// SPDX-License-Identifier: GPL-2.0 /* * Cadence USBSS DRD Driver - gadget side. * * Copyright (C) 2018-2019 Cadence Design Systems. * Copyright (C) 2017-2018 NXP * * Authors: Pawel Jez , * Pawel Laszczak * Peter Chen */ /* * Work around 1: * At some situations, the controller may get stale data address in TRB * at below sequences: * 1. Controller read TRB includes data address * 2. Software updates TRBs includes data address and Cycle bit * 3. Controller read TRB which includes Cycle bit * 4. DMA run with stale data address * * To fix this problem, driver needs to make the first TRB in TD as invalid. * After preparing all TRBs driver needs to check the position of DMA and * if the DMA point to the first just added TRB and doorbell is 1, * then driver must defer making this TRB as valid. This TRB will be make * as valid during adding next TRB only if DMA is stopped or at TRBERR * interrupt. * * Issue has been fixed in DEV_VER_V3 version of controller. * * Work around 2: * Controller for OUT endpoints has shared on-chip buffers for all incoming * packets, including ep0out. It's FIFO buffer, so packets must be handle by DMA * in correct order. If the first packet in the buffer will not be handled, * then the following packets directed for other endpoints and functions * will be blocked. * Additionally the packets directed to one endpoint can block entire on-chip * buffers. In this case transfer to other endpoints also will blocked. * * To resolve this issue after raising the descriptor missing interrupt * driver prepares internal usb_request object and use it to arm DMA transfer. * * The problematic situation was observed in case when endpoint has been enabled * but no usb_request were queued. Driver try detects such endpoints and will * use this workaround only for these endpoint. * * Driver use limited number of buffer. This number can be set by macro * CDNS3_WA2_NUM_BUFFERS. * * Such blocking situation was observed on ACM gadget. For this function * host send OUT data packet but ACM function is not prepared for this packet. * It's cause that buffer placed in on chip memory block transfer to other * endpoints. * * Issue has been fixed in DEV_VER_V2 version of controller. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include "core.h" #include "gadget-export.h" #include "gadget.h" #include "trace.h" #include "drd.h" #define readl_poll_timeout_atomic readl_poll_timeout #define usleep_range(a, b) udelay((b)) static int __cdns3_gadget_ep_queue(struct usb_ep *ep, struct usb_request *request, gfp_t gfp_flags); static void cdns3_gadget_udc_set_speed(struct usb_gadget *gadget, enum usb_device_speed speed); /** * cdns3_set_register_bit - set bit in given register. * @ptr: address of device controller register to be read and changed * @mask: bits requested to set */ void cdns3_set_register_bit(void __iomem *ptr, u32 mask) { mask = readl(ptr) | mask; writel(mask, ptr); } /** * cdns3_ep_addr_to_index - Macro converts endpoint address to * index of endpoint object in cdns3_device.eps[] container * @ep_addr: endpoint address for which endpoint object is required * */ u8 cdns3_ep_addr_to_index(u8 ep_addr) { return (((ep_addr & 0x7F)) + ((ep_addr & USB_DIR_IN) ? 