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7422 7423 7424 7425 7426 7427 7428 7429 7430 7431 7432 7433 7434 7435 7436 7437 7438 7439 7440 7441 7442 7443 7444 7445 7446 7447 7448 7449 7450 7451 7452 7453 7454 7455 7456 7457 7458 7459 7460 7461 7462 7463 7464 7465 7466 7467 7468 7469 7470 7471 7472 7473 7474 7475 7476 7477 7478 7479 7480 7481 7482 7483 7484 7485 7486 7487 7488 7489 7490 7491 7492 7493 7494 7495 7496 7497 7498 7499 7500 7501 7502 7503 7504 7505 7506 7507 7508 7509 7510 7511 7512 7513 7514 7515 7516 7517 7518 7519 7520 7521 7522 7523 7524 7525 7526 7527 7528 7529 7530 7531 7532 7533 7534 7535 7536 7537 7538 7539 7540 7541 7542 7543 7544 7545 7546 7547 7548 7549 7550 7551 7552 7553 7554 7555 7556 7557 7558 7559 7560 7561 7562 7563 7564 7565 7566 7567 7568 7569 7570 7571 7572 7573 7574 7575 7576 7577 7578 7579 7580 7581 7582 7583 7584 7585 7586 7587 7588 7589 7590 | /* * Copyright 2011 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: Alex Deucher */ #include <linux/firmware.h> #include <linux/module.h> #include <linux/pci.h> #include <linux/slab.h> #include <drm/drm_vblank.h> #include <drm/radeon_drm.h> #include "atom.h" #include "clearstate_si.h" #include "evergreen.h" #include "r600.h" #include "radeon.h" #include "radeon_asic.h" #include "radeon_audio.h" #include "radeon_ucode.h" #include "si_blit_shaders.h" #include "si.h" #include "sid.h" MODULE_FIRMWARE("radeon/TAHITI_pfp.bin"); MODULE_FIRMWARE("radeon/TAHITI_me.bin"); MODULE_FIRMWARE("radeon/TAHITI_ce.bin"); MODULE_FIRMWARE("radeon/TAHITI_mc.bin"); MODULE_FIRMWARE("radeon/TAHITI_mc2.bin"); MODULE_FIRMWARE("radeon/TAHITI_rlc.bin"); MODULE_FIRMWARE("radeon/TAHITI_smc.bin"); MODULE_FIRMWARE("radeon/tahiti_pfp.bin"); MODULE_FIRMWARE("radeon/tahiti_me.bin"); MODULE_FIRMWARE("radeon/tahiti_ce.bin"); MODULE_FIRMWARE("radeon/tahiti_mc.bin"); MODULE_FIRMWARE("radeon/tahiti_rlc.bin"); MODULE_FIRMWARE("radeon/tahiti_smc.bin"); MODULE_FIRMWARE("radeon/PITCAIRN_pfp.bin"); MODULE_FIRMWARE("radeon/PITCAIRN_me.bin"); MODULE_FIRMWARE("radeon/PITCAIRN_ce.bin"); MODULE_FIRMWARE("radeon/PITCAIRN_mc.bin"); MODULE_FIRMWARE("radeon/PITCAIRN_mc2.bin"); MODULE_FIRMWARE("radeon/PITCAIRN_rlc.bin"); MODULE_FIRMWARE("radeon/PITCAIRN_smc.bin"); MODULE_FIRMWARE("radeon/pitcairn_pfp.bin"); MODULE_FIRMWARE("radeon/pitcairn_me.bin"); MODULE_FIRMWARE("radeon/pitcairn_ce.bin"); MODULE_FIRMWARE("radeon/pitcairn_mc.bin"); MODULE_FIRMWARE("radeon/pitcairn_rlc.bin"); MODULE_FIRMWARE("radeon/pitcairn_smc.bin"); MODULE_FIRMWARE("radeon/pitcairn_k_smc.bin"); MODULE_FIRMWARE("radeon/VERDE_pfp.bin"); MODULE_FIRMWARE("radeon/VERDE_me.bin"); MODULE_FIRMWARE("radeon/VERDE_ce.bin"); MODULE_FIRMWARE("radeon/VERDE_mc.bin"); MODULE_FIRMWARE("radeon/VERDE_mc2.bin"); MODULE_FIRMWARE("radeon/VERDE_rlc.bin"); MODULE_FIRMWARE("radeon/VERDE_smc.bin"); MODULE_FIRMWARE("radeon/verde_pfp.bin"); MODULE_FIRMWARE("radeon/verde_me.bin"); MODULE_FIRMWARE("radeon/verde_ce.bin"); MODULE_FIRMWARE("radeon/verde_mc.bin"); MODULE_FIRMWARE("radeon/verde_rlc.bin"); MODULE_FIRMWARE("radeon/verde_smc.bin"); MODULE_FIRMWARE("radeon/verde_k_smc.bin"); MODULE_FIRMWARE("radeon/OLAND_pfp.bin"); MODULE_FIRMWARE("radeon/OLAND_me.bin"); MODULE_FIRMWARE("radeon/OLAND_ce.bin"); MODULE_FIRMWARE("radeon/OLAND_mc.bin"); MODULE_FIRMWARE("radeon/OLAND_mc2.bin"); MODULE_FIRMWARE("radeon/OLAND_rlc.bin"); MODULE_FIRMWARE("radeon/OLAND_smc.bin"); MODULE_FIRMWARE("radeon/oland_pfp.bin"); MODULE_FIRMWARE("radeon/oland_me.bin"); MODULE_FIRMWARE("radeon/oland_ce.bin"); MODULE_FIRMWARE("radeon/oland_mc.bin"); MODULE_FIRMWARE("radeon/oland_rlc.bin"); MODULE_FIRMWARE("radeon/oland_smc.bin"); MODULE_FIRMWARE("radeon/oland_k_smc.bin"); MODULE_FIRMWARE("radeon/HAINAN_pfp.bin"); MODULE_FIRMWARE("radeon/HAINAN_me.bin"); MODULE_FIRMWARE("radeon/HAINAN_ce.bin"); MODULE_FIRMWARE("radeon/HAINAN_mc.bin"); MODULE_FIRMWARE("radeon/HAINAN_mc2.bin"); MODULE_FIRMWARE("radeon/HAINAN_rlc.bin"); MODULE_FIRMWARE("radeon/HAINAN_smc.bin"); MODULE_FIRMWARE("radeon/hainan_pfp.bin"); MODULE_FIRMWARE("radeon/hainan_me.bin"); MODULE_FIRMWARE("radeon/hainan_ce.bin"); MODULE_FIRMWARE("radeon/hainan_mc.bin"); MODULE_FIRMWARE("radeon/hainan_rlc.bin"); MODULE_FIRMWARE("radeon/hainan_smc.bin"); MODULE_FIRMWARE("radeon/hainan_k_smc.bin"); MODULE_FIRMWARE("radeon/banks_k_2_smc.bin"); MODULE_FIRMWARE("radeon/si58_mc.bin"); static u32 si_get_cu_active_bitmap(struct radeon_device *rdev, u32 se, u32 sh); static void si_pcie_gen3_enable(struct radeon_device *rdev); static void si_program_aspm(struct radeon_device *rdev); extern void sumo_rlc_fini(struct radeon_device *rdev); extern int sumo_rlc_init(struct radeon_device *rdev); static void si_enable_gui_idle_interrupt(struct radeon_device *rdev, bool enable); static void si_init_pg(struct radeon_device *rdev); static void si_init_cg(struct radeon_device *rdev); static void si_fini_pg(struct radeon_device *rdev); static void si_fini_cg(struct radeon_device *rdev); static void si_rlc_stop(struct radeon_device *rdev); static const u32 crtc_offsets[] = { EVERGREEN_CRTC0_REGISTER_OFFSET, EVERGREEN_CRTC1_REGISTER_OFFSET, EVERGREEN_CRTC2_REGISTER_OFFSET, EVERGREEN_CRTC3_REGISTER_OFFSET, EVERGREEN_CRTC4_REGISTER_OFFSET, EVERGREEN_CRTC5_REGISTER_OFFSET }; static const u32 si_disp_int_status[] = { DISP_INTERRUPT_STATUS, DISP_INTERRUPT_STATUS_CONTINUE, DISP_INTERRUPT_STATUS_CONTINUE2, DISP_INTERRUPT_STATUS_CONTINUE3, DISP_INTERRUPT_STATUS_CONTINUE4, DISP_INTERRUPT_STATUS_CONTINUE5 }; #define DC_HPDx_CONTROL(x) (DC_HPD1_CONTROL + (x * 0xc)) #define DC_HPDx_INT_CONTROL(x) (DC_HPD1_INT_CONTROL + (x * 0xc)) #define DC_HPDx_INT_STATUS_REG(x) (DC_HPD1_INT_STATUS + (x * 0xc)) static const u32 verde_rlc_save_restore_register_list[] = { (0x8000 << 16) | (0x98f4 >> 2), 0x00000000, (0x8040 << 16) | (0x98f4 >> 2), 0x00000000, (0x8000 << 16) | (0xe80 >> 2), 0x00000000, (0x8040 << 16) | (0xe80 >> 2), 0x00000000, (0x8000 << 16) | (0x89bc >> 2), 0x00000000, (0x8040 << 16) | (0x89bc >> 2), 0x00000000, (0x8000 << 16) | (0x8c1c >> 2), 0x00000000, (0x8040 << 16) | (0x8c1c >> 2), 0x00000000, (0x9c00 << 16) | (0x98f0 >> 2), 0x00000000, (0x9c00 << 16) | (0xe7c >> 2), 0x00000000, (0x8000 << 16) | (0x9148 >> 2), 0x00000000, (0x8040 << 16) | (0x9148 >> 2), 0x00000000, (0x9c00 << 16) | (0x9150 >> 2), 0x00000000, (0x9c00 << 16) | (0x897c >> 2), 0x00000000, (0x9c00 << 16) | (0x8d8c >> 2), 0x00000000, (0x9c00 << 16) | (0xac54 >> 2), 0X00000000, 0x3, (0x9c00 << 16) | (0x98f8 >> 2), 0x00000000, (0x9c00 << 16) | (0x9910 >> 2), 0x00000000, (0x9c00 << 16) | (0x9914 >> 2), 0x00000000, (0x9c00 << 16) | (0x9918 >> 2), 0x00000000, (0x9c00 << 16) | (0x991c >> 2), 0x00000000, (0x9c00 << 16) | (0x9920 >> 2), 0x00000000, (0x9c00 << 16) | (0x9924 >> 2), 0x00000000, (0x9c00 << 16) | (0x9928 >> 2), 0x00000000, (0x9c00 << 16) | (0x992c >> 2), 0x00000000, (0x9c00 << 16) | (0x9930 >> 2), 0x00000000, (0x9c00 << 16) | (0x9934 >> 2), 0x00000000, (0x9c00 << 16) | (0x9938 >> 2), 0x00000000, (0x9c00 << 16) | (0x993c >> 2), 0x00000000, (0x9c00 << 16) | (0x9940 >> 2), 0x00000000, (0x9c00 << 16) | (0x9944 >> 2), 0x00000000, (0x9c00 << 16) | (0x9948 >> 2), 0x00000000, (0x9c00 << 16) | (0x994c >> 2), 0x00000000, (0x9c00 << 16) | (0x9950 >> 2), 0x00000000, (0x9c00 << 16) | (0x9954 >> 2), 0x00000000, (0x9c00 << 16) | (0x9958 >> 2), 0x00000000, (0x9c00 << 16) | (0x995c >> 2), 0x00000000, (0x9c00 << 16) | (0x9960 >> 2), 0x00000000, (0x9c00 << 16) | (0x9964 >> 2), 0x00000000, (0x9c00 << 16) | (0x9968 >> 2), 0x00000000, (0x9c00 << 16) | (0x996c >> 2), 0x00000000, (0x9c00 << 16) | (0x9970 >> 2), 0x00000000, (0x9c00 << 16) | (0x9974 >> 2), 0x00000000, (0x9c00 << 16) | (0x9978 >> 2), 0x00000000, (0x9c00 << 16) | (0x997c >> 2), 0x00000000, (0x9c00 << 16) | (0x9980 >> 2), 0x00000000, (0x9c00 << 16) | (0x9984 >> 2), 0x00000000, (0x9c00 << 16) | (0x9988 >> 2), 0x00000000, (0x9c00 << 16) | (0x998c >> 2), 0x00000000, (0x9c00 << 16) | (0x8c00 >> 2), 0x00000000, (0x9c00 << 16) | (0x8c14 >> 2), 0x00000000, (0x9c00 << 16) | (0x8c04 >> 2), 0x00000000, (0x9c00 << 16) | (0x8c08 >> 2), 0x00000000, (0x8000 << 16) | (0x9b7c >> 2), 0x00000000, (0x8040 << 16) | (0x9b7c >> 2), 0x00000000, (0x8000 << 16) | (0xe84 >> 2), 0x00000000, (0x8040 << 16) | (0xe84 >> 2), 0x00000000, (0x8000 << 16) | (0x89c0 >> 2), 0x00000000, (0x8040 << 16) | (0x89c0 >> 2), 0x00000000, (0x8000 << 16) | (0x914c >> 2), 0x00000000, (0x8040 << 16) | (0x914c >> 2), 0x00000000, (0x8000 << 16) | (0x8c20 >> 2), 0x00000000, (0x8040 << 16) | (0x8c20 >> 2), 0x00000000, (0x8000 << 16) | (0x9354 >> 2), 0x00000000, (0x8040 << 16) | (0x9354 >> 2), 0x00000000, (0x9c00 << 16) | (0x9060 >> 2), 0x00000000, (0x9c00 << 16) | (0x9364 >> 2), 0x00000000, (0x9c00 << 16) | (0x9100 >> 2), 0x00000000, (0x9c00 << 16) | (0x913c >> 2), 0x00000000, (0x8000 << 16) | (0x90e0 >> 2), 0x00000000, (0x8000 << 16) | (0x90e4 >> 2), 0x00000000, (0x8000 << 16) | (0x90e8 >> 2), 0x00000000, (0x8040 << 16) | (0x90e0 >> 2), 0x00000000, (0x8040 << 16) | (0x90e4 >> 2), 0x00000000, (0x8040 << 16) | (0x90e8 >> 2), 0x00000000, (0x9c00 << 16) | (0x8bcc >> 2), 0x00000000, (0x9c00 << 16) | (0x8b24 >> 2), 0x00000000, (0x9c00 << 16) | (0x88c4 >> 2), 0x00000000, (0x9c00 << 16) | (0x8e50 >> 2), 0x00000000, (0x9c00 << 16) | (0x8c0c >> 2), 0x00000000, (0x9c00 << 16) | (0x8e58 >> 2), 0x00000000, (0x9c00 << 16) | (0x8e5c >> 2), 0x00000000, (0x9c00 << 16) | (0x9508 >> 2), 0x00000000, (0x9c00 << 16) | (0x950c >> 2), 0x00000000, (0x9c00 << 16) | (0x9494 >> 2), 0x00000000, (0x9c00 << 16) | (0xac0c >> 2), 0x00000000, (0x9c00 << 16) | (0xac10 >> 2), 0x00000000, (0x9c00 << 16) | (0xac14 >> 2), 0x00000000, (0x9c00 << 16) | (0xae00 >> 2), 0x00000000, (0x9c00 << 16) | (0xac08 >> 2), 0x00000000, (0x9c00 << 16) | (0x88d4 >> 2), 0x00000000, (0x9c00 << 16) | (0x88c8 >> 2), 0x00000000, (0x9c00 << 16) | (0x88cc >> 2), 0x00000000, (0x9c00 << 16) | (0x89b0 >> 2), 0x00000000, (0x9c00 << 16) | (0x8b10 >> 2), 0x00000000, (0x9c00 << 16) | (0x8a14 >> 2), 0x00000000, (0x9c00 << 16) | (0x9830 >> 2), 0x00000000, (0x9c00 << 16) | (0x9834 >> 2), 0x00000000, (0x9c00 << 16) | (0x9838 >> 2), 0x00000000, (0x9c00 << 16) | (0x9a10 >> 2), 0x00000000, (0x8000 << 16) | (0x9870 >> 2), 0x00000000, (0x8000 << 16) | (0x9874 >> 2), 0x00000000, (0x8001 << 16) | (0x9870 >> 2), 0x00000000, (0x8001 << 16) | (0x9874 >> 2), 0x00000000, (0x8040 << 16) | (0x9870 >> 2), 0x00000000, (0x8040 << 16) | (0x9874 >> 2), 0x00000000, (0x8041 << 16) | (0x9870 >> 2), 0x00000000, (0x8041 << 16) | (0x9874 >> 2), 0x00000000, 0x00000000 }; static const u32 tahiti_golden_rlc_registers[] = { 0xc424, 0xffffffff, 0x00601005, 0xc47c, 0xffffffff, 0x10104040, 0xc488, 0xffffffff, 0x0100000a, 0xc314, 0xffffffff, 0x00000800, 0xc30c, 0xffffffff, 0x800000f4, 0xf4a8, 0xffffffff, 0x00000000 }; static const u32 tahiti_golden_registers[] = { 0x9a10, 0x00010000, 0x00018208, 0x9830, 0xffffffff, 0x00000000, 0x9834, 0xf00fffff, 0x00000400, 0x9838, 0x0002021c, 0x00020200, 0xc78, 0x00000080, 0x00000000, 0xd030, 0x000300c0, 0x00800040, 0xd830, 0x000300c0, 0x00800040, 0x5bb0, 0x000000f0, 0x00000070, 0x5bc0, 0x00200000, 0x50100000, 0x7030, 0x31000311, 0x00000011, 0x277c, 0x00000003, 0x000007ff, 0x240c, 0x000007ff, 0x00000000, 0x8a14, 0xf000001f, 0x00000007, 0x8b24, 0xffffffff, 0x00ffffff, 0x8b10, 0x0000ff0f, 0x00000000, 0x28a4c, 0x07ffffff, 0x4e000000, 0x28350, 0x3f3f3fff, 0x2a00126a, 0x30, 0x000000ff, 0x0040, 0x34, 0x00000040, 0x00004040, 0x9100, 0x07ffffff, 0x03000000, 0x8e88, 0x01ff1f3f, 0x00000000, 0x8e84, 0x01ff1f3f, 0x00000000, 0x9060, 0x0000007f, 0x00000020, 0x9508, 0x00010000, 0x00010000, 0xac14, 0x00000200, 0x000002fb, 0xac10, 0xffffffff, 0x0000543b, 0xac0c, 0xffffffff, 0xa9210876, 0x88d0, 0xffffffff, 0x000fff40, 0x88d4, 0x0000001f, 0x00000010, 0x1410, 0x20000000, 0x20fffed8, 0x15c0, 0x000c0fc0, 0x000c0400 }; static const u32 tahiti_golden_registers2[] = { 0xc64, 0x00000001, 0x00000001 }; static const u32 pitcairn_golden_rlc_registers[] = { 0xc424, 0xffffffff, 0x00601004, 0xc47c, 0xffffffff, 0x10102020, 0xc488, 0xffffffff, 0x01000020, 0xc314, 0xffffffff, 0x00000800, 0xc30c, 0xffffffff, 0x800000a4 }; static const u32 pitcairn_golden_registers[] = { 0x9a10, 0x00010000, 0x00018208, 0x9830, 0xffffffff, 0x00000000, 0x9834, 0xf00fffff, 0x00000400, 0x9838, 0x0002021c, 0x00020200, 0xc78, 0x00000080, 0x00000000, 0xd030, 0x000300c0, 0x00800040, 0xd830, 0x000300c0, 0x00800040, 0x5bb0, 0x000000f0, 0x00000070, 0x5bc0, 0x00200000, 0x50100000, 0x7030, 0x31000311, 0x00000011, 0x2ae4, 0x00073ffe, 0x000022a2, 0x240c, 0x000007ff, 0x00000000, 0x8a14, 0xf000001f, 0x00000007, 0x8b24, 0xffffffff, 0x00ffffff, 0x8b10, 0x0000ff0f, 0x00000000, 0x28a4c, 0x07ffffff, 0x4e000000, 0x28350, 0x3f3f3fff, 0x2a00126a, 0x30, 0x000000ff, 0x0040, 0x34, 0x00000040, 0x00004040, 0x9100, 0x07ffffff, 0x03000000, 0x9060, 0x0000007f, 0x00000020, 0x9508, 0x00010000, 0x00010000, 0xac14, 0x000003ff, 0x000000f7, 0xac10, 0xffffffff, 0x00000000, 0xac0c, 0xffffffff, 0x32761054, 0x88d4, 0x0000001f, 0x00000010, 0x15c0, 0x000c0fc0, 0x000c0400 }; static const u32 verde_golden_rlc_registers[] = { 0xc424, 0xffffffff, 0x033f1005, 0xc47c, 0xffffffff, 0x10808020, 0xc488, 0xffffffff, 0x00800008, 0xc314, 0xffffffff, 0x00001000, 0xc30c, 0xffffffff, 0x80010014 }; static const u32 verde_golden_registers[] = { 0x9a10, 0x00010000, 0x00018208, 0x9830, 0xffffffff, 0x00000000, 0x9834, 0xf00fffff, 0x00000400, 0x9838, 0x0002021c, 0x00020200, 0xc78, 0x00000080, 0x00000000, 0xd030, 0x000300c0, 0x00800040, 0xd030, 0x000300c0, 0x00800040, 0xd830, 0x000300c0, 0x00800040, 0xd830, 0x000300c0, 0x00800040, 0x5bb0, 0x000000f0, 0x00000070, 0x5bc0, 0x00200000, 0x50100000, 0x7030, 0x31000311, 0x00000011, 0x2ae4, 0x00073ffe, 0x000022a2, 0x2ae4, 0x00073ffe, 0x000022a2, 0x2ae4, 0x00073ffe, 0x000022a2, 0x240c, 0x000007ff, 0x00000000, 0x240c, 0x000007ff, 0x00000000, 0x240c, 0x000007ff, 0x00000000, 0x8a14, 0xf000001f, 0x00000007, 0x8a14, 0xf000001f, 0x00000007, 0x8a14, 0xf000001f, 0x00000007, 0x8b24, 0xffffffff, 0x00ffffff, 0x8b10, 0x0000ff0f, 0x00000000, 0x28a4c, 0x07ffffff, 0x4e000000, 0x28350, 0x3f3f3fff, 0x0000124a, 0x28350, 0x3f3f3fff, 0x0000124a, 0x28350, 0x3f3f3fff, 0x0000124a, 0x30, 0x000000ff, 0x0040, 0x34, 0x00000040, 0x00004040, 0x9100, 0x07ffffff, 0x03000000, 0x9100, 0x07ffffff, 0x03000000, 0x8e88, 0x01ff1f3f, 0x00000000, 0x8e88, 0x01ff1f3f, 0x00000000, 0x8e88, 0x01ff1f3f, 0x00000000, 0x8e84, 0x01ff1f3f, 0x00000000, 0x8e84, 0x01ff1f3f, 0x00000000, 0x8e84, 0x01ff1f3f, 0x00000000, 0x9060, 0x0000007f, 0x00000020, 0x9508, 0x00010000, 0x00010000, 0xac14, 0x000003ff, 0x00000003, 0xac14, 0x000003ff, 0x00000003, 0xac14, 0x000003ff, 0x00000003, 0xac10, 0xffffffff, 0x00000000, 0xac10, 0xffffffff, 0x00000000, 0xac10, 0xffffffff, 0x00000000, 0xac0c, 0xffffffff, 0x00001032, 0xac0c, 0xffffffff, 0x00001032, 0xac0c, 0xffffffff, 0x00001032, 0x88d4, 0x0000001f, 0x00000010, 0x88d4, 0x0000001f, 0x00000010, 0x88d4, 0x0000001f, 0x00000010, 0x15c0, 0x000c0fc0, 0x000c0400 }; static const u32 oland_golden_rlc_registers[] = { 0xc424, 0xffffffff, 0x00601005, 0xc47c, 0xffffffff, 0x10104040, 0xc488, 0xffffffff, 0x0100000a, 0xc314, 0xffffffff, 0x00000800, 0xc30c, 0xffffffff, 0x800000f4 }; static const u32 oland_golden_registers[] = { 0x9a10, 0x00010000, 0x00018208, 0x9830, 0xffffffff, 0x00000000, 0x9834, 0xf00fffff, 0x00000400, 0x9838, 0x0002021c, 0x00020200, 0xc78, 0x00000080, 0x00000000, 0xd030, 0x000300c0, 0x00800040, 0xd830, 0x000300c0, 0x00800040, 0x5bb0, 0x000000f0, 0x00000070, 0x5bc0, 0x00200000, 0x50100000, 0x7030, 0x31000311, 0x00000011, 0x2ae4, 0x00073ffe, 0x000022a2, 0x240c, 0x000007ff, 0x00000000, 0x8a14, 0xf000001f, 0x00000007, 0x8b24, 0xffffffff, 0x00ffffff, 0x8b10, 0x0000ff0f, 0x00000000, 0x28a4c, 0x07ffffff, 0x4e000000, 0x28350, 0x3f3f3fff, 0x00000082, 0x30, 0x000000ff, 0x0040, 0x34, 0x00000040, 0x00004040, 0x9100, 0x07ffffff, 0x03000000, 0x9060, 0x0000007f, 0x00000020, 0x9508, 0x00010000, 0x00010000, 0xac14, 0x000003ff, 0x000000f3, 0xac10, 0xffffffff, 0x00000000, 0xac0c, 0xffffffff, 0x00003210, 0x88d4, 0x0000001f, 0x00000010, 0x15c0, 0x000c0fc0, 0x000c0400 }; static const u32 hainan_golden_registers[] = { 0x9a10, 0x00010000, 0x00018208, 0x9830, 0xffffffff, 0x00000000, 0x9834, 0xf00fffff, 0x00000400, 0x9838, 0x0002021c, 0x00020200, 0xd0c0, 0xff000fff, 0x00000100, 0xd030, 0x000300c0, 0x00800040, 0xd8c0, 0xff000fff, 0x00000100, 0xd830, 0x000300c0, 0x00800040, 0x2ae4, 0x00073ffe, 0x000022a2, 0x240c, 0x000007ff, 0x00000000, 0x8a14, 0xf000001f, 0x00000007, 0x8b24, 0xffffffff, 0x00ffffff, 0x8b10, 0x0000ff0f, 0x00000000, 0x28a4c, 0x07ffffff, 0x4e000000, 0x28350, 0x3f3f3fff, 0x00000000, 0x30, 0x000000ff, 0x0040, 0x34, 0x00000040, 0x00004040, 0x9100, 0x03e00000, 0x03600000, 0x9060, 0x0000007f, 0x00000020, 0x9508, 0x00010000, 0x00010000, 0xac14, 0x000003ff, 0x000000f1, 0xac10, 0xffffffff, 0x00000000, 0xac0c, 0xffffffff, 0x00003210, 0x88d4, 0x0000001f, 0x00000010, 0x15c0, 0x000c0fc0, 0x000c0400 }; static const u32 hainan_golden_registers2[] = { 0x98f8, 0xffffffff, 0x02010001 }; static const u32 tahiti_mgcg_cgcg_init[] = { 0xc400, 0xffffffff, 0xfffffffc, 0x802c, 0xffffffff, 0xe0000000, 0x9a60, 0xffffffff, 0x00000100, 0x92a4, 0xffffffff, 0x00000100, 0xc164, 0xffffffff, 0x00000100, 0x9774, 0xffffffff, 0x00000100, 0x8984, 0xffffffff, 0x06000100, 0x8a18, 0xffffffff, 0x00000100, 0x92a0, 0xffffffff, 0x00000100, 0xc380, 0xffffffff, 0x00000100, 0x8b28, 0xffffffff, 0x00000100, 0x9144, 0xffffffff, 0x00000100, 0x8d88, 0xffffffff, 0x00000100, 0x8d8c, 0xffffffff, 0x00000100, 0x9030, 0xffffffff, 0x00000100, 0x9034, 0xffffffff, 0x00000100, 0x9038, 0xffffffff, 0x00000100, 0x903c, 0xffffffff, 0x00000100, 0xad80, 0xffffffff, 0x00000100, 0xac54, 0xffffffff, 0x00000100, 0x897c, 0xffffffff, 0x06000100, 0x9868, 0xffffffff, 0x00000100, 0x9510, 0xffffffff, 0x00000100, 0xaf04, 0xffffffff, 0x00000100, 0xae04, 0xffffffff, 0x00000100, 0x949c, 0xffffffff, 0x00000100, 0x802c, 0xffffffff, 0xe0000000, 0x9160, 0xffffffff, 0x00010000, 0x9164, 0xffffffff, 0x00030002, 0x9168, 0xffffffff, 0x00040007, 0x916c, 0xffffffff, 0x00060005, 0x9170, 0xffffffff, 0x00090008, 0x9174, 0xffffffff, 0x00020001, 0x9178, 0xffffffff, 0x00040003, 0x917c, 0xffffffff, 0x00000007, 0x9180, 0xffffffff, 0x00060005, 0x9184, 0xffffffff, 0x00090008, 0x9188, 0xffffffff, 0x00030002, 0x918c, 0xffffffff, 0x00050004, 0x9190, 0xffffffff, 0x00000008, 0x9194, 0xffffffff, 0x00070006, 0x9198, 0xffffffff, 0x000a0009, 0x919c, 0xffffffff, 0x00040003, 0x91a0, 0xffffffff, 0x00060005, 0x91a4, 0xffffffff, 0x00000009, 0x91a8, 0xffffffff, 0x00080007, 0x91ac, 0xffffffff, 0x000b000a, 0x91b0, 0xffffffff, 0x00050004, 0x91b4, 0xffffffff, 0x00070006, 0x91b8, 0xffffffff, 0x0008000b, 0x91bc, 0xffffffff, 0x000a0009, 0x91c0, 0xffffffff, 0x000d000c, 0x91c4, 0xffffffff, 0x00060005, 0x91c8, 0xffffffff, 0x00080007, 0x91cc, 0xffffffff, 0x0000000b, 0x91d0, 0xffffffff, 0x000a0009, 0x91d4, 0xffffffff, 0x000d000c, 0x91d8, 0xffffffff, 0x00070006, 0x91dc, 0xffffffff, 0x00090008, 0x91e0, 0xffffffff, 0x0000000c, 0x91e4, 0xffffffff, 0x000b000a, 0x91e8, 0xffffffff, 0x000e000d, 0x91ec, 0xffffffff, 0x00080007, 0x91f0, 0xffffffff, 0x000a0009, 0x91f4, 0xffffffff, 0x0000000d, 0x91f8, 0xffffffff, 0x000c000b, 0x91fc, 0xffffffff, 0x000f000e, 0x9200, 0xffffffff, 0x00090008, 0x9204, 0xffffffff, 0x000b000a, 0x9208, 0xffffffff, 0x000c000f, 0x920c, 0xffffffff, 0x000e000d, 0x9210, 0xffffffff, 0x00110010, 0x9214, 0xffffffff, 0x000a0009, 0x9218, 0xffffffff, 0x000c000b, 0x921c, 0xffffffff, 0x0000000f, 0x9220, 0xffffffff, 0x000e000d, 0x9224, 0xffffffff, 0x00110010, 0x9228, 0xffffffff, 0x000b000a, 0x922c, 0xffffffff, 0x000d000c, 0x9230, 0xffffffff, 0x00000010, 0x9234, 0xffffffff, 0x000f000e, 0x9238, 0xffffffff, 0x00120011, 0x923c, 0xffffffff, 0x000c000b, 0x9240, 0xffffffff, 0x000e000d, 0x9244, 0xffffffff, 0x00000011, 0x9248, 0xffffffff, 0x0010000f, 0x924c, 0xffffffff, 0x00130012, 0x9250, 0xffffffff, 0x000d000c, 0x9254, 0xffffffff, 0x000f000e, 0x9258, 0xffffffff, 0x00100013, 0x925c, 0xffffffff, 0x00120011, 0x9260, 0xffffffff, 0x00150014, 0x9264, 0xffffffff, 0x000e000d, 0x9268, 0xffffffff, 0x0010000f, 0x926c, 0xffffffff, 0x00000013, 0x9270, 0xffffffff, 0x00120011, 0x9274, 0xffffffff, 0x00150014, 0x9278, 0xffffffff, 0x000f000e, 0x927c, 0xffffffff, 0x00110010, 0x9280, 0xffffffff, 0x00000014, 0x9284, 0xffffffff, 0x00130012, 0x9288, 0xffffffff, 0x00160015, 0x928c, 0xffffffff, 0x0010000f, 0x9290, 0xffffffff, 0x00120011, 0x9294, 0xffffffff, 0x00000015, 0x9298, 0xffffffff, 0x00140013, 0x929c, 0xffffffff, 0x00170016, 0x9150, 0xffffffff, 0x96940200, 0x8708, 0xffffffff, 0x00900100, 0xc478, 0xffffffff, 0x00000080, 0xc404, 0xffffffff, 0x0020003f, 0x30, 0xffffffff, 0x0000001c, 0x34, 0x000f0000, 0x000f0000, 0x160c, 0xffffffff, 0x00000100, 0x1024, 0xffffffff, 0x00000100, 0x102c, 0x00000101, 0x00000000, 0x20a8, 0xffffffff, 0x00000104, 0x264c, 0x000c0000, 0x000c0000, 0x2648, 0x000c0000, 0x000c0000, 0x55e4, 0xff000fff, 0x00000100, 0x55e8, 0x00000001, 0x00000001, 0x2f50, 0x00000001, 0x00000001, 0x30cc, 0xc0000fff, 0x00000104, 0xc1e4, 0x00000001, 0x00000001, 0xd0c0, 0xfffffff0, 0x00000100, 0xd8c0, 0xfffffff0, 0x00000100 }; static const u32 pitcairn_mgcg_cgcg_init[] = { 0xc400, 0xffffffff, 0xfffffffc, 0x802c, 0xffffffff, 0xe0000000, 0x9a60, 0xffffffff, 0x00000100, 0x92a4, 0xffffffff, 0x00000100, 0xc164, 0xffffffff, 0x00000100, 0x9774, 0xffffffff, 0x00000100, 0x8984, 0xffffffff, 0x06000100, 0x8a18, 0xffffffff, 0x00000100, 0x92a0, 0xffffffff, 0x00000100, 0xc380, 0xffffffff, 0x00000100, 0x8b28, 0xffffffff, 0x00000100, 0x9144, 0xffffffff, 0x00000100, 0x8d88, 0xffffffff, 0x00000100, 0x8d8c, 0xffffffff, 0x00000100, 0x9030, 0xffffffff, 0x00000100, 0x9034, 0xffffffff, 0x00000100, 0x9038, 0xffffffff, 0x00000100, 0x903c, 0xffffffff, 0x00000100, 0xad80, 0xffffffff, 0x00000100, 0xac54, 0xffffffff, 0x00000100, 0x897c, 0xffffffff, 0x06000100, 0x9868, 0xffffffff, 0x00000100, 0x9510, 0xffffffff, 0x00000100, 0xaf04, 0xffffffff, 0x00000100, 0xae04, 0xffffffff, 0x00000100, 0x949c, 0xffffffff, 0x00000100, 0x802c, 0xffffffff, 0xe0000000, 0x9160, 0xffffffff, 0x00010000, 0x9164, 0xffffffff, 0x00030002, 0x9168, 0xffffffff, 0x00040007, 0x916c, 0xffffffff, 0x00060005, 0x9170, 0xffffffff, 0x00090008, 0x9174, 0xffffffff, 0x00020001, 0x9178, 0xffffffff, 0x00040003, 0x917c, 0xffffffff, 0x00000007, 0x9180, 0xffffffff, 0x00060005, 0x9184, 0xffffffff, 0x00090008, 0x9188, 0xffffffff, 0x00030002, 0x918c, 0xffffffff, 0x00050004, 0x9190, 0xffffffff, 0x00000008, 0x9194, 0xffffffff, 0x00070006, 0x9198, 0xffffffff, 0x000a0009, 0x919c, 0xffffffff, 0x00040003, 0x91a0, 0xffffffff, 0x00060005, 0x91a4, 0xffffffff, 0x00000009, 0x91a8, 0xffffffff, 0x00080007, 0x91ac, 0xffffffff, 0x000b000a, 0x91b0, 0xffffffff, 0x00050004, 0x91b4, 0xffffffff, 0x00070006, 0x91b8, 0xffffffff, 0x0008000b, 0x91bc, 0xffffffff, 0x000a0009, 0x91c0, 0xffffffff, 0x000d000c, 0x9200, 0xffffffff, 0x00090008, 0x9204, 0xffffffff, 0x000b000a, 0x9208, 0xffffffff, 0x000c000f, 0x920c, 0xffffffff, 0x000e000d, 0x9210, 0xffffffff, 0x00110010, 0x9214, 0xffffffff, 0x000a0009, 0x9218, 0xffffffff, 0x000c000b, 0x921c, 0xffffffff, 0x0000000f, 0x9220, 0xffffffff, 0x000e000d, 0x9224, 0xffffffff, 0x00110010, 0x9228, 0xffffffff, 0x000b000a, 0x922c, 0xffffffff, 0x000d000c, 0x9230, 0xffffffff, 0x00000010, 0x9234, 0xffffffff, 0x000f000e, 0x9238, 0xffffffff, 0x00120011, 0x923c, 0xffffffff, 0x000c000b, 0x9240, 0xffffffff, 0x000e000d, 0x9244, 0xffffffff, 0x00000011, 0x9248, 0xffffffff, 0x0010000f, 0x924c, 0xffffffff, 0x00130012, 0x9250, 0xffffffff, 0x000d000c, 0x9254, 0xffffffff, 0x000f000e, 0x9258, 0xffffffff, 0x00100013, 0x925c, 0xffffffff, 0x00120011, 0x9260, 0xffffffff, 0x00150014, 0x9150, 0xffffffff, 0x96940200, 0x8708, 0xffffffff, 0x00900100, 0xc478, 0xffffffff, 0x00000080, 0xc404, 0xffffffff, 0x0020003f, 0x30, 0xffffffff, 0x0000001c, 