drivers/pcie/host/msi.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2019 Intel Corporation
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #include <kernel.h>
 #include <drivers/pcie/msi.h>
 #include <drivers/pcie/cap.h>

 /* functions documented in include/drivers/pcie/msi.h */

 static uint32_t pcie_msi_base(pcie_bdf_t bdf, bool *msi)
 {
 	uint32_t base;

 	if (msi != NULL) {
 		*msi = true;
 	}

 	base = pcie_get_cap(bdf, PCI_CAP_ID_MSI);

 	if (IS_ENABLED(CONFIG_PCIE_MSI_X)) {
 		uint32_t base_msix;

 		base_msix = pcie_get_cap(bdf, PCI_CAP_ID_MSIX);
 		if (base_msix != 0U) {
 			base = base_msix;

 			if (msi != NULL) {
 				*msi = false;
 			}
 		}
 	}

 	return base;
 }

 #ifdef CONFIG_PCIE_MSI_MULTI_VECTOR

 #include <sys/mem_manage.h>

 __weak uint8_t arch_pcie_msi_vectors_allocate(unsigned int priority,
 					      msi_vector_t *vectors,
 					      uint8_t n_vector)
 {
 	ARG_UNUSED(priority);
 	ARG_UNUSED(vectors);
 	ARG_UNUSED(n_vector);

 	return 0;
 }


 __weak bool arch_pcie_msi_vector_connect(msi_vector_t *vector,
 					 void (*routine)(const void *parameter),
 					 const void *parameter,
 					 uint32_t flags)
 {
 	ARG_UNUSED(vector);
 	ARG_UNUSED(routine);
 	ARG_UNUSED(parameter);
 	ARG_UNUSED(flags);

 	return false;
 }

 #ifdef CONFIG_PCIE_MSI_X

 static uint32_t get_msix_table_size(pcie_bdf_t bdf,
 				    uint32_t base)
 {
 	uint32_t mcr;

 	mcr = pcie_conf_read(bdf, base + PCIE_MSIX_MCR);

 	return ((mcr & PCIE_MSIX_MCR_TSIZE) >> PCIE_MSIX_MCR_TSIZE_SHIFT) + 1;
 }

 static bool map_msix_table_entries(pcie_bdf_t bdf,
 				   uint32_t base,
 				   msi_vector_t *vectors,
 				   uint8_t n_vector)
 {
 	uint32_t table_offset;
 	uint8_t table_bir;
 	struct pcie_mbar bar;
 	uintptr_t mapped_table;
 	int i;

 	table_offset = pcie_conf_read(bdf, base + PCIE_MSIX_TR);
 	table_bir = table_offset & PCIE_MSIX_TR_BIR;
 	table_offset &= PCIE_MSIX_TR_OFFSET;

 	if (!pcie_get_mbar(bdf, table_bir, &bar)) {
 		return false;
 	}

 	z_phys_map((uint8_t **)&mapped_table,
 		   bar.phys_addr + table_offset,
 		   n_vector * PCIE_MSIR_TABLE_ENTRY_SIZE, K_MEM_PERM_RW);

 	for (i = 0; i < n_vector; i++) {
 		vectors[i].msix_vector = (struct msix_vector *)
 			(mapped_table + (i * PCIE_MSIR_TABLE_ENTRY_SIZE));
 	}

 	return true;
 }

 static void set_msix(msi_vector_t *vectors,
 		     uint8_t n_vector,
 		     bool msix)
 {
 	int i;

 	for (i = 0; i < n_vector; i++) {
 		vectors[i].msix = msix;
 	}
 }

 #else
 #define get_msix_table_size(...) 0
 #define map_msix_table_entries(...) true
 #define set_msix(...)
 #endif /* CONFIG_PCIE_MSI_X */

 static uint32_t get_msi_mmc(pcie_bdf_t bdf,
 			    uint32_t base)
 {
 	uint32_t mcr;

 	mcr = pcie_conf_read(bdf, base + PCIE_MSI_MCR);

 	/* Getting MMC true count: 2^(MMC field) */
 	return 1 << ((mcr & PCIE_MSI_MCR_MMC) >> PCIE_MSI_MCR_MMC_SHIFT);
 }

 uint8_t pcie_msi_vectors_allocate(pcie_bdf_t bdf,
 				  unsigned int priority,
 				  msi_vector_t *vectors,
 				  uint8_t n_vector)
 {
 	uint32_t req_vectors;
 	uint32_t base;
 	bool msi;

 	base = pcie_msi_base(bdf, &msi);

 	if (IS_ENABLED(CONFIG_PCIE_MSI_X)) {
 		set_msix(vectors, n_vector, !msi);

