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2822 2823 2824 2825 2826 2827 2828 2829 2830 2831 2832 2833 2834 2835 2836 2837 2838 2839 2840 2841 2842 2843 2844 2845 2846 2847 2848 2849 2850 2851 2852 2853 2854 2855 | /* i915_drv.h -- Private header for the I915 driver -*- linux-c -*- */ /* * * Copyright 2003 Tungsten Graphics, Inc., Cedar Park, Texas. * All Rights Reserved. * * 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, sub license, 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 (including the * next paragraph) 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 NON-INFRINGEMENT. * IN NO EVENT SHALL TUNGSTEN GRAPHICS AND/OR ITS SUPPLIERS 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. * */ #ifndef _I915_DRV_H_ #define _I915_DRV_H_ #include <uapi/drm/i915_drm.h> #include <uapi/drm/drm_fourcc.h> #include <linux/io-mapping.h> #include <linux/i2c.h> #include <linux/i2c-algo-bit.h> #include <linux/backlight.h> #include <linux/hash.h> #include <linux/intel-iommu.h> #include <linux/kref.h> #include <linux/mm_types.h> #include <linux/perf_event.h> #include <linux/pm_qos.h> #include <linux/reservation.h> #include <linux/shmem_fs.h> #include <linux/stackdepot.h> #include <drm/intel-gtt.h> #include <drm/drm_legacy.h> /* for struct drm_dma_handle */ #include <drm/drm_gem.h> #include <drm/drm_auth.h> #include <drm/drm_cache.h> #include <drm/drm_util.h> #include <drm/drm_dsc.h> #include <drm/drm_atomic.h> #include <drm/drm_connector.h> #include <drm/i915_mei_hdcp_interface.h> #include "i915_fixed.h" #include "i915_params.h" #include "i915_reg.h" #include "i915_utils.h" #include "display/intel_bios.h" #include "display/intel_display.h" #include "display/intel_display_power.h" #include "display/intel_dpll_mgr.h" #include "display/intel_frontbuffer.h" #include "display/intel_opregion.h" #include "gt/intel_lrc.h" #include "gt/intel_engine.h" #include "gt/intel_workarounds.h" #include "intel_device_info.h" #include "intel_runtime_pm.h" #include "intel_uc.h" #include "intel_uncore.h" #include "intel_wakeref.h" #include "intel_wopcm.h" #include "i915_gem.h" #include "gem/i915_gem_context_types.h" #include "i915_gem_fence_reg.h" #include "i915_gem_gtt.h" #include "i915_gpu_error.h" #include "i915_request.h" #include "i915_scheduler.h" #include "i915_timeline.h" #include "i915_vma.h" #include "intel_gvt.h" /* General customization: */ #define DRIVER_NAME "i915" #define DRIVER_DESC "Intel Graphics" #define DRIVER_DATE "20190619" #define DRIVER_TIMESTAMP 1560947544 /* Use I915_STATE_WARN(x) and I915_STATE_WARN_ON() (rather than WARN() and * WARN_ON()) for hw state sanity checks to check for unexpected conditions * which may not necessarily be a user visible problem. This will either * WARN() or DRM_ERROR() depending on the verbose_checks moduleparam, to * enable distros and users to tailor their preferred amount of i915 abrt * spam. */ #define I915_STATE_WARN(condition, format...) ({ \ int __ret_warn_on = !!(condition); \ if (unlikely(__ret_warn_on)) \ if (!WARN(i915_modparams.verbose_state_checks, format)) \ DRM_ERROR(format); \ unlikely(__ret_warn_on); \ }) #define I915_STATE_WARN_ON(x) \ I915_STATE_WARN((x), "%s", "WARN_ON(" __stringify(x) ")") #if IS_ENABLED(CONFIG_DRM_I915_DEBUG) bool __i915_inject_load_failure(const char *func, int line); #define i915_inject_load_failure() \ __i915_inject_load_failure(__func__, __LINE__) bool i915_error_injected(void); #else #define i915_inject_load_failure() false #define i915_error_injected() false #endif #define i915_load_error(i915, fmt, ...) \ __i915_printk(i915, i915_error_injected() ? KERN_DEBUG : KERN_ERR, \ fmt, ##__VA_ARGS__) struct drm_i915_gem_object; enum hpd_pin { HPD_NONE = 0, HPD_TV = HPD_NONE, /* TV is known to be unreliable */ HPD_CRT, HPD_SDVO_B, HPD_SDVO_C, HPD_PORT_A, HPD_PORT_B, HPD_PORT_C, HPD_PORT_D, HPD_PORT_E, HPD_PORT_F, HPD_NUM_PINS }; #define for_each_hpd_pin(__pin) \ for ((__pin) = (HPD_NONE + 1); (__pin) < HPD_NUM_PINS; (__pin)++) /* Threshold == 5 for long IRQs, 50 for short */ #define HPD_STORM_DEFAULT_THRESHOLD 50 struct i915_hotplug { struct work_struct hotplug_work; struct { unsigned long last_jiffies; int count; enum { HPD_ENABLED = 0, HPD_DISABLED = 1, HPD_MARK_DISABLED = 2 } state; } stats[HPD_NUM_PINS]; u32 event_bits; struct delayed_work reenable_work; u32 long_port_mask; u32 short_port_mask; struct work_struct dig_port_work; struct work_struct poll_init_work; bool poll_enabled; unsigned int hpd_storm_threshold; /* Whether or not to count short HPD IRQs in HPD storms */ u8 hpd_short_storm_enabled; /* * if we get a HPD irq from DP and a HPD irq from non-DP * the non-DP HPD could block the workqueue on a mode config * mutex getting, that userspace may have taken. However * userspace is waiting on the DP workqueue to run which is * blocked behind the non-DP one. */ struct workqueue_struct *dp_wq; }; #define I915_GEM_GPU_DOMAINS \ (I915_GEM_DOMAIN_RENDER | \ I915_GEM_DOMAIN_SAMPLER | \ I915_GEM_DOMAIN_COMMAND | \ I915_GEM_DOMAIN_INSTRUCTION | \ I915_GEM_DOMAIN_VERTEX) struct drm_i915_private; struct i915_mm_struct; struct i915_mmu_object; struct drm_i915_file_private { struct drm_i915_private *dev_priv; struct drm_file *file; struct { spinlock_t lock; struct list_head request_list; } mm; struct idr context_idr; struct mutex context_idr_lock; /* guards context_idr */ struct idr vm_idr; struct mutex vm_idr_lock; /* guards vm_idr */ unsigned int bsd_engine; /* * Every context ban increments per client ban score. Also * hangs in short succession increments ban score. If ban threshold * is reached, client is considered banned and submitting more work * will fail. This is a stop gap measure to limit the badly behaving * clients access to gpu. Note that unbannable contexts never increment * the client ban score. */ #define I915_CLIENT_SCORE_HANG_FAST 1 #define I915_CLIENT_FAST_HANG_JIFFIES (60 * HZ) #define I915_CLIENT_SCORE_CONTEXT_BAN 3 #define I915_CLIENT_SCORE_BANNED 9 /** ban_score: Accumulated score of all ctx bans and fast hangs. */ atomic_t ban_score; unsigned long hang_timestamp; }; /* Interface history: * * 1.1: Original. * 1.2: Add Power Management * 1.3: Add vblank support * 1.4: Fix cmdbuffer path, add heap destroy * 1.5: Add vblank pipe configuration * 1.6: - New ioctl for scheduling buffer swaps on vertical blank * - Support vertical blank on secondary display pipe */ #define DRIVER_MAJOR 1 #define DRIVER_MINOR 6 #define DRIVER_PATCHLEVEL 0 struct intel_overlay; struct intel_overlay_error_state; struct sdvo_device_mapping { u8 initialized; u8 dvo_port; u8 slave_addr; u8 dvo_wiring; u8 i2c_pin; u8 ddc_pin; }; struct intel_connector; struct intel_encoder; struct intel_atomic_state; struct intel_crtc_state; struct intel_initial_plane_config; struct intel_crtc; struct intel_limit; struct dpll; struct intel_cdclk_state; struct drm_i915_display_funcs { void (*get_cdclk)(struct drm_i915_private *dev_priv, struct intel_cdclk_state *cdclk_state); void (*set_cdclk)(struct drm_i915_private *dev_priv, const struct intel_cdclk_state *cdclk_state, enum pipe pipe); int (*get_fifo_size)(struct drm_i915_private *dev_priv, enum i9xx_plane_id i9xx_plane); int (*compute_pipe_wm)(struct intel_crtc_state *cstate); int (*compute_intermediate_wm)(struct intel_crtc_state *newstate); void (*initial_watermarks)(struct intel_atomic_state *state, struct intel_crtc_state *cstate); void (*atomic_update_watermarks)(struct intel_atomic_state *state, struct intel_crtc_state *cstate); void (*optimize_watermarks)(struct intel_atomic_state *state, struct intel_crtc_state *cstate); int (*compute_global_watermarks)(struct intel_atomic_state *state); void (*update_wm)(struct intel_crtc *crtc); int (*modeset_calc_cdclk)(struct intel_atomic_state *state); /* Returns the active state of the crtc, and if the crtc is active, * fills out the pipe-config with the hw state. */ bool (*get_pipe_config)(struct intel_crtc *, struct intel_crtc_state *); void (*get_initial_plane_config)(struct intel_crtc *, struct intel_initial_plane_config *); int (*crtc_compute_clock)(struct intel_crtc *crtc, struct intel_crtc_state *crtc_state); void (*crtc_enable)(struct intel_crtc_state *pipe_config, struct drm_atomic_state *old_state); void (*crtc_disable)(struct intel_crtc_state *old_crtc_state, struct drm_atomic_state *old_state); void (*update_crtcs)(struct drm_atomic_state *state); void (*audio_codec_enable)(struct intel_encoder *encoder, const struct intel_crtc_state *crtc_state, const struct drm_connector_state *conn_state); void (*audio_codec_disable)(struct intel_encoder *encoder, const struct intel_crtc_state *old_crtc_state, const struct drm_connector_state *old_conn_state); void (*fdi_link_train)(struct intel_crtc *crtc, const struct intel_crtc_state *crtc_state); void (*init_clock_gating)(struct drm_i915_private *dev_priv); void (*hpd_irq_setup)(struct drm_i915_private *dev_priv); /* clock updates for mode set */ /* cursor updates */ /* render clock increase/decrease */ /* display clock increase/decrease */ /* pll clock increase/decrease */ int (*color_check)(struct intel_crtc_state *crtc_state); /* * Program double buffered color management registers during * vblank evasion. The registers should then latch during the * next vblank start, alongside any other double buffered registers * involved with the same commit. */ void (*color_commit)(const struct intel_crtc_state *crtc_state); /* * Load LUTs (and other single buffered color management * registers). Will (hopefully) be called during the vblank * following the latching of any double buffered registers * involved with the same commit. */ void (*load_luts)(const struct intel_crtc_state *crtc_state); void (*read_luts)(struct intel_crtc_state *crtc_state); }; struct intel_csr { struct work_struct work; const char *fw_path; u32 required_version; u32 max_fw_size; /* bytes */ u32 *dmc_payload; u32 