Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Liming Sun | 6209 | 98.87% | 9 | 52.94% |
Jiri Pirko | 24 | 0.38% | 2 | 11.76% |
Michael S. Tsirkin | 20 | 0.32% | 1 | 5.88% |
Shih-Yi Chen | 10 | 0.16% | 1 | 5.88% |
Xuan Zhuo | 8 | 0.13% | 1 | 5.88% |
Randy Dunlap | 6 | 0.10% | 1 | 5.88% |
Uwe Kleine-König | 2 | 0.03% | 1 | 5.88% |
Irenge Jules Bashizi | 1 | 0.02% | 1 | 5.88% |
Total | 6280 | 17 |
// SPDX-License-Identifier: GPL-2.0+ /* * Mellanox BlueField SoC TmFifo driver * * Copyright (C) 2019 Mellanox Technologies */ #include <linux/acpi.h> #include <linux/bitfield.h> #include <linux/circ_buf.h> #include <linux/efi.h> #include <linux/irq.h> #include <linux/module.h> #include <linux/mutex.h> #include <linux/platform_device.h> #include <linux/types.h> #include <linux/virtio_config.h> #include <linux/virtio_console.h> #include <linux/virtio_ids.h> #include <linux/virtio_net.h> #include <linux/virtio_ring.h> #include "mlxbf-tmfifo-regs.h" /* Vring size. */ #define MLXBF_TMFIFO_VRING_SIZE SZ_1K /* Console Tx buffer size. */ #define MLXBF_TMFIFO_CON_TX_BUF_SIZE SZ_32K /* Console Tx buffer reserved space. */ #define MLXBF_TMFIFO_CON_TX_BUF_RSV_SIZE 8 /* House-keeping timer interval. */ #define MLXBF_TMFIFO_TIMER_INTERVAL (HZ / 10) /* Virtual devices sharing the TM FIFO. */ #define MLXBF_TMFIFO_VDEV_MAX (VIRTIO_ID_CONSOLE + 1) /* * Reserve 1/16 of TmFifo space, so console messages are not starved by * the networking traffic. */ #define MLXBF_TMFIFO_RESERVE_RATIO 16 /* Message with data needs at least two words (for header & data). */ #define MLXBF_TMFIFO_DATA_MIN_WORDS 2 /* Tx timeout in milliseconds. */ #define TMFIFO_TX_TIMEOUT 2000 /* ACPI UID for BlueField-3. */ #define TMFIFO_BF3_UID 1 struct mlxbf_tmfifo; /** * struct mlxbf_tmfifo_vring - Structure of the TmFifo virtual ring * @va: virtual address of the ring * @dma: dma address of the ring * @vq: pointer to the virtio virtqueue * @desc: current descriptor of the pending packet * @desc_head: head descriptor of the pending packet * @drop_desc: dummy desc for packet dropping * @cur_len: processed length of the current descriptor * @rem_len: remaining length of the pending packet * @rem_padding: remaining bytes to send as paddings * @pkt_len: total length of the pending packet * @next_avail: next avail descriptor id * @num: vring size (number of descriptors) * @align: vring alignment size * @index: vring index * @vdev_id: vring virtio id (VIRTIO_ID_xxx) * @tx_timeout: expire time of last tx packet * @fifo: pointer to the tmfifo structure */ struct mlxbf_tmfifo_vring { void *va; dma_addr_t dma; struct virtqueue *vq; struct vring_desc *desc; struct vring_desc *desc_head; struct vring_desc drop_desc; int cur_len; int rem_len; int rem_padding; u32 pkt_len; u16 next_avail; int num; int align; int index; int vdev_id; unsigned long tx_timeout; struct mlxbf_tmfifo *fifo; }; /* Check whether vring is in drop mode. */ #define IS_VRING_DROP(_r) ({ \ typeof(_r) (r) = (_r); \ r->desc_head == &r->drop_desc; }) /* A stub length to drop maximum length packet. */ #define VRING_DROP_DESC_MAX_LEN GENMASK(15, 0) /* Interrupt types. */ enum { MLXBF_TM_RX_LWM_IRQ, MLXBF_TM_RX_HWM_IRQ, MLXBF_TM_TX_LWM_IRQ, MLXBF_TM_TX_HWM_IRQ, MLXBF_TM_MAX_IRQ }; /* Ring types (Rx & Tx). */ enum { MLXBF_TMFIFO_VRING_RX, MLXBF_TMFIFO_VRING_TX, MLXBF_TMFIFO_VRING_MAX }; /** * struct mlxbf_tmfifo_vdev - Structure of the TmFifo virtual device * @vdev: virtio device, in which the vdev.id.device field has the * VIRTIO_ID_xxx id to distinguish the virtual device. * @status: status of the device * @features: supported features of the device * @vrings: array of tmfifo vrings of this device * @config: non-anonymous union for cons and net * @config.cons: virtual console config - * select if vdev.id.device is VIRTIO_ID_CONSOLE * @config.net: virtual network config - * select if vdev.id.device is VIRTIO_ID_NET * @tx_buf: tx buffer used to buffer data before writing into the FIFO */ struct mlxbf_tmfifo_vdev { struct virtio_device vdev; u8 status; u64 features; struct mlxbf_tmfifo_vring vrings[MLXBF_TMFIFO_VRING_MAX]; union { struct virtio_console_config cons; struct virtio_net_config net; } config; struct circ_buf tx_buf; }; /** * struct mlxbf_tmfifo_irq_info - Structure of the interrupt information * @fifo: pointer to the tmfifo structure * @irq: interrupt number * @index: index into the interrupt array */ struct mlxbf_tmfifo_irq_info { struct mlxbf_tmfifo *fifo; int irq; int index; }; /** * struct mlxbf_tmfifo_io - Structure of the TmFifo IO resource (for both rx & tx) * @ctl: control register offset (TMFIFO_RX_CTL / TMFIFO_TX_CTL) * @sts: status register offset (TMFIFO_RX_STS / TMFIFO_TX_STS) * @data: data register offset (TMFIFO_RX_DATA / TMFIFO_TX_DATA) */ struct mlxbf_tmfifo_io { void __iomem *ctl; void __iomem *sts; void __iomem *data; }; /** * struct mlxbf_tmfifo - Structure of the TmFifo * @vdev: array of the virtual devices running over the TmFifo * @lock: lock to protect the TmFifo access * @res0: mapped resource block 0 * @res1: mapped resource block 1 * @rx: rx io resource * @tx: tx io resource * @rx_fifo_size: number of entries of the Rx FIFO * @tx_fifo_size: number of entries of the Tx FIFO * @pend_events: pending bits for deferred events * @irq_info: interrupt information * @work: work struct for deferred process * @timer: background timer * @vring: Tx/Rx ring * @spin_lock: Tx/Rx spin lock * @is_ready: ready flag */ struct mlxbf_tmfifo { struct mlxbf_tmfifo_vdev *vdev[MLXBF_TMFIFO_VDEV_MAX]; struct mutex lock; /* TmFifo lock */ void __iomem *res0; void __iomem *res1; struct mlxbf_tmfifo_io rx; struct mlxbf_tmfifo_io tx; int rx_fifo_size; int tx_fifo_size; unsigned long pend_events; struct mlxbf_tmfifo_irq_info irq_info[MLXBF_TM_MAX_IRQ]; struct work_struct work; struct timer_list timer; struct mlxbf_tmfifo_vring *vring[2]; spinlock_t spin_lock[2]; /* spin lock */ bool is_ready; }; /** * struct mlxbf_tmfifo_msg_hdr - Structure of the TmFifo message header * @type: message type * @len: payload length in network byte order. Messages sent into the FIFO * will be read by the other side as data stream in the same byte order. * The length needs to be encoded into network order so both sides * could understand it. */ struct mlxbf_tmfifo_msg_hdr { u8 type; __be16 len; /* private: */ u8 unused[5]; } __packed __aligned(sizeof(u64)); /* * Default MAC. * This MAC address will be read from EFI persistent variable if configured. * It can also be reconfigured with standard Linux tools. */ static u8 mlxbf_tmfifo_net_default_mac[ETH_ALEN] = { 0x00, 0x1A, 0xCA, 0xFF, 0xFF, 0x01 }; /* EFI variable name of the MAC address. */ static efi_char16_t mlxbf_tmfifo_efi_name[] = L"RshimMacAddr"; /* Maximum L2 header length. */ #define MLXBF_TMFIFO_NET_L2_OVERHEAD (ETH_HLEN + VLAN_HLEN) /* Supported virtio-net features. */ #define MLXBF_TMFIFO_NET_FEATURES \ (BIT_ULL(VIRTIO_NET_F_MTU) | BIT_ULL(VIRTIO_NET_F_STATUS) | \ BIT_ULL(VIRTIO_NET_F_MAC)) #define mlxbf_vdev_to_tmfifo(d) container_of(d, struct mlxbf_tmfifo_vdev, vdev) /* Free vrings of the FIFO device. */ static void mlxbf_tmfifo_free_vrings(struct mlxbf_tmfifo *fifo, struct mlxbf_tmfifo_vdev *tm_vdev) { struct mlxbf_tmfifo_vring *vring; int i, size; for (i = 0; i < ARRAY_SIZE(tm_vdev->vrings); i++) { vring = &tm_vdev->vrings[i]; if (vring->va) { size = vring_size(vring->num, vring->align); dma_free_coherent(tm_vdev->vdev.dev.parent, size, vring->va, vring->dma); vring->va = NULL; if (vring->vq) { vring_del_virtqueue(vring->vq); vring->vq = NULL; } } } } /* Allocate vrings for the FIFO. */ static int mlxbf_tmfifo_alloc_vrings(struct mlxbf_tmfifo *fifo, struct mlxbf_tmfifo_vdev *tm_vdev) { struct mlxbf_tmfifo_vring *vring; struct device *dev; dma_addr_t dma; int i, size; void *va; for (i = 0; i < ARRAY_SIZE(tm_vdev->vrings); i++) { vring = &tm_vdev->vrings[i]; vring->fifo = fifo; vring->num = MLXBF_TMFIFO_VRING_SIZE; vring->align = SMP_CACHE_BYTES; vring->index = i; vring->vdev_id = tm_vdev->vdev.id.device; vring->drop_desc.len = VRING_DROP_DESC_MAX_LEN; dev = &tm_vdev->vdev.dev; size = vring_size(vring->num, vring->align); va = dma_alloc_coherent(dev->parent, size, &dma, GFP_KERNEL); if (!va) { mlxbf_tmfifo_free_vrings(fifo, tm_vdev); dev_err(dev->parent, "dma_alloc_coherent failed\n"); return -ENOMEM; } vring->va = va; vring->dma = dma; } return 0; } /* Disable interrupts of the FIFO device. */ static void mlxbf_tmfifo_disable_irqs(struct mlxbf_tmfifo *fifo) { int i, irq; for (i = 0; i < MLXBF_TM_MAX_IRQ; i++) { irq = fifo->irq_info[i].irq; fifo->irq_info[i].irq = 0; disable_irq(irq); } } /* Interrupt handler. */ static irqreturn_t mlxbf_tmfifo_irq_handler(int irq, void *arg) { struct mlxbf_tmfifo_irq_info *irq_info = arg; if (!test_and_set_bit(irq_info->index, &irq_info->fifo->pend_events)) schedule_work(&irq_info->fifo->work); return IRQ_HANDLED; } /* Get the next packet descriptor from the vring. */ static struct vring_desc * mlxbf_tmfifo_get_next_desc(struct mlxbf_tmfifo_vring *vring) { const struct vring *vr = virtqueue_get_vring(vring->vq); struct virtio_device *vdev = vring->vq->vdev; unsigned int idx, head; if (vring->next_avail == virtio16_to_cpu(vdev, vr->avail->idx)) return NULL; /* Make sure 'avail->idx' is