16 : 0)); } static int cdns3_get_dma_pos(struct cdns3_device *priv_dev, struct cdns3_endpoint *priv_ep) { int dma_index; dma_index = readl(&priv_dev->regs->ep_traddr) - priv_ep->trb_pool_dma; return dma_index / TRB_SIZE; } /** * cdns3_next_request - returns next request from list * @list: list containing requests * * Returns request or NULL if no requests in list */ struct usb_request *cdns3_next_request(struct list_head *list) { return list_first_entry_or_null(list, struct usb_request, list); } /** * cdns3_next_align_buf - returns next buffer from list * @list: list containing buffers * * Returns buffer or NULL if no buffers in list */ struct cdns3_aligned_buf *cdns3_next_align_buf(struct list_head *list) { return list_first_entry_or_null(list, struct cdns3_aligned_buf, list); } /** * cdns3_next_priv_request - returns next request from list * @list: list containing requests * * Returns request or NULL if no requests in list */ struct cdns3_request *cdns3_next_priv_request(struct list_head *list) { return list_first_entry_or_null(list, struct cdns3_request, list); } /** * select_ep - selects endpoint * @priv_dev: extended gadget object * @ep: endpoint address */ void cdns3_select_ep(struct cdns3_device *priv_dev, u32 ep) { if (priv_dev->selected_ep == ep) return; priv_dev->selected_ep = ep; writel(ep, &priv_dev->regs->ep_sel); } dma_addr_t cdns3_trb_virt_to_dma(struct cdns3_endpoint *priv_ep, struct cdns3_trb *trb) { u32 offset = (char *)trb - (char *)priv_ep->trb_pool; return priv_ep->trb_pool_dma + offset; } int cdns3_ring_size(struct cdns3_endpoint *priv_ep) { switch (priv_ep->type) { case USB_ENDPOINT_XFER_ISOC: return TRB_ISO_RING_SIZE; case USB_ENDPOINT_XFER_CONTROL: return TRB_CTRL_RING_SIZE; default: return TRB_RING_SIZE; } } /** * cdns3_allocate_trb_pool - Allocates TRB's pool for selected endpoint * @priv_ep: endpoint object * * Function will return 0 on success or -ENOMEM on allocation error */ int cdns3_allocate_trb_pool(struct cdns3_endpoint *priv_ep) { int ring_size = cdns3_ring_size(priv_ep); struct cdns3_trb *link_trb; if (!priv_ep->trb_pool) { priv_ep->trb_pool = dma_alloc_coherent(ring_size, (unsigned long *)&priv_ep->trb_pool_dma); if (!priv_ep->trb_pool) return -ENOMEM; } else { memset(priv_ep->trb_pool, 0, ring_size); } if (!priv_ep->num) return 0; priv_ep->num_trbs = ring_size / TRB_SIZE; /* Initialize the last TRB as Link TRB. */ link_trb = (priv_ep->trb_pool + (priv_ep->num_trbs - 1)); link_trb->buffer = TRB_BUFFER(priv_ep->trb_pool_dma); link_trb->control = TRB_CYCLE | TRB_TYPE(TRB_LINK) | TRB_TOGGLE; return 0; } static void cdns3_free_trb_pool(struct cdns3_endpoint *priv_ep) { if (priv_ep->trb_pool) { dma_free_coherent(priv_ep->trb_pool); priv_ep->trb_pool = NULL; } } /** * cdns3_ep_stall_flush - Stalls and flushes selected endpoint * @priv_ep: endpoint object * * Endpoint must be selected before call to this function */ static void cdns3_ep_stall_flush(struct cdns3_endpoint *priv_ep) { struct cdns3_device *priv_dev = priv_ep->cdns3_dev; int val; trace_cdns3_halt(priv_ep, 1, 1); writel(EP_CMD_DFLUSH | EP_CMD_ERDY | EP_CMD_SSTALL, &priv_dev->regs->ep_cmd); /* wait for DFLUSH cleared */ readl_poll_timeout_atomic(&priv_dev->regs->ep_cmd, val, !