 		if (!msi) {
 			req_vectors = get_msix_table_size(bdf, base);
 			if (!map_msix_table_entries(bdf, base,
 						    vectors, n_vector)) {
 				return 0;
 			}
 		}
 	}

 	if (msi) {
 		req_vectors = get_msi_mmc(bdf, base);
 	}

 	if (n_vector > req_vectors) {
 		n_vector = req_vectors;
 	}

 	for (req_vectors = 0; req_vectors < n_vector; req_vectors++) {
 		vectors[req_vectors].bdf = bdf;
 	}

 	return arch_pcie_msi_vectors_allocate(priority, vectors, n_vector);
 }

 bool pcie_msi_vector_connect(pcie_bdf_t bdf,
 			     msi_vector_t *vector,
 			     void (*routine)(const void *parameter),
 			     const void *parameter,
 			     uint32_t flags)
 {
 	uint32_t base;

 	base = pcie_msi_base(bdf, NULL);
 	if (base == 0U) {
 		return false;
 	}

 	return arch_pcie_msi_vector_connect(vector, routine, parameter, flags);
 }

 #endif /* CONFIG_PCIE_MSI_MULTI_VECTOR */

 #ifdef CONFIG_PCIE_MSI_X

 static void enable_msix(pcie_bdf_t bdf,
 			msi_vector_t *vectors,
 			uint8_t n_vector,
 			uint32_t base,
 			unsigned int irq)
 {
 	uint32_t mcr;
 	int i;

 	for (i = 0; i < n_vector; i++) {
 		uint32_t map = pcie_msi_map(irq, &vectors[i], 1);
 		uint32_t mdr = pcie_msi_mdr(irq, &vectors[i]);

 		vectors[i].msix_vector->msg_addr = map;
 		vectors[i].msix_vector->msg_up_addr = 0;
 		vectors[i].msix_vector->msg_data = mdr;
 		vectors[i].msix_vector->vector_ctrl = 0;
 	}

 	mcr = pcie_conf_read(bdf, base + PCIE_MSIX_MCR);
 	mcr |= PCIE_MSIX_MCR_EN;
 	pcie_conf_write(bdf, base + PCIE_MSIX_MCR, mcr);
 }

 #else
 #define enable_msix(...)
 #endif /* CONFIG_PCIE_MSI_X */

 static void disable_msi(pcie_bdf_t bdf,
 			uint32_t base)
 {
 	uint32_t mcr;

 	mcr = pcie_conf_read(bdf, base + PCIE_MSI_MCR);
 	mcr &= ~PCIE_MSI_MCR_EN;
 	pcie_conf_write(bdf, base + PCIE_MSI_MCR, mcr);
 }

 static void enable_msi(pcie_bdf_t bdf,
 		       msi_vector_t *vectors,
 		       uint8_t n_vector,
 		       uint32_t base,
 		       unsigned int irq)
 {
 	uint32_t mcr;
 	uint32_t map;
 	uint32_t mdr;
 	uint32_t mme;

 	map = pcie_msi_map(irq, vectors, n_vector);
 	pcie_conf_write(bdf, base + PCIE_MSI_MAP0, map);

 	mdr = pcie_msi_mdr(irq, vectors);
 	mcr = pcie_conf_read(bdf, base + PCIE_MSI_MCR);
 	if (mcr & PCIE_MSI_MCR_64) {
 		pcie_conf_write(bdf, base + PCIE_MSI_MAP1_64, 0U);
 		pcie_conf_write(bdf, base + PCIE_MSI_MDR_64, mdr);
 	} else {
 		pcie_conf_write(bdf, base + PCIE_MSI_MDR_32, mdr);
 	}

 	/* Generating MME field (1 counts as a power of 2) */
 	for (mme = 0; n_vector > 1; mme++) {
 		n_vector >>= 1;
 	}

 	mcr |= mme << PCIE_MSI_MCR_MME_SHIFT;

 	mcr |= PCIE_MSI_MCR_EN;
 	pcie_conf_write(bdf, base + PCIE_MSI_MCR, mcr);
 }

 bool pcie_msi_enable(pcie_bdf_t bdf,
 		     msi_vector_t *vectors,
 		     uint8_t n_vector,
 		     unsigned int irq)
 {
 	uint32_t base;
 	bool msi;

 	base = pcie_msi_base(bdf, &msi);
 	if (base == 0U) {
 		return false;
 	}

 	if (!msi && IS_ENABLED(CONFIG_PCIE_MSI_X)) {
 		disable_msi(bdf, base);
 		enable_msix(bdf, vectors, n_vector, base, irq);
 	} else {
 		enable_msi(bdf, vectors, n_vector, base, irq);
 	}

 	pcie_set_cmd(bdf, PCIE_CONF_CMDSTAT_MASTER, true);

 	return true;
 }

 bool pcie_is_msi(pcie_bdf_t bdf)
 {
 	return (pcie_msi_base(bdf, NULL) != 0);
 }
	/*
	* Copyright (c) 2019 Intel Corporation
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#include <kernel.h>
	#include <drivers/pcie/msi.h>
	#include <drivers/pcie/cap.h>