0x34, 0x000f0000, 0x000f0000, 0x160c, 0xffffffff, 0x00000100, 0x1024, 0xffffffff, 0x00000100, 0x102c, 0x00000101, 0x00000000, 0x20a8, 0xffffffff, 0x00000104, 0x55e4, 0xff000fff, 0x00000100, 0x55e8, 0x00000001, 0x00000001, 0x2f50, 0x00000001, 0x00000001, 0x30cc, 0xc0000fff, 0x00000104, 0xc1e4, 0x00000001, 0x00000001, 0xd0c0, 0xfffffff0, 0x00000100, 0xd8c0, 0xfffffff0, 0x00000100 }; static const u32 verde_mgcg_cgcg_init[] = { 0xc400, 0xffffffff, 0xfffffffc, 0x802c, 0xffffffff, 0xe0000000, 0x9a60, 0xffffffff, 0x00000100, 0x92a4, 0xffffffff, 0x00000100, 0xc164, 0xffffffff, 0x00000100, 0x9774, 0xffffffff, 0x00000100, 0x8984, 0xffffffff, 0x06000100, 0x8a18, 0xffffffff, 0x00000100, 0x92a0, 0xffffffff, 0x00000100, 0xc380, 0xffffffff, 0x00000100, 0x8b28, 0xffffffff, 0x00000100, 0x9144, 0xffffffff, 0x00000100, 0x8d88, 0xffffffff, 0x00000100, 0x8d8c, 0xffffffff, 0x00000100, 0x9030, 0xffffffff, 0x00000100, 0x9034, 0xffffffff, 0x00000100, 0x9038, 0xffffffff, 0x00000100, 0x903c, 0xffffffff, 0x00000100, 0xad80, 0xffffffff, 0x00000100, 0xac54, 0xffffffff, 0x00000100, 0x897c, 0xffffffff, 0x06000100, 0x9868, 0xffffffff, 0x00000100, 0x9510, 0xffffffff, 0x00000100, 0xaf04, 0xffffffff, 0x00000100, 0xae04, 0xffffffff, 0x00000100, 0x949c, 0xffffffff, 0x00000100, 0x802c, 0xffffffff, 0xe0000000, 0x9160, 0xffffffff, 0x00010000, 0x9164, 0xffffffff, 0x00030002, 0x9168, 0xffffffff, 0x00040007, 0x916c, 0xffffffff, 0x00060005, 0x9170, 0xffffffff, 0x00090008, 0x9174, 0xffffffff, 0x00020001, 0x9178, 0xffffffff, 0x00040003, 0x917c, 0xffffffff, 0x00000007, 0x9180, 0xffffffff, 0x00060005, 0x9184, 0xffffffff, 0x00090008, 0x9188, 0xffffffff, 0x00030002, 0x918c, 0xffffffff, 0x00050004, 0x9190, 0xffffffff, 0x00000008, 0x9194, 0xffffffff, 0x00070006, 0x9198, 0xffffffff, 0x000a0009, 0x919c, 0xffffffff, 0x00040003, 0x91a0, 0xffffffff, 0x00060005, 0x91a4, 0xffffffff, 0x00000009, 0x91a8, 0xffffffff, 0x00080007, 0x91ac, 0xffffffff, 0x000b000a, 0x91b0, 0xffffffff, 0x00050004, 0x91b4, 0xffffffff, 0x00070006, 0x91b8, 0xffffffff, 0x0008000b, 0x91bc, 0xffffffff, 0x000a0009, 0x91c0, 0xffffffff, 0x000d000c, 0x9200, 0xffffffff, 0x00090008, 0x9204, 0xffffffff, 0x000b000a, 0x9208, 0xffffffff, 0x000c000f, 0x920c, 0xffffffff, 0x000e000d, 0x9210, 0xffffffff, 0x00110010, 0x9214, 0xffffffff, 0x000a0009, 0x9218, 0xffffffff, 0x000c000b, 0x921c, 0xffffffff, 0x0000000f, 0x9220, 0xffffffff, 0x000e000d, 0x9224, 0xffffffff, 0x00110010, 0x9228, 0xffffffff, 0x000b000a, 0x922c, 0xffffffff, 0x000d000c, 0x9230, 0xffffffff, 0x00000010, 0x9234, 0xffffffff, 0x000f000e, 0x9238, 0xffffffff, 0x00120011, 0x923c, 0xffffffff, 0x000c000b, 0x9240, 0xffffffff, 0x000e000d, 0x9244, 0xffffffff, 0x00000011, 0x9248, 0xffffffff, 0x0010000f, 0x924c, 0xffffffff, 0x00130012, 0x9250, 0xffffffff, 0x000d000c, 0x9254, 0xffffffff, 0x000f000e, 0x9258, 0xffffffff, 0x00100013, 0x925c, 0xffffffff, 0x00120011, 0x9260, 0xffffffff, 0x00150014, 0x9150, 0xffffffff, 0x96940200, 0x8708, 0xffffffff, 0x00900100, 0xc478, 0xffffffff, 0x00000080, 0xc404, 0xffffffff, 0x0020003f, 0x30, 0xffffffff, 0x0000001c, 0x34, 0x000f0000, 0x000f0000, 0x160c, 0xffffffff, 0x00000100, 0x1024, 0xffffffff, 0x00000100, 0x102c, 0x00000101, 0x00000000, 0x20a8, 0xffffffff, 0x00000104, 0x264c, 0x000c0000, 0x000c0000, 0x2648, 0x000c0000, 0x000c0000, 0x55e4, 0xff000fff, 0x00000100, 0x55e8, 0x00000001, 0x00000001, 0x2f50, 0x00000001, 0x00000001, 0x30cc, 0xc0000fff, 0x00000104, 0xc1e4, 0x00000001, 0x00000001, 0xd0c0, 0xfffffff0, 0x00000100, 0xd8c0, 0xfffffff0, 0x00000100 }; static const u32 oland_mgcg_cgcg_init[] = { 0xc400, 0xffffffff, 0xfffffffc, 0x802c, 0xffffffff, 0xe0000000, 0x9a60, 0xffffffff, 0x00000100, 0x92a4, 0xffffffff, 0x00000100, 0xc164, 0xffffffff, 0x00000100, 0x9774, 0xffffffff, 0x00000100, 0x8984, 0xffffffff, 0x06000100, 0x8a18, 0xffffffff, 0x00000100, 0x92a0, 0xffffffff, 0x00000100, 0xc380, 0xffffffff, 0x00000100, 0x8b28, 0xffffffff, 0x00000100, 0x9144, 0xffffffff, 0x00000100, 0x8d88, 0xffffffff, 0x00000100, 0x8d8c, 0xffffffff, 0x00000100, 0x9030, 0xffffffff, 0x00000100, 0x9034, 0xffffffff, 0x00000100, 0x9038, 0xffffffff, 0x00000100, 0x903c, 0xffffffff, 0x00000100, 0xad80, 0xffffffff, 0x00000100, 0xac54, 0xffffffff, 0x00000100, 0x897c, 0xffffffff, 0x06000100, 0x9868, 0xffffffff, 0x00000100, 0x9510, 0xffffffff, 0x00000100, 0xaf04, 0xffffffff, 0x00000100, 0xae04, 0xffffffff, 0x00000100, 0x949c, 0xffffffff, 0x00000100, 0x802c, 0xffffffff, 0xe0000000, 0x9160, 0xffffffff, 0x00010000, 0x9164, 0xffffffff, 0x00030002, 0x9168, 0xffffffff, 0x00040007, 0x916c, 0xffffffff, 0x00060005, 0x9170, 0xffffffff, 0x00090008, 0x9174, 0xffffffff, 0x00020001, 0x9178, 0xffffffff, 0x00040003, 0x917c, 0xffffffff, 0x00000007, 0x9180, 0xffffffff, 0x00060005, 0x9184, 0xffffffff, 0x00090008, 0x9188, 0xffffffff, 0x00030002, 0x918c, 0xffffffff, 0x00050004, 0x9190, 0xffffffff, 0x00000008, 0x9194, 0xffffffff, 0x00070006, 0x9198, 0xffffffff, 0x000a0009, 0x919c, 0xffffffff, 0x00040003, 0x91a0, 0xffffffff, 0x00060005, 0x91a4, 0xffffffff, 0x00000009, 0x91a8, 0xffffffff, 0x00080007, 0x91ac, 0xffffffff, 0x000b000a, 0x91b0, 0xffffffff, 0x00050004, 0x91b4, 0xffffffff, 0x00070006, 0x91b8, 0xffffffff, 0x0008000b, 0x91bc, 0xffffffff, 0x000a0009, 0x91c0, 0xffffffff, 0x000d000c, 0x91c4, 0xffffffff, 0x00060005, 0x91c8, 0xffffffff, 0x00080007, 0x91cc, 0xffffffff, 0x0000000b, 0x91d0, 0xffffffff, 0x000a0009, 0x91d4, 0xffffffff, 0x000d000c, 0x9150, 0xffffffff, 0x96940200, 0x8708, 0xffffffff, 0x00900100, 0xc478, 0xffffffff, 0x00000080, 0xc404, 0xffffffff, 0x0020003f, 0x30, 0xffffffff, 0x0000001c, 0x34, 0x000f0000, 0x000f0000, 0x160c, 0xffffffff, 0x00000100, 0x1024, 0xffffffff, 0x00000100, 0x102c, 0x00000101, 0x00000000, 0x20a8, 0xffffffff, 0x00000104, 0x264c, 0x000c0000, 0x000c0000, 0x2648, 0x000c0000, 0x000c0000, 0x55e4, 0xff000fff, 0x00000100, 0x55e8, 0x00000001, 0x00000001, 0x2f50, 0x00000001, 0x00000001, 0x30cc, 0xc0000fff, 0x00000104, 0xc1e4, 0x00000001, 0x00000001, 0xd0c0, 0xfffffff0, 0x00000100, 0xd8c0, 0xfffffff0, 0x00000100 }; static const u32 hainan_mgcg_cgcg_init[] = { 0xc400, 0xffffffff, 0xfffffffc, 0x802c, 0xffffffff, 0xe0000000, 0x9a60, 0xffffffff, 0x00000100, 0x92a4, 0xffffffff, 0x00000100, 0xc164, 0xffffffff, 0x00000100, 0x9774, 0xffffffff, 0x00000100, 0x8984, 0xffffffff, 0x06000100, 0x8a18, 0xffffffff, 0x00000100, 0x92a0, 0xffffffff, 0x00000100, 0xc380, 0xffffffff, 0x00000100, 0x8b28, 0xffffffff, 0x00000100, 0x9144, 0xffffffff, 0x00000100, 0x8d88, 0xffffffff, 0x00000100, 0x8d8c, 0xffffffff, 0x00000100, 0x9030, 0xffffffff, 0x00000100, 0x9034, 0xffffffff, 0x00000100, 0x9038, 0xffffffff, 0x00000100, 0x903c, 0xffffffff, 0x00000100, 0xad80, 0xffffffff, 0x00000100, 0xac54, 0xffffffff, 0x00000100, 0x897c, 0xffffffff, 0x06000100, 0x9868, 0xffffffff, 0x00000100, 0x9510, 0xffffffff, 0x00000100, 0xaf04, 0xffffffff, 0x00000100, 0xae04, 0xffffffff, 0x00000100, 0x949c, 0xffffffff, 0x00000100, 0x802c, 0xffffffff, 0xe0000000, 0x9160, 0xffffffff, 0x00010000, 0x9164, 0xffffffff, 0x00030002, 0x9168, 0xffffffff, 0x00040007, 0x916c, 0xffffffff, 0x00060005, 0x9170, 0xffffffff, 0x00090008, 0x9174, 0xffffffff, 0x00020001, 0x9178, 0xffffffff, 0x00040003, 0x917c, 0xffffffff, 0x00000007, 0x9180, 0xffffffff, 0x00060005, 0x9184, 0xffffffff, 0x00090008, 0x9188, 0xffffffff, 0x00030002, 0x918c, 0xffffffff, 0x00050004, 0x9190, 0xffffffff, 0x00000008, 0x9194, 0xffffffff, 0x00070006, 0x9198, 0xffffffff, 0x000a0009, 0x919c, 0xffffffff, 0x00040003, 0x91a0, 0xffffffff, 0x00060005, 0x91a4, 0xffffffff, 0x00000009, 0x91a8, 0xffffffff, 0x00080007, 0x91ac, 0xffffffff, 0x000b000a, 0x91b0, 0xffffffff, 0x00050004, 0x91b4, 0xffffffff, 0x00070006, 0x91b8, 0xffffffff, 0x0008000b, 0x91bc, 0xffffffff, 0x000a0009, 0x91c0, 0xffffffff, 0x000d000c, 0x91c4, 0xffffffff, 0x00060005, 0x91c8, 0xffffffff, 0x00080007, 0x91cc, 0xffffffff, 0x0000000b, 0x91d0, 0xffffffff, 0x000a0009, 0x91d4, 0xffffffff, 0x000d000c, 0x9150, 0xffffffff, 0x96940200, 0x8708, 0xffffffff, 0x00900100, 0xc478, 0xffffffff, 0x00000080, 0xc404, 0xffffffff, 0x0020003f, 0x30, 0xffffffff, 0x0000001c, 0x34, 0x000f0000, 0x000f0000, 0x160c, 0xffffffff, 0x00000100, 0x1024, 0xffffffff, 0x00000100, 0x20a8, 0xffffffff, 0x00000104, 0x264c, 0x000c0000, 0x000c0000, 0x2648, 0x000c0000, 0x000c0000, 0x2f50, 0x00000001, 0x00000001, 0x30cc, 0xc0000fff, 0x00000104, 0xc1e4, 0x00000001, 0x00000001, 0xd0c0, 0xfffffff0, 0x00000100, 0xd8c0, 0xfffffff0, 0x00000100 }; static u32 verde_pg_init[] = { 0x353c, 0xffffffff, 0x40000, 0x3538, 0xffffffff, 0x200010ff, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x7007, 0x3538, 0xffffffff, 0x300010ff, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x400000, 0x3538, 0xffffffff, 0x100010ff, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x120200, 0x3538, 0xffffffff, 0x500010ff, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x1e1e16, 0x3538, 0xffffffff, 0x600010ff, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x171f1e, 0x3538, 0xffffffff, 0x700010ff, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x353c, 0xffffffff, 0x0, 0x3538, 0xffffffff, 0x9ff, 0x3500, 0xffffffff, 0x0, 0x3504, 0xffffffff, 0x10000800, 0x3504, 0xffffffff, 0xf, 0x3504, 0xffffffff, 0xf, 0x3500, 0xffffffff, 0x4, 0x3504, 0xffffffff, 0x1000051e, 0x3504, 0xffffffff, 0xffff, 0x3504, 0xffffffff, 0xffff, 0x3500, 0xffffffff, 0x8, 0x3504, 0xffffffff, 0x80500, 0x3500, 0xffffffff, 0x12, 0x3504, 0xffffffff, 0x9050c, 0x3500, 0xffffffff, 0x1d, 0x3504, 0xffffffff, 0xb052c, 0x3500, 0xffffffff, 0x2a, 0x3504, 0xffffffff, 0x1053e, 0x3500, 0xffffffff, 0x2d, 0x3504, 0xffffffff, 0x10546, 0x3500, 0xffffffff, 0x30, 0x3504, 0xffffffff, 0xa054e, 0x3500, 0xffffffff, 0x3c, 0x3504, 0xffffffff, 0x1055f, 0x3500, 0xffffffff, 0x3f, 0x3504, 0xffffffff, 0x10567, 0x3500, 0xffffffff, 0x42, 0x3504, 0xffffffff, 0x1056f, 0x3500, 0xffffffff, 0x45, 0x3504, 0xffffffff, 0x10572, 0x3500, 0xffffffff, 0x48, 0x3504, 0xffffffff, 0x20575, 0x3500, 0xffffffff, 0x4c, 0x3504, 0xffffffff, 0x190801, 0x3500, 0xffffffff, 0x67, 0x3504, 0xffffffff, 0x1082a, 0x3500, 0xffffffff, 0x6a, 0x3504, 0xffffffff, 0x1b082d, 0x3500, 0xffffffff, 0x87, 0x3504, 0xffffffff, 0x310851, 0x3500, 0xffffffff, 0xba, 0x3504, 0xffffffff, 0x891, 0x3500, 0xffffffff, 0xbc, 0x3504, 0xffffffff, 0x893, 0x3500, 0xffffffff, 0xbe, 0x3504, 0xffffffff, 0x20895, 0x3500, 0xffffffff, 0xc2, 0x3504, 0xffffffff, 0x20899, 0x3500, 0xffffffff, 0xc6, 0x3504, 0xffffffff, 0x2089d, 0x3500, 0xffffffff, 0xca, 0x3504, 0xffffffff, 0x8a1, 0x3500, 0xffffffff, 0xcc, 0x3504, 0xffffffff, 0x8a3, 0x3500, 0xffffffff, 0xce, 0x3504, 0xffffffff, 0x308a5, 0x3500, 0xffffffff, 0xd3, 0x3504, 0xffffffff, 0x6d08cd, 0x3500, 0xffffffff, 0x142, 0x3504, 0xffffffff, 0x2000095a, 0x3504, 0xffffffff, 0x1, 0x3500, 0xffffffff, 0x144, 0x3504, 0xffffffff, 0x301f095b, 0x3500, 0xffffffff, 0x165, 0x3504, 0xffffffff, 0xc094d, 0x3500, 0xffffffff, 0x173, 0x3504, 0xffffffff, 0xf096d, 0x3500, 0xffffffff, 0x184, 0x3504, 0xffffffff, 0x15097f, 0x3500, 0xffffffff, 0x19b, 0x3504, 0xffffffff, 0xc0998, 0x3500, 0xffffffff, 0x1a9, 0x3504, 0xffffffff, 0x409a7, 0x3500, 0xffffffff, 0x1af, 0x3504, 0xffffffff, 0xcdc, 0x3500, 0xffffffff, 0x1b1, 0x3504, 0xffffffff, 0x800, 0x3508, 0xffffffff, 0x6c9b2000, 0x3510, 0xfc00, 0x2000, 0x3544, 0xffffffff, 0xfc0, 0x28d4, 0x00000100, 0x100 }; static void si_init_golden_registers(struct radeon_device *rdev) { switch (rdev->family) { case CHIP_TAHITI: radeon_program_register_sequence(rdev, tahiti_golden_registers, (const u32)ARRAY_SIZE(tahiti_golden_registers)); radeon_program_register_sequence(rdev, tahiti_golden_rlc_registers, (const u32)ARRAY_SIZE(tahiti_golden_rlc_registers)); radeon_program_register_sequence(rdev, tahiti_mgcg_cgcg_init, (const u32)ARRAY_SIZE(tahiti_mgcg_cgcg_init)); radeon_program_register_sequence(rdev, tahiti_golden_registers2, (const u32)ARRAY_SIZE(tahiti_golden_registers2)); break; case CHIP_PITCAIRN: radeon_program_register_sequence(rdev, pitcairn_golden_registers, (const u32)ARRAY_SIZE(pitcairn_golden_registers)); radeon_program_register_sequence(rdev, pitcairn_golden_rlc_registers, (const u32)ARRAY_SIZE(pitcairn_golden_rlc_registers)); radeon_program_register_sequence(rdev, pitcairn_mgcg_cgcg_init, (const u32)ARRAY_SIZE(pitcairn_mgcg_cgcg_init)); break; case CHIP_VERDE: radeon_program_register_sequence(rdev, verde_golden_registers, (const u32)ARRAY_SIZE(verde_golden_registers)); radeon_program_register_sequence(rdev, verde_golden_rlc_registers, (const u32)ARRAY_SIZE(verde_golden_rlc_registers)); radeon_program_register_sequence(rdev, verde_mgcg_cgcg_init, (const u32)ARRAY_SIZE(verde_mgcg_cgcg_init)); radeon_program_register_sequence(rdev, verde_pg_init, (const u32)ARRAY_SIZE(verde_pg_init)); break; case CHIP_OLAND: radeon_program_register_sequence(rdev, oland_golden_registers, (const u32)ARRAY_SIZE(oland_golden_registers)); radeon_program_register_sequence(rdev, oland_golden_rlc_registers, (const u32)ARRAY_SIZE(oland_golden_rlc_registers)); radeon_program_register_sequence(rdev, oland_mgcg_cgcg_init, (const u32)ARRAY_SIZE(oland_mgcg_cgcg_init)); break; case CHIP_HAINAN: radeon_program_register_sequence(rdev, hainan_golden_registers, (const u32)ARRAY_SIZE(hainan_golden_registers)); radeon_program_register_sequence(rdev, hainan_golden_registers2, (const u32)ARRAY_SIZE(hainan_golden_registers2)); radeon_program_register_sequence(rdev, hainan_mgcg_cgcg_init, (const u32)ARRAY_SIZE(hainan_mgcg_cgcg_init)); break; default: break; } } /** * si_get_allowed_info_register - fetch the register for the info ioctl * * @rdev: radeon_device pointer * @reg: register offset in bytes * @val: register value * * Returns 0 for success or -EINVAL for an invalid register * */ int si_get_allowed_info_register(struct radeon_device *rdev, u32 reg, u32 *val) { switch (reg) { case GRBM_STATUS: case GRBM_STATUS2: case GRBM_STATUS_SE0: case GRBM_STATUS_SE1: case SRBM_STATUS: case SRBM_STATUS2: case (DMA_STATUS_REG + DMA0_REGISTER_OFFSET): case (DMA_STATUS_REG + DMA1_REGISTER_OFFSET): case UVD_STATUS: *val = RREG32(reg); return 0; default: return -EINVAL; } } #define PCIE_BUS_CLK 10000 #define TCLK (PCIE_BUS_CLK / 10) /** * si_get_xclk - get the xclk * * @rdev: radeon_device pointer * * Returns the reference clock used by the gfx engine * (SI). */ u32 si_get_xclk(struct radeon_device *rdev) { u32 reference_clock = rdev->clock.spll.reference_freq; u32 tmp; tmp = RREG32(CG_CLKPIN_CNTL_2); if (tmp & MUX_TCLK_TO_XCLK) return TCLK; tmp = RREG32(CG_CLKPIN_CNTL); if (tmp & XTALIN_DIVIDE) return reference_clock / 4; return reference_clock; } /* get temperature in millidegrees */ int si_get_temp(struct radeon_device *rdev) { u32 temp; int actual_temp = 0; temp = (RREG32(CG_MULT_THERMAL_STATUS) & CTF_TEMP_MASK) >> CTF_TEMP_SHIFT; if (temp & 0x200) actual_temp = 255; else actual_temp = temp & 0x1ff; actual_temp = (actual_temp * 1000); return actual_temp; } #define TAHITI_IO_MC_REGS_SIZE 36 static const u32 tahiti_io_mc_regs[TAHITI_IO_MC_REGS_SIZE][2] = { {0x0000006f, 0x03044000}, {0x00000070, 0x0480c018}, {0x00000071, 0x00000040}, {0x00000072, 0x01000000}, {0x00000074, 0x000000ff}, {0x00000075, 0x00143400}, {0x00000076, 0x08ec0800}, {0x00000077, 0x040000cc}, {0x00000079, 0x00000000}, {0x0000007a, 0x21000409}, {0x0000007c, 0x00000000}, {0x0000007d, 0xe8000000}, {0x0000007e, 0x044408a8}, {0x0000007f, 0x00000003}, {0x00000080, 0x00000000}, {0x00000081, 0x01000000}, {0x00000082, 0x02000000}, {0x00000083, 0x00000000}, {0x00000084, 0xe3f3e4f4}, {0x00000085, 0x00052024}, {0x00000087, 0x00000000}, {0x00000088, 0x66036603}, {0x00000089, 0x01000000}, {0x0000008b, 0x1c0a0000}, {0x0000008c, 0xff010000}, {0x0000008e, 0xffffefff}, {0x0000008f, 0xfff3efff}, {0x00000090, 0xfff3efbf}, {0x00000094, 0x00101101}, {0x00000095, 0x00000fff}, {0x00000096, 0x00116fff}, {0x00000097, 0x60010000}, {0x00000098, 0x10010000}, {0x00000099, 0x00006000}, {0x0000009a, 0x00001000}, {0x0000009f, 0x00a77400} }; static const u32 pitcairn_io_mc_regs[TAHITI_IO_MC_REGS_SIZE][2] = { {0x0000006f, 0x03044000}, {0x00000070, 0x0480c018}, {0x00000071, 0x00000040}, {0x00000072, 0x01000000}, {0x00000074, 0x000000ff}, {0x00000075, 0x00143400}, {0x00000076, 0x08ec0800}, {0x00000077, 0x040000cc}, {0x00000079, 0x00000000}, {0x0000007a, 0x21000409}, {0x0000007c, 0x00000000}, {0x0000007d, 0xe8000000}, {0x0000007e, 0x044408a8}, {0x0000007f, 0x00000003}, {0x00000080, 0x00000000}, {0x00000081, 0x01000000}, {0x00000082, 0x02000000}, {0x00000083, 0x00000000}, {0x00000084, 0xe3f3e4f4}, {0x00000085, 0x00052024}, {0x00000087, 0x00000000}, {0x00000088, 0x66036603}, {0x00000089, 0x01000000}, {0x0000008b, 0x1c0a0000}, {0x0000008c, 0xff010000}, {0x0000008e, 0xffffefff}, {0x0000008f, 0xfff3efff}, {0x00000090, 0xfff3efbf}, {0x00000094, 0x00101101}, {0x00000095, 0x00000fff}, {0x00000096, 0x00116fff}, {0x00000097, 0x60010000}, {0x00000098, 0x10010000}, {0x00000099, 0x00006000}, {0x0000009a, 0x00001000}, {0x0000009f, 0x00a47400} }; static const u32 verde_io_mc_regs[TAHITI_IO_MC_REGS_SIZE][2] = { {0x0000006f, 0x03044000}, {0x00000070, 0x0480c018}, {0x00000071, 0x00000040}, {0x00000072, 0x01000000}, {0x00000074, 0x000000ff}, {0x00000075, 0x00143400}, {0x00000076, 0x08ec0800}, {0x00000077, 0x040000cc}, {0x00000079, 0x00000000}, {0x0000007a, 0x21000409}, {0x0000007c, 0x00000000}, {0x0000007d, 0xe8000000}, {0x0000007e, 0x044408a8}, {0x0000007f, 0x00000003}, {0x00000080, 0x00000000}, {0x00000081, 0x01000000}, {0x00000082, 0x02000000}, {0x00000083, 0x00000000}, {0x00000084, 0xe3f3e4f4}, {0x00000085, 0x00052024}, {0x00000087, 0x00000000}, {0x00000088, 0x66036603}, {0x00000089, 0x01000000}, {0x0000008b, 0x1c0a0000}, {0x0000008c, 0xff010000}, {0x0000008e, 0xffffefff}, {0x0000008f, 0xfff3efff}, {0x00000090, 0xfff3efbf}, {0x00000094, 0x00101101}, {0x00000095, 0x00000fff}, {0x00000096, 0x00116fff}, {0x00000097, 0x60010000}, {0x00000098, 0x10010000}, {0x00000099, 0x00006000}, {0x0000009a, 0x00001000}, {0x0000009f, 0x00a37400} }; static const u32 oland_io_mc_regs[TAHITI_IO_MC_REGS_SIZE][2] = { {0x0000006f, 0x03044000}, {0x00000070, 0x0480c018}, {0x00000071, 0x00000040}, {0x00000072, 0x01000000}, {0x00000074, 0x000000ff}, {0x00000075, 0x00143400}, {0x00000076, 0x08ec0800}, {0x00000077, 0x040000cc}, {0x00000079, 0x00000000}, {0x0000007a, 0x21000409}, {0x0000007c, 0x00000000}, {0x0000007d, 0xe8000000}, {0x0000007e, 0x044408a8}, {0x0000007f, 0x00000003}, {0x00000080, 0x00000000}, {0x00000081, 0x01000000}, {0x00000082, 0x02000000}, {0x00000083, 0x00000000}, {0x00000084, 0xe3f3e4f4}, {0x00000085, 0x00052024}, {0x00000087, 0x00000000}, {0x00000088, 0x66036603}, {0x00000089, 0x01000000}, {0x0000008b, 0x1c0a0000}, {0x0000008c, 0xff010000}, {0x0000008e, 0xffffefff}, {0x0000008f, 0xfff3efff}, {0x00000090, 0xfff3efbf}, {0x00000094, 0x00101101}, {0x00000095, 0x00000fff}, {0x00000096, 0x00116fff}, {0x00000097, 0x60010000}, {0x00000098, 0x10010000}, {0x00000099, 0x00006000}, {0x0000009a, 0x00001000}, {0x0000009f, 0x00a17730} }; static const u32 hainan_io_mc_regs[TAHITI_IO_MC_REGS_SIZE][2] = { {0x0000006f, 0x03044000}, {0x00000070, 0x0480c018}, {0x00000071, 0x00000040}, {0x00000072, 0x01000000}, {0x00000074, 0x000000ff}, {0x00000075, 0x00143400}, {0x00000076, 0x08ec0800}, {0x00000077, 0x040000cc}, {0x00000079, 0x00000000}, {0x0000007a, 0x21000409}, {0x0000007c, 0x00000000}, {0x0000007d, 0xe8000000}, {0x0000007e, 0x044408a8}, {0x0000007f, 0x00000003}, {0x00000080, 0x00000000}, {0x00000081, 0x01000000}, {0x00000082, 0x02000000}, {0x00000083, 0x00000000}, {0x00000084, 0xe3f3e4f4}, {0x00000085, 0x00052024}, {0x00000087, 0x00000000}, {0x00000088, 0x66036603}, {0x00000089, 0x01000000}, {0x0000008b, 0x1c0a0000}, {0x0000008c, 0xff010000}, {0x0000008e, 0xffffefff}, {0x0000008f, 0xfff3efff}, {0x00000090, 0xfff3efbf}, {0x00000094, 0x00101101}, {0x00000095, 0x00000fff}, {0x00000096, 0x00116fff}, {0x00000097, 0x60010000}, {0x00000098, 0x10010000}, {0x00000099, 0x00006000}, {0x0000009a, 0x00001000}, {0x0000009f, 0x00a07730} }; /* ucode loading */ int si_mc_load_microcode(struct radeon_device *rdev) { const __be32 *fw_data = NULL; const __le32 *new_fw_data = NULL; u32 running; u32 *io_mc_regs = NULL; const __le32 *new_io_mc_regs = NULL; int i, regs_size, ucode_size; if (!rdev->mc_fw) return -EINVAL; if (rdev->new_fw) { const struct mc_firmware_header_v1_0 *hdr = (const struct mc_firmware_header_v1_0 *)rdev->mc_fw->data; radeon_ucode_print_mc_hdr(&hdr->header); regs_size = le32_to_cpu(hdr->io_debug_size_bytes) / (4 * 2); new_io_mc_regs = (const __le32 *) (rdev->mc_fw->data + le32_to_cpu(hdr->io_debug_array_offset_bytes)); ucode_size = le32_to_cpu(hdr->header.ucode_size_bytes) / 4; new_fw_data = (const __le32 *) (rdev->mc_fw->data + le32_to_cpu(hdr->header.ucode_array_offset_bytes)); } else { ucode_size = rdev->mc_fw->size / 4; switch (rdev->family) { case CHIP_TAHITI: io_mc_regs = (u32 *)&tahiti_io_mc_regs; regs_size = TAHITI_IO_MC_REGS_SIZE; break; case CHIP_PITCAIRN: io_mc_regs = (u32 *)&pitcairn_io_mc_regs; regs_size = TAHITI_IO_MC_REGS_SIZE; break; case CHIP_VERDE: default: io_mc_regs = (u32 *)&verde_io_mc_regs; regs_size = TAHITI_IO_MC_REGS_SIZE; break; case CHIP_OLAND: io_mc_regs = (u32 *)&oland_io_mc_regs; regs_size = TAHITI_IO_MC_REGS_SIZE; break; case CHIP_HAINAN: io_mc_regs = (u32 *)&hainan_io_mc_regs; regs_size = TAHITI_IO_MC_REGS_SIZE; break; } fw_data = (const __be32 *)rdev->mc_fw->data; } running = RREG32(MC_SEQ_SUP_CNTL) & RUN_MASK; if (running == 0) { /* reset the engine and set to writable */ WREG32(MC_SEQ_SUP_CNTL, 0x00000008); WREG32(MC_SEQ_SUP_CNTL, 0x00000010); /* load mc io regs */ for (i = 0; i < regs_size; i++) { if (rdev->new_fw) { WREG32(MC_SEQ_IO_DEBUG_INDEX, le32_to_cpup(new_io_mc_regs++)); WREG32(MC_SEQ_IO_DEBUG_DATA, le32_to_cpup(new_io_mc_regs++)); } else { WREG32(MC_SEQ_IO_DEBUG_INDEX, io_mc_regs[(i << 1)]); WREG32(MC_SEQ_IO_DEBUG_DATA, io_mc_regs[(i << 1) + 1]); } } /* load the MC ucode */ for (i = 0; i < ucode_size; i++) { if (rdev->new_fw) WREG32(MC_SEQ_SUP_PGM, le32_to_cpup(new_fw_data++)); else WREG32(MC_SEQ_SUP_PGM, be32_to_cpup(fw_data++)); } /* put the engine back into the active state */ WREG32(MC_SEQ_SUP_CNTL, 0x00000008); WREG32(MC_SEQ_SUP_CNTL, 0x00000004); WREG32(MC_SEQ_SUP_CNTL, 0x00000001); /* wait for training to complete */ for (i = 0; i < rdev->usec_timeout; i++) { if (RREG32(MC_SEQ_TRAIN_WAKEUP_CNTL) & TRAIN_DONE_D0) break; udelay(1); } for (i = 0; i < rdev->usec_timeout; i++) { if (RREG32(MC_SEQ_TRAIN_WAKEUP_CNTL) & TRAIN_DONE_D1) break; udelay(1); } } return 0; } static int si_init_microcode(struct radeon_device *rdev) { const char *chip_name; const char *new_chip_name; size_t pfp_req_size, me_req_size, ce_req_size, rlc_req_size, mc_req_size; size_t smc_req_size, mc2_req_size; char fw_name[30]; int err; int new_fw = 0; bool new_smc = false; bool si58_fw = false; bool banks2_fw = false; DRM_DEBUG("\n"); switch (rdev->family) { case CHIP_TAHITI: chip_name = "TAHITI"; new_chip_name = "tahiti"; pfp_req_size = SI_PFP_UCODE_SIZE * 4; me_req_size = SI_PM4_UCODE_SIZE * 4; ce_req_size = SI_CE_UCODE_SIZE * 4; rlc_req_size = SI_RLC_UCODE_SIZE * 4; mc_req_size = SI_MC_UCODE_SIZE * 4; mc2_req_size = TAHITI_MC_UCODE_SIZE * 4; smc_req_size = ALIGN(TAHITI_SMC_UCODE_SIZE, 4); break; case CHIP_PITCAIRN: chip_name = "PITCAIRN"; if ((rdev->pdev->revision == 0x81) && ((rdev->pdev->device == 0x6810) || (rdev->pdev->device == 0x6811))) new_smc = true; new_chip_name = "pitcairn"; pfp_req_size = SI_PFP_UCODE_SIZE * 4; me_req_size = SI_PM4_UCODE_SIZE * 4; ce_req_size = SI_CE_UCODE_SIZE * 4; rlc_req_size = SI_RLC_UCODE_SIZE * 4; mc_req_size = SI_MC_UCODE_SIZE * 4; mc2_req_size = PITCAIRN_MC_UCODE_SIZE * 4; smc_req_size = ALIGN(PITCAIRN_SMC_UCODE_SIZE, 4); break; case CHIP_VERDE: chip_name = "VERDE"; if (((rdev->pdev->device == 0x6820) && ((rdev->pdev->revision == 0x81) || (rdev->pdev->revision == 0x83))) || ((rdev->pdev->device == 0x6821) && ((rdev->pdev->revision == 0x83) || (rdev->pdev->revision == 0x87))) || ((rdev->pdev->revision == 0x87) && ((rdev->pdev->device == 0x6823) || (rdev->pdev->device == 0x682b)))) new_smc = true; new_chip_name = "verde"; pfp_req_size = SI_PFP_UCODE_SIZE * 4; me_req_size = SI_PM4_UCODE_SIZE * 4; ce_req_size = SI_CE_UCODE_SIZE * 4; rlc_req_size = SI_RLC_UCODE_SIZE * 4; mc_req_size = SI_MC_UCODE_SIZE * 4; mc2_req_size = VERDE_MC_UCODE_SIZE * 4; smc_req_size = ALIGN(VERDE_SMC_UCODE_SIZE, 4); break; case CHIP_OLAND: chip_name = "OLAND"; if (((rdev->pdev->revision == 0x81) && ((rdev->pdev->device == 0x6600) || (rdev->pdev->device == 0x6604) || (rdev->pdev->device == 0x6605) || (rdev->pdev->device == 0x6610))) || ((rdev->pdev->revision == 0x83) && (rdev->pdev->device == 0x6610))) new_smc = true; new_chip_name = "oland"; pfp_req_size = SI_PFP_UCODE_SIZE * 4; me_req_size = SI_PM4_UCODE_SIZE * 4; ce_req_size = SI_CE_UCODE_SIZE * 4; rlc_req_size = SI_RLC_UCODE_SIZE * 4; mc_req_size = mc2_req_size = OLAND_MC_UCODE_SIZE * 4; smc_req_size = ALIGN(OLAND_SMC_UCODE_SIZE, 4); break; case CHIP_HAINAN: chip_name = "HAINAN"; if (((rdev->pdev->revision == 0x81) && (rdev->pdev->device == 0x6660)) || ((rdev->pdev->revision == 0x83) && ((rdev->pdev->device == 0x6660) || (rdev->pdev->device == 0x6663) || (rdev->pdev->device == 0x6665) || (rdev->pdev->device == 0x6667)))) new_smc = true; else if ((rdev->pdev->revision == 0xc3) && (rdev->pdev->device == 0x6665)) banks2_fw = true; new_chip_name = "hainan"; pfp_req_size = SI_PFP_UCODE_SIZE * 4; me_req_size = SI_PM4_UCODE_SIZE * 4; ce_req_size = SI_CE_UCODE_SIZE * 4; rlc_req_size = SI_RLC_UCODE_SIZE * 4; mc_req_size = mc2_req_size = OLAND_MC_UCODE_SIZE * 4; smc_req_size = ALIGN(HAINAN_SMC_UCODE_SIZE, 4); break; default: BUG(); } /* this memory configuration requires special firmware */ if (((RREG32(MC_SEQ_MISC0) & 0xff000000) >> 24) == 0x58) si58_fw = true; DRM_INFO("Loading %s Microcode\n", new_chip_name); snprintf(fw_name, sizeof(fw_name), "radeon/%s_pfp.bin", new_chip_name); err = request_firmware(&rdev->pfp_fw, fw_name, rdev->dev); if (err) { snprintf(fw_name, sizeof(fw_name), "radeon/%s_pfp.bin", chip_name); err = request_firmware(&rdev->pfp_fw, fw_name, rdev->dev); if (err) goto out; if (rdev->pfp_fw->size != pfp_req_size) { pr_err("si_cp: Bogus length %zu in firmware \"%s\"\n", rdev->pfp_fw->size, fw_name); err = -EINVAL; goto out; } } else { err = radeon_ucode_validate(rdev->pfp_fw); if (err) { pr_err("si_cp: validation failed for firmware \"%s\"\n", fw_name); goto out; } else { new_fw++; } } snprintf(fw_name, sizeof(fw_name), "radeon/%s_me.bin", new_chip_name); err = request_firmware(&rdev->me_fw, fw_name, rdev->dev); if (err) { snprintf(fw_name, sizeof(fw_name), "radeon/%s_me.bin", chip_name); err = request_firmware(&rdev->me_fw, fw_name, rdev->dev); if (err) goto out; if (rdev->me_fw->size != me_req_size) { pr_err("si_cp: Bogus length %zu in firmware \"%s\"\n", rdev->me_fw->size, fw_name); err = -EINVAL; } } else { err = radeon_ucode_validate(rdev->me_fw); if (err) { pr_err("si_cp: validation failed for firmware \"%s\"\n", fw_name); goto out; } else { new_fw++; } } snprintf(fw_name, sizeof(fw_name), "radeon/%s_ce.bin", new_chip_name); err = request_firmware(&rdev->ce_fw, fw_name, rdev->dev); if (err) { snprintf(fw_name, sizeof(fw_name), "radeon/%s_ce.bin", chip_name); err = request_firmware(&rdev->ce_fw, fw_name, rdev->dev); if (err) goto out; if (rdev->ce_fw->size != ce_req_size) { pr_err("si_cp: Bogus length %zu in firmware \"%s\"\n", rdev->ce_fw->size, fw_name); err = -EINVAL; } } else { err = radeon_ucode_validate(rdev->ce_fw); if (err) { pr_err("si_cp: validation failed for firmware \"%s\"\n", fw_name); goto out; } else { new_fw++; } } snprintf(fw_name, sizeof(fw_name), "radeon/%s_rlc.bin", new_chip_name); err = request_firmware(&rdev->rlc_fw, fw_name, rdev->dev); if (err) { snprintf(fw_name, sizeof(fw_name), "radeon/%s_rlc.bin", chip_name); err = request_firmware(&rdev->rlc_fw, fw_name, rdev->dev); if (err) goto out; if (rdev->rlc_fw->size != rlc_req_size) { pr_err("si_rlc: Bogus length %zu in firmware \"%s\"\n", rdev->rlc_fw->size, fw_name); err = -EINVAL; } } else { err = radeon_ucode_validate(rdev->rlc_fw); if (err) { pr_err("si_cp: validation failed for firmware \"%s\"\n", fw_name); goto out; } else { new_fw++; } } if (si58_fw) snprintf(fw_name, sizeof(fw_name), "radeon/si58_mc.bin"); else snprintf(fw_name, sizeof(fw_name), "radeon/%s_mc.bin", new_chip_name); err = request_firmware(&rdev->mc_fw, fw_name, rdev->dev); if (err) { snprintf(fw_name, sizeof(fw_name), "radeon/%s_mc2.bin", chip_name); err = request_firmware(&rdev->mc_fw, fw_name, rdev->dev); if (err) { snprintf(fw_name, sizeof(fw_name), "radeon/%s_mc.bin", chip_name); err = request_firmware(&rdev->mc_fw, fw_name, rdev->dev); if (err) goto out; } if ((rdev->mc_fw->size != mc_req_size) && (rdev->mc_fw->size != mc2_req_size)) { pr_err("si_mc: Bogus length %zu in firmware \"%s\"\n", rdev->mc_fw->size, fw_name); err = -EINVAL; } DRM_INFO("%s: %zu bytes\n", fw_name, rdev->mc_fw->size); } else { err = radeon_ucode_validate(rdev->mc_fw); if (err) { pr_err("si_cp: validation failed for firmware \"%s\"\n", fw_name); goto out; } else { new_fw++; } } if (banks2_fw) snprintf(fw_name, sizeof(fw_name), "radeon/banks_k_2_smc.bin"); else if (new_smc) snprintf(fw_name, sizeof(fw_name), "radeon/%s_k_smc.bin", new_chip_name); else snprintf(fw_name, sizeof(fw_name), "radeon/%s_smc.bin", new_chip_name); err = request_firmware(&rdev->smc_fw, fw_name, rdev->dev); if (err) { snprintf(fw_name, sizeof(fw_name), "radeon/%s_smc.bin", chip_name); err = request_firmware(&rdev->smc_fw, fw_name, rdev->dev); if (err) { pr_err("smc: error loading firmware \"%s\"\n", fw_name); release_firmware(rdev->smc_fw); rdev->smc_fw = NULL; err = 0; } else if (rdev->smc_fw->size != smc_req_size) { pr_err("si_smc: Bogus length %zu in firmware \"%s\"\n", rdev->smc_fw->size, fw_name); err = -EINVAL; } } else { err = radeon_ucode_validate(rdev->smc_fw); if (err) { pr_err("si_cp: validation failed for firmware \"%s\"\n", fw_name); goto out; } else { new_fw++; } } if (new_fw == 0) { rdev->new_fw = false; } else if (new_fw < 6) { pr_err("si_fw: mixing new and old firmware!\n"); err = -EINVAL; } else { rdev->new_fw = true; } out: if (err) { if (err != -EINVAL) pr_err("si_cp: Failed to load firmware \"%s\"\n", fw_name); release_firmware(rdev->pfp_fw); rdev->pfp_fw = NULL; release_firmware(rdev->me_fw); rdev->me_fw = NULL; release_firmware(rdev->ce_fw); rdev->ce_fw = NULL; release_firmware(rdev->rlc_fw); rdev->rlc_fw = NULL; release_firmware(rdev->mc_fw); rdev->mc_fw = NULL; release_firmware(rdev->smc_fw); rdev->smc_fw = NULL; } return err; } /* watermark setup */ static u32 dce6_line_buffer_adjust(struct radeon_device *rdev, struct radeon_crtc *radeon_crtc, struct drm_display_mode *mode, struct drm_display_mode *other_mode) { u32 tmp, buffer_alloc, i; u32 pipe_offset = radeon_crtc->crtc_id * 0x20; /* * Line Buffer Setup * There are 3 line buffers, each one shared by 2 display controllers. * DC_LB_MEMORY_SPLIT controls how that line buffer is shared between * the display controllers. The paritioning is done via one of four * preset allocations specified in bits 21:20: * 0 - half lb * 2 - whole lb, other crtc must be disabled */ /* this can get tricky if we have two large displays on a paired group * of crtcs. Ideally for multiple large displays we'd assign them to * non-linked crtcs for maximum line buffer allocation. */ if (radeon_crtc->base.enabled && mode) { if (other_mode) { tmp = 0; /* 1/2 */ buffer_alloc = 1; } else { tmp = 2; /* whole */ buffer_alloc = 2; } } else { tmp = 0; buffer_alloc = 0; } WREG32(DC_LB_MEMORY_SPLIT + radeon_crtc->crtc_offset, DC_LB_MEMORY_CONFIG(tmp)); WREG32(PIPE0_DMIF_BUFFER_CONTROL + pipe_offset, DMIF_BUFFERS_ALLOCATED(buffer_alloc)); for (i = 0; i < rdev->usec_timeout; i++) { if (RREG32(PIPE0_DMIF_BUFFER_CONTROL + pipe_offset) & DMIF_BUFFERS_ALLOCATED_COMPLETED) break; udelay(1); } if (radeon_crtc->base.enabled && mode) { switch (tmp) { case 0: default: return 4096 * 2; case 2: return 8192 * 2; } } /* controller not enabled, so no lb used */ return 0; } static u32 si_get_number_of_dram_channels(struct radeon_device *rdev) { u32 tmp = RREG32(MC_SHARED_CHMAP); switch ((tmp & NOOFCHAN_MASK) >> NOOFCHAN_SHIFT) { case 0: default: return 1; case 1: return 2; case 2: return 4; case 3: return 8; case 4: return 3; case 5: return 6; case 6: return 10; case 7: return 12; case 8: return 16; } } struct dce6_wm_params { u32 dram_channels; /* number of dram channels */ u32 yclk; /* bandwidth per dram data pin in kHz */ u32 sclk; /* engine clock in kHz */ u32 disp_clk; /* display clock in kHz */ u32 src_width; /* viewport width */ u32 active_time; /* active display time in ns */ u32 blank_time; /* blank time in ns */ bool interlaced; /* mode is interlaced */ fixed20_12 vsc; /* vertical scale ratio */ u32 num_heads; /* number of active crtcs */ u32 bytes_per_pixel; /* bytes per pixel display + overlay */ u32 lb_size; /* line buffer allocated to pipe */ u32 vtaps; /* vertical scaler taps */ }; static u32 dce6_dram_bandwidth(struct dce6_wm_params *wm) { /* Calculate raw DRAM Bandwidth */ fixed20_12 dram_efficiency; /* 0.7 */ fixed20_12 yclk, dram_channels, bandwidth; fixed20_12 a; a.full = dfixed_const(1000); yclk.full = dfixed_const(wm->yclk); yclk.full = dfixed_div(yclk, a); dram_channels.full = dfixed_const(wm->dram_channels * 4); a.full = dfixed_const(10); dram_efficiency.full = dfixed_const(7); dram_efficiency.full = dfixed_div(dram_efficiency, a); bandwidth.full = dfixed_mul(dram_channels, yclk); bandwidth.full = dfixed_mul(bandwidth, dram_efficiency); return dfixed_trunc(bandwidth); } static u32 dce6_dram_bandwidth_for_display(struct dce6_wm_params *wm) { /* Calculate DRAM Bandwidth and the part allocated to display. */ fixed20_12 disp_dram_allocation; /* 0.3 to 0.7 */ fixed20_12 yclk, dram_channels, bandwidth; fixed20_12 a; a.full = dfixed_const(1000); yclk.full = dfixed_const(wm->yclk); yclk.full = dfixed_div(yclk, a); dram_channels.full = dfixed_const(wm->dram_channels * 4); a.full = dfixed_const(10); disp_dram_allocation.full = dfixed_const(3); /* XXX worse case value 0.3 */ disp_dram_allocation.full = dfixed_div(disp_dram_allocation, a); bandwidth.full = dfixed_mul(dram_channels, yclk); bandwidth.full = dfixed_mul(bandwidth, disp_dram_allocation); return dfixed_trunc(bandwidth); } static u32 dce6_data_return_bandwidth(struct dce6_wm_params *wm) { /* Calculate the display Data return Bandwidth */ fixed20_12 return_efficiency; /* 0.8 */ fixed20_12 sclk, bandwidth; fixed20_12 a; a.full = dfixed_const(1000); sclk.full = dfixed_const(wm->sclk); sclk.full = dfixed_div(sclk, a); a.full = dfixed_const(10); return_efficiency.full = dfixed_const(8); return_efficiency.full = dfixed_div(return_efficiency, a); a.full = dfixed_const(32); bandwidth.full = dfixed_mul(a, sclk); bandwidth.full = dfixed_mul(bandwidth, return_efficiency); return dfixed_trunc(bandwidth); } static u32 dce6_get_dmif_bytes_per_request(struct dce6_wm_params *wm) { return 32; } static u32 dce6_dmif_request_bandwidth(struct dce6_wm_params *wm) { /* Calculate the DMIF Request Bandwidth */ fixed20_12 disp_clk_request_efficiency; /* 0.8 */ fixed20_12 disp_clk, sclk, bandwidth; fixed20_12 a, b1, b2; u32 min_bandwidth; a.full = dfixed_const(1000); disp_clk.full = dfixed_const(wm->disp_clk); disp_clk.full = dfixed_div(disp_clk, a); a.full = dfixed_const(dce6_get_dmif_bytes_per_request(wm) / 2); b1.full = dfixed_mul(a, disp_clk); a.full = dfixed_const(1000); sclk.full = dfixed_const(wm->sclk); sclk.full = dfixed_div(sclk, a); a.full = dfixed_const(dce6_get_dmif_bytes_per_request(wm)); b2.full = dfixed_mul(a, sclk); a.full = dfixed_const(10); disp_clk_request_efficiency.full = dfixed_const(8); disp_clk_request_efficiency.full = dfixed_div(disp_clk_request_efficiency, a); min_bandwidth = min(dfixed_trunc(b1), dfixed_trunc(b2)); a.full = dfixed_const(min_bandwidth); bandwidth.full = dfixed_mul(a, disp_clk_request_efficiency); return dfixed_trunc(bandwidth); } static u32 dce6_available_bandwidth(struct dce6_wm_params *wm) { /* Calculate the Available bandwidth. Display can use this temporarily but not in average. */ u32 dram_bandwidth = dce6_dram_bandwidth(wm); u32 data_return_bandwidth = dce6_data_return_bandwidth(wm); u32 dmif_req_bandwidth = dce6_dmif_request_bandwidth(wm); return min(dram_bandwidth, min(data_return_bandwidth, dmif_req_bandwidth)); } static u32 dce6_average_bandwidth(struct dce6_wm_params *wm) { /* Calculate the display mode Average Bandwidth * DisplayMode should contain the source and destination dimensions, * timing, etc. */ fixed20_12 bpp; fixed20_12 line_time; fixed20_12 src_width; fixed20_12 bandwidth; fixed20_12 a; a.full = dfixed_const(1000); line_time.full = dfixed_const(wm->active_time + wm->blank_time); line_time.full = dfixed_div(line_time, a); bpp.full = dfixed_const(wm->bytes_per_pixel); src_width.full = dfixed_const(wm->src_width); bandwidth.full = dfixed_mul(src_width, bpp); bandwidth.full = dfixed_mul(bandwidth, wm->vsc); bandwidth.full = dfixed_div(bandwidth, line_time); return dfixed_trunc(bandwidth); } static u32 dce6_latency_watermark(struct dce6_wm_params *wm) { /* First calcualte the latency in ns */ u32 mc_latency = 2000; /* 2000 ns. */ u32 available_bandwidth = dce6_available_bandwidth(wm); u32 worst_chunk_return_time = (512 * 8 * 1000) / available_bandwidth; u32 cursor_line_pair_return_time = (128 * 4 * 1000) / available_bandwidth; u32 dc_latency = 40000000 / wm->disp_clk; /* dc pipe latency */ u32 other_heads_data_return_time = ((wm->num_heads + 1) * worst_chunk_return_time) + (wm->num_heads * cursor_line_pair_return_time); u32 latency = mc_latency + other_heads_data_return_time + dc_latency; u32 max_src_lines_per_dst_line, lb_fill_bw, line_fill_time; u32 tmp, dmif_size = 12288; fixed20_12 a, b, c; if (wm->num_heads == 0) return 0; a.full = dfixed_const(2); b.full = dfixed_const(1); if ((wm->vsc.full > a.full) || ((wm->vsc.full > b.full) && (wm->vtaps >= 3)) || (wm->vtaps >= 5) || ((wm->vsc.full >= a.full) && wm->interlaced)) max_src_lines_per_dst_line = 4; else max_src_lines_per_dst_line = 2; a.full = dfixed_const(available_bandwidth); b.full = dfixed_const(wm->num_heads); a.full = dfixed_div(a, b); tmp = div_u64((u64) dmif_size * (u64) wm->disp_clk, mc_latency + 512); tmp = min(dfixed_trunc(a), tmp); lb_fill_bw = min(tmp, wm->disp_clk * wm->bytes_per_pixel / 1000); a.full = dfixed_const(max_src_lines_per_dst_line * wm->src_width * wm->bytes_per_pixel); b.full = dfixed_const(1000); c.full = dfixed_const(lb_fill_bw); b.full = dfixed_div(c, b); a.full = dfixed_div(a, b); line_fill_time = dfixed_trunc(a); if (line_fill_time < wm->active_time) return latency; else return latency + (line_fill_time - wm->active_time); } static bool dce6_average_bandwidth_vs_dram_bandwidth_for_display(struct dce6_wm_params *wm) { if (dce6_average_bandwidth(wm) <= (dce6_dram_bandwidth_for_display(wm) / wm->num_heads)) return true; else return false; }; static bool dce6_average_bandwidth_vs_available_bandwidth(struct dce6_wm_params *wm) { if (dce6_average_bandwidth(wm) <= (dce6_available_bandwidth(wm) / wm->num_heads)) return true; else return false; }; static bool dce6_check_latency_hiding(struct dce6_wm_params *wm) { u32 lb_partitions = wm->lb_size / wm->src_width; u32 line_time = wm->active_time + wm->blank_time; u32 latency_tolerant_lines; u32 latency_hiding; fixed20_12 a; a.full = dfixed_const(1); if (wm->vsc.full > a.full) latency_tolerant_lines = 1; else { if (lb_partitions <= (wm->vtaps + 1)) latency_tolerant_lines = 1; else latency_tolerant_lines = 2; } latency_hiding = (latency_tolerant_lines * line_time + wm->blank_time); if (dce6_latency_watermark(wm) <= latency_hiding) return true; else return false; } static void dce6_program_watermarks(struct radeon_device *rdev, struct radeon_crtc *radeon_crtc, u32 lb_size, u32 num_heads) { struct drm_display_mode *mode = &radeon_crtc->base.mode; struct dce6_wm_params wm_low, wm_high; u32 dram_channels; u32 active_time; u32 line_time = 0; u32 latency_watermark_a = 0, latency_watermark_b = 0; u32 priority_a_mark = 0, priority_b_mark = 0; u32 priority_a_cnt = PRIORITY_OFF; u32 priority_b_cnt = PRIORITY_OFF; u32 tmp, arb_control3; fixed20_12 a, b, c; if (radeon_crtc->base.enabled && num_heads && mode) { active_time = (u32) div_u64((u64)mode->crtc_hdisplay * 1000000, (u32)mode->clock); line_time = (u32) div_u64((u64)mode->crtc_htotal * 1000000, (u32)mode->clock); line_time = min(line_time, (u32)65535); priority_a_cnt = 0; priority_b_cnt = 0; if (rdev->family == CHIP_ARUBA) dram_channels = evergreen_get_number_of_dram_channels(rdev); else dram_channels = si_get_number_of_dram_channels(rdev); /* watermark for high clocks */ if ((rdev->pm.pm_method == PM_METHOD_DPM) && rdev->pm.dpm_enabled) { wm_high.yclk = radeon_dpm_get_mclk(rdev, false) * 10; wm_high.sclk = radeon_dpm_get_sclk(rdev, false) * 10; } else { wm_high.yclk = rdev->pm.current_mclk * 10; wm_high.sclk = rdev->pm.current_sclk * 10; } wm_high.disp_clk = mode->clock; wm_high.src_width = mode->crtc_hdisplay; wm_high.active_time = active_time; wm_high.blank_time = line_time - wm_high.active_time; wm_high.interlaced = false; if (mode->flags & DRM_MODE_FLAG_INTERLACE) wm_high.interlaced = true; wm_high.vsc = radeon_crtc->vsc; wm_high.vtaps = 1; if (radeon_crtc->rmx_type != RMX_OFF) wm_high.vtaps = 2; wm_high.bytes_per_pixel = 4; /* XXX: get this from fb config */ wm_high.lb_size = lb_size; wm_high.dram_channels = dram_channels; wm_high.num_heads = num_heads; /* watermark for low clocks */ if ((rdev->pm.pm_method == PM_METHOD_DPM) && rdev->pm.dpm_enabled) { wm_low.yclk = radeon_dpm_get_mclk(rdev, true) * 10; wm_low.sclk = radeon_dpm_get_sclk(rdev, true) * 10; } else { wm_low.yclk = rdev->pm.current_mclk * 10; wm_low.sclk = rdev->pm.current_sclk * 10; } wm_low.disp_clk = mode->clock; wm_low.src_width = mode->crtc_hdisplay; wm_low.active_time = active_time; wm_low.blank_time = line_time - wm_low.active_time; wm_low.interlaced = false; if (mode->flags & DRM_MODE_FLAG_INTERLACE) wm_low.interlaced = true; wm_low.vsc = radeon_crtc->vsc; wm_low.vtaps = 1; if (radeon_crtc->rmx_type != RMX_OFF) wm_low.vtaps = 2; wm_low.bytes_per_pixel = 4; /* XXX: get this from fb config */ wm_low.lb_size = lb_size; wm_low.dram_channels = dram_channels; wm_low.num_heads = num_heads; /* set for high clocks */ latency_watermark_a = min(dce6_latency_watermark(&wm_high), (u32)65535); /* set for low clocks */ latency_watermark_b = min(dce6_latency_watermark(&wm_low), (u32)65535); /* possibly force display priority to high */ /* should really do this at mode validation time... */ if (!dce6_average_bandwidth_vs_dram_bandwidth_for_display(&wm_high) || !dce6_average_bandwidth_vs_available_bandwidth(&wm_high) || !dce6_check_latency_hiding(&wm_high) || (rdev->disp_priority == 2)) { DRM_DEBUG_KMS("force priority to high\n"); priority_a_cnt |= PRIORITY_ALWAYS_ON; priority_b_cnt |= PRIORITY_ALWAYS_ON; } if (!dce6_average_bandwidth_vs_dram_bandwidth_for_display(&wm_low) || !dce6_average_bandwidth_vs_available_bandwidth(&wm_low) || !dce6_check_latency_hiding(&wm_low) || (rdev->disp_priority == 2)) { DRM_DEBUG_KMS("force priority to high\n"); priority_a_cnt |= PRIORITY_ALWAYS_ON; priority_b_cnt |= PRIORITY_ALWAYS_ON; } a.full = dfixed_const(1000); b.full = dfixed_const(mode->clock); b.full = dfixed_div(b, a); c.full = dfixed_const(latency_watermark_a); c.full = dfixed_mul(c, b); c.full = dfixed_mul(c, radeon_crtc->hsc); c.full = dfixed_div(c, a); a.full = dfixed_const(16); c.full = dfixed_div(c, a); priority_a_mark = dfixed_trunc(c); priority_a_cnt |= priority_a_mark & PRIORITY_MARK_MASK; a.full = dfixed_const(1000); b.full = dfixed_const(mode->clock); b.full = dfixed_div(b, a); c.full = dfixed_const(latency_watermark_b); c.full = dfixed_mul(c, b); c.full = dfixed_mul(c, radeon_crtc->hsc); c.full = dfixed_div(c, a); a.full = dfixed_const(16); c.full = dfixed_div(c, a); priority_b_mark = dfixed_trunc(c); priority_b_cnt |= priority_b_mark & PRIORITY_MARK_MASK; /* Save number of lines the linebuffer leads before the scanout */ radeon_crtc->lb_vblank_lead_lines = DIV_ROUND_UP(lb_size, mode->crtc_hdisplay); } /* select wm A */ arb_control3 = RREG32(DPG_PIPE_ARBITRATION_CONTROL3 + radeon_crtc->crtc_offset); tmp = arb_control3; tmp &= ~LATENCY_WATERMARK_MASK(3); tmp |= LATENCY_WATERMARK_MASK(1); WREG32(DPG_PIPE_ARBITRATION_CONTROL3 + radeon_crtc->crtc_offset, tmp); WREG32(DPG_PIPE_LATENCY_CONTROL + radeon_crtc->crtc_offset, (LATENCY_LOW_WATERMARK(latency_watermark_a) | LATENCY_HIGH_WATERMARK(line_time))); /* select wm B */ tmp = RREG32(DPG_PIPE_ARBITRATION_CONTROL3 + radeon_crtc->crtc_offset); tmp &= ~LATENCY_WATERMARK_MASK(3); tmp |= LATENCY_WATERMARK_MASK(2); WREG32(DPG_PIPE_ARBITRATION_CONTROL3 + radeon_crtc->crtc_offset, tmp); WREG32(DPG_PIPE_LATENCY_CONTROL + radeon_crtc->crtc_offset, (LATENCY_LOW_WATERMARK(latency_watermark_b) | LATENCY_HIGH_WATERMARK(line_time))); /* restore original selection */ WREG32(DPG_PIPE_ARBITRATION_CONTROL3 + radeon_crtc->crtc_offset, arb_control3); /* write the priority marks */ WREG32(PRIORITY_A_CNT + radeon_crtc->crtc_offset, priority_a_cnt); WREG32(PRIORITY_B_CNT + radeon_crtc->crtc_offset, priority_b_cnt); /* save values for DPM */ radeon_crtc->line_time = line_time; radeon_crtc->wm_high = latency_watermark_a; radeon_crtc->wm_low = latency_watermark_b; } void dce6_bandwidth_update(struct radeon_device *rdev) { struct drm_display_mode *mode0 = NULL; struct drm_display_mode *mode1 = NULL; u32 num_heads = 0, lb_size; int i; if (!rdev->mode_info.mode_config_initialized) return; radeon_update_display_priority(rdev); for (i = 0; i < rdev->num_crtc; i++) { if (rdev->mode_info.crtcs[i]->base.enabled) num_heads++; } for (i = 0; i < rdev->num_crtc; i += 2) { mode0 = &rdev->mode_info.crtcs[i]->base.mode; mode1 = &rdev->mode_info.crtcs[i+1]->base.mode; lb_size = dce6_line_buffer_adjust(rdev, rdev->mode_info.crtcs[i], mode0, mode1); dce6_program_watermarks(rdev, rdev->mode_info.crtcs[i], lb_size, num_heads); lb_size = dce6_line_buffer_adjust(rdev, rdev->mode_info.crtcs[i+1], mode1, mode0); dce6_program_watermarks(rdev, rdev->mode_info.crtcs[i+1], lb_size, num_heads); } } /* * Core functions */ static void si_tiling_mode_table_init(struct radeon_device *rdev) { u32 *tile = rdev->config.si.tile_mode_array; const u32 num_tile_mode_states = ARRAY_SIZE(rdev->config.si.tile_mode_array); u32 reg_offset, split_equal_to_row_size; switch (rdev->config.si.mem_row_size_in_kb) { case 1: split_equal_to_row_size = ADDR_SURF_TILE_SPLIT_1KB; break; case 2: default: split_equal_to_row_size = ADDR_SURF_TILE_SPLIT_2KB; break; case 4: split_equal_to_row_size = ADDR_SURF_TILE_SPLIT_4KB; break; } for (reg_offset = 0; reg_offset < num_tile_mode_states; reg_offset++) tile[reg_offset] = 0; switch(rdev->family) { case CHIP_TAHITI: case CHIP_PITCAIRN: /* non-AA compressed depth or any compressed stencil */ tile[0] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_64B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* 2xAA/4xAA compressed depth only */ tile[1] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_128B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* 8xAA compressed depth only */ tile[2] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* 2xAA/4xAA compressed depth with stencil (for depth buffer) */ tile[3] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_128B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Maps w/ a dimension less than the 2D macro-tile