/* * Copyright (c) 2010 NVIDIA, Corporation * * 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 (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 NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS 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 __NVCTRL_H #define __NVCTRL_H #include /**************************************************************************/ /* * Attribute Targets * * Targets define attribute groups. For example, some attributes are only * valid to set on a GPU, others are only valid when talking about an * X Screen. Target types are then what is used to identify the target * group of the attribute you wish to set/query. * * Here are the supported target types: */ #define NV_CTRL_TARGET_TYPE_X_SCREEN 0 #define NV_CTRL_TARGET_TYPE_GPU 1 #define NV_CTRL_TARGET_TYPE_FRAMELOCK 2 #define NV_CTRL_TARGET_TYPE_VCSC 3 /* Visual Computing System */ #define NV_CTRL_TARGET_TYPE_GVI 4 #define NV_CTRL_TARGET_TYPE_COOLER 5 /* e.g., fan */ #define NV_CTRL_TARGET_TYPE_THERMAL_SENSOR 6 #define NV_CTRL_TARGET_TYPE_3D_VISION_PRO_TRANSCEIVER 7 #define NV_CTRL_TARGET_TYPE_DISPLAY 8 /**************************************************************************/ /* * Attributes * * Some attributes may only be read; some may require a display_mask * argument and others may be valid only for specific target types. * This information is encoded in the "permission" comment after each * attribute #define, and can be queried at run time with * XNVCTRLQueryValidAttributeValues() and/or * XNVCTRLQueryValidTargetAttributeValues() * * Key to Integer Attribute "Permissions": * * R: The attribute is readable (in general, all attributes will be * readable) * * W: The attribute is writable (attributes may not be writable for * various reasons: they represent static system information, they * can only be changed by changing an XF86Config option, etc). * * D: The attribute requires the display mask argument. The * attributes NV_CTRL_CONNECTED_DISPLAYS and NV_CTRL_ENABLED_DISPLAYS * will be a bitmask of what display devices are connected and what * display devices are enabled for use in X, respectively. Each bit * in the bitmask represents a display device; it is these bits which * should be used as the display_mask when dealing with attributes * designated with "D" below. For attributes that do not require the * display mask, the argument is ignored. * * Alternatively, NV-CONTROL versions 1.27 and greater allow these * attributes to be accessed via display target types, in which case * the display_mask is ignored. * * G: The attribute may be queried using an NV_CTRL_TARGET_TYPE_GPU * target type via XNVCTRLQueryTargetAttribute(). * * F: The attribute may be queried using an NV_CTRL_TARGET_TYPE_FRAMELOCK * target type via XNVCTRLQueryTargetAttribute(). * * X: When Xinerama is enabled, this attribute is kept consistent across * all Physical X Screens; assignment of this attribute will be * broadcast by the NVIDIA X Driver to all X Screens. * * V: The attribute may be queried using an NV_CTRL_TARGET_TYPE_VCSC * target type via XNVCTRLQueryTargetAttribute(). * * I: The attribute may be queried using an NV_CTRL_TARGET_TYPE_GVI target type * via XNVCTRLQueryTargetAttribute(). * * Q: The attribute is a 64-bit integer attribute; use the 64-bit versions * of the appropriate query interfaces. * * C: The attribute may be queried using an NV_CTRL_TARGET_TYPE_COOLER target * type via XNVCTRLQueryTargetAttribute(). * * S: The attribute may be queried using an NV_CTRL_TARGET_TYPE_THERMAL_SENSOR * target type via XNVCTRLQueryTargetAttribute(). * * T: The attribute may be queried using an * NV_CTRL_TARGET_TYPE_3D_VISION_PRO_TRANSCEIVER target type * via XNVCTRLQueryTargetAttribute(). * * NOTE: Unless mentioned otherwise, all attributes may be queried using * an NV_CTRL_TARGET_TYPE_X_SCREEN target type via * XNVCTRLQueryTargetAttribute(). */ /**************************************************************************/ /* * Integer attributes: * * Integer attributes can be queried through the XNVCTRLQueryAttribute() and * XNVCTRLQueryTargetAttribute() function calls. * * Integer attributes can be set through the XNVCTRLSetAttribute() and * XNVCTRLSetTargetAttribute() function calls. * * Unless otherwise noted, all integer attributes can be queried/set * using an NV_CTRL_TARGET_TYPE_X_SCREEN target. Attributes that cannot * take an NV_CTRL_TARGET_TYPE_X_SCREEN also cannot be queried/set through * XNVCTRLQueryAttribute()/XNVCTRLSetAttribute() (Since these assume * an X Screen target). */ /* * NV_CTRL_FLATPANEL_SCALING - not supported */ #define NV_CTRL_FLATPANEL_SCALING 2 /* not supported */ #define NV_CTRL_FLATPANEL_SCALING_DEFAULT 0 /* not supported */ #define NV_CTRL_FLATPANEL_SCALING_NATIVE 1 /* not supported */ #define NV_CTRL_FLATPANEL_SCALING_SCALED 2 /* not supported */ #define NV_CTRL_FLATPANEL_SCALING_CENTERED 3 /* not supported */ #define NV_CTRL_FLATPANEL_SCALING_ASPECT_SCALED 4 /* not supported */ /* * NV_CTRL_FLATPANEL_DITHERING - not supported * * NV_CTRL_DITHERING should be used instead. */ #define NV_CTRL_FLATPANEL_DITHERING 3 /* not supported */ #define NV_CTRL_FLATPANEL_DITHERING_DEFAULT 0 /* not supported */ #define NV_CTRL_FLATPANEL_DITHERING_ENABLED 1 /* not supported */ #define NV_CTRL_FLATPANEL_DITHERING_DISABLED 2 /* not supported */ /* * NV_CTRL_DITHERING - the requested dithering configuration; * possible values are: * * 0: auto (the driver will decide when to dither) * 1: enabled (the driver will always dither when possible) * 2: disabled (the driver will never dither) */ #define NV_CTRL_DITHERING 3 /* RWDG */ #define NV_CTRL_DITHERING_AUTO 0 #define NV_CTRL_DITHERING_ENABLED 1 #define NV_CTRL_DITHERING_DISABLED 2 /* * NV_CTRL_DIGITAL_VIBRANCE - sets the digital vibrance level for the * specified display device. */ #define NV_CTRL_DIGITAL_VIBRANCE 4 /* RWDG */ /* * NV_CTRL_BUS_TYPE - returns the bus type through which the specified device * is connected to the computer. * When this attribute is queried on an X screen target, the bus type of the * GPU driving the X screen is returned. */ #define NV_CTRL_BUS_TYPE 5 /* R--GI */ #define NV_CTRL_BUS_TYPE_AGP 0 #define NV_CTRL_BUS_TYPE_PCI 1 #define NV_CTRL_BUS_TYPE_PCI_EXPRESS 2 #define NV_CTRL_BUS_TYPE_INTEGRATED 3 /* * NV_CTRL_TOTAL_GPU_MEMORY - returns the total amount of memory available * to the specified GPU (or the GPU driving the specified X * screen). Note: if the GPU supports TurboCache(TM), the value * reported may exceed the amount of video memory installed on the * GPU. The value reported for integrated GPUs may likewise exceed * the amount of dedicated system memory set aside by the system * BIOS for use by the integrated GPU. */ #define NV_CTRL_TOTAL_GPU_MEMORY 6 /* R--G */ #define NV_CTRL_VIDEO_RAM NV_CTRL_TOTAL_GPU_MEMORY /* * NV_CTRL_IRQ - returns the interrupt request line used by the specified * device. * When this attribute is queried on an X screen target, the IRQ of the GPU * driving the X screen is returned. */ #define NV_CTRL_IRQ 7 /* R--GI */ /* * NV_CTRL_OPERATING_SYSTEM - returns the operating system on which * the X server is running. */ #define NV_CTRL_OPERATING_SYSTEM 8 /* R--G */ #define NV_CTRL_OPERATING_SYSTEM_LINUX 0 #define NV_CTRL_OPERATING_SYSTEM_FREEBSD 1 #define NV_CTRL_OPERATING_SYSTEM_SUNOS 2 /* * NV_CTRL_SYNC_TO_VBLANK - enables sync to vblank for OpenGL clients. * This setting is only applied to OpenGL clients that are started * after this setting is applied. */ #define NV_CTRL_SYNC_TO_VBLANK 9 /* RW-X */ #define NV_CTRL_SYNC_TO_VBLANK_OFF 0 #define NV_CTRL_SYNC_TO_VBLANK_ON 1 /* * NV_CTRL_LOG_ANISO - enables anisotropic filtering for OpenGL * clients; on some NVIDIA hardware, this can only be enabled or * disabled; on other hardware different levels of anisotropic * filtering can be specified. This setting is only applied to OpenGL * clients that are started after this setting is applied. */ #define NV_CTRL_LOG_ANISO 10 /* RW-X */ /* * NV_CTRL_FSAA_MODE - the FSAA setting for OpenGL clients; possible * FSAA modes: * * NV_CTRL_FSAA_MODE_2x "2x Bilinear Multisampling" * NV_CTRL_FSAA_MODE_2x_5t "2x Quincunx Multisampling" * NV_CTRL_FSAA_MODE_15x15 "1.5 x 1.5 Supersampling" * NV_CTRL_FSAA_MODE_2x2 "2 x 2 Supersampling" * NV_CTRL_FSAA_MODE_4x "4x Bilinear Multisampling" * NV_CTRL_FSAA_MODE_4x_9t "4x Gaussian Multisampling" * NV_CTRL_FSAA_MODE_8x "2x Bilinear Multisampling by 4x Supersampling" * NV_CTRL_FSAA_MODE_16x "4x Bilinear Multisampling by 4x Supersampling" * NV_CTRL_FSAA_MODE_8xS "4x Multisampling by 2x Supersampling" * * This setting is only applied to OpenGL clients that are started * after this setting is applied. */ #define NV_CTRL_FSAA_MODE 11 /* RW-X */ #define NV_CTRL_FSAA_MODE_NONE 0 #define NV_CTRL_FSAA_MODE_2x 1 #define NV_CTRL_FSAA_MODE_2x_5t 2 #define NV_CTRL_FSAA_MODE_15x15 3 #define NV_CTRL_FSAA_MODE_2x2 4 #define NV_CTRL_FSAA_MODE_4x 5 #define NV_CTRL_FSAA_MODE_4x_9t 6 #define NV_CTRL_FSAA_MODE_8x 7 #define NV_CTRL_FSAA_MODE_16x 8 #define NV_CTRL_FSAA_MODE_8xS 9 #define NV_CTRL_FSAA_MODE_8xQ 10 #define NV_CTRL_FSAA_MODE_16xS 11 #define NV_CTRL_FSAA_MODE_16xQ 12 #define NV_CTRL_FSAA_MODE_32xS 13 #define NV_CTRL_FSAA_MODE_32x 14 #define NV_CTRL_FSAA_MODE_64xS 15 #define NV_CTRL_FSAA_MODE_MAX NV_CTRL_FSAA_MODE_64xS /* * NV_CTRL_TEXTURE_SHARPEN - enables texture sharpening for OpenGL * clients. This setting is only applied to OpenGL clients that are * started after this setting is applied. */ #define NV_CTRL_TEXTURE_SHARPEN 12 /* RW-X */ #define NV_CTRL_TEXTURE_SHARPEN_OFF 0 #define NV_CTRL_TEXTURE_SHARPEN_ON 1 /* * NV_CTRL_UBB - returns whether UBB is enabled for the specified X * screen. */ #define NV_CTRL_UBB 13 /* R-- */ #define NV_CTRL_UBB_OFF 0 #define NV_CTRL_UBB_ON 1 /* * NV_CTRL_OVERLAY - returns whether the RGB overlay is enabled for * the specified X screen. */ #define NV_CTRL_OVERLAY 14 /* R-- */ #define NV_CTRL_OVERLAY_OFF 0 #define NV_CTRL_OVERLAY_ON 1 /* * NV_CTRL_STEREO - returns whether stereo (and what type) is enabled * for the specified X screen. */ #define NV_CTRL_STEREO 16 /* R-- */ #define NV_CTRL_STEREO_OFF 0 #define NV_CTRL_STEREO_DDC 1 #define NV_CTRL_STEREO_BLUELINE 2 #define NV_CTRL_STEREO_DIN 3 #define NV_CTRL_STEREO_PASSIVE_EYE_PER_DPY 4 #define NV_CTRL_STEREO_VERTICAL_INTERLACED 5 #define NV_CTRL_STEREO_COLOR_INTERLACED 6 #define NV_CTRL_STEREO_HORIZONTAL_INTERLACED 7 #define NV_CTRL_STEREO_CHECKERBOARD_PATTERN 8 #define NV_CTRL_STEREO_INVERSE_CHECKERBOARD_PATTERN 9 #define NV_CTRL_STEREO_3D_VISION 10 #define NV_CTRL_STEREO_3D_VISION_PRO 11 #define NV_CTRL_STEREO_HDMI_3D 12 #define NV_CTRL_STEREO_TRIDELITY_SL 13 #define NV_CTRL_STEREO_MAX NV_CTRL_STEREO_TRIDELITY_SL /* * NV_CTRL_EMULATE - not supported */ #define NV_CTRL_EMULATE 17 /* not supported */ #define NV_CTRL_EMULATE_NONE 0 /* not supported */ /* * NV_CTRL_TWINVIEW - returns whether TwinView is enabled for the * specified X screen. */ #define NV_CTRL_TWINVIEW 18 /* R-- */ #define NV_CTRL_TWINVIEW_NOT_ENABLED 0 #define NV_CTRL_TWINVIEW_ENABLED 1 /* * NV_CTRL_CONNECTED_DISPLAYS - deprecated * * NV_CTRL_BINARY_DATA_DISPLAYS_CONNECTED_TO_GPU and * NV_CTRL_BINARY_DATA_DISPLAYS_ASSIGNED_TO_XSCREEN should be used instead. */ #define NV_CTRL_CONNECTED_DISPLAYS 19 /* deprecated */ /* * NV_CTRL_ENABLED_DISPLAYS - Event that notifies when one or more display * devices are enabled or disabled on a GPU and/or X screen. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN target. * * Note: Querying this value has been deprecated. * NV_CTRL_BINARY_DATA_DISPLAYS_CONNECTED_TO_GPU, * NV_CTRL_DISPLAY_ENABLED, and * NV_CTRL_BINARY_DATA_DISPLAYS_ENABLED_ON_XSCREEN should be used * instead to obtain the list of enabled displays. */ #define NV_CTRL_ENABLED_DISPLAYS 20 /* ---G */ /**************************************************************************/ /* * Integer attributes specific to configuring Frame Lock on boards that * support it. */ /* * NV_CTRL_FRAMELOCK - returns whether the underlying GPU supports * Frame Lock. All of the other frame lock attributes are only * applicable if NV_CTRL_FRAMELOCK is _SUPPORTED. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN target. */ #define NV_CTRL_FRAMELOCK 21 /* R--G */ #define NV_CTRL_FRAMELOCK_NOT_SUPPORTED 0 #define NV_CTRL_FRAMELOCK_SUPPORTED 1 /* * NV_CTRL_FRAMELOCK_MASTER - deprecated * * NV_CTRL_FRAMELOCK_DISPLAY_CONFIG should be used instead. */ #define NV_CTRL_FRAMELOCK_MASTER 22 /* deprecated */ #define NV_CTRL_FRAMELOCK_MASTER_FALSE 0 /* deprecated */ #define NV_CTRL_FRAMELOCK_MASTER_TRUE 1 /* deprecated */ /* * NV_CTRL_FRAMELOCK_POLARITY - sync either to the rising edge of the * frame lock pulse, the falling edge of the frame lock pulse or both. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_FRAMELOCK or NV_CTRL_TARGET_TYPE_X_SCREEN * target. */ #define NV_CTRL_FRAMELOCK_POLARITY 23 /* RW-F */ #define NV_CTRL_FRAMELOCK_POLARITY_RISING_EDGE 0x1 #define NV_CTRL_FRAMELOCK_POLARITY_FALLING_EDGE 0x2 #define NV_CTRL_FRAMELOCK_POLARITY_BOTH_EDGES 0x3 /* * NV_CTRL_FRAMELOCK_SYNC_DELAY - delay between the frame lock pulse * and the GPU sync. This value must be multiplied by * NV_CTRL_FRAMELOCK_SYNC_DELAY_RESOLUTION to determine the sync delay in * nanoseconds. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_FRAMELOCK or NV_CTRL_TARGET_TYPE_X_SCREEN * target. * * USAGE NOTE: NV_CTRL_FRAMELOCK_SYNC_DELAY_MAX and * NV_CTRL_FRAMELOCK_SYNC_DELAY_FACTOR are deprecated. * The Sync Delay _MAX and _FACTOR are different for different * Quadro Sync products and so, to be correct, the valid values for * NV_CTRL_FRAMELOCK_SYNC_DELAY must be queried to get the range * of acceptable sync delay values, and * NV_CTRL_FRAMELOCK_SYNC_DELAY_RESOLUTION must be queried to * obtain the correct factor. */ #define NV_CTRL_FRAMELOCK_SYNC_DELAY 24 /* RW-F */ #define NV_CTRL_FRAMELOCK_SYNC_DELAY_MAX 2047 /* deprecated */ #define NV_CTRL_FRAMELOCK_SYNC_DELAY_FACTOR 7.81 /* deprecated */ /* * NV_CTRL_FRAMELOCK_SYNC_INTERVAL - how many house sync pulses * between the frame lock sync generation (0 == sync every house sync); * this only applies to the master when receiving house sync. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_FRAMELOCK or NV_CTRL_TARGET_TYPE_X_SCREEN * target. */ #define NV_CTRL_FRAMELOCK_SYNC_INTERVAL 25 /* RW-F */ /* * NV_CTRL_FRAMELOCK_PORT0_STATUS - status of the rj45 port0. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_FRAMELOCK or NV_CTRL_TARGET_TYPE_X_SCREEN * target. */ #define NV_CTRL_FRAMELOCK_PORT0_STATUS 26 /* R--F */ #define NV_CTRL_FRAMELOCK_PORT0_STATUS_INPUT 0 #define NV_CTRL_FRAMELOCK_PORT0_STATUS_OUTPUT 1 /* * NV_CTRL_FRAMELOCK_PORT1_STATUS - status of the rj45 port1. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_FRAMELOCK or NV_CTRL_TARGET_TYPE_X_SCREEN * target. */ #define NV_CTRL_FRAMELOCK_PORT1_STATUS 27 /* R--F */ #define NV_CTRL_FRAMELOCK_PORT1_STATUS_INPUT 0 #define NV_CTRL_FRAMELOCK_PORT1_STATUS_OUTPUT 1 /* * NV_CTRL_FRAMELOCK_HOUSE_STATUS - returns whether or not the house * sync signal was detected on the BNC connector of the frame lock * board. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_FRAMELOCK or NV_CTRL_TARGET_TYPE_X_SCREEN * target. */ #define NV_CTRL_FRAMELOCK_HOUSE_STATUS 28 /* R--F */ #define NV_CTRL_FRAMELOCK_HOUSE_STATUS_NOT_DETECTED 0 #define NV_CTRL_FRAMELOCK_HOUSE_STATUS_DETECTED 1 /* * NV_CTRL_FRAMELOCK_SYNC - enable/disable the syncing of display * devices to the frame lock pulse as specified by previous calls to * NV_CTRL_FRAMELOCK_DISPLAY_CONFIG. * * This attribute can only be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_GPU target. This attribute cannot be * queried using a NV_CTRL_TARGET_TYPE_X_SCREEN. */ #define NV_CTRL_FRAMELOCK_SYNC 29 /* RW-G */ #define NV_CTRL_FRAMELOCK_SYNC_DISABLE 0 #define NV_CTRL_FRAMELOCK_SYNC_ENABLE 1 /* * NV_CTRL_FRAMELOCK_SYNC_READY - reports whether a frame lock * board is receiving sync (regardless of whether or not any display * devices are using the sync). * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_FRAMELOCK or NV_CTRL_TARGET_TYPE_X_SCREEN * target. */ #define NV_CTRL_FRAMELOCK_SYNC_READY 30 /* R--F */ #define NV_CTRL_FRAMELOCK_SYNC_READY_FALSE 0 #define NV_CTRL_FRAMELOCK_SYNC_READY_TRUE 1 /* * NV_CTRL_FRAMELOCK_STEREO_SYNC - this indicates that the GPU stereo * signal is in sync with the frame lock stereo signal. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN * target. */ #define NV_CTRL_FRAMELOCK_STEREO_SYNC 31 /* R--G */ #define NV_CTRL_FRAMELOCK_STEREO_SYNC_FALSE 0 #define NV_CTRL_FRAMELOCK_STEREO_SYNC_TRUE 1 /* * NV_CTRL_FRAMELOCK_TEST_SIGNAL - to test the connections in the sync * group, tell the master to enable a test signal, then query port[01] * status and sync_ready on all slaves. When done, tell the master to * disable the test signal. Test signal should only be manipulated * while NV_CTRL_FRAMELOCK_SYNC is enabled. * * The TEST_SIGNAL is also used to reset the Universal Frame Count (as * returned by the glXQueryFrameCountNV() function in the * GLX_NV_swap_group extension). Note: for best accuracy of the * Universal Frame Count, it is recommended to toggle the TEST_SIGNAL * on and off after enabling frame lock. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN target. */ #define NV_CTRL_FRAMELOCK_TEST_SIGNAL 32 /* RW-G */ #define NV_CTRL_FRAMELOCK_TEST_SIGNAL_DISABLE 0 #define NV_CTRL_FRAMELOCK_TEST_SIGNAL_ENABLE 1 /* * NV_CTRL_FRAMELOCK_ETHERNET_DETECTED - The frame lock boards are * cabled together using regular cat5 cable, connecting to rj45 ports * on the backplane of the card. There is some concern that users may * think these are ethernet ports and connect them to a * router/hub/etc. The hardware can detect this and will shut off to * prevent damage (either to itself or to the router). * NV_CTRL_FRAMELOCK_ETHERNET_DETECTED may be called to find out if * ethernet is connected to one of the rj45 ports. An appropriate * error message should then be displayed. The _PORT0 and _PORT1 * values may be or'ed together. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_FRAMELOCK or NV_CTRL_TARGET_TYPE_X_SCREEN * target. */ #define NV_CTRL_FRAMELOCK_ETHERNET_DETECTED 33 /* R--F */ #define NV_CTRL_FRAMELOCK_ETHERNET_DETECTED_NONE 0 #define NV_CTRL_FRAMELOCK_ETHERNET_DETECTED_PORT0 0x1 #define NV_CTRL_FRAMELOCK_ETHERNET_DETECTED_PORT1 0x2 /* * NV_CTRL_FRAMELOCK_VIDEO_MODE - get/set what video mode is used * to interperate the house sync signal. This should only be set * on the master. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_FRAMELOCK or NV_CTRL_TARGET_TYPE_X_SCREEN * target. */ #define NV_CTRL_FRAMELOCK_VIDEO_MODE 34 /* RW-F */ #define NV_CTRL_FRAMELOCK_VIDEO_MODE_NONE 0 #define NV_CTRL_FRAMELOCK_VIDEO_MODE_TTL 1 #define NV_CTRL_FRAMELOCK_VIDEO_MODE_NTSCPALSECAM 2 #define NV_CTRL_FRAMELOCK_VIDEO_MODE_HDTV 3 /* * During FRAMELOCK bring-up, the above values were redefined to * these: */ #define NV_CTRL_FRAMELOCK_VIDEO_MODE_COMPOSITE_AUTO 0 #define NV_CTRL_FRAMELOCK_VIDEO_MODE_TTL 1 #define NV_CTRL_FRAMELOCK_VIDEO_MODE_COMPOSITE_BI_LEVEL 2 #define NV_CTRL_FRAMELOCK_VIDEO_MODE_COMPOSITE_TRI_LEVEL 3 /* * NV_CTRL_FRAMELOCK_SYNC_RATE - this is the refresh rate that the * frame lock board is sending to the GPU, in milliHz. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_FRAMELOCK or NV_CTRL_TARGET_TYPE_X_SCREEN * target. */ #define NV_CTRL_FRAMELOCK_SYNC_RATE 35 /* R--F */ /**************************************************************************/ /* * NV_CTRL_FORCE_GENERIC_CPU - not supported */ #define NV_CTRL_FORCE_GENERIC_CPU 37 /* not supported */ #define NV_CTRL_FORCE_GENERIC_CPU_DISABLE 0 /* not supported */ #define NV_CTRL_FORCE_GENERIC_CPU_ENABLE 1 /* not supported */ /* * NV_CTRL_OPENGL_AA_LINE_GAMMA - for OpenGL clients, allow * Gamma-corrected antialiased lines to consider variances in the * color display capabilities of output devices when rendering smooth * lines. Only available on recent Quadro GPUs. This setting is only * applied to OpenGL clients that are started after this setting is * applied. */ #define NV_CTRL_OPENGL_AA_LINE_GAMMA 38 /* RW-X */ #define NV_CTRL_OPENGL_AA_LINE_GAMMA_DISABLE 0 #define NV_CTRL_OPENGL_AA_LINE_GAMMA_ENABLE 1 /* * NV_CTRL_FRAMELOCK_TIMING - this is TRUE when the gpu is both receiving * and locked to an input timing signal. Timing information may come from * the following places: Another frame lock device that is set to master, * the house sync signal, or the GPU's internal timing from a display * device. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN target. */ #define NV_CTRL_FRAMELOCK_TIMING 39 /* R--G */ #define NV_CTRL_FRAMELOCK_TIMING_FALSE 0 #define NV_CTRL_FRAMELOCK_TIMING_TRUE 1 /* * NV_CTRL_FLIPPING_ALLOWED - when TRUE, OpenGL will swap by flipping * when possible; when FALSE, OpenGL will alway swap by blitting. */ #define NV_CTRL_FLIPPING_ALLOWED 40 /* RW-X */ #define NV_CTRL_FLIPPING_ALLOWED_FALSE 0 #define NV_CTRL_FLIPPING_ALLOWED_TRUE 1 /* * NV_CTRL_ARCHITECTURE - returns the architecture on which the X server is * running. */ #define NV_CTRL_ARCHITECTURE 41 /* R-- */ #define NV_CTRL_ARCHITECTURE_X86 0 #define NV_CTRL_ARCHITECTURE_X86_64 1 #define NV_CTRL_ARCHITECTURE_IA64 2 #define NV_CTRL_ARCHITECTURE_ARM 3 #define NV_CTRL_ARCHITECTURE_AARCH64 4 /* * NV_CTRL_TEXTURE_CLAMPING - texture clamping mode in OpenGL. By * default, _SPEC is used, which forces OpenGL texture clamping to * conform with the OpenGL specification. _EDGE forces NVIDIA's * OpenGL implementation to remap GL_CLAMP to GL_CLAMP_TO_EDGE, * which is not strictly conformant, but some applications rely on * the non-conformant behavior. */ #define NV_CTRL_TEXTURE_CLAMPING 42 /* RW-X */ #define NV_CTRL_TEXTURE_CLAMPING_EDGE 0 #define NV_CTRL_TEXTURE_CLAMPING_SPEC 1 /* * The NV_CTRL_CURSOR_SHADOW - not supported * * use an ARGB cursor instead. */ #define NV_CTRL_CURSOR_SHADOW 43 /* not supported */ #define NV_CTRL_CURSOR_SHADOW_DISABLE 0 /* not supported */ #define NV_CTRL_CURSOR_SHADOW_ENABLE 1 /* not supported */ #define NV_CTRL_CURSOR_SHADOW_ALPHA 44 /* not supported */ #define NV_CTRL_CURSOR_SHADOW_RED 45 /* not supported */ #define NV_CTRL_CURSOR_SHADOW_GREEN 46 /* not supported */ #define NV_CTRL_CURSOR_SHADOW_BLUE 47 /* not supported */ #define NV_CTRL_CURSOR_SHADOW_X_OFFSET 48 /* not supported */ #define NV_CTRL_CURSOR_SHADOW_Y_OFFSET 49 /* not supported */ /* * When Application Control for FSAA is enabled, then what the * application requests is used, and NV_CTRL_FSAA_MODE is ignored. If * this is disabled, then any application setting is overridden with * NV_CTRL_FSAA_MODE */ #define NV_CTRL_FSAA_APPLICATION_CONTROLLED 50 /* RW-X */ #define NV_CTRL_FSAA_APPLICATION_CONTROLLED_ENABLED 1 #define NV_CTRL_FSAA_APPLICATION_CONTROLLED_DISABLED 0 /* * When Application Control for LogAniso is enabled, then what the * application requests is used, and NV_CTRL_LOG_ANISO is ignored. If * this is disabled, then any application setting is overridden with * NV_CTRL_LOG_ANISO */ #define NV_CTRL_LOG_ANISO_APPLICATION_CONTROLLED 51 /* RW-X */ #define NV_CTRL_LOG_ANISO_APPLICATION_CONTROLLED_ENABLED 1 #define NV_CTRL_LOG_ANISO_APPLICATION_CONTROLLED_DISABLED 0 /* * IMAGE_SHARPENING adjusts the sharpness of the display's image * quality by amplifying high frequency content. Valid values will * normally be in the range [0,32). Only available on GeForceFX or * newer. */ #define NV_CTRL_IMAGE_SHARPENING 52 /* RWDG */ /* * NV_CTRL_TV_OVERSCAN - not supported */ #define NV_CTRL_TV_OVERSCAN 53 /* not supported */ /* * NV_CTRL_TV_FLICKER_FILTER - not supported */ #define NV_CTRL_TV_FLICKER_FILTER 54 /* not supported */ /* * NV_CTRL_TV_BRIGHTNESS - not supported */ #define NV_CTRL_TV_BRIGHTNESS 55 /* not supported */ /* * NV_CTRL_TV_HUE - not supported */ #define NV_CTRL_TV_HUE 56 /* not supported */ /* * NV_CTRL_TV_CONTRAST - not suppoerted */ #define NV_CTRL_TV_CONTRAST 57 /* not supported */ /* * NV_CTRL_TV_SATURATION - not supported */ #define NV_CTRL_TV_SATURATION 58 /* not supported */ /* * NV_CTRL_TV_RESET_SETTINGS - not supported */ #define NV_CTRL_TV_RESET_SETTINGS 59 /* not supported */ /* * NV_CTRL_GPU_CORE_TEMPERATURE reports the current core temperature * of the GPU driving the X screen. */ #define NV_CTRL_GPU_CORE_TEMPERATURE 60 /* R--G */ /* * NV_CTRL_GPU_CORE_THRESHOLD reports the current GPU core slowdown * threshold temperature, NV_CTRL_GPU_DEFAULT_CORE_THRESHOLD and * NV_CTRL_GPU_MAX_CORE_THRESHOLD report the default and MAX core * slowdown threshold temperatures. * * NV_CTRL_GPU_CORE_THRESHOLD reflects the temperature at which the * GPU is throttled to prevent overheating. */ #define NV_CTRL_GPU_CORE_THRESHOLD 61 /* R--G */ #define NV_CTRL_GPU_DEFAULT_CORE_THRESHOLD 62 /* R--G */ #define NV_CTRL_GPU_MAX_CORE_THRESHOLD 63 /* R--G */ /* * NV_CTRL_AMBIENT_TEMPERATURE reports the current temperature in the * immediate neighbourhood of the GPU driving the X screen. */ #define NV_CTRL_AMBIENT_TEMPERATURE 64 /* R--G */ /* * NV_CTRL_PBUFFER_SCANOUT_SUPPORTED - returns whether this X screen * supports scanout of FP pbuffers; * * if this screen does not support PBUFFER_SCANOUT, then all other * PBUFFER_SCANOUT attributes are unavailable. * * PBUFFER_SCANOUT is supported if and only if: * - Twinview is configured with clone mode. The secondary screen is used to * scanout the pbuffer. * - The desktop is running in with 16 bits per pixel. */ #define NV_CTRL_PBUFFER_SCANOUT_SUPPORTED 65 /* R-- */ #define NV_CTRL_PBUFFER_SCANOUT_FALSE 0 #define NV_CTRL_PBUFFER_SCANOUT_TRUE 1 /* * NV_CTRL_PBUFFER_SCANOUT_XID indicates the XID of the pbuffer used for * scanout. */ #define NV_CTRL_PBUFFER_SCANOUT_XID 66 /* RW- */ /**************************************************************************/ /* * The NV_CTRL_GVO_* integer attributes are used to configure GVO * (Graphics to Video Out). This functionality is available, for * example, on the Quadro FX 4000 SDI graphics board. * * The following is a typical usage pattern for the GVO attributes: * * - query NV_CTRL_GVO_SUPPORTED to determine if the X screen supports GV0. * * - specify NV_CTRL_GVO_SYNC_MODE (one of FREE_RUNNING, GENLOCK, or * FRAMELOCK); if you specify GENLOCK or FRAMELOCK, you should also * specify NV_CTRL_GVO_SYNC_SOURCE. * * - Use NV_CTRL_GVO_COMPOSITE_SYNC_INPUT_DETECTED and * NV_CTRL_GVO_SDI_SYNC_INPUT_DETECTED to detect what input syncs are * present. * * (If no analog sync is detected but it is known that a valid * bi-level or tri-level sync is connected set * NV_CTRL_GVO_COMPOSITE_SYNC_INPUT_DETECT_MODE appropriately and * retest with NV_CTRL_GVO_COMPOSITE_SYNC_INPUT_DETECTED). * * - if syncing to input sync, query the * NV_CTRL_GVIO_DETECTED_VIDEO_FORMAT attribute; note that Input video * format can only be queried after SYNC_SOURCE is specified. * * - specify the NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT * * - specify the NV_CTRL_GVO_DATA_FORMAT * * - specify any custom Color Space Conversion (CSC) matrix, offset, * and scale with XNVCTRLSetGvoColorConversion(). * * - if using the GLX_NV_video_out extension to display one or more * pbuffers, call glXGetVideoDeviceNV() to lock the GVO output for use * by the GLX client; then bind the pbuffer(s) to the GVO output with * glXBindVideoImageNV() and send pbuffers to the GVO output with * glXSendPbufferToVideoNV(); see the GLX_NV_video_out spec for more * details. * * - if using the GLX_NV_present_video extension, call * glXBindVideoDeviceNV() to bind the GVO video device to current * OpenGL context. * * Note that setting most GVO attributes only causes the value to be * cached in the X server. The values will be flushed to the hardware * either when the next MetaMode is set that uses the GVO display * device, or when a GLX pbuffer is bound to the GVO output (with * glXBindVideoImageNV()). * * Note that GLX_NV_video_out/GLX_NV_present_video and X screen use * are mutually exclusive. If a MetaMode is currently using the GVO * device, then glXGetVideoDeviceNV and glXBindVideoImageNV() will * fail. Similarly, if a GLX client has locked the GVO output (via * glXGetVideoDeviceNV or glXBindVideoImageNV), then setting a * MetaMode that uses the GVO device will fail. The * NV_CTRL_GVO_GLX_LOCKED event will be sent when a GLX client locks * the GVO output. * */ /* * NV_CTRL_GVO_SUPPORTED - returns whether this X screen supports GVO; * if this screen does not support GVO output, then all other GVO * attributes are unavailable. */ #define NV_CTRL_GVO_SUPPORTED 67 /* R-- */ #define NV_CTRL_GVO_SUPPORTED_FALSE 0 #define NV_CTRL_GVO_SUPPORTED_TRUE 1 /* * NV_CTRL_GVO_SYNC_MODE - selects the GVO sync mode; possible values * are: * * FREE_RUNNING - GVO does not sync to any external signal * * GENLOCK - the GVO output is genlocked to an incoming sync signal; * genlocking locks at hsync. This requires that the output video * format exactly match the incoming sync video format. * * FRAMELOCK - the GVO output is frame locked to an incoming sync * signal; frame locking locks at vsync. This requires that the output * video format have the same refresh rate as the incoming sync video * format. */ #define NV_CTRL_GVO_SYNC_MODE 68 /* RW- */ #define NV_CTRL_GVO_SYNC_MODE_FREE_RUNNING 0 #define NV_CTRL_GVO_SYNC_MODE_GENLOCK 1 #define NV_CTRL_GVO_SYNC_MODE_FRAMELOCK 2 /* * NV_CTRL_GVO_SYNC_SOURCE - if NV_CTRL_GVO_SYNC_MODE is set to either * GENLOCK or FRAMELOCK, this controls which sync source is used as * the incoming sync signal (either Composite or SDI). If * NV_CTRL_GVO_SYNC_MODE is FREE_RUNNING, this attribute has no * effect. */ #define NV_CTRL_GVO_SYNC_SOURCE 69 /* RW- */ #define NV_CTRL_GVO_SYNC_SOURCE_COMPOSITE 0 #define NV_CTRL_GVO_SYNC_SOURCE_SDI 1 /* * NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT - specifies the desired output video * format for GVO devices or the desired input video format for GVI devices. * * Note that for GVO, the valid video formats may vary depending on * the NV_CTRL_GVO_SYNC_MODE and the incoming sync video format. See * the definition of NV_CTRL_GVO_SYNC_MODE. * * Note that when querying the ValidValues for this data type, the * values are reported as bits within a bitmask * (ATTRIBUTE_TYPE_INT_BITS); unfortunately, there are more valid * value bits than will fit in a single 32-bit value. To solve this, * query the ValidValues for NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT to * check which of the first 31 VIDEO_FORMATS are valid, query the * ValidValues for NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT2 to check which * of the 32-63 VIDEO_FORMATS are valid, and query the ValidValues of * NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT3 to check which of the 64-95 * VIDEO_FORMATS are valid. * * Note: Setting this attribute on a GVI device may also result in the * following NV-CONTROL attributes being reset on that device (to * ensure the configuration remains valid): * NV_CTRL_GVI_REQUESTED_STREAM_BITS_PER_COMPONENT * NV_CTRL_GVI_REQUESTED_STREAM_COMPONENT_SAMPLING */ #define NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT 70 /* RW--I */ #define NV_CTRL_GVIO_VIDEO_FORMAT_NONE 0 #define NV_CTRL_GVIO_VIDEO_FORMAT_487I_59_94_SMPTE259_NTSC 1 #define NV_CTRL_GVIO_VIDEO_FORMAT_576I_50_00_SMPTE259_PAL 2 #define NV_CTRL_GVIO_VIDEO_FORMAT_720P_59_94_SMPTE296 3 #define NV_CTRL_GVIO_VIDEO_FORMAT_720P_60_00_SMPTE296 4 #define NV_CTRL_GVIO_VIDEO_FORMAT_1035I_59_94_SMPTE260 5 #define NV_CTRL_GVIO_VIDEO_FORMAT_1035I_60_00_SMPTE260 6 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080I_50_00_SMPTE295 7 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080I_50_00_SMPTE274 8 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080I_59_94_SMPTE274 9 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080I_60_00_SMPTE274 10 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_23_976_SMPTE274 11 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_24_00_SMPTE274 12 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_25_00_SMPTE274 13 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_29_97_SMPTE274 14 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_30_00_SMPTE274 15 #define NV_CTRL_GVIO_VIDEO_FORMAT_720P_50_00_SMPTE296 16 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080I_48_00_SMPTE274 17 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080I_47_96_SMPTE274 18 #define NV_CTRL_GVIO_VIDEO_FORMAT_720P_30_00_SMPTE296 19 #define NV_CTRL_GVIO_VIDEO_FORMAT_720P_29_97_SMPTE296 20 #define NV_CTRL_GVIO_VIDEO_FORMAT_720P_25_00_SMPTE296 21 #define NV_CTRL_GVIO_VIDEO_FORMAT_720P_24_00_SMPTE296 22 #define NV_CTRL_GVIO_VIDEO_FORMAT_720P_23_98_SMPTE296 23 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080PSF_25_00_SMPTE274 24 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080PSF_29_97_SMPTE274 25 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080PSF_30_00_SMPTE274 26 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080PSF_24_00_SMPTE274 27 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080PSF_23_98_SMPTE274 28 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048P_30_00_SMPTE372 29 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048P_29_97_SMPTE372 30 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048I_60_00_SMPTE372 31 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048I_59_94_SMPTE372 32 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048P_25_00_SMPTE372 33 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048I_50_00_SMPTE372 34 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048P_24_00_SMPTE372 35 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048P_23_98_SMPTE372 36 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048I_48_00_SMPTE372 37 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048I_47_96_SMPTE372 38 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_50_00_3G_LEVEL_A_SMPTE274 39 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_59_94_3G_LEVEL_A_SMPTE274 40 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_60_00_3G_LEVEL_A_SMPTE274 41 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_60_00_3G_LEVEL_B_SMPTE274 42 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080I_60_00_3G_LEVEL_B_SMPTE274 43 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048I_60_00_3G_LEVEL_B_SMPTE372 44 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_50_00_3G_LEVEL_B_SMPTE274 45 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080I_50_00_3G_LEVEL_B_SMPTE274 46 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048I_50_00_3G_LEVEL_B_SMPTE372 47 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_30_00_3G_LEVEL_B_SMPTE274 48 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048P_30_00_3G_LEVEL_B_SMPTE372 49 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_25_00_3G_LEVEL_B_SMPTE274 50 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048P_25_00_3G_LEVEL_B_SMPTE372 51 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_24_00_3G_LEVEL_B_SMPTE274 52 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048P_24_00_3G_LEVEL_B_SMPTE372 53 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080I_48_00_3G_LEVEL_B_SMPTE274 54 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048I_48_00_3G_LEVEL_B_SMPTE372 55 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_59_94_3G_LEVEL_B_SMPTE274 56 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080I_59_94_3G_LEVEL_B_SMPTE274 57 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048I_59_94_3G_LEVEL_B_SMPTE372 58 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_29_97_3G_LEVEL_B_SMPTE274 59 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048P_29_97_3G_LEVEL_B_SMPTE372 60 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080P_23_98_3G_LEVEL_B_SMPTE274 61 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048P_23_98_3G_LEVEL_B_SMPTE372 62 #define NV_CTRL_GVIO_VIDEO_FORMAT_1080I_47_96_3G_LEVEL_B_SMPTE274 63 #define NV_CTRL_GVIO_VIDEO_FORMAT_2048I_47_96_3G_LEVEL_B_SMPTE372 64 /* * The following have been renamed; NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT and the * corresponding NV_CTRL_GVIO_* formats should be used instead. */ #define NV_CTRL_GVO_OUTPUT_VIDEO_FORMAT 70 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_NONE 0 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_487I_59_94_SMPTE259_NTSC 1 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_576I_50_00_SMPTE259_PAL 2 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_720P_59_94_SMPTE296 3 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_720P_60_00_SMPTE296 4 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1035I_59_94_SMPTE260 5 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1035I_60_00_SMPTE260 6 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080I_50_00_SMPTE295 7 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080I_50_00_SMPTE274 8 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080I_59_94_SMPTE274 9 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080I_60_00_SMPTE274 10 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080P_23_976_SMPTE274 11 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080P_24_00_SMPTE274 12 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080P_25_00_SMPTE274 13 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080P_29_97_SMPTE274 14 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080P_30_00_SMPTE274 15 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_720P_50_00_SMPTE296 16 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080I_48_00_SMPTE274 17 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080I_47_96_SMPTE274 18 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_720P_30_00_SMPTE296 19 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_720P_29_97_SMPTE296 20 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_720P_25_00_SMPTE296 21 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_720P_24_00_SMPTE296 22 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_720P_23_98_SMPTE296 23 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080PSF_25_00_SMPTE274 24 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080PSF_29_97_SMPTE274 25 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080PSF_30_00_SMPTE274 26 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080PSF_24_00_SMPTE274 27 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_1080PSF_23_98_SMPTE274 28 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_2048P_30_00_SMPTE372 29 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_2048P_29_97_SMPTE372 30 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_2048I_60_00_SMPTE372 31 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_2048I_59_94_SMPTE372 32 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_2048P_25_00_SMPTE372 33 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_2048I_50_00_SMPTE372 34 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_2048P_24_00_SMPTE372 35 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_2048P_23_98_SMPTE372 36 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_2048I_48_00_SMPTE372 37 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_2048I_47_96_SMPTE372 38 /* renamed */ /* * NV_CTRL_GVIO_DETECTED_VIDEO_FORMAT - indicates the input video format * detected for GVO or GVI devices; the possible values are the * NV_CTRL_GVIO_VIDEO_FORMAT constants. * * For GVI devices, the jack number should be specified in the lower * 16 bits of the "display_mask" parameter, while the channel number should be * specified in the upper 16 bits. */ #define NV_CTRL_GVIO_DETECTED_VIDEO_FORMAT 71 /* R--I */ /* * NV_CTRL_GVO_INPUT_VIDEO_FORMAT - renamed * * NV_CTRL_GVIO_DETECTED_VIDEO_FORMAT should be used instead. */ #define NV_CTRL_GVO_INPUT_VIDEO_FORMAT 71 /* renamed */ /* * NV_CTRL_GVO_DATA_FORMAT - This controls how the data in the source * (either the X screen or the GLX pbuffer) is interpretted and * displayed. * * Note: some of the below DATA_FORMATS have been renamed. For * example, R8G8B8_TO_RGB444 has been renamed to X8X8X8_444_PASSTHRU. * This is to more accurately reflect DATA_FORMATS where the * per-channel data could be either RGB or YCrCb -- the point is that * the driver and GVO hardware do not perform any implicit color space * conversion on the data; it is passed through to the SDI out. */ #define NV_CTRL_GVO_DATA_FORMAT 72 /* RW- */ #define NV_CTRL_GVO_DATA_FORMAT_R8G8B8_TO_YCRCB444 0 #define NV_CTRL_GVO_DATA_FORMAT_R8G8B8A8_TO_YCRCBA4444 1 #define NV_CTRL_GVO_DATA_FORMAT_R8G8B8Z10_TO_YCRCBZ4444 2 #define NV_CTRL_GVO_DATA_FORMAT_R8G8B8_TO_YCRCB422 3 #define NV_CTRL_GVO_DATA_FORMAT_R8G8B8A8_TO_YCRCBA4224 4 #define NV_CTRL_GVO_DATA_FORMAT_R8G8B8Z10_TO_YCRCBZ4224 5 #define NV_CTRL_GVO_DATA_FORMAT_R8G8B8_TO_RGB444 6 /* renamed */ #define