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path: root/drivers/bus/pci/bsd/pci.c
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/* SPDX-License-Identifier: BSD-3-Clause
 * Copyright(c) 2010-2014 Intel Corporation
 */

#include <ctype.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#include <unistd.h>
#include <inttypes.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <errno.h>
#include <dirent.h>
#include <limits.h>
#include <sys/queue.h>
#include <sys/mman.h>
#include <sys/ioctl.h>
#include <sys/pciio.h>
#include <dev/pci/pcireg.h>

#if defined(RTE_ARCH_X86)
#include <machine/cpufunc.h>
#endif

#include <rte_interrupts.h>
#include <rte_log.h>
#include <rte_pci.h>
#include <rte_bus_pci.h>
#include <rte_common.h>
#include <rte_launch.h>
#include <rte_memory.h>
#include <rte_eal.h>
#include <rte_eal_memconfig.h>
#include <rte_per_lcore.h>
#include <rte_lcore.h>
#include <rte_malloc.h>
#include <rte_string_fns.h>
#include <rte_debug.h>
#include <rte_devargs.h>

#include "eal_filesystem.h"
#include "private.h"

/**
 * @file
 * PCI probing under BSD
 *
 * This code is used to simulate a PCI probe by parsing information in
 * sysfs. Moreover, when a registered driver matches a device, the
 * kernel driver currently using it is unloaded and replaced by
 * igb_uio module, which is a very minimal userland driver for Intel
 * network card, only providing access to PCI BAR to applications, and
 * enabling bus master.
 */

extern struct rte_pci_bus rte_pci_bus;

/* Map pci device */
int
rte_pci_map_device(struct rte_pci_device *dev)
{
	int ret = -1;

	/* try mapping the NIC resources */
	switch (dev->kdrv) {
	case RTE_KDRV_NIC_UIO:
		/* map resources for devices that use uio */
		ret = pci_uio_map_resource(dev);
		break;
	default:
		RTE_LOG(DEBUG, EAL,
			"  Not managed by a supported kernel driver, skipped\n");
		ret = 1;
		break;
	}

	return ret;
}

/* Unmap pci device */
void
rte_pci_unmap_device(struct rte_pci_device *dev)
{
	/* try unmapping the NIC resources */
	switch (dev->kdrv) {
	case RTE_KDRV_NIC_UIO:
		/* unmap resources for devices that use uio */
		pci_uio_unmap_resource(dev);
		break;
	default:
		RTE_LOG(DEBUG, EAL,
			"  Not managed by a supported kernel driver, skipped\n");
		break;
	}
}

void
pci_uio_free_resource(struct rte_pci_device *dev,
		struct mapped_pci_resource *uio_res)
{
	rte_free(uio_res);

	if (dev->intr_handle.fd) {
		close(dev->intr_handle.fd);
		dev->intr_handle.fd = -1;
		dev->intr_handle.type = RTE_INTR_HANDLE_UNKNOWN;
	}
}

int
pci_uio_alloc_resource(struct rte_pci_device *dev,
		struct mapped_pci_resource **uio_res)
{
	char devname[PATH_MAX]; /* contains the /dev/uioX */
	struct rte_pci_addr *loc;

	loc = &dev->addr;

	snprintf(devname, sizeof(devname), "/dev/uio@pci:%u:%u:%u",
			dev->addr.bus, dev->addr.devid, dev->addr.function);

	if (access(devname, O_RDWR) < 0) {
		RTE_LOG(WARNING, EAL, "  "PCI_PRI_FMT" not managed by UIO driver, "
				"skipping\n", loc->domain, loc->bus, loc->devid, loc->function);
		return 1;
	}

	/* save fd if in primary process */
	dev->intr_handle.fd = open(devname, O_RDWR);
	if (dev->intr_handle.fd < 0) {
		RTE_LOG(ERR, EAL, "Cannot open %s: %s\n",
			devname, strerror(errno));
		goto error;
	}
	dev->intr_handle.type = RTE_INTR_HANDLE_UIO;

	/* allocate the mapping details for secondary processes*/
	*uio_res = rte_zmalloc("UIO_RES", sizeof(**uio_res), 0);
	if (*uio_res == NULL) {
		RTE_LOG(ERR, EAL,
			"%s(): cannot store uio mmap details\n", __func__);
		goto error;
	}

	snprintf((*uio_res)->path, sizeof((*uio_res)->path), "%s", devname);
	memcpy(&(*uio_res)->pci_addr, &dev->addr, sizeof((*uio_res)->pci_addr));

	return 0;

error:
	pci_uio_free_resource(dev, *uio_res);
	return -1;
}

int
pci_uio_map_resource_by_index(struct rte_pci_device *dev, int res_idx,
		struct mapped_pci_resource *uio_res, int map_idx)
{
	int fd;
	char *devname;
	void *mapaddr;
	uint64_t offset;
	uint64_t pagesz;
	struct pci_map *maps;

	maps = uio_res->maps;
	devname = uio_res->path;
	pagesz = sysconf(_SC_PAGESIZE);