dimensions (for mipmapped depth textures) */ tile[4] = (ARRAY_MODE(ARRAY_1D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_64B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Uncompressed 16bpp depth - and stencil buffer allocated with it */ tile[5] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(split_equal_to_row_size) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Uncompressed 32bpp depth - and stencil buffer allocated with it */ tile[6] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(split_equal_to_row_size) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_1) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_1)); /* Uncompressed 8bpp stencil without depth (drivers typically do not use) */ tile[7] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(split_equal_to_row_size) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* 1D and 1D Array Surfaces */ tile[8] = (ARRAY_MODE(ARRAY_LINEAR_ALIGNED) | MICRO_TILE_MODE(ADDR_SURF_DISPLAY_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_64B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Displayable maps. */ tile[9] = (ARRAY_MODE(ARRAY_1D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DISPLAY_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_64B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Display 8bpp. */ tile[10] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DISPLAY_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Display 16bpp. */ tile[11] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DISPLAY_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Display 32bpp. */ tile[12] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DISPLAY_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_512B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_1) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_1)); /* Thin. */ tile[13] = (ARRAY_MODE(ARRAY_1D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_64B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Thin 8 bpp. */ tile[14] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_1)); /* Thin 16 bpp. */ tile[15] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_1)); /* Thin 32 bpp. */ tile[16] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_512B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_1) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_1)); /* Thin 64 bpp. */ tile[17] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(split_equal_to_row_size) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_1) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_1)); /* 8 bpp PRT. */ tile[21] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_2) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* 16 bpp PRT */ tile[22] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_4)); /* 32 bpp PRT */ tile[23] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* 64 bpp PRT */ tile[24] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_512B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_1) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* 128 bpp PRT */ tile[25] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_1KB) | NUM_BANKS(ADDR_SURF_8_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_1) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_1)); for (reg_offset = 0; reg_offset < num_tile_mode_states; reg_offset++) WREG32(GB_TILE_MODE0 + (reg_offset * 4), tile[reg_offset]); break; case CHIP_VERDE: case CHIP_OLAND: case CHIP_HAINAN: /* non-AA compressed depth or any compressed stencil */ tile[0] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_64B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_4)); /* 2xAA/4xAA compressed depth only */ tile[1] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_128B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_4)); /* 8xAA compressed depth only */ tile[2] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_4)); /* 2xAA/4xAA compressed depth with stencil (for depth buffer) */ tile[3] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_128B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_4)); /* Maps w/ a dimension less than the 2D macro-tile dimensions (for mipmapped depth textures) */ tile[4] = (ARRAY_MODE(ARRAY_1D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_64B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Uncompressed 16bpp depth - and stencil buffer allocated with it */ tile[5] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(split_equal_to_row_size) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Uncompressed 32bpp depth - and stencil buffer allocated with it */ tile[6] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(split_equal_to_row_size) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_1) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Uncompressed 8bpp stencil without depth (drivers typically do not use) */ tile[7] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DEPTH_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(split_equal_to_row_size) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_4)); /* 1D and 1D Array Surfaces */ tile[8] = (ARRAY_MODE(ARRAY_LINEAR_ALIGNED) | MICRO_TILE_MODE(ADDR_SURF_DISPLAY_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_64B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Displayable maps. */ tile[9] = (ARRAY_MODE(ARRAY_1D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DISPLAY_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_64B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Display 8bpp. */ tile[10] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DISPLAY_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_4)); /* Display 16bpp. */ tile[11] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DISPLAY_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Display 32bpp. */ tile[12] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_DISPLAY_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_512B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_1) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Thin. */ tile[13] = (ARRAY_MODE(ARRAY_1D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_64B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Thin 8 bpp. */ tile[14] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Thin 16 bpp. */ tile[15] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Thin 32 bpp. */ tile[16] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_512B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_1) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* Thin 64 bpp. */ tile[17] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P4_8x16) | TILE_SPLIT(split_equal_to_row_size) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_1) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* 8 bpp PRT. */ tile[21] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_2) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* 16 bpp PRT */ tile[22] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_4) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_4)); /* 32 bpp PRT */ tile[23] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_256B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_2) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* 64 bpp PRT */ tile[24] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_512B) | NUM_BANKS(ADDR_SURF_16_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_1) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_2)); /* 128 bpp PRT */ tile[25] = (ARRAY_MODE(ARRAY_2D_TILED_THIN1) | MICRO_TILE_MODE(ADDR_SURF_THIN_MICRO_TILING) | PIPE_CONFIG(ADDR_SURF_P8_32x32_8x16) | TILE_SPLIT(ADDR_SURF_TILE_SPLIT_1KB) | NUM_BANKS(ADDR_SURF_8_BANK) | BANK_WIDTH(ADDR_SURF_BANK_WIDTH_1) | BANK_HEIGHT(ADDR_SURF_BANK_HEIGHT_1) | MACRO_TILE_ASPECT(ADDR_SURF_MACRO_ASPECT_1)); for (reg_offset = 0; reg_offset < num_tile_mode_states; reg_offset++) WREG32(GB_TILE_MODE0 + (reg_offset * 4), tile[reg_offset]); break; default: DRM_ERROR("unknown asic: 0x%x\n", rdev->family); } } static void si_select_se_sh(struct radeon_device *rdev, u32 se_num, u32 sh_num) { u32 data = INSTANCE_BROADCAST_WRITES; if ((se_num == 0xffffffff) && (sh_num == 0xffffffff)) data |= SH_BROADCAST_WRITES | SE_BROADCAST_WRITES; else if (se_num == 0xffffffff) data |= SE_BROADCAST_WRITES | SH_INDEX(sh_num); else if (sh_num == 0xffffffff) data |= SH_BROADCAST_WRITES | SE_INDEX(se_num); else data |= SH_INDEX(sh_num) | SE_INDEX(se_num); WREG32(GRBM_GFX_INDEX, data); } static u32 si_create_bitmask(u32 bit_width) { u32 i, mask = 0; for (i = 0; i < bit_width; i++) { mask <<= 1; mask |= 1; } return mask; } static u32 si_get_cu_enabled(struct radeon_device *rdev, u32 cu_per_sh) { u32 data, mask; data = RREG32(CC_GC_SHADER_ARRAY_CONFIG); if (data & 1) data &= INACTIVE_CUS_MASK; else data = 0; data |= RREG32(GC_USER_SHADER_ARRAY_CONFIG); data >>= INACTIVE_CUS_SHIFT; mask = si_create_bitmask(cu_per_sh); return ~data & mask; } static void si_setup_spi(struct radeon_device *rdev, u32 se_num, u32 sh_per_se, u32 cu_per_sh) { int i, j, k; u32 data, mask, active_cu; for (i = 0; i < se_num; i++) { for (j = 0; j < sh_per_se; j++) { si_select_se_sh(rdev, i, j); data = RREG32(SPI_STATIC_THREAD_MGMT_3); active_cu = si_get_cu_enabled(rdev, cu_per_sh); mask = 1; for (k = 0; k < 16; k++) { mask <<= k; if (active_cu & mask) { data &= ~mask; WREG32(SPI_STATIC_THREAD_MGMT_3, data); break; } } } } si_select_se_sh(rdev, 0xffffffff, 0xffffffff); } static u32 si_get_rb_disabled(struct radeon_device *rdev, u32 max_rb_num_per_se, u32 sh_per_se) { u32 data, mask; data = RREG32(CC_RB_BACKEND_DISABLE); if (data & 1) data &= BACKEND_DISABLE_MASK; else data = 0; data |= RREG32(GC_USER_RB_BACKEND_DISABLE); data >>= BACKEND_DISABLE_SHIFT; mask = si_create_bitmask(max_rb_num_per_se / sh_per_se); return data & mask; } static void si_setup_rb(struct radeon_device *rdev, u32 se_num, u32 sh_per_se, u32 max_rb_num_per_se) { int i, j; u32 data, mask; u32 disabled_rbs = 0; u32 enabled_rbs = 0; for (i = 0; i < se_num; i++) { for (j = 0; j < sh_per_se; j++) { si_select_se_sh(rdev, i, j); data = si_get_rb_disabled(rdev, max_rb_num_per_se, sh_per_se); disabled_rbs |= data << ((i * sh_per_se + j) * TAHITI_RB_BITMAP_WIDTH_PER_SH); } } si_select_se_sh(rdev, 0xffffffff, 0xffffffff); mask = 1; for (i = 0; i < max_rb_num_per_se * se_num; i++) { if (!(disabled_rbs & mask)) enabled_rbs |= mask; mask <<= 1; } rdev->config.si.backend_enable_mask = enabled_rbs; for (i = 0; i < se_num; i++) { si_select_se_sh(rdev, i, 0xffffffff); data = 0; for (j = 0; j < sh_per_se; j++) { switch (enabled_rbs & 3) { case 1: data |= (RASTER_CONFIG_RB_MAP_0 << (i * sh_per_se + j) * 2); break; case 2: data |= (RASTER_CONFIG_RB_MAP_3 << (i * sh_per_se + j) * 2); break; case 3: default: data |= (RASTER_CONFIG_RB_MAP_2 << (i * sh_per_se + j) * 2); break; } enabled_rbs >>= 2; } WREG32(PA_SC_RASTER_CONFIG, data); } si_select_se_sh(rdev, 0xffffffff, 0xffffffff); } static void si_gpu_init(struct radeon_device *rdev) { u32 gb_addr_config = 0; u32 mc_arb_ramcfg; u32 sx_debug_1; u32 hdp_host_path_cntl; u32 tmp; int i, j; switch (rdev->family) { case CHIP_TAHITI: rdev->config.si.max_shader_engines = 2; rdev->config.si.max_tile_pipes = 12; rdev->config.si.max_cu_per_sh = 8; rdev->config.si.max_sh_per_se = 2; rdev->config.si.max_backends_per_se = 4; rdev->config.si.max_texture_channel_caches = 12; rdev->config.si.max_gprs = 256; rdev->config.si.max_gs_threads = 32; rdev->config.si.max_hw_contexts = 8; rdev->config.si.sc_prim_fifo_size_frontend = 0x20; rdev->config.si.sc_prim_fifo_size_backend = 0x100; rdev->config.si.sc_hiz_tile_fifo_size = 0x30; rdev->config.si.sc_earlyz_tile_fifo_size = 0x130; gb_addr_config = TAHITI_GB_ADDR_CONFIG_GOLDEN; break; case CHIP_PITCAIRN: rdev->config.si.max_shader_engines = 2; rdev->config.si.max_tile_pipes = 8; rdev->config.si.max_cu_per_sh = 5; rdev->config.si.max_sh_per_se = 2; rdev->config.si.max_backends_per_se = 4; rdev->config.si.max_texture_channel_caches = 8; rdev->config.si.max_gprs = 256; rdev->config.si.max_gs_threads = 32; rdev->config.si.max_hw_contexts = 8; rdev->config.si.sc_prim_fifo_size_frontend = 0x20; rdev->config.si.sc_prim_fifo_size_backend = 0x100; rdev->config.si.sc_hiz_tile_fifo_size = 0x30; rdev->config.si.sc_earlyz_tile_fifo_size = 0x130; gb_addr_config = TAHITI_GB_ADDR_CONFIG_GOLDEN; break; case CHIP_VERDE: default: rdev->config.si.max_shader_engines = 1; rdev->config.si.max_tile_pipes = 4; rdev->config.si.max_cu_per_sh = 5; rdev->config.si.max_sh_per_se = 2; rdev->config.si.max_backends_per_se = 4; rdev->config.si.max_texture_channel_caches = 4; rdev->config.si.max_gprs = 256; rdev->config.si.max_gs_threads = 32; rdev->config.si.max_hw_contexts = 8; rdev->config.si.sc_prim_fifo_size_frontend = 0x20; rdev->config.si.sc_prim_fifo_size_backend = 0x40; rdev->config.si.sc_hiz_tile_fifo_size = 0x30; rdev->config.si.sc_earlyz_tile_fifo_size = 0x130; gb_addr_config = VERDE_GB_ADDR_CONFIG_GOLDEN; break; case CHIP_OLAND: rdev->config.si.max_shader_engines = 1; rdev->config.si.max_tile_pipes = 4; rdev->config.si.max_cu_per_sh = 6; rdev->config.si.max_sh_per_se = 1; rdev->config.si.max_backends_per_se = 2; rdev->config.si.max_texture_channel_caches = 4; rdev->config.si.max_gprs = 256; rdev->config.si.max_gs_threads = 16; rdev->config.si.max_hw_contexts = 8; rdev->config.si.sc_prim_fifo_size_frontend = 0x20; rdev->config.si.sc_prim_fifo_size_backend = 0x40; rdev->config.si.sc_hiz_tile_fifo_size = 0x30; rdev->config.si.sc_earlyz_tile_fifo_size = 0x130; gb_addr_config = VERDE_GB_ADDR_CONFIG_GOLDEN; break; case CHIP_HAINAN: rdev->config.si.max_shader_engines = 1; rdev->config.si.max_tile_pipes = 4; rdev->config.si.max_cu_per_sh = 5; rdev->config.si.max_sh_per_se = 1; rdev->config.si.max_backends_per_se = 1; rdev->config.si.max_texture_channel_caches = 2; rdev->config.si.max_gprs = 256; rdev->config.si.max_gs_threads = 16; rdev->config.si.max_hw_contexts = 8; rdev->config.si.sc_prim_fifo_size_frontend = 0x20; rdev->config.si.sc_prim_fifo_size_backend = 0x40; rdev->config.si.sc_hiz_tile_fifo_size = 0x30; rdev->config.si.sc_earlyz_tile_fifo_size = 0x130; gb_addr_config = HAINAN_GB_ADDR_CONFIG_GOLDEN; break; } /* Initialize HDP */ for (i = 0, j = 0; i < 32; i++, j += 0x18) { WREG32((0x2c14 + j), 0x00000000); WREG32((0x2c18 + j), 0x00000000); WREG32((0x2c1c + j), 0x00000000); WREG32((0x2c20 + j), 0x00000000); WREG32((0x2c24 + j), 0x00000000); } WREG32(GRBM_CNTL, GRBM_READ_TIMEOUT(0xff)); WREG32(SRBM_INT_CNTL, 1); WREG32(SRBM_INT_ACK, 1); evergreen_fix_pci_max_read_req_size(rdev); WREG32(BIF_FB_EN, FB_READ_EN | FB_WRITE_EN); RREG32(MC_SHARED_CHMAP); mc_arb_ramcfg = RREG32(MC_ARB_RAMCFG); rdev->config.si.num_tile_pipes = rdev->config.si.max_tile_pipes; rdev->config.si.mem_max_burst_length_bytes = 256; tmp = (mc_arb_ramcfg & NOOFCOLS_MASK) >> NOOFCOLS_SHIFT; rdev->config.si.mem_row_size_in_kb = (4 * (1 << (8 + tmp))) / 1024; if (rdev->config.si.mem_row_size_in_kb > 4) rdev->config.si.mem_row_size_in_kb = 4; /* XXX use MC settings? */ rdev->config.si.shader_engine_tile_size = 32; rdev->config.si.num_gpus = 1; rdev->config.si.multi_gpu_tile_size = 64; /* fix up row size */ gb_addr_config &= ~ROW_SIZE_MASK; switch (rdev->config.si.mem_row_size_in_kb) { case 1: default: gb_addr_config |= ROW_SIZE(0); break; case 2: gb_addr_config |= ROW_SIZE(1); break; case 4: gb_addr_config |= ROW_SIZE(2); break; } /* setup tiling info dword. gb_addr_config is not adequate since it does * not have bank info, so create a custom tiling dword. * bits 3:0 num_pipes * bits 7:4 num_banks * bits 11:8 group_size * bits 15:12 row_size */ rdev->config.si.tile_config = 0; switch (rdev->config.si.num_tile_pipes) { case 1: rdev->config.si.tile_config |= (0 << 0); break; case 2: rdev->config.si.tile_config |= (1 << 0); break; case 4: rdev->config.si.tile_config |= (2 << 0); break; case 8: default: /* XXX what about 12? */ rdev->config.si.tile_config |= (3 << 0); break; } switch ((mc_arb_ramcfg & NOOFBANK_MASK) >> NOOFBANK_SHIFT) { case 0: /* four banks */ rdev->config.si.tile_config |= 0 << 4; break; case 1: /* eight banks */ rdev->config.si.tile_config |= 1 << 4; break; case 2: /* sixteen banks */ default: rdev->config.si.tile_config |= 2 << 4; break; } rdev->config.si.tile_config |= ((gb_addr_config & PIPE_INTERLEAVE_SIZE_MASK) >> PIPE_INTERLEAVE_SIZE_SHIFT) << 8; rdev->config.si.tile_config |= ((gb_addr_config & ROW_SIZE_MASK) >> ROW_SIZE_SHIFT) << 12; WREG32(GB_ADDR_CONFIG, gb_addr_config); WREG32(DMIF_ADDR_CONFIG, gb_addr_config); WREG32(DMIF_ADDR_CALC, gb_addr_config); WREG32(HDP_ADDR_CONFIG, gb_addr_config); WREG32(DMA_TILING_CONFIG + DMA0_REGISTER_OFFSET, gb_addr_config); WREG32(DMA_TILING_CONFIG + DMA1_REGISTER_OFFSET, gb_addr_config); if (rdev->has_uvd) { WREG32(UVD_UDEC_ADDR_CONFIG, gb_addr_config); WREG32(UVD_UDEC_DB_ADDR_CONFIG, gb_addr_config); WREG32(UVD_UDEC_DBW_ADDR_CONFIG, gb_addr_config); } si_tiling_mode_table_init(rdev); si_setup_rb(rdev, rdev->config.si.max_shader_engines, rdev->config.si.max_sh_per_se, rdev->config.si.max_backends_per_se); si_setup_spi(rdev, rdev->config.si.max_shader_engines, rdev->config.si.max_sh_per_se, rdev->config.si.max_cu_per_sh); rdev->config.si.active_cus = 0; for (i = 0; i < rdev->config.si.max_shader_engines; i++) { for (j = 0; j < rdev->config.si.max_sh_per_se; j++) { rdev->config.si.active_cus += hweight32(si_get_cu_active_bitmap(rdev, i, j)); } } /* set HW defaults for 3D engine */ WREG32(CP_QUEUE_THRESHOLDS, (ROQ_IB1_START(0x16) | ROQ_IB2_START(0x2b))); WREG32(CP_MEQ_THRESHOLDS, MEQ1_START(0x30) | MEQ2_START(0x60)); sx_debug_1 = RREG32(SX_DEBUG_1); WREG32(SX_DEBUG_1, sx_debug_1); WREG32(SPI_CONFIG_CNTL_1, VTX_DONE_DELAY(4)); WREG32(PA_SC_FIFO_SIZE, (SC_FRONTEND_PRIM_FIFO_SIZE(rdev->config.si.sc_prim_fifo_size_frontend) | SC_BACKEND_PRIM_FIFO_SIZE(rdev->config.si.sc_prim_fifo_size_backend) | SC_HIZ_TILE_FIFO_SIZE(rdev->config.si.sc_hiz_tile_fifo_size) | SC_EARLYZ_TILE_FIFO_SIZE(rdev->config.si.sc_earlyz_tile_fifo_size))); WREG32(VGT_NUM_INSTANCES, 1); WREG32(CP_PERFMON_CNTL, 0); WREG32(SQ_CONFIG, 0); WREG32(PA_SC_FORCE_EOV_MAX_CNTS, (FORCE_EOV_MAX_CLK_CNT(4095) | FORCE_EOV_MAX_REZ_CNT(255))); WREG32(VGT_CACHE_INVALIDATION, CACHE_INVALIDATION(VC_AND_TC) | AUTO_INVLD_EN(ES_AND_GS_AUTO)); WREG32(VGT_GS_VERTEX_REUSE, 16); WREG32(PA_SC_LINE_STIPPLE_STATE, 0); WREG32(CB_PERFCOUNTER0_SELECT0, 0); WREG32(CB_PERFCOUNTER0_SELECT1, 0); WREG32(CB_PERFCOUNTER1_SELECT0, 0); WREG32(CB_PERFCOUNTER1_SELECT1, 0); WREG32(CB_PERFCOUNTER2_SELECT0, 0); WREG32(CB_PERFCOUNTER2_SELECT1, 0); WREG32(CB_PERFCOUNTER3_SELECT0, 0); WREG32(CB_PERFCOUNTER3_SELECT1, 0); tmp = RREG32(HDP_MISC_CNTL); tmp |= HDP_FLUSH_INVALIDATE_CACHE; WREG32(HDP_MISC_CNTL, tmp); hdp_host_path_cntl = RREG32(HDP_HOST_PATH_CNTL); WREG32(HDP_HOST_PATH_CNTL, hdp_host_path_cntl); WREG32(PA_CL_ENHANCE, CLIP_VTX_REORDER_ENA | NUM_CLIP_SEQ(3)); udelay(50); } /* * GPU scratch registers helpers function. */ static void si_scratch_init(struct radeon_device *rdev) { int i; rdev->scratch.num_reg = 7; rdev->scratch.reg_base = SCRATCH_REG0; for (i = 0; i < rdev->scratch.num_reg; i++) { rdev->scratch.free[i] = true; rdev->scratch.reg[i] = rdev->scratch.reg_base + (i * 4); } } void si_fence_ring_emit(struct radeon_device *rdev, struct radeon_fence *fence) { struct radeon_ring *ring = &rdev->ring[fence->ring]; u64 addr = rdev->fence_drv[fence->ring].gpu_addr; /* flush read cache over gart */ radeon_ring_write(ring, PACKET3(PACKET3_SET_CONFIG_REG, 1)); radeon_ring_write(ring, (CP_COHER_CNTL2 - PACKET3_SET_CONFIG_REG_START) >> 2); radeon_ring_write(ring, 0); radeon_ring_write(ring, PACKET3(PACKET3_SURFACE_SYNC, 3)); radeon_ring_write(ring, PACKET3_TCL1_ACTION_ENA | PACKET3_TC_ACTION_ENA | PACKET3_SH_KCACHE_ACTION_ENA | PACKET3_SH_ICACHE_ACTION_ENA); radeon_ring_write(ring, 0xFFFFFFFF); radeon_ring_write(ring, 0); radeon_ring_write(ring, 10); /* poll interval */ /* EVENT_WRITE_EOP - flush caches, send int */ radeon_ring_write(ring, PACKET3(PACKET3_EVENT_WRITE_EOP, 4)); radeon_ring_write(ring, EVENT_TYPE(CACHE_FLUSH_AND_INV_TS_EVENT) | EVENT_INDEX(5)); radeon_ring_write(ring, lower_32_bits(addr)); radeon_ring_write(ring, (upper_32_bits(addr) & 0xff) | DATA_SEL(1) | INT_SEL(2)); radeon_ring_write(ring, fence->seq); radeon_ring_write(ring, 0); } /* * IB stuff */ void si_ring_ib_execute(struct radeon_device *rdev, struct radeon_ib *ib) { struct radeon_ring *ring = &rdev->ring[ib->ring]; unsigned vm_id = ib->vm ? ib->vm->ids[ib->ring].id : 0; u32 header; if (ib->is_const_ib) { /* set switch buffer packet before const IB */ radeon_ring_write(ring, PACKET3(PACKET3_SWITCH_BUFFER, 0)); radeon_ring_write(ring, 0); header = PACKET3(PACKET3_INDIRECT_BUFFER_CONST, 2); } else { u32 next_rptr; if (ring->rptr_save_reg) { next_rptr = ring->wptr + 3 + 4 + 8; radeon_ring_write(ring, PACKET3(PACKET3_SET_CONFIG_REG, 1)); radeon_ring_write(ring, ((ring->rptr_save_reg - PACKET3_SET_CONFIG_REG_START) >> 2)); radeon_ring_write(ring, next_rptr); } else if (rdev->wb.enabled) { next_rptr = ring->wptr + 5 + 4 + 8; radeon_ring_write(ring, PACKET3(PACKET3_WRITE_DATA, 3)); radeon_ring_write(ring, (1 << 8)); radeon_ring_write(ring, ring->next_rptr_gpu_addr & 0xfffffffc); radeon_ring_write(ring, upper_32_bits(ring->next_rptr_gpu_addr)); radeon_ring_write(ring, next_rptr); } header = PACKET3(PACKET3_INDIRECT_BUFFER, 2); } radeon_ring_write(ring, header); radeon_ring_write(ring, #ifdef __BIG_ENDIAN (2 << 0) | #endif (ib->gpu_addr & 0xFFFFFFFC)); radeon_ring_write(ring, upper_32_bits(ib->gpu_addr) & 0xFFFF); radeon_ring_write(ring, ib->length_dw | (vm_id << 24)); if (!ib->is_const_ib) { /* flush read cache over gart for this vmid */ radeon_ring_write(ring, PACKET3(PACKET3_SET_CONFIG_REG, 1)); radeon_ring_write(ring, (CP_COHER_CNTL2 - PACKET3_SET_CONFIG_REG_START) >> 2); radeon_ring_write(ring, vm_id); radeon_ring_write(ring, PACKET3(PACKET3_SURFACE_SYNC, 3)); radeon_ring_write(ring, PACKET3_TCL1_ACTION_ENA | PACKET3_TC_ACTION_ENA | PACKET3_SH_KCACHE_ACTION_ENA | PACKET3_SH_ICACHE_ACTION_ENA); radeon_ring_write(ring, 0xFFFFFFFF); radeon_ring_write(ring, 0); radeon_ring_write(ring, 10); /* poll interval */ } } /* * CP. */ static void si_cp_enable(struct radeon_device *rdev, bool enable) { if (enable) WREG32(CP_ME_CNTL, 0); else { if (rdev->asic->copy.copy_ring_index == RADEON_RING_TYPE_GFX_INDEX) radeon_ttm_set_active_vram_size(rdev, rdev->mc.visible_vram_size); WREG32(CP_ME_CNTL, (CP_ME_HALT | CP_PFP_HALT | CP_CE_HALT)); WREG32(SCRATCH_UMSK, 0); rdev->ring[RADEON_RING_TYPE_GFX_INDEX].ready = false; rdev->ring[CAYMAN_RING_TYPE_CP1_INDEX].ready = false; rdev->ring[CAYMAN_RING_TYPE_CP2_INDEX].ready = false; } udelay(50); } static int si_cp_load_microcode(struct radeon_device *rdev) { int i; if (!rdev->me_fw || !rdev->pfp_fw || !rdev->ce_fw) return -EINVAL; si_cp_enable(rdev, false); if (rdev->new_fw) { const struct gfx_firmware_header_v1_0 *pfp_hdr = (const struct gfx_firmware_header_v1_0 *)rdev->pfp_fw->data; const struct gfx_firmware_header_v1_0 *ce_hdr = (const struct gfx_firmware_header_v1_0 *)rdev->ce_fw->data; const struct gfx_firmware_header_v1_0 *me_hdr = (const struct gfx_firmware_header_v1_0 *)rdev->me_fw->data; const __le32 *fw_data; u32 fw_size; radeon_ucode_print_gfx_hdr(&pfp_hdr->header); radeon_ucode_print_gfx_hdr(&ce_hdr->header); radeon_ucode_print_gfx_hdr(&me_hdr->header); /* PFP */ fw_data = (const __le32 *) (rdev->pfp_fw->data + le32_to_cpu(pfp_hdr->header.ucode_array_offset_bytes)); fw_size = le32_to_cpu(pfp_hdr->header.ucode_size_bytes) / 4; WREG32(CP_PFP_UCODE_ADDR, 0); for (i = 0; i < fw_size; i++) WREG32(CP_PFP_UCODE_DATA, le32_to_cpup(fw_data++)); WREG32(CP_PFP_UCODE_ADDR, 0); /* CE */ fw_data = (const __le32 *) (rdev->ce_fw->data + le32_to_cpu(ce_hdr->header.ucode_array_offset_bytes)); fw_size = le32_to_cpu(ce_hdr->header.ucode_size_bytes) / 4; WREG32(CP_CE_UCODE_ADDR, 0); for (i = 0; i < fw_size; i++) WREG32(CP_CE_UCODE_DATA, le32_to_cpup(fw_data++)); WREG32(CP_CE_UCODE_ADDR, 0); /* ME */ fw_data = (const __be32 *) (rdev->me_fw->data + le32_to_cpu(me_hdr->header.ucode_array_offset_bytes)); fw_size = le32_to_cpu(me_hdr->header.ucode_size_bytes) / 4; WREG32(CP_ME_RAM_WADDR, 0); for (i = 0; i < fw_size; i++) WREG32(CP_ME_RAM_DATA, le32_to_cpup(fw_data++)); WREG32(CP_ME_RAM_WADDR, 0); } else { const __be32 *fw_data; /* PFP */ fw_data = (const __be32 *)rdev->pfp_fw->data; WREG32(CP_PFP_UCODE_ADDR, 0); for (i = 0; i < SI_PFP_UCODE_SIZE; i++) WREG32(CP_PFP_UCODE_DATA, be32_to_cpup(fw_data++)); WREG32(CP_PFP_UCODE_ADDR, 0); /* CE */ fw_data = (const __be32 *)rdev->ce_fw->data; WREG32(CP_CE_UCODE_ADDR, 0); for (i = 0; i < SI_CE_UCODE_SIZE; i++) WREG32(CP_CE_UCODE_DATA, be32_to_cpup(fw_data++)); WREG32(CP_CE_UCODE_ADDR, 0); /* ME */ fw_data = (const __be32 *)rdev->me_fw->data; WREG32(CP_ME_RAM_WADDR, 0); for (i = 0; i < SI_PM4_UCODE_SIZE; i++) WREG32(CP_ME_RAM_DATA, be32_to_cpup(fw_data++)); WREG32(CP_ME_RAM_WADDR, 0); } WREG32(CP_PFP_UCODE_ADDR, 0); WREG32(CP_CE_UCODE_ADDR, 0); WREG32(CP_ME_RAM_WADDR, 0); WREG32(CP_ME_RAM_RADDR, 0); return 0; } static int si_cp_start(struct radeon_device *rdev) { struct radeon_ring *ring = &rdev->ring[RADEON_RING_TYPE_GFX_INDEX]; int r, i; r = radeon_ring_lock(rdev, ring, 7 + 4); if (r) { DRM_ERROR("radeon: cp failed to lock ring (%d).