NV_CTRL_GVO_DATA_FORMAT_X8X8X8_444_PASSTHRU 6 #define NV_CTRL_GVO_DATA_FORMAT_R8G8B8A8_TO_RGBA4444 7 /* renamed */ #define NV_CTRL_GVO_DATA_FORMAT_X8X8X8A8_4444_PASSTHRU 7 #define NV_CTRL_GVO_DATA_FORMAT_R8G8B8Z10_TO_RGBZ4444 8 /* renamed */ #define NV_CTRL_GVO_DATA_FORMAT_X8X8X8Z8_4444_PASSTHRU 8 #define NV_CTRL_GVO_DATA_FORMAT_Y10CR10CB10_TO_YCRCB444 9 /* renamed */ #define NV_CTRL_GVO_DATA_FORMAT_X10X10X10_444_PASSTHRU 9 #define NV_CTRL_GVO_DATA_FORMAT_Y10CR8CB8_TO_YCRCB444 10 /* renamed */ #define NV_CTRL_GVO_DATA_FORMAT_X10X8X8_444_PASSTHRU 10 #define NV_CTRL_GVO_DATA_FORMAT_Y10CR8CB8A10_TO_YCRCBA4444 11 /* renamed */ #define NV_CTRL_GVO_DATA_FORMAT_X10X8X8A10_4444_PASSTHRU 11 #define NV_CTRL_GVO_DATA_FORMAT_Y10CR8CB8Z10_TO_YCRCBZ4444 12 /* renamed */ #define NV_CTRL_GVO_DATA_FORMAT_X10X8X8Z10_4444_PASSTHRU 12 #define NV_CTRL_GVO_DATA_FORMAT_DUAL_R8G8B8_TO_DUAL_YCRCB422 13 #define NV_CTRL_GVO_DATA_FORMAT_DUAL_Y8CR8CB8_TO_DUAL_YCRCB422 14 /* renamed */ #define NV_CTRL_GVO_DATA_FORMAT_DUAL_X8X8X8_TO_DUAL_422_PASSTHRU 14 #define NV_CTRL_GVO_DATA_FORMAT_R10G10B10_TO_YCRCB422 15 #define NV_CTRL_GVO_DATA_FORMAT_R10G10B10_TO_YCRCB444 16 #define NV_CTRL_GVO_DATA_FORMAT_Y12CR12CB12_TO_YCRCB444 17 /* renamed */ #define NV_CTRL_GVO_DATA_FORMAT_X12X12X12_444_PASSTHRU 17 #define NV_CTRL_GVO_DATA_FORMAT_R12G12B12_TO_YCRCB444 18 #define NV_CTRL_GVO_DATA_FORMAT_X8X8X8_422_PASSTHRU 19 #define NV_CTRL_GVO_DATA_FORMAT_X8X8X8A8_4224_PASSTHRU 20 #define NV_CTRL_GVO_DATA_FORMAT_X8X8X8Z8_4224_PASSTHRU 21 #define NV_CTRL_GVO_DATA_FORMAT_X10X10X10_422_PASSTHRU 22 #define NV_CTRL_GVO_DATA_FORMAT_X10X8X8_422_PASSTHRU 23 #define NV_CTRL_GVO_DATA_FORMAT_X10X8X8A10_4224_PASSTHRU 24 #define NV_CTRL_GVO_DATA_FORMAT_X10X8X8Z10_4224_PASSTHRU 25 #define NV_CTRL_GVO_DATA_FORMAT_X12X12X12_422_PASSTHRU 26 #define NV_CTRL_GVO_DATA_FORMAT_R12G12B12_TO_YCRCB422 27 /* * NV_CTRL_GVO_DISPLAY_X_SCREEN - not supported */ #define NV_CTRL_GVO_DISPLAY_X_SCREEN 73 /* not supported */ #define NV_CTRL_GVO_DISPLAY_X_SCREEN_ENABLE 1 /* not supported */ #define NV_CTRL_GVO_DISPLAY_X_SCREEN_DISABLE 0 /* not supported */ /* * NV_CTRL_GVO_COMPOSITE_SYNC_INPUT_DETECTED - indicates whether * Composite Sync input is detected. */ #define NV_CTRL_GVO_COMPOSITE_SYNC_INPUT_DETECTED 74 /* R-- */ #define NV_CTRL_GVO_COMPOSITE_SYNC_INPUT_DETECTED_FALSE 0 #define NV_CTRL_GVO_COMPOSITE_SYNC_INPUT_DETECTED_TRUE 1 /* * NV_CTRL_GVO_COMPOSITE_SYNC_INPUT_DETECT_MODE - get/set the * Composite Sync input detect mode. */ #define NV_CTRL_GVO_COMPOSITE_SYNC_INPUT_DETECT_MODE 75 /* RW- */ #define NV_CTRL_GVO_COMPOSITE_SYNC_INPUT_DETECT_MODE_AUTO 0 #define NV_CTRL_GVO_COMPOSITE_SYNC_INPUT_DETECT_MODE_BI_LEVEL 1 #define NV_CTRL_GVO_COMPOSITE_SYNC_INPUT_DETECT_MODE_TRI_LEVEL 2 /* * NV_CTRL_GVO_SYNC_INPUT_DETECTED - indicates whether SDI Sync input * is detected, and what type. */ #define NV_CTRL_GVO_SDI_SYNC_INPUT_DETECTED 76 /* R-- */ #define NV_CTRL_GVO_SDI_SYNC_INPUT_DETECTED_NONE 0 #define NV_CTRL_GVO_SDI_SYNC_INPUT_DETECTED_HD 1 #define NV_CTRL_GVO_SDI_SYNC_INPUT_DETECTED_SD 2 /* * NV_CTRL_GVO_VIDEO_OUTPUTS - indicates which GVO video output * connectors are currently outputing data. */ #define NV_CTRL_GVO_VIDEO_OUTPUTS 77 /* R-- */ #define NV_CTRL_GVO_VIDEO_OUTPUTS_NONE 0 #define NV_CTRL_GVO_VIDEO_OUTPUTS_VIDEO1 1 #define NV_CTRL_GVO_VIDEO_OUTPUTS_VIDEO2 2 #define NV_CTRL_GVO_VIDEO_OUTPUTS_VIDEO_BOTH 3 /* * NV_CTRL_GVO_FIRMWARE_VERSION - deprecated * * NV_CTRL_STRING_GVIO_FIRMWARE_VERSION should be used instead. */ #define NV_CTRL_GVO_FIRMWARE_VERSION 78 /* deprecated */ /* * NV_CTRL_GVO_SYNC_DELAY_PIXELS - controls the delay between the * input sync and the output sync in numbers of pixels from hsync; * this is a 12 bit value. * * If the NV_CTRL_GVO_CAPABILITIES_ADVANCE_SYNC_SKEW bit is set, * then setting this value will set an advance instead of a delay. */ #define NV_CTRL_GVO_SYNC_DELAY_PIXELS 79 /* RW- */ /* * NV_CTRL_GVO_SYNC_DELAY_LINES - controls the delay between the input * sync and the output sync in numbers of lines from vsync; this is a * 12 bit value. * * If the NV_CTRL_GVO_CAPABILITIES_ADVANCE_SYNC_SKEW bit is set, * then setting this value will set an advance instead of a delay. */ #define NV_CTRL_GVO_SYNC_DELAY_LINES 80 /* RW- */ /* * NV_CTRL_GVO_INPUT_VIDEO_FORMAT_REACQUIRE - must be set for a period * of about 2 seconds for the new InputVideoFormat to be properly * locked to. In nvidia-settings, we do a reacquire whenever genlock * or frame lock mode is entered into, when the user clicks the * "detect" button. This value can be written, but always reads back * _FALSE. */ #define NV_CTRL_GVO_INPUT_VIDEO_FORMAT_REACQUIRE 81 /* -W- */ #define NV_CTRL_GVO_INPUT_VIDEO_FORMAT_REACQUIRE_FALSE 0 #define NV_CTRL_GVO_INPUT_VIDEO_FORMAT_REACQUIRE_TRUE 1 /* * NV_CTRL_GVO_GLX_LOCKED - deprecated * * NV_CTRL_GVO_LOCK_OWNER should be used instead. */ #define NV_CTRL_GVO_GLX_LOCKED 82 /* deprecated */ #define NV_CTRL_GVO_GLX_LOCKED_FALSE 0 /* deprecated */ #define NV_CTRL_GVO_GLX_LOCKED_TRUE 1 /* deprecated */ /* * NV_CTRL_GVIO_VIDEO_FORMAT_{WIDTH,HEIGHT,REFRESH_RATE} - query the * width, height, and refresh rate for the specified * NV_CTRL_GVIO_VIDEO_FORMAT_*. So that this can be queried with * existing interfaces, XNVCTRLQueryAttribute() should be used, and * the video format specified in the display_mask field; eg: * * XNVCTRLQueryAttribute (dpy, * screen, * NV_CTRL_GVIO_VIDEO_FORMAT_487I_59_94_SMPTE259_NTSC, * NV_CTRL_GVIO_VIDEO_FORMAT_WIDTH, * &value); * * Note that Refresh Rate is in milliHertz values */ #define NV_CTRL_GVIO_VIDEO_FORMAT_WIDTH 83 /* R--I */ #define NV_CTRL_GVIO_VIDEO_FORMAT_HEIGHT 84 /* R--I */ #define NV_CTRL_GVIO_VIDEO_FORMAT_REFRESH_RATE 85 /* R--I */ /* The following have been renamed; use the NV_CTRL_GVIO_* versions, instead */ #define NV_CTRL_GVO_VIDEO_FORMAT_WIDTH 83 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_HEIGHT 84 /* renamed */ #define NV_CTRL_GVO_VIDEO_FORMAT_REFRESH_RATE 85 /* renamed */ /* * NV_CTRL_GVO_X_SCREEN_PAN_[XY] - not supported */ #define NV_CTRL_GVO_X_SCREEN_PAN_X 86 /* not supported */ #define NV_CTRL_GVO_X_SCREEN_PAN_Y 87 /* not supported */ /* * NV_CTRL_GPU_OVERCLOCKING_STATE - not supported */ #define NV_CTRL_GPU_OVERCLOCKING_STATE 88 /* not supported */ #define NV_CTRL_GPU_OVERCLOCKING_STATE_NONE 0 /* not supported */ #define NV_CTRL_GPU_OVERCLOCKING_STATE_MANUAL 1 /* not supported */ /* * NV_CTRL_GPU_{2,3}D_CLOCK_FREQS - not supported */ #define NV_CTRL_GPU_2D_CLOCK_FREQS 89 /* not supported */ #define NV_CTRL_GPU_3D_CLOCK_FREQS 90 /* not supported */ /* * NV_CTRL_GPU_DEFAULT_{2,3}D_CLOCK_FREQS - not supported */ #define NV_CTRL_GPU_DEFAULT_2D_CLOCK_FREQS 91 /* not supported */ #define NV_CTRL_GPU_DEFAULT_3D_CLOCK_FREQS 92 /* not supported */ /* * NV_CTRL_GPU_CURRENT_CLOCK_FREQS - query the current GPU and memory * clocks of the graphics device driving the X screen. * * NV_CTRL_GPU_CURRENT_CLOCK_FREQS is a "packed" integer attribute; * the GPU clock is stored in the upper 16 bits of the integer, and * the memory clock is stored in the lower 16 bits of the integer. * All clock values are in MHz. All clock values are in MHz. */ #define NV_CTRL_GPU_CURRENT_CLOCK_FREQS 93 /* R--G */ /* * NV_CTRL_GPU_OPTIMAL_CLOCK_FREQS - not supported */ #define NV_CTRL_GPU_OPTIMAL_CLOCK_FREQS 94 /* not supported */ #define NV_CTRL_GPU_OPTIMAL_CLOCK_FREQS_INVALID 0 /* not supported */ /* * NV_CTRL_GPU_OPTIMAL_CLOCK_FREQS_DETECTION - not supported */ #define NV_CTRL_GPU_OPTIMAL_CLOCK_FREQS_DETECTION 95 /* not supported */ #define NV_CTRL_GPU_OPTIMAL_CLOCK_FREQS_DETECTION_START 0 /* not supported */ #define NV_CTRL_GPU_OPTIMAL_CLOCK_FREQS_DETECTION_CANCEL 1 /* not supported */ /* * NV_CTRL_GPU_OPTIMAL_CLOCK_FREQS_DETECTION_STATE - not supported */ #define NV_CTRL_GPU_OPTIMAL_CLOCK_FREQS_DETECTION_STATE 96 /* not supported */ #define NV_CTRL_GPU_OPTIMAL_CLOCK_FREQS_DETECTION_STATE_IDLE 0 /* not supported */ #define NV_CTRL_GPU_OPTIMAL_CLOCK_FREQS_DETECTION_STATE_BUSY 1 /* not supported */ /* * NV_CTRL_FLATPANEL_CHIP_LOCATION - for the specified display device, * report whether the flat panel is driven by the on-chip controller, * or a separate controller chip elsewhere on the graphics board. * This attribute is only available for flat panels. */ #define NV_CTRL_FLATPANEL_CHIP_LOCATION 215/* R-DG */ #define NV_CTRL_FLATPANEL_CHIP_LOCATION_INTERNAL 0 #define NV_CTRL_FLATPANEL_CHIP_LOCATION_EXTERNAL 1 /* * NV_CTRL_FLATPANEL_LINK - report the number of links for a DVI connection, or * the main link's active lane count for DisplayPort. * This attribute is only available for flat panels. */ #define NV_CTRL_FLATPANEL_LINK 216/* R-DG */ #define NV_CTRL_FLATPANEL_LINK_SINGLE 0 #define NV_CTRL_FLATPANEL_LINK_DUAL 1 #define NV_CTRL_FLATPANEL_LINK_QUAD 3 /* * NV_CTRL_FLATPANEL_SIGNAL - for the specified display device, report * whether the flat panel is driven by an LVDS, TMDS, or DisplayPort signal. * This attribute is only available for flat panels. */ #define NV_CTRL_FLATPANEL_SIGNAL 217/* R-DG */ #define NV_CTRL_FLATPANEL_SIGNAL_LVDS 0 #define NV_CTRL_FLATPANEL_SIGNAL_TMDS 1 #define NV_CTRL_FLATPANEL_SIGNAL_DISPLAYPORT 2 /* * NV_CTRL_USE_HOUSE_SYNC - when TRUE, the server (master) frame lock * device will propagate the incoming house sync signal as the outgoing * frame lock sync signal. If the frame lock device cannot detect a * frame lock sync signal, it will default to using the internal timings * from the GPU connected to the primary connector. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_FRAMELOCK or NV_CTRL_TARGET_TYPE_X_SCREEN * target. */ #define NV_CTRL_USE_HOUSE_SYNC 218/* RW-F */ #define NV_CTRL_USE_HOUSE_SYNC_FALSE 0 #define NV_CTRL_USE_HOUSE_SYNC_TRUE 1 /* * NV_CTRL_EDID_AVAILABLE - report if an EDID is available for the * specified display device. * * This attribute may also be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN * target. */ #define NV_CTRL_EDID_AVAILABLE 219 /* R-DG */ #define NV_CTRL_EDID_AVAILABLE_FALSE 0 #define NV_CTRL_EDID_AVAILABLE_TRUE 1 /* * NV_CTRL_FORCE_STEREO - when TRUE, OpenGL will force stereo flipping * even when no stereo drawables are visible (if the device is configured * to support it, see the "Stereo" X config option). * When false, fall back to the default behavior of only flipping when a * stereo drawable is visible. */ #define NV_CTRL_FORCE_STEREO 220 /* RW- */ #define NV_CTRL_FORCE_STEREO_FALSE 0 #define NV_CTRL_FORCE_STEREO_TRUE 1 /* * NV_CTRL_IMAGE_SETTINGS - the image quality setting for OpenGL clients. * * This setting is only applied to OpenGL clients that are started * after this setting is applied. */ #define NV_CTRL_IMAGE_SETTINGS 221 /* RW-X */ #define NV_CTRL_IMAGE_SETTINGS_HIGH_QUALITY 0 #define NV_CTRL_IMAGE_SETTINGS_QUALITY 1 #define NV_CTRL_IMAGE_SETTINGS_PERFORMANCE 2 #define NV_CTRL_IMAGE_SETTINGS_HIGH_PERFORMANCE 3 /* * NV_CTRL_XINERAMA - return whether xinerama is enabled */ #define NV_CTRL_XINERAMA 222 /* R--G */ #define NV_CTRL_XINERAMA_OFF 0 #define NV_CTRL_XINERAMA_ON 1 /* * NV_CTRL_XINERAMA_STEREO - when TRUE, OpenGL will allow stereo flipping * on multiple X screens configured with Xinerama. * When FALSE, flipping is allowed only on one X screen at a time. */ #define NV_CTRL_XINERAMA_STEREO 223 /* RW- */ #define NV_CTRL_XINERAMA_STEREO_FALSE 0 #define NV_CTRL_XINERAMA_STEREO_TRUE 1 /* * NV_CTRL_BUS_RATE - if the bus type of the specified device is AGP, then * NV_CTRL_BUS_RATE returns the configured AGP transfer rate. If the bus type * is PCI Express, then this attribute returns the maximum link width. * When this attribute is queried on an X screen target, the bus rate of the * GPU driving the X screen is returned. */ #define NV_CTRL_BUS_RATE 224 /* R--GI */ /* * NV_CTRL_GPU_PCIE_MAX_LINK_WIDTH - returns the maximum * PCIe link width, in number of lanes. */ #define NV_CTRL_GPU_PCIE_MAX_LINK_WIDTH NV_CTRL_BUS_RATE /* * NV_CTRL_SHOW_SLI_HUD - when TRUE, OpenGL will draw information about the * current SLI mode. * Renamed this attribute to NV_CTRL_SHOW_SLI_VISUAL_INDICATOR */ #define NV_CTRL_SHOW_SLI_HUD NV_CTRL_SHOW_SLI_VISUAL_INDICATOR #define NV_CTRL_SHOW_SLI_HUD_FALSE NV_CTRL_SHOW_SLI_VISUAL_INDICATOR_FALSE #define NV_CTRL_SHOW_SLI_HUD_TRUE NV_CTRL_SHOW_SLI_VISUAL_INDICATOR_TRUE /* * NV_CTRL_SHOW_SLI_VISUAL_INDICATOR - when TRUE, OpenGL will draw information * about the current SLI mode. */ #define NV_CTRL_SHOW_SLI_VISUAL_INDICATOR 225 /* RW-X */ #define NV_CTRL_SHOW_SLI_VISUAL_INDICATOR_FALSE 0 #define NV_CTRL_SHOW_SLI_VISUAL_INDICATOR_TRUE 1 /* * NV_CTRL_XV_SYNC_TO_DISPLAY - deprecated * * NV_CTRL_XV_SYNC_TO_DISPLAY_ID should be used instead. */ #define NV_CTRL_XV_SYNC_TO_DISPLAY 226 /* deprecated */ /* * NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT2 - this attribute is only * intended to be used to query the ValidValues for * NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT for VIDEO_FORMAT values between * 31 and 63. See NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT for details. */ #define NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT2 227 /* ---GI */ /* * NV_CTRL_GVO_OUTPUT_VIDEO_FORMAT2 - renamed * * NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT2 should be used instead. */ #define NV_CTRL_GVO_OUTPUT_VIDEO_FORMAT2 227 /* renamed */ /* * NV_CTRL_GVO_OVERRIDE_HW_CSC - Override the SDI hardware's Color Space * Conversion with the values controlled through * XNVCTRLSetGvoColorConversion() and XNVCTRLGetGvoColorConversion(). If * this attribute is FALSE, then the values specified through * XNVCTRLSetGvoColorConversion() are ignored. */ #define NV_CTRL_GVO_OVERRIDE_HW_CSC 228 /* RW- */ #define NV_CTRL_GVO_OVERRIDE_HW_CSC_FALSE 0 #define NV_CTRL_GVO_OVERRIDE_HW_CSC_TRUE 1 /* * NV_CTRL_GVO_CAPABILITIES - this read-only attribute describes GVO * capabilities that differ between NVIDIA SDI products. This value * is a bitmask where each bit indicates whether that capability is * available. * * APPLY_CSC_IMMEDIATELY - whether the CSC matrix, offset, and scale * specified through XNVCTRLSetGvoColorConversion() will take affect * immediately, or only after SDI output is disabled and enabled * again. * * APPLY_CSC_TO_X_SCREEN - whether the CSC matrix, offset, and scale * specified through XNVCTRLSetGvoColorConversion() will also apply * to GVO output of an X screen, or only to OpenGL GVO output, as * enabled through the GLX_NV_video_out extension. * * COMPOSITE_TERMINATION - whether the 75 ohm termination of the * SDI composite input signal can be programmed through the * NV_CTRL_GVO_COMPOSITE_TERMINATION attribute. * * SHARED_SYNC_BNC - whether the SDI device has a single BNC * connector used for both (SDI & Composite) incoming signals. * * MULTIRATE_SYNC - whether the SDI device supports synchronization * of input and output video modes that match in being odd or even * modes (ie, AA.00 Hz modes can be synched to other BB.00 Hz modes and * AA.XX Hz can match to BB.YY Hz where .XX and .YY are not .00) */ #define NV_CTRL_GVO_CAPABILITIES 229 /* R-- */ #define NV_CTRL_GVO_CAPABILITIES_APPLY_CSC_IMMEDIATELY 0x00000001 #define NV_CTRL_GVO_CAPABILITIES_APPLY_CSC_TO_X_SCREEN 0x00000002 #define NV_CTRL_GVO_CAPABILITIES_COMPOSITE_TERMINATION 0x00000004 #define NV_CTRL_GVO_CAPABILITIES_SHARED_SYNC_BNC 0x00000008 #define NV_CTRL_GVO_CAPABILITIES_MULTIRATE_SYNC 0x00000010 #define NV_CTRL_GVO_CAPABILITIES_ADVANCE_SYNC_SKEW 0x00000020 /* * NV_CTRL_GVO_COMPOSITE_TERMINATION - enable or disable 75 ohm * termination of the SDI composite input signal. */ #define NV_CTRL_GVO_COMPOSITE_TERMINATION 230 /* RW- */ #define NV_CTRL_GVO_COMPOSITE_TERMINATION_ENABLE 1 #define NV_CTRL_GVO_COMPOSITE_TERMINATION_DISABLE 0 /* * NV_CTRL_ASSOCIATED_DISPLAY_DEVICES - deprecated * * NV_CTRL_BINARY_DATA_DISPLAYS_ASSIGNED_TO_XSCREEN should be used instead. */ #define NV_CTRL_ASSOCIATED_DISPLAY_DEVICES 231 /* deprecated */ /* * NV_CTRL_FRAMELOCK_SLAVES - deprecated * * NV_CTRL_FRAMELOCK_DISPLAY_CONFIG should be used instead. */ #define NV_CTRL_FRAMELOCK_SLAVES 232 /* deprecated */ /* * NV_CTRL_FRAMELOCK_MASTERABLE - deprecated * * NV_CTRL_FRAMELOCK_DISPLAY_CONFIG should be used instead. */ #define NV_CTRL_FRAMELOCK_MASTERABLE 233 /* deprecated */ /* * NV_CTRL_PROBE_DISPLAYS - re-probes the hardware to detect what * display devices are connected to the GPU or GPU driving the * specified X screen. The return value is deprecated and should not be used. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN target. */ #define NV_CTRL_PROBE_DISPLAYS 234 /* R--G */ /* * NV_CTRL_REFRESH_RATE - Returns the refresh rate of the specified * display device in 100 * Hz (ie. to get the refresh rate in Hz, divide * the returned value by 100.) * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN target. */ #define NV_CTRL_REFRESH_RATE 235 /* R-DG */ /* * NV_CTRL_GVO_FLIP_QUEUE_SIZE - The Graphics to Video Out interface * exposed through NV-CONTROL and the GLX_NV_video_out extension uses * an internal flip queue when pbuffers are sent to the video device * (via glXSendPbufferToVideoNV()). The NV_CTRL_GVO_FLIP_QUEUE_SIZE * can be used to query and assign the flip queue size. This * attribute is applied to GLX when glXGetVideoDeviceNV() is called by * the application. */ #define NV_CTRL_GVO_FLIP_QUEUE_SIZE 236 /* RW- */ /* * NV_CTRL_CURRENT_SCANLINE - query the current scanline for the * specified display device. */ #define NV_CTRL_CURRENT_SCANLINE 237 /* R-DG */ /* * NV_CTRL_INITIAL_PIXMAP_PLACEMENT - Controls where X pixmaps are initially * created. * * NV_CTRL_INITIAL_PIXMAP_PLACEMENT_FORCE_SYSMEM causes pixmaps to stay in * system memory. These pixmaps can't be accelerated by the NVIDIA driver; this * will cause blank windows if used with an OpenGL compositing manager. * NV_CTRL_INITIAL_PIXMAP_PLACEMENT_SYSMEM creates pixmaps in system memory * initially, but allows them to migrate to video memory. * NV_CTRL_INITIAL_PIXMAP_PLACEMENT_VIDMEM creates pixmaps in video memory * when enough resources are available. * NV_CTRL_INITIAL_PIXMAP_PLACEMENT_RESERVED is currently reserved for future * use. Behavior is undefined. * NV_CTRL_INITIAL_PIXMAP_PLACEMENT_GPU_SYSMEM creates pixmaps in GPU accessible * system memory when enough resources are available. */ #define NV_CTRL_INITIAL_PIXMAP_PLACEMENT 238 /* RW- */ #define NV_CTRL_INITIAL_PIXMAP_PLACEMENT_FORCE_SYSMEM 0 #define NV_CTRL_INITIAL_PIXMAP_PLACEMENT_SYSMEM 1 #define NV_CTRL_INITIAL_PIXMAP_PLACEMENT_VIDMEM 2 #define NV_CTRL_INITIAL_PIXMAP_PLACEMENT_RESERVED 3 #define NV_CTRL_INITIAL_PIXMAP_PLACEMENT_GPU_SYSMEM 4 /* * NV_CTRL_PCI_BUS - Returns the PCI bus number the specified device is using. */ #define NV_CTRL_PCI_BUS 239 /* R--GI */ /* * NV_CTRL_PCI_DEVICE - Returns the PCI device number the specified device is * using. */ #define NV_CTRL_PCI_DEVICE 240 /* R--GI */ /* * NV_CTRL_PCI_FUNCTION - Returns the PCI function number the specified device * is using. */ #define NV_CTRL_PCI_FUNCTION 241 /* R--GI */ /* * NV_CTRL_FRAMELOCK_FPGA_REVISION - Querys the FPGA revision of the * Frame Lock device. * * This attribute must be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_FRAMELOCK target. */ #define NV_CTRL_FRAMELOCK_FPGA_REVISION 242 /* R--F */ /* * NV_CTRL_MAX_SCREEN_{WIDTH,HEIGHT} - the maximum allowable size, in * pixels, of either the specified X screen (if the target_type of the * query is an X screen), or any X screen on the specified GPU (if the * target_type of the query is a GPU). */ #define NV_CTRL_MAX_SCREEN_WIDTH 243 /* R--G */ #define NV_CTRL_MAX_SCREEN_HEIGHT 244 /* R--G */ /* * NV_CTRL_MAX_DISPLAYS - The maximum number of display devices that * can be driven simultaneously on a GPU (e.g., that can be used in a * MetaMode at once). Note that this does not indicate the maximum * number of displays that are listed in NV_CTRL_BINARY_DATA_DISPLAYS_ON_GPU * and NV_CTRL_BINARY_DATA_DISPLAYS_CONNECTED_TO_GPU because more display * devices can be connected than are actively in use. */ #define NV_CTRL_MAX_DISPLAYS 245 /* R--G */ /* * NV_CTRL_DYNAMIC_TWINVIEW - Returns whether or not the screen * supports dynamic twinview. */ #define NV_CTRL_DYNAMIC_TWINVIEW 246 /* R-- */ /* * NV_CTRL_MULTIGPU_DISPLAY_OWNER - Returns the (NV-CONTROL) GPU ID of * the GPU that has the display device(s) used for showing the X Screen. */ #define NV_CTRL_MULTIGPU_DISPLAY_OWNER 247 /* R-- */ /* * NV_CTRL_GPU_SCALING - not supported */ #define NV_CTRL_GPU_SCALING 248 /* not supported */ #define NV_CTRL_GPU_SCALING_TARGET_INVALID 0 /* not supported */ #define NV_CTRL_GPU_SCALING_TARGET_FLATPANEL_BEST_FIT 1 /* not supported */ #define NV_CTRL_GPU_SCALING_TARGET_FLATPANEL_NATIVE 2 /* not supported */ #define NV_CTRL_GPU_SCALING_METHOD_INVALID 0 /* not supported */ #define NV_CTRL_GPU_SCALING_METHOD_STRETCHED 1 /* not supported */ #define NV_CTRL_GPU_SCALING_METHOD_CENTERED 2 /* not supported */ #define NV_CTRL_GPU_SCALING_METHOD_ASPECT_SCALED 3 /* not supported */ /* * NV_CTRL_FRONTEND_RESOLUTION - not supported */ #define NV_CTRL_FRONTEND_RESOLUTION 249 /* not supported */ /* * NV_CTRL_BACKEND_RESOLUTION - not supported */ #define NV_CTRL_BACKEND_RESOLUTION 250 /* not supported */ /* * NV_CTRL_FLATPANEL_NATIVE_RESOLUTION - not supported */ #define NV_CTRL_FLATPANEL_NATIVE_RESOLUTION 251 /* not supported */ /* * NV_CTRL_FLATPANEL_BEST_FIT_RESOLUTION - not supported */ #define NV_CTRL_FLATPANEL_BEST_FIT_RESOLUTION 252 /* not supported */ /* * NV_CTRL_GPU_SCALING_ACTIVE - not supported */ #define NV_CTRL_GPU_SCALING_ACTIVE 253 /* not supported */ /* * NV_CTRL_DFP_SCALING_ACTIVE - not supported */ #define NV_CTRL_DFP_SCALING_ACTIVE 254 /* not supported */ /* * NV_CTRL_FSAA_APPLICATION_ENHANCED - Controls how the NV_CTRL_FSAA_MODE * is applied when NV_CTRL_FSAA_APPLICATION_CONTROLLED is set to * NV_CTRL_APPLICATION_CONTROLLED_DISABLED. When * NV_CTRL_FSAA_APPLICATION_ENHANCED is _DISABLED, OpenGL applications will * be forced to use the FSAA mode specified by NV_CTRL_FSAA_MODE. when set * to _ENABLED, only those applications that have selected a multisample * FBConfig will be made to use the NV_CTRL_FSAA_MODE specified. * * This attribute is ignored when NV_CTRL_FSAA_APPLICATION_CONTROLLED is * set to NV_CTRL_FSAA_APPLICATION_CONTROLLED_ENABLED. */ #define NV_CTRL_FSAA_APPLICATION_ENHANCED 255 /* RW-X */ #define NV_CTRL_FSAA_APPLICATION_ENHANCED_ENABLED 1 #define NV_CTRL_FSAA_APPLICATION_ENHANCED_DISABLED 0 /* * NV_CTRL_FRAMELOCK_SYNC_RATE_4 - This is the refresh rate that the * frame lock board is sending to the GPU with 4 digits of precision. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_FRAMELOCK. */ #define NV_CTRL_FRAMELOCK_SYNC_RATE_4 256 /* R--F */ /* * NV_CTRL_GVO_LOCK_OWNER - indicates that the GVO device is available * or in use (by GLX or an X screen). * * The GVO device is locked by GLX when either glXGetVideoDeviceNV * (part of GLX_NV_video_out) or glXBindVideoDeviceNV (part of * GLX_NV_present_video) is called. All GVO output resources are * locked until released by the GLX_NV_video_out/GLX_NV_present_video * client. * * The GVO device is locked/unlocked by an X screen, when the GVO device is * used in a MetaMode on an X screen. * * When the GVO device is locked, setting of the following GVO NV-CONTROL * attributes will not happen immediately and will instead be cached. The * GVO resource will need to be disabled/released and re-enabled/claimed for * the values to be flushed. These attributes are: * * NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT * NV_CTRL_GVO_DATA_FORMAT * NV_CTRL_GVO_FLIP_QUEUE_SIZE */ #define NV_CTRL_GVO_LOCK_OWNER 257 /* R-- */ #define NV_CTRL_GVO_LOCK_OWNER_NONE 0 #define NV_CTRL_GVO_LOCK_OWNER_GLX 1 #define NV_CTRL_GVO_LOCK_OWNER_CLONE 2 /* not supported */ #define NV_CTRL_GVO_LOCK_OWNER_X_SCREEN 3 /* * NV_CTRL_HWOVERLAY - when a workstation overlay is in use, reports * whether the hardware overlay is used, or if the overlay is emulated. */ #define NV_CTRL_HWOVERLAY 258 /* R-- */ #define NV_CTRL_HWOVERLAY_FALSE 0 #define NV_CTRL_HWOVERLAY_TRUE 1 /* * NV_CTRL_NUM_GPU_ERRORS_RECOVERED - Returns the number of GPU errors * occured. This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_X_SCREEN target. */ #define NV_CTRL_NUM_GPU_ERRORS_RECOVERED 259 /* R--- */ /* * NV_CTRL_REFRESH_RATE_3 - Returns the refresh rate of the specified * display device in 1000 * Hz (ie. to get the refresh rate in Hz, divide * the returned value by 1000.) * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN target. */ #define NV_CTRL_REFRESH_RATE_3 260 /* R-DG */ /* * NV_CTRL_ONDEMAND_VBLANK_INTERRUPTS - not supported */ #define NV_CTRL_ONDEMAND_VBLANK_INTERRUPTS 261 /* not supported */ #define NV_CTRL_ONDEMAND_VBLANK_INTERRUPTS_OFF 0 /* not supported */ #define NV_CTRL_ONDEMAND_VBLANK_INTERRUPTS_ON 1 /* not supported */ /* * NV_CTRL_GPU_POWER_SOURCE reports the type of power source * of the GPU driving the X screen. */ #define NV_CTRL_GPU_POWER_SOURCE 262 /* R--G */ #define NV_CTRL_GPU_POWER_SOURCE_AC 0 #define NV_CTRL_GPU_POWER_SOURCE_BATTERY 1 /* * NV_CTRL_GPU_CURRENT_PERFORMANCE_MODE - not supported */ #define NV_CTRL_GPU_CURRENT_PERFORMANCE_MODE 263 /* not supported */ #define NV_CTRL_GPU_CURRENT_PERFORMANCE_MODE_DESKTOP 0 /* not supported */ #define NV_CTRL_GPU_CURRENT_PERFORMANCE_MODE_MAXPERF 1 /* not supported */ /* NV_CTRL_GLYPH_CACHE - Enables RENDER Glyph Caching to VRAM */ #define NV_CTRL_GLYPH_CACHE 264 /* RW- */ #define NV_CTRL_GLYPH_CACHE_DISABLED 0 #define NV_CTRL_GLYPH_CACHE_ENABLED 1 /* * NV_CTRL_GPU_CURRENT_PERFORMANCE_LEVEL reports the current * Performance level of the GPU driving the X screen. Each * Performance level has associated NVClock and Mem Clock values. */ #define NV_CTRL_GPU_CURRENT_PERFORMANCE_LEVEL 265 /* R--G */ /* * NV_CTRL_GPU_ADAPTIVE_CLOCK_STATE reports if Adaptive Clocking * is Enabled on the GPU driving the X screen. */ #define NV_CTRL_GPU_ADAPTIVE_CLOCK_STATE 266 /* R--G */ #define NV_CTRL_GPU_ADAPTIVE_CLOCK_STATE_DISABLED 0 #define NV_CTRL_GPU_ADAPTIVE_CLOCK_STATE_ENABLED 1 /* * NV_CTRL_GVO_OUTPUT_VIDEO_LOCKED - Returns whether or not the GVO output * video is locked to the GPU. */ #define NV_CTRL_GVO_OUTPUT_VIDEO_LOCKED 267 /* R--- */ #define NV_CTRL_GVO_OUTPUT_VIDEO_LOCKED_FALSE 0 #define NV_CTRL_GVO_OUTPUT_VIDEO_LOCKED_TRUE 1 /* * NV_CTRL_GVO_SYNC_LOCK_STATUS - Returns whether or not the GVO device * is locked to the input ref signal. If the sync mode is set to * NV_CTRL_GVO_SYNC_MODE_GENLOCK, then this returns the genlock * sync status, and if the sync mode is set to NV_CTRL_GVO_SYNC_MODE_FRAMELOCK, * then this reports the frame lock status. */ #define NV_CTRL_GVO_SYNC_LOCK_STATUS 268 /* R--- */ #define NV_CTRL_GVO_SYNC_LOCK_STATUS_UNLOCKED 0 #define NV_CTRL_GVO_SYNC_LOCK_STATUS_LOCKED 1 /* * NV_CTRL_GVO_ANC_TIME_CODE_GENERATION - Allows SDI device to generate * time codes in the ANC region of the SDI video output stream. */ #define NV_CTRL_GVO_ANC_TIME_CODE_GENERATION 269 /* RW-- */ #define NV_CTRL_GVO_ANC_TIME_CODE_GENERATION_DISABLE 0 #define NV_CTRL_GVO_ANC_TIME_CODE_GENERATION_ENABLE 1 /* * NV_CTRL_GVO_COMPOSITE - Enables/Disables SDI compositing. This attribute * is only available when an SDI input source is detected and is in genlock * mode. */ #define NV_CTRL_GVO_COMPOSITE 270 /* RW-- */ #define NV_CTRL_GVO_COMPOSITE_DISABLE 0 #define NV_CTRL_GVO_COMPOSITE_ENABLE 1 /* * NV_CTRL_GVO_COMPOSITE_ALPHA_KEY - When compositing is enabled, this * enables/disables alpha blending. */ #define NV_CTRL_GVO_COMPOSITE_ALPHA_KEY 271 /* RW-- */ #define NV_CTRL_GVO_COMPOSITE_ALPHA_KEY_DISABLE 0 #define NV_CTRL_GVO_COMPOSITE_ALPHA_KEY_ENABLE 1 /* * NV_CTRL_GVO_COMPOSITE_LUMA_KEY_RANGE - Set the values of a luma * channel range. This is a packed int that has the following format * (in order of high-bits to low bits): * * Range # (11 bits), (Enabled 1 bit), min value (10 bits), max value (10 bits) * * To query the current values, pass the range # throught the display_mask * variable. */ #define NV_CTRL_GVO_COMPOSITE_LUMA_KEY_RANGE 272 /* RW-- */ #define NV_CTRL_GVO_COMPOSITE_MAKE_RANGE(range, enable, min, max) \ ((((min) & 0x3FF) << 0) | \ (((max) & 0x3FF) << 10) | \ (((enable) & 0x1) << 20) | \ (((range) & 0x7FF) << 21)) #define NV_CTRL_GVO_COMPOSITE_GET_RANGE(val, range, enable, min, max) \ (min) = ((val) >> 0) & 0x3FF; \ (max) = ((val) >> 10) & 0x3FF; \ (enable) = ((val) >> 20) & 0x1; \ (range) = ((val) >> 21) & 0x7FF; /* * NV_CTRL_GVO_COMPOSITE_CR_KEY_RANGE - Set the values of a CR * channel range. This is a packed int that has the following format * (in order of high-bits to low bits): * * Range # (11 bits), (Enabled 1 bit), min value (10 bits), max value (10 bits) * * To query the current values, pass the range # throught he display_mask * variable. */ #define NV_CTRL_GVO_COMPOSITE_CR_KEY_RANGE 273 /* RW-- */ /* * NV_CTRL_GVO_COMPOSITE_CB_KEY_RANGE - Set the values of a CB * channel range. This is a packed int that has the following format * (in order of high-bits to low bits): * * Range # (11 bits), (Enabled 1 bit), min value (10 bits), max value (10 bits) * * To query the current values, pass the range # throught he display_mask * variable. */ #define NV_CTRL_GVO_COMPOSITE_CB_KEY_RANGE 274 /* RW-- */ /* * NV_CTRL_GVO_COMPOSITE_NUM_KEY_RANGES - Returns the number of ranges * available for each channel (Y/Luma, Cr, and Cb.) */ #define NV_CTRL_GVO_COMPOSITE_NUM_KEY_RANGES 275 /* R--- */ /* * NV_CTRL_SWITCH_TO_DISPLAYS - deprecated */ #define NV_CTRL_SWITCH_TO_DISPLAYS 276 /* deprecated */ /* * NV_CTRL_NOTEBOOK_DISPLAY_CHANGE_LID_EVENT - deprecated */ #define NV_CTRL_NOTEBOOK_DISPLAY_CHANGE_LID_EVENT 277 /* RW- */ #define NV_CTRL_NOTEBOOK_DISPLAY_CHANGE_LID_EVENT_CLOSE 0 #define NV_CTRL_NOTEBOOK_DISPLAY_CHANGE_LID_EVENT_OPEN 1 /* * NV_CTRL_NOTEBOOK_INTERNAL_LCD - deprecated */ #define NV_CTRL_NOTEBOOK_INTERNAL_LCD 278 /* deprecated */ /* * NV_CTRL_DEPTH_30_ALLOWED - returns whether the NVIDIA X driver supports * depth 30 on the specified X screen or GPU. */ #define NV_CTRL_DEPTH_30_ALLOWED 279 /* R--G */ /* * NV_CTRL_MODE_SET_EVENT This attribute is sent as an event * when hotkey, ctrl-alt-+/- or randr event occurs. Note that * This attribute cannot be set or queried and is meant to * be received by clients that wish to be notified of when * mode set events occur. */ #define NV_CTRL_MODE_SET_EVENT 280 /* --- */ /* * NV_CTRL_OPENGL_AA_LINE_GAMMA_VALUE - the gamma value used by * OpenGL when NV_CTRL_OPENGL_AA_LINE_GAMMA is enabled */ #define NV_CTRL_OPENGL_AA_LINE_GAMMA_VALUE 281 /* RW-X */ /* * NV_CTRL_VCSC_HIGH_PERF_MODE - Is used to both query High Performance Mode * status on the Visual Computing System, and also to enable or disable High * Performance Mode. */ #define NV_CTRL_VCSC_HIGH_PERF_MODE 282 /* RW-V */ #define NV_CTRL_VCSC_HIGH_PERF_MODE_DISABLE 0 #define NV_CTRL_VCSC_HIGH_PERF_MODE_ENABLE 1 /* * NV_CTRL_DISPLAYPORT_LINK_RATE - returns the negotiated lane bandwidth of the * DisplayPort main link. The numerical value of this attribute is the link * rate in bps divided by 27000000. * This attribute is only available for DisplayPort flat panels. */ #define NV_CTRL_DISPLAYPORT_LINK_RATE 291 /* R-DG */ #define NV_CTRL_DISPLAYPORT_LINK_RATE_DISABLED 0x0 #define NV_CTRL_DISPLAYPORT_LINK_RATE_1_62GBPS 0x6 /* deprecated */ #define NV_CTRL_DISPLAYPORT_LINK_RATE_2_70GBPS 0xA /* deprecated */ /* * NV_CTRL_STEREO_EYES_EXCHANGE - Controls whether or not the left and right * eyes of a stereo image are flipped. */ #define NV_CTRL_STEREO_EYES_EXCHANGE 292 /* RW-X */ #define NV_CTRL_STEREO_EYES_EXCHANGE_OFF 0 #define NV_CTRL_STEREO_EYES_EXCHANGE_ON 1 /* * NV_CTRL_NO_SCANOUT - returns whether the special "NoScanout" mode is * enabled on the specified X screen or GPU; for details on this mode, * see the description of the "none" value for the "UseDisplayDevice" * X configuration option in the NVIDIA driver README. */ #define NV_CTRL_NO_SCANOUT 293 /* R--G */ #define NV_CTRL_NO_SCANOUT_DISABLED 0 #define NV_CTRL_NO_SCANOUT_ENABLED 1 /* * NV_CTRL_GVO_CSC_CHANGED_EVENT This attribute is sent as an event * when the color space conversion matrix has been altered by another * client. */ #define NV_CTRL_GVO_CSC_CHANGED_EVENT 294 /* --- */ /* * NV_CTRL_FRAMELOCK_SLAVEABLE - deprecated * * NV_CTRL_FRAMELOCK_DISPLAY_CONFIG should be used instead. */ #define NV_CTRL_FRAMELOCK_SLAVEABLE 295 /* deprecated */ /* * NV_CTRL_GVO_SYNC_TO_DISPLAY This attribute controls whether or not * the non-SDI display device will be sync'ed to the SDI display device * (when configured in TwinView, Clone Mode or when using the SDI device * with OpenGL). */ #define NV_CTRL_GVO_SYNC_TO_DISPLAY 296 /* --- */ #define NV_CTRL_GVO_SYNC_TO_DISPLAY_DISABLE 0 #define NV_CTRL_GVO_SYNC_TO_DISPLAY_ENABLE 1 /* * NV_CTRL_X_SERVER_UNIQUE_ID - returns a pseudo-unique identifier for this * X server. Intended for use in cases where an NV-CONTROL client communicates * with multiple X servers, and wants some level of confidence that two * X Display connections correspond to the same or different X servers. */ #define NV_CTRL_X_SERVER_UNIQUE_ID 297 /* R--- */ /* * NV_CTRL_PIXMAP_CACHE - This attribute controls whether the driver attempts to * store video memory pixmaps in a cache. The cache speeds up allocation and * deallocation of pixmaps, but could use more memory than when the cache is * disabled. */ #define NV_CTRL_PIXMAP_CACHE 298 /* RW-X */ #define NV_CTRL_PIXMAP_CACHE_DISABLE 0 #define NV_CTRL_PIXMAP_CACHE_ENABLE 1 /* * NV_CTRL_PIXMAP_CACHE_ROUNDING_SIZE_KB - When the pixmap cache is enabled and * there is not enough free space in the cache to fit a new pixmap, the driver * will round up to the next multiple of this number of kilobytes when * allocating more memory for the cache. */ #define NV_CTRL_PIXMAP_CACHE_ROUNDING_SIZE_KB 299 /* RW-X */ /* * NV_CTRL_IS_GVO_DISPLAY - returns whether or not a given display is an * SDI device. */ #define NV_CTRL_IS_GVO_DISPLAY 300 /* R-D */ #define NV_CTRL_IS_GVO_DISPLAY_FALSE 0 #define NV_CTRL_IS_GVO_DISPLAY_TRUE 1 /* * NV_CTRL_PCI_ID - Returns the PCI vendor and device ID of the specified * device. * * NV_CTRL_PCI_ID is a "packed" integer attribute; the PCI vendor ID is stored * in the upper 16 bits of the integer, and the PCI device ID is stored in the * lower 16 bits of the integer. */ #define NV_CTRL_PCI_ID 301 /* R--GI */ /* * NV_CTRL_GVO_FULL_RANGE_COLOR - Allow full range color data [4-1019] * without clamping to [64-940]. */ #define NV_CTRL_GVO_FULL_RANGE_COLOR 302 /* RW- */ #define NV_CTRL_GVO_FULL_RANGE_COLOR_DISABLED 0 #define NV_CTRL_GVO_FULL_RANGE_COLOR_ENABLED 1 /* * NV_CTRL_SLI_MOSAIC_MODE_AVAILABLE - Returns whether or not * SLI Mosaic Mode supported. */ #define NV_CTRL_SLI_MOSAIC_MODE_AVAILABLE 303 /* R-- */ #define NV_CTRL_SLI_MOSAIC_MODE_AVAILABLE_FALSE 0 #define NV_CTRL_SLI_MOSAIC_MODE_AVAILABLE_TRUE 1 /* * NV_CTRL_GVO_ENABLE_RGB_DATA - Allows clients to specify when * the GVO board should process colors as RGB when the output data * format is one of the NV_CTRL_GVO_DATA_FORMAT_???_PASSTRHU modes. */ #define NV_CTRL_GVO_ENABLE_RGB_DATA 304 /* RW- */ #define NV_CTRL_GVO_ENABLE_RGB_DATA_DISABLE 0 #define NV_CTRL_GVO_ENABLE_RGB_DATA_ENABLE 1 /* * NV_CTRL_IMAGE_SHARPENING_DEFAULT - Returns default value of * Image Sharpening. */ #define NV_CTRL_IMAGE_SHARPENING_DEFAULT 305 /* R-- */ /* * NV_CTRL_PCI_DOMAIN - Returns the PCI domain number the specified device is * using. */ #define NV_CTRL_PCI_DOMAIN 306 /* R--GI */ /* * NV_CTRL_GVI_NUM_JACKS - Returns the number of input BNC jacks available * on a GVI device. */ #define NV_CTRL_GVI_NUM_JACKS 307 /* R--I */ /* * NV_CTRL_GVI_MAX_LINKS_PER_STREAM - Returns the maximum supported number of * links that can be tied to one stream. */ #define NV_CTRL_GVI_MAX_LINKS_PER_STREAM 308 /* R--I */ /* * NV_CTRL_GVI_DETECTED_CHANNEL_BITS_PER_COMPONENT - Returns the detected * number of bits per component (BPC) of data on the given input jack+ * channel. * * The jack number should be specified in the lower 16 bits of the * "display_mask" parameter, while the channel number should be specified in * the upper 16 bits. */ #define NV_CTRL_GVI_DETECTED_CHANNEL_BITS_PER_COMPONENT 309 /* R--I */ #define NV_CTRL_GVI_BITS_PER_COMPONENT_UNKNOWN 0 #define NV_CTRL_GVI_BITS_PER_COMPONENT_8 1 #define NV_CTRL_GVI_BITS_PER_COMPONENT_10 2 #define NV_CTRL_GVI_BITS_PER_COMPONENT_12 3 /* * NV_CTRL_GVI_REQUESTED_STREAM_BITS_PER_COMPONENT - Specify the number of * bits per component (BPC) of data for the captured stream. * The stream number should be specified in the "display_mask" parameter. * * Note: Setting this attribute may also result in the following * NV-CONTROL attributes being reset on the GVI device (to ensure * the configuration remains valid): * NV_CTRL_GVI_REQUESTED_STREAM_COMPONENT_SAMPLING */ #define NV_CTRL_GVI_REQUESTED_STREAM_BITS_PER_COMPONENT 310 /* RW-I */ /* * NV_CTRL_GVI_DETECTED_CHANNEL_COMPONENT_SAMPLING - Returns the detected * sampling format for the input jack+channel. * * The jack number should be specified in the lower 16 bits of the * "display_mask" parameter, while the channel number should be specified in * the upper 16 bits. */ #define NV_CTRL_GVI_DETECTED_CHANNEL_COMPONENT_SAMPLING 311 /* R--I */ #define NV_CTRL_GVI_COMPONENT_SAMPLING_UNKNOWN 0 #define NV_CTRL_GVI_COMPONENT_SAMPLING_4444 1 #define NV_CTRL_GVI_COMPONENT_SAMPLING_4224 2 #define NV_CTRL_GVI_COMPONENT_SAMPLING_444 3 #define NV_CTRL_GVI_COMPONENT_SAMPLING_422 4 #define NV_CTRL_GVI_COMPONENT_SAMPLING_420 5 /* * NV_CTRL_GVI_REQUESTED_COMPONENT_SAMPLING - Specify the sampling format for * the captured stream. * The possible values are the NV_CTRL_GVI_DETECTED_COMPONENT_SAMPLING * constants. * The stream number should be specified in the "display_mask" parameter. */ #define NV_CTRL_GVI_REQUESTED_STREAM_COMPONENT_SAMPLING 312 /* RW-I */ /* * NV_CTRL_GVI_CHROMA_EXPAND - Enable or disable 4:2:2 -> 4:4:4 chroma * expansion for the captured stream. This value is ignored when a * COMPONENT_SAMPLING format is selected that does not use chroma subsampling, * or if a BITS_PER_COMPONENT value is selected that is not supported. * The stream number should be specified in the "display_mask" parameter. */ #define NV_CTRL_GVI_REQUESTED_STREAM_CHROMA_EXPAND 313 /* RW-I */ #define NV_CTRL_GVI_CHROMA_EXPAND_FALSE 0 #define NV_CTRL_GVI_CHROMA_EXPAND_TRUE 1 /* * NV_CTRL_GVI_DETECTED_CHANNEL_COLOR_SPACE - Returns the detected color space * of the input jack+channel. * * The jack number should be specified in the lower 16 bits of the * "display_mask" parameter, while the channel number should be specified in * the upper 16 bits. */ #define NV_CTRL_GVI_DETECTED_CHANNEL_COLOR_SPACE 314 /* R--I */ #define NV_CTRL_GVI_COLOR_SPACE_UNKNOWN 0 #define NV_CTRL_GVI_COLOR_SPACE_GBR 1 #define NV_CTRL_GVI_COLOR_SPACE_GBRA 2 #define NV_CTRL_GVI_COLOR_SPACE_GBRD 3 #define NV_CTRL_GVI_COLOR_SPACE_YCBCR 4 #define NV_CTRL_GVI_COLOR_SPACE_YCBCRA 5 #define NV_CTRL_GVI_COLOR_SPACE_YCBCRD 6 /* * NV_CTRL_GVI_DETECTED_CHANNEL_LINK_ID - Returns the detected link identifier * for the given input jack+channel. * * The jack number should be specified in the lower 16 bits of the * "display_mask" parameter, while the channel number should be specified in * the upper 16 bits. */ #define NV_CTRL_GVI_DETECTED_CHANNEL_LINK_ID 315 /* R--I */ #define NV_CTRL_GVI_LINK_ID_UNKNOWN 0xFFFF /* * NV_CTRL_GVI_DETECTED_CHANNEL_SMPTE352_IDENTIFIER - Returns the 4-byte * SMPTE 352 identifier from the given input jack+channel. * * The jack number should be specified in the lower 16 bits of the * "display_mask" parameter, while the channel number should be specified in * the upper 16 bits. */ #define NV_CTRL_GVI_DETECTED_CHANNEL_SMPTE352_IDENTIFIER 316 /* R--I */ /* * NV_CTRL_GVI_GLOBAL_IDENTIFIER - Returns a global identifier for the * GVI device. This identifier can be used to relate GVI devices named * in NV-CONTROL with those enumerated in OpenGL. */ #define NV_CTRL_GVI_GLOBAL_IDENTIFIER 317 /* R--I */ /* * NV_CTRL_FRAMELOCK_SYNC_DELAY_RESOLUTION - Returns the number of nanoseconds * that one unit of NV_CTRL_FRAMELOCK_SYNC_DELAY corresponds to. */ #define NV_CTRL_FRAMELOCK_SYNC_DELAY_RESOLUTION 318 /* R-- */ /* * NV_CTRL_GPU_COOLER_MANUAL_CONTROL - Query the current or set a new * cooler control state; the value of this attribute controls the * availability of additional cooler control attributes (see below). * * Note: this attribute is unavailable unless cooler control support * has been enabled in the X server (by the user). */ #define NV_CTRL_GPU_COOLER_MANUAL_CONTROL 319 /* RW-G */ #define NV_CTRL_GPU_COOLER_MANUAL_CONTROL_FALSE 0 #define NV_CTRL_GPU_COOLER_MANUAL_CONTROL_TRUE 1 /* * NV_CTRL_THERMAL_COOLER_LEVEL - Returns cooler's current operating * level. */ #define NV_CTRL_THERMAL_COOLER_LEVEL 320 /* RW-C */ /* NV_CTRL_THERMAL_COOLER_LEVEL_SET_DEFAULT - Sets default values of * cooler. */ #define NV_CTRL_THERMAL_COOLER_LEVEL_SET_DEFAULT 321 /* -W-C */ /* * NV_CTRL_THERMAL_COOLER_CONTROL_TYPE - * Returns a cooler's control signal characteristics. * The possible types are restricted, Variable and Toggle. */ #define NV_CTRL_THERMAL_COOLER_CONTROL_TYPE 322 /* R--C */ #define NV_CTRL_THERMAL_COOLER_CONTROL_TYPE_NONE 0 #define NV_CTRL_THERMAL_COOLER_CONTROL_TYPE_TOGGLE 1 #define NV_CTRL_THERMAL_COOLER_CONTROL_TYPE_VARIABLE 2 /* * NV_CTRL_THERMAL_COOLER_TARGET - Returns objects that cooler cools. * Targets may be GPU, Memory, Power Supply or All of these. * GPU_RELATED = GPU | MEMORY | POWER_SUPPLY * */ #define NV_CTRL_THERMAL_COOLER_TARGET 323 /* R--C */ #define NV_CTRL_THERMAL_COOLER_TARGET_NONE 0 #define NV_CTRL_THERMAL_COOLER_TARGET_GPU 1 #define NV_CTRL_THERMAL_COOLER_TARGET_MEMORY 2 #define NV_CTRL_THERMAL_COOLER_TARGET_POWER_SUPPLY 4 #define NV_CTRL_THERMAL_COOLER_TARGET_GPU_RELATED \ (NV_CTRL_THERMAL_COOLER_TARGET_GPU | \ NV_CTRL_THERMAL_COOLER_TARGET_MEMORY | \ NV_CTRL_THERMAL_COOLER_TARGET_POWER_SUPPLY) /* * NV_CTRL_GPU_ECC_SUPPORTED - Reports whether ECC is supported by the * targeted GPU. */ #define NV_CTRL_GPU_ECC_SUPPORTED 324 /* R--G */ #define NV_CTRL_GPU_ECC_SUPPORTED_FALSE 0 #define NV_CTRL_GPU_ECC_SUPPORTED_TRUE 1 /* * NV_CTRL_GPU_ECC_STATUS - Returns the current hardware ECC setting * for the targeted GPU. */ #define NV_CTRL_GPU_ECC_STATUS 325 /* R--G */ #define NV_CTRL_GPU_ECC_STATUS_DISABLED 0 #define NV_CTRL_GPU_ECC_STATUS_ENABLED 1 /* * NV_CTRL_GPU_ECC_CONFIGURATION - Reports whether ECC can be configured * dynamically for the GPU in question. */ #define NV_CTRL_GPU_ECC_CONFIGURATION_SUPPORTED 326 /* R--G */ #define NV_CTRL_GPU_ECC_CONFIGURATION_SUPPORTED_FALSE 0 #define NV_CTRL_GPU_ECC_CONFIGURATION_SUPPORTED_TRUE 1 /* * NV_CTRL_GPU_ECC_CONFIGURATION_SETTING - Returns the current ECC * configuration setting or specifies new settings. New settings do not * take effect until the next POST. */ #define NV_CTRL_GPU_ECC_CONFIGURATION 327 /* RW-G */ #define NV_CTRL_GPU_ECC_CONFIGURATION_DISABLED 0 #define NV_CTRL_GPU_ECC_CONFIGURATION_ENABLED 1 /* * NV_CTRL_GPU_ECC_DEFAULT_CONFIGURATION_SETTING - Returns the default * ECC configuration setting. */ #define NV_CTRL_GPU_ECC_DEFAULT_CONFIGURATION 328 /* R--G */ #define NV_CTRL_GPU_ECC_DEFAULT_CONFIGURATION_DISABLED 0 #define NV_CTRL_GPU_ECC_DEFAULT_CONFIGURATION_ENABLED 1 /* * NV_CTRL_GPU_ECC_SINGLE_BIT_ERRORS - Returns the number of single-bit * ECC errors detected by the targeted GPU since the last POST. * Note: this attribute is a 64-bit integer attribute. */ #define NV_CTRL_GPU_ECC_SINGLE_BIT_ERRORS 329 /* R--GQ */ /* * NV_CTRL_GPU_ECC_DOUBLE_BIT_ERRORS - Returns the number of double-bit * ECC errors detected by the targeted GPU since the last POST. * Note: this attribute is a 64-bit integer attribute. */ #define NV_CTRL_GPU_ECC_DOUBLE_BIT_ERRORS 330 /* R--GQ */ /* * NV_CTRL_GPU_ECC_AGGREGATE_SINGLE_BIT_ERRORS - Returns the number of * single-bit ECC errors detected by the targeted GPU since the * last counter reset. * Note: this attribute is a 64-bit integer attribute. */ #define NV_CTRL_GPU_ECC_AGGREGATE_SINGLE_BIT_ERRORS 331 /* R--GQ */ /* * NV_CTRL_GPU_ECC_AGGREGATE_DOUBLE_BIT_ERRORS - Returns the number of * double-bit ECC errors detected by the targeted GPU since the * last counter reset. * Note: this attribute is a 64-bit integer attribute. */ #define NV_CTRL_GPU_ECC_AGGREGATE_DOUBLE_BIT_ERRORS 332 /* R--GQ */ /* * NV_CTRL_GPU_ECC_RESET_ERROR_STATUS - Resets the volatile/aggregate * single-bit and double-bit error counters. This attribute is a * bitmask attribute. */ #define NV_CTRL_GPU_ECC_RESET_ERROR_STATUS 333 /* -W-G */ #define NV_CTRL_GPU_ECC_RESET_ERROR_STATUS_VOLATILE 0x00000001 #define NV_CTRL_GPU_ECC_RESET_ERROR_STATUS_AGGREGATE 0x00000002 /* * NV_CTRL_GPU_POWER_MIZER_MODE - Provides a hint to the driver * as to how to manage the performance of the GPU. * * ADAPTIVE - adjust GPU clocks based on GPU * utilization * PREFER_MAXIMUM_PERFORMANCE - raise GPU clocks to favor * maximum performance, to the extent * that thermal and other constraints * allow * AUTO - let the driver choose the performance * policy * PREFER_CONSISTENT_PERFORMANCE - lock to GPU base clocks */ #define NV_CTRL_GPU_POWER_MIZER_MODE 334 /* RW-G */ #define NV_CTRL_GPU_POWER_MIZER_MODE_ADAPTIVE 0 #define NV_CTRL_GPU_POWER_MIZER_MODE_PREFER_MAXIMUM_PERFORMANCE 1 #define NV_CTRL_GPU_POWER_MIZER_MODE_AUTO 2 #define NV_CTRL_GPU_POWER_MIZER_MODE_PREFER_CONSISTENT_PERFORMANCE 3 /* * NV_CTRL_GVI_SYNC_OUTPUT_FORMAT - Returns the output sync signal * from the GVI device. */ #define NV_CTRL_GVI_SYNC_OUTPUT_FORMAT 335 /* R--I */ /* * NV_CTRL_GVI_MAX_CHANNELS_PER_JACK - Returns the maximum * supported number of (logical) channels within a single physical jack of * a GVI device. For most SDI video formats, there is only one channel * (channel 0). But for 3G video formats (as specified in SMPTE 425), * as an example, there are two channels (channel 0 and channel 1) per * physical jack. */ #define NV_CTRL_GVI_MAX_CHANNELS_PER_JACK 336 /* R--I */ /* * NV_CTRL_GVI_MAX_STREAMS - Returns the maximum number of streams * that can be configured on the GVI device. */ #define NV_CTRL_GVI_MAX_STREAMS 337 /* R--I */ /* * NV_CTRL_GVI_NUM_CAPTURE_SURFACES - The GVI interface exposed through * NV-CONTROL and the GLX_NV_video_input extension uses internal capture * surfaces when frames are read from the GVI device. The * NV_CTRL_GVI_NUM_CAPTURE_SURFACES can be used to query and assign the * number of capture surfaces. This attribute is applied when * glXBindVideoCaptureDeviceNV() is called by the application. * * A lower number of capture surfaces will mean less video memory is used, * but can result in frames being dropped if the application cannot keep up * with the capture device. A higher number will prevent frames from being * dropped, making capture more reliable but will consume move video memory. */ #define NV_CTRL_GVI_NUM_CAPTURE_SURFACES 338 /* RW-I */ /* * NV_CTRL_OVERSCAN_COMPENSATION - not supported */ #define NV_CTRL_OVERSCAN_COMPENSATION 339 /* not supported */ /* * NV_CTRL_GPU_PCIE_GENERATION - Reports the current PCIe generation. */ #define NV_CTRL_GPU_PCIE_GENERATION 341 /* R--GI */ #define NV_CTRL_GPU_PCIE_GENERATION1 0x00000001 #define NV_CTRL_GPU_PCIE_GENERATION2 0x00000002 #define NV_CTRL_GPU_PCIE_GENERATION3 0x00000003 /* * NV_CTRL_GVI_BOUND_GPU - Returns the NV_CTRL_TARGET_TYPE_GPU target_id of * the GPU currently bound to the GVI device. Returns -1 if no GPU is * currently bound to the GVI device. */ #define NV_CTRL_GVI_BOUND_GPU 342 /* R--I */ /* * NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT3 - this attribute is only * intended to be used to query the ValidValues for * NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT for VIDEO_FORMAT values between * 64 and 95. See NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT for details. */ #define NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT3 343 /* ---GI */ /* * NV_CTRL_ACCELERATE_TRAPEZOIDS - Toggles RENDER Trapezoid acceleration */ #define NV_CTRL_ACCELERATE_TRAPEZOIDS 344 /* RW- */ #define NV_CTRL_ACCELERATE_TRAPEZOIDS_DISABLE 0 #define NV_CTRL_ACCELERATE_TRAPEZOIDS_ENABLE 1 /* * NV_CTRL_GPU_CORES - Returns number of GPU cores supported by the graphics * pipeline. */ #define NV_CTRL_GPU_CORES 345 /* R--G */ /* * NV_CTRL_GPU_MEMORY_BUS_WIDTH - Returns memory bus bandwidth on the associated * subdevice. */ #define NV_CTRL_GPU_MEMORY_BUS_WIDTH 346 /* R--G */ /* * NV_CTRL_GVI_TEST_MODE - This attribute controls the GVI test mode. When * enabled, the GVI device will generate fake data as quickly as possible. All * GVI settings are still valid when this is enabled (e.g., the requested video * format is honored and sets the video size). * This may be used to test the pipeline. */ #define NV_CTRL_GVI_TEST_MODE 347 /* R--I */ #define NV_CTRL_GVI_TEST_MODE_DISABLE 0 #define NV_CTRL_GVI_TEST_MODE_ENABLE 1 /* * NV_CTRL_COLOR_SPACE - This option sets color space of the video * signal. */ #define NV_CTRL_COLOR_SPACE 348 /* RWDG */ #define NV_CTRL_COLOR_SPACE_RGB 0 #define NV_CTRL_COLOR_SPACE_YCbCr422 1 #define NV_CTRL_COLOR_SPACE_YCbCr444 2 /* * NV_CTRL_COLOR_RANGE - This option sets color range of the video * signal. */ #define NV_CTRL_COLOR_RANGE 349 /* RWDG */ #define NV_CTRL_COLOR_RANGE_FULL 0 #define NV_CTRL_COLOR_RANGE_LIMITED 1 /* * NV_CTRL_GPU_SCALING_DEFAULT_TARGET - not supported */ #define NV_CTRL_GPU_SCALING_DEFAULT_TARGET 350 /* not supported */ /* * NV_CTRL_GPU_SCALING_DEFAULT_METHOD - not supported */ #define NV_CTRL_GPU_SCALING_DEFAULT_METHOD 351 /* not supported */ /* * NV_CTRL_DITHERING_MODE - Controls the dithering mode, when * NV_CTRL_CURRENT_DITHERING is Enabled. * * AUTO: allow the driver to choose the dithering mode automatically. * * DYNAMIC_2X2: use a 2x2 matrix to dither from the GPU's pixel * pipeline to the bit depth of the flat panel. The matrix values * are changed from frame to frame. * * STATIC_2X2: use a 2x2 matrix to dither from the GPU's pixel * pipeline to the bit depth of the flat panel. The matrix values * do not change from frame to frame. * * TEMPORAL: use a pseudorandom value from a uniform distribution calculated at * every pixel to achieve stochastic dithering. This method produces a better * visual result than 2x2 matrix approaches. */ #define NV_CTRL_DITHERING_MODE 352 /* RWDG */ #define NV_CTRL_DITHERING_MODE_AUTO 0 #define NV_CTRL_DITHERING_MODE_DYNAMIC_2X2 1 #define NV_CTRL_DITHERING_MODE_STATIC_2X2 2 #define NV_CTRL_DITHERING_MODE_TEMPORAL 3 /* * NV_CTRL_CURRENT_DITHERING - Returns the current dithering state. */ #define NV_CTRL_CURRENT_DITHERING 353 /* R-DG */ #define NV_CTRL_CURRENT_DITHERING_DISABLED 0 #define NV_CTRL_CURRENT_DITHERING_ENABLED 1 /* * NV_CTRL_CURRENT_DITHERING_MODE - Returns the current dithering * mode. */ #define NV_CTRL_CURRENT_DITHERING_MODE 354 /* R-DG */ #define NV_CTRL_CURRENT_DITHERING_MODE_NONE 0 #define NV_CTRL_CURRENT_DITHERING_MODE_DYNAMIC_2X2 1 #define NV_CTRL_CURRENT_DITHERING_MODE_STATIC_2X2 2 #define NV_CTRL_CURRENT_DITHERING_MODE_TEMPORAL 3 /* * NV_CTRL_THERMAL_SENSOR_READING - Returns the thermal sensor's current * reading. */ #define NV_CTRL_THERMAL_SENSOR_READING 355 /* R--S */ /* * NV_CTRL_THERMAL_SENSOR_PROVIDER - Returns the hardware device that * provides the thermal sensor. */ #define NV_CTRL_THERMAL_SENSOR_PROVIDER 356 /* R--S */ #define NV_CTRL_THERMAL_SENSOR_PROVIDER_NONE 0 #define NV_CTRL_THERMAL_SENSOR_PROVIDER_GPU_INTERNAL 1 #define NV_CTRL_THERMAL_SENSOR_PROVIDER_ADM1032 2 #define NV_CTRL_THERMAL_SENSOR_PROVIDER_ADT7461 3 #define NV_CTRL_THERMAL_SENSOR_PROVIDER_MAX6649 4 #define NV_CTRL_THERMAL_SENSOR_PROVIDER_MAX1617 5 #define NV_CTRL_THERMAL_SENSOR_PROVIDER_LM99 6 #define NV_CTRL_THERMAL_SENSOR_PROVIDER_LM89 7 #define NV_CTRL_THERMAL_SENSOR_PROVIDER_LM64 8 #define NV_CTRL_THERMAL_SENSOR_PROVIDER_G781 9 #define NV_CTRL_THERMAL_SENSOR_PROVIDER_ADT7473 10 #define NV_CTRL_THERMAL_SENSOR_PROVIDER_SBMAX6649 11 #define NV_CTRL_THERMAL_SENSOR_PROVIDER_VBIOSEVT 12 #define NV_CTRL_THERMAL_SENSOR_PROVIDER_OS 13 #define NV_CTRL_THERMAL_SENSOR_PROVIDER_UNKNOWN 0xFFFFFFFF /* * NV_CTRL_THERMAL_SENSOR_TARGET - Returns what hardware component * the thermal sensor is measuring. */ #define NV_CTRL_THERMAL_SENSOR_TARGET 357 /* R--S */ #define NV_CTRL_THERMAL_SENSOR_TARGET_NONE 0 #define NV_CTRL_THERMAL_SENSOR_TARGET_GPU 1 #define NV_CTRL_THERMAL_SENSOR_TARGET_MEMORY 2 #define NV_CTRL_THERMAL_SENSOR_TARGET_POWER_SUPPLY 4 #define NV_CTRL_THERMAL_SENSOR_TARGET_BOARD 8 #define NV_CTRL_THERMAL_SENSOR_TARGET_UNKNOWN 0xFFFFFFFF /* * NV_CTRL_SHOW_MULTIGPU_VISUAL_INDICATOR - when TRUE, OpenGL will * draw information about the current MULTIGPU mode. */ #define NV_CTRL_SHOW_MULTIGPU_VISUAL_INDICATOR 358 /* RW-X */ #define NV_CTRL_SHOW_MULTIGPU_VISUAL_INDICATOR_FALSE 0 #define NV_CTRL_SHOW_MULTIGPU_VISUAL_INDICATOR_TRUE 1 /* * NV_CTRL_GPU_CURRENT_PROCESSOR_CLOCK_FREQS - Returns GPU's processor * clock freqs. */ #define NV_CTRL_GPU_CURRENT_PROCESSOR_CLOCK_FREQS 359 /* RW-G */ /* * NV_CTRL_GVIO_VIDEO_FORMAT_FLAGS - query the flags (various information * for the specified NV_CTRL_GVIO_VIDEO_FORMAT_*. So that this can be * queried with existing interfaces, the video format should be specified * in the display_mask field; eg: * * XNVCTRLQueryTargetAttribute(dpy, * NV_CTRL_TARGET_TYPE_GVI, * gvi, * NV_CTRL_GVIO_VIDEO_FORMAT_720P_60_00_SMPTE296, * NV_CTRL_GVIO_VIDEO_FORMAT_FLAGS, * &flags); * * Note: The NV_CTRL_GVIO_VIDEO_FORMAT_FLAGS_3G_1080P_NO_12BPC flag is set * for those 1080P 3G modes (level A and B) that do not support * 12 bits per component (when configuring a GVI stream.) */ #define NV_CTRL_GVIO_VIDEO_FORMAT_FLAGS 360 /* R--I */ #define NV_CTRL_GVIO_VIDEO_FORMAT_FLAGS_NONE 0x00000000 #define NV_CTRL_GVIO_VIDEO_FORMAT_FLAGS_INTERLACED 0x00000001 #define NV_CTRL_GVIO_VIDEO_FORMAT_FLAGS_PROGRESSIVE 0x00000002 #define NV_CTRL_GVIO_VIDEO_FORMAT_FLAGS_PSF 0x00000004 #define NV_CTRL_GVIO_VIDEO_FORMAT_FLAGS_3G_LEVEL_A 0x00000008 #define NV_CTRL_GVIO_VIDEO_FORMAT_FLAGS_3G_LEVEL_B 0x00000010 #define NV_CTRL_GVIO_VIDEO_FORMAT_FLAGS_3G \ ((NV_CTRL_GVIO_VIDEO_FORMAT_FLAGS_3G_LEVEL_A) | \ (NV_CTRL_GVIO_VIDEO_FORMAT_FLAGS_3G_LEVEL_B)) #define NV_CTRL_GVIO_VIDEO_FORMAT_FLAGS_3G_1080P_NO_12BPC 0x00000020 /* * NV_CTRL_GPU_PCIE_MAX_LINK_SPEED - returns maximum PCIe link speed, * in gigatransfers per second (GT/s). */ #define NV_CTRL_GPU_PCIE_MAX_LINK_SPEED 361 /* R--GI */ /* * NV_CTRL_3D_VISION_PRO_RESET_TRANSCEIVER_TO_FACTORY_SETTINGS - Resets the * 3D Vision Pro transceiver to its factory settings. */ #define NV_CTRL_3D_VISION_PRO_RESET_TRANSCEIVER_TO_FACTORY_SETTINGS 363 /* -W-T */ /* * NV_CTRL_3D_VISION_PRO_TRANSCEIVER_CHANNEL - Controls the channel that is * currently used by the 3D Vision Pro transceiver. */ #define NV_CTRL_3D_VISION_PRO_TRANSCEIVER_CHANNEL 364 /* RW-T */ /* * NV_CTRL_3D_VISION_PRO_TRANSCEIVER_MODE - Controls the mode in which the * 3D Vision Pro transceiver operates. * NV_CTRL_3D_VISION_PRO_TM_LOW_RANGE is bidirectional * NV_CTRL_3D_VISION_PRO_TM_MEDIUM_RANGE is bidirectional * NV_CTRL_3D_VISION_PRO_TM_HIGH_RANGE may be bidirectional just up to a * given range, and unidirectional beyond it * NV_CTRL_3D_VISION_PRO_TM_COUNT is the total number of * 3D Vision Pro transceiver modes */ #define NV_CTRL_3D_VISION_PRO_TRANSCEIVER_MODE 365 /* RW-T */ #define NV_CTRL_3D_VISION_PRO_TRANSCEIVER_MODE_INVALID 0 #define NV_CTRL_3D_VISION_PRO_TRANSCEIVER_MODE_LOW_RANGE 1 #define NV_CTRL_3D_VISION_PRO_TRANSCEIVER_MODE_MEDIUM_RANGE 2 #define NV_CTRL_3D_VISION_PRO_TRANSCEIVER_MODE_HIGH_RANGE 3 #define NV_CTRL_3D_VISION_PRO_TRANSCEIVER_MODE_COUNT 4 /* * NV_CTRL_SYNCHRONOUS_PALETTE_UPDATES - controls whether updates to the color * lookup table (LUT) are synchronous with respect to X rendering. For example, * if an X client sends XStoreColors followed by XFillRectangle, the driver will * guarantee that the FillRectangle request is not processed until after the * updated LUT colors are actually visible on the screen if * NV_CTRL_SYNCHRONOUS_PALETTE_UPDATES is enabled. Otherwise, the rendering may * occur first. * * This makes a difference for applications that use the LUT to animate, such as * XPilot. If you experience flickering in applications that use LUT * animations, try enabling this attribute. * * When synchronous updates are enabled, XStoreColors requests will be processed * at your screen's refresh rate. */ #define NV_CTRL_SYNCHRONOUS_PALETTE_UPDATES 367 /* RWDG */ #define NV_CTRL_SYNCHRONOUS_PALETTE_UPDATES_DISABLE 0 #define NV_CTRL_SYNCHRONOUS_PALETTE_UPDATES_ENABLE 1 /* * NV_CTRL_DITHERING_DEPTH - Controls the dithering depth when * NV_CTRL_CURRENT_DITHERING is ENABLED. Some displays connected * to the GPU via the DVI or LVDS interfaces cannot display the * full color range of ten bits per channel, so the GPU will * dither to either 6 or 8 bits per channel. */ #define NV_CTRL_DITHERING_DEPTH 368 /* RWDG */ #define NV_CTRL_DITHERING_DEPTH_AUTO 0 #define NV_CTRL_DITHERING_DEPTH_6_BITS 1 #define NV_CTRL_DITHERING_DEPTH_8_BITS 2 /* * NV_CTRL_CURRENT_DITHERING_DEPTH - Returns the current dithering * depth value. */ #define NV_CTRL_CURRENT_DITHERING_DEPTH 369 /* R-DG */ #define NV_CTRL_CURRENT_DITHERING_DEPTH_NONE 0 #define NV_CTRL_CURRENT_DITHERING_DEPTH_6_BITS 1 #define NV_CTRL_CURRENT_DITHERING_DEPTH_8_BITS 2 /* * NV_CTRL_3D_VISION_PRO_TRANSCEIVER_CHANNEL_FREQUENCY - Returns the * frequency of the channel(in kHz) of the 3D Vision Pro transceiver. * Use the display_mask parameter to specify the channel number. */ #define NV_CTRL_3D_VISION_PRO_TRANSCEIVER_CHANNEL_FREQUENCY 370 /* R--T */ /* * NV_CTRL_3D_VISION_PRO_TRANSCEIVER_CHANNEL_QUALITY - Returns the * quality of the channel(in percentage) of the 3D Vision Pro transceiver. * Use the display_mask parameter to specify the channel number. */ #define NV_CTRL_3D_VISION_PRO_TRANSCEIVER_CHANNEL_QUALITY 371 /* R--T */ /* * NV_CTRL_3D_VISION_PRO_TRANSCEIVER_CHANNEL_COUNT - Returns the number of * channels on the 3D Vision Pro transceiver. */ #define NV_CTRL_3D_VISION_PRO_TRANSCEIVER_CHANNEL_COUNT 372 /* R--T */ /* * NV_CTRL_3D_VISION_PRO_PAIR_GLASSES - Puts the 3D Vision Pro * transceiver into pairing mode to gather additional glasses. * NV_CTRL_3D_VISION_PRO_PAIR_GLASSES_STOP - stops any pairing * NV_CTRL_3D_VISION_PRO_PAIR_GLASSES_BEACON - starts continuous * pairing via beacon mode * Any other value, N - Puts the 3D Vision Pro transceiver into * authenticated pairing mode for N seconds. */ #define NV_CTRL_3D_VISION_PRO_PAIR_GLASSES 373 /* -W-T */ #define NV_CTRL_3D_VISION_PRO_PAIR_GLASSES_STOP 0 #define NV_CTRL_3D_VISION_PRO_PAIR_GLASSES_BEACON 0xFFFFFFFF /* * NV_CTRL_3D_VISION_PRO_UNPAIR_GLASSES - Tells a specific pair * of glasses to unpair. The glasses will "forget" the address * of the 3D Vision Pro transceiver to which they have been paired. * To unpair all the currently paired glasses, specify * the glasses id as 0. */ #define NV_CTRL_3D_VISION_PRO_UNPAIR_GLASSES 374 /* -W-T */ /* * NV_CTRL_3D_VISION_PRO_DISCOVER_GLASSES - Tells the 3D Vision Pro * transceiver about the glasses that have been paired using * NV_CTRL_3D_VISION_PRO_PAIR_GLASSES_BEACON. Unless this is done, * the 3D Vision Pro transceiver will not know about glasses paired in * beacon mode. */ #define NV_CTRL_3D_VISION_PRO_DISCOVER_GLASSES 375 /* -W-T */ /* * NV_CTRL_3D_VISION_PRO_IDENTIFY_GLASSES - Causes glasses LEDs to * flash for a short period of time. */ #define NV_CTRL_3D_VISION_PRO_IDENTIFY_GLASSES 376 /* -W-T */ /* * NV_CTRL_3D_VISION_PRO_GLASSES_SYNC_CYCLE - Controls the * sync cycle duration(in milliseconds) of the glasses. * Use the display_mask parameter to specify the glasses id. */ #define NV_CTRL_3D_VISION_PRO_GLASSES_SYNC_CYCLE 378 /* RW-T */ /* * NV_CTRL_3D_VISION_PRO_GLASSES_MISSED_SYNC_CYCLES - Returns the * number of state sync cycles recently missed by the glasses. * Use the display_mask parameter to specify the glasses id. */ #define NV_CTRL_3D_VISION_PRO_GLASSES_MISSED_SYNC_CYCLES 379 /* R--T */ /* * NV_CTRL_3D_VISION_PRO_GLASSES_BATTERY_LEVEL - Returns the * battery level(in percentage) of the glasses. * Use the display_mask parameter to specify the glasses id. */ #define NV_CTRL_3D_VISION_PRO_GLASSES_BATTERY_LEVEL 380 /* R--T */ /* * NV_CTRL_GVO_ANC_PARITY_COMPUTATION - Controls the SDI device's computation * of the parity bit (bit 8) for ANC data words. */ #define NV_CTRL_GVO_ANC_PARITY_COMPUTATION 381 /* RW--- */ #define NV_CTRL_GVO_ANC_PARITY_COMPUTATION_AUTO 0 #define NV_CTRL_GVO_ANC_PARITY_COMPUTATION_ON 1 #define NV_CTRL_GVO_ANC_PARITY_COMPUTATION_OFF 2 /* * NV_CTRL_3D_VISION_PRO_GLASSES_PAIR_EVENT - This attribute is sent * as an event when glasses get paired in response to pair command * from any of the clients. */ #define NV_CTRL_3D_VISION_PRO_GLASSES_PAIR_EVENT 382 /* ---T */ /* * NV_CTRL_3D_VISION_PRO_GLASSES_UNPAIR_EVENT - This attribute is sent * as an event when glasses get unpaired in response to unpair command * from any of the clients. */ #define NV_CTRL_3D_VISION_PRO_GLASSES_UNPAIR_EVENT 383 /* ---T */ /* * NV_CTRL_GPU_PCIE_CURRENT_LINK_WIDTH - returns the current * PCIe link width, in number of lanes. */ #define NV_CTRL_GPU_PCIE_CURRENT_LINK_WIDTH 384 /* R--GI */ /* * NV_CTRL_GPU_PCIE_CURRENT_LINK_SPEED - returns the current * PCIe link speed, in megatransfers per second (GT/s). */ #define NV_CTRL_GPU_PCIE_CURRENT_LINK_SPEED 385 /* R--GI */ /* * NV_CTRL_GVO_AUDIO_BLANKING - specifies whether the GVO device should delete * audio ancillary data packets when frames are repeated. * * When a new frame is not ready in time, the current frame, including all * ancillary data packets, is repeated. When this data includes audio packets, * this can result in stutters or clicks. When this option is enabled, the GVO * device will detect when frames are repeated, identify audio ancillary data * packets, and mark them for deletion. * * This option is applied when the GVO device is bound. */ #define NV_CTRL_GVO_AUDIO_BLANKING 386 /* RW- */ #define NV_CTRL_GVO_AUDIO_BLANKING_DISABLE 0 #define NV_CTRL_GVO_AUDIO_BLANKING_ENABLE 1 /* * NV_CTRL_CURRENT_METAMODE_ID - switch modes to the MetaMode with * the specified ID. */ #define NV_CTRL_CURRENT_METAMODE_ID 387 /* RW- */ /* * NV_CTRL_DISPLAY_ENABLED - Returns whether or not the display device * is currently enabled. */ #define NV_CTRL_DISPLAY_ENABLED 388 /* R-D */ #define NV_CTRL_DISPLAY_ENABLED_TRUE 1 #define NV_CTRL_DISPLAY_ENABLED_FALSE 0 /* * NV_CTRL_FRAMELOCK_INCOMING_HOUSE_SYNC_RATE: this is the rate * of an incomming house sync signal to the frame lock board, in milliHz. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_FRAMELOCK or NV_CTRL_TARGET_TYPE_X_SCREEN * target. */ #define NV_CTRL_FRAMELOCK_INCOMING_HOUSE_SYNC_RATE 389 /* R--F */ /* * NV_CTRL_FXAA - enables FXAA. A pixel shader based anti- * aliasing method. */ #define NV_CTRL_FXAA 390 /* RW-X */ #define NV_CTRL_FXAA_DISABLE 0 #define NV_CTRL_FXAA_ENABLE 1 /* * NV_CTRL_DISPLAY_RANDR_OUTPUT_ID - the RandR Output ID (type RROutput) * that corresponds to the specified Display Device target. If a new * enough version of RandR is not available in the X server, * DISPLAY_RANDR_OUTPUT_ID will be 0. */ #define NV_CTRL_DISPLAY_RANDR_OUTPUT_ID 391 /* R-D- */ /* * NV_CTRL_FRAMELOCK_DISPLAY_CONFIG - Configures whether the display device * should listen, ignore or drive the framelock sync signal. * * Note that whether or not a display device may be set as a client/server * depends on the current configuration. For example, only one server may be * set per Quadro Sync device, and displays can only be configured as a client * if their refresh rate sufficiently matches the refresh rate of the server * device. * * Note that when querying the ValidValues for this data type, the values are * reported as bits within a bitmask (ATTRIBUTE_TYPE_INT_BITS); */ #define NV_CTRL_FRAMELOCK_DISPLAY_CONFIG 392 /* RWD */ #define NV_CTRL_FRAMELOCK_DISPLAY_CONFIG_DISABLED 0 #define NV_CTRL_FRAMELOCK_DISPLAY_CONFIG_CLIENT 1 #define NV_CTRL_FRAMELOCK_DISPLAY_CONFIG_SERVER 2 /* * NV_CTRL_TOTAL_DEDICATED_GPU_MEMORY - Returns the total amount of dedicated * GPU video memory, in MB, on the specified GPU. This excludes any TurboCache * padding included in the value returned by NV_CTRL_TOTAL_GPU_MEMORY. */ #define NV_CTRL_TOTAL_DEDICATED_GPU_MEMORY 393 /* R--G */ /* * NV_CTRL_USED_DEDICATED_GPU_MEMORY- Returns the amount of video memory * currently used on the graphics card in MB. */ #define NV_CTRL_USED_DEDICATED_GPU_MEMORY 394 /* R--G */ /* * NV_CTRL_GPU_DOUBLE_PRECISION_BOOST_IMMEDIATE * Some GPUs can make a tradeoff between double-precision floating-point * performance and clock speed. Enabling double-precision floating point * performance may benefit CUDA or OpenGL applications that require high * bandwidth double-precision performance. Disabling this feature may benefit * graphics applications that require higher clock speeds. * * This attribute is only available when toggling double precision boost * can be done immediately (without need for a rebooot). */ #define NV_CTRL_GPU_DOUBLE_PRECISION_BOOST_IMMEDIATE 395 /* RW-G */ #define NV_CTRL_GPU_DOUBLE_PRECISION_BOOST_IMMEDIATE_DISABLED 0 #define NV_CTRL_GPU_DOUBLE_PRECISION_BOOST_IMMEDIATE_ENABLED 1 /* * NV_CTRL_GPU_DOUBLE_PRECISION_BOOST_REBOOT * Some GPUs can make a tradeoff between double-precision floating-point * performance and clock speed. Enabling double-precision floating point * performance may benefit CUDA or OpenGL applications that require high * bandwidth double-precision performance. Disabling this feature may benefit * graphics applications that require higher clock speeds. * * This attribute is only available when toggling double precision boost * requires a reboot. */ #define NV_CTRL_GPU_DOUBLE_PRECISION_BOOST_REBOOT 396 /* RW-G */ #define NV_CTRL_GPU_DOUBLE_PRECISION_BOOST_REBOOT_DISABLED 0 #define NV_CTRL_GPU_DOUBLE_PRECISION_BOOST_REBOOT_ENALED 1 /* * NV_CTRL_DPY_HDMI_3D - Returns whether the specified display device is * currently using HDMI 3D Frame Packed Stereo mode. Clients may use this * to help interpret the refresh rate returned by NV_CTRL_REFRESH_RATE or * NV_CTRL_REFRESH_RATE_3, which will be doubled when using HDMI 3D mode. * * This attribute may be queried through XNVCTRLQueryTargetAttribute() * using a NV_CTRL_TARGET_TYPE_GPU target. */ #define NV_CTRL_DPY_HDMI_3D 397 /* R-DG */ #define NV_CTRL_DPY_HDMI_3D_DISABLED 0 #define NV_CTRL_DPY_HDMI_3D_ENABLED 1 /* * NV_CTRL_BASE_MOSAIC - Returns whether Base Mosaic is currently enabled on the * given GPU. Querying the valid values of this attribute returns capabilities. */ #define NV_CTRL_BASE_MOSAIC 398 /* R--G */ #define NV_CTRL_BASE_MOSAIC_DISABLED 0 #define NV_CTRL_BASE_MOSAIC_FULL 1 #define NV_CTRL_BASE_MOSAIC_LIMITED 2 /* * NV_CTRL_MULTIGPU_MASTER_POSSIBLE - Returns whether the GPU can be configured * as the master GPU in a Multi GPU configuration (SLI, SLI Mosaic, * Base Mosaic). */ #define NV_CTRL_MULTIGPU_MASTER_POSSIBLE 399 /* R--G */ #define NV_CTRL_MULTIGPU_MASTER_POSSIBLE_FALSE 0 #define NV_CTRL_MULTIGPU_MASTER_POSSIBLE_TRUE 1 /* * NV_CTRL_GPU_POWER_MIZER_DEFAULT_MODE - Returns the default PowerMizer mode * for the given GPU. */ #define NV_CTRL_GPU_POWER_MIZER_DEFAULT_MODE 400 /* R--G */ /* * NV_CTRL_XV_SYNC_TO_DISPLAY_ID - When XVideo Sync To VBlank is enabled, this * controls which display device will be synched to. */ #define NV_CTRL_XV_SYNC_TO_DISPLAY_ID 401 /* RW- */ /* * NV_CTRL_BACKLIGHT_BRIGHTNESS - The backlight brightness of an internal panel. */ #define NV_CTRL_BACKLIGHT_BRIGHTNESS 402 /* RWD- */ /* * NV_CTRL_GPU_LOGO_BRIGHTNESS - Controls brightness * of the logo on the GPU, if any. The value is variable from 0% - 100%. */ #define NV_CTRL_GPU_LOGO_BRIGHTNESS 403 /* RW-G */ /* * NV_CTRL_GPU_SLI_LOGO_BRIGHTNESS - Controls brightness of the logo * on the SLI bridge, if any. The value is variable from 0% - 100%. */ #define NV_CTRL_GPU_SLI_LOGO_BRIGHTNESS 404 /* RW-G */ /* * NV_CTRL_THERMAL_COOLER_SPEED - Returns cooler's current operating speed in * rotations per minute (RPM). */ #define NV_CTRL_THERMAL_COOLER_SPEED 405 /* R--C */ /* * NV_CTRL_PALETTE_UPDATE_EVENT - The Color Palette has been changed and the * color correction info needs to be updated. */ #define NV_CTRL_PALETTE_UPDATE_EVENT 406 /* --- */ /* * NV_CTRL_VIDEO_ENCODER_UTILIZATION - Returns the video encoder engine * utilization as a percentage. */ #define NV_CTRL_VIDEO_ENCODER_UTILIZATION 407 /* R--G */ /* * NV_CTRL_GSYNC_ALLOWED - when TRUE, OpenGL will enable G-SYNC when possible; * when FALSE, OpenGL will always use a fixed monitor refresh rate. */ #define NV_CTRL_GSYNC_ALLOWED 408 /* RW-X */ #define NV_CTRL_GSYNC_ALLOWED_FALSE 0 #define NV_CTRL_GSYNC_ALLOWED_TRUE 1 /* * NV_CTRL_GPU_NVCLOCK_OFFSET - This attribute controls the GPU clock offsets * (in MHz) used for overclocking per performance level. * Use the display_mask parameter to specify the performance level. * * Note: To enable overclocking support, set the X configuration * option "Coolbits" to value "8". * * This offset can have any integer value between * NVCTRLAttributeValidValues.u.range.min and * NVCTRLAttributeValidValues.u.range.max (inclusive). * * This attribute is available on GeForce GTX 400 series and later * Geforce GPUs. */ #define NV_CTRL_GPU_NVCLOCK_OFFSET 409 /* RW-G */ /* * NV_CTRL_GPU_MEM_TRANSFER_RATE_OFFSET - This attribute controls * the memory transfer rate offsets (in MHz) used for overclocking * per performance level. * Use the display_mask parameter to specify the performance level. * * Note: To enable overclocking support, set the X configuration * option "Coolbits" to value "8". * * This offset can have any integer value between * NVCTRLAttributeValidValues.u.range.min and * NVCTRLAttributeValidValues.u.range.max (inclusive). * * This attribute is available on GeForce GTX 400 series and later * Geforce GPUs. */ #define NV_CTRL_GPU_MEM_TRANSFER_RATE_OFFSET 410 /* RW-G */ /* * NV_CTRL_VIDEO_DECODER_UTILIZATION - Returns the video decoder engine * utilization as a percentage. */ #define NV_CTRL_VIDEO_DECODER_UTILIZATION 411 /* R--G */ /* * NV_CTRL_GPU_OVER_VOLTAGE_OFFSET - This attribute controls * the overvoltage offset in microvolts (uV). * * Note: To enable overvoltage support, set the X configuration * option "Coolbits" to value "16". * * This offset can have any integer value between * NVCTRLAttributeValidValues.u.range.min and * NVCTRLAttributeValidValues.u.range.max (inclusive). * * This attribute is available on GeForce GTX 400 series and later * Geforce GPUs. */ #define NV_CTRL_GPU_OVER_VOLTAGE_OFFSET 412 /* RW-G */ /* * NV_CTRL_GPU_CURRENT_CORE_VOLTAGE - This attribute returns the * GPU's current operating voltage in microvolts (uV). * * This attribute is available on GPUs that support * NV_CTRL_GPU_OVER_VOLTAGE_OFFSET. */ #define NV_CTRL_GPU_CURRENT_CORE_VOLTAGE 413 /* R--G */ #define NV_CTRL_LAST_ATTRIBUTE NV_CTRL_GPU_CURRENT_CORE_VOLTAGE /**************************************************************************/ /* * String Attributes: * * String attributes can be queryied through the XNVCTRLQueryStringAttribute() * and XNVCTRLQueryTargetStringAttribute() function calls. * * String attributes can be set through the XNVCTRLSetStringAttribute() * function call. (There are currently no string attributes that can be * set on non-X Screen targets.) * * Unless otherwise noted, all string attributes can be queried/set using an * NV_CTRL_TARGET_TYPE_X_SCREEN target. Attributes that cannot take an * NV_CTRL_TARGET_TYPE_X_SCREEN target also cannot be queried/set through * XNVCTRLQueryStringAttribute()/XNVCTRLSetStringAttribute() (Since * these assume an X Screen target). */ /* * NV_CTRL_STRING_PRODUCT_NAME - the GPU product name on which the * specified X screen is running. * * This attribute may be queried through XNVCTRLQueryTargetStringAttribute() * using a NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN target. */ #define NV_CTRL_STRING_PRODUCT_NAME 0 /* R--G */ /* * NV_CTRL_STRING_VBIOS_VERSION - the video bios version on the GPU on * which the specified X screen is running. */ #define NV_CTRL_STRING_VBIOS_VERSION 1 /* R--G */ /* * NV_CTRL_STRING_NVIDIA_DRIVER_VERSION - string representation of the * NVIDIA driver version number for the NVIDIA X driver in use. */ #define NV_CTRL_STRING_NVIDIA_DRIVER_VERSION 3 /* R--G */ /* * NV_CTRL_STRING_DISPLAY_DEVICE_NAME - name of the display device * specified in the display_mask argument. * * This attribute may be queried through XNVCTRLQueryTargetStringAttribute() * using a NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN target. */ #define NV_CTRL_STRING_DISPLAY_DEVICE_NAME 4 /* R-DG */ /* * NV_CTRL_STRING_TV_ENCODER_NAME - not supported */ #define NV_CTRL_STRING_TV_ENCODER_NAME 5 /* R-DG */ /* * NV_CTRL_STRING_GVIO_FIRMWARE_VERSION - indicates the version of the * Firmware on the GVIO device. */ #define NV_CTRL_STRING_GVIO_FIRMWARE_VERSION 8 /* R--I */ /* * NV_CTRL_STRING_GVO_FIRMWARE_VERSION - renamed * * NV_CTRL_STRING_GVIO_FIRMWARE_VERSION should be used instead. */ #define NV_CTRL_STRING_GVO_FIRMWARE_VERSION 8 /* renamed */ /* * NV_CTRL_STRING_CURRENT_MODELINE - Return the ModeLine currently * being used by the specified display device. * * This attribute may be queried through XNVCTRLQueryTargetStringAttribute() * using an NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN target. * * The ModeLine string may be prepended with a comma-separated list of * "token=value" pairs, separated from the ModeLine string by "::". * This "token=value" syntax is the same as that used in * NV_CTRL_BINARY_DATA_MODELINES */ #define NV_CTRL_STRING_CURRENT_MODELINE 9 /* R-DG */ /* * NV_CTRL_STRING_ADD_MODELINE - Adds a ModeLine to the specified * display device. The ModeLine is not added if validation fails. * * The ModeLine string should have the same syntax as a ModeLine in * the X configuration file; e.g., * * "1600x1200" 229.5 1600 1664 1856 2160 1200 1201 1204 1250 +HSync +VSync */ #define NV_CTRL_STRING_ADD_MODELINE 10 /* -WDG */ /* * NV_CTRL_STRING_DELETE_MODELINE - Deletes an existing ModeLine * from the specified display device. The currently selected * ModeLine cannot be deleted. (This also means you cannot delete * the last ModeLine.) * * The ModeLine string should have the same syntax as a ModeLine in * the X configuration file; e.g., * * "1600x1200" 229.5 1600 1664 1856 2160 1200 1201 1204 1250 +HSync +VSync */ #define NV_CTRL_STRING_DELETE_MODELINE 11 /* -WDG */ /* * NV_CTRL_STRING_CURRENT_METAMODE - Returns the metamode currently * being used by the specified X screen. The MetaMode string has the * same syntax as the MetaMode X configuration option, as documented * in the NVIDIA driver README. * * The returned string may be prepended with a comma-separated list of * "token=value" pairs, separated from the MetaMode string by "::". * This "token=value" syntax is the same as that used in * NV_CTRL_BINARY_DATA_METAMODES. */ #define NV_CTRL_STRING_CURRENT_METAMODE 12 /* RW-- */ #define NV_CTRL_STRING_CURRENT_METAMODE_VERSION_1 \ NV_CTRL_STRING_CURRENT_METAMODE /* * NV_CTRL_STRING_ADD_METAMODE - Adds a MetaMode to the specified * X Screen. * * It is recommended to not use this attribute, but instead use * NV_CTRL_STRING_OPERATION_ADD_METAMODE. */ #define NV_CTRL_STRING_ADD_METAMODE 13 /* -W-- */ /* * NV_CTRL_STRING_DELETE_METAMODE - Deletes an existing MetaMode from * the specified X Screen. The currently selected MetaMode cannot be * deleted. (This also means you cannot delete the last MetaMode). * The MetaMode string should have the same syntax as the MetaMode X * configuration option, as documented in the NVIDIA driver README. */ #define NV_CTRL_STRING_DELETE_METAMODE 14 /* -WD-- */ /* * NV_CTRL_STRING_VCSC_PRODUCT_NAME - Querys the product name of the * VCSC device. * * This attribute must be queried through XNVCTRLQueryTargetStringAttribute() * using a NV_CTRL_TARGET_TYPE_VCSC target. */ #define NV_CTRL_STRING_VCSC_PRODUCT_NAME 15 /* R---V */ /* * NV_CTRL_STRING_VCSC_PRODUCT_ID - Querys the product ID of the VCSC device. * * This attribute must be queried through XNVCTRLQueryTargetStringAttribute() * using a NV_CTRL_TARGET_TYPE_VCSC target. */ #define NV_CTRL_STRING_VCSC_PRODUCT_ID 16 /* R---V */ /* * NV_CTRL_STRING_VCSC_SERIAL_NUMBER - Querys the unique serial number * of the VCS device. * * This attribute must be queried through XNVCTRLQueryTargetStringAttribute() * using a NV_CTRL_TARGET_TYPE_VCSC target. */ #define NV_CTRL_STRING_VCSC_SERIAL_NUMBER 17 /* R---V */ /* * NV_CTRL_STRING_VCSC_BUILD_DATE - Querys the date of the VCS device. * the returned string is in the following format: "Week.Year" * * This attribute must be queried through XNVCTRLQueryTargetStringAttribute() * using a NV_CTRL_TARGET_TYPE_VCSC target. */ #define NV_CTRL_STRING_VCSC_BUILD_DATE 18 /* R---V */ /* * NV_CTRL_STRING_VCSC_FIRMWARE_VERSION - Querys the firmware version * of the VCS device. * * This attribute must be queried through XNVCTRLQueryTargetStringAttribute() * using a NV_CTRL_TARGET_TYPE_VCSC target. */ #define NV_CTRL_STRING_VCSC_FIRMWARE_VERSION 19 /* R---V */ /* * NV_CTRL_STRING_VCSC_FIRMWARE_REVISION - Querys the firmware revision * of the VCS device. * * This attribute must be queried through XNVCTRLQueryTargetStringAttribute() * using a NV_CTRL_TARGET_TYPE_VCS target. */ #define NV_CTRL_STRING_VCSC_FIRMWARE_REVISION 20 /* R---V */ /* * NV_CTRL_STRING_VCSC_HARDWARE_VERSION - Querys the hardware version * of the VCS device. * * This attribute must be queried through XNVCTRLQueryTargetStringAttribute() * using a NV_CTRL_TARGET_TYPE_VCSC target. */ #define NV_CTRL_STRING_VCSC_HARDWARE_VERSION 21 /* R---V */ /* * NV_CTRL_STRING_VCSC_HARDWARE_REVISION - Querys the hardware revision * of the VCS device. * * This attribute must be queried through XNVCTRLQueryTargetStringAttribute() * using a NV_CTRL_TARGET_TYPE_VCSC target. */ #define NV_CTRL_STRING_VCSC_HARDWARE_REVISION 22 /* R---V */ /* * NV_CTRL_STRING_MOVE_METAMODE - Moves a MetaMode to the specified * index location. The MetaMode must already exist in the X Screen's * list of MetaModes (as returned by the NV_CTRL_BINARY_DATA_METAMODES * attribute). If the index is larger than the number of MetaModes in * the list, the MetaMode is moved to the end of the list. The * MetaMode string should have the same syntax as the MetaMode X * configuration option, as documented in the NVIDIA driver README. * The MetaMode string must be prepended with a comma-separated list * of "token=value" pairs, separated from the MetaMode string by "::". * Currently, the only valid token is "index", which indicates where * in the MetaMode list the MetaMode should be moved to. * * Other tokens may be added in the future. * * E.g., * "index=5 :: CRT-0: 1024x768 @1024x768 +0+0" */ #define NV_CTRL_STRING_MOVE_METAMODE 23 /* -W-- */ /* * NV_CTRL_STRING_VALID_HORIZ_SYNC_RANGES - returns the valid * horizontal sync ranges used to perform mode validation for the * specified display device. The ranges are in the same format as the * "HorizSync" X config option: * * "horizsync-range may be a comma separated list of either discrete * values or ranges of values. A range of values is two values * separated by a dash." * * The values are in kHz. * * Additionally, the string may be prepended with a comma-separated * list of "token=value" pairs, separated from the HorizSync string by * "::". Valid tokens: * * Token Value * "source" "edid" - HorizSync is from the display device's EDID * "xconfig" - HorizSync is from the "HorizSync" entry in * the Monitor section of the X config file * "option" - HorizSync is from the "HorizSync" NVIDIA X * config option * "builtin" - HorizSync is from NVIDIA X driver builtin * default values * * Additional tokens and/or values may be added in the future. * * Example: "source=edid :: 30.000-62.000" */ #define NV_CTRL_STRING_VALID_HORIZ_SYNC_RANGES 24 /* R-DG */ /* * NV_CTRL_STRING_VALID_VERT_REFRESH_RANGES - returns the valid * vertical refresh ranges used to perform mode validation for the * specified display device. The ranges are in the same format as the * "VertRefresh" X config option: * * "vertrefresh-range may be a comma separated list of either discrete * values or ranges of values. A range of values is two values * separated by a dash." * * The values are in Hz. * * Additionally, the string may be prepended with a comma-separated * list of "token=value" pairs, separated from the VertRefresh string by * "::". Valid tokens: * * Token Value * "source" "edid" - VertRefresh is from the display device's EDID * "xconfig" - VertRefresh is from the "VertRefresh" entry in * the Monitor section of the X config file * "option" - VertRefresh is from the "VertRefresh" NVIDIA X * config option * "builtin" - VertRefresh is from NVIDIA X driver builtin * default values * * Additional tokens and/or values may be added in the future. * * Example: "source=edid :: 50.000-75.000" */ #define NV_CTRL_STRING_VALID_VERT_REFRESH_RANGES 25 /* R-DG */ /* * NV_CTRL_STRING_SCREEN_RECTANGLE - returns the physical X Screen's * initial position and size (in absolute coordinates) within the * desktop as the "token=value" string: "x=#, y=#, width=#, height=#" * * Querying this attribute returns success only when Xinerama is enabled * or the X server ABI is greater than equal to 12. */ #define NV_CTRL_STRING_SCREEN_RECTANGLE 26 /* R--- */ /* * NV_CTRL_STRING_XINERAMA_SCREEN_INFO - renamed * * NV_CTRL_STRING_SCREEN_RECTANGLE should be used instead. */ #define NV_CTRL_STRING_XINERAMA_SCREEN_INFO 26 /* renamed */ /* * NV_CTRL_STRING_TWINVIEW_XINERAMA_INFO_ORDER - used to