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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481 1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497 1498 1499 1500 1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 1520 1521 1522 1523 1524 1525 1526 1527 1528 1529 1530 1531 1532 1533 1534 1535 1536 1537 1538 1539 1540 1541 1542 1543 1544 1545 1546 1547 1548 1549 1550 1551 1552 1553 1554 1555 1556 | // SPDX-License-Identifier: GPL-2.0-only /* Copyright (c) 2019-2021, The Linux Foundation. All rights reserved. */ /* Copyright (c) 2021-2023 Qualcomm Innovation Center, Inc. All rights reserved. */ #include <asm/byteorder.h> #include <linux/completion.h> #include <linux/crc32.h> #include <linux/delay.h> #include <linux/dma-mapping.h> #include <linux/kref.h> #include <linux/list.h> #include <linux/mhi.h> #include <linux/mm.h> #include <linux/moduleparam.h> #include <linux/mutex.h> #include <linux/overflow.h> #include <linux/pci.h> #include <linux/scatterlist.h> #include <linux/types.h> #include <linux/uaccess.h> #include <linux/workqueue.h> #include <linux/wait.h> #include <drm/drm_device.h> #include <drm/drm_file.h> #include <uapi/drm/qaic_accel.h> #include "qaic.h" #define MANAGE_MAGIC_NUMBER ((__force __le32)0x43494151) /* "QAIC" in little endian */ #define QAIC_DBC_Q_GAP SZ_256 #define QAIC_DBC_Q_BUF_ALIGN SZ_4K #define QAIC_MANAGE_EXT_MSG_LENGTH SZ_64K /* Max DMA message length */ #define QAIC_WRAPPER_MAX_SIZE SZ_4K #define QAIC_MHI_RETRY_WAIT_MS 100 #define QAIC_MHI_RETRY_MAX 20 static unsigned int control_resp_timeout_s = 60; /* 60 sec default */ module_param(control_resp_timeout_s, uint, 0600); MODULE_PARM_DESC(control_resp_timeout_s, "Timeout for NNC responses from QSM"); struct manage_msg { u32 len; u32 count; u8 data[]; }; /* * wire encoding structures for the manage protocol. * All fields are little endian on the wire */ struct wire_msg_hdr { __le32 crc32; /* crc of everything following this field in the message */ __le32 magic_number; __le32 sequence_number; __le32 len; /* length of this message */ __le32 count; /* number of transactions in this message */ __le32 handle; /* unique id to track the resources consumed */ __le32 partition_id; /* partition id for the request (signed) */ __le32 padding; /* must be 0 */ } __packed; struct wire_msg { struct wire_msg_hdr hdr; u8 data[]; } __packed; struct wire_trans_hdr { __le32 type; __le32 len; } __packed; /* Each message sent from driver to device are organized in a list of wrapper_msg */ struct wrapper_msg { struct list_head list; struct kref ref_count; u32 len; /* length of data to transfer */ struct wrapper_list *head; union { struct wire_msg msg; struct wire_trans_hdr trans; }; }; struct wrapper_list { struct list_head list; spinlock_t lock; /* Protects the list state during additions and removals */ }; struct wire_trans_passthrough { struct wire_trans_hdr hdr; u8 data[]; } __packed; struct wire_addr_size_pair { __le64 addr; __le64 size; } __packed; struct wire_trans_dma_xfer { struct wire_trans_hdr hdr; __le32 tag; __le32 count; __le32 dma_chunk_id; __le32 padding; struct wire_addr_size_pair data[]; } __packed; /* Initiated by device to continue the DMA xfer of a large piece of data */ struct wire_trans_dma_xfer_cont { struct wire_trans_hdr hdr; __le32 dma_chunk_id; __le32 padding; __le64 xferred_size; } __packed; struct wire_trans_activate_to_dev { struct wire_trans_hdr hdr; __le64 req_q_addr; __le64 rsp_q_addr; __le32 req_q_size; __le32 rsp_q_size; __le32 buf_len; __le32 options; /* unused, but BIT(16) has meaning to the device */ } __packed; struct wire_trans_activate_from_dev { struct wire_trans_hdr hdr; __le32 status; __le32 dbc_id; __le64 options; /* unused */ } __packed; struct wire_trans_deactivate_from_dev { struct wire_trans_hdr hdr; __le32 status; __le32 dbc_id; } __packed; struct wire_trans_terminate_to_dev { struct wire_trans_hdr hdr; __le32 handle; __le32 padding; } __packed; struct wire_trans_terminate_from_dev { struct wire_trans_hdr hdr; __le32 status; __le32 padding; } __packed; struct wire_trans_status_to_dev { struct wire_trans_hdr hdr; } __packed; struct wire_trans_status_from_dev { struct wire_trans_hdr hdr; __le16 major; __le16 minor; __le32 status; __le64 status_flags; } __packed; struct wire_trans_validate_part_to_dev { struct wire_trans_hdr hdr; __le32 part_id; __le32 padding; } __packed; struct wire_trans_validate_part_from_dev { struct wire_trans_hdr hdr; __le32 status; __le32 padding; } __packed; struct xfer_queue_elem { /* * Node in list of ongoing transfer request on control channel. * Maintained by root device struct. */ struct list_head list; /* Sequence number of this transfer request */ u32 seq_num; /* This is used to wait on until completion of transfer request */ struct completion xfer_done; /* Received data from device */ void *buf; }; struct dma_xfer { /* Node in list of DMA transfers which is used for cleanup */ struct list_head list; /* SG table of memory used for DMA */ struct sg_table *sgt; /* Array