dmc_fw_size; /* dwords */ u32 version; u32 mmio_count; i915_reg_t mmioaddr[20]; u32 mmiodata[20]; u32 dc_state; u32 allowed_dc_mask; intel_wakeref_t wakeref; }; enum i915_cache_level { I915_CACHE_NONE = 0, I915_CACHE_LLC, /* also used for snoopable memory on non-LLC */ I915_CACHE_L3_LLC, /* gen7+, L3 sits between the domain specifc caches, eg sampler/render caches, and the large Last-Level-Cache. LLC is coherent with the CPU, but L3 is only visible to the GPU. */ I915_CACHE_WT, /* hsw:gt3e WriteThrough for scanouts */ }; #define I915_COLOR_UNEVICTABLE (-1) /* a non-vma sharing the address space */ struct intel_fbc { /* This is always the inner lock when overlapping with struct_mutex and * it's the outer lock when overlapping with stolen_lock. */ struct mutex lock; unsigned threshold; unsigned int possible_framebuffer_bits; unsigned int busy_bits; unsigned int visible_pipes_mask; struct intel_crtc *crtc; struct drm_mm_node compressed_fb; struct drm_mm_node *compressed_llb; bool false_color; bool enabled; bool active; bool flip_pending; bool underrun_detected; struct work_struct underrun_work; /* * Due to the atomic rules we can't access some structures without the * appropriate locking, so we cache information here in order to avoid * these problems. */ struct intel_fbc_state_cache { struct i915_vma *vma; unsigned long flags; struct { unsigned int mode_flags; u32 hsw_bdw_pixel_rate; } crtc; struct { unsigned int rotation; int src_w; int src_h; bool visible; /* * Display surface base address adjustement for * pageflips. Note that on gen4+ this only adjusts up * to a tile, offsets within a tile are handled in * the hw itself (with the TILEOFF register). */ int adjusted_x; int adjusted_y; int y; u16 pixel_blend_mode; } plane; struct { const struct drm_format_info *format; unsigned int stride; } fb; } state_cache; /* * This structure contains everything that's relevant to program the * hardware registers. When we want to figure out if we need to disable * and re-enable FBC for a new configuration we just check if there's * something different in the struct. The genx_fbc_activate functions * are supposed to read from it in order to program the registers. */ struct intel_fbc_reg_params { struct i915_vma *vma; unsigned long flags; struct { enum pipe pipe; enum i9xx_plane_id i9xx_plane; unsigned int fence_y_offset; } crtc; struct { const struct drm_format_info *format; unsigned int stride; } fb; int cfb_size; unsigned int gen9_wa_cfb_stride; } params; const char *no_fbc_reason; }; /* * HIGH_RR is the highest eDP panel refresh rate read from EDID * LOW_RR is the lowest eDP panel refresh rate found from EDID * parsing for same resolution. */ enum drrs_refresh_rate_type { DRRS_HIGH_RR, DRRS_LOW_RR, DRRS_MAX_RR, /* RR count */ }; enum drrs_support_type { DRRS_NOT_SUPPORTED = 0, STATIC_DRRS_SUPPORT = 1, SEAMLESS_DRRS_SUPPORT = 2 }; struct intel_dp; struct i915_drrs { struct mutex mutex; struct delayed_work work; struct intel_dp *dp; unsigned busy_frontbuffer_bits; enum drrs_refresh_rate_type refresh_rate_type; enum drrs_support_type type; }; struct i915_psr { struct mutex lock; #define I915_PSR_DEBUG_MODE_MASK 0x0f #define I915_PSR_DEBUG_DEFAULT 0x00 #define I915_PSR_DEBUG_DISABLE 0x01 #define I915_PSR_DEBUG_ENABLE 0x02 #define I915_PSR_DEBUG_FORCE_PSR1 0x03 #define I915_PSR_DEBUG_IRQ 0x10 u32 debug; bool sink_support; bool enabled; struct intel_dp *dp; enum pipe pipe; bool active; struct work_struct work; unsigned busy_frontbuffer_bits; bool sink_psr2_support; bool link_standby; bool colorimetry_support; bool psr2_enabled; u8 sink_sync_latency; ktime_t last_entry_attempt; ktime_t last_exit; bool sink_not_reliable; bool irq_aux_error; u16 su_x_granularity; }; /* * Sorted by south display engine compatibility. * If the new PCH comes with a south display engine that is not * inherited from the latest item, please do not add it to the * end. Instead, add it right after its "parent" PCH. */ enum intel_pch { PCH_NOP = -1, /* PCH without south display */ PCH_NONE = 0, /* No PCH present */ PCH_IBX, /* Ibexpeak PCH */ PCH_CPT, /* Cougarpoint/Pantherpoint PCH */ PCH_LPT, /* Lynxpoint/Wildcatpoint PCH */ PCH_SPT, /* Sunrisepoint/Kaby Lake PCH */ PCH_CNP, /* Cannon/Comet Lake PCH */ PCH_ICP, /* Ice Lake PCH */ PCH_MCC, /* Mule Creek Canyon PCH */ }; #define QUIRK_LVDS_SSC_DISABLE (1<<1) #define QUIRK_INVERT_BRIGHTNESS (1<<2) #define QUIRK_BACKLIGHT_PRESENT (1<<3) #define QUIRK_PIN_SWIZZLED_PAGES (1<<5) #define QUIRK_INCREASE_T12_DELAY (1<<6) #define QUIRK_INCREASE_DDI_DISABLED_TIME (1<<7) struct intel_fbdev; struct intel_fbc_work; struct intel_gmbus { struct i2c_adapter adapter; #define GMBUS_FORCE_BIT_RETRY (1U << 31) u32 force_bit; u32 reg0; i915_reg_t gpio_reg; struct i2c_algo_bit_data bit_algo; struct drm_i915_private *dev_priv; }; struct i915_suspend_saved_registers { u32 saveDSPARB; u32 saveFBC_CONTROL; u32 saveCACHE_MODE_0; u32 saveMI_ARB_STATE; u32 saveSWF0[16]; u32 saveSWF1[16]; u32 saveSWF3[3]; u64 saveFENCE[I915_MAX_NUM_FENCES]; u32 savePCH_PORT_HOTPLUG; u16 saveGCDGMBUS; }; struct vlv_s0ix_state { /* GAM */ u32 wr_watermark; u32 gfx_prio_ctrl; u32 arb_mode; u32 gfx_pend_tlb0; u32 gfx_pend_tlb1; u32 lra_limits[GEN7_LRA_LIMITS_REG_NUM]; u32 media_max_req_count; u32 gfx_max_req_count; u32 render_hwsp; u32 ecochk; u32 bsd_hwsp; u32 blt_hwsp; u32 tlb_rd_addr; /* MBC */ u32 g3dctl; u32 gsckgctl; u32 mbctl; /* GCP */ u32 ucgctl1; u32 ucgctl3; u32 rcgctl1; u32 rcgctl2; u32 rstctl; u32 misccpctl; /* GPM */ u32 gfxpause; u32 rpdeuhwtc; u32 rpdeuc; u32 ecobus; u32 pwrdwnupctl; u32 rp_down_timeout; u32 rp_deucsw; u32 rcubmabdtmr; u32 rcedata; u32 spare2gh; /* Display 1 CZ domain */ u32 gt_imr; u32 gt_ier; u32 pm_imr; u32 pm_ier; u32 gt_scratch[GEN7_GT_SCRATCH_REG_NUM]; /* GT SA CZ domain */ u32 tilectl; u32 gt_fifoctl; u32 gtlc_wake_ctrl; u32 gtlc_survive; u32 pmwgicz; /* Display 2 CZ domain */ u32 gu_ctl0; u32 gu_ctl1; u32 pcbr; u32 clock_gate_dis2; }; struct intel_rps_ei { ktime_t ktime; u32 render_c0; u32 media_c0; }; struct intel_rps { struct mutex lock; /* protects enabling and the worker */ /* * work, interrupts_enabled and pm_iir are protected by * dev_priv->irq_lock */ struct work_struct work; bool interrupts_enabled; u32 pm_iir; /* PM interrupt bits that should never be masked */ u32 pm_intrmsk_mbz; /* Frequencies are stored in potentially platform dependent multiples. * In other words, *_freq needs to be multiplied by X to be interesting. * Soft limits are those which are used for the dynamic reclocking done * by the driver (raise frequencies under heavy loads, and lower for * lighter loads). Hard limits are those imposed by the hardware. * * A distinction is made for overclocking, which is never enabled by * default, and is considered to be above the hard limit if it's * possible at all. */ u8 cur_freq; /* Current frequency (cached, may not == HW) */ u8 min_freq_softlimit; /* Minimum frequency permitted by the driver */ u8 max_freq_softlimit; /* Max frequency permitted by the driver */ u8 max_freq; /* Maximum frequency, RP0 if not overclocking */ u8 min_freq; /* AKA RPn. Minimum frequency */ u8 boost_freq; /* Frequency to request when wait boosting */ u8 idle_freq; /* Frequency to request when we are idle */ u8 efficient_freq; /* AKA RPe. Pre-determined balanced frequency */ u8 rp1_freq; /* "less than" RP0 power/freqency */ u8 rp0_freq; /* Non-overclocked max frequency. */ u16 gpll_ref_freq; /* vlv/chv GPLL reference frequency */ int last_adj; struct { struct mutex mutex; enum { LOW_POWER, BETWEEN, HIGH_POWER } mode; unsigned int interactive; u8 up_threshold; /* Current %busy required to uplock */ u8 down_threshold; /* Current %busy required to downclock */ } power; bool enabled; atomic_t num_waiters; atomic_t boosts; /* manual wa residency calculations */ struct intel_rps_ei ei; }; struct intel_rc6 { bool enabled; u64 prev_hw_residency[4]; u64 cur_residency[4]; }; struct intel_llc_pstate { bool enabled; }; struct intel_gen6_power_mgmt { struct intel_rps rps; struct intel_rc6 rc6; struct intel_llc_pstate llc_pstate; }; /* defined intel_pm.c */ extern spinlock_t mchdev_lock; struct intel_ilk_power_mgmt { u8 cur_delay; u8 min_delay; u8 max_delay; u8 fmax; u8 fstart; u64 last_count1; unsigned long last_time1; unsigned long chipset_power; u64 last_count2; u64 last_time2; unsigned long gfx_power; u8 corr; int c_m; int r_t; }; #define MAX_L3_SLICES 2 struct intel_l3_parity { u32 *remap_info[MAX_L3_SLICES]; struct work_struct error_work; int which_slice; }; struct i915_gem_mm { /** Memory allocator for GTT stolen memory */ struct drm_mm stolen; /** Protects the usage of the GTT stolen memory allocator. This is * always the inner lock when overlapping with struct_mutex. */ struct mutex stolen_lock; /* Protects bound_list/unbound_list and #drm_i915_gem_object.mm.link */ spinlock_t obj_lock; /** * List of objects which are purgeable. */ struct list_head purge_list; /** * List of objects which have allocated pages and are shrinkable. */ struct list_head shrink_list; /** * List of objects which are pending destruction. */ struct llist_head free_list; struct work_struct free_work; spinlock_t free_lock; /** * Count of objects pending destructions. Used to skip needlessly * waiting on an RCU barrier if no objects are waiting to be freed. */ atomic_t free_count; /** * Small stash of WC pages */ struct pagestash wc_stash; /** * tmpfs instance used for shmem backed objects */ struct vfsmount *gemfs; /** PPGTT used for aliasing the PPGTT with the GTT */ struct i915_ppgtt *aliasing_ppgtt; struct notifier_block oom_notifier; struct notifier_block vmap_notifier; struct shrinker shrinker; /** * Workqueue to fault in userptr pages, flushed by the execbuf * when required but otherwise left to userspace to try again * on EAGAIN. */ struct workqueue_struct *userptr_wq; u64 unordered_timeline; /* the indicator for dispatch video commands on