/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2000 Doug Rabson * Copyright (c) 2000 Ruslan Ermilov * Copyright (c) 2011 The FreeBSD Foundation * All rights reserved. * * Portions of this software were developed by Konstantin Belousov * under sponsorship from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ /* * Fixes for 830/845G support: David Dawes * 852GM/855GM/865G support added by David Dawes * * This is generic Intel GTT handling code, morphed from the AGP * bridge code. */ #include #if 0 #define KTR_AGP_I810 KTR_DEV #else #define KTR_AGP_I810 0 #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include MALLOC_DECLARE(M_AGP); struct agp_i810_match; static int agp_i810_check_active(device_t bridge_dev); static int agp_i830_check_active(device_t bridge_dev); static int agp_i915_check_active(device_t bridge_dev); static void agp_82852_set_desc(device_t dev, const struct agp_i810_match *match); static void agp_i810_set_desc(device_t dev, const struct agp_i810_match *match); static void agp_i810_dump_regs(device_t dev); static void agp_i830_dump_regs(device_t dev); static void agp_i855_dump_regs(device_t dev); static void agp_i915_dump_regs(device_t dev); static void agp_i965_dump_regs(device_t dev); static int agp_i810_get_stolen_size(device_t dev); static int agp_i830_get_stolen_size(device_t dev); static int agp_i915_get_stolen_size(device_t dev); static int agp_i810_get_gtt_mappable_entries(device_t dev); static int agp_i830_get_gtt_mappable_entries(device_t dev); static int agp_i915_get_gtt_mappable_entries(device_t dev); static int agp_i810_get_gtt_total_entries(device_t dev); static int agp_i965_get_gtt_total_entries(device_t dev); static int agp_gen5_get_gtt_total_entries(device_t dev); static int agp_i810_install_gatt(device_t dev); static int agp_i830_install_gatt(device_t dev); static int agp_i965_install_gatt(device_t dev); static int agp_g4x_install_gatt(device_t dev); static void agp_i810_deinstall_gatt(device_t dev); static void agp_i830_deinstall_gatt(device_t dev); static void agp_i810_install_gtt_pte(device_t dev, u_int index, vm_offset_t physical, int flags); static void agp_i830_install_gtt_pte(device_t dev, u_int index, vm_offset_t physical, int flags); static void agp_i915_install_gtt_pte(device_t dev, u_int index, vm_offset_t physical, int flags); static void agp_i965_install_gtt_pte(device_t dev, u_int index, vm_offset_t physical, int flags); static void agp_g4x_install_gtt_pte(device_t dev, u_int index, vm_offset_t physical, int flags); static void agp_i810_write_gtt(device_t dev, u_int index, uint32_t pte); static void agp_i915_write_gtt(device_t dev, u_int index, uint32_t pte); static void agp_i965_write_gtt(device_t dev, u_int index, uint32_t pte); static void agp_g4x_write_gtt(device_t dev, u_int index, uint32_t pte); static u_int32_t agp_i810_read_gtt_pte(device_t dev, u_int index); static u_int32_t agp_i915_read_gtt_pte(device_t dev, u_int index); static u_int32_t agp_i965_read_gtt_pte(device_t dev, u_int index); static u_int32_t agp_g4x_read_gtt_pte(device_t dev, u_int index); static vm_paddr_t agp_i810_read_gtt_pte_paddr(device_t dev, u_int index); static vm_paddr_t agp_i915_read_gtt_pte_paddr(device_t dev, u_int index); static int agp_i810_set_aperture(device_t dev, u_int32_t aperture); static int agp_i830_set_aperture(device_t dev, u_int32_t aperture); static int agp_i915_set_aperture(device_t dev, u_int32_t aperture); static int agp_i810_chipset_flush_setup(device_t dev); static int agp_i915_chipset_flush_setup(device_t dev); static int agp_i965_chipset_flush_setup(device_t dev); static void agp_i810_chipset_flush_teardown(device_t dev); static void agp_i915_chipset_flush_teardown(device_t dev); static void agp_i965_chipset_flush_teardown(device_t dev); static void agp_i810_chipset_flush(device_t dev); static void agp_i830_chipset_flush(device_t dev); static void agp_i915_chipset_flush(device_t dev); enum { CHIP_I810, /* i810/i815 */ CHIP_I830, /* 830M/845G */ CHIP_I855, /* 852GM/855GM/865G */ CHIP_I915, /* 915G/915GM */ CHIP_I965, /* G965 */ CHIP_G33, /* G33/Q33/Q35 */ CHIP_IGD, /* Pineview */ CHIP_G4X, /* G45/Q45 */ }; /* The i810 through i855 have the registers at BAR 1, and the GATT gets * allocated by us. The i915 has registers in BAR 0 and the GATT is at the * start of the stolen memory, and should only be accessed by the OS through * BAR 3. The G965 has registers and GATT in the same BAR (0) -- first 512KB * is registers, second 512KB is GATT. */ static struct resource_spec agp_i810_res_spec[] = { { SYS_RES_MEMORY, AGP_I810_MMADR, RF_ACTIVE | RF_SHAREABLE }, { -1, 0 } }; static struct resource_spec agp_i915_res_spec[] = { { SYS_RES_MEMORY, AGP_I915_MMADR, RF_ACTIVE | RF_SHAREABLE }, { SYS_RES_MEMORY, AGP_I915_GTTADR, RF_ACTIVE | RF_SHAREABLE }, { -1, 0 } }; static struct resource_spec agp_i965_res_spec[] = { { SYS_RES_MEMORY, AGP_I965_GTTMMADR, RF_ACTIVE | RF_SHAREABLE }, { SYS_RES_MEMORY, AGP_I965_APBASE, RF_ACTIVE | RF_SHAREABLE }, { -1, 0 } }; struct agp_i810_softc { struct agp_softc agp; u_int32_t initial_aperture; /* aperture size at startup */ struct agp_gatt *gatt; u_int32_t dcache_size; /* i810 only */ u_int32_t stolen; /* number of i830/845 gtt entries for stolen memory */ u_int stolen_size; /* BIOS-reserved graphics memory */ u_int gtt_total_entries; /* Total number of gtt ptes */ u_int gtt_mappable_entries; /* Number of gtt ptes mappable by CPU */ device_t bdev; /* bridge device */ void *argb_cursor; /* contigmalloc area for ARGB cursor */ struct resource *sc_res[2]; const struct agp_i810_match *match; int sc_flush_page_rid; struct resource *sc_flush_page_res; void *sc_flush_page_vaddr; int sc_bios_allocated_flush_page; }; static device_t intel_agp; struct agp_i810_driver { int chiptype; int gen; int busdma_addr_mask_sz; struct resource_spec *res_spec; int (*check_active)(device_t); void (*set_desc)(device_t, const struct agp_i810_match *); void (*dump_regs)(device_t); int (*get_stolen_size)(device_t); int (*get_gtt_total_entries)(device_t); int (*get_gtt_mappable_entries)(device_t); int (*install_gatt)(device_t); void (*deinstall_gatt)(device_t); void (*write_gtt)(device_t, u_int, uint32_t); void (*install_gtt_pte)(device_t, u_int, vm_offset_t, int); u_int32_t (*read_gtt_pte)(device_t, u_int); vm_paddr_t (*read_gtt_pte_paddr)(device_t , u_int); int (*set_aperture)(device_t, u_int32_t); int (*chipset_flush_setup)(device_t); void (*chipset_flush_teardown)(device_t); void (*chipset_flush)(device_t); }; static struct { struct intel_gtt base; } intel_private; static const struct agp_i810_driver agp_i810_i810_driver = { .chiptype = CHIP_I810, .gen = 1, .busdma_addr_mask_sz = 32, .res_spec = agp_i810_res_spec, .check_active = agp_i810_check_active, .set_desc = agp_i810_set_desc, .dump_regs = agp_i810_dump_regs, .get_stolen_size = agp_i810_get_stolen_size, .get_gtt_mappable_entries = agp_i810_get_gtt_mappable_entries, .get_gtt_total_entries = agp_i810_get_gtt_total_entries, .install_gatt = agp_i810_install_gatt, .deinstall_gatt = agp_i810_deinstall_gatt, .write_gtt = agp_i810_write_gtt, .install_gtt_pte = agp_i810_install_gtt_pte, .read_gtt_pte = agp_i810_read_gtt_pte, .read_gtt_pte_paddr = agp_i810_read_gtt_pte_paddr, .set_aperture = agp_i810_set_aperture, .chipset_flush_setup = agp_i810_chipset_flush_setup, .chipset_flush_teardown = agp_i810_chipset_flush_teardown, .chipset_flush = agp_i810_chipset_flush, }; static const struct agp_i810_driver agp_i810_i815_driver = { .chiptype = CHIP_I810, .gen = 2, .busdma_addr_mask_sz = 32, .res_spec = agp_i810_res_spec, .check_active = agp_i810_check_active, .set_desc = agp_i810_set_desc, .dump_regs = agp_i810_dump_regs, .get_stolen_size = agp_i810_get_stolen_size, .get_gtt_mappable_entries = agp_i830_get_gtt_mappable_entries, .get_gtt_total_entries = agp_i810_get_gtt_total_entries, .install_gatt = agp_i810_install_gatt, .deinstall_gatt = agp_i810_deinstall_gatt, .write_gtt = agp_i810_write_gtt, .install_gtt_pte = agp_i810_install_gtt_pte, .read_gtt_pte = agp_i810_read_gtt_pte, .read_gtt_pte_paddr = agp_i810_read_gtt_pte_paddr, .set_aperture = agp_i810_set_aperture, .chipset_flush_setup = agp_i810_chipset_flush_setup, .chipset_flush_teardown = agp_i810_chipset_flush_teardown, .chipset_flush = agp_i830_chipset_flush, }; static const struct agp_i810_driver agp_i810_i830_driver = { .chiptype = CHIP_I830, .gen = 2, .busdma_addr_mask_sz = 32, .res_spec = agp_i810_res_spec, .check_active = agp_i830_check_active, .set_desc = agp_i810_set_desc, .dump_regs = agp_i830_dump_regs, .get_stolen_size = agp_i830_get_stolen_size, .get_gtt_mappable_entries = agp_i830_get_gtt_mappable_entries, .get_gtt_total_entries = agp_i810_get_gtt_total_entries, .install_gatt = agp_i830_install_gatt, .deinstall_gatt = agp_i830_deinstall_gatt, .write_gtt = agp_i810_write_gtt, .install_gtt_pte = agp_i830_install_gtt_pte, .read_gtt_pte = agp_i810_read_gtt_pte, .read_gtt_pte_paddr = agp_i810_read_gtt_pte_paddr, .set_aperture = agp_i830_set_aperture, .chipset_flush_setup = agp_i810_chipset_flush_setup, .chipset_flush_teardown = agp_i810_chipset_flush_teardown, .chipset_flush = agp_i830_chipset_flush, }; static const struct agp_i810_driver agp_i810_i855_driver = { .chiptype = CHIP_I855, .gen = 2, .busdma_addr_mask_sz = 32, .res_spec = agp_i810_res_spec, .check_active = agp_i830_check_active, .set_desc = agp_82852_set_desc, .dump_regs = agp_i855_dump_regs, .get_stolen_size = agp_i915_get_stolen_size, .get_gtt_mappable_entries = agp_i915_get_gtt_mappable_entries, .get_gtt_total_entries = agp_i810_get_gtt_total_entries, .install_gatt = agp_i830_install_gatt, .deinstall_gatt = agp_i830_deinstall_gatt, .write_gtt = agp_i810_write_gtt, .install_gtt_pte = agp_i830_install_gtt_pte, .read_gtt_pte = agp_i810_read_gtt_pte, .read_gtt_pte_paddr = agp_i810_read_gtt_pte_paddr, .set_aperture = agp_i830_set_aperture, .chipset_flush_setup = agp_i810_chipset_flush_setup, .chipset_flush_teardown = agp_i810_chipset_flush_teardown, .chipset_flush = agp_i830_chipset_flush, }; static const struct agp_i810_driver agp_i810_i865_driver = { .chiptype = CHIP_I855, .gen = 2, .busdma_addr_mask_sz = 32, .res_spec = agp_i810_res_spec, .check_active = agp_i830_check_active, .set_desc = agp_i810_set_desc, .dump_regs = agp_i855_dump_regs, .get_stolen_size = agp_i915_get_stolen_size, .get_gtt_mappable_entries = agp_i915_get_gtt_mappable_entries, .get_gtt_total_entries = agp_i810_get_gtt_total_entries, .install_gatt = agp_i830_install_gatt, .deinstall_gatt = agp_i830_deinstall_gatt, .write_gtt = agp_i810_write_gtt, .install_gtt_pte = agp_i830_install_gtt_pte, .read_gtt_pte = agp_i810_read_gtt_pte, .read_gtt_pte_paddr = agp_i810_read_gtt_pte_paddr, .set_aperture = agp_i915_set_aperture, .chipset_flush_setup = agp_i810_chipset_flush_setup, .chipset_flush_teardown = agp_i810_chipset_flush_teardown, .chipset_flush = agp_i830_chipset_flush, }; static const struct agp_i810_driver agp_i810_i915_driver = { .chiptype = CHIP_I915, .gen = 3, .busdma_addr_mask_sz = 32, .res_spec = agp_i915_res_spec, .check_active = agp_i915_check_active, .set_desc = agp_i810_set_desc, .dump_regs = agp_i915_dump_regs, .get_stolen_size = agp_i915_get_stolen_size, .get_gtt_mappable_entries = agp_i915_get_gtt_mappable_entries, .get_gtt_total_entries = agp_i810_get_gtt_total_entries, .install_gatt = agp_i830_install_gatt, .deinstall_gatt = agp_i830_deinstall_gatt, .write_gtt = agp_i915_write_gtt, .install_gtt_pte = agp_i915_install_gtt_pte, .read_gtt_pte = agp_i915_read_gtt_pte, .read_gtt_pte_paddr = agp_i915_read_gtt_pte_paddr, .set_aperture = agp_i915_set_aperture, .chipset_flush_setup = agp_i915_chipset_flush_setup, .chipset_flush_teardown = agp_i915_chipset_flush_teardown, .chipset_flush = agp_i915_chipset_flush, }; static const struct agp_i810_driver agp_i810_g33_driver = { .chiptype = CHIP_G33, .gen = 3, .busdma_addr_mask_sz = 36, .res_spec = agp_i915_res_spec, .check_active = agp_i915_check_active, .set_desc = agp_i810_set_desc, .dump_regs = agp_i965_dump_regs, .get_stolen_size = agp_i915_get_stolen_size, .get_gtt_mappable_entries = agp_i915_get_gtt_mappable_entries, .get_gtt_total_entries = agp_i965_get_gtt_total_entries, .install_gatt = agp_i830_install_gatt, .deinstall_gatt = agp_i830_deinstall_gatt, .write_gtt = agp_i915_write_gtt, .install_gtt_pte = agp_i915_install_gtt_pte, .read_gtt_pte = agp_i915_read_gtt_pte, .read_gtt_pte_paddr = agp_i915_read_gtt_pte_paddr, .set_aperture = agp_i915_set_aperture, .chipset_flush_setup = agp_i965_chipset_flush_setup, .chipset_flush_teardown = agp_i965_chipset_flush_teardown, .chipset_flush = agp_i915_chipset_flush, }; static const struct agp_i810_driver agp_i810_igd_driver = { .chiptype = CHIP_IGD, .gen = 3, .busdma_addr_mask_sz = 36, .res_spec = agp_i915_res_spec, .check_active = agp_i915_check_active, .set_desc = agp_i810_set_desc, .dump_regs = agp_i915_dump_regs, .get_stolen_size = agp_i915_get_stolen_size, .get_gtt_mappable_entries = agp_i915_get_gtt_mappable_entries, .get_gtt_total_entries = agp_i965_get_gtt_total_entries, .install_gatt = agp_i830_install_gatt, .deinstall_gatt = agp_i830_deinstall_gatt, .write_gtt = agp_i915_write_gtt, .install_gtt_pte = agp_i915_install_gtt_pte, .read_gtt_pte = agp_i915_read_gtt_pte, .read_gtt_pte_paddr = agp_i915_read_gtt_pte_paddr, .set_aperture = agp_i915_set_aperture, .chipset_flush_setup = agp_i965_chipset_flush_setup, .chipset_flush_teardown = agp_i965_chipset_flush_teardown, .chipset_flush = agp_i915_chipset_flush, }; static const struct agp_i810_driver agp_i810_g965_driver = { .chiptype = CHIP_I965, .gen = 4, .busdma_addr_mask_sz = 36, .res_spec = agp_i965_res_spec, .check_active = agp_i915_check_active, .set_desc = agp_i810_set_desc, .dump_regs = agp_i965_dump_regs, .get_stolen_size = agp_i915_get_stolen_size, .get_gtt_mappable_entries = agp_i915_get_gtt_mappable_entries, .get_gtt_total_entries = agp_i965_get_gtt_total_entries, .install_gatt = agp_i965_install_gatt, .deinstall_gatt = agp_i830_deinstall_gatt, .write_gtt = agp_i965_write_gtt, .install_gtt_pte = agp_i965_install_gtt_pte, .read_gtt_pte = agp_i965_read_gtt_pte, .read_gtt_pte_paddr = agp_i915_read_gtt_pte_paddr, .set_aperture = agp_i915_set_aperture, .chipset_flush_setup = agp_i965_chipset_flush_setup, .chipset_flush_teardown = agp_i965_chipset_flush_teardown, .chipset_flush = agp_i915_chipset_flush, }; static const struct agp_i810_driver agp_i810_g4x_driver = { .chiptype = CHIP_G4X, .gen = 5, .busdma_addr_mask_sz = 36, .res_spec = agp_i965_res_spec, .check_active = agp_i915_check_active, .set_desc = agp_i810_set_desc, .dump_regs = agp_i965_dump_regs, .get_stolen_size = agp_i915_get_stolen_size, .get_gtt_mappable_entries = agp_i915_get_gtt_mappable_entries, .get_gtt_total_entries = agp_gen5_get_gtt_total_entries, .install_gatt = agp_g4x_install_gatt, .deinstall_gatt = agp_i830_deinstall_gatt, .write_gtt = agp_g4x_write_gtt, .install_gtt_pte = agp_g4x_install_gtt_pte, .read_gtt_pte = agp_g4x_read_gtt_pte, .read_gtt_pte_paddr = agp_i915_read_gtt_pte_paddr, .set_aperture = agp_i915_set_aperture, .chipset_flush_setup = agp_i965_chipset_flush_setup, .chipset_flush_teardown = agp_i965_chipset_flush_teardown, .chipset_flush = agp_i915_chipset_flush, }; /* For adding new devices, devid is the id of the graphics controller * (pci:0:2:0, for example). The placeholder (usually at pci:0:2:1) for the * second head should never be added. The bridge_offset is the offset to * subtract from devid to get the id of the hostb that the device is on. */ static const struct agp_i810_match { int devid; char *name; const struct agp_i810_driver *driver; } agp_i810_matches[] = { { .devid = 0x71218086, .name = "Intel 82810 (i810 GMCH) SVGA controller", .driver = &agp_i810_i810_driver }, { .devid = 0x71238086, .name = "Intel 82810-DC100 (i810-DC100 GMCH) SVGA controller", .driver = &agp_i810_i810_driver }, { .devid = 0x71258086, .name = "Intel 82810E (i810E GMCH) SVGA controller", .driver = &agp_i810_i810_driver }, { .devid = 0x11328086, .name = "Intel 82815 (i815 GMCH) SVGA controller", .driver = &agp_i810_i815_driver }, { .devid = 0x35778086, .name = "Intel 82830M (830M GMCH) SVGA controller", .driver = &agp_i810_i830_driver }, { .devid = 0x25628086, .name = "Intel 82845M (845M GMCH) SVGA controller", .driver = &agp_i810_i830_driver }, { .devid = 0x35828086, .name = "Intel 82852/855GM SVGA controller", .driver = &agp_i810_i855_driver }, { .devid = 0x25728086, .name = "Intel 82865G (865G GMCH) SVGA controller", .driver = &agp_i810_i865_driver }, { .devid = 0x25828086, .name = "Intel 82915G (915G GMCH) SVGA controller", .driver = &agp_i810_i915_driver }, { .devid = 0x258A8086, .name = "Intel E7221 SVGA controller", .driver = &agp_i810_i915_driver }, { .devid = 0x25928086, .name = "Intel 82915GM (915GM GMCH) SVGA controller", .driver = &agp_i810_i915_driver }, { .devid = 0x27728086, .name = "Intel 82945G (945G GMCH) SVGA controller", .driver = &agp_i810_i915_driver }, { .devid = 0x27A28086, .name = "Intel 82945GM (945GM GMCH) SVGA controller", .driver = &agp_i810_i915_driver }, { .devid = 0x27AE8086, .name = "Intel 945GME SVGA controller", .driver = &agp_i810_i915_driver }, { .devid = 0x29728086, .name = "Intel 946GZ SVGA controller", .driver = &agp_i810_g965_driver }, { .devid = 0x29828086, .name = "Intel G965 SVGA controller", .driver = &agp_i810_g965_driver }, { .devid = 0x29928086, .name = "Intel Q965 SVGA controller", .driver = &agp_i810_g965_driver }, { .devid = 0x29A28086, .name = "Intel G965 SVGA controller", .driver = &agp_i810_g965_driver }, { .devid = 0x29B28086, .name = "Intel Q35 SVGA controller", .driver = &agp_i810_g33_driver }, { .devid = 0x29C28086, .name = "Intel G33 SVGA controller", .driver = &agp_i810_g33_driver }, { .devid = 0x29D28086, .name = "Intel Q33 SVGA controller", .driver = &agp_i810_g33_driver }, { .devid = 0xA0018086, .name = "Intel Pineview SVGA controller", .driver = &agp_i810_igd_driver }, { .devid = 0xA0118086, .name = "Intel Pineview (M) SVGA controller", .driver = &agp_i810_igd_driver }, { .devid = 0x2A028086, .name = "Intel GM965 SVGA controller", .driver = &agp_i810_g965_driver }, { .devid = 0x2A128086, .name = "Intel GME965 SVGA controller", .driver = &agp_i810_g965_driver }, { .devid = 0x2A428086, .name = "Intel GM45 SVGA controller", .driver = &agp_i810_g4x_driver }, { .devid = 0x2E028086, .name = "Intel Eaglelake SVGA controller", .driver = &agp_i810_g4x_driver }, { .devid = 0x2E128086, .name = "Intel Q45 SVGA controller", .driver = &agp_i810_g4x_driver }, { .devid = 0x2E228086, .name = "Intel G45 SVGA controller", .driver = &agp_i810_g4x_driver }, { .devid = 0x2E328086, .name = "Intel G41 SVGA controller", .driver = &agp_i810_g4x_driver }, { .devid = 0x00428086, .name = "Intel Ironlake (D) SVGA controller", .driver = &agp_i810_g4x_driver }, { .devid = 0x00468086, .name = "Intel Ironlake (M) SVGA controller", .driver = &agp_i810_g4x_driver }, { .devid = 0, } }; static const struct agp_i810_match* agp_i810_match(device_t dev) { int i, devid; if (pci_get_class(dev) != PCIC_DISPLAY || (pci_get_subclass(dev) != PCIS_DISPLAY_VGA && pci_get_subclass(dev) != PCIS_DISPLAY_OTHER)) return (NULL); devid = pci_get_devid(dev); for (i = 0; agp_i810_matches[i].devid != 0; i++) { if (agp_i810_matches[i].devid == devid) break; } if (agp_i810_matches[i].devid == 0) return (NULL); else return (&agp_i810_matches[i]); } /* * Find bridge device. */ static device_t agp_i810_find_bridge(device_t dev) { return (pci_find_dbsf(0, 0, 0, 0)); } static void agp_i810_identify(driver_t *driver, device_t parent) { if (device_find_child(parent, "agp", -1) == NULL && agp_i810_match(parent)) device_add_child(parent, "agp", -1); } static int agp_i810_check_active(device_t bridge_dev) { u_int8_t smram; smram = pci_read_config(bridge_dev, AGP_I810_SMRAM, 1); if ((smram & AGP_I810_SMRAM_GMS) == AGP_I810_SMRAM_GMS_DISABLED) return (ENXIO); return (0); } static int agp_i830_check_active(device_t bridge_dev) { int gcc1; gcc1 = pci_read_config(bridge_dev, AGP_I830_GCC1, 1); if ((gcc1 & AGP_I830_GCC1_DEV2) == AGP_I830_GCC1_DEV2_DISABLED) return (ENXIO); return (0); } static int agp_i915_check_active(device_t bridge_dev) { int deven; deven = pci_read_config(bridge_dev, AGP_I915_DEVEN, 4); if ((deven & AGP_I915_DEVEN_D2F0) == AGP_I915_DEVEN_D2F0_DISABLED) return (ENXIO); return (0); } static void agp_82852_set_desc(device_t dev, const struct agp_i810_match *match) { switch (pci_read_config(dev, AGP_I85X_CAPID, 1)) { case AGP_I855_GME: device_set_desc(dev, "Intel 82855GME (855GME GMCH) SVGA controller"); break; case AGP_I855_GM: device_set_desc(dev, "Intel 82855GM (855GM GMCH) SVGA controller"); break; case AGP_I852_GME: device_set_desc(dev, "Intel 82852GME (852GME GMCH) SVGA controller"); break; case AGP_I852_GM: device_set_desc(dev, "Intel 82852GM (852GM GMCH) SVGA controller"); break; default: device_set_desc(dev, "Intel 8285xM (85xGM GMCH) SVGA controller"); break; } } static void agp_i810_set_desc(device_t dev, const struct agp_i810_match *match) { device_set_desc(dev, match->name); } static int agp_i810_probe(device_t dev) { device_t bdev; const struct agp_i810_match *match; int err; if (resource_disabled("agp", device_get_unit(dev))) return (ENXIO); match = agp_i810_match(dev); if (match == NULL) return (ENXIO); bdev = agp_i810_find_bridge(dev); if (bdev == NULL) { if (bootverbose) printf("I810: can't find bridge device\n"); return (ENXIO); } /* * checking whether internal graphics device has been activated. */ err = match->driver->check_active(bdev); if (err != 0) { if (bootverbose) printf("i810: disabled, not probing\n"); return (err); } match->driver->set_desc(dev, match); return (BUS_PROBE_DEFAULT); } static void agp_i810_dump_regs(device_t dev) { struct agp_i810_softc *sc = device_get_softc(dev); device_printf(dev, "AGP_I810_PGTBL_CTL: %08x\n", bus_read_4(sc->sc_res[0], AGP_I810_PGTBL_CTL)); device_printf(dev, "AGP_I810_MISCC: 0x%04x\n", pci_read_config(sc->bdev, AGP_I810_MISCC, 2)); } static void agp_i830_dump_regs(device_t dev) { struct agp_i810_softc *sc = device_get_softc(dev); device_printf(dev, "AGP_I810_PGTBL_CTL: %08x\n", bus_read_4(sc->sc_res[0], AGP_I810_PGTBL_CTL)); device_printf(dev, "AGP_I830_GCC1: 0x%02x\n", pci_read_config(sc->bdev, AGP_I830_GCC1, 1)); } static void agp_i855_dump_regs(device_t dev) { struct agp_i810_softc *sc = device_get_softc(dev); device_printf(dev, "AGP_I810_PGTBL_CTL: %08x\n", bus_read_4(sc->sc_res[0], AGP_I810_PGTBL_CTL)); device_printf(dev, "AGP_I855_GCC1: 0x%02x\n", pci_read_config(sc->bdev, AGP_I855_GCC1, 1)); } static void agp_i915_dump_regs(device_t dev) { struct agp_i810_softc *sc = device_get_softc(dev); device_printf(dev, "AGP_I810_PGTBL_CTL: %08x\n", bus_read_4(sc->sc_res[0], AGP_I810_PGTBL_CTL)); device_printf(dev, "AGP_I855_GCC1: 0x%02x\n", pci_read_config(sc->bdev, AGP_I855_GCC1, 1)); device_printf(dev, "AGP_I915_MSAC: 0x%02x\n", pci_read_config(sc->bdev, AGP_I915_MSAC, 1)); } static void agp_i965_dump_regs(device_t dev) { struct agp_i810_softc *sc = device_get_softc(dev); device_printf(dev, "AGP_I965_PGTBL_CTL2: %08x\n", bus_read_4(sc->sc_res[0], AGP_I965_PGTBL_CTL2)); device_printf(dev, "AGP_I855_GCC1: 0x%02x\n", pci_read_config(sc->bdev, AGP_I855_GCC1, 1)); device_printf(dev, "AGP_I965_MSAC: 0x%02x\n", pci_read_config(sc->bdev, AGP_I965_MSAC, 1)); } static int agp_i810_get_stolen_size(device_t dev) { struct agp_i810_softc *sc; sc = device_get_softc(dev); sc->stolen = 0; sc->stolen_size = 0; return (0); } static int agp_i830_get_stolen_size(device_t dev) { struct agp_i810_softc *sc; unsigned int gcc1; sc = device_get_softc(dev); gcc1 = pci_read_config(sc->bdev, AGP_I830_GCC1, 1); switch (gcc1 & AGP_I830_GCC1_GMS) { case AGP_I830_GCC1_GMS_STOLEN_512: sc->stolen = (512 - 132) * 1024 / 4096; sc->stolen_size = 512 * 1024; break; case AGP_I830_GCC1_GMS_STOLEN_1024: sc->stolen = (1024 - 132) * 1024 / 4096; sc->stolen_size = 1024 * 1024; break; case AGP_I830_GCC1_GMS_STOLEN_8192: sc->stolen = (8192 - 132) * 1024 / 4096; sc->stolen_size = 8192 * 1024; break; default: sc->stolen = 0; device_printf(dev, "unknown memory configuration, disabling (GCC1 %x)\n", gcc1); return (EINVAL); } return (0); } static int agp_i915_get_stolen_size(device_t dev) { struct agp_i810_softc *sc; unsigned int gcc1, stolen, gtt_size; sc = device_get_softc(dev); /* * Stolen memory is set up at the beginning of the aperture by * the BIOS, consisting of the GATT followed by 4kb for the * BIOS display. */ switch (sc->match->driver->chiptype) { case CHIP_I855: gtt_size = 128; break; case CHIP_I915: gtt_size = 256; break; case CHIP_I965: switch (bus_read_4(sc->sc_res[0], AGP_I810_PGTBL_CTL) & AGP_I810_PGTBL_SIZE_MASK) { case AGP_I810_PGTBL_SIZE_128KB: gtt_size = 128; break; case AGP_I810_PGTBL_SIZE_256KB: gtt_size = 256; break; case AGP_I810_PGTBL_SIZE_512KB: gtt_size = 512; break; case AGP_I965_PGTBL_SIZE_1MB: gtt_size = 1024; break; case AGP_I965_PGTBL_SIZE_2MB: gtt_size = 2048; break; case AGP_I965_PGTBL_SIZE_1_5MB: gtt_size = 1024 + 512; break; default: device_printf(dev, "Bad PGTBL size\n"); return (EINVAL); } break; case CHIP_G33: gcc1 = pci_read_config(sc->bdev, AGP_I855_GCC1, 2); switch (gcc1 & AGP_G33_MGGC_GGMS_MASK) { case AGP_G33_MGGC_GGMS_SIZE_1M: gtt_size = 1024; break; case AGP_G33_MGGC_GGMS_SIZE_2M: gtt_size = 2048; break; default: device_printf(dev, "Bad PGTBL size\n"); return (EINVAL); } break; case CHIP_IGD: case CHIP_G4X: gtt_size = 0; break; default: device_printf(dev, "Bad chiptype\n"); return (EINVAL); } /* GCC1 is called MGGC on i915+ */ gcc1 = pci_read_config(sc->bdev, AGP_I855_GCC1, 1); switch (gcc1 & AGP_I855_GCC1_GMS) { case AGP_I855_GCC1_GMS_STOLEN_1M: stolen = 1024; break; case AGP_I855_GCC1_GMS_STOLEN_4M: stolen = 4 * 1024; break; case AGP_I855_GCC1_GMS_STOLEN_8M: stolen = 8 * 1024; break; case AGP_I855_GCC1_GMS_STOLEN_16M: stolen = 16 * 1024; break; case AGP_I855_GCC1_GMS_STOLEN_32M: stolen = 32 * 1024; break; case AGP_I915_GCC1_GMS_STOLEN_48M: stolen = sc->match->driver->gen > 2 ? 48 * 1024 : 0; break; case AGP_I915_GCC1_GMS_STOLEN_64M: stolen = sc->match->driver->gen > 2 ? 64 * 1024 : 0; break; case AGP_G33_GCC1_GMS_STOLEN_128M: stolen = sc->match->driver->gen > 2 ? 128 * 1024 : 0; break; case AGP_G33_GCC1_GMS_STOLEN_256M: stolen = sc->match->driver->gen > 2 ? 256 * 1024 : 0; break; case AGP_G4X_GCC1_GMS_STOLEN_96M: if (sc->match->driver->chiptype == CHIP_I965 || sc->match->driver->chiptype == CHIP_G4X) stolen = 96 * 1024; else stolen = 0; break; case AGP_G4X_GCC1_GMS_STOLEN_160M: if (sc->match->driver->chiptype == CHIP_I965 || sc->match->driver->chiptype == CHIP_G4X) stolen = 160 * 1024; else stolen = 0; break; case AGP_G4X_GCC1_GMS_STOLEN_224M: if (sc->match->driver->chiptype == CHIP_I965 || sc->match->driver->chiptype == CHIP_G4X) stolen = 224 * 1024; else stolen = 0; break; case AGP_G4X_GCC1_GMS_STOLEN_352M: if (sc->match->driver->chiptype == CHIP_I965 || sc->match->driver->chiptype == CHIP_G4X) stolen = 352 * 1024; else stolen = 0; break; default: device_printf(dev, "unknown memory configuration, disabling (GCC1 %x)\n", gcc1); return (EINVAL); } gtt_size += 4; sc->stolen_size = stolen * 1024; sc->stolen = (stolen - gtt_size) * 1024 / 4096; return (0); } static int agp_i810_get_gtt_mappable_entries(device_t dev) { struct agp_i810_softc *sc; uint32_t ap; uint16_t miscc; sc = device_get_softc(dev); miscc = pci_read_config(sc->bdev, AGP_I810_MISCC, 2); if ((miscc & AGP_I810_MISCC_WINSIZE) == AGP_I810_MISCC_WINSIZE_32) ap = 32; else ap = 64; sc->gtt_mappable_entries = (ap * 1024 * 1024) >> AGP_PAGE_SHIFT; return (0); } static int agp_i830_get_gtt_mappable_entries(device_t dev) { struct agp_i810_softc *sc; uint32_t ap; uint16_t gmch_ctl; sc = device_get_softc(dev); gmch_ctl = pci_read_config(sc->bdev, AGP_I830_GCC1, 2); if ((gmch_ctl & AGP_I830_GCC1_GMASIZE) == AGP_I830_GCC1_GMASIZE_64) ap = 64; else ap = 128; sc->gtt_mappable_entries = (ap * 1024 * 1024) >> AGP_PAGE_SHIFT; return (0); } static int agp_i915_get_gtt_mappable_entries(device_t dev) { struct agp_i810_softc *sc; uint32_t ap; sc = device_get_softc(dev); ap = AGP_GET_APERTURE(dev); sc->gtt_mappable_entries = ap >> AGP_PAGE_SHIFT; return (0); } static int agp_i810_get_gtt_total_entries(device_t dev) { struct agp_i810_softc *sc; sc = device_get_softc(dev); sc->gtt_total_entries = sc->gtt_mappable_entries; return (0); } static int agp_i965_get_gtt_total_entries(device_t dev) { struct agp_i810_softc *sc; uint32_t pgetbl_ctl; int error; sc = device_get_softc(dev); error = 0; pgetbl_ctl = bus_read_4(sc->sc_res[0], AGP_I810_PGTBL_CTL); switch (pgetbl_ctl & AGP_I810_PGTBL_SIZE_MASK) { case AGP_I810_PGTBL_SIZE_128KB: sc->gtt_total_entries = 128 * 1024 / 4; break; case AGP_I810_PGTBL_SIZE_256KB: sc->gtt_total_entries = 256 * 1024 / 4; break; case AGP_I810_PGTBL_SIZE_512KB: sc->gtt_total_entries = 512 * 1024 / 4; break; /* GTT pagetable sizes bigger than 512KB are not possible on G33! */ case AGP_I810_PGTBL_SIZE_1MB: sc->gtt_total_entries = 1024 * 1024 / 4; break; case