src/soc/intel/common/block/vtd/vtd.c - coreboot - Gitiles

 /* SPDX-License-Identifier: GPL-2.0-only */

 #include <bootstate.h>
 #include <console/console.h>
 #include <cpu/cpu.h>
 #include <device/mmio.h>
 #include <device/pci_ops.h>
 #include <fsp/util.h>
 #include <intelblocks/systemagent.h>
 #include <intelblocks/vtd.h>
 #include <lib.h>
 #include <soc/iomap.h>
 #include <soc/pci_devs.h>

 /* VT-d specification: https://cdrdv2.intel.com/v1/dl/getContent/671081 */
 #define VER_REG		0x0
 #define CAP_REG		0x8
 #define  CAP_PMR_LO	BIT(5)
 #define  CAP_PMR_HI	BIT(6)
 #define PMEN_REG	0x64
 #define   PMEN_EPM	BIT(31)
 #define   PMEN_PRS	BIT(0)
 #define PLMBASE_REG	0x68
 #define PLMLIMIT_REG	0x6C
 #define PHMBASE_REG	0x70
 #define PHMLIMIT_REG	0x78

 /* FSP 2.x VT-d HOB from edk2-platforms */
 static const uint8_t vtd_pmr_info_data_hob_guid[16] = {
 	0x45, 0x16, 0xb6, 0x6f, 0x68, 0xf1, 0xbe, 0x46,
 	0x80, 0xec, 0xb5, 0x02, 0x38, 0x5e, 0xe7, 0xe7
 };

 struct vtd_pmr_info_hob {
 	uint32_t protected_low_base;
 	uint32_t protected_low_limit;
 	uint64_t protected_high_base;
 	uint64_t protected_high_limit;
 } __packed;

 static struct vtd_pmr_info_hob *pmr_hob;

 static __always_inline uint32_t vtd_read32(uintptr_t vtd_base, uint32_t reg)
 {
 	return read32p(vtd_base + reg);
 }

 static __always_inline void vtd_write32(uintptr_t vtd_base, uint32_t reg, uint32_t value)
 {
 	return write32p(vtd_base + reg, value);
 }

 static __always_inline uint64_t vtd_read64(uintptr_t vtd_base, uint32_t reg)
 {
 	return read64p(vtd_base + reg);
 }

 static __always_inline void vtd_write64(uintptr_t vtd_base, uint32_t reg, uint64_t value)
 {
 	return write64p(vtd_base + reg, value);
 }

 static bool is_vtd_enabled(uintptr_t vtd_base)
 {
 	uint32_t version = vtd_read32(vtd_base, VER_REG);

 	if (version == 0 || version == UINT32_MAX) {
 		printk(BIOS_WARNING, "No VT-d @ 0x%08lx\n", vtd_base);
 		return false;
 	}

 	printk(BIOS_DEBUG, "VT-d @ 0x%08lx, version %x.%x\n",
 	       vtd_base, (version & 0xf0) >> 4, version & 0xf);

 	return true;
 }

 static uint32_t vtd_get_pmr_alignment_lo(uintptr_t vtd_base)
 {
 	uint32_t value;

 	vtd_write32(vtd_base, PLMLIMIT_REG, 0xffffffff);
 	value = vtd_read32(vtd_base, PLMLIMIT_REG);
 	value = ~value + 1;

 	return value;
 }

 static uint64_t vtd_get_pmr_alignment_hi(uintptr_t vtd_base)
 {
 	uint64_t value;

 	vtd_write64(vtd_base, PHMLIMIT_REG, 0xffffffffffffffffULL);
 	value = vtd_read64(vtd_base, PHMLIMIT_REG);
 	value = ~value + 1ULL;
 	value = value & ((1ULL << (uint32_t)cpu_phys_address_size()) - 1ULL);