two BSD rings */ atomic_t bsd_engine_dispatch_index; /** Bit 6 swizzling required for X tiling */ u32 bit_6_swizzle_x; /** Bit 6 swizzling required for Y tiling */ u32 bit_6_swizzle_y; /* shrinker accounting, also useful for userland debugging */ u64 shrink_memory; u32 shrink_count; }; #define I915_IDLE_ENGINES_TIMEOUT (200) /* in ms */ #define I915_RESET_TIMEOUT (10 * HZ) /* 10s */ #define I915_FENCE_TIMEOUT (10 * HZ) /* 10s */ #define I915_ENGINE_DEAD_TIMEOUT (4 * HZ) /* Seqno, head and subunits dead */ #define I915_SEQNO_DEAD_TIMEOUT (12 * HZ) /* Seqno dead with active head */ #define I915_ENGINE_WEDGED_TIMEOUT (60 * HZ) /* Reset but no recovery? */ struct ddi_vbt_port_info { /* Non-NULL if port present. */ const struct child_device_config *child; int max_tmds_clock; /* * This is an index in the HDMI/DVI DDI buffer translation table. * The special value HDMI_LEVEL_SHIFT_UNKNOWN means the VBT didn't * populate this field. */ #define HDMI_LEVEL_SHIFT_UNKNOWN 0xff u8 hdmi_level_shift; u8 supports_dvi:1; u8 supports_hdmi:1; u8 supports_dp:1; u8 supports_edp:1; u8 supports_typec_usb:1; u8 supports_tbt:1; u8 alternate_aux_channel; u8 alternate_ddc_pin; u8 dp_boost_level; u8 hdmi_boost_level; int dp_max_link_rate; /* 0 for not limited by VBT */ }; enum psr_lines_to_wait { PSR_0_LINES_TO_WAIT = 0, PSR_1_LINE_TO_WAIT, PSR_4_LINES_TO_WAIT, PSR_8_LINES_TO_WAIT }; struct intel_vbt_data { struct drm_display_mode *lfp_lvds_vbt_mode; /* if any */ struct drm_display_mode *sdvo_lvds_vbt_mode; /* if any */ /* Feature bits */ unsigned int int_tv_support:1; unsigned int lvds_dither:1; unsigned int int_crt_support:1; unsigned int lvds_use_ssc:1; unsigned int int_lvds_support:1; unsigned int display_clock_mode:1; unsigned int fdi_rx_polarity_inverted:1; unsigned int panel_type:4; int lvds_ssc_freq; unsigned int bios_lvds_val; /* initial [PCH_]LVDS reg val in VBIOS */ enum drm_panel_orientation orientation; enum drrs_support_type drrs_type; struct { int rate; int lanes; int preemphasis; int vswing; bool low_vswing; bool initialized; int bpp; struct edp_power_seq pps; } edp; struct { bool enable; bool full_link; bool require_aux_wakeup; int idle_frames; enum psr_lines_to_wait lines_to_wait; int tp1_wakeup_time_us; int tp2_tp3_wakeup_time_us; int psr2_tp2_tp3_wakeup_time_us; } psr; struct { u16 pwm_freq_hz; bool present; bool active_low_pwm; u8 min_brightness; /* min_brightness/255 of max */ u8 controller; /* brightness controller number */ enum intel_backlight_type type; } backlight; /* MIPI DSI */ struct { u16 panel_id; struct mipi_config *config; struct mipi_pps_data *pps; u16 bl_ports; u16 cabc_ports; u8 seq_version; u32 size; u8 *data; const u8 *sequence[MIPI_SEQ_MAX]; u8 *deassert_seq; /* Used by fixup_mipi_sequences() */ enum drm_panel_orientation orientation; } dsi; int crt_ddc_pin; int child_dev_num; struct child_device_config *child_dev; struct ddi_vbt_port_info ddi_port_info[I915_MAX_PORTS]; struct sdvo_device_mapping sdvo_mappings[2]; }; enum intel_ddb_partitioning { INTEL_DDB_PART_1_2, INTEL_DDB_PART_5_6, /* IVB+ */ }; struct intel_wm_level { bool enable; u32 pri_val; u32 spr_val; u32 cur_val; u32 fbc_val; }; struct ilk_wm_values { u32 wm_pipe[3]; u32 wm_lp[3]; u32 wm_lp_spr[3]; u32 wm_linetime[3]; bool enable_fbc_wm; enum intel_ddb_partitioning partitioning; }; struct g4x_pipe_wm { u16 plane[I915_MAX_PLANES]; u16 fbc; }; struct g4x_sr_wm { u16 plane; u16 cursor; u16 fbc; }; struct vlv_wm_ddl_values { u8 plane[I915_MAX_PLANES]; }; struct vlv_wm_values { struct g4x_pipe_wm pipe[3]; struct g4x_sr_wm sr; struct vlv_wm_ddl_values ddl[3]; u8 level; bool cxsr; }; struct g4x_wm_values { struct g4x_pipe_wm pipe[2]; struct g4x_sr_wm sr; struct g4x_sr_wm hpll; bool cxsr; bool hpll_en; bool fbc_en; }; struct skl_ddb_entry { u16 start, end; /* in number of blocks, 'end' is exclusive */ }; static inline u16 skl_ddb_entry_size(const struct skl_ddb_entry *entry) { return entry->end - entry->start; } static inline bool skl_ddb_entry_equal(const struct skl_ddb_entry *e1, const struct skl_ddb_entry *e2) { if (e1->start == e2->start && e1->end == e2->end) return true; return false; } struct skl_ddb_allocation { u8 enabled_slices; /* GEN11 has configurable 2 slices */ }; struct skl_ddb_values { unsigned dirty_pipes; struct skl_ddb_allocation ddb; }; struct skl_wm_level { u16 min_ddb_alloc; u16 plane_res_b; u8 plane_res_l; bool plane_en; bool ignore_lines; }; /* Stores plane specific WM parameters */ struct skl_wm_params { bool x_tiled, y_tiled; bool rc_surface; bool is_planar; u32 width; u8 cpp; u32 plane_pixel_rate; u32 y_min_scanlines; u32 plane_bytes_per_line; uint_fixed_16_16_t plane_blocks_per_line; uint_fixed_16_16_t y_tile_minimum; u32 linetime_us; u32 dbuf_block_size; }; enum intel_pipe_crc_source { INTEL_PIPE_CRC_SOURCE_NONE, INTEL_PIPE_CRC_SOURCE_PLANE1, INTEL_PIPE_CRC_SOURCE_PLANE2, INTEL_PIPE_CRC_SOURCE_PLANE3, INTEL_PIPE_CRC_SOURCE_PLANE4, INTEL_PIPE_CRC_SOURCE_PLANE5, INTEL_PIPE_CRC_SOURCE_PLANE6, INTEL_PIPE_CRC_SOURCE_PLANE7, INTEL_PIPE_CRC_SOURCE_PIPE, /* TV/DP on pre-gen5/vlv can't use the pipe source. */ INTEL_PIPE_CRC_SOURCE_TV, INTEL_PIPE_CRC_SOURCE_DP_B, INTEL_PIPE_CRC_SOURCE_DP_C, INTEL_PIPE_CRC_SOURCE_DP_D, INTEL_PIPE_CRC_SOURCE_AUTO, INTEL_PIPE_CRC_SOURCE_MAX, }; #define INTEL_PIPE_CRC_ENTRIES_NR 128 struct intel_pipe_crc { spinlock_t lock; int skipped; enum intel_pipe_crc_source source; }; struct i915_frontbuffer_tracking { spinlock_t lock; /* * Tracking bits for delayed frontbuffer flushing du to gpu activity or * scheduled flips. */ unsigned busy_bits; unsigned flip_bits; }; struct i915_virtual_gpu { bool active; u32 caps; }; /* used in computing the new watermarks state */ struct intel_wm_config { unsigned int num_pipes_active; bool sprites_enabled; bool sprites_scaled; }; struct i915_oa_format { u32 format; int size; }; struct i915_oa_reg { i915_reg_t addr; u32 value; }; struct i915_oa_config { char uuid[UUID_STRING_LEN + 1]; int id; const struct i915_oa_reg *mux_regs; u32 mux_regs_len; const struct i915_oa_reg *b_counter_regs; u32 b_counter_regs_len; const struct i915_oa_reg *flex_regs; u32 flex_regs_len; struct attribute_group sysfs_metric; struct attribute *attrs[2]; struct device_attribute sysfs_metric_id; atomic_t ref_count; }; struct i915_perf_stream; /** * struct i915_perf_stream_ops - the OPs to support a specific stream type */ struct i915_perf_stream_ops { /** * @enable: Enables the collection of HW samples, either in response to * `I915_PERF_IOCTL_ENABLE` or implicitly called when stream is opened * without `I915_PERF_FLAG_DISABLED`. */ void (*enable)(struct i915_perf_stream *stream); /** * @disable: Disables the collection of HW samples, either in response * to `I915_PERF_IOCTL_DISABLE` or implicitly called before destroying * the stream. */ void (*disable)(struct i915_perf_stream *stream); /** * @poll_wait: Call poll_wait, passing a wait queue that will be woken * once there is something ready to read() for the stream */ void (*poll_wait)(struct i915_perf_stream *stream, struct file *file, poll_table *wait); /** * @wait_unlocked: For handling a blocking read, wait until there is * something to ready to read() for the stream. E.g. wait on the same * wait queue that would be passed to poll_wait(). */ int (*wait_unlocked)(struct i915_perf_stream *stream); /** * @read: Copy buffered metrics as records to userspace * **buf**: the userspace, destination buffer * **count**: the number of bytes to copy, requested by userspace * **offset**: zero at the start of the read, updated as the read * proceeds, it represents how many bytes have been copied so far and * the buffer offset for copying the next record. * * Copy as many buffered i915 perf samples and records for this stream * to userspace as will fit in the given buffer. * * Only write complete records; returning -%ENOSPC if there isn't room * for a complete record. * * Return any error condition that results in a short read such as * -%ENOSPC or -%EFAULT, even though these may be squashed before * returning to userspace. */ int (*read)(struct i915_perf_stream *stream, char __user *buf, size_t count, size_t *offset); /** * @destroy: Cleanup any stream specific resources. * * The stream will always be disabled before this is called. */ void (*destroy)(struct i915_perf_stream *stream); }; /** * struct i915_perf_stream - state for a single open stream FD */ struct i915_perf_stream { /** * @dev_priv: i915 drm device */ struct drm_i915_private *dev_priv; /** * @link: Links the stream into ``&drm_i915_private->streams`` */ struct list_head link; /** * @wakeref: As we keep the device awake while the perf stream is * active, we track our runtime pm reference for later release. */ intel_wakeref_t wakeref; /** * @sample_flags: Flags representing the `DRM_I915_PERF_PROP_SAMPLE_*` * properties given when opening a stream, representing the contents * of a single sample as read() by userspace. */ u32 sample_flags; /** * @sample_size: Considering the configured contents of a sample * combined with the required header size, this is the total size * of a single sample record. */ int sample_size; /** * @ctx: %NULL if measuring system-wide across all contexts or a * specific context that is being monitored. */ struct i915_gem_context *ctx; /** * @enabled: Whether the stream is currently enabled, considering * whether the stream was opened in a disabled state and based * on `I915_PERF_IOCTL_ENABLE` and `I915_PERF_IOCTL_DISABLE` calls. */ bool enabled; /** * @ops: The callbacks providing the implementation of this specific * type of configured stream. */ const struct i915_perf_stream_ops *ops; /** * @oa_config: The OA configuration used by the stream. */ struct i915_oa_config *oa_config; }; /** * struct i915_oa_ops - Gen specific implementation of an OA unit stream */ struct i915_oa_ops { /** * @is_valid_b_counter_reg: Validates register's address for * programming boolean counters for a particular platform. */ bool (*is_valid_b_counter_reg)(struct drm_i915_private *dev_priv, u32 addr); /** * @is_valid_mux_reg: Validates register's address for programming mux * for a particular platform. */ bool (*is_valid_mux_reg)(struct drm_i915_private *dev_priv, u32 addr); /** * @is_valid_flex_reg: Validates register's address for programming * flex EU filtering for a particular platform. */ bool (*is_valid_flex_reg)(struct drm_i915_private *dev_priv, u32 addr); /** * @enable_metric_set: Selects and applies any MUX configuration to set * up the Boolean and Custom (B/C) counters that are part of the * counter reports being sampled. May apply system constraints such as * disabling EU clock gating as required. */ int (*enable_metric_set)(struct i915_perf_stream *stream); /** * @disable_metric_set: Remove system constraints associated with using * the OA unit. */ void (*disable_metric_set)(struct drm_i915_private *dev_priv); /** * @oa_enable: Enable periodic sampling */ void (*oa_enable)(struct i915_perf_stream *stream); /** * @oa_disable: Disable periodic sampling */ void (*oa_disable)(struct i915_perf_stream *stream); /** * @read: Copy data from the circular OA buffer into a given userspace * buffer. */ int (*read)(struct i915_perf_stream *stream, char __user *buf, size_t count, size_t *offset); /** * @oa_hw_tail_read: read the OA tail pointer register * * In particular this enables us to share all the fiddly code for * handling the OA unit tail pointer race that affects multiple * generations. */ u32 (*oa_hw_tail_read)(struct drm_i915_private *dev_priv); }; struct intel_cdclk_state { unsigned int cdclk, vco, ref, bypass; u8 voltage_level; }; struct drm_i915_private { struct drm_device drm; const struct intel_device_info __info; /* Use INTEL_INFO() to access. */ struct intel_runtime_info __runtime; /* Use RUNTIME_INFO() to access. */ struct intel_driver_caps caps; /** * Data Stolen Memory - aka "i915 stolen memory" gives us the start and * end of stolen which we can optionally use to create GEM objects * backed by stolen memory. Note that stolen_usable_size tells us * exactly how much of this we are actually allowed to use, given that * some portion of it is in fact reserved for use by hardware functions. */ struct resource dsm; /** * Reseved portion of Data Stolen Memory */ struct resource dsm_reserved; /* * Stolen memory is segmented in hardware with different portions * offlimits to certain functions. * * The drm_mm is initialised to the total accessible range, as found * from the PCI config. On Broadwell+, this is further restricted to * avoid the first page! The upper end of stolen memory is reserved for * hardware functions and similarly removed from the accessible range. */ resource_size_t stolen_usable_size; /* Total size minus reserved ranges */ struct intel_uncore uncore; struct i915_virtual_gpu vgpu; struct intel_gvt *gvt; struct intel_wopcm wopcm; struct intel_huc huc; struct intel_guc guc; struct intel_csr csr; struct intel_gmbus gmbus[GMBUS_NUM_PINS]; /** gmbus_mutex protects against concurrent usage of the single hw gmbus * controller on different i2c buses. */ struct mutex gmbus_mutex; /** * Base address of where the gmbus and gpio blocks are located (either * on PCH or on SoC for platforms without PCH). */ u32 gpio_mmio_base; /* MMIO base address for MIPI regs */ u32 mipi_mmio_base; u32 psr_mmio_base; u32 pps_mmio_base; wait_queue_head_t gmbus_wait_queue; struct pci_dev *bridge_dev; struct intel_engine_cs *engine[I915_NUM_ENGINES]; /* Context used internally to idle the GPU and setup initial state */ struct i915_gem_context *kernel_context; /* Context only to be used for injecting preemption commands */ struct i915_gem_context *preempt_context; struct intel_engine_cs *engine_class[MAX_ENGINE_CLASS + 1] [MAX_ENGINE_INSTANCE + 1]; struct resource mch_res; /* protects the irq masks */ spinlock_t irq_lock; bool display_irqs_enabled; /* To control wakeup latency, e.g. for irq-driven dp aux transfers. */ struct pm_qos_request pm_qos; /* Sideband mailbox protection */ struct mutex sb_lock; struct pm_qos_request sb_qos; /** Cached value of IMR to avoid reads in updating the bitfield */ union { u32 irq_mask; u32 de_irq_mask[I915_MAX_PIPES]; }; u32 gt_irq_mask; u32 pm_imr; u32 pm_ier; u32 pm_rps_events; u32 pm_guc_events; u32 pipestat_irq_mask[I915_MAX_PIPES]; struct i915_hotplug hotplug; struct intel_fbc fbc; struct i915_drrs drrs; struct intel_opregion opregion; struct intel_vbt_data vbt; bool preserve_bios_swizzle; /* overlay */ struct intel_overlay *overlay; /* backlight registers and fields in struct intel_panel */ struct mutex backlight_lock; /* LVDS info */ bool no_aux_handshake; /* protects panel power sequencer state */ struct mutex pps_mutex; unsigned int fsb_freq, mem_freq, is_ddr3; unsigned int skl_preferred_vco_freq; unsigned int max_cdclk_freq; unsigned int max_dotclk_freq; unsigned int rawclk_freq; unsigned int hpll_freq; unsigned int fdi_pll_freq; unsigned int czclk_freq; struct { /* * The current logical cdclk state. * See intel_atomic_state.cdclk.logical * * For reading holding any crtc lock is sufficient, * for writing must hold all of them. */ struct intel_cdclk_state logical; /* * The current actual cdclk state. * See intel_atomic_state.cdclk.actual */ struct intel_cdclk_state actual; /* The current hardware cdclk state */ struct intel_cdclk_state hw; int force_min_cdclk; } cdclk; /** * wq - Driver workqueue for GEM. * * NOTE: Work items scheduled here are not allowed to grab any modeset * locks, for otherwise the flushing done in the pageflip code will * result in deadlocks. */ struct workqueue_struct *wq; /* ordered wq for modesets */ struct workqueue_struct *modeset_wq; /* Display functions */ struct drm_i915_display_funcs display; /* PCH chipset type */ enum intel_pch pch_type; unsigned short pch_id; unsigned long quirks; struct drm_atomic_state *modeset_restore_state; struct drm_modeset_acquire_ctx reset_ctx; struct i915_ggtt ggtt; /* VM representing the global address space */ struct i915_gem_mm mm; DECLARE_HASHTABLE(mm_structs, 7); struct mutex mm_lock; struct intel_ppat ppat; /* Kernel Modesetting */ struct intel_crtc *plane_to_crtc_mapping[I915_MAX_PIPES]; struct intel_crtc *pipe_to_crtc_mapping[I915_MAX_PIPES]; #ifdef CONFIG_DEBUG_FS struct intel_pipe_crc pipe_crc[I915_MAX_PIPES]; #endif /* dpll and cdclk state is protected by connection_mutex */ int num_shared_dpll; struct intel_shared_dpll shared_dplls[I915_NUM_PLLS]; const struct intel_dpll_mgr *dpll_mgr; /* * dpll_lock serializes intel_{prepare,enable,disable}_shared_dpll. * Must be global rather than per dpll, because on some platforms * plls share registers. */ struct mutex dpll_lock; unsigned int active_crtcs; /* minimum acceptable cdclk for each pipe */ int min_cdclk[I915_MAX_PIPES]; /* minimum acceptable voltage level for each pipe */ u8 min_voltage_level[I915_MAX_PIPES]; int dpio_phy_iosf_port[I915_NUM_PHYS_VLV]; struct i915_wa_list gt_wa_list; struct i915_frontbuffer_tracking fb_tracking; struct intel_atomic_helper { struct llist_head free_list; struct work_struct free_work; } atomic_helper; u16 orig_clock; bool mchbar_need_disable; struct intel_l3_parity l3_parity; /* * edram size in MB. * Cannot be determined by PCIID. You must always read a register. */ u32 edram_size_mb; /* gen6+ GT PM state */ struct intel_gen6_power_mgmt gt_pm; /* ilk-only ips/rps state. Everything in here is protected by the global * mchdev_lock in intel_pm.c */ struct intel_ilk_power_mgmt ips; struct i915_power_domains power_domains; struct i915_psr psr; struct i915_gpu_error gpu_error; struct drm_i915_gem_object *vlv_pctx; /* list of fbdev register on this device */ struct intel_fbdev *fbdev; struct work_struct fbdev_suspend_work; struct drm_property *broadcast_rgb_property; struct drm_property *force_audio_property; /* hda/i915 audio component */ struct i915_audio_component *audio_component; bool audio_component_registered; /** * av_mutex - mutex for audio/video sync * */ struct mutex av_mutex; int audio_power_refcount; struct { struct mutex mutex; struct list_head list; struct llist_head free_list; struct work_struct free_work; /* The hw wants to have a stable context identifier for the * lifetime of the context (for OA, PASID, faults, etc). * This is limited in execlists to 21 bits. */ struct ida hw_ida; #define MAX_CONTEXT_HW_ID (1<<21) /* exclusive */ #define MAX_GUC_CONTEXT_HW_ID (1 << 20) /* exclusive */ #define GEN11_MAX_CONTEXT_HW_ID (1<<11) /* exclusive */ struct list_head hw_id_list; } contexts; u32 fdi_rx_config; /* Shadow for DISPLAY_PHY_CONTROL which can't be safely read */ u32 chv_phy_control; /* * Shadows for CHV DPLL_MD regs to keep the state * checker somewhat working in the presence hardware * crappiness (can't read out DPLL_MD for pipes B & C). */ u32 chv_dpll_md[I915_MAX_PIPES]; u32 bxt_phy_grc; u32 suspend_count; bool power_domains_suspended; struct i915_suspend_saved_registers regfile; struct vlv_s0ix_state vlv_s0ix_state; enum { I915_SAGV_UNKNOWN = 0, I915_SAGV_DISABLED, I915_SAGV_ENABLED, I915_SAGV_NOT_CONTROLLED } sagv_status; struct { /* * Raw watermark latency values: * in 0.1us units for WM0, * in 0.5us units for WM1+. */ /* primary */ u16 pri_latency[5]; /* sprite */ u16 spr_latency[5]; /* cursor */ u16 cur_latency[5]; /* * Raw watermark memory latency values * for SKL for all 8 levels * in 1us units. */ u16 skl_latency[8]; /* current hardware state */ union { struct ilk_wm_values hw; struct skl_ddb_values skl_hw; struct vlv_wm_values vlv; struct g4x_wm_values g4x; }; u8 max_level; /* * Should be held around atomic WM register writing; also * protects * intel_crtc->wm.active and * cstate->wm.need_postvbl_update. */ struct mutex wm_mutex; /* * Set during HW readout of watermarks/DDB. Some platforms * need to know when we're still using BIOS-provided values * (which we don't fully trust). */ bool distrust_bios_wm; } wm; struct dram_info { bool valid; bool is_16gb_dimm; u8 num_channels; u8 ranks; u32 bandwidth_kbps; bool symmetric_memory; enum intel_dram_type { INTEL_DRAM_UNKNOWN, INTEL_DRAM_DDR3, INTEL_DRAM_DDR4, INTEL_DRAM_LPDDR3, INTEL_DRAM_LPDDR4 } type; } dram_info; struct intel_bw_info { unsigned int deratedbw[3]; /* for each QGV point */ u8 num_qgv_points; u8 num_planes; } max_bw[6]; struct drm_private_obj bw_obj; struct intel_runtime_pm runtime_pm; struct { bool initialized; struct kobject *metrics_kobj; struct ctl_table_header *sysctl_header; /* * Lock associated with adding/modifying/removing OA configs * in dev_priv->perf.metrics_idr. */ struct mutex metrics_lock; /* * List of dynamic configurations, you need to hold * dev_priv->perf.metrics_lock to access it. */ struct idr metrics_idr; /* * Lock associated with anything below within this structure * except exclusive_stream. */ struct mutex lock; struct list_head streams; struct { /* * The stream currently using the OA unit. If accessed * outside a syscall associated to its file * descriptor, you need to hold * dev_priv->drm.struct_mutex. */ struct i915_perf_stream *exclusive_stream; struct intel_context *pinned_ctx; u32 specific_ctx_id; u32 specific_ctx_id_mask; struct hrtimer poll_check_timer; wait_queue_head_t poll_wq; bool pollin; /** * For rate limiting any notifications of spurious * invalid OA reports */ struct ratelimit_state spurious_report_rs; bool periodic; int period_exponent; struct i915_oa_config test_config; struct { struct i915_vma *vma; u8 *vaddr; u32 last_ctx_id; int format; int format_size; /** * Locks reads and writes to all head/tail state * * Consider: the head and tail pointer state * needs to be read consistently from a hrtimer * callback (atomic context) and read() fop * (user context) with tail pointer updates * happening in atomic context and head updates * in user context and the (unlikely) * possibility of read() errors needing to * reset all head/tail state. * * Note: Contention or performance aren't * currently a significant concern here * considering the relatively low frequency of * hrtimer callbacks (5ms period) and that * reads typically only happen in response to a * hrtimer event and likely complete before the * next callback. * * Note: This lock is not held *while* reading * and copying data to userspace so the value * of head observed in htrimer callbacks won't * represent any partial consumption of data. */ spinlock_t ptr_lock; /** * One 'aging' tail pointer and one 'aged' * tail pointer ready to used for reading. * * Initial values of 0xffffffff are invalid * and imply that an update is required * (and should be ignored by an attempted * read) */ struct { u32 offset; } tails[2]; /** * Index for the aged tail ready to read() * data up to. */ unsigned int aged_tail_idx; /** * A monotonic timestamp for when the current * aging tail pointer was read; used to * determine when it is old enough to trust. */ u64 aging_timestamp; /** * Although we can always read back the head * pointer register, we prefer to avoid * trusting the HW state, just to avoid any * risk that some hardware condition could * somehow bump the head pointer unpredictably * and cause us to forward the wrong OA buffer * data to userspace. */ u32 head; } oa_buffer; u32 gen7_latched_oastatus1; u32 ctx_oactxctrl_offset; u32 ctx_flexeu0_offset; /** * The RPT_ID/reason field for Gen8+ includes a bit * to determine if the CTX ID in the report is valid * but the specific bit differs between Gen 8 and 9 */ u32 gen8_valid_ctx_bit; struct i915_oa_ops ops; const struct i915_oa_format *oa_formats; } oa; } perf; /* Abstract the submission mechanism (legacy ringbuffer or execlists) away */ struct { struct i915_gt_timelines { struct mutex mutex; /* protects list, tainted by GPU */ struct list_head active_list; /* Pack multiple timelines' seqnos into the same page */ spinlock_t hwsp_lock; struct list_head hwsp_free_list; } timelines; struct list_head active_rings; struct intel_wakeref wakeref; struct list_head closed_vma; spinlock_t closed_lock; /* guards the list of closed_vma */ /** * Is the GPU currently considered idle, or busy executing * userspace requests? Whilst idle, we allow runtime power * management to power down the hardware and display clocks. * In order to reduce the effect on performance, there * is a slight delay before we do so. */ intel_wakeref_t awake; struct blocking_notifier_head pm_notifications; ktime_t last_init_time; struct i915_vma *scratch; } gt; struct { struct notifier_block pm_notifier; /** * We leave the user IRQ off as much as possible, * but this means that requests will finish and never * be retired once the system goes idle. Set a timer to * fire periodically while the ring is running. When it * fires, go retire requests. */ struct delayed_work retire_work; /** * When we detect an idle GPU, we want to turn on * powersaving features. So once we see that there * are no more requests outstanding and no more * arrive within a small period of time, we fire * off the idle_work. */ struct work_struct idle_work; } gem; /* For i945gm vblank irq vs. C3 workaround */ struct { struct work_struct work; struct pm_qos_request pm_qos; u8 c3_disable_latency; u8 enabled; } i945gm_vblank; /* perform PHY state sanity checks? */ bool chv_phy_assert[2]; bool ipc_enabled; /* Used to save the pipe-to-encoder mapping for audio */ struct intel_encoder *av_enc_map[I915_MAX_PIPES]; /* necessary resource sharing with HDMI LPE audio driver. */ struct { struct platform_device *platdev; int irq; } lpe_audio; struct i915_pmu pmu; struct i915_hdcp_comp_master *hdcp_master; bool hdcp_comp_added; /* Mutex to protect the above hdcp component related values. */ struct mutex hdcp_comp_mutex; /* * NOTE: This is the dri1/ums dungeon, don't add stuff here. Your patch * will be rejected. Instead look for a better place. */ }; struct dram_dimm_info { u8 size, width, ranks; }; struct dram_channel_info { struct dram_dimm_info dimm_l, dimm_s; u8 ranks; bool is_16gb_dimm; }; static inline struct drm_i915_private *to_i915(const struct drm_device *dev) { return container_of(dev, struct drm_i915_private, drm); } static inline struct drm_i915_private *kdev_to_i915(struct device *kdev) { return to_i915(dev_get_drvdata(kdev)); } static inline struct drm_i915_private *wopcm_to_i915(struct intel_wopcm *wopcm) { return container_of(wopcm, struct drm_i915_private, wopcm); } static inline struct drm_i915_private *guc_to_i915(struct intel_guc *guc) { return container_of(guc, struct drm_i915_private, guc); } static inline struct drm_i915_private *huc_to_i915(struct intel_huc *huc) { return container_of(huc, struct drm_i915_private, huc); } static inline struct drm_i915_private *uncore_to_i915(struct intel_uncore *uncore) { return container_of(uncore, struct drm_i915_private, uncore); } /* Simple iterator over all initialised engines */ #define for_each_engine(engine__, dev_priv__, id__) \ for ((id__) = 0; \ (id__) < I915_NUM_ENGINES; \ (id__)++) \ for_each_if ((engine__) = (dev_priv__)->engine[(id__)]) /* Iterator over subset of engines selected by mask */ #define for_each_engine_masked(engine__, dev_priv__, mask__, tmp__) \ for ((tmp__) = (mask__) & INTEL_INFO(dev_priv__)->engine_mask; \ (tmp__) ? \ ((engine__) = (dev_priv__)->engine[__mask_next_bit(tmp__)]), 1 : \ 0;) enum hdmi_force_audio { HDMI_AUDIO_OFF_DVI = -2, /* no aux data for HDMI-DVI converter */ HDMI_AUDIO_OFF, /* force turn off HDMI audio */ HDMI_AUDIO_AUTO, /* trust EDID */ HDMI_AUDIO_ON, /* force turn on HDMI audio */ }; #define I915_GTT_OFFSET_NONE ((u32)-1) /* * Frontbuffer tracking bits. Set in obj->frontbuffer_bits while a gem bo is * considered to be the frontbuffer for the given plane interface-wise. This * doesn't mean that the hw necessarily already scans it out, but that any * rendering (by the cpu or gpu) will land in the frontbuffer eventually. * * We have one bit per pipe and per scanout plane type. */ #define INTEL_FRONTBUFFER_BITS_PER_PIPE 8 #define INTEL_FRONTBUFFER(pipe, plane_id) ({ \ BUILD_BUG_ON(INTEL_FRONTBUFFER_BITS_PER_PIPE * I915_MAX_PIPES > 32); \ BUILD_BUG_ON(I915_MAX_PLANES > INTEL_FRONTBUFFER_BITS_PER_PIPE); \ BIT((plane_id) + INTEL_FRONTBUFFER_BITS_PER_PIPE * (pipe)); \ }) #define INTEL_FRONTBUFFER_OVERLAY(pipe) \ BIT(INTEL_FRONTBUFFER_BITS_PER_PIPE - 1 + INTEL_FRONTBUFFER_BITS_PER_PIPE * (pipe)) #define INTEL_FRONTBUFFER_ALL_MASK(pipe) \ GENMASK(INTEL_FRONTBUFFER_BITS_PER_PIPE * ((pipe) + 1) - 1, \ INTEL_FRONTBUFFER_BITS_PER_PIPE * (pipe)) #define INTEL_INFO(dev_priv) (&(dev_priv)->__info) #define RUNTIME_INFO(dev_priv) (&(dev_priv)->__runtime) #define DRIVER_CAPS(dev_priv) (&(dev_priv)->caps) #define INTEL_GEN(dev_priv) (INTEL_INFO(dev_priv)->gen) #define INTEL_DEVID(dev_priv) (RUNTIME_INFO(dev_priv)->device_id) #define REVID_FOREVER 0xff #define INTEL_REVID(dev_priv) ((dev_priv)->drm.pdev->revision) #define INTEL_GEN_MASK(s, e) ( \ BUILD_BUG_ON_ZERO(!__builtin_constant_p(s)) + \ BUILD_BUG_ON_ZERO(!__builtin_constant_p(e)) + \ GENMASK((e) - 1, (s) - 1)) /* Returns true if Gen is in inclusive range [Start, End] */ #define IS_GEN_RANGE(dev_priv, s, e) \ (!!(INTEL_INFO(dev_priv)->gen_mask & INTEL_GEN_MASK((s), (e)))) #define IS_GEN(dev_priv, n) \ (BUILD_BUG_ON_ZERO(!