visible already. */ virtio_rmb(false); idx = vring->next_avail % vr->num; head = virtio16_to_cpu(vdev, vr->avail->ring[idx]); if (WARN_ON(head >= vr->num)) return NULL; vring->next_avail++; return &vr->desc[head]; } /* Release virtio descriptor. */ static void mlxbf_tmfifo_release_desc(struct mlxbf_tmfifo_vring *vring, struct vring_desc *desc, u32 len) { const struct vring *vr = virtqueue_get_vring(vring->vq); struct virtio_device *vdev = vring->vq->vdev; u16 idx, vr_idx; vr_idx = virtio16_to_cpu(vdev, vr->used->idx); idx = vr_idx % vr->num; vr->used->ring[idx].id = cpu_to_virtio32(vdev, desc - vr->desc); vr->used->ring[idx].len = cpu_to_virtio32(vdev, len); /* * Virtio could poll and check the 'idx' to decide whether the desc is * done or not. Add a memory barrier here to make sure the update above * completes before updating the idx. */ virtio_mb(false); vr->used->idx = cpu_to_virtio16(vdev, vr_idx + 1); } /* Get the total length of the descriptor chain. */ static u32 mlxbf_tmfifo_get_pkt_len(struct mlxbf_tmfifo_vring *vring, struct vring_desc *desc) { const struct vring *vr = virtqueue_get_vring(vring->vq); struct virtio_device *vdev = vring->vq->vdev; u32 len = 0, idx; while (desc) { len += virtio32_to_cpu(vdev, desc->len); if (!(virtio16_to_cpu(vdev, desc->flags) & VRING_DESC_F_NEXT)) break; idx = virtio16_to_cpu(vdev, desc->next); desc = &vr->desc[idx]; } return len; } static void mlxbf_tmfifo_release_pkt(struct mlxbf_tmfifo_vring *vring) { struct vring_desc *desc_head; u32 len = 0; if (vring->desc_head) { desc_head = vring->desc_head; len = vring->pkt_len; } else { desc_head = mlxbf_tmfifo_get_next_desc(vring); len = mlxbf_tmfifo_get_pkt_len(vring, desc_head); } if (desc_head) mlxbf_tmfifo_release_desc(vring, desc_head, len); vring->pkt_len = 0; vring->desc = NULL; vring->desc_head = NULL; } static void mlxbf_tmfifo_init_net_desc(struct mlxbf_tmfifo_vring *vring, struct vring_desc *desc, bool is_rx) { struct virtio_device *vdev = vring->vq->vdev; struct virtio_net_hdr *net_hdr; net_hdr = phys_to_virt(virtio64_to_cpu(vdev, desc->addr)); memset(net_hdr, 0, sizeof(*net_hdr)); } /* Get and initialize the next packet. */ static struct vring_desc * mlxbf_tmfifo_get_next_pkt(struct mlxbf_tmfifo_vring *vring, bool is_rx) { struct vring_desc *desc; desc = mlxbf_tmfifo_get_next_desc(vring); if (desc && is_rx && vring->vdev_id == VIRTIO_ID_NET) mlxbf_tmfifo_init_net_desc(vring, desc, is_rx); vring->desc_head = desc; vring->desc = desc; return desc; } /* House-keeping timer. */ static void mlxbf_tmfifo_timer(struct timer_list *t) { struct mlxbf_tmfifo *fifo = container_of(t, struct mlxbf_tmfifo, timer); int rx, tx; rx = !test_and_set_bit(MLXBF_TM_RX_HWM_IRQ, &fifo->pend_events); tx = !test_and_set_bit(MLXBF_TM_TX_LWM_IRQ, &fifo->pend_events); if (rx || tx) schedule_work(&fifo->work); mod_timer(&fifo->timer, jiffies + MLXBF_TMFIFO_TIMER_INTERVAL); } /* Copy one console packet into the output buffer. */ static void mlxbf_tmfifo_console_output_one(struct mlxbf_tmfifo_vdev *cons, struct mlxbf_tmfifo_vring *vring, struct vring_desc *desc) { const struct vring *vr = virtqueue_get_vring(vring->vq); struct virtio_device *vdev = &cons->vdev; u32 len, idx, seg; void *addr; while (desc) { addr = phys_to_virt(virtio64_to_cpu(vdev, desc->addr)); len = virtio32_to_cpu(vdev, desc->len); seg = CIRC_SPACE_TO_END(cons->tx_buf.head, cons->tx_buf.tail, MLXBF_TMFIFO_CON_TX_BUF_SIZE); if (len <= seg) { memcpy(cons->tx_buf.buf + cons->tx_buf.head, addr, len); } else { memcpy(cons->tx_buf.buf + cons->tx_buf.head, addr, seg); addr += seg; memcpy(cons->tx_buf.buf, addr, len - seg); } cons->tx_buf.head = (cons->tx_buf.head + len) % MLXBF_TMFIFO_CON_TX_BUF_SIZE; if (!(virtio16_to_cpu(vdev, desc->flags) & VRING_DESC_F_NEXT)) break; idx = virtio16_to_cpu(vdev, desc->next); desc = &vr->desc[idx]; } } /* Copy console data into the output buffer. */ static void mlxbf_tmfifo_console_output(struct mlxbf_tmfifo_vdev *cons, struct mlxbf_tmfifo_vring *vring) { struct vring_desc *desc; u32 len, avail; desc = mlxbf_tmfifo_get_next_desc(vring); while (desc) { /* Release the packet if not enough space. */ len = mlxbf_tmfifo_get_pkt_len(vring, desc); avail = CIRC_SPACE(cons->tx_buf.head, cons->tx_buf.tail, MLXBF_TMFIFO_CON_TX_BUF_SIZE); if (len + MLXBF_TMFIFO_CON_TX_BUF_RSV_SIZE > avail) { mlxbf_tmfifo_release_desc(vring, desc, len); break; } mlxbf_tmfifo_console_output_one(cons, vring, desc); mlxbf_tmfifo_release_desc(vring, desc, len); desc = mlxbf_tmfifo_get_next_desc(vring); } } /* Get the number of available words in Rx FIFO for receiving. */ static int