AGP_I810_PGTBL_SIZE_2MB: sc->gtt_total_entries = 2 * 1024 * 1024 / 4; break; case AGP_I810_PGTBL_SIZE_1_5MB: sc->gtt_total_entries = (1024 + 512) * 1024 / 4; break; default: device_printf(dev, "Unknown page table size\n"); error = ENXIO; } return (error); } static void agp_gen5_adjust_pgtbl_size(device_t dev, uint32_t sz) { struct agp_i810_softc *sc; uint32_t pgetbl_ctl, pgetbl_ctl2; sc = device_get_softc(dev); /* Disable per-process page table. */ pgetbl_ctl2 = bus_read_4(sc->sc_res[0], AGP_I965_PGTBL_CTL2); pgetbl_ctl2 &= ~AGP_I810_PGTBL_ENABLED; bus_write_4(sc->sc_res[0], AGP_I965_PGTBL_CTL2, pgetbl_ctl2); /* Write the new ggtt size. */ pgetbl_ctl = bus_read_4(sc->sc_res[0], AGP_I810_PGTBL_CTL); pgetbl_ctl &= ~AGP_I810_PGTBL_SIZE_MASK; pgetbl_ctl |= sz; bus_write_4(sc->sc_res[0], AGP_I810_PGTBL_CTL, pgetbl_ctl); } static int agp_gen5_get_gtt_total_entries(device_t dev) { struct agp_i810_softc *sc; uint16_t gcc1; sc = device_get_softc(dev); gcc1 = pci_read_config(sc->bdev, AGP_I830_GCC1, 2); switch (gcc1 & AGP_G4x_GCC1_SIZE_MASK) { case AGP_G4x_GCC1_SIZE_1M: case AGP_G4x_GCC1_SIZE_VT_1M: agp_gen5_adjust_pgtbl_size(dev, AGP_I810_PGTBL_SIZE_1MB); break; case AGP_G4x_GCC1_SIZE_VT_1_5M: agp_gen5_adjust_pgtbl_size(dev, AGP_I810_PGTBL_SIZE_1_5MB); break; case AGP_G4x_GCC1_SIZE_2M: case AGP_G4x_GCC1_SIZE_VT_2M: agp_gen5_adjust_pgtbl_size(dev, AGP_I810_PGTBL_SIZE_2MB); break; default: device_printf(dev, "Unknown page table size\n"); return (ENXIO); } return (agp_i965_get_gtt_total_entries(dev)); } static int agp_i810_install_gatt(device_t dev) { struct agp_i810_softc *sc; sc = device_get_softc(dev); /* Some i810s have on-chip memory called dcache. */ if ((bus_read_1(sc->sc_res[0], AGP_I810_DRT) & AGP_I810_DRT_POPULATED) != 0) sc->dcache_size = 4 * 1024 * 1024; else sc->dcache_size = 0; /* According to the specs the gatt on the i810 must be 64k. */ sc->gatt->ag_virtual = kmem_alloc_contig(64 * 1024, M_NOWAIT | M_ZERO, 0, ~0, PAGE_SIZE, 0, VM_MEMATTR_WRITE_COMBINING); if (sc->gatt->ag_virtual == NULL) { if (bootverbose) device_printf(dev, "contiguous allocation failed\n"); return (ENOMEM); } sc->gatt->ag_physical = vtophys((vm_offset_t)sc->gatt->ag_virtual); /* Install the GATT. */ bus_write_4(sc->sc_res[0], AGP_I810_PGTBL_CTL, sc->gatt->ag_physical | 1); return (0); } static void agp_i830_install_gatt_init(struct agp_i810_softc *sc) { uint32_t pgtblctl; /* * The i830 automatically initializes the 128k gatt on boot. * GATT address is already in there, make sure it's enabled. */ pgtblctl = bus_read_4(sc->sc_res[0], AGP_I810_PGTBL_CTL); pgtblctl |= 1; bus_write_4(sc->sc_res[0], AGP_I810_PGTBL_CTL, pgtblctl); sc->gatt->ag_physical = pgtblctl & ~1; } static int agp_i830_install_gatt(device_t dev) { struct agp_i810_softc *sc; sc = device_get_softc(dev); agp_i830_install_gatt_init(sc); return (0); } static int agp_gen4_install_gatt(device_t dev, const vm_size_t gtt_offset) { struct agp_i810_softc *sc; sc = device_get_softc(dev); pmap_change_attr((vm_offset_t)rman_get_virtual(sc->sc_res[0]) + gtt_offset, rman_get_size(sc->sc_res[0]) - gtt_offset, VM_MEMATTR_WRITE_COMBINING); agp_i830_install_gatt_init(sc); return (0); } static int agp_i965_install_gatt(device_t dev) { return (agp_gen4_install_gatt(dev, 512 * 1024)); } static int agp_g4x_install_gatt(device_t dev) { return (agp_gen4_install_gatt(dev, 2 * 1024 * 1024)); } static int agp_i810_attach(device_t dev) { struct agp_i810_softc *sc; int error; sc = device_get_softc(dev); sc->bdev = agp_i810_find_bridge(dev); if (sc->bdev == NULL) return (ENOENT); sc->match = agp_i810_match(dev); agp_set_aperture_resource(dev, sc->match->driver->gen <= 2 ? AGP_APBASE : AGP_I915_GMADR); error = agp_generic_attach(dev); if (error) return (error); if (ptoa((vm_paddr_t)Maxmem) > (1ULL << sc->match->driver->busdma_addr_mask_sz) - 1) { device_printf(dev, "agp_i810 does not support physical " "memory above %ju.\n", (uintmax_t)(1ULL << sc->match->driver->busdma_addr_mask_sz) - 1); return (ENOENT); } if (bus_alloc_resources(dev, sc->match->driver->res_spec, sc->sc_res)) { agp_generic_detach(dev); return (ENODEV); } sc->initial_aperture = AGP_GET_APERTURE(dev); sc->gatt = malloc(sizeof(struct agp_gatt), M_AGP, M_WAITOK); sc->gatt->ag_entries = AGP_GET_APERTURE(dev) >> AGP_PAGE_SHIFT; if ((error = sc->match->driver->get_stolen_size(dev)) != 0 || (error = sc->match->driver->install_gatt(dev)) != 0 || (error = sc->match->driver->get_gtt_mappable_entries(dev)) != 0 || (error = sc->match->driver->get_gtt_total_entries(dev)) != 0 || (error = sc->match->driver->chipset_flush_setup(dev)) != 0) { bus_release_resources(dev, sc->match->driver->res_spec, sc->sc_res); free(sc->gatt, M_AGP); agp_generic_detach(dev); return (error); } intel_agp = dev; device_printf(dev, "aperture size is %dM", sc->initial_aperture / 1024 / 1024); if (sc->stolen > 0) printf(", detected %dk stolen memory\n", sc->stolen * 4); else printf("\n"); if (bootverbose) { sc->match->driver->dump_regs(dev); device_printf(dev, "Mappable GTT entries: %d\n", sc->gtt_mappable_entries); device_printf(dev, "Total GTT entries: %d\n", sc->gtt_total_entries); } return (0); } static void agp_i810_deinstall_gatt(device_t dev) { struct agp_i810_softc *sc; sc = device_get_softc(dev); bus_write_4(sc->sc_res[0], AGP_I810_PGTBL_CTL, 0); kmem_free(sc->gatt->ag_virtual, 64 * 1024); } static void agp_i830_deinstall_gatt(device_t dev) { struct agp_i810_softc *sc; unsigned int pgtblctl; sc = device_get_softc(dev); pgtblctl = bus_read_4(sc->sc_res[0], AGP_I810_PGTBL_CTL); pgtblctl &= ~1; bus_write_4(sc->sc_res[0], AGP_I810_PGTBL_CTL, pgtblctl); } static int agp_i810_detach(device_t dev) { struct agp_i810_softc *sc; sc = device_get_softc(dev); agp_free_cdev(dev); /* Clear the GATT base. */ sc->match->driver->deinstall_gatt(dev); sc->match->driver->chipset_flush_teardown(dev); /* Put the aperture back the way it started. */ AGP_SET_APERTURE(dev, sc->initial_aperture); free(sc->gatt, M_AGP); bus_release_resources(dev, sc->match->driver->res_spec, sc->sc_res); agp_free_res(dev); return (0); } static int agp_i810_resume(device_t dev) { struct agp_i810_softc *sc; sc = device_get_softc(dev); AGP_SET_APERTURE(dev, sc->initial_aperture); /* Install the GATT. */ bus_write_4(sc->sc_res[0], AGP_I810_PGTBL_CTL, sc->gatt->ag_physical | 1); return (bus_generic_resume(dev)); } /** * Sets the PCI resource size of the aperture on i830-class and below chipsets, * while returning failure on later chipsets when an actual change is * requested. * * This whole function is likely bogus, as the kernel would probably need to * reconfigure the placement of the AGP aperture if a larger size is requested, * which doesn't happen currently. */ static int agp_i810_set_aperture(device_t dev, u_int32_t aperture) { struct agp_i810_softc *sc; u_int16_t miscc; sc = device_get_softc(dev); /* * Double check for sanity. */ if (aperture != 32 * 1024 * 1024 && aperture != 64 * 1024 * 1024) { device_printf(dev, "bad aperture size %d\n", aperture); return (EINVAL); } miscc = pci_read_config(sc->bdev, AGP_I810_MISCC, 2); miscc &= ~AGP_I810_MISCC_WINSIZE; if (aperture == 32 * 1024 * 1024) miscc |= AGP_I810_MISCC_WINSIZE_32; else miscc |= AGP_I810_MISCC_WINSIZE_64; pci_write_config(sc->bdev, AGP_I810_MISCC, miscc, 