 	/* The host address width can be different than the sizing of the register.
 	 * Simply find the least significant bit set and use it as alignment;
 	 */
 	return __ffs64(value);
 }

 static void vtd_set_pmr_low(uintptr_t vtd_base)
 {
 	uint32_t pmr_lo_align;
 	uint32_t pmr_lo_limit;
 	/*
 	 * Typical PMR alignment is 1MB so we should be good but check just in
 	 * case.
 	 */
 	pmr_lo_align = vtd_get_pmr_alignment_lo(vtd_base);
 	pmr_lo_limit = pmr_hob->protected_low_limit;

 	if (!IS_ALIGNED(pmr_lo_limit, pmr_lo_align)) {
 		pmr_lo_limit = ALIGN_DOWN(pmr_lo_limit, pmr_lo_align);
 		printk(BIOS_WARNING, "PMR limit low not properly aligned, aligning down to %08x\n",
 		       pmr_lo_limit);
 	}

 	printk(BIOS_INFO, "Setting DMA protection [0x0 - 0x%08x]\n", pmr_lo_limit);
 	vtd_write32(vtd_base, PLMBASE_REG, 0);
 	vtd_write32(vtd_base, PLMLIMIT_REG, pmr_lo_limit - 1);
 }

 static void vtd_set_pmr_high(uintptr_t vtd_base)
 {
 	uint64_t pmr_hi_align;
 	uint64_t pmr_hi_limit;
 	/*
 	 * Typical PMR alignment is 1MB so we should be good with above 4G
 	 * memory but check just in case.
 	 */
 	pmr_hi_align = vtd_get_pmr_alignment_hi(vtd_base);
 	pmr_hi_limit = pmr_hob->protected_high_limit;

 	/* No memory above 4G? Skip PMR high programming */
 	if (pmr_hi_limit == 0 || pmr_hi_limit < 4ULL * GiB)
 		return;

 	if (!IS_ALIGNED(pmr_hi_limit, pmr_hi_align)) {
 		pmr_hi_limit = ALIGN_DOWN(pmr_hi_limit, pmr_hi_align);
 		printk(BIOS_WARNING, "PMR High limit not properly aligned, "
 				     "aligning down to %016llx\n",
 				     pmr_hi_limit);
 	}

 	printk(BIOS_INFO, "Setting DMA protection [0x100000000 - 0x%016llx]\n", pmr_hi_limit);
 	vtd_write64(vtd_base, PHMBASE_REG, 4ULL * GiB);
 	vtd_write64(vtd_base, PHMLIMIT_REG, pmr_hi_limit - 1ULL);
 }

 static bool disable_pmr_protection(uintptr_t vtd_base)
 {
 	if (vtd_read32(vtd_base, PMEN_REG) & PMEN_PRS) {
 		vtd_write32(vtd_base, PMEN_REG, vtd_read32(vtd_base, PMEN_REG) & ~PMEN_EPM);
 		if (vtd_read32(vtd_base, PMEN_REG) & PMEN_PRS) {
 			printk(BIOS_ERR, "Failed to disable existing DMA protection\n");
 			return false;
 		}
 	}

 	return true;
 }

 static bool enable_pmr_protection(uintptr_t vtd_base)
 {
 	vtd_write32(vtd_base, PMEN_REG, vtd_read32(vtd_base, PMEN_REG) | PMEN_EPM);
 	if (vtd_read32(vtd_base, PMEN_REG) & PMEN_PRS)
 		return true;

 	return false;
 }

 static const void *locate_pmr_info_hob(void)
 {
 	size_t size;
 	const void *hob;

 	if (pmr_hob)
 		return (void *)pmr_hob;

 	hob = fsp_find_extension_hob_by_guid(vtd_pmr_info_data_hob_guid, &size);

 	if (hob) {
 		pmr_hob = (struct vtd_pmr_info_hob *)hob;
 		printk(BIOS_SPEW, "PMR info HOB:\n"
 				  "  protected_low_base: %08x\n"
 				  "  protected_low_limit: %08x\n"
 				  "  protected_high_base: %016llx\n"
 				  "  protected_high_limit: %016llx\n",
 				  pmr_hob->protected_low_base, pmr_hob->protected_low_limit,
 				  pmr_hob->protected_high_base, pmr_hob->protected_high_limit);
 	}

 	return hob;
 }

 static void vtd_engine_enable_dma_protection(uintptr_t vtd_base)
 {
 	if (!is_vtd_enabled(vtd_base)) {
 		printk(BIOS_ERR, "Not enabling DMA protection, VT-d not found\n");
 		return;
 	}