mlxbf_tmfifo_get_rx_avail(struct mlxbf_tmfifo *fifo) { u64 sts; sts = readq(fifo->rx.sts); return FIELD_GET(MLXBF_TMFIFO_RX_STS__COUNT_MASK, sts); } /* Get the number of available words in the TmFifo for sending. */ static int mlxbf_tmfifo_get_tx_avail(struct mlxbf_tmfifo *fifo, int vdev_id) { int tx_reserve; u32 count; u64 sts; /* Reserve some room in FIFO for console messages. */ if (vdev_id == VIRTIO_ID_NET) tx_reserve = fifo->tx_fifo_size / MLXBF_TMFIFO_RESERVE_RATIO; else tx_reserve = 1; sts = readq(fifo->tx.sts); count = FIELD_GET(MLXBF_TMFIFO_TX_STS__COUNT_MASK, sts); return fifo->tx_fifo_size - tx_reserve - count; } /* Console Tx (move data from the output buffer into the TmFifo). */ static void mlxbf_tmfifo_console_tx(struct mlxbf_tmfifo *fifo, int avail) { struct mlxbf_tmfifo_msg_hdr hdr; struct mlxbf_tmfifo_vdev *cons; unsigned long flags; int size, seg; void *addr; u64 data; /* Return if not enough space available. */ if (avail < MLXBF_TMFIFO_DATA_MIN_WORDS) return; cons = fifo->vdev[VIRTIO_ID_CONSOLE]; if (!cons || !cons->tx_buf.buf) return; /* Return if no data to send. */ size = CIRC_CNT(cons->tx_buf.head, cons->tx_buf.tail, MLXBF_TMFIFO_CON_TX_BUF_SIZE); if (size == 0) return; /* Adjust the size to available space. */ if (size + sizeof(hdr) > avail * sizeof(u64)) size = avail * sizeof(u64) - sizeof(hdr); /* Write header. */ hdr.type = VIRTIO_ID_CONSOLE; hdr.len = htons(size); writeq(*(u64 *)&hdr, fifo->tx.data); /* Use spin-lock to protect the 'cons->tx_buf'. */ spin_lock_irqsave(&fifo->spin_lock[0], flags); while (size > 0) { addr = cons->tx_buf.buf + cons->tx_buf.tail; seg = CIRC_CNT_TO_END(cons->tx_buf.head, cons->tx_buf.tail, MLXBF_TMFIFO_CON_TX_BUF_SIZE); if (seg >= sizeof(u64)) { memcpy(&data, addr, sizeof(u64)); } else { memcpy(&data, addr, seg); memcpy((u8 *)&data + seg, cons->tx_buf.buf, sizeof(u64) - seg); } writeq(data, fifo->tx.data); if (size >= sizeof(u64)) { cons->tx_buf.tail = (cons->tx_buf.tail + sizeof(u64)) % MLXBF_TMFIFO_CON_TX_BUF_SIZE; size -= sizeof(u64); } else { cons->tx_buf.tail = (cons->tx_buf.tail + size) % MLXBF_TMFIFO_CON_TX_BUF_SIZE; size = 0; } } spin_unlock_irqrestore(&fifo->spin_lock[0], flags); } /* Rx/Tx one word in the descriptor buffer. */ static void mlxbf_tmfifo_rxtx_word(struct mlxbf_tmfifo_vring *vring, struct vring_desc *desc, bool is_rx, int len) { struct virtio_device *vdev = vring->vq->vdev; struct mlxbf_tmfifo *fifo = vring->fifo; void *addr; u64 data; /* Get the buffer address of this desc. */ addr = phys_to_virt(virtio64_to_cpu(vdev, desc->addr)); /* Read a word from FIFO for Rx. */ if (is_rx) data = readq(fifo->rx.data); if (vring->cur_len + sizeof(u64) <= len) { /* The whole word. */ if (is_rx) { if (!IS_VRING_DROP(vring)) memcpy(addr + vring->cur_len, &data, sizeof(u64)); } else { memcpy(&data, addr + vring->cur_len, sizeof(u64)); } vring->cur_len += sizeof(u64); } else { /* Leftover bytes. */ if (is_rx) { if (!IS_VRING_DROP(vring)) memcpy(addr + vring->cur_len, &data, len - vring->cur_len); } else { data = 0; memcpy(&data, addr + vring->cur_len, len - vring->cur_len); } vring->cur_len = len; } /* Write the word into FIFO for Tx. */ if (!is_rx) writeq(data, fifo->tx.data); } /* * Rx/Tx packet header. * * In Rx case, the packet might be found to belong to a different vring since * the TmFifo is shared by different services. In such case, the 'vring_change' * flag is set. */ static void mlxbf_tmfifo_rxtx_header(struct mlxbf_tmfifo_vring *vring, struct vring_desc **desc, bool is_rx, bool *vring_change) { struct mlxbf_tmfifo *fifo = vring->fifo; struct virtio_net_config *config; struct mlxbf_tmfifo_msg_hdr hdr; int vdev_id, hdr_len; bool drop_rx = false; /* Read/Write packet header. */ if (is_rx) { /* Drain one word from the FIFO. */ *(u64 *)&hdr = readq(fifo->rx.data); /* Skip the length 0 packets (keepalive). */ if (hdr.len == 0) return; /* Check packet type. */ if (hdr.type == VIRTIO_ID_NET) { vdev_id = VIRTIO_ID_NET; hdr_len = sizeof(struct virtio_net_hdr); config = &fifo->vdev[vdev_id]->config.net; /* A legacy-only interface for now. */ if (ntohs(hdr.len) > __virtio16_to_cpu(virtio_legacy_is_little_endian(), config->mtu) + MLXBF_TMFIFO_NET_L2_OVERHEAD) drop_rx = true; } else { vdev_id = VIRTIO_ID_CONSOLE; hdr_len = 0; } /* * Check whether the new packet still belongs to this vring. * If not, update the pkt_len of the new vring. */ if (vdev_id != vring->vdev_id) { struct mlxbf_tmfifo_vdev *tm_dev2 = fifo->vdev[vdev_id]; if (!tm_dev2) return; vring->desc = *desc; vring = &tm_dev2->vrings[MLXBF_TMFIFO_VRING_RX]; *vring_change = true; } if (drop_rx && !IS_VRING_DROP(vring)) { if (vring->desc_head) mlxbf_tmfifo_release_pkt(vring); *desc = &vring->drop_desc; vring->desc_head = *desc; vring->desc = *desc; } vring->pkt_len = ntohs(hdr.len) + hdr_len; } else { /* Network virtio has an extra header. */ hdr_len = (vring->vdev_id == VIRTIO_ID_NET) ? sizeof(struct virtio_net_hdr) : 0; vring->pkt_len = mlxbf_tmfifo_get_pkt_len(vring, *desc); hdr.type = (vring->vdev_id == VIRTIO_ID_NET) ? VIRTIO_ID_NET : VIRTIO_ID_CONSOLE; hdr.len = htons(vring->pkt_len - hdr_len); writeq(*(u64 *)&hdr, fifo->tx.data); } vring->cur_len = hdr_len; vring->rem_len = vring->pkt_len; fifo->vring[is_rx] = vring; } /* * Rx/Tx one descriptor. * * Return true to indicate more data available. */ static bool mlxbf_tmfifo_rxtx_one_desc(struct mlxbf_tmfifo_vring *vring, bool is_rx, int *avail) { const struct vring *vr = virtqueue_get_vring(vring->vq); struct mlxbf_tmfifo *fifo = vring->fifo; struct virtio_device *vdev; bool vring_change = false; struct vring_desc *desc; unsigned long flags; u32 len, idx; vdev = &fifo->vdev[vring->vdev_id]->vdev; /* Get the descriptor of the next packet. */ if (!vring->desc) { desc = mlxbf_tmfifo_get_next_pkt(vring, is_rx); if (!desc) { /* Drop next Rx packet to avoid stuck. */ if (is_rx) { desc = &vring->drop_desc; vring->desc_head = desc; vring->desc = desc; } else { return false; } } } else { desc = vring->desc; } /* Beginning of a packet. Start to Rx/Tx packet header. */ if (vring->pkt_len == 0) { mlxbf_tmfifo_rxtx_header(vring, &desc, is_rx, &vring_change); (*avail)--; /* Return if new packet is for another ring. */ if (vring_change) return false; goto mlxbf_tmfifo_desc_done; } /* Get the length of this desc. */ len = virtio32_to_cpu(vdev, desc->len); if (len > vring->rem_len) len = vring->rem_len; /* Rx/Tx one word (8 bytes) if not done. */ if (vring->cur_len < len) { mlxbf_tmfifo_rxtx_word(vring, desc, is_rx, len); (*avail)--; } /* Check again whether it's done. */ if (vring->cur_len == len) { vring->cur_len = 0; vring->rem_len -= len; /* Get the next desc on the chain. */ if (!IS_VRING_DROP(vring) && vring->rem_len > 0 && (virtio16_to_cpu(vdev, desc->flags) & VRING_DESC_F_NEXT)) { idx = virtio16_to_cpu(vdev, desc->next); desc = &vr->desc[idx]; goto mlxbf_tmfifo_desc_done; } /* Done and release the packet. */ desc = NULL; fifo->vring[is_rx] = NULL; if (!IS_VRING_DROP(vring)) { mlxbf_tmfifo_release_pkt(vring); } else { vring->pkt_len = 0; vring->desc_head = NULL; vring->desc = NULL; return false; } /* * Make sure the load/store are in order before * returning back to virtio. */ virtio_mb(false); /* Notify upper layer that packet is done. */ spin_lock_irqsave(&fifo->spin_lock[is_rx], flags); vring_interrupt(0, vring->vq); spin_unlock_irqrestore(&fifo->spin_lock[is_rx], flags); } mlxbf_tmfifo_desc_done: /* Save the current desc. */ vring->desc = desc; return true; } static void mlxbf_tmfifo_check_tx_timeout(struct mlxbf_tmfifo_vring *vring) { unsigned long flags; /* Only handle Tx timeout for network vdev. */ if (vring->vdev_id != VIRTIO_ID_NET) return; /* Initialize the timeout or return if not expired. */ if (!vring->tx_timeout) { /* Initialize the timeout. */ vring->tx_timeout = jiffies + msecs_to_jiffies(TMFIFO_TX_TIMEOUT); return; } else if (time_before(jiffies, vring->tx_timeout)) { /* Return if not timeout yet. */ return; } /* * Drop the packet after timeout. The outstanding packet is * released and the remaining bytes will be sent with padding byte 0x00 * as a recovery. On the peer(host) side, the padding bytes 0x00 will be * either dropped directly, or appended into existing outstanding packet * thus dropped as corrupted network packet. */ vring->rem_padding = round_up(vring->rem_len, sizeof(u64)); mlxbf_tmfifo_release_pkt(vring); vring->cur_len = 0; vring->rem_len = 0; vring->fifo->vring[0] = NULL; /* * Make sure the load/store are in order before * returning back to virtio. */ virtio_mb(false); /* Notify upper layer. */ spin_lock_irqsave(&vring->fifo->spin_lock[0], flags); vring_interrupt(0, vring->vq); spin_unlock_irqrestore(&vring->fifo->spin_lock[0], flags); } /* Rx & Tx processing of a queue. */ static void mlxbf_tmfifo_rxtx(struct mlxbf_tmfifo_vring *vring, bool is_rx) { int avail = 0, devid = vring->vdev_id; struct mlxbf_tmfifo *fifo; bool more; fifo = vring->fifo; /* Return if vdev is not ready. */ if (!fifo || !fifo->vdev[devid]) return; /* Return if another vring is running. */ if (fifo->vring[is_rx] && fifo->vring[is_rx] != vring) return; /* Only handle console and network for now. */ if (WARN_ON(devid != VIRTIO_ID_NET && devid != VIRTIO_ID_CONSOLE)) return; do { retry: /* Get available FIFO