Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Nicholas Kazlauskas | 2004 | 91.17% | 11 | 37.93% |
Chun-Liang Chang | 52 | 2.37% | 1 | 3.45% |
Meenakshikumar Somasundaram | 28 | 1.27% | 3 | 10.34% |
Jude Shih | 26 | 1.18% | 2 | 6.90% |
Eric Yang | 22 | 1.00% | 3 | 10.34% |
hengzhou | 21 | 0.96% | 1 | 3.45% |
Hansen | 18 | 0.82% | 1 | 3.45% |
Jimmy Kizito | 10 | 0.45% | 1 | 3.45% |
Jake Wang | 10 | 0.45% | 1 | 3.45% |
Wyatt Wood | 2 | 0.09% | 1 | 3.45% |
Hung, Cruise | 2 | 0.09% | 1 | 3.45% |
Yongqiang Sun | 1 | 0.05% | 1 | 3.45% |
Bhawanpreet Lakha | 1 | 0.05% | 1 | 3.45% |
Anthony Koo | 1 | 0.05% | 1 | 3.45% |
Total | 2198 | 29 |
/* * Copyright 2020 Advanced Micro Devices, Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * * Authors: AMD * */ #include "../dmub_srv.h" #include "dmub_reg.h" #include "dmub_dcn31.h" #include "yellow_carp_offset.h" #include "dcn/dcn_3_1_2_offset.h" #include "dcn/dcn_3_1_2_sh_mask.h" #define BASE_INNER(seg) DCN_BASE__INST0_SEG##seg #define CTX dmub #define REGS dmub->regs_dcn31 #define REG_OFFSET_EXP(reg_name) (BASE(reg##reg_name##_BASE_IDX) + reg##reg_name) const struct dmub_srv_dcn31_regs dmub_srv_dcn31_regs = { #define DMUB_SR(reg) REG_OFFSET_EXP(reg), { DMUB_DCN31_REGS() DMCUB_INTERNAL_REGS() }, #undef DMUB_SR #define DMUB_SF(reg, field) FD_MASK(reg, field), { DMUB_DCN31_FIELDS() }, #undef DMUB_SF #define DMUB_SF(reg, field) FD_SHIFT(reg, field), { DMUB_DCN31_FIELDS() }, #undef DMUB_SF }; static void dmub_dcn31_get_fb_base_offset(struct dmub_srv *dmub, uint64_t *fb_base, uint64_t *fb_offset) { uint32_t tmp; if (dmub->fb_base || dmub->fb_offset) { *fb_base = dmub->fb_base; *fb_offset = dmub->fb_offset; return; } REG_GET(DCN_VM_FB_LOCATION_BASE, FB_BASE, &tmp); *fb_base = (uint64_t)tmp << 24; REG_GET(DCN_VM_FB_OFFSET, FB_OFFSET, &tmp); *fb_offset = (uint64_t)tmp << 24; } static inline void dmub_dcn31_translate_addr(const union dmub_addr *addr_in, uint64_t fb_base, uint64_t fb_offset, union dmub_addr *addr_out) { addr_out->quad_part = addr_in->quad_part - fb_base + fb_offset; } void dmub_dcn31_reset(struct dmub_srv *dmub) { union dmub_gpint_data_register cmd; const uint32_t timeout = 100; uint32_t in_reset, scratch, i, pwait_mode; REG_GET(DMCUB_CNTL2, DMCUB_SOFT_RESET, &in_reset); if (in_reset == 0) { cmd.bits.status = 1; cmd.bits.command_code = DMUB_GPINT__STOP_FW; cmd.bits.param = 0; dmub->hw_funcs.set_gpint(dmub, cmd); /** * Timeout covers both the ACK and the wait * for remaining work to finish. */ for (i = 0; i < timeout; ++i) { if (dmub->hw_funcs.is_gpint_acked(dmub, cmd)) break; udelay(1); } for (i = 0; i < timeout; ++i) { scratch = dmub->hw_funcs.get_gpint_response(dmub); if (scratch == DMUB_GPINT__STOP_FW_RESPONSE) break; udelay(1); } for (i = 0; i < timeout; ++i) { REG_GET(DMCUB_CNTL, DMCUB_PWAIT_MODE_STATUS, &pwait_mode); if (pwait_mode & (1 << 0)) break; udelay(1); } /* Force reset in case we timed out, DMCUB is likely hung. */ } REG_UPDATE(DMCUB_CNTL2, DMCUB_SOFT_RESET, 1); REG_UPDATE(DMCUB_CNTL, DMCUB_ENABLE, 0); REG_UPDATE(MMHUBBUB_SOFT_RESET, DMUIF_SOFT_RESET, 1); REG_WRITE(DMCUB_INBOX1_RPTR, 0); REG_WRITE(DMCUB_INBOX1_WPTR, 0); REG_WRITE(DMCUB_OUTBOX1_RPTR, 0); REG_WRITE(DMCUB_OUTBOX1_WPTR, 0); REG_WRITE(DMCUB_OUTBOX0_RPTR, 0); REG_WRITE(DMCUB_OUTBOX0_WPTR, 0); REG_WRITE(DMCUB_SCRATCH0, 0); /* Clear the GPINT command manually so we don't send anything during boot. */ cmd.all = 0; dmub->hw_funcs.set_gpint(dmub, cmd); } void dmub_dcn31_reset_release(struct dmub_srv *dmub) { REG_UPDATE(MMHUBBUB_SOFT_RESET, DMUIF_SOFT_RESET, 0); REG_WRITE(DMCUB_SCRATCH15, dmub->psp_version & 0x001100FF); REG_UPDATE_2(DMCUB_CNTL, DMCUB_ENABLE, 1, DMCUB_TRACEPORT_EN, 1); REG_UPDATE(DMCUB_CNTL2, DMCUB_SOFT_RESET, 0); } void dmub_dcn31_backdoor_load(struct dmub_srv *dmub, const struct dmub_window *cw0, const struct dmub_window *cw1) { union dmub_addr offset; uint64_t fb_base, fb_offset; dmub_dcn31_get_fb_base_offset(dmub, &fb_base, &fb_offset); REG_UPDATE(DMCUB_SEC_CNTL, DMCUB_SEC_RESET, 1); dmub_dcn31_translate_addr(&cw0->offset, fb_base, fb_offset, &offset); REG_WRITE(DMCUB_REGION3_CW0_OFFSET, offset.u.low_part); REG_WRITE(DMCUB_REGION3_CW0_OFFSET_HIGH, offset.u.high_part); REG_WRITE(DMCUB_REGION3_CW0_BASE_ADDRESS, cw0->region.base); REG_SET_2(DMCUB_REGION3_CW0_TOP_ADDRESS, 0, DMCUB_REGION3_CW0_TOP_ADDRESS, cw0->region.top, DMCUB_REGION3_CW0_ENABLE, 1); dmub_dcn31_translate_addr(&cw1->offset, fb_base, fb_offset, &offset); REG_WRITE(DMCUB_REGION3_CW1_OFFSET, offset.u.low_part); REG_WRITE(DMCUB_REGION3_CW1_OFFSET_HIGH, offset.u.high_part); REG_WRITE(DMCUB_REGION3_CW1_BASE_ADDRESS, cw1->region.base); REG_SET_2(DMCUB_REGION3_CW1_TOP_ADDRESS, 0, DMCUB_REGION3_CW1_TOP_ADDRESS, cw1->region.top, DMCUB_REGION3_CW1_ENABLE, 1); REG_UPDATE_2(DMCUB_SEC_CNTL, DMCUB_SEC_RESET, 0, DMCUB_MEM_UNIT_ID, 0x20); } void dmub_dcn31_setup_windows(struct dmub_srv *dmub, const struct dmub_window *cw2, const struct dmub_window *cw3, const struct dmub_window *cw4, const struct dmub_window *cw5, const struct dmub_window *cw6) { union dmub_addr offset; offset = cw3->offset; REG_WRITE(DMCUB_REGION3_CW3_OFFSET, offset.u.low_part); REG_WRITE(DMCUB_REGION3_CW3_OFFSET_HIGH, offset.u.high_part); REG_WRITE(DMCUB_REGION3_CW3_BASE_ADDRESS, cw3->region.base); REG_SET_2(DMCUB_REGION3_CW3_TOP_ADDRESS, 