pages used for DMA */ struct page **page_list; /* Number of pages used for DMA */ unsigned long nr_pages; }; struct ioctl_resources { /* List of all DMA transfers which is used later for cleanup */ struct list_head dma_xfers; /* Base address of request queue which belongs to a DBC */ void *buf; /* * Base bus address of request queue which belongs to a DBC. Response * queue base bus address can be calculated by adding size of request * queue to base bus address of request queue. */ dma_addr_t dma_addr; /* Total size of request queue and response queue in byte */ u32 total_size; /* Total number of elements that can be queued in each of request and response queue */ u32 nelem; /* Base address of response queue which belongs to a DBC */ void *rsp_q_base; /* Status of the NNC message received */ u32 status; /* DBC id of the DBC received from device */ u32 dbc_id; /* * DMA transfer request messages can be big in size and it may not be * possible to send them in one shot. In such cases the messages are * broken into chunks, this field stores ID of such chunks. */ u32 dma_chunk_id; /* Total number of bytes transferred for a DMA xfer request */ u64 xferred_dma_size; /* Header of transaction message received from user. Used during DMA xfer request. */ void *trans_hdr; }; struct resp_work { struct work_struct work; struct qaic_device *qdev; void *buf; }; /* * Since we're working with little endian messages, its useful to be able to * increment without filling a whole line with conversions back and forth just * to add one(1) to a message count. */ static __le32 incr_le32(__le32 val) { return cpu_to_le32(le32_to_cpu(val) + 1); } static u32 gen_crc(void *msg) { struct wrapper_list *wrappers = msg; struct wrapper_msg *w; u32 crc = ~0; list_for_each_entry(w, &wrappers->list, list) crc = crc32(crc, &w->msg, w->len); return crc ^ ~0; } static u32 gen_crc_stub(void *msg) { return 0; } static bool valid_crc(void *msg) { struct wire_msg_hdr *hdr = msg; bool ret; u32 crc; /* * The output of this algorithm is always converted to the native * endianness. */ crc = le32_to_cpu(hdr->crc32); hdr->crc32 = 0; ret = (crc32(~0, msg, le32_to_cpu(hdr->len)) ^ ~0) == crc; hdr->crc32 = cpu_to_le32(crc); return ret; } static bool valid_crc_stub(void *msg) { return true; } static void free_wrapper(struct kref *ref) { struct wrapper_msg *wrapper = container_of(ref, struct wrapper_msg, ref_count); list_del(&wrapper->list); kfree(wrapper); } static void save_dbc_buf(struct qaic_device *qdev, struct ioctl_resources *resources, struct qaic_user *usr) { u32 dbc_id = resources->dbc_id; if (resources->buf) { wait_event_interruptible(qdev->dbc[dbc_id].dbc_release, !qdev->dbc[dbc_id].in_use); qdev->dbc[dbc_id].req_q_base = resources->buf; qdev->dbc[dbc_id].rsp_q_base = resources->rsp_q_base; qdev->dbc[dbc_id].dma_addr = resources->dma_addr; qdev->dbc[dbc_id].total_size = resources->total_size; qdev->dbc[dbc_id].nelem = resources->nelem; enable_dbc(qdev, dbc_id, usr); qdev->dbc[dbc_id].in_use = true; resources->buf = NULL; } } static void free_dbc_buf(struct qaic_device *qdev, struct ioctl_resources *resources) { if (resources->buf) dma_free_coherent(&qdev->pdev->dev, resources->total_size, resources->buf, resources->dma_addr); resources->buf = NULL; } static void free_dma_xfers(struct qaic_device *qdev, struct ioctl_resources *resources) { struct dma_xfer *xfer; struct dma_xfer *x; int i; list_for_each_entry_safe(xfer, x, &resources->dma_xfers, list) { dma_unmap_sgtable(&qdev->pdev->dev, xfer->sgt, DMA_TO_DEVICE, 0); sg_free_table(xfer->sgt); kfree(xfer->sgt); for (i = 0; i < xfer->nr_pages; ++i) put_page(xfer->page_list[i]); kfree(xfer->page_list); list_del(&xfer->list); kfree(xfer); } } static struct wrapper_msg *add_wrapper(struct wrapper_list *wrappers, u32 size) { struct wrapper_msg *w = kzalloc(size, GFP_KERNEL); if (!w) return NULL; list_add_tail(&w->list, &wrappers->list); kref_init(&w->ref_count); w->head = wrappers; return w; } static int encode_passthrough(struct qaic_device *qdev, void *trans, struct wrapper_list *wrappers, u32 *user_len) { struct qaic_manage_trans_passthrough *in_trans = trans; struct wire_trans_passthrough *out_trans; struct wrapper_msg *trans_wrapper; struct wrapper_msg *wrapper; struct wire_msg *msg; u32 msg_hdr_len; wrapper = list_first_entry(&wrappers->list, struct wrapper_msg, list); msg = &wrapper->msg; msg_hdr_len = le32_to_cpu(msg->hdr.len); if (in_trans->hdr.len % 8 != 0) return -EINVAL; if (size_add(msg_hdr_len, in_trans->hdr.len) > QAIC_MANAGE_EXT_MSG_LENGTH) return -ENOSPC; trans_wrapper = add_wrapper(wrappers, offsetof(struct wrapper_msg, trans) + in_trans->hdr.len); if (!trans_wrapper) return -ENOMEM; trans_wrapper->len = in_trans->hdr.len; out_trans = (struct wire_trans_passthrough *)&trans_wrapper->trans; memcpy(out_trans->data, in_trans->data, in_trans->hdr.len - sizeof(in_trans->hdr)); msg->hdr.len = cpu_to_le32(msg_hdr_len + in_trans->hdr.len); msg->hdr.count = incr_le32(msg->hdr.count); *user_len += in_trans->hdr.len; out_trans->hdr.type = cpu_to_le32(QAIC_TRANS_PASSTHROUGH_TO_DEV); out_trans->hdr.len = cpu_to_le32(in_trans->hdr.len); return 0; } /* returns error code for failure, 0 if enough pages alloc'd, 1 if dma_cont is needed */ static int find_and_map_user_pages(struct qaic_device *qdev, struct qaic_manage_trans_dma_xfer *in_trans, struct ioctl_resources *resources, struct dma_xfer *xfer) { u64 xfer_start_addr, remaining, end, total; unsigned long need_pages; struct page **page_list; unsigned long nr_pages; struct sg_table *sgt; int ret; int i; if (check_add_overflow(in_trans->addr, resources->xferred_dma_size, &xfer_start_addr)) return -EINVAL; if (in_trans->size < resources->xferred_dma_size) return -EINVAL; remaining = in_trans->size - resources->xferred_dma_size; if (remaining == 0) return 0; if (check_add_overflow(xfer_start_addr, remaining, &end)) return -EINVAL; total = remaining + offset_in_page(xfer_start_addr); if (total >= SIZE_MAX) return -EINVAL; need_pages = DIV_ROUND_UP(total, PAGE_SIZE); nr_pages = need_pages; while (1) { page_list = kmalloc_array(nr_pages, sizeof(*page_list), GFP_KERNEL | __GFP_NOWARN); if (!page_list) { nr_pages = nr_pages / 2; if (!nr_pages) return -ENOMEM; } else { break; } } ret = get_user_pages_fast(xfer_start_addr, nr_pages, 0, page_list); if (ret < 0) goto free_page_list; if (ret != nr_pages) { nr_pages = ret; ret = -EFAULT; goto put_pages; } sgt = kmalloc(sizeof(*sgt), GFP_KERNEL); if (!sgt) { ret = -ENOMEM; goto put_pages; } ret = sg_alloc_table_from_pages(sgt, page_list, nr_pages, offset_in_page(xfer_start_addr), remaining, GFP_KERNEL); if (ret) { ret = -ENOMEM; goto free_sgt; } ret = dma_map_sgtable(&qdev->pdev->dev, sgt, DMA_TO_DEVICE, 0); if (ret) goto free_table; xfer->sgt = sgt; xfer->page_list = page_list; xfer->nr_pages = nr_pages; return need_pages > nr_pages ? 1 : 0; free_table: sg_free_table(sgt); free_sgt: kfree(sgt); put_pages: for (i = 0; i < nr_pages; ++i) put_page(page_list[i]); free_page_list: kfree(page_list); return ret; } /* returns error code for failure, 0 if everything was encoded, 1 if dma_cont is needed */ static int encode_addr_size_pairs(struct dma_xfer *xfer, struct wrapper_list *wrappers, struct ioctl_resources *resources, u32 msg_hdr_len, u32 *size, struct wire_trans_dma_xfer **out_trans) { struct wrapper_msg *trans_wrapper; struct sg_table *sgt = xfer->sgt; struct wire_addr_size_pair *asp; struct scatterlist *sg; struct wrapper_msg *w; unsigned int dma_len; u64 dma_chunk_len; void *boundary; int nents_dma; int nents; int i; nents = sgt->nents; nents_dma = nents; *size = QAIC_MANAGE_EXT_MSG_LENGTH - msg_hdr_len - sizeof(**out_trans); for_each_sgtable_sg(sgt, sg, i) { *size -= sizeof(*asp); /* Save 1K for possible follow-up transactions. */ if (*size < SZ_1K) { nents_dma = i; break; } } trans_wrapper = add_wrapper(wrappers, QAIC_WRAPPER_MAX_SIZE); if (!trans_wrapper) return -ENOMEM; *out_trans = (struct wire_trans_dma_xfer *)&trans_wrapper->trans; asp = (*out_trans)->data; boundary = (void *)trans_wrapper + QAIC_WRAPPER_MAX_SIZE; *size = 0; dma_len = 0; w = trans_wrapper; dma_chunk_len = 0; for_each_sg(sgt->sgl, sg, nents_dma, i) { asp->size = cpu_to_le64(dma_len); dma_chunk_len += dma_len; if (dma_len) { asp++; if ((void *)asp + sizeof(*asp) > boundary) { w->len = (void *)asp - (void *)&w->msg; *size += w->len; w = add_wrapper(wrappers, QAIC_WRAPPER_MAX_SIZE); if (!w) return -ENOMEM; boundary = (void *)w + QAIC_WRAPPER_MAX_SIZE; asp = (struct wire_addr_size_pair *)&w->msg; } } asp->addr = cpu_to_le64(sg_dma_address(sg)); dma_len = sg_dma_len(sg); } /* finalize the last segment */ asp->size = cpu_to_le64(dma_len); w->len = (void *)asp + sizeof(*asp) - (void *)&w->msg; *size += w->len; dma_chunk_len += dma_len; resources->xferred_dma_size += dma_chunk_len; return nents_dma < nents ? 1 : 0; } static void cleanup_xfer(struct qaic_device *qdev, struct dma_xfer *xfer) { int i; dma_unmap_sgtable(&qdev->pdev->dev, xfer->sgt, DMA_TO_DEVICE, 0); sg_free_table(xfer->sgt); kfree(xfer->sgt); for (i = 0; i < xfer->nr_pages; ++i) put_page(xfer->page_list[i]); kfree(xfer->page_list); } static int encode_dma(struct qaic_device *qdev, void *trans, struct wrapper_list *wrappers, u32 *user_len, struct ioctl_resources *resources, struct qaic_user *usr) { struct qaic_manage_trans_dma_xfer *in_trans = trans; struct wire_trans_dma_xfer *out_trans; struct wrapper_msg *wrapper; struct dma_xfer *xfer; struct wire_msg *msg; bool need_cont_dma; u32 msg_hdr_len; u32 size; int ret; wrapper = list_first_entry(&wrappers->list, struct wrapper_msg, list); msg = &wrapper->msg; msg_hdr_len = le32_to_cpu(msg->hdr.len); /* There should be enough space to hold at least one ASP entry. */ if (size_add(msg_hdr_len, sizeof(*out_trans) + sizeof(struct wire_addr_size_pair)) > QAIC_MANAGE_EXT_MSG_LENGTH) return -ENOMEM; xfer = kmalloc(sizeof(*xfer), GFP_KERNEL); if (!xfer) return -ENOMEM; ret = find_and_map_user_pages(qdev, in_trans, resources, xfer); if (ret < 0) goto free_xfer; need_cont_dma = (bool)ret; ret = encode_addr_size_pairs(xfer, wrappers, resources, msg_hdr_len, &size, &out_trans); if (ret < 0) goto cleanup_xfer; need_cont_dma = need_cont_dma || (bool)ret; msg->hdr.len = cpu_to_le32(msg_hdr_len + size); msg->hdr.count = incr_le32(msg->hdr.count); out_trans->hdr.type = cpu_to_le32(QAIC_TRANS_DMA_XFER_TO_DEV); out_trans->hdr.len = cpu_to_le32(size); out_trans->tag = cpu_to_le32(in_trans->tag); out_trans->count = cpu_to_le32((size - sizeof(*out_trans)) / sizeof(struct wire_addr_size_pair)); *user_len += in_trans->hdr.len; if (resources->dma_chunk_id) { out_trans->dma_chunk_id = cpu_to_le32(resources->dma_chunk_id); } else if (need_cont_dma) { while (resources->dma_chunk_id == 0) resources->dma_chunk_id = atomic_inc_return(&usr->chunk_id); out_trans->dma_chunk_id = cpu_to_le32(resources->dma_chunk_id); } resources->trans_hdr = trans; list_add(&xfer->list, &resources->dma_xfers); return 0; cleanup_xfer: cleanup_xfer(qdev, xfer); free_xfer: kfree(xfer); return ret; } static int encode_activate(struct qaic_device *qdev, void *trans, struct wrapper_list *wrappers, u32 *user_len, struct ioctl_resources *resources) { struct qaic_manage_trans_activate_to_dev *in_trans = trans; struct wire_trans_activate_to_dev *out_trans; struct wrapper_msg *trans_wrapper; struct wrapper_msg *wrapper; struct wire_msg *msg; dma_addr_t dma_addr; u32 msg_hdr_len; void *buf; u32 nelem; u32 size; int ret; wrapper = list_first_entry(&wrappers->list, struct wrapper_msg, list); msg = &wrapper->msg; msg_hdr_len = le32_to_cpu(msg->hdr.len); if (size_add(msg_hdr_len, sizeof(*out_trans)) > QAIC_MANAGE_MAX_MSG_LENGTH) return -ENOSPC; if (!in_trans->queue_size) return -EINVAL; if (in_trans->pad) return -EINVAL; nelem = in_trans->queue_size; size = (get_dbc_req_elem_size() + get_dbc_rsp_elem_size()) * nelem; if (size / nelem != get_dbc_req_elem_size() + get_dbc_rsp_elem_size()) return -EINVAL; if (size + QAIC_DBC_Q_GAP + QAIC_DBC_Q_BUF_ALIGN < size) return -EINVAL; size = ALIGN((size + QAIC_DBC_Q_GAP), QAIC_DBC_Q_BUF_ALIGN); buf = dma_alloc_coherent(&qdev->pdev->dev, size, &dma_addr, GFP_KERNEL); if (!buf) return -ENOMEM; trans_wrapper = add_wrapper(wrappers, offsetof(struct wrapper_msg, trans) + sizeof(*out_trans)); if (!trans_wrapper) { ret = -ENOMEM; goto free_dma; } trans_wrapper->len = sizeof(*out_trans); out_trans = (struct wire_trans_activate_to_dev *)&trans_wrapper->trans; out_trans->hdr.type = cpu_to_le32(QAIC_TRANS_ACTIVATE_TO_DEV); out_trans->hdr.len = cpu_to_le32(sizeof(*out_trans)); out_trans->buf_len = cpu_to_le32(size); out_trans->req_q_addr = cpu_to_le64(dma_addr); out_trans->req_q_size = cpu_to_le32(nelem); out_trans->rsp_q_addr = cpu_to_le64(dma_addr + size - nelem * get_dbc_rsp_elem_size()); out_trans->rsp_q_size = cpu_to_le32(nelem); out_trans->options = cpu_to_le32(in_trans->options); *user_len += in_trans->hdr.len; msg->hdr.len = cpu_to_le32(msg_hdr_len + sizeof(*out_trans)); msg->hdr.count = incr_le32(msg->hdr.count); resources->buf = buf; resources->dma_addr = dma_addr; resources->total_size = size; resources->nelem = nelem; resources->rsp_q_base = buf + size - nelem * get_dbc_rsp_elem_size(); return 0; free_dma: dma_free_coherent(&qdev->pdev->dev, size, buf, dma_addr); return ret; } static int encode_deactivate(struct qaic_device *qdev, void *trans, u32 *user_len, struct qaic_user *usr) { struct qaic_manage_trans_deactivate *in_trans = trans; if (in_trans->dbc_id >= qdev->num_dbc || in_trans->pad) return -EINVAL; *user_len += in_trans->hdr.len; return disable_dbc(qdev, in_trans->dbc_id, usr); } static int encode_status(struct qaic_device *qdev, void *trans, struct wrapper_list *wrappers, u32 *user_len) { struct qaic_manage_trans_status_to_dev *in_trans = trans; struct wire_trans_status_to_dev *out_trans; struct wrapper_msg *trans_wrapper; struct wrapper_msg *wrapper; struct wire_msg *msg; u32 msg_hdr_len; wrapper = list_first_entry(&wrappers->list, struct wrapper_msg, list); msg = &wrapper->msg; msg_hdr_len = le32_to_cpu(msg->hdr.len); if (size_add(msg_hdr_len, in_trans->hdr.len) > QAIC_MANAGE_MAX_MSG_LENGTH) return -ENOSPC; trans_wrapper = add_wrapper(wrappers, sizeof(*trans_wrapper)); if (!trans_wrapper) return -ENOMEM; trans_wrapper->len = sizeof(*out_trans); out_trans = (struct wire_trans_status_to_dev *)&trans_wrapper->trans; out_trans->hdr.type = cpu_to_le32(QAIC_TRANS_STATUS_TO_DEV); out_trans->hdr.len = cpu_to_le32(in_trans->hdr.len); msg->hdr.len = cpu_to_le32(msg_hdr_len + in_trans->hdr.len); msg->hdr.count = incr_le32(msg->hdr.count); *user_len += in_trans->hdr.len; return 0; } static int encode_message(struct qaic_device *qdev, struct manage_msg *user_msg, struct wrapper_list *wrappers, struct ioctl_resources *resources, struct qaic_user *usr) { struct qaic_manage_trans_hdr *trans_hdr; struct wrapper_msg *wrapper; struct wire_msg *msg; u32 user_len = 0; int ret; int i; if (!user_msg->count || user_msg->len < sizeof(*trans_hdr)) { ret = -EINVAL; goto out; } wrapper = list_first_entry(&wrappers->list, struct wrapper_msg, list); msg = &wrapper->msg; msg->hdr.len = cpu_to_le32(sizeof(msg->hdr)); if (resources->dma_chunk_id) { ret = encode_dma(qdev, resources->trans_hdr, wrappers, &user_len, resources, usr); msg->hdr.count = cpu_to_le32(1); goto out; } for (i = 0; i < user_msg->count; ++i) { if (user_len > user_msg->len - sizeof(*trans_hdr)) { ret = -EINVAL; break; } trans_hdr = (struct qaic_manage_trans_hdr *)(user_msg->data + user_len); if (trans_hdr->len < sizeof(trans_hdr) || size_add(user_len, trans_hdr->len) > user_msg->len) { ret = -EINVAL; break; } switch (trans_hdr->type) { case QAIC_TRANS_PASSTHROUGH_FROM_USR: ret = encode_passthrough(qdev, trans_hdr, wrappers, &user_len); break; case QAIC_TRANS_DMA_XFER_FROM_USR: ret = encode_dma(qdev, trans_hdr, wrappers, &user_len, resources, usr); break; case QAIC_TRANS_ACTIVATE_FROM_USR: ret = encode_activate(qdev, trans_hdr, wrappers, &user_len, resources); break; case QAIC_TRANS_DEACTIVATE_FROM_USR: ret = encode_deactivate(qdev, trans_hdr, &user_len, usr); break; case QAIC_TRANS_STATUS_FROM_USR: ret = encode_status(qdev, trans_hdr, wrappers, &user_len); break; default: ret = -EINVAL; break; } if (ret) break; } if (user_len != user_msg->len) ret = -EINVAL; out: if (ret) { free_dma_xfers(qdev, resources); free_dbc_buf(qdev, resources); return ret; } return 0; } static int decode_passthrough(struct qaic_device *qdev, void *trans, struct manage_msg *user_msg, u32 *msg_len) { struct qaic_manage_trans_passthrough *out_trans; struct wire_trans_passthrough *in_trans = trans; u32 len; out_trans = (void *)user_msg->data + user_msg->len; len = le32_to_cpu(in_trans->hdr.len); if (len % 8 != 0) return -EINVAL; if (user_msg->len + len > QAIC_MANAGE_MAX_MSG_LENGTH) return -ENOSPC; memcpy(out_trans->data, in_trans->data, len - sizeof(in_trans->hdr)); user_msg->len += len; *msg_len += len; out_trans->hdr.type = le32_to_cpu(in_trans->hdr.type); out_trans->hdr.len = len; return 0; } static int decode_activate(struct qaic_device *qdev, void *trans, struct manage_msg *user_msg, u32 *msg_len, struct ioctl_resources *resources, struct qaic_user *usr) { struct qaic_manage_trans_activate_from_dev *out_trans; struct wire_trans_activate_from_dev *in_trans = trans; u32 len; out_trans = (void *)user_msg->data + user_msg->len; len = le32_to_cpu(in_trans->hdr.len); if (user_msg->len + len > QAIC_MANAGE_MAX_MSG_LENGTH) return -ENOSPC; user_msg->len += len; *msg_len += len; out_trans->hdr.type = le32_to_cpu(in_trans->hdr.type); out_trans->hdr.len = len; out_trans->status = le32_to_cpu(in_trans->status); out_trans->dbc_id = le32_to_cpu(in_trans->dbc_id); out_trans->options = le64_to_cpu(in_trans->options); if (!resources->buf) /* how did we get an activate response without a request? */ return -EINVAL; if (out_trans->dbc_id >= qdev->num_dbc) /* * The device assigned an invalid resource, which should never * happen. Return an error so the user can try to recover. */ return -ENODEV; if (out_trans->status) /* * Allocating resources failed on device side. This is not an * expected behaviour, user is expected to handle this situation. */ return -ECANCELED; resources->status = out_trans->status; resources->dbc_id = out_trans->dbc_id; save_dbc_buf(qdev, resources, usr); return 0; } static int decode_deactivate(struct qaic_device *qdev, void *trans, u32 *msg_len, struct qaic_user *usr) { struct wire_trans_deactivate_from_dev *in_trans = trans; u32 dbc_id = le32_to_cpu(in_trans->dbc_id); u32 status = le32_to_cpu(in_trans->status); if (dbc_id >= qdev->num_dbc) /* * The device assigned an invalid resource, which should never * happen. Inject an error so the user can try to recover. */ return -ENODEV; if (status) { /* * Releasing resources failed on the device side, which puts * us in a bind since they may still be in use, so enable the * dbc. User is expected to retry deactivation. */ enable_dbc(qdev, dbc_id, usr); return -ECANCELED; } release_dbc(qdev, dbc_id); *msg_len += sizeof(*in_trans); return 0; } static int decode_status(struct qaic_device *qdev, void *trans, struct manage_msg *user_msg, u32 *user_len, struct wire_msg *msg) { struct qaic_manage_trans_status_from_dev *out_trans; struct wire_trans_status_from_dev *in_trans = trans; u32 len; out_trans = (void *)user_msg->data + user_msg->len; len = le32_to_cpu(in_trans->hdr.len); if (user_msg->len + len > QAIC_MANAGE_MAX_MSG_LENGTH) return -ENOSPC; out_trans->hdr.type = QAIC_TRANS_STATUS_FROM_DEV; out_trans->hdr.len = len; out_trans->major = le16_to_cpu(in_trans->major); out_trans->minor = le16_to_cpu(in_trans->minor); out_trans->status_flags = le64_to_cpu(in_trans->status_flags); out_trans->status = le32_to_cpu(in_trans->status); *user_len += le32_to_cpu(in_trans->hdr.len); user_msg->len += len; if (out_trans->status) return -ECANCELED; if (out_trans->status_flags & BIT(0) && !valid_crc(msg)) return -EPIPE; return 0; } static int decode_message(struct qaic_device *qdev, struct manage_msg *user_msg, struct wire_msg *msg, struct ioctl_resources *resources, struct qaic_user *usr) { u32 