	/* allocate memory to keep path */
	maps[map_idx].path = rte_malloc(NULL, strlen(devname) + 1, 0);
	if (maps[map_idx].path == NULL) {
		RTE_LOG(ERR, EAL, "Cannot allocate memory for path: %s\n",
				strerror(errno));
		return -1;
	}

	/*
	 * open resource file, to mmap it
	 */
	fd = open(devname, O_RDWR);
	if (fd < 0) {
		RTE_LOG(ERR, EAL, "Cannot open %s: %s\n",
				devname, strerror(errno));
		goto error;
	}

	/* if matching map is found, then use it */
	offset = res_idx * pagesz;
	mapaddr = pci_map_resource(NULL, fd, (off_t)offset,
			(size_t)dev->mem_resource[res_idx].len, 0);
	close(fd);
	if (mapaddr == MAP_FAILED)
		goto error;

	maps[map_idx].phaddr = dev->mem_resource[res_idx].phys_addr;
	maps[map_idx].size = dev->mem_resource[res_idx].len;
	maps[map_idx].addr = mapaddr;
	maps[map_idx].offset = offset;
	strcpy(maps[map_idx].path, devname);
	dev->mem_resource[res_idx].addr = mapaddr;

	return 0;

error:
	rte_free(maps[map_idx].path);
	return -1;
}

static int
pci_scan_one(int dev_pci_fd, struct pci_conf *conf)
{
	struct rte_pci_device *dev;
	struct pci_bar_io bar;
	unsigned i, max;

	dev = malloc(sizeof(*dev));
	if (dev == NULL) {
		return -1;
	}

	memset(dev, 0, sizeof(*dev));
	dev->device.bus = &rte_pci_bus.bus;

	dev->addr.domain = conf->pc_sel.pc_domain;
	dev->addr.bus = conf->pc_sel.pc_bus;
	dev->addr.devid = conf->pc_sel.pc_dev;
	dev->addr.function = conf->pc_sel.pc_func;

	/* get vendor id */
	dev->id.vendor_id = conf->pc_vendor;

	/* get device id */
	dev->id.device_id = conf->pc_device;

	/* get subsystem_vendor id */
	dev->id.subsystem_vendor_id = conf->pc_subvendor;

	/* get subsystem_device id */
	dev->id.subsystem_device_id = conf->pc_subdevice;

	/* get class id */
	dev->id.class_id = (conf->pc_class << 16) |
			   (conf->pc_subclass << 8) |
			   (conf->pc_progif);

	/* TODO: get max_vfs */
	dev->max_vfs = 0;

	/* FreeBSD has no NUMA support (yet) */
	dev->device.numa_node = 0;

	pci_name_set(dev);

	/* FreeBSD has only one pass through driver */
	dev->kdrv = RTE_KDRV_NIC_UIO;

	/* parse resources */
	switch (conf->pc_hdr & PCIM_HDRTYPE) {
	case PCIM_HDRTYPE_NORMAL:
		max = PCIR_MAX_BAR_0;
		break;
	case PCIM_HDRTYPE_BRIDGE:
		max = PCIR_MAX_BAR_1;
		break;
	case PCIM_HDRTYPE_CARDBUS:
		max = PCIR_MAX_BAR_2;
		break;
	default:
		goto skipdev;
	}

	for (i = 0; i <= max; i++) {
		bar.pbi_sel = conf->pc_sel;
		bar.pbi_reg = PCIR_BAR(i);
		if (ioctl(dev_pci_fd, PCIOCGETBAR, &bar) < 0)
			continue;

		dev->mem_resource[i].len = bar.pbi_length;
		if (PCI_BAR_IO(bar.pbi_base)) {
			dev->mem_resource[i].addr = (void *)(bar.pbi_base & ~((uint64_t)0xf));
			continue;
		}
		dev->mem_resource[i].phys_addr = bar.pbi_base & ~((uint64_t)0xf);
	}

	/* device is valid, add in list (sorted) */
	if (TAILQ_EMPTY(&rte_pci_bus.device_list)) {
		rte_pci_add_device(dev);
	}
	else {
		struct rte_pci_device *dev2 = NULL;
		int ret;