(val & EP_CMD_DFLUSH), 1000); priv_ep->flags |= EP_STALLED; priv_ep->flags &= ~EP_STALL_PENDING; } /** * cdns3_hw_reset_eps_config - reset endpoints configuration kept by controller. * @priv_dev: extended gadget object */ void cdns3_hw_reset_eps_config(struct cdns3_device *priv_dev) { writel(USB_CONF_CFGRST, &priv_dev->regs->usb_conf); cdns3_allow_enable_l1(priv_dev, 0); priv_dev->hw_configured_flag = 0; priv_dev->onchip_used_size = 0; priv_dev->out_mem_is_allocated = 0; priv_dev->wait_for_setup = 0; } /** * cdns3_ep_inc_trb - increment a trb index. * @index: Pointer to the TRB index to increment. * @cs: Cycle state * @trb_in_seg: number of TRBs in segment * * The index should never point to the link TRB. After incrementing, * if it is point to the link TRB, wrap around to the beginning and revert * cycle state bit The * link TRB is always at the last TRB entry. */ static void cdns3_ep_inc_trb(int *index, u8 *cs, int trb_in_seg) { (*index)++; if (*index == (trb_in_seg - 1)) { *index = 0; *cs ^= 1; } } /** * cdns3_ep_inc_enq - increment endpoint's enqueue pointer * @priv_ep: The endpoint whose enqueue pointer we're incrementing */ static void cdns3_ep_inc_enq(struct cdns3_endpoint *priv_ep) { priv_ep->free_trbs--; cdns3_ep_inc_trb(&priv_ep->enqueue, &priv_ep->pcs, priv_ep->num_trbs); } /** * cdns3_ep_inc_deq - increment endpoint's dequeue pointer * @priv_ep: The endpoint whose dequeue pointer we're incrementing */ static void cdns3_ep_inc_deq(struct cdns3_endpoint *priv_ep) { priv_ep->free_trbs++; cdns3_ep_inc_trb(&priv_ep->dequeue, &priv_ep->ccs, priv_ep->num_trbs); } void cdns3_move_deq_to_next_trb(struct cdns3_request *priv_req) { struct cdns3_endpoint *priv_ep = priv_req->priv_ep; int current_trb = priv_req->start_trb; while (current_trb != priv_req->end_trb) { cdns3_ep_inc_deq(priv_ep); current_trb = priv_ep->dequeue; } cdns3_ep_inc_deq(priv_ep); } /** * cdns3_allow_enable_l1 - enable/disable permits to transition to L1. * @priv_dev: Extended gadget object * @enable: Enable/disable permit to transition to L1. * * If bit USB_CONF_L1EN is set and device receive Extended Token packet, * then controller answer with ACK handshake. * If bit USB_CONF_L1DS is set and device receive Extended Token packet, * then controller answer with NYET handshake. */ void cdns3_allow_enable_l1(struct cdns3_device *priv_dev, int enable) { if (enable) writel(USB_CONF_L1EN, &priv_dev->regs->usb_conf); else writel(USB_CONF_L1DS, &priv_dev->regs->usb_conf); } enum usb_device_speed cdns3_get_speed(struct cdns3_device *priv_dev) { u32 reg; reg = readl(&priv_dev->regs->usb_sts); if (DEV_SUPERSPEED(reg)) return USB_SPEED_SUPER; else if (DEV_HIGHSPEED(reg)) return USB_SPEED_HIGH; else if (DEV_FULLSPEED(reg)) return USB_SPEED_FULL; else if (DEV_LOWSPEED(reg)) return USB_SPEED_LOW; return USB_SPEED_UNKNOWN; } /** * cdns3_start_all_request - add to ring all request not started * @priv_dev: Extended gadget object * @priv_ep: The endpoint for whom request will be started. * * Returns return ENOMEM if transfer ring i not enough TRBs to start * all requests. */ static int cdns3_start_all_request(struct cdns3_device *priv_dev, struct cdns3_endpoint *priv_ep) { struct usb_request *request; int ret = 0; while (!list_empty(&priv_ep->deferred_req_list)) { request = cdns3_next_request(&priv_ep->deferred_req_list); ret = cdns3_ep_run_transfer(priv_ep, request); if (ret) return ret; list_del(&request->list); list_add_tail(&request->list, &priv_ep->pending_req_list); } priv_ep->flags &= ~EP_RING_FULL; return ret; } /* * WA2: Set flag for all not ISOC OUT endpoints. If this flag is set * driver try to detect whether endpoint need additional internal * buffer for unblocking on-chip FIFO buffer. This flag will be cleared * if before first DESCMISS interrupt the DMA will be armed. */ #define cdns3_wa2_enable_detection(priv_dev, ep_priv, reg) do { \ if (!priv_ep->dir && priv_ep->type != USB_ENDPOINT_XFER_ISOC) { \ priv_ep->flags |= EP_QUIRK_EXTRA_BUF_DET; \ (reg) |= EP_STS_EN_DESCMISEN; \ } } while (0) /** * cdns3_wa2_descmiss_copy_data copy data from internal requests to * request queued by class driver. * @priv_ep: extended endpoint object * @request: request object */ static void cdns3_wa2_descmiss_copy_data(struct cdns3_endpoint *priv_ep, struct usb_request *request) { struct usb_request *descmiss_req; struct cdns3_request *descmiss_priv_req; while (!list_empty(&priv_ep->wa2_descmiss_req_list)) { int chunk_end; int length; descmiss_priv_req = cdns3_next_priv_request(&priv_ep->wa2_descmiss_req_list); descmiss_req = &descmiss_priv_req->request; /* driver can't touch pending request */ if (descmiss_priv_req->flags & REQUEST_PENDING) break; chunk_end = descmiss_priv_req->flags & REQUEST_INTERNAL_CH; length = request->actual + descmiss_req->actual; request->status = descmiss_req->status; if (length <= request->length) { memcpy(&((u8 *)request->buf)[request->actual], descmiss_req->buf, descmiss_req->actual); request->actual = length; } else { /* It should never occur */ request->status = -ENOMEM; } list_del_init(&descmiss_priv_req->list); kfree(descmiss_req->buf); cdns3_gadget_ep_free_request(&priv_ep->endpoint, descmiss_req); --priv_ep->wa2_counter; if (!chunk_end) break; } } struct usb_request *cdns3_wa2_gadget_giveback(struct cdns3_device *priv_dev, struct cdns3_endpoint *priv_ep, struct cdns3_request *priv_req) { if (priv_ep->flags & EP_QUIRK_EXTRA_BUF_EN && priv_req->flags & REQUEST_INTERNAL) { struct usb_request *req; req = cdns3_next_request(&priv_ep->deferred_req_list); priv_ep->descmis_req = NULL; if (!req) return NULL; cdns3_wa2_descmiss_copy_data(priv_ep, req); if (!(priv_ep->flags & EP_QUIRK_END_TRANSFER) && req->length != req->actual) { /* wait for next part of transfer */ return NULL; } if (req->status == -EINPROGRESS) req->status = 0; list_del_init(&req->list); cdns3_start_all_request(priv_dev, priv_ep); return req; } return &priv_req->request; } int cdns3_wa2_gadget_ep_queue(struct cdns3_device *priv_dev, struct cdns3_endpoint *priv_ep, struct cdns3_request *priv_req) { int deferred = 0; /* * If transfer was queued before DESCMISS appear than we * can disable handling of DESCMISS interrupt. Driver assumes that it * can disable special treatment for this endpoint. */ if (priv_ep->flags & EP_QUIRK_EXTRA_BUF_DET) { u32 reg; cdns3_select_ep(priv_dev, priv_ep->num | priv_ep->dir); priv_ep->flags &= ~EP_QUIRK_EXTRA_BUF_DET; reg = readl(&priv_dev->regs->ep_sts_en); reg &= ~EP_STS_EN_DESCMISEN; trace_cdns3_wa2(priv_ep, "workaround disabled\n"); writel(reg, &priv_dev->regs->ep_sts_en); } if (priv_ep->flags & EP_QUIRK_EXTRA_BUF_EN) { u8 pending_empty = list_empty(&priv_ep->pending_req_list); u8 descmiss_empty = list_empty(&priv_ep->wa2_descmiss_req_list); /* * DESCMISS transfer has been finished, so data will be * directly copied from internal allocated usb_request * objects. */ if (pending_empty && !descmiss_empty && !