space. */ if (avail == 0) { if (is_rx) avail = mlxbf_tmfifo_get_rx_avail(fifo); else avail = mlxbf_tmfifo_get_tx_avail(fifo, devid); if (avail <= 0) break; } /* Insert paddings for discarded Tx packet. */ if (!is_rx) { vring->tx_timeout = 0; while (vring->rem_padding >= sizeof(u64)) { writeq(0, vring->fifo->tx.data); vring->rem_padding -= sizeof(u64); if (--avail == 0) goto retry; } } /* Console output always comes from the Tx buffer. */ if (!is_rx && devid == VIRTIO_ID_CONSOLE) { mlxbf_tmfifo_console_tx(fifo, avail); break; } /* Handle one descriptor. */ more = mlxbf_tmfifo_rxtx_one_desc(vring, is_rx, &avail); } while (more); /* Check Tx timeout. */ if (avail <= 0 && !is_rx) mlxbf_tmfifo_check_tx_timeout(vring); } /* Handle Rx or Tx queues. */ static void mlxbf_tmfifo_work_rxtx(struct mlxbf_tmfifo *fifo, int queue_id, int irq_id, bool is_rx) { struct mlxbf_tmfifo_vdev *tm_vdev; struct mlxbf_tmfifo_vring *vring; int i; if (!test_and_clear_bit(irq_id, &fifo->pend_events) || !fifo->irq_info[irq_id].irq) return; for (i = 0; i < MLXBF_TMFIFO_VDEV_MAX; i++) { tm_vdev = fifo->vdev[i]; if (tm_vdev) { vring = &tm_vdev->vrings[queue_id]; if (vring->vq) mlxbf_tmfifo_rxtx(vring, is_rx); } } } /* Work handler for Rx and Tx case. */ static void mlxbf_tmfifo_work_handler(struct work_struct *work) { struct mlxbf_tmfifo *fifo; fifo = container_of(work, struct mlxbf_tmfifo, work); if (!fifo->is_ready) return; mutex_lock(&fifo->lock); /* Tx (Send data to the TmFifo). */ mlxbf_tmfifo_work_rxtx(fifo, MLXBF_TMFIFO_VRING_TX, MLXBF_TM_TX_LWM_IRQ, false); /* Rx (Receive data from the TmFifo). */ mlxbf_tmfifo_work_rxtx(fifo, MLXBF_TMFIFO_VRING_RX, MLXBF_TM_RX_HWM_IRQ, true); mutex_unlock(&fifo->lock); } /* The notify function is called when new buffers are posted. */ static bool mlxbf_tmfifo_virtio_notify(struct virtqueue *vq) { struct mlxbf_tmfifo_vring *vring = vq->priv; struct mlxbf_tmfifo_vdev *tm_vdev; struct mlxbf_tmfifo *fifo; unsigned long flags; fifo = vring->fifo; /* * Virtio maintains vrings in pairs, even number ring for Rx * and odd number ring for Tx. */ if (vring->index & BIT(0)) { /* * Console could make blocking call with interrupts disabled. * In such case, the vring needs to be served right away. For * other cases, just set the TX LWM bit to start Tx in the * worker handler. */ if (vring->vdev_id == VIRTIO_ID_CONSOLE) { spin_lock_irqsave(&fifo->spin_lock[0], flags); tm_vdev = fifo->vdev[VIRTIO_ID_CONSOLE]; mlxbf_tmfifo_console_output(tm_vdev, vring); spin_unlock_irqrestore(&fifo->spin_lock[0], flags); set_bit(MLXBF_TM_TX_LWM_IRQ, &fifo->pend_events); } else if (test_and_set_bit(MLXBF_TM_TX_LWM_IRQ, &fifo->pend_events)) { return true; } } else { if (test_and_set_bit(MLXBF_TM_RX_HWM_IRQ, &fifo->pend_events)) return true; } schedule_work(&fifo->work); return true; } /* Get the array of feature bits for this device. */ static u64 mlxbf_tmfifo_virtio_get_features(struct virtio_device *vdev) { struct mlxbf_tmfifo_vdev *tm_vdev = mlxbf_vdev_to_tmfifo(vdev); return tm_vdev->features; } /* Confirm device features to use. */ static int mlxbf_tmfifo_virtio_finalize_features(struct virtio_device *vdev) { struct mlxbf_tmfifo_vdev *tm_vdev = mlxbf_vdev_to_tmfifo(vdev); tm_vdev->features = vdev->features; return 0; } /* Free virtqueues found by find_vqs(). */ static void mlxbf_tmfifo_virtio_del_vqs(struct virtio_device *vdev) { struct mlxbf_tmfifo_vdev *tm_vdev = mlxbf_vdev_to_tmfifo(vdev); struct mlxbf_tmfifo_vring *vring; struct virtqueue *vq; int i; for (i = 0; i < ARRAY_SIZE(tm_vdev->vrings); i++) { vring = &tm_vdev->vrings[i]; /* Release the pending packet. */ if (vring->desc) mlxbf_tmfifo_release_pkt(vring); vq = vring->vq; if (vq) { vring->vq = NULL; vring_del_virtqueue(vq); } } } /* Create and initialize the virtual queues. */ static int mlxbf_tmfifo_virtio_find_vqs(struct virtio_device *vdev, unsigned int nvqs, struct virtqueue *vqs[], struct virtqueue_info vqs_info[], struct irq_affinity *desc) { struct mlxbf_tmfifo_vdev *tm_vdev = mlxbf_vdev_to_tmfifo(vdev); struct mlxbf_tmfifo_vring *vring; struct virtqueue *vq; int i, ret, size; if (nvqs > ARRAY_SIZE(tm_vdev->vrings)) return -EINVAL; for (i = 0; i < nvqs; ++i) { struct virtqueue_info *vqi = &vqs_info[i]; if (!vqi->name) { ret = -EINVAL; goto error; } vring = &tm_vdev->vrings[i]; /* zero vring */ size = vring_size(vring->num, vring->align); memset(vring->va, 0, size); vq = vring_new_virtqueue(i, vring->num, vring->align, vdev, false, false, vring->va, mlxbf_tmfifo_virtio_notify, vqi->callback, vqi->name); if (!vq) { dev_err(&vdev->dev, "vring_new_virtqueue failed\n"); ret = -ENOMEM; goto