0, DMCUB_REGION3_CW3_TOP_ADDRESS, cw3->region.top, DMCUB_REGION3_CW3_ENABLE, 1); offset = cw4->offset; REG_WRITE(DMCUB_REGION3_CW4_OFFSET, offset.u.low_part); REG_WRITE(DMCUB_REGION3_CW4_OFFSET_HIGH, offset.u.high_part); REG_WRITE(DMCUB_REGION3_CW4_BASE_ADDRESS, cw4->region.base); REG_SET_2(DMCUB_REGION3_CW4_TOP_ADDRESS, 0, DMCUB_REGION3_CW4_TOP_ADDRESS, cw4->region.top, DMCUB_REGION3_CW4_ENABLE, 1); offset = cw5->offset; REG_WRITE(DMCUB_REGION3_CW5_OFFSET, offset.u.low_part); REG_WRITE(DMCUB_REGION3_CW5_OFFSET_HIGH, offset.u.high_part); REG_WRITE(DMCUB_REGION3_CW5_BASE_ADDRESS, cw5->region.base); REG_SET_2(DMCUB_REGION3_CW5_TOP_ADDRESS, 0, DMCUB_REGION3_CW5_TOP_ADDRESS, cw5->region.top, DMCUB_REGION3_CW5_ENABLE, 1); REG_WRITE(DMCUB_REGION5_OFFSET, offset.u.low_part); REG_WRITE(DMCUB_REGION5_OFFSET_HIGH, offset.u.high_part); REG_SET_2(DMCUB_REGION5_TOP_ADDRESS, 0, DMCUB_REGION5_TOP_ADDRESS, cw5->region.top - cw5->region.base - 1, DMCUB_REGION5_ENABLE, 1); offset = cw6->offset; REG_WRITE(DMCUB_REGION3_CW6_OFFSET, offset.u.low_part); REG_WRITE(DMCUB_REGION3_CW6_OFFSET_HIGH, offset.u.high_part); REG_WRITE(DMCUB_REGION3_CW6_BASE_ADDRESS, cw6->region.base); REG_SET_2(DMCUB_REGION3_CW6_TOP_ADDRESS, 0, DMCUB_REGION3_CW6_TOP_ADDRESS, cw6->region.top, DMCUB_REGION3_CW6_ENABLE, 1); } void dmub_dcn31_setup_mailbox(struct dmub_srv *dmub, const struct dmub_region *inbox1) { REG_WRITE(DMCUB_INBOX1_BASE_ADDRESS, inbox1->base); REG_WRITE(DMCUB_INBOX1_SIZE, inbox1->top - inbox1->base); } uint32_t dmub_dcn31_get_inbox1_rptr(struct dmub_srv *dmub) { return REG_READ(DMCUB_INBOX1_RPTR); } void dmub_dcn31_set_inbox1_wptr(struct dmub_srv *dmub, uint32_t wptr_offset) { REG_WRITE(DMCUB_INBOX1_WPTR, wptr_offset); } void dmub_dcn31_setup_out_mailbox(struct dmub_srv *dmub, const struct dmub_region *outbox1) { REG_WRITE(DMCUB_OUTBOX1_BASE_ADDRESS, outbox1->base); REG_WRITE(DMCUB_OUTBOX1_SIZE, outbox1->top - outbox1->base); } uint32_t dmub_dcn31_get_outbox1_wptr(struct dmub_srv *dmub) { /** * outbox1 wptr register is accessed without locks (dal & dc) * and to be called only by dmub_srv_stat_get_notification() */ return REG_READ(DMCUB_OUTBOX1_WPTR); } void dmub_dcn31_set_outbox1_rptr(struct dmub_srv *dmub, uint32_t rptr_offset) { /** * outbox1 rptr register is accessed without locks (dal & dc) * and to be called only by dmub_srv_stat_get_notification() */ REG_WRITE(DMCUB_OUTBOX1_RPTR, rptr_offset); } bool dmub_dcn31_is_hw_init(struct dmub_srv *dmub) { union dmub_fw_boot_status status; uint32_t is_enable; status.all = REG_READ(DMCUB_SCRATCH0); REG_GET(DMCUB_CNTL, DMCUB_ENABLE, &is_enable); return is_enable != 0 && status.bits.dal_fw; } bool dmub_dcn31_is_supported(struct