\n", r); return r; } /* init the CP */ radeon_ring_write(ring, PACKET3(PACKET3_ME_INITIALIZE, 5)); radeon_ring_write(ring, 0x1); radeon_ring_write(ring, 0x0); radeon_ring_write(ring, rdev->config.si.max_hw_contexts - 1); radeon_ring_write(ring, PACKET3_ME_INITIALIZE_DEVICE_ID(1)); radeon_ring_write(ring, 0); radeon_ring_write(ring, 0); /* init the CE partitions */ radeon_ring_write(ring, PACKET3(PACKET3_SET_BASE, 2)); radeon_ring_write(ring, PACKET3_BASE_INDEX(CE_PARTITION_BASE)); radeon_ring_write(ring, 0xc000); radeon_ring_write(ring, 0xe000); radeon_ring_unlock_commit(rdev, ring, false); si_cp_enable(rdev, true); r = radeon_ring_lock(rdev, ring, si_default_size + 10); if (r) { DRM_ERROR("radeon: cp failed to lock ring (%d).\n", r); return r; } /* setup clear context state */ radeon_ring_write(ring, PACKET3(PACKET3_PREAMBLE_CNTL, 0)); radeon_ring_write(ring, PACKET3_PREAMBLE_BEGIN_CLEAR_STATE); for (i = 0; i < si_default_size; i++) radeon_ring_write(ring, si_default_state[i]); radeon_ring_write(ring, PACKET3(PACKET3_PREAMBLE_CNTL, 0)); radeon_ring_write(ring, PACKET3_PREAMBLE_END_CLEAR_STATE); /* set clear context state */ radeon_ring_write(ring, PACKET3(PACKET3_CLEAR_STATE, 0)); radeon_ring_write(ring, 0); radeon_ring_write(ring, PACKET3(PACKET3_SET_CONTEXT_REG, 2)); radeon_ring_write(ring, 0x00000316); radeon_ring_write(ring, 0x0000000e); /* VGT_VERTEX_REUSE_BLOCK_CNTL */ radeon_ring_write(ring, 0x00000010); /* VGT_OUT_DEALLOC_CNTL */ radeon_ring_unlock_commit(rdev, ring, false); for (i = RADEON_RING_TYPE_GFX_INDEX; i <= CAYMAN_RING_TYPE_CP2_INDEX; ++i) { ring = &rdev->ring[i]; r = radeon_ring_lock(rdev, ring, 2); /* clear the compute context state */ radeon_ring_write(ring, PACKET3_COMPUTE(PACKET3_CLEAR_STATE, 0)); radeon_ring_write(ring, 0); radeon_ring_unlock_commit(rdev, ring, false); } return 0; } static void si_cp_fini(struct radeon_device *rdev) { struct radeon_ring *ring; si_cp_enable(rdev, false); ring = &rdev->ring[RADEON_RING_TYPE_GFX_INDEX]; radeon_ring_fini(rdev, ring); radeon_scratch_free(rdev, ring->rptr_save_reg); ring = &rdev->ring[CAYMAN_RING_TYPE_CP1_INDEX]; radeon_ring_fini(rdev, ring); radeon_scratch_free(rdev, ring->rptr_save_reg); ring = &rdev->ring[CAYMAN_RING_TYPE_CP2_INDEX]; radeon_ring_fini(rdev, ring); radeon_scratch_free(rdev, ring->rptr_save_reg); } static int si_cp_resume(struct radeon_device *rdev) { struct radeon_ring *ring; u32 tmp; u32 rb_bufsz; int r; si_enable_gui_idle_interrupt(rdev, false); WREG32(CP_SEM_WAIT_TIMER, 0x0); WREG32(CP_SEM_INCOMPLETE_TIMER_CNTL, 0x0); /* Set the write pointer delay */ WREG32(CP_RB_WPTR_DELAY, 0); WREG32(CP_DEBUG, 0); WREG32(SCRATCH_ADDR, ((rdev->wb.gpu_addr + RADEON_WB_SCRATCH_OFFSET) >> 8) & 0xFFFFFFFF); /* ring 0 - compute and gfx */ /* Set ring buffer size */ ring = &rdev->ring[RADEON_RING_TYPE_GFX_INDEX]; rb_bufsz = order_base_2(ring->ring_size / 8); tmp = (order_base_2(RADEON_GPU_PAGE_SIZE/8) << 8) | rb_bufsz; #ifdef __BIG_ENDIAN tmp |= BUF_SWAP_32BIT; #endif WREG32(CP_RB0_CNTL, tmp); /* Initialize the ring buffer's read and write pointers */ WREG32(CP_RB0_CNTL, tmp | RB_RPTR_WR_ENA); ring->wptr = 0; WREG32(CP_RB0_WPTR, ring->wptr); /* set the wb address whether it's enabled or not */ WREG32(CP_RB0_RPTR_ADDR, (rdev->wb.gpu_addr + RADEON_WB_CP_RPTR_OFFSET) & 0xFFFFFFFC); WREG32(CP_RB0_RPTR_ADDR_HI, upper_32_bits(rdev->wb.gpu_addr + RADEON_WB_CP_RPTR_OFFSET) & 0xFF); if (rdev->wb.enabled) WREG32(SCRATCH_UMSK, 0xff); else { tmp |= RB_NO_UPDATE; WREG32(SCRATCH_UMSK, 0); } mdelay(1); WREG32(CP_RB0_CNTL, tmp); WREG32(CP_RB0_BASE, ring->gpu_addr >> 8); /* ring1 - compute only */ /* Set ring buffer size */ ring = &rdev->ring[CAYMAN_RING_TYPE_CP1_INDEX]; rb_bufsz = order_base_2(ring->ring_size / 8); tmp = (order_base_2(RADEON_GPU_PAGE_SIZE/8) << 8) | rb_bufsz; #ifdef __BIG_ENDIAN tmp |= BUF_SWAP_32BIT; #endif WREG32(CP_RB1_CNTL, tmp); /* Initialize the ring buffer's read and write pointers */ WREG32(CP_RB1_CNTL, tmp | RB_RPTR_WR_ENA); ring->wptr = 0; WREG32(CP_RB1_WPTR, ring->wptr); /* set the wb address whether it's enabled or not */ WREG32(CP_RB1_RPTR_ADDR, (rdev->wb.gpu_addr + RADEON_WB_CP1_RPTR_OFFSET) & 0xFFFFFFFC); WREG32(CP_RB1_RPTR_ADDR_HI, upper_32_bits(rdev->wb.gpu_addr + RADEON_WB_CP1_RPTR_OFFSET) & 0xFF); mdelay(1); WREG32(CP_RB1_CNTL, tmp); WREG32(CP_RB1_BASE, ring->gpu_addr >> 8); /* ring2 - compute only */ /* Set ring buffer size */ ring = &rdev->ring[CAYMAN_RING_TYPE_CP2_INDEX]; rb_bufsz = order_base_2(ring->ring_size / 8); tmp = (order_base_2(RADEON_GPU_PAGE_SIZE/8) << 8) | rb_bufsz; #ifdef __BIG_ENDIAN tmp |= BUF_SWAP_32BIT; #endif WREG32(CP_RB2_CNTL, tmp); /* Initialize the ring buffer's read and write pointers */ WREG32(CP_RB2_CNTL, tmp | RB_RPTR_WR_ENA); ring->wptr = 0; WREG32(CP_RB2_WPTR, ring->wptr); /* set the wb address whether it's enabled or not */ WREG32(CP_RB2_RPTR_ADDR, (rdev->wb.gpu_addr + RADEON_WB_CP2_RPTR_OFFSET) & 0xFFFFFFFC); WREG32(CP_RB2_RPTR_ADDR_HI, upper_32_bits(rdev->wb.gpu_addr + RADEON_WB_CP2_RPTR_OFFSET) & 0xFF); mdelay(1); WREG32(CP_RB2_CNTL, tmp); WREG32(CP_RB2_BASE, ring->gpu_addr >> 8); /* start the rings */ si_cp_start(rdev); rdev->ring[RADEON_RING_TYPE_GFX_INDEX].ready = true; rdev->ring[CAYMAN_RING_TYPE_CP1_INDEX].ready = true; rdev->ring[CAYMAN_RING_TYPE_CP2_INDEX].ready = true; r = radeon_ring_test(rdev, RADEON_RING_TYPE_GFX_INDEX, &rdev->ring[RADEON_RING_TYPE_GFX_INDEX]); if (r) { rdev->ring[RADEON_RING_TYPE_GFX_INDEX].ready = false; rdev->ring[CAYMAN_RING_TYPE_CP1_INDEX].ready = false; rdev->ring[CAYMAN_RING_TYPE_CP2_INDEX].ready = false; return r; } r = radeon_ring_test(rdev, CAYMAN_RING_TYPE_CP1_INDEX, &rdev->ring[CAYMAN_RING_TYPE_CP1_INDEX]); if (r) { rdev->ring[CAYMAN_RING_TYPE_CP1_INDEX].ready = false; } r = radeon_ring_test(rdev, CAYMAN_RING_TYPE_CP2_INDEX, &rdev->ring[CAYMAN_RING_TYPE_CP2_INDEX]); if (r) { rdev->ring[CAYMAN_RING_TYPE_CP2_INDEX].ready = false; } si_enable_gui_idle_interrupt(rdev, true); if (rdev->asic->copy.copy_ring_index == RADEON_RING_TYPE_GFX_INDEX) radeon_ttm_set_active_vram_size(rdev, rdev->mc.real_vram_size); return 0; } u32 si_gpu_check_soft_reset(struct radeon_device *rdev) { u32 reset_mask = 0; u32 tmp; /* GRBM_STATUS */ tmp = RREG32(GRBM_STATUS); if (tmp & (PA_BUSY | SC_BUSY | BCI_BUSY | SX_BUSY | TA_BUSY | VGT_BUSY | DB_BUSY | CB_BUSY | GDS_BUSY | SPI_BUSY | IA_BUSY | IA_BUSY_NO_DMA)) reset_mask |= RADEON_RESET_GFX; if (tmp & (CF_RQ_PENDING | PF_RQ_PENDING | CP_BUSY | CP_COHERENCY_BUSY)) reset_mask |= RADEON_RESET_CP; if (tmp & GRBM_EE_BUSY) reset_mask |= RADEON_RESET_GRBM | RADEON_RESET_GFX | RADEON_RESET_CP; /* GRBM_STATUS2 */ tmp = RREG32(GRBM_STATUS2); if (tmp & (RLC_RQ_PENDING | RLC_BUSY)) reset_mask |= RADEON_RESET_RLC; /* DMA_STATUS_REG 0 */ tmp = RREG32(DMA_STATUS_REG + DMA0_REGISTER_OFFSET); if (!(tmp & DMA_IDLE)) reset_mask |= RADEON_RESET_DMA; /* DMA_STATUS_REG 1 */ tmp = RREG32(DMA_STATUS_REG + DMA1_REGISTER_OFFSET); if (!(tmp & DMA_IDLE)) reset_mask |= RADEON_RESET_DMA1; /* SRBM_STATUS2 */ tmp = RREG32(SRBM_STATUS2); if (tmp & DMA_BUSY) reset_mask |= RADEON_RESET_DMA; if (tmp & DMA1_BUSY) reset_mask |= RADEON_RESET_DMA1; /* SRBM_STATUS */ tmp = RREG32(SRBM_STATUS); if (tmp & IH_BUSY) reset_mask |= RADEON_RESET_IH; if (tmp & SEM_BUSY) reset_mask |= RADEON_RESET_SEM; if (tmp & GRBM_RQ_PENDING) reset_mask |= RADEON_RESET_GRBM; if (tmp & VMC_BUSY) reset_mask |= RADEON_RESET_VMC; if (tmp & (MCB_BUSY | MCB_NON_DISPLAY_BUSY | MCC_BUSY | MCD_BUSY)) reset_mask |= RADEON_RESET_MC; if (evergreen_is_display_hung(rdev)) reset_mask |= RADEON_RESET_DISPLAY; /* VM_L2_STATUS */ tmp = RREG32(VM_L2_STATUS); if (tmp & L2_BUSY) reset_mask |= RADEON_RESET_VMC; /* Skip MC reset as it's mostly likely not hung, just busy */ if (reset_mask & RADEON_RESET_MC) { DRM_DEBUG("MC busy: 0x%08X, clearing.\n", reset_mask); reset_mask &= ~RADEON_RESET_MC; } return reset_mask; } static void si_gpu_soft_reset(struct radeon_device *rdev, u32 reset_mask) { struct evergreen_mc_save save; u32 grbm_soft_reset = 0, srbm_soft_reset = 0; u32 tmp; if (reset_mask == 0) return; dev_info(rdev->dev, "GPU softreset: 0x%08X\n", reset_mask); evergreen_print_gpu_status_regs(rdev); dev_info(rdev->dev, " VM_CONTEXT1_PROTECTION_FAULT_ADDR 0x%08X\n", RREG32(VM_CONTEXT1_PROTECTION_FAULT_ADDR)); dev_info(rdev->dev, " VM_CONTEXT1_PROTECTION_FAULT_STATUS 0x%08X\n", RREG32(VM_CONTEXT1_PROTECTION_FAULT_STATUS)); /* disable PG/CG */ si_fini_pg(rdev); si_fini_cg(rdev); /* stop the rlc */ si_rlc_stop(rdev); /* Disable CP parsing/prefetching */ WREG32(CP_ME_CNTL, CP_ME_HALT | CP_PFP_HALT | CP_CE_HALT); if (reset_mask & RADEON_RESET_DMA) { /* dma0 */ tmp = RREG32(DMA_RB_CNTL + DMA0_REGISTER_OFFSET); tmp &= ~DMA_RB_ENABLE; WREG32(DMA_RB_CNTL + DMA0_REGISTER_OFFSET, tmp); } if (reset_mask & RADEON_RESET_DMA1) { /* dma1 */ tmp = RREG32(DMA_RB_CNTL + DMA1_REGISTER_OFFSET); tmp &= ~DMA_RB_ENABLE; WREG32(DMA_RB_CNTL + DMA1_REGISTER_OFFSET, tmp); } udelay(50); evergreen_mc_stop(rdev, &save); if (evergreen_mc_wait_for_idle(rdev)) { dev_warn(rdev->dev, "Wait for MC idle timedout !\n"); } if (reset_mask & (RADEON_RESET_GFX | RADEON_RESET_COMPUTE | RADEON_RESET_CP)) { grbm_soft_reset = SOFT_RESET_CB | SOFT_RESET_DB | SOFT_RESET_GDS | SOFT_RESET_PA | SOFT_RESET_SC | SOFT_RESET_BCI | SOFT_RESET_SPI | SOFT_RESET_SX | SOFT_RESET_TC | SOFT_RESET_TA | SOFT_RESET_VGT | SOFT_RESET_IA; } if (reset_mask & RADEON_RESET_CP) { grbm_soft_reset |= SOFT_RESET_CP | SOFT_RESET_VGT; srbm_soft_reset |= SOFT_RESET_GRBM; } if (reset_mask & RADEON_RESET_DMA) srbm_soft_reset |= SOFT_RESET_DMA; if (reset_mask & RADEON_RESET_DMA1) srbm_soft_reset |= SOFT_RESET_DMA1; if (reset_mask & RADEON_RESET_DISPLAY) srbm_soft_reset |= SOFT_RESET_DC; if (reset_mask & RADEON_RESET_RLC) grbm_soft_reset |= SOFT_RESET_RLC; if (reset_mask & RADEON_RESET_SEM) srbm_soft_reset |= SOFT_RESET_SEM; if (reset_mask & RADEON_RESET_IH) srbm_soft_reset |= SOFT_RESET_IH; if (reset_mask & RADEON_RESET_GRBM) srbm_soft_reset |= SOFT_RESET_GRBM; if (reset_mask & RADEON_RESET_VMC) srbm_soft_reset |= SOFT_RESET_VMC; if (reset_mask & RADEON_RESET_MC) srbm_soft_reset |= SOFT_RESET_MC; if (grbm_soft_reset) { tmp = RREG32(GRBM_SOFT_RESET); tmp |= grbm_soft_reset; dev_info(rdev->dev, "GRBM_SOFT_RESET=0x%08X\n", tmp); WREG32(GRBM_SOFT_RESET, tmp); tmp = RREG32(GRBM_SOFT_RESET); udelay(50); tmp &= ~grbm_soft_reset; WREG32(GRBM_SOFT_RESET, tmp); tmp = RREG32(GRBM_SOFT_RESET); } if (srbm_soft_reset) { tmp = RREG32(SRBM_SOFT_RESET); tmp |= srbm_soft_reset; dev_info(rdev->dev, "SRBM_SOFT_RESET=0x%08X\n", tmp); WREG32(SRBM_SOFT_RESET, tmp); tmp = RREG32(SRBM_SOFT_RESET); udelay(50); tmp &= ~srbm_soft_reset; WREG32(SRBM_SOFT_RESET, tmp); tmp = RREG32(SRBM_SOFT_RESET); } /* Wait a little for things to settle down */ udelay(50); evergreen_mc_resume(rdev, &save); udelay(50); evergreen_print_gpu_status_regs(rdev); } static void si_set_clk_bypass_mode(struct radeon_device *rdev) { u32 tmp, i; tmp = RREG32(CG_SPLL_FUNC_CNTL); tmp |= SPLL_BYPASS_EN; WREG32(CG_SPLL_FUNC_CNTL, tmp); tmp = RREG32(CG_SPLL_FUNC_CNTL_2); tmp |= SPLL_CTLREQ_CHG; WREG32(CG_SPLL_FUNC_CNTL_2, tmp); for (i = 0; i < rdev->usec_timeout; i++) { if (RREG32(SPLL_STATUS) & SPLL_CHG_STATUS) break; udelay(1); } tmp = RREG32(CG_SPLL_FUNC_CNTL_2); tmp &= ~(SPLL_CTLREQ_CHG | SCLK_MUX_UPDATE); WREG32(CG_SPLL_FUNC_CNTL_2, tmp); tmp = RREG32(MPLL_CNTL_MODE); tmp &= ~MPLL_MCLK_SEL; WREG32(MPLL_CNTL_MODE, tmp); } static void si_spll_powerdown(struct radeon_device *rdev) { u32 tmp; tmp = RREG32(SPLL_CNTL_MODE); tmp |= SPLL_SW_DIR_CONTROL; WREG32(SPLL_CNTL_MODE, tmp); tmp = RREG32(CG_SPLL_FUNC_CNTL); tmp |= SPLL_RESET; WREG32(CG_SPLL_FUNC_CNTL, tmp); tmp = RREG32(CG_SPLL_FUNC_CNTL); tmp |= SPLL_SLEEP; WREG32(CG_SPLL_FUNC_CNTL, tmp); tmp = RREG32(SPLL_CNTL_MODE); tmp &= ~SPLL_SW_DIR_CONTROL; WREG32(SPLL_CNTL_MODE, tmp); } static void si_gpu_pci_config_reset(struct radeon_device *rdev) { struct evergreen_mc_save save; u32 tmp, i; dev_info(rdev->dev, "GPU pci config reset\n"); /* disable dpm? */ /* disable cg/pg */ si_fini_pg(rdev); si_fini_cg(rdev); /* Disable CP parsing/prefetching */ WREG32(CP_ME_CNTL, CP_ME_HALT | CP_PFP_HALT | CP_CE_HALT); /* dma0 */ tmp = RREG32(DMA_RB_CNTL + DMA0_REGISTER_OFFSET); tmp &= ~DMA_RB_ENABLE; WREG32(DMA_RB_CNTL + DMA0_REGISTER_OFFSET, tmp); /* dma1 */ tmp = RREG32(DMA_RB_CNTL + DMA1_REGISTER_OFFSET); tmp &= ~DMA_RB_ENABLE; WREG32(DMA_RB_CNTL + DMA1_REGISTER_OFFSET, tmp); /* XXX other engines? */ /* halt the rlc, disable cp internal ints */ si_rlc_stop(rdev); udelay(50); /* disable mem access */ evergreen_mc_stop(rdev, &save); if (evergreen_mc_wait_for_idle(rdev)) { dev_warn(rdev->dev, "Wait for MC idle timed out !\n"); } /* set mclk/sclk to bypass */ si_set_clk_bypass_mode(rdev); /* powerdown spll */ si_spll_powerdown(rdev); /* disable BM */ pci_clear_master(rdev->pdev); /* reset */ radeon_pci_config_reset(rdev); /* wait for asic to come out of reset */ for (i = 0; i < rdev->usec_timeout; i++) { if (RREG32(CONFIG_MEMSIZE) != 0xffffffff) break; udelay(1); } } int si_asic_reset(struct radeon_device *rdev, bool hard) { u32 reset_mask; if (hard) { si_gpu_pci_config_reset(rdev); return 0; } reset_mask = si_gpu_check_soft_reset(rdev); if (reset_mask) r600_set_bios_scratch_engine_hung(rdev, true); /* try soft reset */ si_gpu_soft_reset(rdev, reset_mask); reset_mask = si_gpu_check_soft_reset(rdev); /* try pci config reset */ if (reset_mask && radeon_hard_reset) si_gpu_pci_config_reset(rdev); reset_mask = si_gpu_check_soft_reset(rdev); if (!reset_mask) r600_set_bios_scratch_engine_hung(rdev, false); return 0; } /** * si_gfx_is_lockup - Check if the GFX engine is locked up * * @rdev: radeon_device pointer * @ring: radeon_ring structure holding ring information * * Check if the GFX engine is locked up. * Returns true if the engine appears to be locked up, false if not. */ bool si_gfx_is_lockup(struct radeon_device *rdev, struct radeon_ring *ring) { u32 reset_mask = si_gpu_check_soft_reset(rdev); if (!(reset_mask & (RADEON_RESET_GFX | RADEON_RESET_COMPUTE | RADEON_RESET_CP))) { radeon_ring_lockup_update(rdev, ring); return false; } return radeon_ring_test_lockup(rdev, ring); } /* MC */ static void si_mc_program(struct radeon_device *rdev) { struct evergreen_mc_save save; u32 tmp; int i, j; /* Initialize HDP */ for (i = 0, j = 0; i < 32; i++, j += 0x18) { WREG32((0x2c14 + j), 0x00000000); WREG32((0x2c18 + j), 0x00000000); WREG32((0x2c1c + j), 0x00000000); WREG32((0x2c20 + j), 0x00000000); WREG32((0x2c24 + j), 0x00000000); } WREG32(HDP_REG_COHERENCY_FLUSH_CNTL, 0); evergreen_mc_stop(rdev, &save); if (radeon_mc_wait_for_idle(rdev)) { dev_warn(rdev->dev, "Wait for MC idle timedout !\n"); } if (!ASIC_IS_NODCE(rdev)) /* Lockout access through VGA aperture*/ WREG32(VGA_HDP_CONTROL, VGA_MEMORY_DISABLE); /* Update configuration */ WREG32(MC_VM_SYSTEM_APERTURE_LOW_ADDR, rdev->mc.vram_start >> 12); WREG32(MC_VM_SYSTEM_APERTURE_HIGH_ADDR, rdev->mc.vram_end >> 12); WREG32(MC_VM_SYSTEM_APERTURE_DEFAULT_ADDR, rdev->vram_scratch.gpu_addr >> 12); tmp = ((rdev->mc.vram_end >> 24) & 0xFFFF) << 16; tmp |= ((rdev->mc.vram_start >> 24) & 0xFFFF); WREG32(MC_VM_FB_LOCATION, tmp); /* XXX double check these! */ WREG32(HDP_NONSURFACE_BASE, (rdev->mc.vram_start >> 8)); WREG32(HDP_NONSURFACE_INFO, (2 << 7) | (1 << 30)); WREG32(HDP_NONSURFACE_SIZE, 0x3FFFFFFF); WREG32(MC_VM_AGP_BASE, 0); WREG32(MC_VM_AGP_TOP, 0x0FFFFFFF); WREG32(MC_VM_AGP_BOT, 0x0FFFFFFF); if (radeon_mc_wait_for_idle(rdev)) { dev_warn(rdev->dev, "Wait for MC idle timedout !\n"); } evergreen_mc_resume(rdev, &save); if (!ASIC_IS_NODCE(rdev)) { /* we need to own VRAM, so turn off the VGA renderer here * to stop it overwriting our objects */ rv515_vga_render_disable(rdev); } } void si_vram_gtt_location(struct radeon_device *rdev, struct radeon_mc *mc) { if (mc->mc_vram_size > 0xFFC0000000ULL) { /* leave room for at least 1024M GTT */ dev_warn(rdev->dev, "limiting VRAM\n"); mc->real_vram_size = 0xFFC0000000ULL; mc->mc_vram_size = 0xFFC0000000ULL; } radeon_vram_location(rdev, &rdev->mc, 0); rdev->mc.gtt_base_align = 0; radeon_gtt_location(rdev, mc); } static int si_mc_init(struct radeon_device *rdev) { u32 tmp; int chansize, numchan; /* Get VRAM informations */ rdev->mc.vram_is_ddr = true; tmp = RREG32(MC_ARB_RAMCFG); if (tmp & CHANSIZE_OVERRIDE) { chansize = 16; } else if (tmp & CHANSIZE_MASK) { chansize = 64; } else { chansize = 32; } tmp = RREG32(MC_SHARED_CHMAP); switch ((tmp & NOOFCHAN_MASK) >> NOOFCHAN_SHIFT) { case 0: default: numchan = 1; break; case 1: numchan = 2; break; case 2: numchan = 4; break; case 3: numchan = 8; break; case 4: numchan = 3; break; case 5: numchan = 6; break; case 6: numchan = 10; break; case 7: numchan = 12; break; case 8: numchan = 16; break; } rdev->mc.vram_width = numchan * chansize; /* Could aper size report 0 ? */ rdev->mc.aper_base = pci_resource_start(rdev->pdev, 0); rdev->mc.aper_size = pci_resource_len(rdev->pdev, 0); /* size in MB on si */ tmp = RREG32(CONFIG_MEMSIZE); /* some boards may have garbage in the upper 16 bits */ if (tmp & 0xffff0000) { DRM_INFO("Probable bad vram size: 0x%08x\n", tmp); if (tmp & 0xffff) tmp &= 0xffff; } rdev->mc.mc_vram_size = tmp * 1024ULL * 1024ULL; rdev->mc.real_vram_size = rdev->mc.mc_vram_size; rdev->mc.visible_vram_size = rdev->mc.aper_size; si_vram_gtt_location(rdev, &rdev->mc); radeon_update_bandwidth_info(rdev); return 0; } /* * GART */ void si_pcie_gart_tlb_flush(struct radeon_device *rdev) { /* flush hdp cache */ WREG32(HDP_MEM_COHERENCY_FLUSH_CNTL, 0x1); /* bits 0-15 are the VM contexts0-15 */ WREG32(VM_INVALIDATE_REQUEST, 1); } static int si_pcie_gart_enable(struct radeon_device *rdev) { int r, i; if (rdev->gart.robj == NULL) { dev_err(rdev->dev, "No VRAM object for PCIE GART.\n"); return -EINVAL; } r = radeon_gart_table_vram_pin(rdev); if (r) return r; /* Setup TLB control */ WREG32(MC_VM_MX_L1_TLB_CNTL, (0xA << 7) | ENABLE_L1_TLB | ENABLE_L1_FRAGMENT_PROCESSING | SYSTEM_ACCESS_MODE_NOT_IN_SYS | ENABLE_ADVANCED_DRIVER_MODEL | SYSTEM_APERTURE_UNMAPPED_ACCESS_PASS_THRU); /* Setup L2 cache */ WREG32(VM_L2_CNTL, ENABLE_L2_CACHE | ENABLE_L2_FRAGMENT_PROCESSING | ENABLE_L2_PTE_CACHE_LRU_UPDATE_BY_WRITE | ENABLE_L2_PDE0_CACHE_LRU_UPDATE_BY_WRITE | EFFECTIVE_L2_QUEUE_SIZE(7) | CONTEXT1_IDENTITY_ACCESS_MODE(1)); WREG32(VM_L2_CNTL2, INVALIDATE_ALL_L1_TLBS | INVALIDATE_L2_CACHE); WREG32(VM_L2_CNTL3, L2_CACHE_BIGK_ASSOCIATIVITY | BANK_SELECT(4) | L2_CACHE_BIGK_FRAGMENT_SIZE(4)); /* setup context0 */ WREG32(VM_CONTEXT0_PAGE_TABLE_START_ADDR, rdev->mc.gtt_start >> 12); WREG32(VM_CONTEXT0_PAGE_TABLE_END_ADDR, rdev->mc.gtt_end >> 12); WREG32(VM_CONTEXT0_PAGE_TABLE_BASE_ADDR, rdev->gart.table_addr >> 12); WREG32(VM_CONTEXT0_PROTECTION_FAULT_DEFAULT_ADDR, (u32)(rdev->dummy_page.addr >> 12)); WREG32(VM_CONTEXT0_CNTL2, 0); WREG32(VM_CONTEXT0_CNTL, (ENABLE_CONTEXT | PAGE_TABLE_DEPTH(0) | RANGE_PROTECTION_FAULT_ENABLE_DEFAULT)); WREG32(0x15D4, 0); WREG32(0x15D8, 0); WREG32(0x15DC, 0); /* empty context1-15 */ /* set vm size, must be a multiple of 4 */ WREG32(VM_CONTEXT1_PAGE_TABLE_START_ADDR, 0); WREG32(VM_CONTEXT1_PAGE_TABLE_END_ADDR, rdev->vm_manager.max_pfn - 1); /* Assign the pt base to something valid for now; the pts used for * the VMs are determined by the application and setup and assigned * on the fly in the vm part of radeon_gart.c */ for (i = 1; i < 16; i++) { if (i < 8) WREG32(VM_CONTEXT0_PAGE_TABLE_BASE_ADDR + (i << 2), rdev->vm_manager.saved_table_addr[i]); else WREG32(VM_CONTEXT8_PAGE_TABLE_BASE_ADDR + ((i - 8) << 2), rdev->vm_manager.saved_table_addr[i]); } /* enable context1-15 */ WREG32(VM_CONTEXT1_PROTECTION_FAULT_DEFAULT_ADDR, (u32)(rdev->dummy_page.addr >> 12)); WREG32(VM_CONTEXT1_CNTL2, 4); WREG32(VM_CONTEXT1_CNTL, ENABLE_CONTEXT | PAGE_TABLE_DEPTH(1) | PAGE_TABLE_BLOCK_SIZE(radeon_vm_block_size - 9) | RANGE_PROTECTION_FAULT_ENABLE_INTERRUPT | RANGE_PROTECTION_FAULT_ENABLE_DEFAULT | DUMMY_PAGE_PROTECTION_FAULT_ENABLE_INTERRUPT | DUMMY_PAGE_PROTECTION_FAULT_ENABLE_DEFAULT | PDE0_PROTECTION_FAULT_ENABLE_INTERRUPT | PDE0_PROTECTION_FAULT_ENABLE_DEFAULT | VALID_PROTECTION_FAULT_ENABLE_INTERRUPT | VALID_PROTECTION_FAULT_ENABLE_DEFAULT | READ_PROTECTION_FAULT_ENABLE_INTERRUPT | READ_PROTECTION_FAULT_ENABLE_DEFAULT | WRITE_PROTECTION_FAULT_ENABLE_INTERRUPT | WRITE_PROTECTION_FAULT_ENABLE_DEFAULT); si_pcie_gart_tlb_flush(rdev); DRM_INFO("PCIE GART of %uM enabled (table at 0x%016llX).