__builtin_constant_p(n)) + \ INTEL_INFO(dev_priv)->gen == (n)) /* * Return true if revision is in range [since,until] inclusive. * * Use 0 for open-ended since, and REVID_FOREVER for open-ended until. */ #define IS_REVID(p, since, until) \ (INTEL_REVID(p) >= (since) && INTEL_REVID(p) <= (until)) static __always_inline unsigned int __platform_mask_index(const struct intel_runtime_info *info, enum intel_platform p) { const unsigned int pbits = BITS_PER_TYPE(info->platform_mask[0]) - INTEL_SUBPLATFORM_BITS; /* Expand the platform_mask array if this fails. */ BUILD_BUG_ON(INTEL_MAX_PLATFORMS > pbits * ARRAY_SIZE(info->platform_mask)); return p / pbits; } static __always_inline unsigned int __platform_mask_bit(const struct intel_runtime_info *info, enum intel_platform p) { const unsigned int pbits = BITS_PER_TYPE(info->platform_mask[0]) - INTEL_SUBPLATFORM_BITS; return p % pbits + INTEL_SUBPLATFORM_BITS; } static inline u32 intel_subplatform(const struct intel_runtime_info *info, enum intel_platform p) { const unsigned int pi = __platform_mask_index(info, p); return info->platform_mask[pi] & INTEL_SUBPLATFORM_BITS; } static __always_inline bool IS_PLATFORM(const struct drm_i915_private *i915, enum intel_platform p) { const struct intel_runtime_info *info = RUNTIME_INFO(i915); const unsigned int pi = __platform_mask_index(info, p); const unsigned int pb = __platform_mask_bit(info, p); BUILD_BUG_ON(!__builtin_constant_p(p)); return info->platform_mask[pi] & BIT(pb); } static __always_inline bool IS_SUBPLATFORM(const struct drm_i915_private *i915, enum intel_platform p, unsigned int s) { const struct intel_runtime_info *info = RUNTIME_INFO(i915); const unsigned int pi = __platform_mask_index(info, p); const unsigned int pb = __platform_mask_bit(info, p); const unsigned int msb = BITS_PER_TYPE(info->platform_mask[0]) - 1; const u32 mask = info->platform_mask[pi]; BUILD_BUG_ON(!__builtin_constant_p(p)); BUILD_BUG_ON(!__builtin_constant_p(s)); BUILD_BUG_ON((s) >= INTEL_SUBPLATFORM_BITS); /* Shift and test on the MSB position so sign flag can be used. */ return ((mask << (msb - pb)) & (mask << (msb - s))) & BIT(msb); } #define IS_MOBILE(dev_priv) (INTEL_INFO(dev_priv)->is_mobile) #define IS_I830(dev_priv) IS_PLATFORM(dev_priv, INTEL_I830) #define IS_I845G(dev_priv) IS_PLATFORM(dev_priv, INTEL_I845G) #define IS_I85X(dev_priv) IS_PLATFORM(dev_priv, INTEL_I85X) #define IS_I865G(dev_priv) IS_PLATFORM(dev_priv, INTEL_I865G) #define IS_I915G(dev_priv) IS_PLATFORM(dev_priv, INTEL_I915G) #define IS_I915GM(dev_priv) IS_PLATFORM(dev_priv, INTEL_I915GM) #define IS_I945G(dev_priv) IS_PLATFORM(dev_priv, INTEL_I945G) #define IS_I945GM(dev_priv) IS_PLATFORM(dev_priv, INTEL_I945GM) #define IS_I965G(dev_priv) IS_PLATFORM(dev_priv, INTEL_I965G) #define IS_I965GM(dev_priv) IS_PLATFORM(dev_priv, INTEL_I965GM) #define IS_G45(dev_priv) IS_PLATFORM(dev_priv, INTEL_G45) #define IS_GM45(dev_priv) IS_PLATFORM(dev_priv, INTEL_GM45) #define IS_G4X(dev_priv) (IS_G45(dev_priv) || IS_GM45(dev_priv)) #define IS_PINEVIEW(dev_priv) IS_PLATFORM(dev_priv, INTEL_PINEVIEW) #define IS_G33(dev_priv) IS_PLATFORM(dev_priv, INTEL_G33) #define IS_IRONLAKE(dev_priv) IS_PLATFORM(dev_priv, INTEL_IRONLAKE) #define IS_IRONLAKE_M(dev_priv) \ (IS_PLATFORM(dev_priv, INTEL_IRONLAKE) && IS_MOBILE(dev_priv)) #define IS_IVYBRIDGE(dev_priv) IS_PLATFORM(dev_priv, INTEL_IVYBRIDGE) #define IS_IVB_GT1(dev_priv) (IS_IVYBRIDGE(dev_priv) && \ INTEL_INFO(dev_priv)->gt == 1) #define IS_VALLEYVIEW(dev_priv) IS_PLATFORM(dev_priv, INTEL_VALLEYVIEW) #define IS_CHERRYVIEW(dev_priv) IS_PLATFORM(dev_priv, INTEL_CHERRYVIEW) #define IS_HASWELL(dev_priv) IS_PLATFORM(dev_priv, INTEL_HASWELL) #define IS_BROADWELL(dev_priv) IS_PLATFORM(dev_priv, INTEL_BROADWELL) #define IS_SKYLAKE(dev_priv) IS_PLATFORM(dev_priv, INTEL_SKYLAKE) #define IS_BROXTON(dev_priv) IS_PLATFORM(dev_priv, INTEL_BROXTON) #define IS_KABYLAKE(dev_priv) IS_PLATFORM(dev_priv, INTEL_KABYLAKE) #define IS_GEMINILAKE(dev_priv) IS_PLATFORM(dev_priv, INTEL_GEMINILAKE) #define IS_COFFEELAKE(dev_priv) IS_PLATFORM(dev_priv, INTEL_COFFEELAKE) #define IS_CANNONLAKE(dev_priv) IS_PLATFORM(dev_priv, INTEL_CANNONLAKE) #define IS_ICELAKE(dev_priv) IS_PLATFORM(dev_priv, INTEL_ICELAKE) #define IS_ELKHARTLAKE(dev_priv) IS_PLATFORM(dev_priv, INTEL_ELKHARTLAKE) #define IS_HSW_EARLY_SDV(dev_priv) (IS_HASWELL(dev_priv) && \ (INTEL_DEVID(dev_priv) & 0xFF00) == 0x0C00) #define IS_BDW_ULT(dev_priv) \ IS_SUBPLATFORM(dev_priv, INTEL_BROADWELL, INTEL_SUBPLATFORM_ULT) #define IS_BDW_ULX(dev_priv) \ IS_SUBPLATFORM(dev_priv, INTEL_BROADWELL, INTEL_SUBPLATFORM_ULX) #define IS_BDW_GT3(dev_priv) (IS_BROADWELL(dev_priv) && \ INTEL_INFO(dev_priv)->gt == 3) #define IS_HSW_ULT(dev_priv) \ IS_SUBPLATFORM(dev_priv, INTEL_HASWELL, INTEL_SUBPLATFORM_ULT) #define IS_HSW_GT3(dev_priv) (IS_HASWELL(dev_priv) && \ INTEL_INFO(dev_priv)->gt == 3) #define IS_HSW_GT1(dev_priv) (IS_HASWELL(dev_priv) && \ INTEL_INFO(dev_priv)->gt == 1) /* ULX machines are also considered ULT. */ #define IS_HSW_ULX(dev_priv) \ IS_SUBPLATFORM(dev_priv, INTEL_HASWELL, INTEL_SUBPLATFORM_ULX) #define IS_SKL_ULT(dev_priv) \ IS_SUBPLATFORM(dev_priv, INTEL_SKYLAKE, INTEL_SUBPLATFORM_ULT) #define IS_SKL_ULX(dev_priv) \ IS_SUBPLATFORM(dev_priv, INTEL_SKYLAKE, INTEL_SUBPLATFORM_ULX) #define IS_KBL_ULT(dev_priv) \ IS_SUBPLATFORM(dev_priv, INTEL_KABYLAKE, INTEL_SUBPLATFORM_ULT) #define IS_KBL_ULX(dev_priv) \ IS_SUBPLATFORM(dev_priv, INTEL_KABYLAKE, INTEL_SUBPLATFORM_ULX) #define IS_SKL_GT2(dev_priv) (IS_SKYLAKE(dev_priv) && \ INTEL_INFO(dev_priv)->gt == 2) #define IS_SKL_GT3(dev_priv) (IS_SKYLAKE(dev_priv) && \ INTEL_INFO(dev_priv)->gt == 3) #define IS_SKL_GT4(dev_priv) (IS_SKYLAKE(dev_priv) && \ INTEL_INFO(dev_priv)->gt == 4) #define IS_KBL_GT2(dev_priv) (IS_KABYLAKE(dev_priv) && \ INTEL_INFO(dev_priv)->gt == 2) #define IS_KBL_GT3(dev_priv) (IS_KABYLAKE(dev_priv) && \ INTEL_INFO(dev_priv)->gt == 3) #define IS_CFL_ULT(dev_priv) \ IS_SUBPLATFORM(dev_priv, INTEL_COFFEELAKE, INTEL_SUBPLATFORM_ULT) #define IS_CFL_ULX(dev_priv) \ IS_SUBPLATFORM(dev_priv, INTEL_COFFEELAKE, INTEL_SUBPLATFORM_ULX) #define IS_CFL_GT2(dev_priv) (IS_COFFEELAKE(dev_priv) && \ INTEL_INFO(dev_priv)->gt == 2) #define IS_CFL_GT3(dev_priv) (IS_COFFEELAKE(dev_priv) && \ INTEL_INFO(dev_priv)->gt == 3) #define IS_CNL_WITH_PORT_F(dev_priv) \ IS_SUBPLATFORM(dev_priv, INTEL_CANNONLAKE, INTEL_SUBPLATFORM_PORTF) #define IS_ICL_WITH_PORT_F(dev_priv) \ IS_SUBPLATFORM(dev_priv, INTEL_ICELAKE, INTEL_SUBPLATFORM_PORTF) #define SKL_REVID_A0 0x0 #define SKL_REVID_B0 0x1 #define SKL_REVID_C0 0x2 #define SKL_REVID_D0 0x3 #define SKL_REVID_E0 0x4 #define SKL_REVID_F0 0x5 #define SKL_REVID_G0 0x6 #define SKL_REVID_H0 0x7 #define IS_SKL_REVID(p, since, until) (IS_SKYLAKE(p) && IS_REVID(p, since, until)) #define BXT_REVID_A0 0x0 #define BXT_REVID_A1 0x1 #define BXT_REVID_B0 0x3 #define BXT_REVID_B_LAST 0x8 #define BXT_REVID_C0 0x9 #define IS_BXT_REVID(dev_priv, since, until) \ (IS_BROXTON(dev_priv) && IS_REVID(dev_priv, since, until)) #define KBL_REVID_A0 0x0 #define KBL_REVID_B0 0x1 #define KBL_REVID_C0 0x2 #define KBL_REVID_D0 0x3 #define KBL_REVID_E0 0x4 #define IS_KBL_REVID(dev_priv, since, until) \ (IS_KABYLAKE(dev_priv) && IS_REVID(dev_priv, since, until)) #define GLK_REVID_A0 0x0 #define GLK_REVID_A1 0x1 #define IS_GLK_REVID(dev_priv, since, until) \ (IS_GEMINILAKE(dev_priv) && IS_REVID(dev_priv, since, until)) #define CNL_REVID_A0 0x0 #define CNL_REVID_B0 0x1 #define CNL_REVID_C0 0x2 #define IS_CNL_REVID(p, since, until) \ (IS_CANNONLAKE(p) && IS_REVID(p, since, until)) #define ICL_REVID_A0 0x0 #define ICL_REVID_A2 0x1 #define ICL_REVID_B0 0x3 #define ICL_REVID_B2 0x4 #define ICL_REVID_C0 0x5 #define IS_ICL_REVID(p, since, until) \ (IS_ICELAKE(p) && IS_REVID(p, since, until)) #define IS_LP(dev_priv) (INTEL_INFO(dev_priv)->is_lp) #define IS_GEN9_LP(dev_priv) (IS_GEN(dev_priv, 9) && IS_LP(dev_priv)) #define IS_GEN9_BC(dev_priv) (IS_GEN(dev_priv, 9) && !IS_LP(dev_priv)) #define HAS_ENGINE(dev_priv, id) (INTEL_INFO(dev_priv)->engine_mask & BIT(id)) #define ENGINE_INSTANCES_MASK(dev_priv, first, count) ({ \ unsigned int first__ = (first); \ unsigned int count__ = (count); \ (INTEL_INFO(dev_priv)->engine_mask & \ GENMASK(first__ + count__ - 1, first__)) >> first__; \ }) #define VDBOX_MASK(dev_priv) \ ENGINE_INSTANCES_MASK(dev_priv, VCS0, I915_MAX_VCS) #define VEBOX_MASK(dev_priv) \ ENGINE_INSTANCES_MASK(dev_priv, VECS0, I915_MAX_VECS) #define HAS_LLC(dev_priv) (INTEL_INFO(dev_priv)->has_llc) #define HAS_SNOOP(dev_priv) (INTEL_INFO(dev_priv)->has_snoop) #define HAS_EDRAM(dev_priv) ((dev_priv)->edram_size_mb) #define HAS_WT(dev_priv) ((IS_HASWELL(dev_priv) || \ IS_BROADWELL(dev_priv)) && HAS_EDRAM(dev_priv)) #define HWS_NEEDS_PHYSICAL(dev_priv) (INTEL_INFO(dev_priv)->hws_needs_physical) #define HAS_LOGICAL_RING_CONTEXTS(dev_priv) \ (INTEL_INFO(dev_priv)->has_logical_ring_contexts) #define HAS_LOGICAL_RING_ELSQ(dev_priv) \ (INTEL_INFO(dev_priv)->has_logical_ring_elsq) #define HAS_LOGICAL_RING_PREEMPTION(dev_priv) \ (INTEL_INFO(dev_priv)->has_logical_ring_preemption) #define HAS_EXECLISTS(dev_priv) HAS_LOGICAL_RING_CONTEXTS(dev_priv) #define INTEL_PPGTT(dev_priv) (INTEL_INFO(dev_priv)->ppgtt_type) #define HAS_PPGTT(dev_priv) \ (INTEL_PPGTT(dev_priv) != INTEL_PPGTT_NONE) #define HAS_FULL_PPGTT(dev_priv) \ (INTEL_PPGTT(dev_priv) >= INTEL_PPGTT_FULL) #define HAS_PAGE_SIZES(dev_priv, sizes) ({ \ GEM_BUG_ON((sizes) == 0); \ ((sizes) & ~INTEL_INFO(dev_priv)->page_sizes) == 0; \ }) #define HAS_OVERLAY(dev_priv) (INTEL_INFO(dev_priv)->display.has_overlay) #define OVERLAY_NEEDS_PHYSICAL(dev_priv) \ (INTEL_INFO(dev_priv)->display.overlay_needs_physical) /* Early gen2 have a totally busted CS tlb and require pinned batches. */ #define HAS_BROKEN_CS_TLB(dev_priv) (IS_I830(dev_priv) || IS_I845G(dev_priv)) /* WaRsDisableCoarsePowerGating:skl,cnl */ #define NEEDS_WaRsDisableCoarsePowerGating(dev_priv) \ (IS_CANNONLAKE(dev_priv) || \ IS_SKL_GT3(dev_priv) || IS_SKL_GT4(dev_priv)) #define HAS_GMBUS_IRQ(dev_priv) (INTEL_GEN(dev_priv) >= 4) #define HAS_GMBUS_BURST_READ(dev_priv) (INTEL_GEN(dev_priv) >= 10 || \ IS_GEMINILAKE(dev_priv) || \ IS_KABYLAKE(dev_priv)) /* With the 945 and later, Y tiling got adjusted so that it was 32 128-byte * rows, which changed the alignment requirements and fence programming. */ #define HAS_128_BYTE_Y_TILING(dev_priv) (!IS_GEN(dev_priv, 2) && \ !