (REG_TEST_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, CFI1_ERR, status)) {
1127 ivpu_err(vdev, "CFI1_ERR 0x%08x", REGB_RD32(VPU_40XX_BUTTRESS_CFI1_ERR_LOG));
1128 REGB_WR32(VPU_40XX_BUTTRESS_CFI1_ERR_CLEAR, 0x1);
1129 schedule_recovery = true;
1132 if (REG_TEST_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, IMR0_ERR, status)) {
1133 ivpu_err(vdev, "IMR_ERR_CFI0 LOW: 0x%08x HIGH: 0x%08x",
1134 REGB_RD32(VPU_40XX_BUTTRESS_IMR_ERR_CFI0_LOW),
1135 REGB_RD32(VPU_40XX_BUTTRESS_IMR_ERR_CFI0_HIGH));
1136 REGB_WR32(VPU_40XX_BUTTRESS_IMR_ERR_CFI0_CLEAR, 0x1);
1137 schedule_recovery = true;
1140 if (REG_TEST_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, IMR1_ERR, status)) {
1141 ivpu_err(vdev, "IMR_ERR_CFI1 LOW: 0x%08x HIGH: 0x%08x",
1142 REGB_RD32(VPU_40XX_BUTTRESS_IMR_ERR_CFI1_LOW),
1143 REGB_RD32(VPU_40XX_BUTTRESS_IMR_ERR_CFI1_HIGH));
1144 REGB_WR32(VPU_40XX_BUTTRESS_IMR_ERR_CFI1_CLEAR, 0x1);
1145 schedule_recovery = true;
1148 if (REG_TEST_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, SURV_ERR, status)) {
1149 ivpu_err(vdev, "Survivability error detected\n");
1150 schedule_recovery = true;
1153 /* This must be done after interrupts are cleared at the source. */
1154 REGB_WR32(VPU_40XX_BUTTRESS_INTERRUPT_STAT, status);
1156 if (schedule_recovery)
1157 ivpu_pm_trigger_recovery(vdev, "Buttress IRQ");
1162 static irqreturn_t ivpu_hw_40xx_irq_handler(int irq, void *ptr)
1164 bool irqv_handled, irqb_handled, wake_thread = false;
1165 struct ivpu_device *vdev = ptr;
1167 REGB_WR32(VPU_40XX_BUTTRESS_GLOBAL_INT_MASK, 0x1);
1169 irqv_handled = ivpu_hw_40xx_irqv_handler(vdev, irq, &wake_thread);
1170 irqb_handled = ivpu_hw_40xx_irqb_handler(vdev, irq);
1172 /* Re-enable global interrupts to re-trigger MSI for pending interrupts */
1173 REGB_WR32(VPU_40XX_BUTTRESS_GLOBAL_INT_MASK, 0x0);
1176 return IRQ_WAKE_THREAD;
1177 if (irqv_handled || irqb_handled)
1182 static void ivpu_hw_40xx_diagnose_failure(struct ivpu_device *vdev)
1184 u32 irqv = REGV_RD32(VPU_40XX_HOST_SS_ICB_STATUS_0) & ICB_0_IRQ_MASK;
1185 u32 irqb = REGB_RD32(VPU_40XX_BUTTRESS_INTERRUPT_STAT) & BUTTRESS_IRQ_MASK;
1187 if (ivpu_hw_40xx_reg_ipc_rx_count_get(vdev))
1188 ivpu_err(vdev, "IPC FIFO queue not empty, missed IPC IRQ");
1190 if (REG_TEST_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, CPU_INT_REDIRECT_0_INT, irqv))
1191 ivpu_err(vdev, "WDT MSS timeout detected\n");
1193 if (REG_TEST_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, CPU_INT_REDIRECT_1_INT, irqv))
1194 ivpu_err(vdev, "WDT NCE timeout detected\n");
1196 if (REG_TEST_FLD(VPU_40XX_HOST_SS_ICB_STATUS_0, NOC_FIREWALL_INT, irqv))