(priv_req->flags & REQUEST_INTERNAL)) { cdns3_wa2_descmiss_copy_data(priv_ep, &priv_req->request); trace_cdns3_wa2(priv_ep, "get internal stored data"); list_add_tail(&priv_req->request.list, &priv_ep->pending_req_list); cdns3_gadget_giveback(priv_ep, priv_req, priv_req->request.status); /* * Intentionally driver returns positive value as * correct value. It informs that transfer has * been finished. */ return EINPROGRESS; } /* * Driver will wait for completion DESCMISS transfer, * before starts new, not DESCMISS transfer. */ if (!pending_empty && !descmiss_empty) { trace_cdns3_wa2(priv_ep, "wait for pending transfer\n"); deferred = 1; } if (priv_req->flags & REQUEST_INTERNAL) list_add_tail(&priv_req->list, &priv_ep->wa2_descmiss_req_list); } return deferred; } static void cdns3_wa2_remove_old_request(struct cdns3_endpoint *priv_ep) { struct cdns3_request *priv_req; while (!list_empty(&priv_ep->wa2_descmiss_req_list)) { u8 chain; priv_req = cdns3_next_priv_request(&priv_ep->wa2_descmiss_req_list); chain = !!(priv_req->flags & REQUEST_INTERNAL_CH); trace_cdns3_wa2(priv_ep, "removes eldest request"); kfree(priv_req->request.buf); cdns3_gadget_ep_free_request(&priv_ep->endpoint, &priv_req->request); list_del_init(&priv_req->list); --priv_ep->wa2_counter; if (!chain) break; } } /** * cdns3_wa2_descmissing_packet - handles descriptor missing event. * @priv_dev: extended gadget object * * This function is used only for WA2. For more information see Work around 2 * description. */ static void cdns3_wa2_descmissing_packet(struct cdns3_endpoint *priv_ep) { struct cdns3_request *priv_req; struct usb_request *request; if (priv_ep->flags & EP_QUIRK_EXTRA_BUF_DET) { priv_ep->flags &= ~EP_QUIRK_EXTRA_BUF_DET; priv_ep->flags |= EP_QUIRK_EXTRA_BUF_EN; } trace_cdns3_wa2(priv_ep, "Description Missing detected\n"); if (priv_ep->wa2_counter >= CDNS3_WA2_NUM_BUFFERS) cdns3_wa2_remove_old_request(priv_ep); request = cdns3_gadget_ep_alloc_request(&priv_ep->endpoint, GFP_ATOMIC); if (!request) goto err; priv_req = to_cdns3_request(request); priv_req->flags |= REQUEST_INTERNAL; /* if this field is still assigned it indicate that transfer related * with this request has not been finished yet. Driver in this * case simply allocate next request and assign flag REQUEST_INTERNAL_CH * flag to previous one. It will indicate that current request is * part of the previous one. */ if (priv_ep->descmis_req) priv_ep->descmis_req->flags |= REQUEST_INTERNAL_CH; priv_req->request.buf = kzalloc(CDNS3_DESCMIS_BUF_SIZE, GFP_ATOMIC); priv_ep->wa2_counter++; if (!priv_req->request.buf) { cdns3_gadget_ep_free_request(&priv_ep->endpoint, request); goto err; } priv_req->request.length = CDNS3_DESCMIS_BUF_SIZE; priv_ep->descmis_req = priv_req; __cdns3_gadget_ep_queue(&priv_ep->endpoint, &priv_ep->descmis_req->request, GFP_ATOMIC); return; err: dev_err(priv_ep->cdns3_dev->dev, "Failed: No sufficient memory for