(IS_I915G(dev_priv) || \ IS_I915GM(dev_priv))) #define SUPPORTS_TV(dev_priv) (INTEL_INFO(dev_priv)->display.supports_tv) #define I915_HAS_HOTPLUG(dev_priv) (INTEL_INFO(dev_priv)->display.has_hotplug) #define HAS_FW_BLC(dev_priv) (INTEL_GEN(dev_priv) > 2) #define HAS_FBC(dev_priv) (INTEL_INFO(dev_priv)->display.has_fbc) #define HAS_CUR_FBC(dev_priv) (!HAS_GMCH(dev_priv) && INTEL_GEN(dev_priv) >= 7) #define HAS_IPS(dev_priv) (IS_HSW_ULT(dev_priv) || IS_BROADWELL(dev_priv)) #define HAS_DP_MST(dev_priv) (INTEL_INFO(dev_priv)->display.has_dp_mst) #define HAS_DDI(dev_priv) (INTEL_INFO(dev_priv)->display.has_ddi) #define HAS_FPGA_DBG_UNCLAIMED(dev_priv) (INTEL_INFO(dev_priv)->has_fpga_dbg) #define HAS_PSR(dev_priv) (INTEL_INFO(dev_priv)->display.has_psr) #define HAS_TRANSCODER_EDP(dev_priv) (INTEL_INFO(dev_priv)->trans_offsets[TRANSCODER_EDP] != 0) #define HAS_RC6(dev_priv) (INTEL_INFO(dev_priv)->has_rc6) #define HAS_RC6p(dev_priv) (INTEL_INFO(dev_priv)->has_rc6p) #define HAS_RC6pp(dev_priv) (false) /* HW was never validated */ #define HAS_RPS(dev_priv) (INTEL_INFO(dev_priv)->has_rps) #define HAS_CSR(dev_priv) (INTEL_INFO(dev_priv)->display.has_csr) #define HAS_RUNTIME_PM(dev_priv) (INTEL_INFO(dev_priv)->has_runtime_pm) #define HAS_64BIT_RELOC(dev_priv) (INTEL_INFO(dev_priv)->has_64bit_reloc) #define HAS_IPC(dev_priv) (INTEL_INFO(dev_priv)->display.has_ipc) /* * For now, anything with a GuC requires uCode loading, and then supports * command submission once loaded. But these are logically independent * properties, so we have separate macros to test them. */ #define HAS_GUC(dev_priv) (INTEL_INFO(dev_priv)->has_guc) #define HAS_GUC_UCODE(dev_priv) (HAS_GUC(dev_priv)) #define HAS_GUC_SCHED(dev_priv) (HAS_GUC(dev_priv)) /* For now, anything with a GuC has also HuC */ #define HAS_HUC(dev_priv) (HAS_GUC(dev_priv)) #define HAS_HUC_UCODE(dev_priv) (HAS_GUC(dev_priv)) /* Having a GuC is not the same as using a GuC */ #define USES_GUC(dev_priv) intel_uc_is_using_guc(dev_priv) #define USES_GUC_SUBMISSION(dev_priv) intel_uc_is_using_guc_submission(dev_priv) #define USES_HUC(dev_priv) intel_uc_is_using_huc(dev_priv) #define HAS_POOLED_EU(dev_priv) (INTEL_INFO(dev_priv)->has_pooled_eu) #define INTEL_PCH_DEVICE_ID_MASK 0xff80 #define INTEL_PCH_IBX_DEVICE_ID_TYPE 0x3b00 #define INTEL_PCH_CPT_DEVICE_ID_TYPE 0x1c00 #define INTEL_PCH_PPT_DEVICE_ID_TYPE 0x1e00 #define INTEL_PCH_LPT_DEVICE_ID_TYPE 0x8c00 #define INTEL_PCH_LPT_LP_DEVICE_ID_TYPE 0x9c00 #define INTEL_PCH_WPT_DEVICE_ID_TYPE 0x8c80 #define INTEL_PCH_WPT_LP_DEVICE_ID_TYPE 0x9c80 #define INTEL_PCH_SPT_DEVICE_ID_TYPE 0xA100 #define INTEL_PCH_SPT_LP_DEVICE_ID_TYPE 0x9D00 #define INTEL_PCH_KBP_DEVICE_ID_TYPE 0xA280 #define INTEL_PCH_CNP_DEVICE_ID_TYPE 0xA300 #define INTEL_PCH_CNP_LP_DEVICE_ID_TYPE 0x9D80 #define INTEL_PCH_CMP_DEVICE_ID_TYPE 0x0280 #define INTEL_PCH_ICP_DEVICE_ID_TYPE 0x3480 #define INTEL_PCH_MCC_DEVICE_ID_TYPE 0x4B00 #define INTEL_PCH_P2X_DEVICE_ID_TYPE 0x7100 #define INTEL_PCH_P3X_DEVICE_ID_TYPE 0x7000 #define INTEL_PCH_QEMU_DEVICE_ID_TYPE 0x2900 /* qemu q35 has 2918 */ #define INTEL_PCH_TYPE(dev_priv) ((dev_priv)->pch_type) #define INTEL_PCH_ID(dev_priv) ((dev_priv)->pch_id) #define HAS_PCH_MCC(dev_priv) (INTEL_PCH_TYPE(dev_priv) == PCH_MCC) #define HAS_PCH_ICP(dev_priv) (INTEL_PCH_TYPE(dev_priv) == PCH_ICP) #define HAS_PCH_CNP(dev_priv) (INTEL_PCH_TYPE(dev_priv) == PCH_CNP) #define HAS_PCH_SPT(dev_priv) (INTEL_PCH_TYPE(dev_priv) == PCH_SPT) #define HAS_PCH_LPT(dev_priv) (INTEL_PCH_TYPE(dev_priv) == PCH_LPT) #define HAS_PCH_LPT_LP(dev_priv) \ (INTEL_PCH_ID(dev_priv) == INTEL_PCH_LPT_LP_DEVICE_ID_TYPE || \ INTEL_PCH_ID(dev_priv) == INTEL_PCH_WPT_LP_DEVICE_ID_TYPE) #define HAS_PCH_LPT_H(dev_priv) \ (INTEL_PCH_ID(dev_priv) == INTEL_PCH_LPT_DEVICE_ID_TYPE || \ INTEL_PCH_ID(dev_priv) == INTEL_PCH_WPT_DEVICE_ID_TYPE) #define HAS_PCH_CPT(dev_priv) (INTEL_PCH_TYPE(dev_priv) == PCH_CPT) #define HAS_PCH_IBX(dev_priv) (INTEL_PCH_TYPE(dev_priv) == PCH_IBX) #define HAS_PCH_NOP(dev_priv) (INTEL_PCH_TYPE(dev_priv) == PCH_NOP) #define HAS_PCH_SPLIT(dev_priv) (INTEL_PCH_TYPE(dev_priv) != PCH_NONE) #define HAS_GMCH(dev_priv) (INTEL_INFO(dev_priv)->display.has_gmch) #define HAS_LSPCON(dev_priv) (INTEL_GEN(dev_priv) >= 9) /* DPF == dynamic parity feature */ #define HAS_L3_DPF(dev_priv) (INTEL_INFO(dev_priv)->has_l3_dpf) #define NUM_L3_SLICES(dev_priv) (IS_HSW_GT3(dev_priv) ? \ 2 : HAS_L3_DPF(dev_priv)) #define GT_FREQUENCY_MULTIPLIER 50 #define GEN9_FREQ_SCALER 3 #define HAS_DISPLAY(dev_priv) (INTEL_INFO(dev_priv)->num_pipes > 0) #include "i915_trace.h" static inline bool intel_vtd_active(void) { #ifdef CONFIG_INTEL_IOMMU if (intel_iommu_gfx_mapped) return true; #endif return false; } static inline bool intel_scanout_needs_vtd_wa(struct drm_i915_private *dev_priv) { return INTEL_GEN(dev_priv) >= 6 && intel_vtd_active(); } static inline bool intel_ggtt_update_needs_vtd_wa(struct drm_i915_private *dev_priv) { return IS_BROXTON(dev_priv) && intel_vtd_active(); } /* i915_drv.c */ void __printf(3, 4) __i915_printk(struct drm_i915_private *dev_priv, const char *level, const char *fmt, ...); #define i915_report_error(dev_priv, fmt, ...) \ __i915_printk(dev_priv, KERN_ERR, fmt, ##__VA_ARGS__) #ifdef CONFIG_COMPAT extern long i915_compat_ioctl(struct file *filp, unsigned int cmd, unsigned long arg); #else #define i915_compat_ioctl NULL #endif extern const struct dev_pm_ops i915_pm_ops; extern int i915_driver_load(struct pci_dev *pdev, const struct pci_device_id *ent); extern void i915_driver_unload(struct drm_device *dev); extern void intel_engine_init_hangcheck(struct intel_engine_cs *engine); extern void intel_hangcheck_init(struct drm_i915_private *dev_priv); int vlv_force_gfx_clock(struct drm_i915_private *dev_priv, bool on); u32 intel_calculate_mcr_s_ss_select(struct drm_i915_private *dev_priv); static inline void i915_queue_hangcheck(struct drm_i915_private *dev_priv) { unsigned long delay; if (unlikely(!i915_modparams.enable_hangcheck)) return; /* Don't continually defer the hangcheck so that it is always run at * least once after work has been scheduled on any ring. Otherwise, * we will ignore a hung ring if a second ring is kept busy. */ delay = round_jiffies_up_relative(DRM_I915_HANGCHECK_JIFFIES); queue_delayed_work(system_long_wq, &dev_priv->gpu_error.hangcheck_work, delay); } static inline bool intel_gvt_active(struct drm_i915_private *dev_priv) { return dev_priv->gvt; } static inline bool intel_vgpu_active(struct drm_i915_private *dev_priv) { return dev_priv->vgpu.active; } /* i915_gem.c */ int i915_gem_init_userptr(struct drm_i915_private *dev_priv); void i915_gem_cleanup_userptr(struct drm_i915_private *dev_priv); void i915_gem_sanitize(struct drm_i915_private *i915); int i915_gem_init_early(struct drm_i915_private *dev_priv); void i915_gem_cleanup_early(struct drm_i915_private *dev_priv); int i915_gem_freeze(struct drm_i915_private *dev_priv); int i915_gem_freeze_late(struct drm_i915_private *dev_priv); static inline void i915_gem_drain_freed_objects(struct drm_i915_private *i915) { if (!atomic_read(&i915->mm.free_count)) return; /* A single pass should suffice to release all the freed objects (along * most call paths) , but be a little more paranoid in that freeing * the objects does take a little amount of time, during which the rcu * callbacks could have added new objects into the freed list, and * armed the work again. */ do { rcu_barrier(); } while (flush_work(&i915->mm.free_work)); } static inline void i915_gem_drain_workqueue(struct drm_i915_private *i915) { /* * Similar to objects above (see i915_gem_drain_freed-objects), in * general we have workers that are armed by RCU and then rearm * themselves in their callbacks. To be paranoid, we need to * drain the workqueue a second time after waiting for the RCU * grace period so that we catch work queued via RCU from the first * pass. As neither drain_workqueue() nor flush_workqueue() report * a result, we make an assumption that we only don't require more * than 3 passes to catch all _recursive_ RCU delayed work. * */ int pass = 3; do { rcu_barrier(); i915_gem_drain_freed_objects(i915); } while (--pass); drain_workqueue(i915->wq); } struct i915_vma * __must_check i915_gem_object_ggtt_pin(struct drm_i915_gem_object *obj, const struct i915_ggtt_view *view, u64 size, u64 alignment, u64 flags); int i915_gem_object_unbind(struct drm_i915_gem_object *obj); void i915_gem_runtime_suspend(struct drm_i915_private *dev_priv); static inline int __must_check i915_mutex_lock_interruptible(struct drm_device *dev) { return mutex_lock_interruptible(&dev->struct_mutex); } int i915_gem_dumb_create(struct drm_file *file_priv, struct drm_device *dev, struct drm_mode_create_dumb *args); int i915_gem_mmap_gtt(struct drm_file *file_priv, struct drm_device *dev, u32 handle, u64 *offset); int i915_gem_mmap_gtt_version(void); void i915_gem_track_fb(struct drm_i915_gem_object *old, struct drm_i915_gem_object *new, unsigned frontbuffer_bits); int __must_check i915_gem_set_global_seqno(struct drm_device *dev, u32 seqno); static inline bool __i915_wedged(struct i915_gpu_error *error) { return unlikely(test_bit(I915_WEDGED, &error->flags)); } static inline bool i915_reset_failed(struct drm_i915_private *i915) { return __i915_wedged(&i915->gpu_error); } static inline u32 i915_reset_count(struct i915_gpu_error *error) { return READ_ONCE(error->reset_count); } static inline u32 i915_reset_engine_count(struct i915_gpu_error *error, struct intel_engine_cs *engine) { return READ_ONCE(error->reset_engine_count[engine->id]); } void i915_gem_set_wedged(struct drm_i915_private *dev_priv); bool i915_gem_unset_wedged(struct drm_i915_private *dev_priv); void i915_gem_init_mmio(struct drm_i915_private *i915); int __must_check i915_gem_init(struct drm_i915_private *dev_priv); int __must_check i915_gem_init_hw(struct drm_i915_private *dev_priv); void i915_gem_init_swizzling(struct drm_i915_private *dev_priv); void