 	/* At minimum PMR Low must be supported, coreboot executes in 32bit space (for now) */
 	if (!(vtd_read32(vtd_base, CAP_REG) & CAP_PMR_LO)) {
 		printk(BIOS_ERR, "Not enabling DMA protection, PMR registers not supported\n");
 		return;
 	}

 	if (!locate_pmr_info_hob()) {
 		printk(BIOS_ERR, "VT-d PMR HOB not found, not enabling DMA protection\n");
 		return;
 	}

 	/* If protection is enabled, disable it first */
 	if (!disable_pmr_protection(vtd_base)) {
 		printk(BIOS_ERR, "Not setting DMA protection\n");
 		return;
 	}

 	vtd_set_pmr_low(vtd_base);

 	if (vtd_read32(vtd_base, CAP_REG) & CAP_PMR_HI)
 		vtd_set_pmr_high(vtd_base);

 	if (enable_pmr_protection(vtd_base))
 		printk(BIOS_INFO, "Successfully enabled VT-d PMR DMA protection\n");
 	else
 		printk(BIOS_ERR, "Enabling VT-d PMR DMA protection failed\n");
 }

 static const struct hob_resource *find_resource_hob_by_addr(const uint64_t addr)
 {
 	const struct hob_header *hob_iterator;
 	const struct hob_resource *res;

 	if (fsp_hob_iterator_init(&hob_iterator) != CB_SUCCESS) {
 		printk(BIOS_ERR, "Failed to find HOB list\n");
 		return NULL;
 	}

 	while (fsp_hob_iterator_get_next_resource(&hob_iterator, &res) == CB_SUCCESS) {
 		if ((res->type == EFI_RESOURCE_MEMORY_RESERVED) && (res->addr == addr))
 			return res;
 	}

 	return NULL;
 }

 void *vtd_get_dma_buffer(size_t *size)
 {
 	const struct hob_resource *res;

 	if (!CONFIG(ENABLE_EARLY_DMA_PROTECTION))
 		goto no_dma_buffer;

 	if (!locate_pmr_info_hob()) {
 		printk(BIOS_ERR, "FSP PMR info HOB not found\n");
 		goto no_dma_buffer;
 	}

 	/* PMR low limit will be the DMA buffer base reserved by FSP */
 	res = find_resource_hob_by_addr((uint64_t)pmr_hob->protected_low_limit);
 	if (!res) {
 		printk(BIOS_ERR, "FSP PMR resource HOB not found\n");
 		goto no_dma_buffer;
 	}

 	if (size)
 		*size = res->length;

 	return (void *)(uintptr_t)res->addr;

 no_dma_buffer:
 	if (size)
 		*size = 0;
 	return NULL;
 }

 void vtd_enable_dma_protection(void)
 {
 	if (!CONFIG(ENABLE_EARLY_DMA_PROTECTION))
 		return;

 	vtd_engine_enable_dma_protection(VTVC0_BASE_ADDRESS);
 	/*
 	 * FIXME: GFX VT-d will fail to set PMR (tested on ADL-S).
 	 * Should we program PMRs on all VT-d engines?
 	 * vtd_engine_enable_dma_protection(GFXVT_BASE_ADDRESS);
 	 * vtd_engine_enable_dma_protection(IPUVT_BASE_ADDRESS);
 	 */
 }

 static void vtd_disable_pmr_on_resume(void *unused)
 {
 	/* At minimum PMR Low must be supported */
 	if (!(vtd_read32(VTVC0_BASE_ADDRESS, CAP_REG) & CAP_PMR_LO))
 		return;

 	if (disable_pmr_protection(VTVC0_BASE_ADDRESS)) {
 		vtd_write32(VTVC0_BASE_ADDRESS, PLMBASE_REG, 0);
 		vtd_write32(VTVC0_BASE_ADDRESS, PLMLIMIT_REG, 0);
 		if (vtd_read32(VTVC0_BASE_ADDRESS, CAP_REG) & CAP_PMR_HI) {
 			vtd_write64(VTVC0_BASE_ADDRESS, PHMBASE_REG, 0);
 			vtd_write64(VTVC0_BASE_ADDRESS, PHMLIMIT_REG, 0);
 		}
 	}
 }