specify the * order that display devices will be returned via Xinerama when * nvidiaXineramaInfo is enabled. Follows the same syntax as the * nvidiaXineramaInfoOrder X config option. */ #define NV_CTRL_STRING_NVIDIA_XINERAMA_INFO_ORDER 27 /* RW-- */ #define NV_CTRL_STRING_TWINVIEW_XINERAMA_INFO_ORDER \ NV_CTRL_STRING_NVIDIA_XINERAMA_INFO_ORDER /* for backwards compatibility: */ /* * NV_CTRL_STRING_SLI_MODE - returns a string describing the current * SLI mode, if any, or FALSE if SLI is not currently enabled. * * This string should be used for informational purposes only, and * should not be used to distinguish between SLI modes, other than to * recognize when SLI is disabled (FALSE is returned) or * enabled (the returned string is non-NULL and describes the current * SLI configuration). */ #define NV_CTRL_STRING_SLI_MODE 28 /* R---*/ /* * NV_CTRL_STRING_PERFORMANCE_MODES - returns a string with all the * performance modes defined for this GPU along with their associated * NV Clock and Memory Clock values. * Not all tokens will be reported on all GPUs, and additional tokens * may be added in the future. * For backwards compatibility we still provide nvclock, memclock, and * processorclock those are the same as nvclockmin, memclockmin and * processorclockmin. * * Note: These clock values take into account the offset * set by clients through NV_CTRL_GPU_NVCLOCK_OFFSET and * NV_CTRL_GPU_MEM_TRANSFER_RATE_OFFSET. * * Each performance modes are returned as a comma-separated list of * "token=value" pairs. Each set of performance mode tokens are separated * by a ";". Valid tokens: * * Token Value * "perf" integer - the Performance level * "nvclock" integer - the GPU clocks (in MHz) for the perf level * "nvclockmin" integer - the GPU clocks min (in MHz) for the perf level * "nvclockmax" integer - the GPU clocks max (in MHz) for the perf level * "nvclockeditable" integer - if the GPU clock domain is editable * for the perf level * "memclock" integer - the memory clocks (in MHz) for the perf level * "memclockmin" integer - the memory clocks min (in MHz) for the perf level * "memclockmax" integer - the memory clocks max (in MHz) for the perf level * "memclockeditable" integer - if the memory clock domain is editable * for the perf level * "memtransferrate" integer - the memory transfer rate (in MHz) * for the perf level * "memtransferratemin" integer - the memory transfer rate min (in MHz) * for the perf level * "memtransferratemax" integer - the memory transfer rate max (in MHz) * for the perf level * "memtransferrateeditable" integer - if the memory transfer rate is editable * for the perf level * "processorclock" integer - the processor clocks (in MHz) * for the perf level * "processorclockmin" integer - the processor clocks min (in MHz) * for the perf level * "processorclockmax" integer - the processor clocks max (in MHz) * for the perf level * "processorclockeditable" integer - if the processor clock domain is editable * for the perf level * * Example: * * perf=0, nvclock=324, nvclockmin=324, nvclockmax=324, nvclockeditable=0, * memclock=324, memclockmin=324, memclockmax=324, memclockeditable=0, * memtransferrate=648, memtransferratemin=648, memtransferratemax=648, * memtransferrateeditable=0 ; * perf=1, nvclock=324, nvclockmin=324, nvclockmax=640, nvclockeditable=0, * memclock=810, memclockmin=810, memclockmax=810, memclockeditable=0, * memtransferrate=1620, memtransferrate=1620, memtransferrate=1620, * memtransferrateeditable=0 ; * * This attribute may be queried through XNVCTRLQueryTargetStringAttribute() * using a NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN target. */ #define NV_CTRL_STRING_PERFORMANCE_MODES 29 /* R--G */ /* * NV_CTRL_STRING_VCSC_FAN_STATUS - returns a string with status of all the * fans in the Visual Computing System, if such a query is supported. Fan * information is reported along with its tachometer reading (in RPM) and a * flag indicating whether the fan has failed or not. * * Valid tokens: * * Token Value * "fan" integer - the Fan index * "speed" integer - the tachometer reading of the fan in rpm * "fail" integer - flag to indicate whether the fan has failed * * Example: * * fan=0, speed=694, fail=0 ; fan=1, speed=693, fail=0 * * This attribute must be queried through XNVCTRLQueryTargetStringAttribute() * using a NV_CTRL_TARGET_TYPE_VCSC target. * */ #define NV_CTRL_STRING_VCSC_FAN_STATUS 30 /* R---V */ /* * NV_CTRL_STRING_VCSC_TEMPERATURES - returns a string with all Temperature * readings in the Visual Computing System, if such a query is supported. * Intake, Exhaust and Board Temperature values are reported in Celcius. * * Valid tokens: * * Token Value * "intake" integer - the intake temperature for the VCS * "exhaust" integer - the exhaust temperature for the VCS * "board" integer - the board temperature of the VCS * * Example: * * intake=29, exhaust=46, board=41 * * This attribute must be queried through XNVCTRLQueryTargetStringAttribute() * using a NV_CTRL_TARGET_TYPE_VCSC target. * */ #define NV_CTRL_STRING_VCSC_TEMPERATURES 31 /* R---V */ /* * NV_CTRL_STRING_VCSC_PSU_INFO - returns a string with all Power Supply Unit * related readings in the Visual Computing System, if such a query is * supported. Current in amperes, Power in watts, Voltage in volts and PSU * state may be reported. Not all PSU types support all of these values, and * therefore some readings may be unknown. * * Valid tokens: * * Token Value * "current" integer - the current drawn in amperes by the VCS * "power" integer - the power drawn in watts by the VCS * "voltage" integer - the voltage reading of the VCS * "state" integer - flag to indicate whether PSU is operating normally * * Example: * * current=10, power=15, voltage=unknown, state=normal * * This attribute must be queried through XNVCTRLQueryTargetStringAttribute() * using a NV_CTRL_TARGET_TYPE_VCSC target. * */ #define NV_CTRL_STRING_VCSC_PSU_INFO 32 /* R---V */ /* * NV_CTRL_STRING_GVIO_VIDEO_FORMAT_NAME - query the name for the specified * NV_CTRL_GVIO_VIDEO_FORMAT_*. So that this can be queried with existing * interfaces, XNVCTRLQueryStringAttribute() should be used, and the video * format specified in the display_mask field; eg: * * XNVCTRLQueryStringAttribute(dpy, * screen, * NV_CTRL_GVIO_VIDEO_FORMAT_720P_60_00_SMPTE296, * NV_CTRL_GVIO_VIDEO_FORMAT_NAME, * &name); */ #define NV_CTRL_STRING_GVIO_VIDEO_FORMAT_NAME 33 /* R--GI */ /* * NV_CTRL_STRING_GVO_VIDEO_FORMAT_NAME - renamed * * NV_CTRL_STRING_GVIO_VIDEO_FORMAT_NAME should be used instead. */ #define NV_CTRL_STRING_GVO_VIDEO_FORMAT_NAME 33 /* renamed */ /* * NV_CTRL_STRING_GPU_CURRENT_CLOCK_FREQS - returns a string with the * associated NV Clock, Memory Clock and Processor Clock values. * * Current valid tokens are "nvclock", "nvclockmin", "nvclockmax", * "memclock", "memclockmin", "memclockmax", "processorclock", * "processorclockmin" and "processorclockmax". * Not all tokens will be reported on all GPUs, and additional tokens * may be added in the future. * * Note: These clock values take into account the offset * set by clients through NV_CTRL_GPU_NVCLOCK_OFFSET and * NV_CTRL_GPU_MEM_TRANSFER_RATE_OFFSET. * * Clock values are returned as a comma-separated list of * "token=value" pairs. * Valid tokens: * * Token Value * "nvclock" integer - the GPU clocks (in MHz) for the perf level * "nvclockmin" integer - the GPU clocks min (in MHz) for the perf level * "nvclockmax" integer - the GPU clocks max (in MHz) for the perf level * "nvclockeditable" integer - if the GPU clock domain is editable * for the perf level * "memclock" integer - the memory clocks (in MHz) for the perf level * "memclockmin" integer - the memory clocks min (in MHz) for the perf level * "memclockmax" integer - the memory clocks (max in MHz) for the perf level * "memclockeditable" integer - if the memory clock domain is editable * for the perf level * "memtransferrate" integer - the memory transfer rate (in MHz) * for the perf level * "memtransferratemin" integer - the memory transfer rate min (in MHz) * for the perf level * "memtransferratemax" integer - the memory transfer rate max (in MHz) * for the perf level * "memtransferrateeditable" integer - if the memory transfer rate is editable * for the perf level * "processorclock" integer - the processor clocks (in MHz) * for the perf level * "processorclockmin" integer - the processor clocks min (in MHz) * for the perf level * "processorclockmax" integer - the processor clocks max (in MHz) * for the perf level * "processorclockeditable" integer - if the processor clock domain is editable * for the perf level * * Example: * * nvclock=324, nvclockmin=324, nvclockmax=324, nvclockeditable=0 * memclock=324, memclockmin=324, memclockmax=324, memclockeditable=0 * memtrasferrate=628 * * This attribute may be queried through XNVCTRLQueryTargetStringAttribute() * using an NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN target. */ #define NV_CTRL_STRING_GPU_CURRENT_CLOCK_FREQS 34 /* RW-G */ /* * NV_CTRL_STRING_3D_VISION_PRO_TRANSCEIVER_HARDWARE_REVISION - Returns the * hardware revision of the 3D Vision Pro transceiver. */ #define NV_CTRL_STRING_3D_VISION_PRO_TRANSCEIVER_HARDWARE_REVISION 35 /* R--T */ /* * NV_CTRL_STRING_3D_VISION_PRO_TRANSCEIVER_FIRMWARE_VERSION_A - Returns the * firmware version of chip A of the 3D Vision Pro transceiver. */ #define NV_CTRL_STRING_3D_VISION_PRO_TRANSCEIVER_FIRMWARE_VERSION_A 36 /* R--T */ /* * NV_CTRL_STRING_3D_VISION_PRO_TRANSCEIVER_FIRMWARE_DATE_A - Returns the * date of the firmware of chip A of the 3D Vision Pro transceiver. */ #define NV_CTRL_STRING_3D_VISION_PRO_TRANSCEIVER_FIRMWARE_DATE_A 37 /* R--T */ /* * NV_CTRL_STRING_3D_VISION_PRO_TRANSCEIVER_FIRMWARE_VERSION_B - Returns the * firmware version of chip B of the 3D Vision Pro transceiver. */ #define NV_CTRL_STRING_3D_VISION_PRO_TRANSCEIVER_FIRMWARE_VERSION_B 38 /* R--T */ /* * NV_CTRL_STRING_3D_VISION_PRO_TRANSCEIVER_FIRMWARE_DATE_B - Returns the * date of the firmware of chip B of the 3D Vision Pro transceiver. */ #define NV_CTRL_STRING_3D_VISION_PRO_TRANSCEIVER_FIRMWARE_DATE_B 39 /* R--T */ /* * NV_CTRL_STRING_3D_VISION_PRO_TRANSCEIVER_ADDRESS - Returns the RF address * of the 3D Vision Pro transceiver. */ #define NV_CTRL_STRING_3D_VISION_PRO_TRANSCEIVER_ADDRESS 40 /* R--T */ /* * NV_CTRL_STRING_3D_VISION_PRO_GLASSES_FIRMWARE_VERSION_A - Returns the * firmware version of chip A of the glasses. * Use the display_mask parameter to specify the glasses id. */ #define NV_CTRL_STRING_3D_VISION_PRO_GLASSES_FIRMWARE_VERSION_A 41 /* R--T */ /* * NV_CTRL_STRING_3D_VISION_PRO_GLASSES_FIRMWARE_DATE_A - Returns the * date of the firmware of chip A of the glasses. * Use the display_mask parameter to specify the glasses id. */ #define NV_CTRL_STRING_3D_VISION_PRO_GLASSES_FIRMWARE_DATE_A 42 /* R--T */ /* * NV_CTRL_STRING_3D_VISION_PRO_GLASSES_ADDRESS - Returns the RF address * of the glasses. * Use the display_mask parameter to specify the glasses id. */ #define NV_CTRL_STRING_3D_VISION_PRO_GLASSES_ADDRESS 43 /* R--T */ /* * NV_CTRL_STRING_3D_VISION_PRO_GLASSES_NAME - Controls the name the * glasses should use. * Use the display_mask parameter to specify the glasses id. * Glasses' name should start and end with an alpha-numeric character. */ #define NV_CTRL_STRING_3D_VISION_PRO_GLASSES_NAME 44 /* RW-T */ /* * NV_CTRL_STRING_CURRENT_METAMODE_VERSION_2 - Returns the metamode currently * being used by the specified X screen. The MetaMode string has the same * syntax as the MetaMode X configuration option, as documented in the NVIDIA * driver README. Also, see NV_CTRL_BINARY_DATA_METAMODES_VERSION_2 for more * details on the base syntax. * * The returned string may also be prepended with a comma-separated list of * "token=value" pairs, separated from the MetaMode string by "::". */ #define NV_CTRL_STRING_CURRENT_METAMODE_VERSION_2 45 /* RW-- */ /* * NV_CTRL_STRING_DISPLAY_NAME_TYPE_BASENAME - Returns a type name for the * display device ("CRT", "DFP", or "TV"). However, note that the determination * of the name is based on the protocol through which the X driver communicates * to the display device. E.g., if the driver communicates using VGA ,then the * basename is "CRT"; if the driver communicates using TMDS, LVDS, or DP, then * the name is "DFP". */ #define NV_CTRL_STRING_DISPLAY_NAME_TYPE_BASENAME 46 /* R-D- */ /* * NV_CTRL_STRING_DISPLAY_NAME_TYPE_ID - Returns the type-based name + ID for * the display device, e.g. "CRT-0", "DFP-1", "TV-2". If this device is a * DisplayPort 1.2 device, then this name will also be prepended with the * device's port address like so: "DFP-1.0.1.2.3". See * NV_CTRL_STRING_DISPLAY_NAME_TYPE_BASENAME for more information about the * construction of type-based names. */ #define NV_CTRL_STRING_DISPLAY_NAME_TYPE_ID 47 /* R-D- */ /* * NV_CTRL_STRING_DISPLAY_NAME_DP_GUID - Returns the GUID of the DisplayPort * display device. e.g. "DP-GUID-f16a5bde-79f3-11e1-b2ae-8b5a8969ba9c" * * The display device must be a DisplayPort 1.2 device. */ #define NV_CTRL_STRING_DISPLAY_NAME_DP_GUID 48 /* R-D- */ /* * NV_CTRL_STRING_DISPLAY_NAME_EDID_HASH - Returns the SHA-1 hash of the * display device's EDID in 8-4-4-4-12 UID format. e.g. * "DPY-EDID-f16a5bde-79f3-11e1-b2ae-8b5a8969ba9c" * * The display device must have a valid EDID. */ #define NV_CTRL_STRING_DISPLAY_NAME_EDID_HASH 49 /* R-D- */ /* * NV_CTRL_STRING_DISPLAY_NAME_TARGET_INDEX - Returns the current NV-CONTROL * target ID (name) of the display device. e.g. "DPY-1", "DPY-4" * * This name for the display device is not guarenteed to be the same between * different runs of the X server. */ #define NV_CTRL_STRING_DISPLAY_NAME_TARGET_INDEX 50 /* R-D- */ /* * NV_CTRL_STRING_DISPLAY_NAME_RANDR - Returns the RandR output name for the * display device. e.g. "VGA-1", "DVI-I-0", "DVI-D-3", "LVDS-1", "DP-2", * "HDMI-3", "eDP-6". This name should match If this device is a DisplayPort * 1.2 device, then this name will also be prepended with the device's port * address like so: "DVI-I-3.0.1.2.3" */ #define NV_CTRL_STRING_DISPLAY_NAME_RANDR 51 /* R-D- */ /* * NV_CTRL_STRING_GPU_UUID - Returns the UUID of the given GPU. */ #define NV_CTRL_STRING_GPU_UUID 52 /* R--G */ /* * NV_CTRL_STRING_GPU_UTILIZATION - Returns the current percentage usage * of the various components of the GPU. * * Current valid tokens are "graphics", "memory", "video" and "PCIe". * Not all tokens will be reported on all GPUs, and additional tokens * may be added in the future. * * Utilization values are returned as a comma-separated list of * "token=value" pairs. * Valid tokens: * * Token Value * "graphics" integer - the percentage usage of graphics engine. * "memory" integer - the percentage usage of FB. * "video" integer - the percentage usage of video engine. * "PCIe" integer - the percentage usage of PCIe bandwidth. * * * Example: * * graphics=45, memory=6, video=0, PCIe=0 * * This attribute may be queried through XNVCTRLQueryTargetStringAttribute() * using an NV_CTRL_TARGET_TYPE_GPU. */ #define NV_CTRL_STRING_GPU_UTILIZATION 53 /* R--G */ /* * NV_CTRL_STRING_MULTIGPU_MODE - returns a string describing the current * MULTIGPU mode, if any, or FALSE if MULTIGPU is not currently enabled. */ #define NV_CTRL_STRING_MULTIGPU_MODE 54 /* R--- */ #define NV_CTRL_STRING_LAST_ATTRIBUTE \ NV_CTRL_STRING_MULTIGPU_MODE /**************************************************************************/ /* * Binary Data Attributes: * * Binary data attributes can be queryied through the XNVCTRLQueryBinaryData() * and XNVCTRLQueryTargetBinaryData() function calls. * * There are currently no binary data attributes that can be set. * * Unless otherwise noted, all Binary data attributes can be queried * using an NV_CTRL_TARGET_TYPE_X_SCREEN target. Attributes that cannot take * an NV_CTRL_TARGET_TYPE_X_SCREEN target also cannot be queried through * XNVCTRLQueryBinaryData() (Since an X Screen target is assumed). */ /* * NV_CTRL_BINARY_DATA_EDID - Returns a display device's EDID information * data. * * This attribute may be queried through XNVCTRLQueryTargetBinaryData() * using a NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN target. */ #define NV_CTRL_BINARY_DATA_EDID 0 /* R-DG */ /* * NV_CTRL_BINARY_DATA_MODELINES - Returns a display device's supported * ModeLines. ModeLines are returned in a buffer, separated by a single * '\0' and terminated by two consecutive '\0' s like so: * * "ModeLine 1\0ModeLine 2\0ModeLine 3\0Last ModeLine\0\0" * * This attribute may be queried through XNVCTRLQueryTargetBinaryData() * using a NV_CTRL_TARGET_TYPE_GPU or NV_CTRL_TARGET_TYPE_X_SCREEN target. * * Each ModeLine string may be prepended with a comma-separated list * of "token=value" pairs, separated from the ModeLine string with a * "::". Valid tokens: * * Token Value * "source" "xserver" - the ModeLine is from the core X server * "xconfig" - the ModeLine was specified in the X config file * "builtin" - the NVIDIA driver provided this builtin ModeLine * "vesa" - this is a VESA standard ModeLine * "edid" - the ModeLine was in the display device's EDID * "nv-control" - the ModeLine was specified via NV-CONTROL * * "xconfig-name" - for ModeLines that were specified in the X config * file, this is the name the X config file * gave for the ModeLine. * * Note that a ModeLine can have several sources; the "source" token * can appear multiple times in the "token=value" pairs list. * Additional source values may be specified in the future. * * Additional tokens may be added in the future, so it is recommended * that any token parser processing the returned string from * NV_CTRL_BINARY_DATA_MODELINES be implemented to gracefully ignore * unrecognized tokens. * * E.g., * * "source=xserver, source=vesa, source=edid :: "1024x768_70" 75.0 1024 1048 1184 1328 768 771 777 806 -HSync -VSync" * "source=xconfig, xconfig-name=1600x1200_60.00 :: "1600x1200_60_0" 161.0 1600 1704 1880 2160 1200 1201 1204 1242 -HSync +VSync" */ #define NV_CTRL_BINARY_DATA_MODELINES 1 /* R-DG */ /* * NV_CTRL_BINARY_DATA_METAMODES - Returns an X Screen's supported * MetaModes. MetaModes are returned in a buffer separated by a * single '\0' and terminated by two consecutive '\0' s like so: * * "MetaMode 1\0MetaMode 2\0MetaMode 3\0Last MetaMode\0\0" * * The MetaMode string should have the same syntax as the MetaMode X * configuration option, as documented in the NVIDIA driver README. * Each MetaMode string may be prepended with a comma-separated list * of "token=value" pairs, separated from the MetaMode string with * "::". Currently, valid tokens are: * * Token Value * "id" - the id of this MetaMode; this is stored in * the Vertical Refresh field, as viewed * by the XRandR and XF86VidMode X * * extensions. * * "switchable" "yes"/"no" - whether this MetaMode may be switched to via * ctrl-alt-+/-; Implicit MetaModes (see * the "IncludeImplicitMetaModes" X * config option), for example, are not * normally made available through * ctrl-alt-+/-. * * "source" "xconfig" - the MetaMode was specified in the X * config file. * "implicit" - the MetaMode was implicitly added; see the * "IncludeImplicitMetaModes" X config option * for details. * "nv-control" - the MetaMode was added via the NV-CONTROL X * extension to the currently running X server. * "RandR" - the MetaMode was modified in response to an * RandR RRSetCrtcConfig request. * * Additional tokens may be added in the future, so it is recommended * that any token parser processing the returned string from * NV_CTRL_BINARY_DATA_METAMODES be implemented to gracefully ignore * unrecognized tokens. * * E.g., * * "id=50, switchable=yes, source=xconfig :: CRT-0: 1024x768 @1024x768 +0+0" */ #define NV_CTRL_BINARY_DATA_METAMODES 2 /* R-D- */ #define NV_CTRL_BINARY_DATA_METAMODES_VERSION_1 \ NV_CTRL_BINARY_DATA_METAMODES /* * NV_CTRL_BINARY_DATA_XSCREENS_USING_GPU - Returns the list of X * screens currently driven by the given GPU. * * The format of the returned data is: * * 4 CARD32 number of screens * 4 * n CARD32 screen indices * * This attribute can only be queried through XNVCTRLQueryTargetBinaryData() * using a NV_CTRL_TARGET_TYPE_GPU target. This attribute cannot be * queried using a NV_CTRL_TARGET_TYPE_X_SCREEN. */ #define NV_CTRL_BINARY_DATA_XSCREENS_USING_GPU 3 /* R-DG */ /* * NV_CTRL_BINARY_DATA_GPUS_USED_BY_XSCREEN - Returns the list of GPUs * currently in use by the given X screen. * * The