1197 ivpu_err(vdev, "NOC Firewall irq detected\n");
1199 if (REG_TEST_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, ATS_ERR, irqb)) {
1200 ivpu_err(vdev, "ATS_ERR_LOG1 0x%08x ATS_ERR_LOG2 0x%08x\n",
1201 REGB_RD32(VPU_40XX_BUTTRESS_ATS_ERR_LOG1),
1202 REGB_RD32(VPU_40XX_BUTTRESS_ATS_ERR_LOG2));
1205 if (REG_TEST_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, CFI0_ERR, irqb))
1206 ivpu_err(vdev, "CFI0_ERR_LOG 0x%08x\n", REGB_RD32(VPU_40XX_BUTTRESS_CFI0_ERR_LOG));
1208 if (REG_TEST_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, CFI1_ERR, irqb))
1209 ivpu_err(vdev, "CFI1_ERR_LOG 0x%08x\n", REGB_RD32(VPU_40XX_BUTTRESS_CFI1_ERR_LOG));
1211 if (REG_TEST_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, IMR0_ERR, irqb))
1212 ivpu_err(vdev, "IMR_ERR_CFI0 LOW: 0x%08x HIGH: 0x%08x\n",
1213 REGB_RD32(VPU_40XX_BUTTRESS_IMR_ERR_CFI0_LOW),
1214 REGB_RD32(VPU_40XX_BUTTRESS_IMR_ERR_CFI0_HIGH));
1216 if (REG_TEST_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, IMR1_ERR, irqb))
1217 ivpu_err(vdev, "IMR_ERR_CFI1 LOW: 0x%08x HIGH: 0x%08x\n",
1218 REGB_RD32(VPU_40XX_BUTTRESS_IMR_ERR_CFI1_LOW),
1219 REGB_RD32(VPU_40XX_BUTTRESS_IMR_ERR_CFI1_HIGH));
1221 if (REG_TEST_FLD(VPU_40XX_BUTTRESS_INTERRUPT_STAT, SURV_ERR, irqb))
1222 ivpu_err(vdev, "Survivability error detected\n");
1225 const struct ivpu_hw_ops ivpu_hw_40xx_ops = {
1226 .info_init = ivpu_hw_40xx_info_init,
1227 .power_up = ivpu_hw_40xx_power_up,
1228 .is_idle = ivpu_hw_40xx_is_idle,
1229 .wait_for_idle = ivpu_hw_40xx_wait_for_idle,
1230 .power_down = ivpu_hw_40xx_power_down,
1231 .reset = ivpu_hw_40xx_reset,
1232 .boot_fw = ivpu_hw_40xx_boot_fw,
1233 .wdt_disable = ivpu_hw_40xx_wdt_disable,
1234 .diagnose_failure = ivpu_hw_40xx_diagnose_failure,
1235 .profiling_freq_get = ivpu_hw_40xx_profiling_freq_get,
1236 .profiling_freq_drive = ivpu_hw_40xx_profiling_freq_drive,
1237 .reg_pll_freq_get = ivpu_hw_40xx_reg_pll_freq_get,
1238 .ratio_to_freq = ivpu_hw_40xx_ratio_to_freq,
1239 .reg_telemetry_offset_get = ivpu_hw_40xx_reg_telemetry_offset_get,
1240 .reg_telemetry_size_get = ivpu_hw_40xx_reg_telemetry_size_get,
1241 .reg_telemetry_enable_get = ivpu_hw_40xx_reg_telemetry_enable_get,
1242 .reg_db_set = ivpu_hw_40xx_reg_db_set,
1243 .reg_ipc_rx_addr_get = ivpu_hw_40xx_reg_ipc_rx_addr_get,
1244 .reg_ipc_rx_count_get = ivpu_hw_40xx_reg_ipc_rx_count_get,
1245 .reg_ipc_tx_set = ivpu_hw_40xx_reg_ipc_tx_set,
1246 .irq_clear = ivpu_hw_40xx_irq_clear,
1247 .irq_enable = ivpu_hw_40xx_irq_enable,
1248 .irq_disable = ivpu_hw_40xx_irq_disable,
1249 .irq_handler = ivpu_hw_40xx_irq_handler,