2); return (0); } static int agp_i830_set_aperture(device_t dev, u_int32_t aperture) { struct agp_i810_softc *sc; u_int16_t gcc1; sc = device_get_softc(dev); if (aperture != 64 * 1024 * 1024 && aperture != 128 * 1024 * 1024) { device_printf(dev, "bad aperture size %d\n", aperture); return (EINVAL); } gcc1 = pci_read_config(sc->bdev, AGP_I830_GCC1, 2); gcc1 &= ~AGP_I830_GCC1_GMASIZE; if (aperture == 64 * 1024 * 1024) gcc1 |= AGP_I830_GCC1_GMASIZE_64; else gcc1 |= AGP_I830_GCC1_GMASIZE_128; pci_write_config(sc->bdev, AGP_I830_GCC1, gcc1, 2); return (0); } static int agp_i915_set_aperture(device_t dev, u_int32_t aperture) { return (agp_generic_set_aperture(dev, aperture)); } static int agp_i810_method_set_aperture(device_t dev, u_int32_t aperture) { struct agp_i810_softc *sc; sc = device_get_softc(dev); return (sc->match->driver->set_aperture(dev, aperture)); } /** * Writes a GTT entry mapping the page at the given offset from the * beginning of the aperture to the given physical address. Setup the * caching mode according to flags. * * For gen 1, 2 and 3, GTT start is located at AGP_I810_GTT offset * from corresponding BAR start. For gen 4, offset is 512KB + * AGP_I810_GTT, for gen 5 and 6 it is 2MB + AGP_I810_GTT. * * Also, the bits of the physical page address above 4GB needs to be * placed into bits 40-32 of PTE. */ static void agp_i810_install_gtt_pte(device_t dev, u_int index, vm_offset_t physical, int flags) { uint32_t pte; pte = (u_int32_t)physical | I810_PTE_VALID; if (flags == AGP_DCACHE_MEMORY) pte |= I810_PTE_LOCAL; else if (flags == AGP_USER_CACHED_MEMORY) pte |= I830_PTE_SYSTEM_CACHED; agp_i810_write_gtt(dev, index, pte); } static void agp_i810_write_gtt(device_t dev, u_int index, uint32_t pte) { struct agp_i810_softc *sc; sc = device_get_softc(dev); bus_write_4(sc->sc_res[0], AGP_I810_GTT + index * 4, pte); CTR2(KTR_AGP_I810, "810_pte %x %x", index, pte); } static void agp_i830_install_gtt_pte(device_t dev, u_int index, vm_offset_t physical, int flags) { uint32_t pte; pte = (u_int32_t)physical | I810_PTE_VALID; if (flags == AGP_USER_CACHED_MEMORY) pte |= I830_PTE_SYSTEM_CACHED; agp_i810_write_gtt(dev, index, pte); } static void agp_i915_install_gtt_pte(device_t dev, u_int index, vm_offset_t physical, int flags) { uint32_t pte; pte = (u_int32_t)physical | I810_PTE_VALID; if (flags == AGP_USER_CACHED_MEMORY) pte |= I830_PTE_SYSTEM_CACHED; pte |= (physical & 0x0000000f00000000ull) >> 28; agp_i915_write_gtt(dev, index, pte); } static void agp_i915_write_gtt(device_t dev, u_int index, uint32_t pte) { struct agp_i810_softc *sc; sc = device_get_softc(dev); bus_write_4(sc->sc_res[1], index * 4, pte); CTR2(KTR_AGP_I810, "915_pte %x %x", index, pte); } static void agp_i965_install_gtt_pte(device_t dev, u_int index, vm_offset_t physical, int flags) { uint32_t pte; pte = (u_int32_t)physical | I810_PTE_VALID; if (flags == AGP_USER_CACHED_MEMORY) pte |= I830_PTE_SYSTEM_CACHED; pte |= (physical & 0x0000000f00000000ull) >> 28; agp_i965_write_gtt(dev, index, pte); } static void agp_i965_write_gtt(device_t dev, u_int index, uint32_t pte) { struct agp_i810_softc *sc; sc = device_get_softc(dev); bus_write_4(sc->sc_res[0], index * 4 + (512 * 1024), pte); CTR2(KTR_AGP_I810, "965_pte %x %x", index, pte); } static void agp_g4x_install_gtt_pte(device_t dev, u_int index, vm_offset_t physical, int flags) { uint32_t pte; pte = (u_int32_t)physical | I810_PTE_VALID; if (flags == AGP_USER_CACHED_MEMORY) pte |= I830_PTE_SYSTEM_CACHED; pte |= (physical & 0x0000000f00000000ull) >> 28; agp_g4x_write_gtt(dev, index, pte); } static void agp_g4x_write_gtt(device_t dev, u_int index, uint32_t pte) { struct agp_i810_softc *sc; sc = device_get_softc(dev); bus_write_4(sc->sc_res[0], index * 4 + (2 * 1024 * 1024), pte); CTR2(KTR_AGP_I810, "g4x_pte %x %x", index, pte); } static int agp_i810_bind_page(device_t dev, vm_offset_t offset, vm_offset_t physical) { struct agp_i810_softc *sc = device_get_softc(dev); u_int index; if (offset >= (sc->gatt->ag_entries << AGP_PAGE_SHIFT)) { device_printf(dev, "failed: offset is 0x%08jx, " "shift is %d, entries is %d\n", (intmax_t)offset, AGP_PAGE_SHIFT, sc->gatt->ag_entries); return (EINVAL); } index = offset >> AGP_PAGE_SHIFT; if (sc->stolen != 0 && index < sc->stolen) { device_printf(dev, "trying to bind into stolen memory\n"); return (EINVAL); } sc->match->driver->install_gtt_pte(dev, index, physical, 0); return (0); } static int agp_i810_unbind_page(device_t dev, vm_offset_t offset) { struct agp_i810_softc *sc; u_int index; sc = device_get_softc(dev); if (offset >= (sc->gatt->ag_entries << AGP_PAGE_SHIFT)) return (EINVAL); index = offset >> AGP_PAGE_SHIFT; if (sc->stolen != 0 && index < sc->stolen) { device_printf(dev, "trying to unbind from stolen memory\n"); return (EINVAL); } sc->match->driver->install_gtt_pte(dev, index, 0, 0); return (0); } static u_int32_t agp_i810_read_gtt_pte(device_t dev, u_int index) { struct agp_i810_softc *sc; u_int32_t pte; sc = device_get_softc(dev); pte = bus_read_4(sc->sc_res[0], AGP_I810_GTT + index * 4); return (pte); } static u_int32_t agp_i915_read_gtt_pte(device_t dev, u_int index) { struct agp_i810_softc *sc; u_int32_t pte; sc = device_get_softc(dev); pte = bus_read_4(sc->sc_res[1], index * 4); return (pte); } static u_int32_t agp_i965_read_gtt_pte(device_t dev, u_int index) { struct agp_i810_softc *sc; u_int32_t pte; sc = device_get_softc(dev); pte = bus_read_4(sc->sc_res[0], index * 4 + (512 * 1024)); return (pte); } static u_int32_t agp_g4x_read_gtt_pte(device_t dev, u_int index) { struct agp_i810_softc *sc; u_int32_t pte; sc = device_get_softc(dev); pte = bus_read_4(sc->sc_res[0], index * 4 + (2 * 1024 * 1024)); return (pte); } static vm_paddr_t agp_i810_read_gtt_pte_paddr(device_t dev, u_int index) { struct agp_i810_softc *sc; u_int32_t pte; vm_paddr_t res; sc = device_get_softc(dev); pte = sc->match->driver->read_gtt_pte(dev, index); res = pte & ~PAGE_MASK; return (res); } static vm_paddr_t agp_i915_read_gtt_pte_paddr(device_t dev, u_int index) { struct agp_i810_softc *sc; u_int32_t pte; vm_paddr_t res; sc = device_get_softc(dev); pte = sc->match->driver->read_gtt_pte(dev, index); res = (pte & ~PAGE_MASK) | ((pte & 0xf0) << 28); return (res); } /* * Writing via memory mapped registers already flushes all TLBs. */ static void agp_i810_flush_tlb(device_t dev) { } static int agp_i810_enable(device_t dev, u_int32_t mode) { return (0); } static struct agp_memory * agp_i810_alloc_memory(device_t dev, int type, vm_size_t size) { struct agp_i810_softc *sc; struct agp_memory *mem; vm_page_t m; sc = device_get_softc(dev); if ((size & (AGP_PAGE_SIZE - 1)) != 0 || sc->agp.as_allocated + size > sc->agp.as_maxmem) return (0); if (type == 1) { /* * Mapping local DRAM into GATT. */ if (sc->match->driver->chiptype != CHIP_I810) return (0); if (size != sc->dcache_size) return (0); } else if (type == 2) { /* * Type 2 is the contiguous physical memory type, that hands * back a physical address. This is used for cursors on i810. * Hand back as many single pages with physical as the user * wants, but only allow one larger allocation (ARGB cursor) * for simplicity. */ if (size != AGP_PAGE_SIZE) { if (sc->argb_cursor != NULL) return (0); /* Allocate memory for