 BOOT_STATE_INIT_ENTRY(BS_OS_RESUME, BS_ON_ENTRY, vtd_disable_pmr_on_resume, NULL);
	/* SPDX-License-Identifier: GPL-2.0-only */

	#include <bootstate.h>
	#include <console/console.h>
	#include <cpu/cpu.h>
	#include <device/mmio.h>
	#include <device/pci_ops.h>
	#include <fsp/util.h>
	#include <intelblocks/systemagent.h>
	#include <intelblocks/vtd.h>
	#include <lib.h>
	#include <soc/iomap.h>
	#include <soc/pci_devs.h>

	/* VT-d specification: https://cdrdv2.intel.com/v1/dl/getContent/671081 */
	#define VER_REG 0x0
	#define CAP_REG 0x8
	#define CAP_PMR_LO BIT(5)
	#define CAP_PMR_HI BIT(6)
	#define PMEN_REG 0x64
	#define PMEN_EPM BIT(31)
	#define PMEN_PRS BIT(0)
	#define PLMBASE_REG 0x68
	#define PLMLIMIT_REG 0x6C
	#define PHMBASE_REG 0x70
	#define PHMLIMIT_REG 0x78

	/* FSP 2.x VT-d HOB from edk2-platforms */
	static const uint8_t vtd_pmr_info_data_hob_guid[16] = {
	0x45, 0x16, 0xb6, 0x6f, 0x68, 0xf1, 0xbe, 0x46,
	0x80, 0xec, 0xb5, 0x02, 0x38, 0x5e, 0xe7, 0xe7
	};

	struct vtd_pmr_info_hob {
	uint32_t protected_low_base;
	uint32_t protected_low_limit;
	uint64_t protected_high_base;
	uint64_t protected_high_limit;
	} __packed;

	static struct vtd_pmr_info_hob *pmr_hob;

	static __always_inline uint32_t vtd_read32(uintptr_t vtd_base, uint32_t reg)
	{
	return read32p(vtd_base + reg);
	}

	static __always_inline void vtd_write32(uintptr_t vtd_base, uint32_t reg, uint32_t value)
	{
	return write32p(vtd_base + reg, value);
	}

	static __always_inline uint64_t vtd_read64(uintptr_t vtd_base, uint32_t reg)
	{
	return read64p(vtd_base + reg);
	}

	static __always_inline void vtd_write64(uintptr_t vtd_base, uint32_t reg, uint64_t value)
	{
	return write64p(vtd_base + reg, value);
	}

	static bool is_vtd_enabled(uintptr_t vtd_base)
	{
	uint32_t version = vtd_read32(vtd_base, VER_REG);

	if (version == 0 \|\| version == UINT32_MAX) {
	printk(BIOS_WARNING, "No VT-d @ 0x%08lx\n", vtd_base);
	return false;
	}

	printk(BIOS_DEBUG, "VT-d @ 0x%08lx, version %x.%x\n",
	vtd_base, (version & 0xf0) >> 4, version & 0xf);

	return true;
	}

	static uint32_t vtd_get_pmr_alignment_lo(uintptr_t vtd_base)
	{
	uint32_t value;

	vtd_write32(vtd_base, PLMLIMIT_REG, 0xffffffff);
	value = vtd_read32(vtd_base, PLMLIMIT_REG);
	value = ~value + 1;

	return value;
	}

	static uint64_t vtd_get_pmr_alignment_hi(uintptr_t vtd_base)
	{
	uint64_t value;

	vtd_write64(vtd_base, PHMLIMIT_REG, 0xffffffffffffffffULL);
	value = vtd_read64(vtd_base, PHMLIMIT_REG);
	value = ~value + 1ULL;
	value = value & ((1ULL << (uint32_t)cpu_phys_address_size()) - 1ULL);