error; } vq->num_max = vring->num; vq->priv = vring; /* Make vq update visible before using it. */ virtio_mb(false); vqs[i] = vq; vring->vq = vq; } return 0; error: mlxbf_tmfifo_virtio_del_vqs(vdev); return ret; } /* Read the status byte. */ static u8 mlxbf_tmfifo_virtio_get_status(struct virtio_device *vdev) { struct mlxbf_tmfifo_vdev *tm_vdev = mlxbf_vdev_to_tmfifo(vdev); return tm_vdev->status; } /* Write the status byte. */ static void mlxbf_tmfifo_virtio_set_status(struct virtio_device *vdev, u8 status) { struct mlxbf_tmfifo_vdev *tm_vdev = mlxbf_vdev_to_tmfifo(vdev); tm_vdev->status = status; } /* Reset the device. Not much here for now. */ static void mlxbf_tmfifo_virtio_reset(struct virtio_device *vdev) { struct mlxbf_tmfifo_vdev *tm_vdev = mlxbf_vdev_to_tmfifo(vdev); tm_vdev->status = 0; } /* Read the value of a configuration field. */ static void mlxbf_tmfifo_virtio_get(struct virtio_device *vdev, unsigned int offset, void *buf, unsigned int len) { struct mlxbf_tmfifo_vdev *tm_vdev = mlxbf_vdev_to_tmfifo(vdev); if ((u64)offset + len > sizeof(tm_vdev->config)) return; memcpy(buf, (u8 *)&tm_vdev->config + offset, len); } /* Write the value of a configuration field. */ static void mlxbf_tmfifo_virtio_set(struct virtio_device *vdev, unsigned int offset, const void *buf, unsigned int len) { struct mlxbf_tmfifo_vdev *tm_vdev = mlxbf_vdev_to_tmfifo(vdev); if ((u64)offset + len > sizeof(tm_vdev->config)) return; memcpy((u8 *)&tm_vdev->config + offset, buf, len); } static void tmfifo_virtio_dev_release(struct device *device) { struct virtio_device *vdev = container_of(device, struct virtio_device, dev); struct mlxbf_tmfifo_vdev *tm_vdev = mlxbf_vdev_to_tmfifo(vdev); kfree(tm_vdev); } /* Virtio config operations. */ static const struct virtio_config_ops mlxbf_tmfifo_virtio_config_ops = { .get_features = mlxbf_tmfifo_virtio_get_features, .finalize_features = mlxbf_tmfifo_virtio_finalize_features, .find_vqs = mlxbf_tmfifo_virtio_find_vqs, .del_vqs = mlxbf_tmfifo_virtio_del_vqs, .reset = mlxbf_tmfifo_virtio_reset, .set_status = mlxbf_tmfifo_virtio_set_status, .get_status = mlxbf_tmfifo_virtio_get_status, .get = mlxbf_tmfifo_virtio_get, .set = mlxbf_tmfifo_virtio_set, }; /* Create vdev for the FIFO. */ static int mlxbf_tmfifo_create_vdev(struct device *dev, struct mlxbf_tmfifo *fifo, int vdev_id, u64 features, void *config, u32 size) { struct mlxbf_tmfifo_vdev *tm_vdev, *reg_dev = NULL; int ret; mutex_lock(&fifo->lock); tm_vdev = fifo->vdev[vdev_id]; if (tm_vdev) { dev_err(dev, "vdev %d already exists\n", vdev_id); ret = -EEXIST; goto fail; } tm_vdev = kzalloc(sizeof(*tm_vdev), GFP_KERNEL); if (!tm_vdev) { ret = -ENOMEM; goto fail; } tm_vdev->vdev.id.device = vdev_id; tm_vdev->vdev.config = &mlxbf_tmfifo_virtio_config_ops; tm_vdev->vdev.dev.parent = dev; tm_vdev->vdev.dev.release = tmfifo_virtio_dev_release; tm_vdev->features = features; if (config) memcpy(&tm_vdev->config, config, size); if (mlxbf_tmfifo_alloc_vrings(fifo, tm_vdev)) { dev_err(dev, "unable to allocate vring\n"); ret = -ENOMEM; goto vdev_fail; } /* Allocate an output buffer for the console device. */ if (vdev_id == VIRTIO_ID_CONSOLE) tm_vdev->tx_buf.buf = devm_kmalloc(dev, MLXBF_TMFIFO_CON_TX_BUF_SIZE, GFP_KERNEL); fifo->vdev[vdev_id] = tm_vdev; /* Register the virtio device. */ ret = register_virtio_device(&tm_vdev->vdev); reg_dev = tm_vdev; if (ret) { dev_err(dev, "register_virtio_device failed\n"); goto vdev_fail; } mutex_unlock(&fifo->lock); return 0; vdev_fail: mlxbf_tmfifo_free_vrings(fifo, tm_vdev); fifo->vdev[vdev_id] = NULL; if (reg_dev) put_device(&tm_vdev->vdev.dev); else kfree(tm_vdev); fail: mutex_unlock(&fifo->lock); return ret; } /* Delete vdev for the FIFO. */ static int mlxbf_tmfifo_delete_vdev(struct mlxbf_tmfifo *fifo, int vdev_id) { struct mlxbf_tmfifo_vdev *tm_vdev; mutex_lock(&fifo->lock); /* Unregister vdev. */ tm_vdev = fifo->vdev[vdev_id]; if (tm_vdev) { unregister_virtio_device(&tm_vdev->vdev); mlxbf_tmfifo_free_vrings(fifo, tm_vdev); fifo->vdev[vdev_id] = NULL; } mutex_unlock(&fifo->lock); return 0; } /* Read the configured network MAC address from efi variable. */ static void mlxbf_tmfifo_get_cfg_mac(u8 *mac) { efi_guid_t guid = EFI_GLOBAL_VARIABLE_GUID; unsigned long size = ETH_ALEN; u8 buf[ETH_ALEN]; efi_status_t rc; rc = efi.get_variable(mlxbf_tmfifo_efi_name, &guid, NULL, &size, buf); if (rc == EFI_SUCCESS && size == ETH_ALEN) ether_addr_copy(mac, buf); else ether_addr_copy(mac, mlxbf_tmfifo_net_default_mac); } /* Set TmFifo thresolds which is used to trigger interrupts. */ static void mlxbf_tmfifo_set_threshold(struct mlxbf_tmfifo *fifo) { u64 