ARGB cursor, if we can. */ sc->argb_cursor = contigmalloc(size, M_AGP, 0, 0, ~0, PAGE_SIZE, 0); if (sc->argb_cursor == NULL) return (0); } } mem = malloc(sizeof *mem, M_AGP, M_WAITOK); mem->am_id = sc->agp.as_nextid++; mem->am_size = size; mem->am_type = type; if (type != 1 && (type != 2 || size == AGP_PAGE_SIZE)) mem->am_obj = vm_object_allocate(OBJT_SWAP, atop(round_page(size))); else mem->am_obj = 0; if (type == 2) { if (size == AGP_PAGE_SIZE) { /* * Allocate and wire down the page now so that we can * get its physical address. */ VM_OBJECT_WLOCK(mem->am_obj); m = vm_page_grab(mem->am_obj, 0, VM_ALLOC_NOBUSY | VM_ALLOC_WIRED | VM_ALLOC_ZERO); VM_OBJECT_WUNLOCK(mem->am_obj); mem->am_physical = VM_PAGE_TO_PHYS(m); } else { /* Our allocation is already nicely wired down for us. * Just grab the physical address. */ mem->am_physical = vtophys(sc->argb_cursor); } } else mem->am_physical = 0; mem->am_offset = 0; mem->am_is_bound = 0; TAILQ_INSERT_TAIL(&sc->agp.as_memory, mem, am_link); sc->agp.as_allocated += size; return (mem); } static int agp_i810_free_memory(device_t dev, struct agp_memory *mem) { struct agp_i810_softc *sc; vm_page_t m; if (mem->am_is_bound) return (EBUSY); sc = device_get_softc(dev); if (mem->am_type == 2) { if (mem->am_size == AGP_PAGE_SIZE) { /* * Unwire the page which we wired in alloc_memory. */ VM_OBJECT_WLOCK(mem->am_obj); m = vm_page_lookup(mem->am_obj, 0); vm_page_unwire(m, PQ_INACTIVE); VM_OBJECT_WUNLOCK(mem->am_obj); } else { contigfree(sc->argb_cursor, mem->am_size, M_AGP); sc->argb_cursor = NULL; } } sc->agp.as_allocated -= mem->am_size; TAILQ_REMOVE(&sc->agp.as_memory, mem, am_link); if (mem->am_obj) vm_object_deallocate(mem->am_obj); free(mem, M_AGP); return (0); } static int agp_i810_bind_memory(device_t dev, struct agp_memory *mem, vm_offset_t offset) { struct agp_i810_softc *sc; vm_offset_t i; /* Do some sanity checks first. */ if ((offset & (AGP_PAGE_SIZE - 1)) != 0 || offset + mem->am_size > AGP_GET_APERTURE(dev)) { device_printf(dev, "binding memory at bad offset %#x\n", (int)offset); return (EINVAL); } sc = device_get_softc(dev); if (mem->am_type == 2 && mem->am_size != AGP_PAGE_SIZE) { mtx_lock(&sc->agp.as_lock); if (mem->am_is_bound) { mtx_unlock(&sc->agp.as_lock); return (EINVAL); } /* The memory's already wired down, just stick it in the GTT. */ for (i = 0; i < mem->am_size; i += AGP_PAGE_SIZE) { sc->match->driver->install_gtt_pte(dev, (offset + i) >> AGP_PAGE_SHIFT, mem->am_physical + i, 0); } mem->am_offset = offset; mem->am_is_bound = 1; mtx_unlock(&sc->agp.as_lock); return (0); } if (mem->am_type != 1) return (agp_generic_bind_memory(dev, mem, offset)); /* * Mapping local DRAM into GATT. */ if (sc->match->driver->chiptype != CHIP_I810) return (EINVAL); for (i = 0; i < mem->am_size; i += AGP_PAGE_SIZE) bus_write_4(sc->sc_res[0], AGP_I810_GTT + (i >> AGP_PAGE_SHIFT) * 4, i | 3); return (0); } static int agp_i810_unbind_memory(device_t dev, struct agp_memory *mem) { struct agp_i810_softc *sc; vm_offset_t i; sc = device_get_softc(dev); if (mem->am_type == 2 && mem->am_size != AGP_PAGE_SIZE) { mtx_lock(&sc->agp.as_lock); if (!mem->am_is_bound) { mtx_unlock(&sc->agp.as_lock); return (EINVAL); } for (i = 0; i < mem->am_size; i += AGP_PAGE_SIZE) { sc->match->driver->install_gtt_pte(dev, (mem->am_offset + i) >> AGP_PAGE_SHIFT, 0, 0); } mem->am_is_bound = 0; mtx_unlock(&sc->agp.as_lock); return (0); } if (mem->am_type != 1) return (agp_generic_unbind_memory(dev, mem)); if (sc->match->driver->chiptype != CHIP_I810) return (EINVAL); for (i = 0; i < mem->am_size; i += AGP_PAGE_SIZE) { sc->match->driver->install_gtt_pte(dev, i >> AGP_PAGE_SHIFT, 0, 0); } return (0); } static device_method_t agp_i810_methods[] = { /* Device interface */ DEVMETHOD(device_identify, agp_i810_identify), DEVMETHOD(device_probe, agp_i810_probe), DEVMETHOD(device_attach, agp_i810_attach), DEVMETHOD(device_detach, agp_i810_detach), DEVMETHOD(device_suspend, bus_generic_suspend), DEVMETHOD(device_resume, agp_i810_resume), /* AGP interface */ DEVMETHOD(agp_get_aperture, agp_generic_get_aperture), DEVMETHOD(agp_set_aperture, agp_i810_method_set_aperture), DEVMETHOD(agp_bind_page, agp_i810_bind_page), DEVMETHOD(agp_unbind_page, agp_i810_unbind_page), DEVMETHOD(agp_flush_tlb, agp_i810_flush_tlb), DEVMETHOD(agp_enable, agp_i810_enable), DEVMETHOD(agp_alloc_memory, agp_i810_alloc_memory), DEVMETHOD(agp_free_memory, agp_i810_free_memory), DEVMETHOD(agp_bind_memory, agp_i810_bind_memory), DEVMETHOD(agp_unbind_memory, agp_i810_unbind_memory), DEVMETHOD(agp_chipset_flush, agp_intel_gtt_chipset_flush), { 0, 0 } }; static driver_t agp_i810_driver = { "agp", agp_i810_methods, sizeof(struct agp_i810_softc), }; DRIVER_MODULE(agp_i810, vgapci, agp_i810_driver, 0, 0); MODULE_DEPEND(agp_i810, agp, 1, 1, 1); MODULE_DEPEND(agp_i810, pci, 1, 1, 1); void agp_intel_gtt_clear_range(device_t dev, u_int first_entry, u_int num_entries) { struct agp_i810_softc *sc; u_int i; sc = device_get_softc(dev); for (i = 0; i < num_entries; i++) sc->match->driver->install_gtt_pte(dev, first_entry + i, VM_PAGE_TO_PHYS(bogus_page), 0); sc->match->driver->read_gtt_pte(dev, first_entry + num_entries - 1); } void agp_intel_gtt_insert_pages(device_t dev, u_int first_entry, u_int num_entries, vm_page_t *pages, u_int flags) { struct agp_i810_softc *sc; u_int i; sc = device_get_softc(dev); for (i = 0; i < num_entries; i++) { MPASS(pages[i]->valid == VM_PAGE_BITS_ALL); MPASS(pages[i]->ref_count > 0); sc->match->driver->install_gtt_pte(dev, first_entry + i, VM_PAGE_TO_PHYS(pages[i]), flags); } sc->match->driver->read_gtt_pte(dev, first_entry + num_entries - 1); } struct intel_gtt agp_intel_gtt_get(device_t dev) { struct agp_i810_softc *sc; struct intel_gtt res; sc = device_get_softc(dev); res.stolen_size = sc->stolen_size; res.gtt_total_entries = sc->gtt_total_entries; res.gtt_mappable_entries = sc->gtt_mappable_entries; res.do_idle_maps = 0; res.scratch_page_dma = VM_PAGE_TO_PHYS(bogus_page); if (sc->agp.as_aperture != NULL) res.gma_bus_addr = rman_get_start(sc->agp.as_aperture); else res.gma_bus_addr = 0; return (res); } static int agp_i810_chipset_flush_setup(device_t dev) { return (0); } static void agp_i810_chipset_flush_teardown(device_t dev) { /* Nothing to do. */ } static void agp_i810_chipset_flush(device_t dev) { /* Nothing to do. */ } static void agp_i830_chipset_flush(device_t dev) { struct agp_i810_softc *sc; uint32_t hic; int i; sc = device_get_softc(dev); pmap_invalidate_cache(); hic = bus_read_4(sc->sc_res[0], AGP_I830_HIC); bus_write_4(sc->sc_res[0], AGP_I830_HIC, hic | (1U << 31)); for (i = 0; i < 20000 /* 1 sec */; i++) { hic = bus_read_4(sc->sc_res[0], AGP_I830_HIC); if ((hic & (1U << 31)) == 0) break; DELAY(50); } } static int agp_i915_chipset_flush_alloc_page(device_t dev, uint64_t start, uint64_t end) { struct agp_i810_softc *sc; device_t vga; sc = device_get_softc(dev); vga = device_get_parent(dev); sc->sc_flush_page_rid = 100; sc->sc_flush_page_res = BUS_ALLOC_RESOURCE(device_get_parent(vga), dev, SYS_RES_MEMORY, &sc->sc_flush_page_rid, start, end, PAGE_SIZE, RF_ACTIVE); if (sc->sc_flush_page_res == NULL) { device_printf(dev, "Failed to allocate flush page at 0x%jx\n", (uintmax_t)start); return (EINVAL); } sc->sc_flush_page_vaddr = rman_get_virtual(sc->sc_flush_page_res); if (bootverbose) { device_printf(dev, "Allocated flush page phys 0x%jx virt %p\n", (uintmax_t)rman_get_start(sc->sc_flush_page_res), sc->sc_flush_page_vaddr); } return (0); } static void agp_i915_chipset_flush_free_page(device_t dev) { struct agp_i810_softc *sc; device_t vga; sc = device_get_softc(dev); vga = device_get_parent(dev); if (sc->sc_flush_page_res == NULL) return; BUS_DEACTIVATE_RESOURCE(device_get_parent(vga), dev, SYS_RES_MEMORY, sc->sc_flush_page_rid, sc->sc_flush_page_res); BUS_RELEASE_RESOURCE(device_get_parent(vga), dev, SYS_RES_MEMORY, sc->sc_flush_page_rid, sc->sc_flush_page_res); } static int agp_i915_chipset_flush_setup(device_t dev) { struct agp_i810_softc *sc; uint32_t temp; int error; sc = device_get_softc(dev); temp = pci_read_config(sc->bdev, AGP_I915_IFPADDR, 4); if ((temp & 1) != 0) { temp &= ~1; if (bootverbose) device_printf(dev, "Found already configured flush page at 0x%jx\n", (uintmax_t)temp); sc->sc_bios_allocated_flush_page = 1; /* * In the case BIOS initialized the flush pointer (?) * register, expect that BIOS also set up the resource * for the page. */ error = agp_i915_chipset_flush_alloc_page(dev, temp, temp + PAGE_SIZE - 1); if (error != 0) return (error); } else { sc->sc_bios_allocated_flush_page = 0; error = agp_i915_chipset_flush_alloc_page(dev, 0, 0xffffffff); if (error != 0) return (error); temp = rman_get_start(sc->sc_flush_page_res); pci_write_config(sc->bdev, AGP_I915_IFPADDR, temp | 1, 4); } return (0); } static void agp_i915_chipset_flush_teardown(device_t dev) { struct agp_i810_softc *sc; uint32_t temp; sc = device_get_softc(dev); if (sc->sc_flush_page_res == NULL) return; if (!sc->sc_bios_allocated_flush_page) { temp = pci_read_config(sc->bdev, AGP_I915_IFPADDR, 4); temp &= ~1; pci_write_config(sc->bdev, AGP_I915_IFPADDR, temp, 4); } agp_i915_chipset_flush_free_page(dev); } static int agp_i965_chipset_flush_setup(device_t dev) { struct agp_i810_softc *sc; uint64_t temp; uint32_t temp_hi, temp_lo; int error; sc = device_get_softc(dev); temp_hi = pci_read_config(sc->bdev, AGP_I965_IFPADDR + 4, 4); temp_lo = pci_read_config(sc->bdev, AGP_I965_IFPADDR, 4); if ((temp_lo & 1) != 0) { temp = ((uint64_t)temp_hi << 32) | (temp_lo & ~1); if (bootverbose) device_printf(dev, "Found already configured flush page at 0x%jx\n", (uintmax_t)temp); sc->sc_bios_allocated_flush_page = 1; /* * In the case BIOS initialized the flush pointer (?) * register, expect that BIOS also set up the resource * for the page. */ error = agp_i915_chipset_flush_alloc_page(dev, temp, temp + PAGE_SIZE - 1); if (error != 0) return (error); } else { sc->sc_bios_allocated_flush_page = 0; error = agp_i915_chipset_flush_alloc_page(dev, 0, ~0); if (error != 0) return (error); temp = rman_get_start(sc->sc_flush_page_res); pci_write_config(sc->bdev, AGP_I965_IFPADDR + 4, (temp >> 32) & UINT32_MAX, 4); pci_write_config(sc->bdev, AGP_I965_IFPADDR, (temp & UINT32_MAX) | 1, 4); } return (0); } static void agp_i965_chipset_flush_teardown(device_t dev) { struct agp_i810_softc *sc; uint32_t temp_lo; sc = device_get_softc(dev); if (sc->sc_flush_page_res == NULL) return; if (!sc->sc_bios_allocated_flush_page) { temp_lo = pci_read_config(sc->bdev, AGP_I965_IFPADDR, 4); temp_lo &= ~1; pci_write_config(sc->bdev, AGP_I965_IFPADDR, temp_lo, 4); } agp_i915_chipset_flush_free_page(dev); } static void agp_i915_chipset_flush(device_t dev) { struct agp_i810_softc *sc; sc = device_get_softc(dev); *(uint32_t *)sc->sc_flush_page_vaddr = 1; } int agp_intel_gtt_chipset_flush(device_t dev) { struct agp_i810_softc *sc; sc = device_get_softc(dev); sc->match->driver->chipset_flush(dev); return (0); } void agp_intel_gtt_unmap_memory(device_t dev, struct sglist *sg_list) { } int agp_intel_gtt_map_memory(device_t dev, vm_page_t *pages, u_int num_entries, struct sglist **sg_list) { #if 0 struct agp_i810_softc *sc; #endif struct sglist *sg; int i; #if 0 int error; bus_dma_tag_t dmat; #endif if (*sg_list != NULL) return (0); #if 0 sc = device_get_softc(dev); #endif sg = sglist_alloc(num_entries, M_WAITOK /* XXXKIB */); for (i = 0; i < num_entries; i++) { sg->sg_segs[i].ss_paddr = VM_PAGE_TO_PHYS(pages[i]); sg->sg_segs[i].ss_len = PAGE_SIZE; } #if 0 error = bus_dma_tag_create(bus_get_dma_tag(dev), 1 /* alignment */, 0 /* boundary */, 1ULL << sc->match->busdma_addr_mask_sz /* lowaddr */, BUS_SPACE_MAXADDR /* highaddr */, NULL /* filtfunc */, NULL /* filtfuncarg */, BUS_SPACE_MAXADDR /* maxsize */, BUS_SPACE_UNRESTRICTED /* nsegments */, BUS_SPACE_MAXADDR /* maxsegsz */, 0 /* flags */, NULL /* lockfunc */, NULL /* lockfuncarg */, &dmat); if (error != 0) { sglist_free(sg); return (error); } /* XXXKIB */ #endif *sg_list = sg; return (0); } static void agp_intel_gtt_install_pte(device_t dev, u_int index, vm_paddr_t addr, u_int flags) { struct agp_i810_softc *sc; sc = device_get_softc(dev); sc->match->driver->install_gtt_pte(dev, index, addr, flags); } void agp_intel_gtt_insert_sg_entries(device_t dev, struct sglist *sg_list, u_int first_entry, u_int flags) { struct agp_i810_softc *sc; vm_paddr_t spaddr; size_t slen; u_int i, j; sc = device_get_softc(dev); for (i = j = 0; j < sg_list->sg_nseg; j++) { spaddr = sg_list->sg_segs[i].ss_paddr; slen = sg_list->sg_segs[i].ss_len; for (; slen > 0; i++) { sc->match->driver->install_gtt_pte(dev, first_entry + i, spaddr, flags); spaddr += AGP_PAGE_SIZE; slen -= AGP_PAGE_SIZE; } } sc->match->driver->read_gtt_pte(dev, first_entry + i - 1); } void intel_gtt_clear_range(u_int first_entry, u_int num_entries) { agp_intel_gtt_clear_range(intel_agp, first_entry, num_entries); } void intel_gtt_insert_pages(u_int first_entry, u_int num_entries, vm_page_t *pages, u_int flags) { agp_intel_gtt_insert_pages(intel_agp, first_entry, num_entries, pages, flags); } struct intel_gtt * intel_gtt_get(void) { intel_private.base = agp_intel_gtt_get(intel_agp); return (&intel_private.base); } int intel_gtt_chipset_flush(void) { return (agp_intel_gtt_chipset_flush(intel_agp)); } void intel_gtt_unmap_memory(struct sglist *sg_list) { agp_intel_gtt_unmap_memory(intel_agp, sg_list); } int intel_gtt_map_memory(vm_page_t *pages, u_int num_entries, struct sglist **sg_list) { return (agp_intel_gtt_map_memory(intel_agp, pages, num_entries, sg_list)); } void intel_gtt_insert_sg_entries(struct sglist *sg_list, u_int first_entry, u_int flags) { agp_intel_gtt_insert_sg_entries(intel_agp, sg_list, first_entry, flags); } void intel_gtt_install_pte(u_int index, vm_paddr_t addr, u_int flags) { agp_intel_gtt_install_pte(intel_agp, index, addr, flags); } device_t intel_gtt_get_bridge_device(void) { struct agp_i810_softc *sc; sc = device_get_softc(intel_agp); return (sc->bdev); } vm_paddr_t intel_gtt_read_pte_paddr(u_int entry) { struct agp_i810_softc *sc; sc = device_get_softc(intel_agp); return (sc->match->driver->read_gtt_pte_paddr(intel_agp, entry)); } u_int32_t intel_gtt_read_pte(u_int entry) { struct agp_i810_softc *sc; sc = device_get_softc(intel_agp); return (sc->match->driver->read_gtt_pte(intel_agp, entry)); } void intel_gtt_write(u_int entry, uint32_t val) { struct agp_i810_softc *sc; sc = device_get_softc(intel_agp); return (sc->match->driver->write_gtt(intel_agp, entry, val)); }