		TAILQ_FOREACH(dev2, &rte_pci_bus.device_list, next) {
			ret = rte_pci_addr_cmp(&dev->addr, &dev2->addr);
			if (ret > 0)
				continue;
			else if (ret < 0) {
				rte_pci_insert_device(dev2, dev);
			} else { /* already registered */
				dev2->kdrv = dev->kdrv;
				dev2->max_vfs = dev->max_vfs;
				pci_name_set(dev2);
				memmove(dev2->mem_resource,
					dev->mem_resource,
					sizeof(dev->mem_resource));
				free(dev);
			}
			return 0;
		}
		rte_pci_add_device(dev);
	}

	return 0;

skipdev:
	free(dev);
	return 0;
}

/*
 * Scan the content of the PCI bus, and add the devices in the devices
 * list. Call pci_scan_one() for each pci entry found.
 */
int
rte_pci_scan(void)
{
	int fd;
	unsigned dev_count = 0;
	struct pci_conf matches[16];
	struct pci_conf_io conf_io = {
			.pat_buf_len = 0,
			.num_patterns = 0,
			.patterns = NULL,
			.match_buf_len = sizeof(matches),
			.matches = &matches[0],
	};

	/* for debug purposes, PCI can be disabled */
	if (!rte_eal_has_pci())
		return 0;

	fd = open("/dev/pci", O_RDONLY);
	if (fd < 0) {
		RTE_LOG(ERR, EAL, "%s(): error opening /dev/pci\n", __func__);
		goto error;
	}

	do {
		unsigned i;
		if (ioctl(fd, PCIOCGETCONF, &conf_io) < 0) {
			RTE_LOG(ERR, EAL, "%s(): error with ioctl on /dev/pci: %s\n",
					__func__, strerror(errno));
			goto error;
		}

		for (i = 0; i < conf_io.num_matches; i++)
			if (pci_scan_one(fd, &matches[i]) < 0)
				goto error;

		dev_count += conf_io.num_matches;
	} while(conf_io.status == PCI_GETCONF_MORE_DEVS);

	close(fd);

	RTE_LOG(DEBUG, EAL, "PCI scan found %u devices\n", dev_count);
	return 0;

error:
	if (fd >= 0)
		close(fd);
	return -1;
}

/*
 * Get iommu class of PCI devices on the bus.
 */
enum rte_iova_mode
rte_pci_get_iommu_class(void)
{
	/* Supports only RTE_KDRV_NIC_UIO */
	return RTE_IOVA_PA;
}

int
pci_update_device(const struct rte_pci_addr *addr)
{
	int fd;
	struct pci_conf matches[2];
	struct pci_match_conf match = {
		.pc_sel = {
			.pc_domain = addr->domain,
			.pc_bus = addr->bus,
			.pc_dev = addr->devid,
			.pc_func = addr->function,
		},
	};
	struct pci_conf_io conf_io = {
		.pat_buf_len = 0,
		.num_patterns = 1,
		.patterns = &match,
		.match_buf_len = sizeof(matches),
		.matches = &matches[0],
	};

	fd = open("/dev/pci", O_RDONLY);
	if (fd < 0) {
		RTE_LOG(ERR, EAL, "%s(): error opening /dev/pci\n", __func__);
		goto error;
	}

	if (ioctl(fd, PCIOCGETCONF, &conf_io) < 0) {
		RTE_LOG(ERR, EAL, "%s(): error with ioctl on /dev/pci: %s\n",
				__func__, strerror(errno));
		goto error;
	}

	if (conf_io.num_matches != 1)
		goto error;

	if (pci_scan_one(fd, &matches[0]) < 0)
		goto error;

	close(fd);

	return 0;

error:
	if (fd >= 0)
		close(fd);
	return -1;
}

/* Read PCI config space. */
int rte_pci_read_config(const struct rte_pci_device *dev,
		void *buf, size_t len, off_t offset)
{
	int fd = -1;
	int size;
	/* Copy Linux implementation's behaviour */
	const int return_len = len;
	struct pci_io pi = {
		.pi_sel = {
			.pc_domain = dev->addr.domain,
			.pc_bus = dev->addr.bus,
			.pc_dev = dev->addr.devid,
			.pc_func = dev->addr.function,
		},
		.pi_reg = offset,
	};

	fd = open("/dev/pci", O_RDWR);
	if (fd < 0) {
		RTE_LOG(ERR, EAL, "%s(): error opening /dev/pci\n", __func__);
		goto error;
	}

	while (len > 0) {
		size = (len >= 4) ? 4 : ((len >= 2) ? 2 : 1);
		pi.pi_width = size;