	/* functions documented in include/drivers/pcie/msi.h */

	static uint32_t pcie_msi_base(pcie_bdf_t bdf, bool *msi)
	{
	uint32_t base;

	if (msi != NULL) {
	*msi = true;
	}

	base = pcie_get_cap(bdf, PCI_CAP_ID_MSI);

	if (IS_ENABLED(CONFIG_PCIE_MSI_X)) {
	uint32_t base_msix;

	base_msix = pcie_get_cap(bdf, PCI_CAP_ID_MSIX);
	if (base_msix != 0U) {
	base = base_msix;

	if (msi != NULL) {
	*msi = false;
	}
	}
	}

	return base;
	}

	#ifdef CONFIG_PCIE_MSI_MULTI_VECTOR

	#include <sys/mem_manage.h>

	__weak uint8_t arch_pcie_msi_vectors_allocate(unsigned int priority,
	msi_vector_t *vectors,
	uint8_t n_vector)
	{
	ARG_UNUSED(priority);
	ARG_UNUSED(vectors);
	ARG_UNUSED(n_vector);

	return 0;
	}


	__weak bool arch_pcie_msi_vector_connect(msi_vector_t *vector,
	void (routine)(const void parameter),
	const void *parameter,
	uint32_t flags)
	{
	ARG_UNUSED(vector);
	ARG_UNUSED(routine);
	ARG_UNUSED(parameter);
	ARG_UNUSED(flags);

	return false;
	}

	#ifdef CONFIG_PCIE_MSI_X

	static uint32_t get_msix_table_size(pcie_bdf_t bdf,
	uint32_t base)
	{
	uint32_t mcr;

	mcr = pcie_conf_read(bdf, base + PCIE_MSIX_MCR);

	return ((mcr & PCIE_MSIX_MCR_TSIZE) >> PCIE_MSIX_MCR_TSIZE_SHIFT) + 1;
	}

	static bool map_msix_table_entries(pcie_bdf_t bdf,
	uint32_t base,
	msi_vector_t *vectors,
	uint8_t n_vector)
	{
	uint32_t table_offset;
	uint8_t table_bir;
	struct pcie_mbar bar;
	uintptr_t mapped_table;
	int i;

	table_offset = pcie_conf_read(bdf, base + PCIE_MSIX_TR);
	table_bir = table_offset & PCIE_MSIX_TR_BIR;
	table_offset &= PCIE_MSIX_TR_OFFSET;

	if (!pcie_get_mbar(bdf, table_bir, &bar)) {
	return false;
	}

	z_phys_map((uint8_t **)&mapped_table,
	bar.phys_addr + table_offset,
	n_vector * PCIE_MSIR_TABLE_ENTRY_SIZE, K_MEM_PERM_RW);

	for (i = 0; i < n_vector; i++) {
	vectors[i].msix_vector = (struct msix_vector *)
	(mapped_table + (i * PCIE_MSIR_TABLE_ENTRY_SIZE));
	}

	return true;
	}

	static void set_msix(msi_vector_t *vectors,
	uint8_t n_vector,
	bool msix)
	{
	int i;

	for (i = 0; i < n_vector; i++) {
	vectors[i].msix = msix;
	}
	}

	#else
	#define get_msix_table_size(...) 0
	#define map_msix_table_entries(...) true
	#define set_msix(...)
	#endif /* CONFIG_PCIE_MSI_X */

	static uint32_t get_msi_mmc(pcie_bdf_t bdf,
	uint32_t base)
	{
	uint32_t mcr;

	mcr = pcie_conf_read(bdf, base + PCIE_MSI_MCR);