\n", (unsigned)(rdev->mc.gtt_size >> 20), (unsigned long long)rdev->gart.table_addr); rdev->gart.ready = true; return 0; } static void si_pcie_gart_disable(struct radeon_device *rdev) { unsigned i; for (i = 1; i < 16; ++i) { uint32_t reg; if (i < 8) reg = VM_CONTEXT0_PAGE_TABLE_BASE_ADDR + (i << 2); else reg = VM_CONTEXT8_PAGE_TABLE_BASE_ADDR + ((i - 8) << 2); rdev->vm_manager.saved_table_addr[i] = RREG32(reg); } /* Disable all tables */ WREG32(VM_CONTEXT0_CNTL, 0); WREG32(VM_CONTEXT1_CNTL, 0); /* Setup TLB control */ WREG32(MC_VM_MX_L1_TLB_CNTL, SYSTEM_ACCESS_MODE_NOT_IN_SYS | SYSTEM_APERTURE_UNMAPPED_ACCESS_PASS_THRU); /* Setup L2 cache */ WREG32(VM_L2_CNTL, ENABLE_L2_PTE_CACHE_LRU_UPDATE_BY_WRITE | ENABLE_L2_PDE0_CACHE_LRU_UPDATE_BY_WRITE | EFFECTIVE_L2_QUEUE_SIZE(7) | CONTEXT1_IDENTITY_ACCESS_MODE(1)); WREG32(VM_L2_CNTL2, 0); WREG32(VM_L2_CNTL3, L2_CACHE_BIGK_ASSOCIATIVITY | L2_CACHE_BIGK_FRAGMENT_SIZE(0)); radeon_gart_table_vram_unpin(rdev); } static void si_pcie_gart_fini(struct radeon_device *rdev) { si_pcie_gart_disable(rdev); radeon_gart_table_vram_free(rdev); radeon_gart_fini(rdev); } /* vm parser */ static bool si_vm_reg_valid(u32 reg) { /* context regs are fine */ if (reg >= 0x28000) return true; /* shader regs are also fine */ if (reg >= 0xB000 && reg < 0xC000) return true; /* check config regs */ switch (reg) { case GRBM_GFX_INDEX: case CP_STRMOUT_CNTL: case VGT_VTX_VECT_EJECT_REG: case VGT_CACHE_INVALIDATION: case VGT_ESGS_RING_SIZE: case VGT_GSVS_RING_SIZE: case VGT_GS_VERTEX_REUSE: case VGT_PRIMITIVE_TYPE: case VGT_INDEX_TYPE: case VGT_NUM_INDICES: case VGT_NUM_INSTANCES: case VGT_TF_RING_SIZE: case VGT_HS_OFFCHIP_PARAM: case VGT_TF_MEMORY_BASE: case PA_CL_ENHANCE: case PA_SU_LINE_STIPPLE_VALUE: case PA_SC_LINE_STIPPLE_STATE: case PA_SC_ENHANCE: case SQC_CACHES: case SPI_STATIC_THREAD_MGMT_1: case SPI_STATIC_THREAD_MGMT_2: case SPI_STATIC_THREAD_MGMT_3: case SPI_PS_MAX_WAVE_ID: case SPI_CONFIG_CNTL: case SPI_CONFIG_CNTL_1: case TA_CNTL_AUX: case TA_CS_BC_BASE_ADDR: return true; default: DRM_ERROR("Invalid register 0x%x in CS\n", reg); return false; } } static int si_vm_packet3_ce_check(struct radeon_device *rdev, u32 *ib, struct radeon_cs_packet *pkt) { switch (pkt->opcode) { case PACKET3_NOP: case PACKET3_SET_BASE: case PACKET3_SET_CE_DE_COUNTERS: case PACKET3_LOAD_CONST_RAM: case PACKET3_WRITE_CONST_RAM: case PACKET3_WRITE_CONST_RAM_OFFSET: case PACKET3_DUMP_CONST_RAM: case PACKET3_INCREMENT_CE_COUNTER: case PACKET3_WAIT_ON_DE_COUNTER: case PACKET3_CE_WRITE: break; default: DRM_ERROR("Invalid CE packet3: 0x%x\n", pkt->opcode); return -EINVAL; } return 0; } static int si_vm_packet3_cp_dma_check(u32 *ib, u32 idx) { u32 start_reg, reg, i; u32 command = ib[idx + 4]; u32 info = ib[idx + 1]; u32 idx_value = ib[idx]; if (command & PACKET3_CP_DMA_CMD_SAS) { /* src address space is register */ if (((info & 0x60000000) >> 29) == 0) { start_reg = idx_value << 2; if (command & PACKET3_CP_DMA_CMD_SAIC) { reg = start_reg; if (!si_vm_reg_valid(reg)) { DRM_ERROR("CP DMA Bad SRC register\n"); return -EINVAL; } } else { for (i = 0; i < (command & 0x1fffff); i++) { reg = start_reg + (4 * i); if (!si_vm_reg_valid(reg)) { DRM_ERROR("CP DMA Bad SRC register\n"); return -EINVAL; } } } } } if (command & PACKET3_CP_DMA_CMD_DAS) { /* dst address space is register */ if (((info & 0x00300000) >> 20) == 0) { start_reg = ib[idx + 2]; if (command & PACKET3_CP_DMA_CMD_DAIC) { reg = start_reg; if (!si_vm_reg_valid(reg)) { DRM_ERROR("CP DMA Bad DST register\n"); return -EINVAL; } } else { for (i = 0; i < (command & 0x1fffff); i++) { reg = start_reg + (4 * i); if (!si_vm_reg_valid(reg)) { DRM_ERROR("CP DMA Bad DST register\n"); return -EINVAL; } } } } } return 0; } static int si_vm_packet3_gfx_check(struct radeon_device *rdev, u32 *ib, struct radeon_cs_packet *pkt) { int r; u32 idx = pkt->idx + 1; u32 idx_value = ib[idx]; u32 start_reg, end_reg, reg, i; switch (pkt->opcode) { case PACKET3_NOP: case PACKET3_SET_BASE: case PACKET3_CLEAR_STATE: case PACKET3_INDEX_BUFFER_SIZE: case PACKET3_DISPATCH_DIRECT: case PACKET3_DISPATCH_INDIRECT: case PACKET3_ALLOC_GDS: case PACKET3_WRITE_GDS_RAM: case PACKET3_ATOMIC_GDS: case PACKET3_ATOMIC: case PACKET3_OCCLUSION_QUERY: case PACKET3_SET_PREDICATION: case PACKET3_COND_EXEC: case PACKET3_PRED_EXEC: case PACKET3_DRAW_INDIRECT: case PACKET3_DRAW_INDEX_INDIRECT: case PACKET3_INDEX_BASE: case PACKET3_DRAW_INDEX_2: case PACKET3_CONTEXT_CONTROL: case PACKET3_INDEX_TYPE: case PACKET3_DRAW_INDIRECT_MULTI: case PACKET3_DRAW_INDEX_AUTO: case PACKET3_DRAW_INDEX_IMMD: case PACKET3_NUM_INSTANCES: case PACKET3_DRAW_INDEX_MULTI_AUTO: case PACKET3_STRMOUT_BUFFER_UPDATE: case PACKET3_DRAW_INDEX_OFFSET_2: case PACKET3_DRAW_INDEX_MULTI_ELEMENT: case PACKET3_DRAW_INDEX_INDIRECT_MULTI: case PACKET3_MPEG_INDEX: case PACKET3_WAIT_REG_MEM: case PACKET3_MEM_WRITE: case PACKET3_PFP_SYNC_ME: case PACKET3_SURFACE_SYNC: case PACKET3_EVENT_WRITE: case PACKET3_EVENT_WRITE_EOP: case PACKET3_EVENT_WRITE_EOS: case PACKET3_SET_CONTEXT_REG: case PACKET3_SET_CONTEXT_REG_INDIRECT: case PACKET3_SET_SH_REG: case PACKET3_SET_SH_REG_OFFSET: case PACKET3_INCREMENT_DE_COUNTER: case PACKET3_WAIT_ON_CE_COUNTER: case PACKET3_WAIT_ON_AVAIL_BUFFER: case PACKET3_ME_WRITE: break; case PACKET3_COPY_DATA: if ((idx_value & 0xf00) == 0) { reg = ib[idx + 3] * 4; if (!si_vm_reg_valid(reg)) return -EINVAL; } break; case PACKET3_WRITE_DATA: if ((idx_value & 0xf00) == 0) { start_reg = ib[idx + 1] * 4; if (idx_value & 0x10000) { if (!si_vm_reg_valid(start_reg)) return -EINVAL; } else { for (i = 0; i < (pkt->count - 2); i++) { reg = start_reg + (4 * i); if (!si_vm_reg_valid(reg)) return -EINVAL; } } } break; case PACKET3_COND_WRITE: if (idx_value & 0x100) { reg = ib[idx + 5] * 4; if (!si_vm_reg_valid(reg)) return -EINVAL; } break; case PACKET3_COPY_DW: if (idx_value & 0x2) { reg = ib[idx + 3] * 4; if (!si_vm_reg_valid(reg)) return -EINVAL; } break; case PACKET3_SET_CONFIG_REG: start_reg = (idx_value << 2) + PACKET3_SET_CONFIG_REG_START; end_reg = 4 * pkt->count + start_reg - 4; if ((start_reg < PACKET3_SET_CONFIG_REG_START) || (start_reg >= PACKET3_SET_CONFIG_REG_END) || (end_reg >= PACKET3_SET_CONFIG_REG_END)) { DRM_ERROR("bad PACKET3_SET_CONFIG_REG\n"); return -EINVAL; } for (i = 0; i < pkt->count; i++) { reg = start_reg + (4 * i); if (!si_vm_reg_valid(reg)) return -EINVAL; } break; case PACKET3_CP_DMA: r = si_vm_packet3_cp_dma_check(ib, idx); if (r) return r; break; default: DRM_ERROR("Invalid GFX packet3: 0x%x\n", pkt->opcode); return -EINVAL; } return 0; } static int si_vm_packet3_compute_check(struct radeon_device *rdev, u32 *ib, struct radeon_cs_packet *pkt) { int r; u32 idx = pkt->idx + 1; u32 idx_value = ib[idx]; u32 start_reg, reg, i; switch (pkt->opcode) { case PACKET3_NOP: case PACKET3_SET_BASE: case PACKET3_CLEAR_STATE: case PACKET3_DISPATCH_DIRECT: case PACKET3_DISPATCH_INDIRECT: case PACKET3_ALLOC_GDS: case PACKET3_WRITE_GDS_RAM: case PACKET3_ATOMIC_GDS: case PACKET3_ATOMIC: case PACKET3_OCCLUSION_QUERY: case PACKET3_SET_PREDICATION: case PACKET3_COND_EXEC: case PACKET3_PRED_EXEC: case PACKET3_CONTEXT_CONTROL: case PACKET3_STRMOUT_BUFFER_UPDATE: case PACKET3_WAIT_REG_MEM: case PACKET3_MEM_WRITE: case PACKET3_PFP_SYNC_ME: case PACKET3_SURFACE_SYNC: case PACKET3_EVENT_WRITE: case PACKET3_EVENT_WRITE_EOP: case PACKET3_EVENT_WRITE_EOS: case PACKET3_SET_CONTEXT_REG: case PACKET3_SET_CONTEXT_REG_INDIRECT: case PACKET3_SET_SH_REG: case PACKET3_SET_SH_REG_OFFSET: case PACKET3_INCREMENT_DE_COUNTER: case PACKET3_WAIT_ON_CE_COUNTER: case PACKET3_WAIT_ON_AVAIL_BUFFER: case PACKET3_ME_WRITE: break; case PACKET3_COPY_DATA: if ((idx_value & 0xf00) == 0) { reg = ib[idx + 3] * 4; if (!si_vm_reg_valid(reg)) return -EINVAL; } break; case PACKET3_WRITE_DATA: if ((idx_value & 0xf00) == 0) { start_reg = ib[idx + 1] * 4; if (idx_value & 0x10000) { if (!si_vm_reg_valid(start_reg)) return -EINVAL; } else { for (i = 0; i < (pkt->count - 2); i++) { reg = start_reg + (4 * i); if (!si_vm_reg_valid(reg)) return -EINVAL; } } } break; case PACKET3_COND_WRITE: if (idx_value & 0x100) { reg = ib[idx + 5] * 4; if (!si_vm_reg_valid(reg)) return -EINVAL; } break; case PACKET3_COPY_DW: if (idx_value & 0x2) { reg = ib[idx + 3] * 4; if (!si_vm_reg_valid(reg)) return -EINVAL; } break; case PACKET3_CP_DMA: r = si_vm_packet3_cp_dma_check(ib, idx); if (r) return r; break; default: DRM_ERROR("Invalid Compute packet3: 0x%x\n", pkt->opcode); return -EINVAL; } return 0; } int si_ib_parse(struct radeon_device *rdev, struct radeon_ib *ib) { int ret = 0; u32 idx = 0, i; struct radeon_cs_packet pkt; do { pkt.idx = idx; pkt.type = RADEON_CP_PACKET_GET_TYPE(ib->ptr[idx]); pkt.count = RADEON_CP_PACKET_GET_COUNT(ib->ptr[idx]); pkt.one_reg_wr = 0; switch (pkt.type) { case RADEON_PACKET_TYPE0: dev_err(rdev->dev, "Packet0 not allowed!\n"); ret = -EINVAL; break; case RADEON_PACKET_TYPE2: idx += 1; break; case RADEON_PACKET_TYPE3: pkt.opcode = RADEON_CP_PACKET3_GET_OPCODE(ib->ptr[idx]); if (ib->is_const_ib) ret = si_vm_packet3_ce_check(rdev, ib->ptr, &pkt); else { switch (ib->ring) { case RADEON_RING_TYPE_GFX_INDEX: ret = si_vm_packet3_gfx_check(rdev, ib->ptr, &pkt); break; case CAYMAN_RING_TYPE_CP1_INDEX: case CAYMAN_RING_TYPE_CP2_INDEX: ret = si_vm_packet3_compute_check(rdev, ib->ptr, &pkt); break; default: dev_err(rdev->dev, "Non-PM4 ring %d !\n", ib->ring); ret = -EINVAL; break; } } idx += pkt.count + 2; break; default: dev_err(rdev->dev, "Unknown packet type %d !\n", pkt.type); ret = -EINVAL; break; } if (ret) { for (i = 0; i < ib->length_dw; i++) { if (i == idx) printk("\t0x%08x <---\n", ib->ptr[i]); else printk("\t0x%08x\n", ib->ptr[i]); } break; } } while (idx < ib->length_dw); return ret; } /* * vm */ int si_vm_init(struct radeon_device *rdev) { /* number of VMs */ rdev->vm_manager.nvm = 16; /* base offset of vram pages */ rdev->vm_manager.vram_base_offset = 0; return 0; } void si_vm_fini(struct radeon_device *rdev) { } /** * si_vm_decode_fault - print human readable fault info * * @rdev: radeon_device pointer * @status: VM_CONTEXT1_PROTECTION_FAULT_STATUS register value * @addr: VM_CONTEXT1_PROTECTION_FAULT_ADDR register value * * Print human readable fault information (SI). */ static void si_vm_decode_fault(struct radeon_device *rdev, u32 status, u32 addr) { u32 mc_id = (status & MEMORY_CLIENT_ID_MASK) >> MEMORY_CLIENT_ID_SHIFT; u32 vmid = (status & FAULT_VMID_MASK) >> FAULT_VMID_SHIFT; u32 protections = (status & PROTECTIONS_MASK) >> PROTECTIONS_SHIFT; char *block; if (rdev->family == CHIP_TAHITI) { switch (mc_id) { case 160: case 144: case 96: case 80: case 224: case 208: case 32: case 16: block = "CB"; break; case 161: case 145: case 97: case 81: case 225: case 209: case 33: case 17: block = "CB_FMASK"; break; case 162: case 146: case 98: case 82: case 226: case 210: case 34: case 18: block = "CB_CMASK"; break; case 163: case 147: case 99: case 83: case 227: case 211: case 35: case 19: block = "CB_IMMED"; break; case 164: case 148: case 100: case 84: case 228: case 212: case 36: case 20: block = "DB"; break; case 165: case 149: case 101: case 85: case 229: case 213: case 37: case 21: block = "DB_HTILE"; break; case 167: case 151: case 103: case 87: case 231: case 215: case 39: case 23: block = "DB_STEN"; break; case 72: case 68: case 64: case 8: case 4: case 0: case 136: case 132: case 128: case 200: case 196: case 192: block = "TC"; break; case 112: case 48: block = "CP"; break; case 49: case 177: case 50: case 178: block = "SH"; break; case 53: case 190: block = "VGT"; break; case 117: block = "IH"; break; case 51: case 115: block = "RLC"; break; case 119: case 183: block = "DMA0"; break; case 61: block = "DMA1"; break; case 248: case 120: block = "HDP"; break; default: block = "unknown"; break; } } else { switch (mc_id) { case 32: case 16: case 96: case 80: case 160: case 144: case 224: case 208: block = "CB"; break; case 33: case 17: case 97: case 81: case 161: case 145: case 225: case 209: block = "CB_FMASK"; break; case 34: case 18: case 98: case 82: case 162: case 146: case 226: case 210: block = "CB_CMASK"; break; case 35: case 19: case 99: case 83: case 163: case 147: case 227: case 211: block = "CB_IMMED"; break; case 36: case 20: case 100: case 84: case 164: case 148: case 228: case 212: block = "DB"; break; case 37: case 21: case 101: case 85: case 165: case 149: case 229: case 213: block = "DB_HTILE"; break; case 39: case 23: case 103: case 87: case 167: case 151: case 231: case 215: block = "DB_STEN"; break; case 72: case 68: case 8: case 4: case 136: case 132: case 200: case 196: block = "TC"; break; case 112: case 48: block = "CP"; break; case 49: case 177: case 50: case 178: block = "SH"; break; case 53: block = "VGT"; break; case 117: block = "IH"; break; case 51: case 115: block = "RLC"; break; case 119: case 183: block = "DMA0"; break; case 61: block = "DMA1"; break; case 248: case 120: block = "HDP"; break; default: block = "unknown"; break; } } printk("VM fault (0x%02x, vmid %d) at page %u, %s from %s (%d)\n", protections, vmid, addr, (status & MEMORY_CLIENT_RW_MASK) ? "write" : "read", block, mc_id); } void si_vm_flush(struct radeon_device *rdev, struct radeon_ring *ring, unsigned vm_id, uint64_t pd_addr) { /* write new base address */ radeon_ring_write(ring, PACKET3(PACKET3_WRITE_DATA, 3)); radeon_ring_write(ring, (WRITE_DATA_ENGINE_SEL(1) | WRITE_DATA_DST_SEL(0))); if (vm_id < 8) { radeon_ring_write(ring, (VM_CONTEXT0_PAGE_TABLE_BASE_ADDR + (vm_id << 2)) >> 2); } else { radeon_ring_write(ring, (VM_CONTEXT8_PAGE_TABLE_BASE_ADDR + ((vm_id - 8) << 2)) >> 2); } radeon_ring_write(ring, 0); radeon_ring_write(ring, pd_addr >> 12); /* flush hdp cache */ radeon_ring_write(ring, PACKET3(PACKET3_WRITE_DATA, 3)); radeon_ring_write(ring, (WRITE_DATA_ENGINE_SEL(1) | WRITE_DATA_DST_SEL(0))); radeon_ring_write(ring, HDP_MEM_COHERENCY_FLUSH_CNTL >> 2); radeon_ring_write(ring, 0); radeon_ring_write(ring, 0x1); /* bits 0-15 are the VM contexts0-15 */ radeon_ring_write(ring, PACKET3(PACKET3_WRITE_DATA, 3)); radeon_ring_write(ring, (WRITE_DATA_ENGINE_SEL(1) | WRITE_DATA_DST_SEL(0))); radeon_ring_write(ring, VM_INVALIDATE_REQUEST >> 2); radeon_ring_write(ring, 0); radeon_ring_write(ring, 1 << vm_id); /* wait for the invalidate to complete */ radeon_ring_write(ring, PACKET3(PACKET3_WAIT_REG_MEM, 5)); radeon_ring_write(ring, (WAIT_REG_MEM_FUNCTION(0) | /* always */ WAIT_REG_MEM_ENGINE(0))); /* me */ radeon_ring_write(ring, VM_INVALIDATE_REQUEST >> 2); radeon_ring_write(ring, 0); radeon_ring_write(ring, 0); /* ref */ radeon_ring_write(ring, 0); /* mask */ radeon_ring_write(ring, 0x20); /* poll interval */ /* sync PFP to ME, otherwise we might get invalid PFP reads */ radeon_ring_write(ring, PACKET3(PACKET3_PFP_SYNC_ME, 0)); radeon_ring_write(ring, 0x0); } /* * Power and clock gating */ static void si_wait_for_rlc_serdes(struct radeon_device *rdev) { int i; for (i = 0; i < rdev->usec_timeout; i++) { if (RREG32(RLC_SERDES_MASTER_BUSY_0) == 0) break; udelay(1); } for (i = 0; i < rdev->usec_timeout; i++) { if (RREG32(RLC_SERDES_MASTER_BUSY_1) == 0) break; udelay(1); } } static void si_enable_gui_idle_interrupt(struct radeon_device *rdev, bool enable) { u32 tmp = RREG32(CP_INT_CNTL_RING0); u32 mask; int i; if (enable) tmp |= (CNTX_BUSY_INT_ENABLE | CNTX_EMPTY_INT_ENABLE); else tmp &= ~(CNTX_BUSY_INT_ENABLE | CNTX_EMPTY_INT_ENABLE); WREG32(CP_INT_CNTL_RING0, tmp); if (!enable) { /* read a gfx register */ tmp = RREG32(DB_DEPTH_INFO); mask = RLC_BUSY_STATUS | GFX_POWER_STATUS | GFX_CLOCK_STATUS | GFX_LS_STATUS; for (i = 0; i < rdev->usec_timeout; i++) { if ((RREG32(RLC_STAT) & mask) == (GFX_CLOCK_STATUS | GFX_POWER_STATUS)) break; udelay(1); } } } static void si_set_uvd_dcm(struct radeon_device *rdev, bool sw_mode) { u32 tmp, tmp2; tmp = RREG32(UVD_CGC_CTRL); tmp &= ~(CLK_OD_MASK | CG_DT_MASK); tmp |= DCM | CG_DT(1) | CLK_OD(4); if (sw_mode) { tmp &= ~0x7ffff800; tmp2 = DYN_OR_EN | DYN_RR_EN | G_DIV_ID(7); } else { tmp |= 0x7ffff800; tmp2 = 0; } WREG32(UVD_CGC_CTRL, tmp); WREG32_UVD_CTX(UVD_CGC_CTRL2, tmp2); } void si_init_uvd_internal_cg(struct radeon_device *rdev) { bool hw_mode = true; if (hw_mode) { si_set_uvd_dcm(rdev, false); } else { u32 tmp = RREG32(UVD_CGC_CTRL); tmp &= ~DCM; WREG32(UVD_CGC_CTRL, tmp); } } static u32 si_halt_rlc(struct radeon_device *rdev) { u32 data, orig; orig = data = RREG32(RLC_CNTL); if (data & RLC_ENABLE) { data &= ~RLC_ENABLE; WREG32(RLC_CNTL, data); si_wait_for_rlc_serdes(rdev); } return orig; } static void si_update_rlc(struct radeon_device *rdev, u32 rlc) { u32 tmp; tmp = RREG32(RLC_CNTL); if (tmp != rlc) WREG32(RLC_CNTL, rlc); } static void si_enable_dma_pg(struct radeon_device *rdev, bool enable) { u32 data, orig; orig = data = RREG32(DMA_PG); if (enable && (rdev->pg_flags & RADEON_PG_SUPPORT_SDMA)) data |= PG_CNTL_ENABLE; else data &= ~PG_CNTL_ENABLE; if (orig != data) WREG32(DMA_PG, data); } static void si_init_dma_pg(struct radeon_device *rdev) { u32 tmp; WREG32(DMA_PGFSM_WRITE, 0x00002000); WREG32(DMA_PGFSM_CONFIG, 0x100010ff); for (tmp = 0; tmp < 5; tmp++) WREG32(DMA_PGFSM_WRITE, 0); } static void si_enable_gfx_cgpg(struct radeon_device *rdev, bool enable) { u32 tmp; if (enable && (rdev->pg_flags & RADEON_PG_SUPPORT_GFX_PG)) { tmp = RLC_PUD(0x10) | RLC_PDD(0x10) | RLC_TTPD(0x10) | RLC_MSD(0x10); WREG32(RLC_TTOP_D, tmp); tmp = RREG32(RLC_PG_CNTL); tmp |= GFX_PG_ENABLE; WREG32(RLC_PG_CNTL, tmp); tmp = RREG32(RLC_AUTO_PG_CTRL); tmp |= AUTO_PG_EN; WREG32(RLC_AUTO_PG_CTRL, tmp); } else { tmp = RREG32(RLC_AUTO_PG_CTRL); tmp &= ~AUTO_PG_EN; WREG32(RLC_AUTO_PG_CTRL, tmp); tmp = RREG32(DB_RENDER_CONTROL); } } static void si_init_gfx_cgpg(struct radeon_device *rdev) { u32 tmp; WREG32(RLC_SAVE_AND_RESTORE_BASE, rdev->rlc.save_restore_gpu_addr >> 8); tmp = RREG32(RLC_PG_CNTL); tmp |= GFX_PG_SRC; WREG32(RLC_PG_CNTL, tmp); WREG32(RLC_CLEAR_STATE_RESTORE_BASE, rdev->rlc.clear_state_gpu_addr >> 8); tmp = RREG32(RLC_AUTO_PG_CTRL); tmp &= ~GRBM_REG_SGIT_MASK; tmp |= GRBM_REG_SGIT(0x700); tmp &= ~PG_AFTER_GRBM_REG_ST_MASK; WREG32(RLC_AUTO_PG_CTRL, tmp); } static u32 si_get_cu_active_bitmap(struct radeon_device *rdev, u32 se, u32 sh) { u32 mask = 0, tmp, tmp1; int i; si_select_se_sh(rdev, se, sh); tmp = RREG32(CC_GC_SHADER_ARRAY_CONFIG); tmp1 = RREG32(GC_USER_SHADER_ARRAY_CONFIG); si_select_se_sh(rdev, 0xffffffff, 0xffffffff); tmp &= 0xffff0000; tmp |= tmp1; tmp >>= 16; for (i = 0; i < rdev->config.si.max_cu_per_sh; i ++) { mask <<= 1; mask |= 1; } return (~tmp) & mask; } static void si_init_ao_cu_mask(struct radeon_device *rdev) { u32 i, j, k, active_cu_number = 0; u32 mask, counter, cu_bitmap; u32 tmp = 0; for (i = 0; i < rdev->config.si.max_shader_engines; i++) { for (j = 0; j < rdev->config.si.max_sh_per_se; j++) { mask = 1; cu_bitmap = 0; counter = 0; for (k = 0; k < rdev->config.si.max_cu_per_sh; k++) { if (si_get_cu_active_bitmap(rdev, i, j) & mask) { if (counter < 2) cu_bitmap |= mask; counter++; } mask <<= 1; } active_cu_number += counter; tmp |= (cu_bitmap << (i * 16 + j * 8)); } } WREG32(RLC_PG_AO_CU_MASK, tmp); tmp = RREG32(RLC_MAX_PG_CU); tmp &= ~MAX_PU_CU_MASK; tmp |= MAX_PU_CU(active_cu_number); WREG32(RLC_MAX_PG_CU, tmp); } static void si_enable_cgcg(struct radeon_device *rdev, bool enable) { u32 data, orig, tmp; orig = data = RREG32(RLC_CGCG_CGLS_CTRL); if (enable && (rdev->cg_flags & RADEON_CG_SUPPORT_GFX_CGCG)) { si_enable_gui_idle_interrupt(rdev, true); WREG32(RLC_GCPM_GENERAL_3, 0x00000080); tmp = si_halt_rlc(rdev); WREG32(RLC_SERDES_WR_MASTER_MASK_0, 0xffffffff); WREG32(RLC_SERDES_WR_MASTER_MASK_1, 0xffffffff); WREG32(RLC_SERDES_WR_CTRL, 0x00b000ff); si_wait_for_rlc_serdes(rdev); si_update_rlc(rdev, tmp); WREG32(RLC_SERDES_WR_CTRL, 0x007000ff); data |= CGCG_EN | CGLS_EN; } else { si_enable_gui_idle_interrupt(rdev, false); RREG32(CB_CGTT_SCLK_CTRL); RREG32(CB_CGTT_SCLK_CTRL); RREG32(CB_CGTT_SCLK_CTRL); RREG32(CB_CGTT_SCLK_CTRL); data &= ~(CGCG_EN | CGLS_EN); } if (orig != data) WREG32(RLC_CGCG_CGLS_CTRL, data); } static void si_enable_mgcg(struct radeon_device *rdev, bool enable) { u32 data, orig, tmp = 0; if (enable && (rdev->cg_flags & RADEON_CG_SUPPORT_GFX_MGCG)) { orig = data = RREG32(CGTS_SM_CTRL_REG); data = 0x96940200; if (orig != data) WREG32(CGTS_SM_CTRL_REG, data); if (rdev->cg_flags & RADEON_CG_SUPPORT_GFX_CP_LS) { orig = data = RREG32(CP_MEM_SLP_CNTL); data |= CP_MEM_LS_EN; if (orig != data) WREG32(CP_MEM_SLP_CNTL, data); } orig = data = RREG32(RLC_CGTT_MGCG_OVERRIDE); data &= 0xffffffc0; if (orig != data) WREG32(RLC_CGTT_MGCG_OVERRIDE, data); tmp = si_halt_rlc(rdev); WREG32(RLC_SERDES_WR_MASTER_MASK_0, 0xffffffff); WREG32(RLC_SERDES_WR_MASTER_MASK_1, 0xffffffff); WREG32(RLC_SERDES_WR_CTRL, 0x00d000ff); si_update_rlc(rdev, tmp); } else { orig = data = RREG32(RLC_CGTT_MGCG_OVERRIDE); data |= 0x00000003; if (orig != data) WREG32(RLC_CGTT_MGCG_OVERRIDE, data); data = RREG32(CP_MEM_SLP_CNTL); if (data & CP_MEM_LS_EN) { data &= ~CP_MEM_LS_EN; WREG32(CP_MEM_SLP_CNTL, data); } orig = data = RREG32(CGTS_SM_CTRL_REG); data |= LS_OVERRIDE | OVERRIDE; if (orig != data) WREG32(CGTS_SM_CTRL_REG, data); tmp = si_halt_rlc(rdev); WREG32(RLC_SERDES_WR_MASTER_MASK_0, 0xffffffff); WREG32(RLC_SERDES_WR_MASTER_MASK_1, 0xffffffff); WREG32(RLC_SERDES_WR_CTRL, 0x00e000ff); si_update_rlc(rdev, tmp); } } static void si_enable_uvd_mgcg(struct radeon_device *rdev, bool enable) { u32 orig, data, tmp; if (enable && (rdev->cg_flags & RADEON_CG_SUPPORT_UVD_MGCG)) { tmp = RREG32_UVD_CTX(UVD_CGC_MEM_CTRL); tmp |= 0x3fff; WREG32_UVD_CTX(UVD_CGC_MEM_CTRL, tmp); orig = data = RREG32(UVD_CGC_CTRL); data |= DCM; if (orig != data) WREG32(UVD_CGC_CTRL, data); WREG32_SMC(SMC_CG_IND_START + CG_CGTT_LOCAL_0, 0); WREG32_SMC(SMC_CG_IND_START + CG_CGTT_LOCAL_1, 0); } else { tmp = RREG32_UVD_CTX(UVD_CGC_MEM_CTRL); tmp &= ~0x3fff; WREG32_UVD_CTX(UVD_CGC_MEM_CTRL, tmp); orig = data = RREG32(UVD_CGC_CTRL); data &= ~DCM; if (orig != data) WREG32(UVD_CGC_CTRL, data); WREG32_SMC(SMC_CG_IND_START + CG_CGTT_LOCAL_0, 0xffffffff); WREG32_SMC(SMC_CG_IND_START + CG_CGTT_LOCAL_1, 0xffffffff); } } static const u32 mc_cg_registers[] = { MC_HUB_MISC_HUB_CG, MC_HUB_MISC_SIP_CG, MC_HUB_MISC_VM_CG, MC_XPB_CLK_GAT, ATC_MISC_CG, MC_CITF_MISC_WR_CG, MC_CITF_MISC_RD_CG, MC_CITF_MISC_VM_CG, VM_L2_CG, }; static void si_enable_mc_ls(struct radeon_device *rdev, bool enable) { int i; u32 orig, data; for (i = 0; i < ARRAY_SIZE(mc_cg_registers); i++) { orig = data = RREG32(mc_cg_registers[i]); if (enable && (rdev->cg_flags & RADEON_CG_SUPPORT_MC_LS)) data |= MC_LS_ENABLE; else data &= ~MC_LS_ENABLE; if (data != orig) WREG32(mc_cg_registers[i], data); } } static void si_enable_mc_mgcg(struct radeon_device *rdev, bool enable) { int i; u32 orig, data; for (i = 0; i < ARRAY_SIZE(mc_cg_registers); i++) { orig = data = RREG32(mc_cg_registers[i]); if (enable && (rdev->cg_flags & RADEON_CG_SUPPORT_MC_MGCG)) data |= MC_CG_ENABLE; else data &= ~MC_CG_ENABLE; if (data != orig) WREG32(mc_cg_registers[i], data); } } static void si_enable_dma_mgcg(struct radeon_device *rdev, bool enable) { u32 orig, data, offset; int i; if (enable && (rdev->cg_flags & RADEON_CG_SUPPORT_SDMA_MGCG)) { for (i = 0; i < 2; i++) { if (i == 0) offset = DMA0_REGISTER_OFFSET; else offset = DMA1_REGISTER_OFFSET; orig = data = RREG32(DMA_POWER_CNTL + offset); data &= ~MEM_POWER_OVERRIDE; if (data != orig) WREG32(DMA_POWER_CNTL + offset, data); WREG32(DMA_CLK_CTRL + offset, 0x00000100); } } else { for (i = 0; i < 2; i++) { if (i == 0) offset = DMA0_REGISTER_OFFSET; else offset = DMA1_REGISTER_OFFSET; orig = data = RREG32(DMA_POWER_CNTL + offset); data |= MEM_POWER_OVERRIDE; if (data != orig) WREG32(DMA_POWER_CNTL + offset, data); orig = data = RREG32(DMA_CLK_CTRL + offset); data = 0xff000000; if (data != orig) WREG32(DMA_CLK_CTRL + offset, data); } } } static void si_enable_bif_mgls(struct radeon_device *rdev, bool enable) { u32 orig, data; orig = data = RREG32_PCIE(PCIE_CNTL2); if (enable && (rdev->cg_flags & RADEON_CG_SUPPORT_BIF_LS)) data |= SLV_MEM_LS_EN | MST_MEM_LS_EN | REPLAY_MEM_LS_EN | SLV_MEM_AGGRESSIVE_LS_EN; else data &= ~(SLV_MEM_LS_EN | MST_MEM_LS_EN | REPLAY_MEM_LS_EN | SLV_MEM_AGGRESSIVE_LS_EN); if (orig != data) WREG32_PCIE(PCIE_CNTL2, data); } static void si_enable_hdp_mgcg(struct radeon_device *rdev, bool enable) { u32 orig, data; orig = data = RREG32(HDP_HOST_PATH_CNTL); if (enable && (rdev->cg_flags & RADEON_CG_SUPPORT_HDP_MGCG)) data &= ~CLOCK_GATING_DIS; else data |= CLOCK_GATING_DIS; if (orig != data) WREG32(HDP_HOST_PATH_CNTL, data); } static void si_enable_hdp_ls(struct radeon_device *rdev, bool enable) { u32 orig, data; orig = data = RREG32(HDP_MEM_POWER_LS); if (enable && (rdev->cg_flags & RADEON_CG_SUPPORT_HDP_LS)) data |= HDP_LS_ENABLE; else data &= ~HDP_LS_ENABLE; if (orig != data) WREG32(HDP_MEM_POWER_LS, data); } static void si_update_cg(struct radeon_device *rdev, u32 block, bool enable) { if (block & RADEON_CG_BLOCK_GFX) { si_enable_gui_idle_interrupt(rdev, false); /* order matters! */ if (enable) { si_enable_mgcg(rdev, true); si_enable_cgcg(rdev, true); } else { si_enable_cgcg(rdev, false); si_enable_mgcg(rdev, false); } si_enable_gui_idle_interrupt(rdev, true); } if (block & RADEON_CG_BLOCK_MC) { si_enable_mc_mgcg(rdev, enable); si_enable_mc_ls(rdev, enable); } if (block & RADEON_CG_BLOCK_SDMA) { si_enable_dma_mgcg(rdev, enable); } if (block & RADEON_CG_BLOCK_BIF) { si_enable_bif_mgls(rdev, enable); } if (block & RADEON_CG_BLOCK_UVD) { if (rdev->has_uvd) { si_enable_uvd_mgcg(rdev, enable); } } if (block & RADEON_CG_BLOCK_HDP) { si_enable_hdp_mgcg(rdev, enable); si_enable_hdp_ls(rdev, enable); } } static void si_init_cg(struct radeon_device *rdev) { si_update_cg(rdev, (RADEON_CG_BLOCK_GFX | RADEON_CG_BLOCK_MC | RADEON_CG_BLOCK_SDMA | RADEON_CG_BLOCK_BIF | RADEON_CG_BLOCK_HDP), true); if (rdev->has_uvd) { si_update_cg(rdev, RADEON_CG_BLOCK_UVD, true); si_init_uvd_internal_cg(rdev); } } static void si_fini_cg(struct radeon_device *rdev) { if (rdev->has_uvd) { si_update_cg(rdev, RADEON_CG_BLOCK_UVD, false); } si_update_cg(rdev, (RADEON_CG_BLOCK_GFX | RADEON_CG_BLOCK_MC | RADEON_CG_BLOCK_SDMA | RADEON_CG_BLOCK_BIF | RADEON_CG_BLOCK_HDP), false); } u32 si_get_csb_size(struct radeon_device *rdev) { u32 count = 0; const struct cs_section_def *sect = NULL; const struct cs_extent_def *ext = NULL; if (rdev->rlc.cs_data == NULL) return 0; /* begin clear state */ count += 2; /* context control state */ count += 3; for (sect = rdev->rlc.cs_data; sect->section != NULL; ++sect) { for (ext = sect->section; ext->extent != NULL; ++ext) { if (sect->id == SECT_CONTEXT) count += 2 + ext->reg_count; else return 0; } } /* pa_sc_raster_config */ count += 3; /* end clear state */ count += 2; /* clear state */ count += 2; return count; } void si_get_csb_buffer(struct radeon_device *rdev, volatile u32 *buffer) { u32 count = 0, i; const struct cs_section_def *sect = NULL; const struct cs_extent_def *ext = NULL; if (rdev->rlc.cs_data == NULL) return; if (buffer == NULL) return; buffer[count++] = cpu_to_le32(PACKET3(PACKET3_PREAMBLE_CNTL, 0)); buffer[count++] = cpu_to_le32(PACKET3_PREAMBLE_BEGIN_CLEAR_STATE); buffer[count++] = cpu_to_le32(PACKET3(PACKET3_CONTEXT_CONTROL, 1)); buffer[count++] = cpu_to_le32(0x80000000); buffer[count++] = cpu_to_le32(0x80000000); for (sect = rdev->rlc.cs_data; sect->section != NULL; ++sect) { for (ext = sect->section; ext->extent != NULL; ++ext) { if (sect->id == SECT_CONTEXT) { buffer[count++] = cpu_to_le32(PACKET3(PACKET3_SET_CONTEXT_REG, ext->reg_count)); buffer[count++] = cpu_to_le32(ext->reg_index - 0xa000); for (i = 0; i < ext->reg_count; i++) buffer[count++] = cpu_to_le32(ext->extent[i]); } else { return; } } } buffer[count++] = cpu_to_le32(PACKET3(PACKET3_SET_CONTEXT_REG, 1)); buffer[count++] = cpu_to_le32(PA_SC_RASTER_CONFIG - PACKET3_SET_CONTEXT_REG_START); switch (rdev->family) { case CHIP_TAHITI: case CHIP_PITCAIRN: buffer[count++] = cpu_to_le32(0x2a00126a); break; case CHIP_VERDE: buffer[count++] = cpu_to_le32(0x0000124a); break; case CHIP_OLAND: buffer[count++] = cpu_to_le32(0x00000082); break; case CHIP_HAINAN: buffer[count++] = cpu_to_le32(0x00000000); break; default: buffer[count++] = cpu_to_le32(0x00000000); break; } buffer[count++] = cpu_to_le32(PACKET3(PACKET3_PREAMBLE_CNTL, 0)); buffer[count++] = cpu_to_le32(PACKET3_PREAMBLE_END_CLEAR_STATE); buffer[count++] = cpu_to_le32(PACKET3(PACKET3_CLEAR_STATE, 0)); buffer[count++] = cpu_to_le32(0); } static void si_init_pg(struct radeon_device *rdev) { if (rdev->pg_flags) { if (rdev->pg_flags & RADEON_PG_SUPPORT_SDMA) { si_init_dma_pg(rdev); } si_init_ao_cu_mask(rdev); if (rdev->pg_flags & RADEON_PG_SUPPORT_GFX_PG) { si_init_gfx_cgpg(rdev); } else { WREG32(RLC_SAVE_AND_RESTORE_BASE, rdev->rlc.save_restore_gpu_addr >> 8); WREG32(RLC_CLEAR_STATE_RESTORE_BASE, rdev->rlc.clear_state_gpu_addr >> 8); } si_enable_dma_pg(rdev, true); si_enable_gfx_cgpg(rdev, true); } else { WREG32(RLC_SAVE_AND_RESTORE_BASE, rdev->rlc.save_restore_gpu_addr >> 8); WREG32(RLC_CLEAR_STATE_RESTORE_BASE, rdev->rlc.clear_state_gpu_addr >> 8); } } static void si_fini_pg(struct radeon_device *rdev) { if (rdev->pg_flags) { si_enable_dma_pg(rdev, false); si_enable_gfx_cgpg(rdev, false); } } /* * RLC */ void si_rlc_reset(struct radeon_device *rdev) { u32 tmp = RREG32(GRBM_SOFT_RESET); tmp |= SOFT_RESET_RLC; WREG32(GRBM_SOFT_RESET, tmp); udelay(50); tmp &= ~SOFT_RESET_RLC; WREG32(GRBM_SOFT_RESET, tmp); udelay(50); } static void si_rlc_stop(struct radeon_device *rdev) { WREG32(RLC_CNTL, 0); si_enable_gui_idle_interrupt(rdev, false); si_wait_for_rlc_serdes(rdev); } static void si_rlc_start(struct radeon_device *rdev) { WREG32(RLC_CNTL, RLC_ENABLE); si_enable_gui_idle_interrupt(rdev, true); udelay(50); } static bool si_lbpw_supported(struct radeon_device *rdev) { u32 tmp; /* Enable LBPW only for DDR3 */ tmp = RREG32(MC_SEQ_MISC0); if ((tmp & 0xF0000000) == 0xB0000000) return true; return false; } static void si_enable_lbpw(struct radeon_device *rdev, bool enable) { u32 tmp; tmp = RREG32(RLC_LB_CNTL); if (enable) tmp |= LOAD_BALANCE_ENABLE; else tmp &= ~LOAD_BALANCE_ENABLE; WREG32(RLC_LB_CNTL, tmp); if (!enable) { si_select_se_sh(rdev, 0xffffffff, 0xffffffff); WREG32(SPI_LB_CU_MASK, 0x00ff); } } static int si_rlc_resume(struct radeon_device *rdev) { u32 i; if (!rdev->rlc_fw) return -EINVAL; si_rlc_stop(rdev); si_rlc_reset(rdev); si_init_pg(rdev); si_init_cg(rdev); WREG32(RLC_RL_BASE, 0); WREG32(RLC_RL_SIZE, 0); WREG32(RLC_LB_CNTL, 0); WREG32(RLC_LB_CNTR_MAX, 0xffffffff); WREG32(RLC_LB_CNTR_INIT, 0); WREG32(RLC_LB_INIT_CU_MASK, 0xffffffff); WREG32(RLC_MC_CNTL, 0); WREG32(RLC_UCODE_CNTL, 0); if (rdev->new_fw) { const struct rlc_firmware_header_v1_0 *hdr = (const struct rlc_firmware_header_v1_0 *)rdev->rlc_fw->data; u32 fw_size = le32_to_cpu(hdr->header.ucode_size_bytes) / 4; const __le32 *fw_data = (const __le32 *) (rdev->rlc_fw->data + le32_to_cpu(hdr->header.ucode_array_offset_bytes)); radeon_ucode_print_rlc_hdr(&hdr->header); for (i = 0; i < fw_size; i++) { WREG32(RLC_UCODE_ADDR, i); WREG32(RLC_UCODE_DATA, le32_to_cpup(fw_data++)); } } else { const __be32 *fw_data = (const __be32 *)rdev->rlc_fw->data; for (i = 0; i < SI_RLC_UCODE_SIZE; i++) { WREG32(RLC_UCODE_ADDR, i); WREG32(RLC_UCODE_DATA, be32_to_cpup(fw_data++)); } } WREG32(RLC_UCODE_ADDR, 0); si_enable_lbpw(rdev, si_lbpw_supported(rdev)); si_rlc_start(rdev); return 0; } static void si_enable_interrupts(struct radeon_device *rdev) { u32 ih_cntl = RREG32(IH_CNTL); u32 ih_rb_cntl = RREG32(IH_RB_CNTL); ih_cntl |= ENABLE_INTR; ih_rb_cntl |= IH_RB_ENABLE; WREG32(IH_CNTL, ih_cntl); WREG32(IH_RB_CNTL, ih_rb_cntl); rdev->ih.enabled = true; } static void si_disable_interrupts(struct radeon_device *rdev) { u32 ih_rb_cntl = RREG32(IH_RB_CNTL); u32 ih_cntl = RREG32(IH_CNTL); ih_rb_cntl &= ~IH_RB_ENABLE; ih_cntl &= ~ENABLE_INTR; WREG32(IH_RB_CNTL, ih_rb_cntl); WREG32(IH_CNTL, ih_cntl); /* set rptr, wptr to 0 */ WREG32(IH_RB_RPTR, 0); WREG32(IH_RB_WPTR, 0); rdev->ih.enabled = false; rdev->ih.rptr = 0; } static void si_disable_interrupt_state(struct radeon_device *rdev) { int i; u32 tmp; tmp = RREG32(CP_INT_CNTL_RING0) & (CNTX_BUSY_INT_ENABLE | CNTX_EMPTY_INT_ENABLE); WREG32(CP_INT_CNTL_RING0, tmp); WREG32(CP_INT_CNTL_RING1, 0); WREG32(CP_INT_CNTL_RING2, 0); tmp = RREG32(DMA_CNTL + DMA0_REGISTER_OFFSET) & ~TRAP_ENABLE; WREG32(DMA_CNTL + DMA0_REGISTER_OFFSET, tmp); tmp = RREG32(DMA_CNTL + DMA1_REGISTER_OFFSET) & ~TRAP_ENABLE; WREG32(DMA_CNTL + DMA1_REGISTER_OFFSET, tmp); WREG32(GRBM_INT_CNTL, 0); WREG32(SRBM_INT_CNTL, 0); for (i = 0; i < rdev->num_crtc; i++) WREG32(INT_MASK + crtc_offsets[i], 0); for (i = 0; i < rdev->num_crtc; i++) WREG32(GRPH_INT_CONTROL + crtc_offsets[i], 0); if (!ASIC_IS_NODCE(rdev)) { WREG32(DAC_AUTODETECT_INT_CONTROL, 0); for (i = 0; i < 6; i++) WREG32_AND(DC_HPDx_INT_CONTROL(i), DC_HPDx_INT_POLARITY); } } static int si_irq_init(struct radeon_device *rdev) { int ret = 0; int rb_bufsz; u32 interrupt_cntl, ih_cntl, ih_rb_cntl; /* allocate ring */ ret = r600_ih_ring_alloc(rdev); if (ret) return ret; /* disable irqs */ si_disable_interrupts(rdev); /* init rlc */ ret = si_rlc_resume(rdev); if (ret) { r600_ih_ring_fini(rdev); return ret; } /* setup interrupt control */ /* set dummy read address to dummy page address */ WREG32(INTERRUPT_CNTL2, rdev->dummy_page.addr >> 8); interrupt_cntl = RREG32(INTERRUPT_CNTL); /* IH_DUMMY_RD_OVERRIDE=0 - dummy read disabled with msi, enabled without msi * IH_DUMMY_RD_OVERRIDE=1 - dummy read controlled by IH_DUMMY_RD_EN */ interrupt_cntl &= ~IH_DUMMY_RD_OVERRIDE; /* IH_REQ_NONSNOOP_EN=1 if ring is in non-cacheable memory, e.g., vram */ interrupt_cntl &= ~IH_REQ_NONSNOOP_EN; WREG32(INTERRUPT_CNTL, interrupt_cntl); WREG32(IH_RB_BASE, rdev->ih.gpu_addr >> 8); rb_bufsz = order_base_2(rdev->ih.ring_size / 4); ih_rb_cntl = (IH_WPTR_OVERFLOW_ENABLE | IH_WPTR_OVERFLOW_CLEAR | (rb_bufsz << 1)); if (rdev->wb.enabled) ih_rb_cntl |= IH_WPTR_WRITEBACK_ENABLE; /* set the writeback address whether it's enabled or not */ WREG32(IH_RB_WPTR_ADDR_LO, (rdev->wb.gpu_addr + R600_WB_IH_WPTR_OFFSET) & 0xFFFFFFFC); WREG32(IH_RB_WPTR_ADDR_HI, upper_32_bits(rdev->wb.gpu_addr + R600_WB_IH_WPTR_OFFSET) & 0xFF); WREG32(IH_RB_CNTL, ih_rb_cntl); /* set rptr, wptr to 0 */ WREG32(IH_RB_RPTR, 0); WREG32(IH_RB_WPTR, 0); /* Default settings for IH_CNTL (disabled at first) */ ih_cntl = MC_WRREQ_CREDIT(0x10) | MC_WR_CLEAN_CNT(0x10) | MC_VMID(0); /* RPTR_REARM only works if msi's are enabled */ if (rdev->msi_enabled) ih_cntl |= RPTR_REARM; WREG32(IH_CNTL, ih_cntl); /* force the active interrupt state to all disabled */ si_disable_interrupt_state(rdev); pci_set_master(rdev->pdev); /* enable irqs */ si_enable_interrupts(rdev); return ret; } /* The order we write back each register here is important */ int si_irq_set(struct radeon_device *rdev) { int i; u32 cp_int_cntl; u32 cp_int_cntl1 = 0, cp_int_cntl2 = 0; u32 grbm_int_cntl = 0; u32 dma_cntl, dma_cntl1; u32 thermal_int = 0; if (!rdev->irq.installed) { WARN(1, "Can't enable IRQ/MSI because no handler is installed\n"); return -EINVAL; } /* don't enable anything if the ih is disabled */ if (!rdev->ih.enabled) { si_disable_interrupts(rdev); /* force the active interrupt state to all disabled */ si_disable_interrupt_state(rdev); return 0; } cp_int_cntl = RREG32(CP_INT_CNTL_RING0) & (CNTX_BUSY_INT_ENABLE | CNTX_EMPTY_INT_ENABLE); dma_cntl = RREG32(DMA_CNTL + DMA0_REGISTER_OFFSET) & ~TRAP_ENABLE; dma_cntl1 = RREG32(DMA_CNTL + DMA1_REGISTER_OFFSET) & ~TRAP_ENABLE; thermal_int = RREG32(CG_THERMAL_INT) & ~(THERM_INT_MASK_HIGH | THERM_INT_MASK_LOW); /* enable CP interrupts on all rings */ if (atomic_read(&rdev->irq.ring_int[RADEON_RING_TYPE_GFX_INDEX])) { DRM_DEBUG("si_irq_set: sw int gfx\n"); cp_int_cntl |= TIME_STAMP_INT_ENABLE; } if (atomic_read(&rdev->irq.ring_int[CAYMAN_RING_TYPE_CP1_INDEX])) { DRM_DEBUG("si_irq_set: sw int cp1\n"); cp_int_cntl1 |= TIME_STAMP_INT_ENABLE; } if (atomic_read(&rdev->irq.ring_int[CAYMAN_RING_TYPE_CP2_INDEX])) { DRM_DEBUG("si_irq_set: sw int cp2\n"); cp_int_cntl2 |= TIME_STAMP_INT_ENABLE; } if (atomic_read(&rdev->irq.ring_int[R600_RING_TYPE_DMA_INDEX])) { DRM_DEBUG("si_irq_set: sw int dma\n"); dma_cntl |= TRAP_ENABLE; } if (atomic_read(&rdev->irq.ring_int[CAYMAN_RING_TYPE_DMA1_INDEX])) { DRM_DEBUG("si_irq_set: sw int dma1\n"); dma_cntl1 |= TRAP_ENABLE; } WREG32(CP_INT_CNTL_RING0, cp_int_cntl); WREG32(CP_INT_CNTL_RING1, cp_int_cntl1); WREG32(CP_INT_CNTL_RING2, cp_int_cntl2); WREG32(DMA_CNTL + DMA0_REGISTER_OFFSET, dma_cntl); WREG32(DMA_CNTL + DMA1_REGISTER_OFFSET, dma_cntl1); WREG32(GRBM_INT_CNTL, grbm_int_cntl); if (rdev->irq.dpm_thermal) { DRM_DEBUG("dpm thermal\n"); thermal_int |= THERM_INT_MASK_HIGH | THERM_INT_MASK_LOW; } for (i = 0; i < rdev->num_crtc; i++) { radeon_irq_kms_set_irq_n_enabled( rdev, INT_MASK + crtc_offsets[i], VBLANK_INT_MASK, rdev->irq.crtc_vblank_int[i] || atomic_read(&rdev->irq.pflip[i]), "vblank", i); } for (i = 0; i < rdev->num_crtc; i++) WREG32(GRPH_INT_CONTROL + crtc_offsets[i], GRPH_PFLIP_INT_MASK); if (!ASIC_IS_NODCE(rdev)) { for (i = 0; i < 6; i++) { radeon_irq_kms_set_irq_n_enabled( rdev, DC_HPDx_INT_CONTROL(i), DC_HPDx_INT_EN | DC_HPDx_RX_INT_EN, rdev->irq.hpd[i], "HPD", i); } } WREG32(CG_THERMAL_INT, thermal_int); /* posting read */ RREG32(SRBM_STATUS); return 0; } /* The order we write back each register here is important */ static inline void si_irq_ack(struct radeon_device *rdev) { int i, j; u32 *disp_int = rdev->irq.stat_regs.evergreen.disp_int; u32 *grph_int = rdev->irq.stat_regs.evergreen.grph_int; if (ASIC_IS_NODCE(rdev)) return; for (i = 0; i < 6; i++) { disp_int[i] = RREG32(si_disp_int_status[i]); if (i < rdev->num_crtc) grph_int[i] = RREG32(GRPH_INT_STATUS + crtc_offsets[i]); } /* We write back each interrupt register in pairs of two */ for (i = 0; i < rdev->num_crtc; i += 2) { for (j = i; j < (i + 2); j++) { if (grph_int[j] & GRPH_PFLIP_INT_OCCURRED) WREG32(GRPH_INT_STATUS + crtc_offsets[j], GRPH_PFLIP_INT_CLEAR); } for (j = i; j < (i + 2); j++) { if (disp_int[j] & LB_D1_VBLANK_INTERRUPT) WREG32(VBLANK_STATUS + crtc_offsets[j], VBLANK_ACK); if (disp_int[j] & LB_D1_VLINE_INTERRUPT) WREG32(VLINE_STATUS + crtc_offsets[j], VLINE_ACK); } } for (i = 0; i < 6; i++) { if (disp_int[i] & DC_HPD1_INTERRUPT) WREG32_OR(DC_HPDx_INT_CONTROL(i), DC_HPDx_INT_ACK); } for (i = 0; i < 6; i++) { if (disp_int[i] & DC_HPD1_RX_INTERRUPT) WREG32_OR(DC_HPDx_INT_CONTROL(i), DC_HPDx_RX_INT_ACK); } } static void si_irq_disable(struct radeon_device *rdev) { si_disable_interrupts(rdev); /* Wait and acknowledge irq */ mdelay(1); si_irq_ack(rdev); si_disable_interrupt_state(rdev); } static void si_irq_suspend(struct radeon_device *rdev) { si_irq_disable(rdev); si_rlc_stop(rdev); } static void si_irq_fini(struct radeon_device *rdev) { si_irq_suspend(rdev); r600_ih_ring_fini(rdev); } static inline u32 si_get_ih_wptr(struct radeon_device *rdev) { u32 wptr, tmp; if (rdev->wb.enabled) wptr = le32_to_cpu(rdev->wb.wb[R600_WB_IH_WPTR_OFFSET/4]); else wptr = RREG32(IH_RB_WPTR); if (wptr & RB_OVERFLOW) { wptr &= ~RB_OVERFLOW; /* When a ring buffer overflow happen start parsing interrupt * from the last not overwritten vector (wptr + 16). Hopefully * this should allow us to catchup. */ dev_warn(rdev->dev, "IH ring buffer overflow (0x%08X, 0x%08X, 0x%08X)\n", wptr, rdev->ih.rptr, (wptr + 16) & rdev->ih.ptr_mask); rdev->ih.rptr = (wptr + 16) & rdev->ih.ptr_mask; tmp = RREG32(IH_RB_CNTL); tmp |= IH_WPTR_OVERFLOW_CLEAR; WREG32(IH_RB_CNTL, tmp); } return (wptr & rdev->ih.ptr_mask); } /* SI IV Ring * Each IV ring entry is 128 bits: * [7:0] - interrupt source id * [31:8] - reserved * [59:32] - interrupt source data * [63:60] - reserved * [71:64] - RINGID * [79:72] - VMID * [127:80] - reserved */ int si_irq_process(struct radeon_device *rdev) { u32 *disp_int = rdev->irq.stat_regs.evergreen.disp_int; u32 crtc_idx, hpd_idx; u32 mask; u32 wptr; u32 rptr; u32 src_id, src_data, ring_id; u32 ring_index; bool queue_hotplug = false; bool queue_dp = false; bool queue_thermal = false; u32 status, addr; const char *event_name; if (!rdev->ih.enabled || rdev->shutdown) return IRQ_NONE; wptr = si_get_ih_wptr(rdev); restart_ih: /* is somebody else already processing irqs? */ if (atomic_xchg(&rdev->ih.lock, 1)) return IRQ_NONE; rptr = rdev->ih.rptr; DRM_DEBUG("si_irq_process start: rptr %d, wptr %d\n", rptr, wptr); /* Order reading of wptr vs. reading of IH ring data */ rmb(); /* display interrupts */ si_irq_ack(rdev); while (rptr != wptr) { /* wptr/rptr are in bytes! */ ring_index = rptr / 4; src_id = le32_to_cpu(rdev->ih.ring[ring_index]) & 0xff; src_data = le32_to_cpu(rdev->ih.ring[ring_index + 1]) & 0xfffffff; ring_id = le32_to_cpu(rdev->ih.ring[ring_index + 2]) & 0xff; switch (src_id) { case 1: /* D1 vblank/vline */ case 2: /* D2 vblank/vline */ case 3: /* D3 vblank/vline */ case 4: /* D4 vblank/vline */ case 5: /* D5 vblank/vline */ case 6: /* D6 vblank/vline */ crtc_idx = src_id - 1; if (src_data == 0) { /* vblank */ mask = LB_D1_VBLANK_INTERRUPT; event_name = "vblank"; if (rdev->irq.crtc_vblank_int[crtc_idx]) { drm_handle_vblank(rdev->ddev, crtc_idx); rdev->pm.vblank_sync = true; wake_up(&rdev->irq.vblank_queue); } if (atomic_read(&rdev->irq.pflip[crtc_idx])) { radeon_crtc_handle_vblank(rdev, crtc_idx); } } else if (src_data == 1) { /* vline */ mask = LB_D1_VLINE_INTERRUPT; event_name = "vline"; } else { DRM_DEBUG("Unhandled interrupt: %d %d\n", src_id, src_data); break; } if (!(disp_int[crtc_idx] & mask)) { DRM_DEBUG("IH: D%d %s - IH event w/o asserted irq bit?\n", crtc_idx + 1, event_name); } disp_int[crtc_idx] &= ~mask; DRM_DEBUG("IH: D%d %s\n", crtc_idx + 1, event_name); break; case 8: /* D1 page flip */ case 10: /* D2 page flip */ case 12: /* D3 page flip */ case 14: /* D4 page flip */ case 16: /* D5 page flip */ case 18: /* D6 page flip */ DRM_DEBUG("IH: D%d flip\n", ((src_id - 8) >> 1) + 1); if (radeon_use_pflipirq > 0) radeon_crtc_handle_flip(rdev, (src_id - 8) >> 1); break; case 42: /* HPD hotplug */ if (src_data <= 5) { hpd_idx = src_data; mask = DC_HPD1_INTERRUPT; queue_hotplug = true; event_name = "HPD"; } else if (src_data <= 11) { hpd_idx = src_data - 6; mask = DC_HPD1_RX_INTERRUPT; queue_dp = true; event_name = "HPD_RX"; } else { DRM_DEBUG("Unhandled interrupt: %d %d\n", src_id, src_data); break; } if (!(disp_int[hpd_idx] & mask)) DRM_DEBUG("IH: IH event w/o asserted irq bit?\n"); disp_int[hpd_idx] &= ~mask; DRM_DEBUG("IH: %s%d\n", event_name, hpd_idx + 1); break; case 96: DRM_ERROR("SRBM_READ_ERROR: 0x%x\n", RREG32(SRBM_READ_ERROR)); WREG32(SRBM_INT_ACK, 0x1); break; case 124: /* UVD */ DRM_DEBUG("IH: UVD int: 0x%08x\n", src_data); radeon_fence_process(rdev, R600_RING_TYPE_UVD_INDEX); break; case 146: case 147: addr = RREG32(VM_CONTEXT1_PROTECTION_FAULT_ADDR); status = RREG32(VM_CONTEXT1_PROTECTION_FAULT_STATUS); /* reset addr and status */ WREG32_P(VM_CONTEXT1_CNTL2, 1, ~1); if (addr == 0x0 && status == 0x0) break; dev_err(rdev->dev, "GPU fault detected: %d 0x%08x\n", src_id, src_data); dev_err(rdev->dev, " VM_CONTEXT1_PROTECTION_FAULT_ADDR 0x%08X\n", addr); dev_err(rdev->dev, " VM_CONTEXT1_PROTECTION_FAULT_STATUS 0x%08X\n", status); si_vm_decode_fault(rdev, status, addr); break; case 176: /* RINGID0 CP_INT */ radeon_fence_process(rdev, RADEON_RING_TYPE_GFX_INDEX); break; case 177: /* RINGID1 CP_INT */ radeon_fence_process(rdev, CAYMAN_RING_TYPE_CP1_INDEX); break; case 178: /* RINGID2 CP_INT */ radeon_fence_process(rdev, CAYMAN_RING_TYPE_CP2_INDEX); break; case 181: /* CP EOP event */ DRM_DEBUG("IH: CP EOP\n"); switch (ring_id) { case 0: radeon_fence_process(rdev, RADEON_RING_TYPE_GFX_INDEX); break; case 1: radeon_fence_process(rdev, CAYMAN_RING_TYPE_CP1_INDEX); break; case 2: radeon_fence_process(rdev, CAYMAN_RING_TYPE_CP2_INDEX); break; } break; case 224: /* DMA trap event */ DRM_DEBUG("IH: DMA trap\n"); radeon_fence_process(rdev, R600_RING_TYPE_DMA_INDEX); break; case 230: /* thermal low to high */ DRM_DEBUG("IH: thermal low to high\n"); rdev->pm.dpm.thermal.high_to_low = false; queue_thermal = true; break; case 231: /* thermal high to low */ DRM_DEBUG("IH: thermal high to low\n"); rdev->pm.dpm.thermal.high_to_low = true; queue_thermal = true; break; case 233: /* GUI IDLE */ DRM_DEBUG("IH: GUI idle\n"); break; case 244: /* DMA trap event */ DRM_DEBUG("IH: DMA1 trap\n"); radeon_fence_process(rdev, CAYMAN_RING_TYPE_DMA1_INDEX); break; default: DRM_DEBUG("Unhandled interrupt: %d %d\n", src_id, src_data); break; } /* wptr/rptr are in bytes! */ rptr += 16; rptr &= rdev->ih.ptr_mask; WREG32(IH_RB_RPTR, rptr); } if (queue_dp) schedule_work(&rdev->dp_work); if (queue_hotplug) schedule_delayed_work(&rdev->hotplug_work, 0); if (queue_thermal && rdev->pm.dpm_enabled) schedule_work(&rdev->pm.dpm.thermal.work); rdev->ih.rptr = rptr; atomic_set(&rdev->ih.lock, 0); /* make sure wptr hasn't changed while processing */ wptr = si_get_ih_wptr(rdev); if (wptr != rptr) goto restart_ih; return IRQ_HANDLED; } /* * startup/shutdown callbacks */ static void si_uvd_init(struct radeon_device *rdev) { int r; if (!rdev->has_uvd) return; r = radeon_uvd_init(rdev); if (r) { dev_err(rdev->dev, "failed UVD (%d) init.\n", r); /* * At this point rdev->uvd.vcpu_bo is NULL which trickles down * to early fails uvd_v2_2_resume() and thus nothing happens * there. So it is pointless to try to go through that code * hence why we disable uvd here. */ rdev->has_uvd = false; return; } rdev->ring[R600_RING_TYPE_UVD_INDEX].ring_obj = NULL; r600_ring_init(rdev, &rdev->ring[R600_RING_TYPE_UVD_INDEX], 4096); } static void si_uvd_start(struct radeon_device *rdev) { int r; if (!rdev->has_uvd) return; r = uvd_v2_2_resume(rdev); if (r) { dev_err(rdev->dev, "failed UVD resume (%d).\n", r); goto error; } r = radeon_fence_driver_start_ring(rdev, R600_RING_TYPE_UVD_INDEX); if (r) { dev_err(rdev->dev, "failed initializing UVD fences (%d).\n", r); goto error; } return; error: rdev->ring[R600_RING_TYPE_UVD_INDEX].ring_size = 0; } static void si_uvd_resume(struct radeon_device *rdev) { struct radeon_ring *ring; int r; if (!rdev->has_uvd || !rdev->ring[R600_RING_TYPE_UVD_INDEX].ring_size) return; ring = &rdev->ring[R600_RING_TYPE_UVD_INDEX]; r = radeon_ring_init(rdev, ring, ring->ring_size, 0, PACKET0(UVD_NO_OP, 0)); if (r) { dev_err(rdev->dev, "failed initializing UVD ring (%d).\n", r); return; } r = uvd_v1_0_init(rdev); if (r) { dev_err(rdev->dev, "failed initializing UVD (%d).\n", r); return; } } static void si_vce_init(struct radeon_device *rdev) { int r; if (!rdev->has_vce) return; r = radeon_vce_init(rdev); if (r) { dev_err(rdev->dev, "failed VCE (%d) init.\n", r); /* * At this point rdev->vce.vcpu_bo is NULL which trickles down * to early fails si_vce_start() and thus nothing happens * there. So it is pointless to try to go through that code * hence why we disable vce here. */ rdev->has_vce = false; return; } rdev->ring[TN_RING_TYPE_VCE1_INDEX].ring_obj = NULL; r600_ring_init(rdev, &rdev->ring[TN_RING_TYPE_VCE1_INDEX], 4096); rdev->ring[TN_RING_TYPE_VCE2_INDEX].ring_obj = NULL; r600_ring_init(rdev, &rdev->ring[TN_RING_TYPE_VCE2_INDEX], 4096); } static void si_vce_start(struct radeon_device *rdev) { int r; if (!rdev->has_vce) return; r = radeon_vce_resume(rdev); if (r) { dev_err(rdev->dev, "failed VCE resume (%d).\n", r); goto error; } r = vce_v1_0_resume(rdev); if (r) { dev_err(rdev->dev, "failed VCE resume (%d).\n", r); goto error; } r = radeon_fence_driver_start_ring(rdev, TN_RING_TYPE_VCE1_INDEX); if (r) { dev_err(rdev->dev, "failed initializing VCE1 fences (%d).\n", r); goto error; } r = radeon_fence_driver_start_ring(rdev, TN_RING_TYPE_VCE2_INDEX); if (r) { dev_err(rdev->dev, "failed initializing VCE2 fences (%d).\n", r); goto error; } return; error: rdev->ring[TN_RING_TYPE_VCE1_INDEX].ring_size = 0; rdev->ring[TN_RING_TYPE_VCE2_INDEX].ring_size = 0; } static void si_vce_resume(struct radeon_device *rdev) { struct radeon_ring *ring; int r; if (!rdev->has_vce || !rdev->ring[TN_RING_TYPE_VCE1_INDEX].ring_size) return; ring = &rdev->ring[TN_RING_TYPE_VCE1_INDEX]; r = radeon_ring_init(rdev, ring, ring->ring_size, 0, VCE_CMD_NO_OP); if (r) { dev_err(rdev->dev, "failed initializing VCE1 ring (%d).\n", r); return; } ring = &rdev->ring[TN_RING_TYPE_VCE2_INDEX]; r = radeon_ring_init(rdev, ring, ring->ring_size, 0, VCE_CMD_NO_OP); if (r) { dev_err(rdev->dev, "failed initializing VCE1 ring (%d).\n", r); return; } r = vce_v1_0_init(rdev); if (r) { dev_err(rdev->dev, "failed initializing VCE (%d).\n", r); return; } } static int si_startup(struct radeon_device *rdev) { struct radeon_ring *ring; int r; /* enable pcie gen2/3 link */ si_pcie_gen3_enable(rdev); /* enable aspm */ si_program_aspm(rdev); /* scratch needs to be initialized before MC */ r = r600_vram_scratch_init(rdev); if (r) return r; si_mc_program(rdev); if (!rdev->pm.dpm_enabled) { r = si_mc_load_microcode(rdev); if (r) { DRM_ERROR("Failed to load MC firmware!