	/* The host address width can be different than the sizing of the register.
	* Simply find the least significant bit set and use it as alignment;
	*/
	return __ffs64(value);
	}

	static void vtd_set_pmr_low(uintptr_t vtd_base)
	{
	uint32_t pmr_lo_align;
	uint32_t pmr_lo_limit;
	/*
	* Typical PMR alignment is 1MB so we should be good but check just in
	* case.
	*/
	pmr_lo_align = vtd_get_pmr_alignment_lo(vtd_base);
	pmr_lo_limit = pmr_hob->protected_low_limit;

	if (!IS_ALIGNED(pmr_lo_limit, pmr_lo_align)) {
	pmr_lo_limit = ALIGN_DOWN(pmr_lo_limit, pmr_lo_align);
	printk(BIOS_WARNING, "PMR limit low not properly aligned, aligning down to %08x\n",
	pmr_lo_limit);
	}

	printk(BIOS_INFO, "Setting DMA protection [0x0 - 0x%08x]\n", pmr_lo_limit);
	vtd_write32(vtd_base, PLMBASE_REG, 0);
	vtd_write32(vtd_base, PLMLIMIT_REG, pmr_lo_limit - 1);
	}

	static void vtd_set_pmr_high(uintptr_t vtd_base)
	{
	uint64_t pmr_hi_align;
	uint64_t pmr_hi_limit;
	/*
	* Typical PMR alignment is 1MB so we should be good with above 4G
	* memory but check just in case.
	*/
	pmr_hi_align = vtd_get_pmr_alignment_hi(vtd_base);
	pmr_hi_limit = pmr_hob->protected_high_limit;

	/* No memory above 4G? Skip PMR high programming */
	if (pmr_hi_limit == 0 \|\| pmr_hi_limit < 4ULL * GiB)
	return;

	if (!IS_ALIGNED(pmr_hi_limit, pmr_hi_align)) {
	pmr_hi_limit = ALIGN_DOWN(pmr_hi_limit, pmr_hi_align);
	printk(BIOS_WARNING, "PMR High limit not properly aligned, "
	"aligning down to %016llx\n",
	pmr_hi_limit);
	}

	printk(BIOS_INFO, "Setting DMA protection [0x100000000 - 0x%016llx]\n", pmr_hi_limit);
	vtd_write64(vtd_base, PHMBASE_REG, 4ULL * GiB);
	vtd_write64(vtd_base, PHMLIMIT_REG, pmr_hi_limit - 1ULL);
	}

	static bool disable_pmr_protection(uintptr_t vtd_base)
	{
	if (vtd_read32(vtd_base, PMEN_REG) & PMEN_PRS) {
	vtd_write32(vtd_base, PMEN_REG, vtd_read32(vtd_base, PMEN_REG) & ~PMEN_EPM);
	if (vtd_read32(vtd_base, PMEN_REG) & PMEN_PRS) {
	printk(BIOS_ERR, "Failed to disable existing DMA protection\n");
	return false;
	}
	}

	return true;
	}

	static bool enable_pmr_protection(uintptr_t vtd_base)
	{
	vtd_write32(vtd_base, PMEN_REG, vtd_read32(vtd_base, PMEN_REG) \| PMEN_EPM);
	if (vtd_read32(vtd_base, PMEN_REG) & PMEN_PRS)
	return true;

	return false;
	}

	static const void *locate_pmr_info_hob(void)
	{
	size_t size;
	const void *hob;

	if (pmr_hob)
	return (void *)pmr_hob;

	hob = fsp_find_extension_hob_by_guid(vtd_pmr_info_data_hob_guid, &size);

	if (hob) {
	pmr_hob = (struct vtd_pmr_info_hob *)hob;
	printk(BIOS_SPEW, "PMR info HOB:\n"
	" protected_low_base: %08x\n"
	" protected_low_limit: %08x\n"
	" protected_high_base: %016llx\n"
	" protected_high_limit: %016llx\n",
	pmr_hob->protected_low_base, pmr_hob->protected_low_limit,
	pmr_hob->protected_high_base, pmr_hob->protected_high_limit);
	}

	return hob;
	}

	static void vtd_engine_enable_dma_protection(uintptr_t vtd_base)
	{
	if (!is_vtd_enabled(vtd_base)) {
	printk(BIOS_ERR, "Not enabling DMA protection, VT-d not found\n");
	return;
	}