format of the returned data is: * * 4 CARD32 number of GPUs * 4 * n CARD32 GPU indices */ #define NV_CTRL_BINARY_DATA_GPUS_USED_BY_XSCREEN 4 /* R--- */ /* * NV_CTRL_BINARY_DATA_GPUS_USING_FRAMELOCK - Returns the list of * GPUs currently connected to the given frame lock board. * * The format of the returned data is: * * 4 CARD32 number of GPUs * 4 * n CARD32 GPU indices * * This attribute can only be queried through XNVCTRLQueryTargetBinaryData() * using a NV_CTRL_TARGET_TYPE_FRAMELOCK target. This attribute cannot be * queried using a NV_CTRL_TARGET_TYPE_X_SCREEN. */ #define NV_CTRL_BINARY_DATA_GPUS_USING_FRAMELOCK 5 /* R-DF */ /* * NV_CTRL_BINARY_DATA_DISPLAY_VIEWPORT - Returns the Display Device's * viewport box into the given X Screen (in X Screen coordinates.) * * The format of the returned data is: * * 4 CARD32 Offset X * 4 CARD32 Offset Y * 4 CARD32 Width * 4 CARD32 Height */ #define NV_CTRL_BINARY_DATA_DISPLAY_VIEWPORT 6 /* R-DG */ /* * NV_CTRL_BINARY_DATA_FRAMELOCKS_USED_BY_GPU - Returns the list of * Framelock devices currently connected to the given GPU. * * The format of the returned data is: * * 4 CARD32 number of Framelocks * 4 * n CARD32 Framelock indices * * This attribute can only be queried through XNVCTRLQueryTargetBinaryData() * using a NV_CTRL_TARGET_TYPE_GPU target. This attribute cannot be * queried using a NV_CTRL_TARGET_TYPE_X_SCREEN. */ #define NV_CTRL_BINARY_DATA_FRAMELOCKS_USED_BY_GPU 7 /* R-DG */ /* * NV_CTRL_BINARY_DATA_GPUS_USING_VCSC - Returns the list of * GPU devices connected to the given VCS. * * The format of the returned data is: * * 4 CARD32 number of GPUs * 4 * n CARD32 GPU indices * * This attribute can only be queried through XNVCTRLQueryTargetBinaryData() * using a NV_CTRL_TARGET_TYPE_VCSC target. This attribute cannot be * queried using a NV_CTRL_TARGET_TYPE_X_SCREEN and cannot be queried using * a NV_CTRL_TARGET_TYPE_X_GPU */ #define NV_CTRL_BINARY_DATA_GPUS_USING_VCSC 8 /* R-DV */ /* * NV_CTRL_BINARY_DATA_VCSCS_USED_BY_GPU - Returns the VCSC device * that is controlling the given GPU. * * The format of the returned data is: * * 4 CARD32 number of VCS (always 1) * 4 * n CARD32 VCS indices * * This attribute can only be queried through XNVCTRLQueryTargetBinaryData() * using a NV_CTRL_TARGET_TYPE_GPU target. This attribute cannot be * queried using a NV_CTRL_TARGET_TYPE_X_SCREEN */ #define NV_CTRL_BINARY_DATA_VCSCS_USED_BY_GPU 9 /* R-DG */ /* * NV_CTRL_BINARY_DATA_COOLERS_USED_BY_GPU - Returns the coolers that * are cooling the given GPU. * * The format of the returned data is: * * 4 CARD32 number of COOLER * 4 * n CARD32 COOLER indices * * This attribute can only be queried through XNVCTRLQueryTargetBinaryData() * using a NV_CTRL_TARGET_TYPE_GPU target. This attribute cannot be * queried using a NV_CTRL_TARGET_TYPE_X_SCREEN */ #define NV_CTRL_BINARY_DATA_COOLERS_USED_BY_GPU 10 /* R-DG */ /* * NV_CTRL_BINARY_DATA_GPUS_USED_BY_LOGICAL_XSCREEN - Returns the list of * GPUs currently driving the given X screen. If Xinerama is enabled, this * will return all GPUs that are driving any X screen. * * The format of the returned data is: * * 4 CARD32 number of GPUs * 4 * n CARD32 GPU indices */ #define NV_CTRL_BINARY_DATA_GPUS_USED_BY_LOGICAL_XSCREEN 11 /* R--- */ /* * NV_CTRL_BINARY_DATA_THERMAL_SENSORS_USED_BY_GPU - Returns the sensors that * are attached to the given GPU. * * The format of the returned data is: * * 4 CARD32 number of SENSOR * 4 * n CARD32 SENSOR indices * * This attribute can only be queried through XNVCTRLQueryTargetBinaryData() * using a NV_CTRL_TARGET_TYPE_GPU target. This attribute cannot be * queried using a NV_CTRL_TARGET_TYPE_X_SCREEN */ #define NV_CTRL_BINARY_DATA_THERMAL_SENSORS_USED_BY_GPU 12 /* R--G */ /* * NV_CTRL_BINARY_DATA_GLASSES_PAIRED_TO_3D_VISION_PRO_TRANSCEIVER - Returns * the id of the glasses that are currently paired to the given * 3D Vision Pro transceiver. * * The format of the returned data is: * * 4 CARD32 number of glasses * 4 * n CARD32 id of glasses * * This attribute can only be queried through XNVCTRLQueryTargetBinaryData() * using a NV_CTRL_TARGET_TYPE_3D_VISION_PRO_TRANSCEIVER target. */ #define NV_CTRL_BINARY_DATA_GLASSES_PAIRED_TO_3D_VISION_PRO_TRANSCEIVER 13 /* R--T */ /* * NV_CTRL_BINARY_DATA_DISPLAY_TARGETS - Returns all the display devices * currently connected to any GPU on the X server. * * The format of the returned data is: * * 4 CARD32 number of display devices * 4 * n CARD32 display device indices * * This attribute can only be queried through XNVCTRLQueryTargetBinaryData(). */ #define NV_CTRL_BINARY_DATA_DISPLAY_TARGETS 14 /* R--- */ /* * NV_CTRL_BINARY_DATA_DISPLAYS_CONNECTED_TO_GPU - Returns the list of * display devices that are connected to the GPU target. * * The format of the returned data is: * * 4 CARD32 number of display devices * 4 * n CARD32 display device indices * * This attribute can only be queried through XNVCTRLQueryTargetBinaryData() * using a NV_CTRL_TARGET_TYPE_GPU target. */ #define NV_CTRL_BINARY_DATA_DISPLAYS_CONNECTED_TO_GPU 15 /* R--G */ /* * NV_CTRL_BINARY_DATA_METAMODES_VERSION_2 - Returns values similar to * NV_CTRL_BINARY_DATA_METAMODES(_VERSION_1) but also returns extended syntax * information to indicate a specific display device, as well as other per- * display deviceflags as "token=value" pairs. For example: * * "DPY-1: 1280x1024 {Stereo=PassiveLeft}, * DPY-2: 1280x1024 {Stereo=PassiveRight}," * * The display device names have the form "DPY-%d", where the integer * part of the name is the NV-CONTROL target ID for that display device * for this instance of the X server. Note that display device NV-CONTROL * target IDs are not guaranteed to be the same from one run of the X * server to the next. */ #define NV_CTRL_BINARY_DATA_METAMODES_VERSION_2 16 /* R-D- */ /* * NV_CTRL_BINARY_DATA_DISPLAYS_ENABLED_ON_XSCREEN - Returns the list of * display devices that are currently scanning out the X screen target. * * The format of the returned data is: * * 4 CARD32 number of display devices * 4 * n CARD32 display device indices * * This attribute can only be queried through XNVCTRLQueryTargetBinaryData() * using a NV_CTRL_TARGET_TYPE_X_SCREEN target. */ #define NV_CTRL_BINARY_DATA_DISPLAYS_ENABLED_ON_XSCREEN 17 /* R--- */ /* * NV_CTRL_BINARY_DATA_DISPLAYS_ASSIGNED_TO_XSCREEN - Returns the list of * display devices that are currently assigned the X screen target. * * The format of the returned data is: * * 4 CARD32 number of display devices * 4 * n CARD32 display device indices * * This attribute can only be queried through XNVCTRLQueryTargetBinaryData() * using a NV_CTRL_TARGET_TYPE_X_SCREEN target. */ #define NV_CTRL_BINARY_DATA_DISPLAYS_ASSIGNED_TO_XSCREEN 18 /* R--- */ /* * NV_CTRL_BINARY_DATA_GPU_FLAGS - Returns a list of flags for the * given GPU. A flag can, for instance, be a capability which enables * of disables some features according to the GPU state. * * The format of the returned data is: * * 4 CARD32 number of GPU flags * 4 * n CARD32 GPU flag * * This attribute can only be queried through XNVCTRLQueryTargetBinaryData() * using a NV_CTRL_TARGET_TYPE_GPU target. */ #define NV_CTRL_BINARY_DATA_GPU_FLAGS 19 /* R--- */ /* Stereo and display composition transformations are mutually exclusive. */ #define NV_CTRL_BINARY_DATA_GPU_FLAGS_STEREO_DISPLAY_TRANSFORM_EXCLUSIVE 0 /* Overlay and display composition transformations are mutually exclusive. */ #define NV_CTRL_BINARY_DATA_GPU_FLAGS_OVERLAY_DISPLAY_TRANSFORM_EXCLUSIVE 1 /* Depth 8 and display composition transformations are mutually exclusive. */ #define NV_CTRL_BINARY_DATA_GPU_FLAGS_DEPTH_8_DISPLAY_TRANSFORM_EXCLUSIVE 2 /* * NV_CTRL_BINARY_DATA_DISPLAYS_ON_GPU - Returns the list of valid * display devices that can be connected to the GPU target. * * The format of the returned data is: * * 4 CARD32 number of display devices * 4 * n CARD32 display device indices * * This attribute can only be queried through XNVCTRLQueryTargetBinaryData() * using a NV_CTRL_TARGET_TYPE_GPU target. */ #define NV_CTRL_BINARY_DATA_DISPLAYS_ON_GPU 20 /* R--G */ #define NV_CTRL_BINARY_DATA_LAST_ATTRIBUTE \ NV_CTRL_BINARY_DATA_DISPLAYS_ON_GPU /**************************************************************************/ /* * String Operation Attributes: * * These attributes are used with the XNVCTRLStringOperation() * function; a string is specified as input, and a string is returned * as output. * * Unless otherwise noted, all attributes can be operated upon using * an NV_CTRL_TARGET_TYPE_X_SCREEN target. */ /* * NV_CTRL_STRING_OPERATION_ADD_METAMODE - provide a MetaMode string * as input, and returns a string containing comma-separated list of * "token=value" pairs as output. Currently, the only output token is * "id", which indicates the id that was assigned to the MetaMode. * * All ModeLines referenced in the MetaMode must already exist for * each display device (as returned by the * NV_CTRL_BINARY_DATA_MODELINES attribute). * * The MetaMode string should have the same syntax as the MetaMode X * configuration option, as documented in the NVIDIA driver README. * * The input string can optionally be prepended with a string of * comma-separated "token=value" pairs, separated from the MetaMode * string by "::". Currently, the only valid token is "index" which * indicates the insertion index for the MetaMode. * * E.g., * * Input: "index=5 :: 1600x1200+0+0, 1600x1200+1600+0" * Output: "id=58" * * which causes the MetaMode to be inserted at position 5 in the * MetaMode list (all entries after 5 will be shifted down one slot in * the list), and the X server's containing mode stores 58 as the * VRefresh, so that the MetaMode can be uniquely identifed through * XRandR and XF86VidMode. */ #define NV_CTRL_STRING_OPERATION_ADD_METAMODE 0 /* * NV_CTRL_STRING_OPERATION_GTF_MODELINE - provide as input a string * of comma-separated "token=value" pairs, and returns a ModeLine * string, computed using the GTF formula using the parameters from * the input string. Valid tokens for the input string are "width", * "height", and "refreshrate". * * E.g., * * Input: "width=1600, height=1200, refreshrate=60" * Output: "160.96 1600 1704 1880 2160 1200 1201 1204 1242 -HSync +VSync" * * This operation does not have any impact on any display device's * modePool, and the ModeLine is not validated; it is simply intended * for generating ModeLines. */ #define NV_CTRL_STRING_OPERATION_GTF_MODELINE 1 /* * NV_CTRL_STRING_OPERATION_CVT_MODELINE - provide as input a string * of comma-separated "token=value" pairs, and returns a ModeLine * string, computed using the CVT formula using the parameters from * the input string. Valid tokens for the input string are "width", * "height", "refreshrate", and "reduced-blanking". The * "reduced-blanking" argument can be "0" or "1", to enable or disable * use of reduced blanking for the CVT formula. * * E.g., * * Input: "width=1600, height=1200, refreshrate=60, reduced-blanking=1" * Output: "130.25 1600 1648 1680 1760 1200 1203 1207 1235 +HSync -VSync" * * This operation does not have any impact on any display device's * modePool, and the ModeLine is not validated; it is simply intended * for generating ModeLines. */ #define NV_CTRL_STRING_OPERATION_CVT_MODELINE 2 /* * NV_CTRL_STRING_OPERATION_BUILD_MODEPOOL - build a ModePool for the * specified display device on the specified target (either an X * screen or a GPU). This is typically used to generate a ModePool * for a display device on a GPU on which no X screens are present. * * Currently, a display device's ModePool is static for the life of * the X server, so XNVCTRLStringOperation will return FALSE if * requested to build a ModePool on a display device that already has * a ModePool. * * The string input to BUILD_MODEPOOL may be NULL. If it is not NULL, * then it is interpreted as a double-colon ("::") separated list * of "option=value" pairs, where the options and the syntax of their * values are the X configuration options that impact the behavior of * modePool construction; namely: * * "ModeValidation" * "HorizSync" * "VertRefresh" * "FlatPanelProperties" * "ExactModeTimingsDVI" * "UseEdidFreqs" * * An example input string might look like: * * "ModeValidation=NoVesaModes :: HorizSync=50-110 :: VertRefresh=50-150" * * This request currently does not return a string. */ #define NV_CTRL_STRING_OPERATION_BUILD_MODEPOOL 3 /* DG */ /* * NV_CTRL_STRING_OPERATION_GVI_CONFIGURE_STREAMS - Configure the streams- * to-jack+channel topology for a GVI (Graphics capture board). * * The string input to GVI_CONFIGURE_STREAMS may be NULL. If this is the * case, then the current topology is returned. * * If the input string to GVI_CONFIGURE_STREAMS is not NULL, the string * is interpreted as a semicolon (";") separated list of comma-separated * lists of "option=value" pairs that define a stream's composition. The * available options and their values are: * * "stream": Defines which stream this comma-separated list describes. * Valid values are the integers between 0 and * NV_CTRL_GVI_NUM_STREAMS-1 (inclusive). * * "linkN": Defines a jack+channel pair to use for the given link N. * Valid options are the string "linkN", where N is an integer * between 0 and NV_CTRL_GVI_MAX_LINKS_PER_STREAM-1 (inclusive). * Valid values for these options are strings of the form * "jackX" and/or "jackX.Y", where X is an integer between 0 and * NV_CTRL_GVI_NUM_JACKS-1 (inclusive), and Y (optional) is an * integer between 0 and NV_CTRL_GVI_MAX_CHANNELS_PER_JACK-1 * (inclusive). * * An example input string might look like: * * "stream=0, link0=jack0, link1=jack1; stream=1, link0=jack2.1" * * This example specifies two streams, stream 0 and stream 1. Stream 0 * is defined to capture link0 data from the first channel (channel 0) of * BNC jack 0 and link1 data from the first channel of BNC jack 1. The * second stream (Stream 1) is defined to capture link0 data from channel 1 * (second channel) of BNC jack 2. * * This example shows a possible configuration for capturing 3G input: * * "stream=0, link0=jack0.0, link1=jack0.1" * * Applications should query the following attributes to determine * possible combinations: * * NV_CTRL_GVI_MAX_STREAMS * NV_CTRL_GVI_MAX_LINKS_PER_STREAM * NV_CTRL_GVI_NUM_JACKS * NV_CTRL_GVI_MAX_CHANNELS_PER_JACK * * Note: A jack+channel pair can only be tied to one link/stream. * * Upon successful configuration or querying of this attribute, a string * representing the current topology for all known streams on the device * will be returned. On failure, NULL is returned. * * Note: Setting this attribute may also result in the following * NV-CONTROL attributes being reset on the GVI device (to ensure * the configuration remains valid): * NV_CTRL_GVIO_REQUESTED_VIDEO_FORMAT * NV_CTRL_GVI_REQUESTED_STREAM_BITS_PER_COMPONENT * NV_CTRL_GVI_REQUESTED_STREAM_COMPONENT_SAMPLING */ #define NV_CTRL_STRING_OPERATION_GVI_CONFIGURE_STREAMS 4 /* RW-I */ /* * NV_CTRL_STRING_OPERATION_PARSE_METAMODE - Parses the given MetaMode string * and returns the validated MetaMode string - possibly re-calculating various * values such as ViewPortIn. If the MetaMode matches an existing MetaMode, * the details of the existing MetaMode are returned. If the MetaMode fails to * be parsed, NULL is returned. */ #define NV_CTRL_STRING_OPERATION_PARSE_METAMODE 5 /* R--- */ #define NV_CTRL_STRING_OPERATION_LAST_ATTRIBUTE \ NV_CTRL_STRING_OPERATION_PARSE_METAMODE /**************************************************************************/ /* * CTRLAttributeValidValuesRec - * * structure and related defines used by * XNVCTRLQueryValidAttributeValues() to describe the valid values of * a particular attribute. The type field will be one of: * * ATTRIBUTE_TYPE_INTEGER : the attribute is an integer value; there * is no fixed range of valid values. * * ATTRIBUTE_TYPE_BITMASK : the attribute is an integer value, * interpretted as a bitmask. * * ATTRIBUTE_TYPE_BOOL : the attribute is a boolean, valid values are * either 1 (on/true) or 0 (off/false). * * ATTRIBUTE_TYPE_RANGE : the attribute can have any integer value * between NVCTRLAttributeValidValues.u.range.min and * NVCTRLAttributeValidValues.u.range.max (inclusive). * * ATTRIBUTE_TYPE_INT_BITS : the attribute can only have certain * integer values, indicated by which bits in * NVCTRLAttributeValidValues.u.bits.ints are on (for example: if bit * 0 is on, then 0 is a valid value; if bit 5 is on, then 5 is a valid * value, etc). This is useful for attributes like NV_CTRL_FSAA_MODE, * which can only have certain values, depending on GPU. * * ATTRIBUTE_TYPE_64BIT_INTEGER : the attribute is a 64 bit integer value; * there is no fixed range of valid values. * * ATTRIBUTE_TYPE_STRING : the attribute is a string value; there is no fixed * range of valid values. * * ATTRIBUTE_TYPE_BINARY_DATA : the attribute is binary data; there is * no fixed range of valid values. * * ATTRIBUTE_TYPE_STRING_OPERATION : the attribute is a string; there is * no fixed range of valid values. * * * The permissions field of NVCTRLAttributeValidValuesRec is a bitmask * that may contain: * * ATTRIBUTE_TYPE_READ - Attribute may be read (queried.) * ATTRIBUTE_TYPE_WRITE - Attribute may be written to (set.) * ATTRIBUTE_TYPE_DISPLAY - Attribute is valid for display target types * (requires a display_mask if queried via * a GPU or X screen.) * ATTRIBUTE_TYPE_GPU - Attribute is valid for GPU target types. * ATTRIBUTE_TYPE_FRAMELOCK - Attribute is valid for Frame Lock target types. * ATTRIBUTE_TYPE_X_SCREEN - Attribute is valid for X Screen target types. * ATTRIBUTE_TYPE_XINERAMA - Attribute will be made consistent for all * X Screens when the Xinerama extension is enabled. * ATTRIBUTE_TYPE_VCSC - Attribute is valid for Visual Computing System * target types. * ATTRIBUTE_TYPE_GVI - Attribute is valid for Graphics Video In target * types. * ATTRIBUTE_TYPE_COOLER - Attribute is valid for Cooler target types. * ATTRIBUTE_TYPE_3D_VISION_PRO_TRANSCEIVER - Attribute is valid for 3D Vision * Pro Transceiver target types. * * See 'Key to Integer Attribute "Permissions"' at the top of this * file for a description of what these permission bits mean. */ #define ATTRIBUTE_TYPE_UNKNOWN 0 #define ATTRIBUTE_TYPE_INTEGER 1 #define ATTRIBUTE_TYPE_BITMASK 2 #define ATTRIBUTE_TYPE_BOOL 3 #define ATTRIBUTE_TYPE_RANGE 4 #define ATTRIBUTE_TYPE_INT_BITS 5 #define ATTRIBUTE_TYPE_64BIT_INTEGER 6 #define ATTRIBUTE_TYPE_STRING 7 #define ATTRIBUTE_TYPE_BINARY_DATA 8 #define ATTRIBUTE_TYPE_STRING_OPERATION 9 #define ATTRIBUTE_TYPE_READ 0x001 #define ATTRIBUTE_TYPE_WRITE 0x002 #define ATTRIBUTE_TYPE_DISPLAY 0x004 #define ATTRIBUTE_TYPE_GPU 0x008 #define ATTRIBUTE_TYPE_FRAMELOCK 0x010 #define ATTRIBUTE_TYPE_X_SCREEN 0x020 #define ATTRIBUTE_TYPE_XINERAMA 0x040 #define ATTRIBUTE_TYPE_VCSC 0x080 #define ATTRIBUTE_TYPE_GVI 0x100 #define ATTRIBUTE_TYPE_COOLER 0x200 #define ATTRIBUTE_TYPE_THERMAL_SENSOR 0x400 #define ATTRIBUTE_TYPE_3D_VISION_PRO_TRANSCEIVER 0x800 #define ATTRIBUTE_TYPE_ALL_TARGETS \ ((ATTRIBUTE_TYPE_DISPLAY) | \ (ATTRIBUTE_TYPE_GPU) | \ (ATTRIBUTE_TYPE_FRAMELOCK) | \ (ATTRIBUTE_TYPE_X_SCREEN) | \ (ATTRIBUTE_TYPE_VCSC) | \ (ATTRIBUTE_TYPE_GVI) | \ (ATTRIBUTE_TYPE_COOLER) | \ (ATTRIBUTE_TYPE_THERMAL_SENSOR) | \ (ATTRIBUTE_TYPE_3D_VISION_PRO_TRANSCEIVER)) typedef struct _NVCTRLAttributeValidValues { int type; union { struct { int64_t min; int64_t max; } range; struct { unsigned int ints; } bits; } u; unsigned int permissions; } NVCTRLAttributeValidValuesRec; typedef struct _NVCTRLAttributePermissions { int type; unsigned int permissions; } NVCTRLAttributePermissionsRec; /**************************************************************************/ /* * NV-CONTROL X event notification. * * To receive X event notifications dealing with NV-CONTROL, you should * call XNVCtrlSelectNotify() with one of the following set as the type * of event to receive (see NVCtrlLib.h for more information): */ #define ATTRIBUTE_CHANGED_EVENT 0 #define TARGET_ATTRIBUTE_CHANGED_EVENT 1 #define TARGET_ATTRIBUTE_AVAILABILITY_CHANGED_EVENT 2 #define TARGET_STRING_ATTRIBUTE_CHANGED_EVENT 3 #define TARGET_BINARY_ATTRIBUTE_CHANGED_EVENT 4 /* * To be used with XNVCTRLBindWarpPixmapName to specify the data type. */ #define NV_CTRL_WARP_DATA_TYPE_BLEND_OR_OFFSET_TEXTURE 0 #define NV_CTRL_WARP_DATA_TYPE_MESH_TRIANGLESTRIP_XYUVRQ 1 #define NV_CTRL_WARP_DATA_TYPE_MESH_TRIANGLES_XYUVRQ 2 #endif /* __NVCTRL_H */