msg_hdr_len = le32_to_cpu(msg->hdr.len); struct wire_trans_hdr *trans_hdr; u32 msg_len = 0; int ret; int i; if (msg_hdr_len < sizeof(*trans_hdr) || msg_hdr_len > QAIC_MANAGE_MAX_MSG_LENGTH) return -EINVAL; user_msg->len = 0; user_msg->count = le32_to_cpu(msg->hdr.count); for (i = 0; i < user_msg->count; ++i) { u32 hdr_len; if (msg_len > msg_hdr_len - sizeof(*trans_hdr)) return -EINVAL; trans_hdr = (struct wire_trans_hdr *)(msg->data + msg_len); hdr_len = le32_to_cpu(trans_hdr->len); if (hdr_len < sizeof(*trans_hdr) || size_add(msg_len, hdr_len) > msg_hdr_len) return -EINVAL; switch (le32_to_cpu(trans_hdr->type)) { case QAIC_TRANS_PASSTHROUGH_FROM_DEV: ret = decode_passthrough(qdev, trans_hdr, user_msg, &msg_len); break; case QAIC_TRANS_ACTIVATE_FROM_DEV: ret = decode_activate(qdev, trans_hdr, user_msg, &msg_len, resources, usr); break; case QAIC_TRANS_DEACTIVATE_FROM_DEV: ret = decode_deactivate(qdev, trans_hdr, &msg_len, usr); break; case QAIC_TRANS_STATUS_FROM_DEV: ret = decode_status(qdev, trans_hdr, user_msg, &msg_len, msg); break; default: return -EINVAL; } if (ret) return ret; } if (msg_len != (msg_hdr_len - sizeof(msg->hdr))) return -EINVAL; return 0; } static void *msg_xfer(struct qaic_device *qdev, struct wrapper_list *wrappers, u32 seq_num, bool ignore_signal) { struct xfer_queue_elem elem; struct wire_msg *out_buf; struct wrapper_msg *w; long ret = -EAGAIN; int xfer_count = 0; int retry_count; if (qdev->in_reset) { mutex_unlock(&qdev->cntl_mutex); return ERR_PTR(-ENODEV); } /* Attempt to avoid a partial commit of a message */ list_for_each_entry(w, &wrappers->list, list) xfer_count++; for (retry_count = 0; retry_count < QAIC_MHI_RETRY_MAX; retry_count++) { if (xfer_count <= mhi_get_free_desc_count(qdev->cntl_ch, DMA_TO_DEVICE)) { ret = 0; break; } msleep_interruptible(QAIC_MHI_RETRY_WAIT_MS); if (signal_pending(current)) break; } if (ret) { mutex_unlock(&qdev->cntl_mutex); return ERR_PTR(ret); } elem.seq_num = seq_num; elem.buf = NULL; init_completion(&elem.xfer_done); if (likely(!qdev->cntl_lost_buf)) { /* * The max size of request to device is QAIC_MANAGE_EXT_MSG_LENGTH. * The max size of response from device is QAIC_MANAGE_MAX_MSG_LENGTH. */ out_buf = kmalloc(QAIC_MANAGE_MAX_MSG_LENGTH, GFP_KERNEL); if (!out_buf) { mutex_unlock(&qdev->cntl_mutex); return ERR_PTR(-ENOMEM); } ret = mhi_queue_buf(qdev->cntl_ch, DMA_FROM_DEVICE, out_buf, QAIC_MANAGE_MAX_MSG_LENGTH, MHI_EOT); if (ret) { mutex_unlock(&qdev->cntl_mutex); return ERR_PTR(ret); } } else { /* * we lost a buffer because we queued a recv buf, but then * queuing the corresponding tx buf failed. To try to avoid * a memory leak, lets reclaim it and use it for this * transaction. */ qdev->cntl_lost_buf = false; } list_for_each_entry(w, &wrappers->list, list) { kref_get(&w->ref_count); retry_count = 0; ret = mhi_queue_buf(qdev->cntl_ch, DMA_TO_DEVICE, &w->msg, w->len, list_is_last(&w->list, &wrappers->list) ? MHI_EOT : MHI_CHAIN); if (ret) { qdev->cntl_lost_buf = true; kref_put(&w->ref_count, free_wrapper); mutex_unlock(&qdev->cntl_mutex); return ERR_PTR(ret); } } list_add_tail(&elem.list, &qdev->cntl_xfer_list); mutex_unlock(&qdev->cntl_mutex); if (ignore_signal) ret = wait_for_completion_timeout(&elem.xfer_done, control_resp_timeout_s * HZ); else ret = wait_for_completion_interruptible_timeout(&elem.xfer_done, control_resp_timeout_s * HZ); /* * not using _interruptable because we have to cleanup or we'll * likely cause memory corruption */ mutex_lock(&qdev->cntl_mutex); if (!list_empty(&elem.list)) list_del(&elem.list); if (!ret && !elem.buf) ret = -ETIMEDOUT; else if (ret > 0 && !elem.buf) ret = -EIO; mutex_unlock(&qdev->cntl_mutex); if (ret < 0) { kfree(elem.buf); return ERR_PTR(ret); } else if (!qdev->valid_crc(elem.buf)) { kfree(elem.buf); return ERR_PTR(-EPIPE); } return elem.buf; } /* Add a transaction to abort the outstanding DMA continuation */ static int abort_dma_cont(struct qaic_device *qdev, struct wrapper_list *wrappers, u32 dma_chunk_id) { struct wire_trans_dma_xfer *out_trans; u32 size = sizeof(*out_trans); struct wrapper_msg *wrapper; struct wrapper_msg *w; struct wire_msg *msg; wrapper = list_first_entry(&wrappers->list, struct wrapper_msg, list); msg = &wrapper->msg; /* Remove all but the first wrapper which has the msg header */ list_for_each_entry_safe(wrapper, w, &wrappers->list, list) if (!list_is_first(&wrapper->list, &wrappers->list)) kref_put(&wrapper->ref_count, free_wrapper); wrapper = add_wrapper(wrappers, offsetof(struct wrapper_msg, trans) + sizeof(*out_trans)); if (!wrapper) return -ENOMEM; out_trans = (struct wire_trans_dma_xfer *)&wrapper->trans; out_trans->hdr.type = cpu_to_le32(QAIC_TRANS_DMA_XFER_TO_DEV); out_trans->hdr.len = cpu_to_le32(size); out_trans->tag = cpu_to_le32(0); out_trans->count = cpu_to_le32(0); out_trans->dma_chunk_id = cpu_to_le32(dma_chunk_id); msg->hdr.len = cpu_to_le32(size + sizeof(*msg)); msg->hdr.count = cpu_to_le32(1); wrapper->len = size; return 0; } static struct wrapper_list *alloc_wrapper_list(void) { struct