dmub_srv *dmub) { uint32_t supported = 0; REG_GET(CC_DC_PIPE_DIS, DC_DMCUB_ENABLE, &supported); return supported; } void dmub_dcn31_set_gpint(struct dmub_srv *dmub, union dmub_gpint_data_register reg) { REG_WRITE(DMCUB_GPINT_DATAIN1, reg.all); } bool dmub_dcn31_is_gpint_acked(struct dmub_srv *dmub, union dmub_gpint_data_register reg) { union dmub_gpint_data_register test; reg.bits.status = 0; test.all = REG_READ(DMCUB_GPINT_DATAIN1); return test.all == reg.all; } uint32_t dmub_dcn31_get_gpint_response(struct dmub_srv *dmub) { return REG_READ(DMCUB_SCRATCH7); } uint32_t dmub_dcn31_get_gpint_dataout(struct dmub_srv *dmub) { uint32_t dataout = REG_READ(DMCUB_GPINT_DATAOUT); REG_UPDATE(DMCUB_INTERRUPT_ENABLE, DMCUB_GPINT_IH_INT_EN, 0); REG_WRITE(DMCUB_GPINT_DATAOUT, 0); REG_UPDATE(DMCUB_INTERRUPT_ACK, DMCUB_GPINT_IH_INT_ACK, 1); REG_UPDATE(DMCUB_INTERRUPT_ACK, DMCUB_GPINT_IH_INT_ACK, 0); REG_UPDATE(DMCUB_INTERRUPT_ENABLE, DMCUB_GPINT_IH_INT_EN, 1); return dataout; } union dmub_fw_boot_status dmub_dcn31_get_fw_boot_status(struct dmub_srv *dmub) { union dmub_fw_boot_status status; status.all = REG_READ(DMCUB_SCRATCH0); return status; } void dmub_dcn31_enable_dmub_boot_options(struct dmub_srv *dmub, const struct dmub_srv_hw_params *params) { union dmub_fw_boot_options boot_options = {0}; boot_options.bits.z10_disable = params->disable_z10; boot_options.bits.dpia_supported = params->dpia_supported; boot_options.bits.enable_dpia = params->disable_dpia ? 0 : 1; boot_options.bits.usb4_cm_version = params->usb4_cm_version; boot_options.bits.dpia_hpd_int_enable_supported = params->dpia_hpd_int_enable_supported; boot_options.bits.power_optimization = params->power_optimization; boot_options.bits.sel_mux_phy_c_d_phy_f_g = (dmub->asic == DMUB_ASIC_DCN31B) ? 1 : 0; REG_WRITE(DMCUB_SCRATCH14, boot_options.all); } void dmub_dcn31_skip_dmub_panel_power_sequence(struct dmub_srv *dmub, bool skip) { union dmub_fw_boot_options boot_options; boot_options.all = REG_READ(DMCUB_SCRATCH14); boot_options.bits.skip_phy_init_panel_sequence = skip; REG_WRITE(DMCUB_SCRATCH14, boot_options.all); } void dmub_dcn31_setup_outbox0(struct dmub_srv *dmub, const struct dmub_region *outbox0) { REG_WRITE(DMCUB_OUTBOX0_BASE_ADDRESS, outbox0->base); REG_WRITE(DMCUB_OUTBOX0_SIZE, outbox0->top - outbox0->base); } uint32_t dmub_dcn31_get_outbox0_wptr(struct dmub_srv *dmub) { return REG_READ(DMCUB_OUTBOX0_WPTR); } void dmub_dcn31_set_outbox0_rptr(struct dmub_srv *dmub, uint32_t rptr_offset) { REG_WRITE(DMCUB_OUTBOX0_RPTR, rptr_offset); } uint32_t dmub_dcn31_get_current_time(struct dmub_srv *dmub) { return REG_READ(DMCUB_TIMER_CURRENT); } void