i915_gem_fini_hw(struct drm_i915_private *dev_priv); void i915_gem_fini(struct drm_i915_private *dev_priv); int i915_gem_wait_for_idle(struct drm_i915_private *dev_priv, unsigned int flags, long timeout); void i915_gem_suspend(struct drm_i915_private *dev_priv); void i915_gem_suspend_late(struct drm_i915_private *dev_priv); void i915_gem_resume(struct drm_i915_private *dev_priv); vm_fault_t i915_gem_fault(struct vm_fault *vmf); int i915_gem_open(struct drm_i915_private *i915, struct drm_file *file); void i915_gem_release(struct drm_device *dev, struct drm_file *file); int i915_gem_object_set_cache_level(struct drm_i915_gem_object *obj, enum i915_cache_level cache_level); struct drm_gem_object *i915_gem_prime_import(struct drm_device *dev, struct dma_buf *dma_buf); struct dma_buf *i915_gem_prime_export(struct drm_device *dev, struct drm_gem_object *gem_obj, int flags); static inline struct i915_gem_context * __i915_gem_context_lookup_rcu(struct drm_i915_file_private *file_priv, u32 id) { return idr_find(&file_priv->context_idr, id); } static inline struct i915_gem_context * i915_gem_context_lookup(struct drm_i915_file_private *file_priv, u32 id) { struct i915_gem_context *ctx; rcu_read_lock(); ctx = __i915_gem_context_lookup_rcu(file_priv, id); if (ctx && !kref_get_unless_zero(&ctx->ref)) ctx = NULL; rcu_read_unlock(); return ctx; } int i915_perf_open_ioctl(struct drm_device *dev, void *data, struct drm_file *file); int i915_perf_add_config_ioctl(struct drm_device *dev, void *data, struct drm_file *file); int i915_perf_remove_config_ioctl(struct drm_device *dev, void *data, struct drm_file *file); void i915_oa_init_reg_state(struct intel_engine_cs *engine, struct intel_context *ce, u32 *reg_state); /* i915_gem_evict.c */ int __must_check i915_gem_evict_something(struct i915_address_space *vm, u64 min_size, u64 alignment, unsigned cache_level, u64 start, u64 end, unsigned flags); int __must_check i915_gem_evict_for_node(struct i915_address_space *vm, struct drm_mm_node *node, unsigned int flags); int i915_gem_evict_vm(struct i915_address_space *vm); void i915_gem_flush_ggtt_writes(struct drm_i915_private *dev_priv); /* belongs in i915_gem_gtt.h */ static inline void i915_gem_chipset_flush(struct drm_i915_private *dev_priv) { wmb(); if (INTEL_GEN(dev_priv) < 6) intel_gtt_chipset_flush(); } /* i915_gem_stolen.c */ int i915_gem_stolen_insert_node(struct drm_i915_private *dev_priv, struct drm_mm_node *node, u64 size, unsigned alignment); int i915_gem_stolen_insert_node_in_range(struct drm_i915_private *dev_priv, struct drm_mm_node *node, u64 size, unsigned alignment, u64 start, u64 end); void i915_gem_stolen_remove_node(struct drm_i915_private *dev_priv, struct drm_mm_node *node); int i915_gem_init_stolen(struct drm_i915_private *dev_priv); void i915_gem_cleanup_stolen(struct drm_i915_private *dev_priv); struct drm_i915_gem_object * i915_gem_object_create_stolen(struct drm_i915_private *dev_priv, resource_size_t size); struct drm_i915_gem_object * i915_gem_object_create_stolen_for_preallocated(struct drm_i915_private *dev_priv, resource_size_t stolen_offset, resource_size_t gtt_offset, resource_size_t size); /* i915_gem_internal.c */ struct drm_i915_gem_object * i915_gem_object_create_internal(struct drm_i915_private *dev_priv, phys_addr_t size); /* i915_gem_shrinker.c */ unsigned long i915_gem_shrink(struct drm_i915_private *i915, unsigned long target, unsigned long *nr_scanned, unsigned flags); #define I915_SHRINK_UNBOUND BIT(0) #define I915_SHRINK_BOUND BIT(1) #define I915_SHRINK_ACTIVE BIT(2) #define I915_SHRINK_VMAPS BIT(3) #define I915_SHRINK_WRITEBACK BIT(4) unsigned long i915_gem_shrink_all(struct drm_i915_private *i915); void i915_gem_shrinker_register(struct drm_i915_private *i915); void i915_gem_shrinker_unregister(struct drm_i915_private *i915); void i915_gem_shrinker_taints_mutex(struct drm_i915_private *i915, struct mutex *mutex); /* i915_gem_tiling.c */ static inline bool i915_gem_object_needs_bit17_swizzle(struct drm_i915_gem_object *obj) { struct drm_i915_private *dev_priv = to_i915(obj->base.dev); return dev_priv->mm.bit_6_swizzle_x == I915_BIT_6_SWIZZLE_9_10_17 && i915_gem_object_is_tiled(obj); } u32 i915_gem_fence_size(struct drm_i915_private *dev_priv, u32 size, unsigned int tiling, unsigned int stride); u32 i915_gem_fence_alignment(struct drm_i915_private *dev_priv, u32 size, unsigned int tiling, unsigned int stride); const char *i915_cache_level_str(struct drm_i915_private *i915, int type); /* i915_cmd_parser.c */ int i915_cmd_parser_get_version(struct drm_i915_private *dev_priv); void intel_engine_init_cmd_parser(struct intel_engine_cs *engine); void intel_engine_cleanup_cmd_parser(struct intel_engine_cs *engine); int intel_engine_cmd_parser(struct intel_engine_cs *engine, struct drm_i915_gem_object *batch_obj, struct drm_i915_gem_object *shadow_batch_obj, u32 batch_start_offset, u32 batch_len, bool is_master); /* i915_perf.c */ extern void i915_perf_init(struct drm_i915_private *dev_priv); extern void i915_perf_fini(struct drm_i915_private *dev_priv); extern void i915_perf_register(struct drm_i915_private *dev_priv); extern void i915_perf_unregister(struct drm_i915_private *dev_priv); /* i915_suspend.c */ extern int i915_save_state(struct drm_i915_private *dev_priv); extern int i915_restore_state(struct drm_i915_private *dev_priv); /* i915_sysfs.c */ void i915_setup_sysfs(struct drm_i915_private *dev_priv); void i915_teardown_sysfs(struct drm_i915_private *dev_priv); /* intel_device_info.c */ static inline struct intel_device_info * mkwrite_device_info(struct drm_i915_private *dev_priv) { return (struct intel_device_info *)INTEL_INFO(dev_priv); } /* modesetting */ extern void intel_modeset_init_hw(struct drm_device *dev); extern int intel_modeset_init(struct drm_device *dev); extern void intel_modeset_cleanup(struct drm_device *dev); extern int intel_modeset_vga_set_state(struct drm_i915_private *dev_priv, bool state); extern void intel_display_resume(struct drm_device *dev); extern void i915_redisable_vga(struct drm_i915_private *dev_priv); extern void i915_redisable_vga_power_on(struct drm_i915_private *dev_priv); extern void intel_init_pch_refclk(struct drm_i915_private *dev_priv); int i915_reg_read_ioctl(struct drm_device *dev, void *data, struct drm_file *file); extern struct intel_display_error_state * intel_display_capture_error_state(struct drm_i915_private *dev_priv); extern void intel_display_print_error_state(struct drm_i915_error_state_buf *e, struct intel_display_error_state *error); #define __I915_REG_OP(op__, dev_priv__, ...) \ intel_uncore_##op__(&(dev_priv__)->uncore, __VA_ARGS__) #define I915_READ(reg__) __I915_REG_OP(read, dev_priv, (reg__)) #define I915_WRITE(reg__, val__) __I915_REG_OP(write, dev_priv, (reg__), (val__)) #define POSTING_READ(reg__) __I915_REG_OP(posting_read, dev_priv, (reg__)) /* These are untraced mmio-accessors that are only valid to be used inside * critical sections, such as inside IRQ handlers, where forcewake is explicitly * controlled. * * Think twice, and think again, before using these. * * As an example, these accessors can possibly be used between: * * spin_lock_irq(&dev_priv->uncore.lock); * intel_uncore_forcewake_get__locked(); * * and * * intel_uncore_forcewake_put__locked(); * spin_unlock_irq(&dev_priv->uncore.lock); * * * Note: some registers may not need forcewake held, so * intel_uncore_forcewake_{get,put} can be omitted, see * intel_uncore_forcewake_for_reg(). * * Certain architectures will die if the same cacheline is concurrently accessed * by different clients (e.g. on Ivybridge). Access to registers should * therefore generally be serialised, by either the dev_priv->uncore.lock or * a more localised lock guarding all access to that bank of registers. */ #define I915_READ_FW(reg__) __I915_REG_OP(read_fw, dev_priv, (reg__)) #define I915_WRITE_FW(reg__, val__) __I915_REG_OP(write_fw, dev_priv, (reg__), (val__)) /* "Broadcast RGB" property */ #define INTEL_BROADCAST_RGB_AUTO 0 #define INTEL_BROADCAST_RGB_FULL 1 #define INTEL_BROADCAST_RGB_LIMITED 2 void i915_memcpy_init_early(struct drm_i915_private *dev_priv); bool i915_memcpy_from_wc(void *dst, const void *src, unsigned long len); /* The movntdqa instructions used for memcpy-from-wc require 16-byte alignment, * as well as SSE4.1 support. i915_memcpy_from_wc() will report if it cannot * perform the operation. To check beforehand, pass in the parameters to * to i915_can_memcpy_from_wc() - since we only care about the low 4 bits, * you only need to pass in the minor offsets, page-aligned pointers are * always valid. * * For just checking for SSE4.1, in the foreknowledge that the future use * will be correctly aligned, just use i915_has_memcpy_from_wc(). */ #define i915_can_memcpy_from_wc(dst, src, len) \ i915_memcpy_from_wc((void *)((unsigned long)(dst) | (unsigned long)(src) | (len)), NULL, 0) #define i915_has_memcpy_from_wc() \ i915_memcpy_from_wc(NULL, NULL, 0) /* i915_mm.c */ int remap_io_mapping(struct vm_area_struct *vma, unsigned long addr, unsigned long pfn, unsigned long size, struct io_mapping *iomap); static inline int intel_hws_csb_write_index(struct drm_i915_private *i915) { if (INTEL_GEN(i915) >= 10) return CNL_HWS_CSB_WRITE_INDEX; else return I915_HWS_CSB_WRITE_INDEX; } static inline u32 i915_scratch_offset(const struct drm_i915_private *i915) { return i915_ggtt_offset(i915->gt.scratch); } static inline enum i915_map_type i915_coherent_map_type(struct drm_i915_private *i915) { return HAS_LLC(i915) ? I915_MAP_WB : I915_MAP_WC; } static inline void add_taint_for_CI(unsigned int taint) { /* * The system is "ok", just about surviving for the user, but * CI results are now unreliable as the HW is very suspect. * CI checks the taint state after every test and will reboot * the machine if the kernel is tainted. */ add_taint(taint, LOCKDEP_STILL_OK); } #endif |