wrapper_list *wrappers; wrappers = kmalloc(sizeof(*wrappers), GFP_KERNEL); if (!wrappers) return NULL; INIT_LIST_HEAD(&wrappers->list); spin_lock_init(&wrappers->lock); return wrappers; } static int qaic_manage_msg_xfer(struct qaic_device *qdev, struct qaic_user *usr, struct manage_msg *user_msg, struct ioctl_resources *resources, struct wire_msg **rsp) { struct wrapper_list *wrappers; struct wrapper_msg *wrapper; struct wrapper_msg *w; bool all_done = false; struct wire_msg *msg; int ret; wrappers = alloc_wrapper_list(); if (!wrappers) return -ENOMEM; wrapper = add_wrapper(wrappers, sizeof(*wrapper)); if (!wrapper) { kfree(wrappers); return -ENOMEM; } msg = &wrapper->msg; wrapper->len = sizeof(*msg); ret = encode_message(qdev, user_msg, wrappers, resources, usr); if (ret && resources->dma_chunk_id) ret = abort_dma_cont(qdev, wrappers, resources->dma_chunk_id); if (ret) goto encode_failed; ret = mutex_lock_interruptible(&qdev->cntl_mutex); if (ret) goto lock_failed; msg->hdr.magic_number = MANAGE_MAGIC_NUMBER; msg->hdr.sequence_number = cpu_to_le32(qdev->next_seq_num++); if (usr) { msg->hdr.handle = cpu_to_le32(usr->handle); msg->hdr.partition_id = cpu_to_le32(usr->qddev->partition_id); } else { msg->hdr.handle = 0; msg->hdr.partition_id = cpu_to_le32(QAIC_NO_PARTITION); } msg->hdr.padding = cpu_to_le32(0); msg->hdr.crc32 = cpu_to_le32(qdev->gen_crc(wrappers)); /* msg_xfer releases the mutex */ *rsp = msg_xfer(qdev, wrappers, qdev->next_seq_num - 1, false); if (IS_ERR(*rsp)) ret = PTR_ERR(*rsp); lock_failed: free_dma_xfers(qdev, resources); encode_failed: spin_lock(&wrappers->lock); list_for_each_entry_safe(wrapper, w, &wrappers->list, list) kref_put(&wrapper->ref_count, free_wrapper); all_done = list_empty(&wrappers->list); spin_unlock(&wrappers->lock); if (all_done) kfree(wrappers); return ret; } static int qaic_manage(struct qaic_device *qdev, struct qaic_user *usr, struct manage_msg *user_msg) { struct wire_trans_dma_xfer_cont *dma_cont = NULL; struct ioctl_resources resources; struct wire_msg *rsp = NULL; int ret; memset(&resources, 0, sizeof(struct ioctl_resources)); INIT_LIST_HEAD(&resources.dma_xfers); if (user_msg->len > QAIC_MANAGE_MAX_MSG_LENGTH || user_msg->count > QAIC_MANAGE_MAX_MSG_LENGTH / sizeof(struct qaic_manage_trans_hdr)) return -EINVAL; dma_xfer_continue: ret = qaic_manage_msg_xfer(qdev, usr, user_msg, &resources, &rsp); if (ret) return ret; /* dma_cont should be the only transaction if present */ if (le32_to_cpu(rsp->hdr.count) == 1) { dma_cont = (struct wire_trans_dma_xfer_cont *)rsp->data; if (le32_to_cpu(dma_cont->hdr.type) != QAIC_TRANS_DMA_XFER_CONT) dma_cont = NULL; } if (dma_cont) { if (le32_to_cpu(dma_cont->dma_chunk_id) == resources.dma_chunk_id && le64_to_cpu(dma_cont->xferred_size) == resources.xferred_dma_size) { kfree(rsp); goto dma_xfer_continue; } ret = -EINVAL; goto dma_cont_failed; } ret = decode_message(qdev, user_msg, rsp, &resources, usr); dma_cont_failed: free_dbc_buf(qdev, &resources); kfree(rsp); return ret; } int qaic_manage_ioctl(struct drm_device *dev, void *data, struct drm_file *file_priv) { struct qaic_manage_msg *user_msg = data; struct qaic_device *qdev; struct manage_msg *msg; struct qaic_user *usr; u8 __user *user_data; int qdev_rcu_id; int usr_rcu_id; int ret; if (user_msg->len > QAIC_MANAGE_MAX_MSG_LENGTH) return -EINVAL; usr = file_priv->driver_priv; usr_rcu_id = srcu_read_lock(&usr->qddev_lock); if (!usr->qddev) { srcu_read_unlock(&usr->qddev_lock, usr_rcu_id); return -ENODEV; } qdev = usr->qddev->qdev; qdev_rcu_id = srcu_read_lock(&qdev->dev_lock); if (qdev->in_reset) { srcu_read_unlock(&qdev->dev_lock, qdev_rcu_id); srcu_read_unlock(&usr->qddev_lock, usr_rcu_id); return -ENODEV; } msg = kzalloc(QAIC_MANAGE_MAX_MSG_LENGTH + sizeof(*msg), GFP_KERNEL); if (!msg) { ret = -ENOMEM; goto out; } msg->len = user_msg->len; msg->count = user_msg->count; user_data = u64_to_user_ptr(user_msg->data); if (copy_from_user(msg->data, user_data, user_msg->len)) { ret = -EFAULT; goto free_msg; } ret = qaic_manage(qdev, usr, msg); /* * If the qaic_manage() is successful then we copy the message onto * userspace memory but we have an exception for -ECANCELED. * For -ECANCELED, it means that device has NACKed the message with a * status error code which userspace would like to know. */ if (ret == -ECANCELED || !ret) { if (copy_to_user(user_data, msg->data, msg->len)) { ret = -EFAULT; } else { user_msg->len = msg->len; user_msg->count = msg->count; } } free_msg: kfree(msg); out: srcu_read_unlock(&qdev->dev_lock, qdev_rcu_id); srcu_read_unlock(&usr->qddev_lock, usr_rcu_id); return ret; } int get_cntl_version(struct qaic_device *qdev, struct qaic_user *usr, u16 *major, u16 *minor) { struct qaic_manage_trans_status_from_dev *status_result; struct qaic_manage_trans_status_to_dev *status_query; struct manage_msg *user_msg; int ret; user_msg = kmalloc(sizeof(*user_msg) + sizeof(*status_result), GFP_KERNEL); if (!user_msg) { ret = -ENOMEM; goto out; } user_msg->len = sizeof(*status_query); user_msg->count = 1; status_query = (struct qaic_manage_trans_status_to_dev *)user_msg->data; status_query->hdr.type = QAIC_TRANS_STATUS_FROM_USR; status_query->hdr.len = sizeof(status_query->hdr); ret = qaic_manage(qdev, usr, user_msg); if (ret) goto kfree_user_msg; status_result = (struct qaic_manage_trans_status_from_dev *)user_msg->data; *major = status_result->major; *minor = status_result->minor; if (status_result->status_flags & BIT(0)) { /* device is using CRC */ /* By default qdev->gen_crc is programmed to generate CRC */ qdev->valid_crc = valid_crc; } else { /* By default qdev->valid_crc is programmed to bypass CRC */ qdev->gen_crc = gen_crc_stub; } kfree_user_msg: kfree(user_msg); out: return ret; } static void resp_worker(struct work_struct *work) { struct resp_work *resp = container_of(work, struct resp_work, work); struct qaic_device *qdev = resp->qdev; struct wire_msg *msg = resp->buf; struct xfer_queue_elem *elem; struct xfer_queue_elem *i; bool found = false; mutex_lock(&qdev->cntl_mutex); list_for_each_entry_safe(elem, i, &qdev->cntl_xfer_list, list) { if (elem->seq_num == le32_to_cpu(msg->hdr.sequence_number)) { found = true; list_del_init(&elem->list); elem->buf = msg; complete_all(&elem->xfer_done); break; } } mutex_unlock(&qdev->cntl_mutex); if (!found) /* request must have timed out, drop packet */ kfree(msg); kfree(resp); } static void free_wrapper_from_list(struct wrapper_list *wrappers, struct wrapper_msg *wrapper) { bool all_done = false; spin_lock(&wrappers->lock); kref_put(&wrapper->ref_count, free_wrapper); all_done = list_empty(&wrappers->list); spin_unlock(&wrappers->lock); if (all_done) kfree(wrappers); } void qaic_mhi_ul_xfer_cb(struct mhi_device *mhi_dev, struct mhi_result *mhi_result) { struct wire_msg *msg = mhi_result->buf_addr; struct wrapper_msg *wrapper = container_of(msg, struct wrapper_msg, msg); free_wrapper_from_list(wrapper->head, wrapper); } void qaic_mhi_dl_xfer_cb(struct mhi_device *mhi_dev, struct mhi_result *mhi_result) { struct qaic_device *qdev = dev_get_drvdata(&mhi_dev->dev); struct wire_msg *msg = mhi_result->buf_addr; struct resp_work *resp; if (mhi_result->transaction_status || msg->hdr.magic_number != MANAGE_MAGIC_NUMBER) { kfree(msg); return; } resp = kmalloc(sizeof(*resp), GFP_ATOMIC); if (!resp) { kfree(msg); return; } INIT_WORK(&resp->work, resp_worker); resp->qdev = qdev; resp->buf = msg; queue_work(qdev->cntl_wq, &resp->work); } int qaic_control_open(struct qaic_device *qdev) { if (!qdev->cntl_ch) return -ENODEV; qdev->cntl_lost_buf = false; /* * By default qaic should assume that device has CRC enabled. * Qaic comes to know if device has CRC enabled or disabled during the * device status transaction, which is the first transaction performed * on control channel. * * So CRC validation of first device status transaction response is * ignored (by calling valid_crc_stub) and is done later during decoding * if device has CRC enabled. * Now that qaic knows whether device has CRC enabled or not it acts * accordingly. */ qdev->gen_crc = gen_crc; qdev->valid_crc = valid_crc_stub; return mhi_prepare_for_transfer(qdev->cntl_ch); } void qaic_control_close(struct qaic_device *qdev) { mhi_unprepare_from_transfer(qdev->cntl_ch); } void qaic_release_usr(struct qaic_device *qdev, struct qaic_user *usr) { struct wire_trans_terminate_to_dev *trans; struct wrapper_list *wrappers; struct wrapper_msg *wrapper; struct wire_msg *msg; struct wire_msg *rsp; wrappers = alloc_wrapper_list(); if (!wrappers) return; wrapper = add_wrapper(wrappers, sizeof(*wrapper) + sizeof(*msg) + sizeof(*trans)); if (!wrapper) return; msg = &wrapper->msg; trans = (struct wire_trans_terminate_to_dev *)msg->data; trans->hdr.type = cpu_to_le32(QAIC_TRANS_TERMINATE_TO_DEV); trans->hdr.len = cpu_to_le32(sizeof(*trans)); trans->handle = cpu_to_le32(usr->handle); mutex_lock(&qdev->cntl_mutex); wrapper->len = sizeof(msg->hdr) + sizeof(*trans); msg->hdr.magic_number = MANAGE_MAGIC_NUMBER; msg->hdr.sequence_number = cpu_to_le32(qdev->next_seq_num++); msg->hdr.len = cpu_to_le32(wrapper->len); msg->hdr.count = cpu_to_le32(1); msg->hdr.handle = cpu_to_le32(usr->handle); msg->hdr.padding = cpu_to_le32(0); msg->hdr.crc32 = cpu_to_le32(qdev->gen_crc(wrappers)); /* * msg_xfer releases the mutex * We don't care about the return of msg_xfer since we will not do * anything different based on what happens. * We ignore pending signals since one will be set if the user is * killed, and we need give the device a chance to cleanup, otherwise * DMA may still be in progress when we return. */ rsp = msg_xfer(qdev, wrappers, qdev->next_seq_num - 1, true); if (!IS_ERR(rsp)) kfree(rsp); free_wrapper_from_list(wrappers, wrapper); } void wake_all_cntl(struct qaic_device *qdev) { struct xfer_queue_elem *elem; struct xfer_queue_elem *i; mutex_lock(&qdev->cntl_mutex); list_for_each_entry_safe(elem, i, &qdev->cntl_xfer_list, list) { list_del_init(&elem->list); complete_all(&elem->xfer_done); } mutex_unlock(&qdev->cntl_mutex); } |