dmub_dcn31_get_diagnostic_data(struct dmub_srv *dmub, struct dmub_diagnostic_data *diag_data) { uint32_t is_dmub_enabled, is_soft_reset, is_sec_reset; uint32_t is_traceport_enabled, is_cw0_enabled, is_cw6_enabled; if (!dmub || !diag_data) return; memset(diag_data, 0, sizeof(*diag_data)); diag_data->dmcub_version = dmub->fw_version; diag_data->scratch[0] = REG_READ(DMCUB_SCRATCH0); diag_data->scratch[1] = REG_READ(DMCUB_SCRATCH1); diag_data->scratch[2] = REG_READ(DMCUB_SCRATCH2); diag_data->scratch[3] = REG_READ(DMCUB_SCRATCH3); diag_data->scratch[4] = REG_READ(DMCUB_SCRATCH4); diag_data->scratch[5] = REG_READ(DMCUB_SCRATCH5); diag_data->scratch[6] = REG_READ(DMCUB_SCRATCH6); diag_data->scratch[7] = REG_READ(DMCUB_SCRATCH7); diag_data->scratch[8] = REG_READ(DMCUB_SCRATCH8); diag_data->scratch[9] = REG_READ(DMCUB_SCRATCH9); diag_data->scratch[10] = REG_READ(DMCUB_SCRATCH10); diag_data->scratch[11] = REG_READ(DMCUB_SCRATCH11); diag_data->scratch[12] = REG_READ(DMCUB_SCRATCH12); diag_data->scratch[13] = REG_READ(DMCUB_SCRATCH13); diag_data->scratch[14] = REG_READ(DMCUB_SCRATCH14); diag_data->scratch[15] = REG_READ(DMCUB_SCRATCH15); diag_data->undefined_address_fault_addr = REG_READ(DMCUB_UNDEFINED_ADDRESS_FAULT_ADDR); diag_data->inst_fetch_fault_addr = REG_READ(DMCUB_INST_FETCH_FAULT_ADDR); diag_data->data_write_fault_addr = REG_READ(DMCUB_DATA_WRITE_FAULT_ADDR); diag_data->inbox1_rptr = REG_READ(DMCUB_INBOX1_RPTR); diag_data->inbox1_wptr = REG_READ(DMCUB_INBOX1_WPTR); diag_data->inbox1_size = REG_READ(DMCUB_INBOX1_SIZE); diag_data->inbox0_rptr = REG_READ(DMCUB_INBOX0_RPTR); diag_data->inbox0_wptr = REG_READ(DMCUB_INBOX0_WPTR); diag_data->inbox0_size = REG_READ(DMCUB_INBOX0_SIZE); REG_GET(DMCUB_CNTL, DMCUB_ENABLE, &is_dmub_enabled); diag_data->is_dmcub_enabled = is_dmub_enabled; REG_GET(DMCUB_CNTL2, DMCUB_SOFT_RESET, &is_soft_reset); diag_data->is_dmcub_soft_reset = is_soft_reset; REG_GET(DMCUB_SEC_CNTL, DMCUB_SEC_RESET_STATUS, &is_sec_reset); diag_data->is_dmcub_secure_reset = is_sec_reset; REG_GET(DMCUB_CNTL, DMCUB_TRACEPORT_EN, &is_traceport_enabled); diag_data->is_traceport_en = is_traceport_enabled; REG_GET(DMCUB_REGION3_CW0_TOP_ADDRESS, DMCUB_REGION3_CW0_ENABLE, &is_cw0_enabled); diag_data->is_cw0_enabled = is_cw0_enabled; REG_GET(DMCUB_REGION3_CW6_TOP_ADDRESS, DMCUB_REGION3_CW6_ENABLE, &is_cw6_enabled); diag_data->is_cw6_enabled = is_cw6_enabled; } bool dmub_dcn31_should_detect(struct dmub_srv *dmub) { uint32_t fw_boot_status = REG_READ(DMCUB_SCRATCH0); bool should_detect = (fw_boot_status & DMUB_FW_BOOT_STATUS_BIT_DETECTION_REQUIRED) != 0; return should_detect; }
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