	/* Getting MMC true count: 2^(MMC field) */
	return 1 << ((mcr & PCIE_MSI_MCR_MMC) >> PCIE_MSI_MCR_MMC_SHIFT);
	}

	uint8_t pcie_msi_vectors_allocate(pcie_bdf_t bdf,
	unsigned int priority,
	msi_vector_t *vectors,
	uint8_t n_vector)
	{
	uint32_t req_vectors;
	uint32_t base;
	bool msi;

	base = pcie_msi_base(bdf, &msi);

	if (IS_ENABLED(CONFIG_PCIE_MSI_X)) {
	set_msix(vectors, n_vector, !msi);

	if (!msi) {
	req_vectors = get_msix_table_size(bdf, base);
	if (!map_msix_table_entries(bdf, base,
	vectors, n_vector)) {
	return 0;
	}
	}
	}

	if (msi) {
	req_vectors = get_msi_mmc(bdf, base);
	}

	if (n_vector > req_vectors) {
	n_vector = req_vectors;
	}

	for (req_vectors = 0; req_vectors < n_vector; req_vectors++) {
	vectors[req_vectors].bdf = bdf;
	}

	return arch_pcie_msi_vectors_allocate(priority, vectors, n_vector);
	}

	bool pcie_msi_vector_connect(pcie_bdf_t bdf,
	msi_vector_t *vector,
	void (routine)(const void parameter),
	const void *parameter,
	uint32_t flags)
	{
	uint32_t base;

	base = pcie_msi_base(bdf, NULL);
	if (base == 0U) {
	return false;
	}

	return arch_pcie_msi_vector_connect(vector, routine, parameter, flags);
	}

	#endif /* CONFIG_PCIE_MSI_MULTI_VECTOR */

	#ifdef CONFIG_PCIE_MSI_X

	static void enable_msix(pcie_bdf_t bdf,
	msi_vector_t *vectors,
	uint8_t n_vector,
	uint32_t base,
	unsigned int irq)
	{
	uint32_t mcr;
	int i;

	for (i = 0; i < n_vector; i++) {
	uint32_t map = pcie_msi_map(irq, &vectors[i], 1);
	uint32_t mdr = pcie_msi_mdr(irq, &vectors[i]);

	vectors[i].msix_vector->msg_addr = map;
	vectors[i].msix_vector->msg_up_addr = 0;
	vectors[i].msix_vector->msg_data = mdr;
	vectors[i].msix_vector->vector_ctrl = 0;
	}

	mcr = pcie_conf_read(bdf, base + PCIE_MSIX_MCR);
	mcr \|= PCIE_MSIX_MCR_EN;
	pcie_conf_write(bdf, base + PCIE_MSIX_MCR, mcr);
	}

	#else
	#define enable_msix(...)
	#endif /* CONFIG_PCIE_MSI_X */

	static void disable_msi(pcie_bdf_t bdf,
	uint32_t base)
	{
	uint32_t mcr;

	mcr = pcie_conf_read(bdf, base + PCIE_MSI_MCR);
	mcr &= ~PCIE_MSI_MCR_EN;
	pcie_conf_write(bdf, base + PCIE_MSI_MCR, mcr);
	}

	static void enable_msi(pcie_bdf_t bdf,
	msi_vector_t *vectors,
	uint8_t n_vector,
	uint32_t base,
	unsigned int irq)
	{
	uint32_t mcr;
	uint32_t map;
	uint32_t mdr;
	uint32_t mme;

	map = pcie_msi_map(irq, vectors, n_vector);
	pcie_conf_write(bdf, base + PCIE_MSI_MAP0, map);

	mdr = pcie_msi_mdr(irq, vectors);
	mcr = pcie_conf_read(bdf, base + PCIE_MSI_MCR);
	if (mcr & PCIE_MSI_MCR_64) {
	pcie_conf_write(bdf, base + PCIE_MSI_MAP1_64, 0U);
	pcie_conf_write(bdf, base + PCIE_MSI_MDR_64, mdr);
	} else {
	pcie_conf_write(bdf, base + PCIE_MSI_MDR_32, mdr);
	}

	/* Generating MME field (1 counts as a power of 2) */
	for (mme = 0; n_vector > 1; mme++) {
	n_vector >>= 1;
	}

	mcr \|= mme << PCIE_MSI_MCR_MME_SHIFT;

	mcr \|= PCIE_MSI_MCR_EN;
	pcie_conf_write(bdf, base + PCIE_MSI_MCR, mcr);
	}

	bool pcie_msi_enable(pcie_bdf_t bdf,
	msi_vector_t *vectors,
	uint8_t n_vector,
	unsigned int irq)
	{
	uint32_t base;
	bool msi;

	base = pcie_msi_base(bdf, &msi);
	if (base == 0U) {
	return false;
	}

	if (!msi && IS_ENABLED(CONFIG_PCIE_MSI_X)) {
	disable_msi(bdf, base);
	enable_msix(bdf, vectors, n_vector, base, irq);
	} else {
	enable_msi(bdf, vectors, n_vector, base, irq);
	}

	pcie_set_cmd(bdf, PCIE_CONF_CMDSTAT_MASTER, true);

	return true;
	}

	bool pcie_is_msi(pcie_bdf_t bdf)
	{
	return (pcie_msi_base(bdf, NULL) != 0);
	}