ctl; /* Get Tx FIFO size and set the low/high watermark. */ ctl = readq(fifo->tx.ctl); fifo->tx_fifo_size = FIELD_GET(MLXBF_TMFIFO_TX_CTL__MAX_ENTRIES_MASK, ctl); ctl = (ctl & ~MLXBF_TMFIFO_TX_CTL__LWM_MASK) | FIELD_PREP(MLXBF_TMFIFO_TX_CTL__LWM_MASK, fifo->tx_fifo_size / 2); ctl = (ctl & ~MLXBF_TMFIFO_TX_CTL__HWM_MASK) | FIELD_PREP(MLXBF_TMFIFO_TX_CTL__HWM_MASK, fifo->tx_fifo_size - 1); writeq(ctl, fifo->tx.ctl); /* Get Rx FIFO size and set the low/high watermark. */ ctl = readq(fifo->rx.ctl); fifo->rx_fifo_size = FIELD_GET(MLXBF_TMFIFO_RX_CTL__MAX_ENTRIES_MASK, ctl); ctl = (ctl & ~MLXBF_TMFIFO_RX_CTL__LWM_MASK) | FIELD_PREP(MLXBF_TMFIFO_RX_CTL__LWM_MASK, 0); ctl = (ctl & ~MLXBF_TMFIFO_RX_CTL__HWM_MASK) | FIELD_PREP(MLXBF_TMFIFO_RX_CTL__HWM_MASK, 1); writeq(ctl, fifo->rx.ctl); } static void mlxbf_tmfifo_cleanup(struct mlxbf_tmfifo *fifo) { int i; fifo->is_ready = false; del_timer_sync(&fifo->timer); mlxbf_tmfifo_disable_irqs(fifo); cancel_work_sync(&fifo->work); for (i = 0; i < MLXBF_TMFIFO_VDEV_MAX; i++) mlxbf_tmfifo_delete_vdev(fifo, i); } /* Probe the TMFIFO. */ static int mlxbf_tmfifo_probe(struct platform_device *pdev) { struct virtio_net_config net_config; struct device *dev = &pdev->dev; struct mlxbf_tmfifo *fifo; u64 dev_id; int i, rc; rc = acpi_dev_uid_to_integer(ACPI_COMPANION(dev), &dev_id); if (rc) { dev_err(dev, "Cannot retrieve UID\n"); return rc; } fifo = devm_kzalloc(dev, sizeof(*fifo), GFP_KERNEL); if (!fifo) return -ENOMEM; spin_lock_init(&fifo->spin_lock[0]); spin_lock_init(&fifo->spin_lock[1]); INIT_WORK(&fifo->work, mlxbf_tmfifo_work_handler); mutex_init(&fifo->lock); /* Get the resource of the Rx FIFO. */ fifo->res0 = devm_platform_ioremap_resource(pdev, 0); if (IS_ERR(fifo->res0)) return PTR_ERR(fifo->res0); /* Get the resource of the Tx FIFO. */ fifo->res1 = devm_platform_ioremap_resource(pdev, 1); if (IS_ERR(fifo->res1)) return PTR_ERR(fifo->res1); if (dev_id == TMFIFO_BF3_UID) { fifo->rx.ctl = fifo->res1 + MLXBF_TMFIFO_RX_CTL_BF3; fifo->rx.sts = fifo->res1 + MLXBF_TMFIFO_RX_STS_BF3; fifo->rx.data = fifo->res0 + MLXBF_TMFIFO_RX_DATA_BF3; fifo->tx.ctl = fifo->res1 + MLXBF_TMFIFO_TX_CTL_BF3; fifo->tx.sts = fifo->res1 + MLXBF_TMFIFO_TX_STS_BF3; fifo->tx.data = fifo->res0 + MLXBF_TMFIFO_TX_DATA_BF3; } else { fifo->rx.ctl = fifo->res0 + MLXBF_TMFIFO_RX_CTL; fifo->rx.sts = fifo->res0 + MLXBF_TMFIFO_RX_STS; fifo->rx.data = fifo->res0 + MLXBF_TMFIFO_RX_DATA; fifo->tx.ctl = fifo->res1 + MLXBF_TMFIFO_TX_CTL; fifo->tx.sts = fifo->res1 + MLXBF_TMFIFO_TX_STS; fifo->tx.data = fifo->res1 + MLXBF_TMFIFO_TX_DATA; } platform_set_drvdata(pdev, fifo); timer_setup(&fifo->timer, mlxbf_tmfifo_timer, 0); for (i = 0; i < MLXBF_TM_MAX_IRQ; i++) { fifo->irq_info[i].index = i; fifo->irq_info[i].fifo = fifo; fifo->irq_info[i].irq = platform_get_irq(pdev, i); rc = devm_request_irq(dev, fifo->irq_info[i].irq, mlxbf_tmfifo_irq_handler, 0, "tmfifo", &fifo->irq_info[i]); if (rc) { dev_err(dev, "devm_request_irq failed\n"); fifo->irq_info[i].irq = 0; return rc; } } mlxbf_tmfifo_set_threshold(fifo); /* Create the console vdev. */ rc = mlxbf_tmfifo_create_vdev(dev, fifo, VIRTIO_ID_CONSOLE, 0, NULL, 0); if (rc) goto fail; /* Create the network vdev. */ memset(&net_config, 0, sizeof(net_config)); /* A legacy-only interface for now. */ net_config.mtu = __cpu_to_virtio16(virtio_legacy_is_little_endian(), ETH_DATA_LEN); net_config.status = __cpu_to_virtio16(virtio_legacy_is_little_endian(), VIRTIO_NET_S_LINK_UP); mlxbf_tmfifo_get_cfg_mac(net_config.mac); rc = mlxbf_tmfifo_create_vdev(dev, fifo, VIRTIO_ID_NET, MLXBF_TMFIFO_NET_FEATURES, &net_config, sizeof(net_config)); if (rc) goto fail; mod_timer(&fifo->timer, jiffies + MLXBF_TMFIFO_TIMER_INTERVAL); /* Make all updates visible before setting the 'is_ready' flag. */ virtio_mb(false); fifo->is_ready = true; return 0; fail: mlxbf_tmfifo_cleanup(fifo); return rc; } /* Device remove function. */ static void mlxbf_tmfifo_remove(struct platform_device *pdev) { struct mlxbf_tmfifo *fifo = platform_get_drvdata(pdev); mlxbf_tmfifo_cleanup(fifo); } static const struct acpi_device_id mlxbf_tmfifo_acpi_match[] = { { "MLNXBF01", 0 }, {} }; MODULE_DEVICE_TABLE(acpi, mlxbf_tmfifo_acpi_match); static struct platform_driver mlxbf_tmfifo_driver = { .probe = mlxbf_tmfifo_probe, .remove_new = mlxbf_tmfifo_remove, .driver = { .name = "bf-tmfifo", .acpi_match_table = mlxbf_tmfifo_acpi_match, }, }; module_platform_driver(mlxbf_tmfifo_driver); MODULE_DESCRIPTION("Mellanox BlueField SoC TmFifo Driver"); MODULE_LICENSE("GPL v2"); MODULE_AUTHOR("Mellanox Technologies");
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