		if (ioctl(fd, PCIOCREAD, &pi) < 0)
			goto error;
		memcpy(buf, &pi.pi_data, size);

		buf = (char *)buf + size;
		pi.pi_reg += size;
		len -= size;
	}
	close(fd);

	return return_len;

 error:
	if (fd >= 0)
		close(fd);
	return -1;
}

/* Write PCI config space. */
int rte_pci_write_config(const struct rte_pci_device *dev,
		const void *buf, size_t len, off_t offset)
{
	int fd = -1;

	struct pci_io pi = {
		.pi_sel = {
			.pc_domain = dev->addr.domain,
			.pc_bus = dev->addr.bus,
			.pc_dev = dev->addr.devid,
			.pc_func = dev->addr.function,
		},
		.pi_reg = offset,
		.pi_data = *(const uint32_t *)buf,
		.pi_width = len,
	};

	if (len == 3 || len > sizeof(pi.pi_data)) {
		RTE_LOG(ERR, EAL, "%s(): invalid pci read length\n", __func__);
		goto error;
	}

	memcpy(&pi.pi_data, buf, len);

	fd = open("/dev/pci", O_RDWR);
	if (fd < 0) {
		RTE_LOG(ERR, EAL, "%s(): error opening /dev/pci\n", __func__);
		goto error;
	}

	if (ioctl(fd, PCIOCWRITE, &pi) < 0)
		goto error;

	close(fd);
	return 0;

 error:
	if (fd >= 0)
		close(fd);
	return -1;
}

int
rte_pci_ioport_map(struct rte_pci_device *dev, int bar,
		struct rte_pci_ioport *p)
{
	int ret;

	switch (dev->kdrv) {
#if defined(RTE_ARCH_X86)
	case RTE_KDRV_NIC_UIO:
		if ((uintptr_t) dev->mem_resource[bar].addr <= UINT16_MAX) {
			p->base = (uintptr_t)dev->mem_resource[bar].addr;
			ret = 0;
		} else
			ret = -1;
		break;
#endif
	default:
		ret = -1;
		break;
	}

	if (!ret)
		p->dev = dev;

	return ret;
}

static void
pci_uio_ioport_read(struct rte_pci_ioport *p,
		void *data, size_t len, off_t offset)
{
#if defined(RTE_ARCH_X86)
	uint8_t *d;
	int size;
	unsigned short reg = p->base + offset;

	for (d = data; len > 0; d += size, reg += size, len -= size) {
		if (len >= 4) {
			size = 4;
			*(uint32_t *)d = inl(reg);
		} else if (len >= 2) {
			size = 2;
			*(uint16_t *)d = inw(reg);
		} else {
			size = 1;
			*d = inb(reg);
		}
	}
#else
	RTE_SET_USED(p);
	RTE_SET_USED(data);
	RTE_SET_USED(len);
	RTE_SET_USED(offset);
#endif
}

void
rte_pci_ioport_read(struct rte_pci_ioport *p,
		void *data, size_t len, off_t offset)
{
	switch (p->dev->kdrv) {
	case RTE_KDRV_NIC_UIO:
		pci_uio_ioport_read(p, data, len, offset);
		break;
	default:
		break;
	}
}

static void
pci_uio_ioport_write(struct rte_pci_ioport *p,
		const void *data, size_t len, off_t offset)
{
#if defined(RTE_ARCH_X86)
	const uint8_t *s;
	int size;
	unsigned short reg = p->base + offset;

	for (s = data; len > 0; s += size, reg += size, len -= size) {
		if (len >= 4) {
			size = 4;
			outl(reg, *(const uint32_t *)s);
		} else if (len >= 2) {
			size = 2;
			outw(reg, *(const uint16_t *)s);
		} else {
			size = 1;
			outb(reg, *s);
		}
	}
#else
	RTE_SET_USED(p);
	RTE_SET_USED(data);
	RTE_SET_USED(len);
	RTE_SET_USED(offset);
#endif
}

void
rte_pci_ioport_write(struct rte_pci_ioport *p,
		const void *data, size_t len, off_t offset)
{
	switch (p->dev->kdrv) {
	case RTE_KDRV_NIC_UIO:
		pci_uio_ioport_write(p, data, len, offset);
		break;
	default:
		break;
	}
}

int
rte_pci_ioport_unmap(struct rte_pci_ioport *p)
{
	int ret;

	switch (p->dev->kdrv) {
#if defined(RTE_ARCH_X86)
	case RTE_KDRV_NIC_UIO:
		ret = 0;
		break;
#endif
	default:
		ret = -1;
		break;
	}

	return ret;
}