\n"); return r; } } r = si_pcie_gart_enable(rdev); if (r) return r; si_gpu_init(rdev); /* allocate rlc buffers */ if (rdev->family == CHIP_VERDE) { rdev->rlc.reg_list = verde_rlc_save_restore_register_list; rdev->rlc.reg_list_size = (u32)ARRAY_SIZE(verde_rlc_save_restore_register_list); } rdev->rlc.cs_data = si_cs_data; r = sumo_rlc_init(rdev); if (r) { DRM_ERROR("Failed to init rlc BOs!\n"); return r; } /* allocate wb buffer */ r = radeon_wb_init(rdev); if (r) return r; r = radeon_fence_driver_start_ring(rdev, RADEON_RING_TYPE_GFX_INDEX); if (r) { dev_err(rdev->dev, "failed initializing CP fences (%d).\n", r); return r; } r = radeon_fence_driver_start_ring(rdev, CAYMAN_RING_TYPE_CP1_INDEX); if (r) { dev_err(rdev->dev, "failed initializing CP fences (%d).\n", r); return r; } r = radeon_fence_driver_start_ring(rdev, CAYMAN_RING_TYPE_CP2_INDEX); if (r) { dev_err(rdev->dev, "failed initializing CP fences (%d).\n", r); return r; } r = radeon_fence_driver_start_ring(rdev, R600_RING_TYPE_DMA_INDEX); if (r) { dev_err(rdev->dev, "failed initializing DMA fences (%d).\n", r); return r; } r = radeon_fence_driver_start_ring(rdev, CAYMAN_RING_TYPE_DMA1_INDEX); if (r) { dev_err(rdev->dev, "failed initializing DMA fences (%d).\n", r); return r; } si_uvd_start(rdev); si_vce_start(rdev); /* Enable IRQ */ if (!rdev->irq.installed) { r = radeon_irq_kms_init(rdev); if (r) return r; } r = si_irq_init(rdev); if (r) { DRM_ERROR("radeon: IH init failed (%d).\n", r); radeon_irq_kms_fini(rdev); return r; } si_irq_set(rdev); ring = &rdev->ring[RADEON_RING_TYPE_GFX_INDEX]; r = radeon_ring_init(rdev, ring, ring->ring_size, RADEON_WB_CP_RPTR_OFFSET, RADEON_CP_PACKET2); if (r) return r; ring = &rdev->ring[CAYMAN_RING_TYPE_CP1_INDEX]; r = radeon_ring_init(rdev, ring, ring->ring_size, RADEON_WB_CP1_RPTR_OFFSET, RADEON_CP_PACKET2); if (r) return r; ring = &rdev->ring[CAYMAN_RING_TYPE_CP2_INDEX]; r = radeon_ring_init(rdev, ring, ring->ring_size, RADEON_WB_CP2_RPTR_OFFSET, RADEON_CP_PACKET2); if (r) return r; ring = &rdev->ring[R600_RING_TYPE_DMA_INDEX]; r = radeon_ring_init(rdev, ring, ring->ring_size, R600_WB_DMA_RPTR_OFFSET, DMA_PACKET(DMA_PACKET_NOP, 0, 0, 0, 0)); if (r) return r; ring = &rdev->ring[CAYMAN_RING_TYPE_DMA1_INDEX]; r = radeon_ring_init(rdev, ring, ring->ring_size, CAYMAN_WB_DMA1_RPTR_OFFSET, DMA_PACKET(DMA_PACKET_NOP, 0, 0, 0, 0)); if (r) return r; r = si_cp_load_microcode(rdev); if (r) return r; r = si_cp_resume(rdev); if (r) return r; r = cayman_dma_resume(rdev); if (r) return r; si_uvd_resume(rdev); si_vce_resume(rdev); r = radeon_ib_pool_init(rdev); if (r) { dev_err(rdev->dev, "IB initialization failed (%d).\n", r); return r; } r = radeon_vm_manager_init(rdev); if (r) { dev_err(rdev->dev, "vm manager initialization failed (%d).\n", r); return r; } r = radeon_audio_init(rdev); if (r) return r; return 0; } int si_resume(struct radeon_device *rdev) { int r; /* Do not reset GPU before posting, on rv770 hw unlike on r500 hw, * posting will perform necessary task to bring back GPU into good * shape. */ /* post card */ atom_asic_init(rdev->mode_info.atom_context); /* init golden registers */ si_init_golden_registers(rdev); if (rdev->pm.pm_method == PM_METHOD_DPM) radeon_pm_resume(rdev); rdev->accel_working = true; r = si_startup(rdev); if (r) { DRM_ERROR("si startup failed on resume\n"); rdev->accel_working = false; return r; } return r; } int si_suspend(struct radeon_device *rdev) { radeon_pm_suspend(rdev); radeon_audio_fini(rdev); radeon_vm_manager_fini(rdev); si_cp_enable(rdev, false); cayman_dma_stop(rdev); if (rdev->has_uvd) { radeon_uvd_suspend(rdev); uvd_v1_0_fini(rdev); } if (rdev->has_vce) radeon_vce_suspend(rdev); si_fini_pg(rdev); si_fini_cg(rdev); si_irq_suspend(rdev); radeon_wb_disable(rdev); si_pcie_gart_disable(rdev); return 0; } /* Plan is to move initialization in that function and use * helper function so that radeon_device_init pretty much * do nothing more than calling asic specific function. This * should also allow to remove a bunch of callback function * like vram_info. */ int si_init(struct radeon_device *rdev) { struct radeon_ring *ring = &rdev->ring[RADEON_RING_TYPE_GFX_INDEX]; int r; /* Read BIOS */ if (!radeon_get_bios(rdev)) { if (ASIC_IS_AVIVO(rdev)) return -EINVAL; } /* Must be an ATOMBIOS */ if (!rdev->is_atom_bios) { dev_err(rdev->dev, "Expecting atombios for cayman GPU\n"); return -EINVAL; } r = radeon_atombios_init(rdev); if (r) return r; /* Post card if necessary */ if (!radeon_card_posted(rdev)) { if (!rdev->bios) { dev_err(rdev->dev, "Card not posted and no BIOS - ignoring\n"); return -EINVAL; } DRM_INFO("GPU not posted. posting now...\n"); atom_asic_init(rdev->mode_info.atom_context); } /* init golden registers */ si_init_golden_registers(rdev); /* Initialize scratch registers */ si_scratch_init(rdev); /* Initialize surface registers */ radeon_surface_init(rdev); /* Initialize clocks */ radeon_get_clock_info(rdev->ddev); /* Fence driver */ radeon_fence_driver_init(rdev); /* initialize memory controller */ r = si_mc_init(rdev); if (r) return r; /* Memory manager */ r = radeon_bo_init(rdev); if (r) return r; if (!rdev->me_fw || !rdev->pfp_fw || !rdev->ce_fw || !rdev->rlc_fw || !rdev->mc_fw) { r = si_init_microcode(rdev); if (r) { DRM_ERROR("Failed to load firmware!\n"); return r; } } /* Initialize power management */ radeon_pm_init(rdev); ring = &rdev->ring[RADEON_RING_TYPE_GFX_INDEX]; ring->ring_obj = NULL; r600_ring_init(rdev, ring, 1024 * 1024); ring = &rdev->ring[CAYMAN_RING_TYPE_CP1_INDEX]; ring->ring_obj = NULL; r600_ring_init(rdev, ring, 1024 * 1024); ring = &rdev->ring[CAYMAN_RING_TYPE_CP2_INDEX]; ring->ring_obj = NULL; r600_ring_init(rdev, ring, 1024 * 1024); ring = &rdev->ring[R600_RING_TYPE_DMA_INDEX]; ring->ring_obj = NULL; r600_ring_init(rdev, ring, 64 * 1024); ring = &rdev->ring[CAYMAN_RING_TYPE_DMA1_INDEX]; ring->ring_obj = NULL; r600_ring_init(rdev, ring, 64 * 1024); si_uvd_init(rdev); si_vce_init(rdev); rdev->ih.ring_obj = NULL; r600_ih_ring_init(rdev, 64 * 1024); r = r600_pcie_gart_init(rdev); if (r) return r; rdev->accel_working = true; r = si_startup(rdev); if (r) { dev_err(rdev->dev, "disabling GPU acceleration\n"); si_cp_fini(rdev); cayman_dma_fini(rdev); si_irq_fini(rdev); sumo_rlc_fini(rdev); radeon_wb_fini(rdev); radeon_ib_pool_fini(rdev); radeon_vm_manager_fini(rdev); radeon_irq_kms_fini(rdev); si_pcie_gart_fini(rdev); rdev->accel_working = false; } /* Don't start up if the MC ucode is missing. * The default clocks and voltages before the MC ucode * is loaded are not suffient for advanced operations. */ if (!rdev->mc_fw) { DRM_ERROR("radeon: MC ucode required for NI+.\n"); return -EINVAL; } return 0; } void si_fini(struct radeon_device *rdev) { radeon_pm_fini(rdev); si_cp_fini(rdev); cayman_dma_fini(rdev); si_fini_pg(rdev); si_fini_cg(rdev); si_irq_fini(rdev); sumo_rlc_fini(rdev); radeon_wb_fini(rdev); radeon_vm_manager_fini(rdev); radeon_ib_pool_fini(rdev); radeon_irq_kms_fini(rdev); if (rdev->has_uvd) { uvd_v1_0_fini(rdev); radeon_uvd_fini(rdev); } if (rdev->has_vce) radeon_vce_fini(rdev); si_pcie_gart_fini(rdev); r600_vram_scratch_fini(rdev); radeon_gem_fini(rdev); radeon_fence_driver_fini(rdev); radeon_bo_fini(rdev); radeon_atombios_fini(rdev); kfree(rdev->bios); rdev->bios = NULL; } /** * si_get_gpu_clock_counter - return GPU clock counter snapshot * * @rdev: radeon_device pointer * * Fetches a GPU clock counter snapshot (SI). * Returns the 64 bit clock counter snapshot. */ uint64_t si_get_gpu_clock_counter(struct radeon_device *rdev) { uint64_t clock; mutex_lock(&rdev->gpu_clock_mutex); WREG32(RLC_CAPTURE_GPU_CLOCK_COUNT, 1); clock = (uint64_t)RREG32(RLC_GPU_CLOCK_COUNT_LSB) | ((uint64_t)RREG32(RLC_GPU_CLOCK_COUNT_MSB) << 32ULL); mutex_unlock(&rdev->gpu_clock_mutex); return clock; } int si_set_uvd_clocks(struct radeon_device *rdev, u32 vclk, u32 dclk) { unsigned fb_div = 0, vclk_div = 0, dclk_div = 0; int r; /* bypass vclk and dclk with bclk */ WREG32_P(CG_UPLL_FUNC_CNTL_2, VCLK_SRC_SEL(1) | DCLK_SRC_SEL(1), ~(VCLK_SRC_SEL_MASK | DCLK_SRC_SEL_MASK)); /* put PLL in bypass mode */ WREG32_P(CG_UPLL_FUNC_CNTL, UPLL_BYPASS_EN_MASK, ~UPLL_BYPASS_EN_MASK); if (!vclk || !dclk) { /* keep the Bypass mode */ return 0; } r = radeon_uvd_calc_upll_dividers(rdev, vclk, dclk, 125000, 250000, 16384, 0x03FFFFFF, 0, 128, 5, &fb_div, &vclk_div, &dclk_div); if (r) return r; /* set RESET_ANTI_MUX to 0 */ WREG32_P(CG_UPLL_FUNC_CNTL_5, 0, ~RESET_ANTI_MUX_MASK); /* set VCO_MODE to 1 */ WREG32_P(CG_UPLL_FUNC_CNTL, UPLL_VCO_MODE_MASK, ~UPLL_VCO_MODE_MASK); /* disable sleep mode */ WREG32_P(CG_UPLL_FUNC_CNTL, 0, ~UPLL_SLEEP_MASK); /* deassert UPLL_RESET */ WREG32_P(CG_UPLL_FUNC_CNTL, 0, ~UPLL_RESET_MASK); mdelay(1); r = radeon_uvd_send_upll_ctlreq(rdev, CG_UPLL_FUNC_CNTL); if (r) return r; /* assert UPLL_RESET again */ WREG32_P(CG_UPLL_FUNC_CNTL, UPLL_RESET_MASK, ~UPLL_RESET_MASK); /* disable spread spectrum. */ WREG32_P(CG_UPLL_SPREAD_SPECTRUM, 0, ~SSEN_MASK); /* set feedback divider */ WREG32_P(CG_UPLL_FUNC_CNTL_3, UPLL_FB_DIV(fb_div), ~UPLL_FB_DIV_MASK); /* set ref divider to 0 */ WREG32_P(CG_UPLL_FUNC_CNTL, 0, ~UPLL_REF_DIV_MASK); if (fb_div < 307200) WREG32_P(CG_UPLL_FUNC_CNTL_4, 0, ~UPLL_SPARE_ISPARE9); else WREG32_P(CG_UPLL_FUNC_CNTL_4, UPLL_SPARE_ISPARE9, ~UPLL_SPARE_ISPARE9); /* set PDIV_A and PDIV_B */ WREG32_P(CG_UPLL_FUNC_CNTL_2, UPLL_PDIV_A(vclk_div) | UPLL_PDIV_B(dclk_div), ~(UPLL_PDIV_A_MASK | UPLL_PDIV_B_MASK)); /* give the PLL some time to settle */ mdelay(15); /* deassert PLL_RESET */ WREG32_P(CG_UPLL_FUNC_CNTL, 0, ~UPLL_RESET_MASK); mdelay(15); /* switch from bypass mode to normal mode */ WREG32_P(CG_UPLL_FUNC_CNTL, 0, ~UPLL_BYPASS_EN_MASK); r = radeon_uvd_send_upll_ctlreq(rdev, CG_UPLL_FUNC_CNTL); if (r) return r; /* switch VCLK and DCLK selection */ WREG32_P(CG_UPLL_FUNC_CNTL_2, VCLK_SRC_SEL(2) | DCLK_SRC_SEL(2), ~(VCLK_SRC_SEL_MASK | DCLK_SRC_SEL_MASK)); mdelay(100); return 0; } static void si_pcie_gen3_enable(struct radeon_device *rdev) { struct pci_dev *root = rdev->pdev->bus->self; enum pci_bus_speed speed_cap; u32 speed_cntl, current_data_rate; int i; u16 tmp16; if (pci_is_root_bus(rdev->pdev->bus)) return; if (radeon_pcie_gen2 == 0) return; if (rdev->flags & RADEON_IS_IGP) return; if (!(rdev->flags & RADEON_IS_PCIE)) return; speed_cap = pcie_get_speed_cap(root); if (speed_cap == PCI_SPEED_UNKNOWN) return; if ((speed_cap != PCIE_SPEED_8_0GT) && (speed_cap != PCIE_SPEED_5_0GT)) return; speed_cntl = RREG32_PCIE_PORT(PCIE_LC_SPEED_CNTL); current_data_rate = (speed_cntl & LC_CURRENT_DATA_RATE_MASK) >> LC_CURRENT_DATA_RATE_SHIFT; if (speed_cap == PCIE_SPEED_8_0GT) { if (current_data_rate == 2) { DRM_INFO("PCIE gen 3 link speeds already enabled\n"); return; } DRM_INFO("enabling PCIE gen 3 link speeds, disable with radeon.pcie_gen2=0\n"); } else if (speed_cap == PCIE_SPEED_5_0GT) { if (current_data_rate == 1) { DRM_INFO("PCIE gen 2 link speeds already enabled\n"); return; } DRM_INFO("enabling PCIE gen 2 link speeds, disable with radeon.pcie_gen2=0\n"); } if (!pci_is_pcie(root) || !pci_is_pcie(rdev->pdev)) return; if (speed_cap == PCIE_SPEED_8_0GT) { /* re-try equalization if gen3 is not already enabled */ if (current_data_rate != 2) { u16 bridge_cfg, gpu_cfg; u16 bridge_cfg2, gpu_cfg2; u32 max_lw, current_lw, tmp; pcie_capability_read_word(root, PCI_EXP_LNKCTL, &bridge_cfg); pcie_capability_read_word(rdev->pdev, PCI_EXP_LNKCTL, &gpu_cfg); tmp16 = bridge_cfg | PCI_EXP_LNKCTL_HAWD; pcie_capability_write_word(root, PCI_EXP_LNKCTL, tmp16); tmp16 = gpu_cfg | PCI_EXP_LNKCTL_HAWD; pcie_capability_write_word(rdev->pdev, PCI_EXP_LNKCTL, tmp16); tmp = RREG32_PCIE(PCIE_LC_STATUS1); max_lw = (tmp & LC_DETECTED_LINK_WIDTH_MASK) >> LC_DETECTED_LINK_WIDTH_SHIFT; current_lw = (tmp & LC_OPERATING_LINK_WIDTH_MASK) >> LC_OPERATING_LINK_WIDTH_SHIFT; if (current_lw < max_lw) { tmp = RREG32_PCIE_PORT(PCIE_LC_LINK_WIDTH_CNTL); if (tmp & LC_RENEGOTIATION_SUPPORT) { tmp &= ~(LC_LINK_WIDTH_MASK | LC_UPCONFIGURE_DIS); tmp |= (max_lw << LC_LINK_WIDTH_SHIFT); tmp |= LC_UPCONFIGURE_SUPPORT | LC_RENEGOTIATE_EN | LC_RECONFIG_NOW; WREG32_PCIE_PORT(PCIE_LC_LINK_WIDTH_CNTL, tmp); } } for (i = 0; i < 10; i++) { /* check status */ pcie_capability_read_word(rdev->pdev, PCI_EXP_DEVSTA, &tmp16); if (tmp16 & PCI_EXP_DEVSTA_TRPND) break; pcie_capability_read_word(root, PCI_EXP_LNKCTL, &bridge_cfg); pcie_capability_read_word(rdev->pdev, PCI_EXP_LNKCTL, &gpu_cfg); pcie_capability_read_word(root, PCI_EXP_LNKCTL2, &bridge_cfg2); pcie_capability_read_word(rdev->pdev, PCI_EXP_LNKCTL2, &gpu_cfg2); tmp = RREG32_PCIE_PORT(PCIE_LC_CNTL4); tmp |= LC_SET_QUIESCE; WREG32_PCIE_PORT(PCIE_LC_CNTL4, tmp); tmp = RREG32_PCIE_PORT(PCIE_LC_CNTL4); tmp |= LC_REDO_EQ; WREG32_PCIE_PORT(PCIE_LC_CNTL4, tmp); msleep(100); /* linkctl */ pcie_capability_read_word(root, PCI_EXP_LNKCTL, &tmp16); tmp16 &= ~PCI_EXP_LNKCTL_HAWD; tmp16 |= (bridge_cfg & PCI_EXP_LNKCTL_HAWD); pcie_capability_write_word(root, PCI_EXP_LNKCTL, tmp16); pcie_capability_read_word(rdev->pdev, PCI_EXP_LNKCTL, &tmp16); tmp16 &= ~PCI_EXP_LNKCTL_HAWD; tmp16 |= (gpu_cfg & PCI_EXP_LNKCTL_HAWD); pcie_capability_write_word(rdev->pdev, PCI_EXP_LNKCTL, tmp16); /* linkctl2 */ pcie_capability_read_word(root, PCI_EXP_LNKCTL2, &tmp16); tmp16 &= ~(PCI_EXP_LNKCTL2_ENTER_COMP | PCI_EXP_LNKCTL2_TX_MARGIN); tmp16 |= (bridge_cfg2 & (PCI_EXP_LNKCTL2_ENTER_COMP | PCI_EXP_LNKCTL2_TX_MARGIN)); pcie_capability_write_word(root, PCI_EXP_LNKCTL2, tmp16); pcie_capability_read_word(rdev->pdev, PCI_EXP_LNKCTL2, &tmp16); tmp16 &= ~(PCI_EXP_LNKCTL2_ENTER_COMP | PCI_EXP_LNKCTL2_TX_MARGIN); tmp16 |= (gpu_cfg2 & (PCI_EXP_LNKCTL2_ENTER_COMP | PCI_EXP_LNKCTL2_TX_MARGIN)); pcie_capability_write_word(rdev->pdev, PCI_EXP_LNKCTL2, tmp16); tmp = RREG32_PCIE_PORT(PCIE_LC_CNTL4); tmp &= ~LC_SET_QUIESCE; WREG32_PCIE_PORT(PCIE_LC_CNTL4, tmp); } } } /* set the link speed */ speed_cntl |= LC_FORCE_EN_SW_SPEED_CHANGE | LC_FORCE_DIS_HW_SPEED_CHANGE; speed_cntl &= ~LC_FORCE_DIS_SW_SPEED_CHANGE; WREG32_PCIE_PORT(PCIE_LC_SPEED_CNTL, speed_cntl); pcie_capability_read_word(rdev->pdev, PCI_EXP_LNKCTL2, &tmp16); tmp16 &= ~PCI_EXP_LNKCTL2_TLS; if (speed_cap == PCIE_SPEED_8_0GT) tmp16 |= PCI_EXP_LNKCTL2_TLS_8_0GT; /* gen3 */ else if (speed_cap == PCIE_SPEED_5_0GT) tmp16 |= PCI_EXP_LNKCTL2_TLS_5_0GT; /* gen2 */ else tmp16 |= PCI_EXP_LNKCTL2_TLS_2_5GT; /* gen1 */ pcie_capability_write_word(rdev->pdev, PCI_EXP_LNKCTL2, tmp16); speed_cntl = RREG32_PCIE_PORT(PCIE_LC_SPEED_CNTL); speed_cntl |= LC_INITIATE_LINK_SPEED_CHANGE; WREG32_PCIE_PORT(PCIE_LC_SPEED_CNTL, speed_cntl); for (i = 0; i < rdev->usec_timeout; i++) { speed_cntl = RREG32_PCIE_PORT(PCIE_LC_SPEED_CNTL); if ((speed_cntl & LC_INITIATE_LINK_SPEED_CHANGE) == 0) break; udelay(1); } } static void si_program_aspm(struct radeon_device *rdev) { u32 data, orig; bool disable_l0s = false, disable_l1 = false, disable_plloff_in_l1 = false; bool disable_clkreq = false; if (radeon_aspm == 0) return; if (!(rdev->flags & RADEON_IS_PCIE)) return; orig = data = RREG32_PCIE_PORT(PCIE_LC_N_FTS_CNTL); data &= ~LC_XMIT_N_FTS_MASK; data |= LC_XMIT_N_FTS(0x24) | LC_XMIT_N_FTS_OVERRIDE_EN; if (orig != data) WREG32_PCIE_PORT(PCIE_LC_N_FTS_CNTL, data); orig = data = RREG32_PCIE_PORT(PCIE_LC_CNTL3); data |= LC_GO_TO_RECOVERY; if (orig != data) WREG32_PCIE_PORT(PCIE_LC_CNTL3, data); orig = data = RREG32_PCIE(PCIE_P_CNTL); data |= P_IGNORE_EDB_ERR; if (orig != data) WREG32_PCIE(PCIE_P_CNTL, data); orig = data = RREG32_PCIE_PORT(PCIE_LC_CNTL); data &= ~(LC_L0S_INACTIVITY_MASK | LC_L1_INACTIVITY_MASK); data |= LC_PMI_TO_L1_DIS; if (!disable_l0s) data |= LC_L0S_INACTIVITY(7); if (!disable_l1) { data |= LC_L1_INACTIVITY(7); data &= ~LC_PMI_TO_L1_DIS; if (orig != data) WREG32_PCIE_PORT(PCIE_LC_CNTL, data); if (!disable_plloff_in_l1) { bool clk_req_support; orig = data = RREG32_PIF_PHY0(PB0_PIF_PWRDOWN_0); data &= ~(PLL_POWER_STATE_IN_OFF_0_MASK | PLL_POWER_STATE_IN_TXS2_0_MASK); data |= PLL_POWER_STATE_IN_OFF_0(7) | PLL_POWER_STATE_IN_TXS2_0(7); if (orig != data) WREG32_PIF_PHY0(PB0_PIF_PWRDOWN_0, data); orig = data = RREG32_PIF_PHY0(PB0_PIF_PWRDOWN_1); data &= ~(PLL_POWER_STATE_IN_OFF_1_MASK | PLL_POWER_STATE_IN_TXS2_1_MASK); data |= PLL_POWER_STATE_IN_OFF_1(7) | PLL_POWER_STATE_IN_TXS2_1(7); if (orig != data) WREG32_PIF_PHY0(PB0_PIF_PWRDOWN_1, data); orig = data = RREG32_PIF_PHY1(PB1_PIF_PWRDOWN_0); data &= ~(PLL_POWER_STATE_IN_OFF_0_MASK | PLL_POWER_STATE_IN_TXS2_0_MASK); data |= PLL_POWER_STATE_IN_OFF_0(7) | PLL_POWER_STATE_IN_TXS2_0(7); if (orig != data) WREG32_PIF_PHY1(PB1_PIF_PWRDOWN_0, data); orig = data = RREG32_PIF_PHY1(PB1_PIF_PWRDOWN_1); data &= ~(PLL_POWER_STATE_IN_OFF_1_MASK | PLL_POWER_STATE_IN_TXS2_1_MASK); data |= PLL_POWER_STATE_IN_OFF_1(7) | PLL_POWER_STATE_IN_TXS2_1(7); if (orig != data) WREG32_PIF_PHY1(PB1_PIF_PWRDOWN_1, data); if ((rdev->family != CHIP_OLAND) && (rdev->family != CHIP_HAINAN)) { orig = data = RREG32_PIF_PHY0(PB0_PIF_PWRDOWN_0); data &= ~PLL_RAMP_UP_TIME_0_MASK; if (orig != data) WREG32_PIF_PHY0(PB0_PIF_PWRDOWN_0, data); orig = data = RREG32_PIF_PHY0(PB0_PIF_PWRDOWN_1); data &= ~PLL_RAMP_UP_TIME_1_MASK; if (orig != data) WREG32_PIF_PHY0(PB0_PIF_PWRDOWN_1, data); orig = data = RREG32_PIF_PHY0(PB0_PIF_PWRDOWN_2); data &= ~PLL_RAMP_UP_TIME_2_MASK; if (orig != data) WREG32_PIF_PHY0(PB0_PIF_PWRDOWN_2, data); orig = data = RREG32_PIF_PHY0(PB0_PIF_PWRDOWN_3); data &= ~PLL_RAMP_UP_TIME_3_MASK; if (orig != data) WREG32_PIF_PHY0(PB0_PIF_PWRDOWN_3, data); orig = data = RREG32_PIF_PHY1(PB1_PIF_PWRDOWN_0); data &= ~PLL_RAMP_UP_TIME_0_MASK; if (orig != data) WREG32_PIF_PHY1(PB1_PIF_PWRDOWN_0, data); orig = data = RREG32_PIF_PHY1(PB1_PIF_PWRDOWN_1); data &= ~PLL_RAMP_UP_TIME_1_MASK; if (orig != data) WREG32_PIF_PHY1(PB1_PIF_PWRDOWN_1, data); orig = data = RREG32_PIF_PHY1(PB1_PIF_PWRDOWN_2); data &= ~PLL_RAMP_UP_TIME_2_MASK; if (orig != data) WREG32_PIF_PHY1(PB1_PIF_PWRDOWN_2, data); orig = data = RREG32_PIF_PHY1(PB1_PIF_PWRDOWN_3); data &= ~PLL_RAMP_UP_TIME_3_MASK; if (orig != data) WREG32_PIF_PHY1(PB1_PIF_PWRDOWN_3, data); } orig = data = RREG32_PCIE_PORT(PCIE_LC_LINK_WIDTH_CNTL); data &= ~LC_DYN_LANES_PWR_STATE_MASK; data |= LC_DYN_LANES_PWR_STATE(3); if (orig != data) WREG32_PCIE_PORT(PCIE_LC_LINK_WIDTH_CNTL, data); orig = data = RREG32_PIF_PHY0(PB0_PIF_CNTL); data &= ~LS2_EXIT_TIME_MASK; if ((rdev->family == CHIP_OLAND) || (rdev->family == CHIP_HAINAN)) data |= LS2_EXIT_TIME(5); if (orig != data) WREG32_PIF_PHY0(PB0_PIF_CNTL, data); orig = data = RREG32_PIF_PHY1(PB1_PIF_CNTL); data &= ~LS2_EXIT_TIME_MASK; if ((rdev->family == CHIP_OLAND) || (rdev->family == CHIP_HAINAN)) data |= LS2_EXIT_TIME(5); if (orig != data) WREG32_PIF_PHY1(PB1_PIF_CNTL, data); if (!disable_clkreq && !pci_is_root_bus(rdev->pdev->bus)) { struct pci_dev *root = rdev->pdev->bus->self; u32 lnkcap; clk_req_support = false; pcie_capability_read_dword(root, PCI_EXP_LNKCAP, &lnkcap); if (lnkcap & PCI_EXP_LNKCAP_CLKPM) clk_req_support = true; } else { clk_req_support = false; } if (clk_req_support) { orig = data = RREG32_PCIE_PORT(PCIE_LC_CNTL2); data |= LC_ALLOW_PDWN_IN_L1 | LC_ALLOW_PDWN_IN_L23; if (orig != data) WREG32_PCIE_PORT(PCIE_LC_CNTL2, data); orig = data = RREG32(THM_CLK_CNTL); data &= ~(CMON_CLK_SEL_MASK | TMON_CLK_SEL_MASK); data |= CMON_CLK_SEL(1) | TMON_CLK_SEL(1); if (orig != data) WREG32(THM_CLK_CNTL, data); orig = data = RREG32(MISC_CLK_CNTL); data &= ~(DEEP_SLEEP_CLK_SEL_MASK | ZCLK_SEL_MASK); data |= DEEP_SLEEP_CLK_SEL(1) | ZCLK_SEL(1); if (orig != data) WREG32(MISC_CLK_CNTL, data); orig = data = RREG32(CG_CLKPIN_CNTL); data &= ~BCLK_AS_XCLK; if (orig != data) WREG32(CG_CLKPIN_CNTL, data); orig = data = RREG32(CG_CLKPIN_CNTL_2); data &= ~FORCE_BIF_REFCLK_EN; if (orig != data) WREG32(CG_CLKPIN_CNTL_2, data); orig = data = RREG32(MPLL_BYPASSCLK_SEL); data &= ~MPLL_CLKOUT_SEL_MASK; data |= MPLL_CLKOUT_SEL(4); if (orig != data) WREG32(MPLL_BYPASSCLK_SEL, data); orig = data = RREG32(SPLL_CNTL_MODE); data &= ~SPLL_REFCLK_SEL_MASK; if (orig != data) WREG32(SPLL_CNTL_MODE, data); } } } else { if (orig != data) WREG32_PCIE_PORT(PCIE_LC_CNTL, data); } orig = data = RREG32_PCIE(PCIE_CNTL2); data |= SLV_MEM_LS_EN | MST_MEM_LS_EN | REPLAY_MEM_LS_EN; if (orig != data) WREG32_PCIE(PCIE_CNTL2, data); if (!disable_l0s) { data = RREG32_PCIE_PORT(PCIE_LC_N_FTS_CNTL); if((data & LC_N_FTS_MASK) == LC_N_FTS_MASK) { data = RREG32_PCIE(PCIE_LC_STATUS1); if ((data & LC_REVERSE_XMIT) && (data & LC_REVERSE_RCVR)) { orig = data = RREG32_PCIE_PORT(PCIE_LC_CNTL); data &= ~LC_L0S_INACTIVITY_MASK; if (orig != data) WREG32_PCIE_PORT(PCIE_LC_CNTL, data); } } } } static int si_vce_send_vcepll_ctlreq(struct radeon_device *rdev) { unsigned i; /* make sure VCEPLL_CTLREQ is deasserted */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL, 0, ~UPLL_CTLREQ_MASK); mdelay(10); /* assert UPLL_CTLREQ */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL, UPLL_CTLREQ_MASK, ~UPLL_CTLREQ_MASK); /* wait for CTLACK and CTLACK2 to get asserted */ for (i = 0; i < 100; ++i) { uint32_t mask = UPLL_CTLACK_MASK | UPLL_CTLACK2_MASK; if ((RREG32_SMC(CG_VCEPLL_FUNC_CNTL) & mask) == mask) break; mdelay(10); } /* deassert UPLL_CTLREQ */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL, 0, ~UPLL_CTLREQ_MASK); if (i == 100) { DRM_ERROR("Timeout setting UVD clocks!\n"); return -ETIMEDOUT; } return 0; } int si_set_vce_clocks(struct radeon_device *rdev, u32 evclk, u32 ecclk) { unsigned fb_div = 0, evclk_div = 0, ecclk_div = 0; int r; /* bypass evclk and ecclk with bclk */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL_2, EVCLK_SRC_SEL(1) | ECCLK_SRC_SEL(1), ~(EVCLK_SRC_SEL_MASK | ECCLK_SRC_SEL_MASK)); /* put PLL in bypass mode */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL, VCEPLL_BYPASS_EN_MASK, ~VCEPLL_BYPASS_EN_MASK); if (!evclk || !ecclk) { /* keep the Bypass mode, put PLL to sleep */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL, VCEPLL_SLEEP_MASK, ~VCEPLL_SLEEP_MASK); return 0; } r = radeon_uvd_calc_upll_dividers(rdev, evclk, ecclk, 125000, 250000, 16384, 0x03FFFFFF, 0, 128, 5, &fb_div, &evclk_div, &ecclk_div); if (r) return r; /* set RESET_ANTI_MUX to 0 */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL_5, 0, ~RESET_ANTI_MUX_MASK); /* set VCO_MODE to 1 */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL, VCEPLL_VCO_MODE_MASK, ~VCEPLL_VCO_MODE_MASK); /* toggle VCEPLL_SLEEP to 1 then back to 0 */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL, VCEPLL_SLEEP_MASK, ~VCEPLL_SLEEP_MASK); WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL, 0, ~VCEPLL_SLEEP_MASK); /* deassert VCEPLL_RESET */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL, 0, ~VCEPLL_RESET_MASK); mdelay(1); r = si_vce_send_vcepll_ctlreq(rdev); if (r) return r; /* assert VCEPLL_RESET again */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL, VCEPLL_RESET_MASK, ~VCEPLL_RESET_MASK); /* disable spread spectrum. */ WREG32_SMC_P(CG_VCEPLL_SPREAD_SPECTRUM, 0, ~SSEN_MASK); /* set feedback divider */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL_3, VCEPLL_FB_DIV(fb_div), ~VCEPLL_FB_DIV_MASK); /* set ref divider to 0 */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL, 0, ~VCEPLL_REF_DIV_MASK); /* set PDIV_A and PDIV_B */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL_2, VCEPLL_PDIV_A(evclk_div) | VCEPLL_PDIV_B(ecclk_div), ~(VCEPLL_PDIV_A_MASK | VCEPLL_PDIV_B_MASK)); /* give the PLL some time to settle */ mdelay(15); /* deassert PLL_RESET */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL, 0, ~VCEPLL_RESET_MASK); mdelay(15); /* switch from bypass mode to normal mode */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL, 0, ~VCEPLL_BYPASS_EN_MASK); r = si_vce_send_vcepll_ctlreq(rdev); if (r) return r; /* switch VCLK and DCLK selection */ WREG32_SMC_P(CG_VCEPLL_FUNC_CNTL_2, EVCLK_SRC_SEL(16) | ECCLK_SRC_SEL(16), ~(EVCLK_SRC_SEL_MASK | ECCLK_SRC_SEL_MASK)); mdelay(100); return 0; } |