	/* At minimum PMR Low must be supported, coreboot executes in 32bit space (for now) */
	if (!(vtd_read32(vtd_base, CAP_REG) & CAP_PMR_LO)) {
	printk(BIOS_ERR, "Not enabling DMA protection, PMR registers not supported\n");
	return;
	}

	if (!locate_pmr_info_hob()) {
	printk(BIOS_ERR, "VT-d PMR HOB not found, not enabling DMA protection\n");
	return;
	}

	/* If protection is enabled, disable it first */
	if (!disable_pmr_protection(vtd_base)) {
	printk(BIOS_ERR, "Not setting DMA protection\n");
	return;
	}

	vtd_set_pmr_low(vtd_base);

	if (vtd_read32(vtd_base, CAP_REG) & CAP_PMR_HI)
	vtd_set_pmr_high(vtd_base);

	if (enable_pmr_protection(vtd_base))
	printk(BIOS_INFO, "Successfully enabled VT-d PMR DMA protection\n");
	else
	printk(BIOS_ERR, "Enabling VT-d PMR DMA protection failed\n");
	}

	static const struct hob_resource *find_resource_hob_by_addr(const uint64_t addr)
	{
	const struct hob_header *hob_iterator;
	const struct hob_resource *res;

	if (fsp_hob_iterator_init(&hob_iterator) != CB_SUCCESS) {
	printk(BIOS_ERR, "Failed to find HOB list\n");
	return NULL;
	}

	while (fsp_hob_iterator_get_next_resource(&hob_iterator, &res) == CB_SUCCESS) {
	if ((res->type == EFI_RESOURCE_MEMORY_RESERVED) && (res->addr == addr))
	return res;
	}

	return NULL;
	}

	void vtd_get_dma_buffer(size_t size)
	{
	const struct hob_resource *res;

	if (!CONFIG(ENABLE_EARLY_DMA_PROTECTION))
	goto no_dma_buffer;

	if (!locate_pmr_info_hob()) {
	printk(BIOS_ERR, "FSP PMR info HOB not found\n");
	goto no_dma_buffer;
	}

	/* PMR low limit will be the DMA buffer base reserved by FSP */
	res = find_resource_hob_by_addr((uint64_t)pmr_hob->protected_low_limit);
	if (!res) {
	printk(BIOS_ERR, "FSP PMR resource HOB not found\n");
	goto no_dma_buffer;
	}

	if (size)
	*size = res->length;

	return (void *)(uintptr_t)res->addr;

	no_dma_buffer:
	if (size)
	*size = 0;
	return NULL;
	}

	void vtd_enable_dma_protection(void)
	{
	if (!CONFIG(ENABLE_EARLY_DMA_PROTECTION))
	return;

	vtd_engine_enable_dma_protection(VTVC0_BASE_ADDRESS);
	/*
	* FIXME: GFX VT-d will fail to set PMR (tested on ADL-S).
	* Should we program PMRs on all VT-d engines?
	* vtd_engine_enable_dma_protection(GFXVT_BASE_ADDRESS);
	* vtd_engine_enable_dma_protection(IPUVT_BASE_ADDRESS);
	*/
	}

	static void vtd_disable_pmr_on_resume(void *unused)
	{
	/* At minimum PMR Low must be supported */
	if (!(vtd_read32(VTVC0_BASE_ADDRESS, CAP_REG) & CAP_PMR_LO))
	return;

	if (disable_pmr_protection(VTVC0_BASE_ADDRESS)) {
	vtd_write32(VTVC0_BASE_ADDRESS, PLMBASE_REG, 0);
	vtd_write32(VTVC0_BASE_ADDRESS, PLMLIMIT_REG, 0);
	if (vtd_read32(VTVC0_BASE_ADDRESS, CAP_REG) & CAP_PMR_HI) {
	vtd_write64(VTVC0_BASE_ADDRESS, PHMBASE_REG, 0);
	vtd_write64(VTVC0_BASE_ADDRESS, PHMLIMIT_REG, 0);
	}
	}
	}

	BOOT_STATE_INIT_ENTRY(BS_OS_RESUME, BS_ON_ENTRY, vtd_disable_pmr_on_resume, NULL);