DESCMIS\n"); } /** * cdns3_gadget_giveback - call struct usb_request's ->complete callback * @priv_ep: The endpoint to whom the request belongs to * @priv_req: The request we're giving back * @status: completion code for the request * * Must be called with controller's lock held and interrupts disabled. This * function will unmap @req and call its ->complete() callback to notify upper * layers that it has completed. */ void cdns3_gadget_giveback(struct cdns3_endpoint *priv_ep, struct cdns3_request *priv_req, int status) { struct cdns3_device *priv_dev = priv_ep->cdns3_dev; struct usb_request *request = &priv_req->request; list_del_init(&request->list); if (request->status == -EINPROGRESS) request->status = status; usb_gadget_unmap_request(&priv_dev->gadget, request, priv_ep->dir); if ((priv_req->flags & REQUEST_UNALIGNED) && priv_ep->dir == USB_DIR_OUT && !request->status) memcpy(request->buf, priv_req->aligned_buf->buf, request->length); priv_req->flags &= ~(REQUEST_PENDING | REQUEST_UNALIGNED); trace_cdns3_gadget_giveback(priv_req); if (priv_dev->dev_ver < DEV_VER_V2) { request = cdns3_wa2_gadget_giveback(priv_dev, priv_ep, priv_req); if (!request) return; } if (request->complete) { spin_unlock(&priv_dev->lock); usb_gadget_giveback_request(&priv_ep->endpoint, request); spin_lock(&priv_dev->lock); } if (request->buf == priv_dev->zlp_buf) cdns3_gadget_ep_free_request(&priv_ep->endpoint, request); } void cdns3_wa1_restore_cycle_bit(struct cdns3_endpoint *priv_ep) { /* Work around for stale data address in TRB*/ if (priv_ep->wa1_set) { trace_cdns3_wa1(priv_ep, "restore cycle bit"); priv_ep->wa1_set = 0; priv_ep->wa1_trb_index = 0xFFFF; if (priv_ep->wa1_cycle_bit) { priv_ep->wa1_trb->control = priv_ep->wa1_trb->control | 0x1; } else { priv_ep->wa1_trb->control = priv_ep->wa1_trb->control & ~0x1; } } } static void cdns3_free_aligned_request_buf(struct cdns3_device *priv_dev) { struct cdns3_aligned_buf *buf, *tmp; unsigned long flags; spin_lock_irqsave(&priv_dev->lock, flags); list_for_each_entry_safe(buf, tmp, &priv_dev->aligned_buf_list, list) { if (!buf->in_use) { list_del(&buf->list); /* * Re-enable interrupts to free DMA capable memory. * Driver can't free this memory with disabled * interrupts. */ spin_unlock_irqrestore(&priv_dev->lock, flags); dma_free_coherent(buf->buf); kfree(buf); spin_lock_irqsave(&priv_dev->lock, flags); } } spin_unlock_irqrestore(&priv_dev->lock, flags); } static int cdns3_prepare_aligned_request_buf(struct cdns3_request *priv_req) { struct cdns3_endpoint *priv_ep = priv_req->priv_ep; struct cdns3_device *priv_dev = priv_ep->cdns3_dev; struct cdns3_aligned_buf *buf; /* check if buffer is aligned to 8. */ if (!((uintptr_t)priv_req->request.buf & 0x7)) return 0; buf = priv_req->aligned_buf; if (!buf || priv_req->request.length > buf->size) { buf = kzalloc(sizeof(*buf), GFP_ATOMIC); if (!buf) return -ENOMEM; buf->size = priv_req->request.length; buf->buf = dma_alloc_coherent(buf->size, (unsigned long *)&buf->dma); if (!buf->buf) { kfree(buf); return -ENOMEM; } if (priv_req->aligned_buf) { trace_cdns3_free_aligned_request(priv_req); priv_req->aligned_buf->in_use = 0; #ifndef __UBOOT__ queue_work(system_freezable_wq, &priv_dev->aligned_buf_wq); #else cdns3_free_aligned_request_buf(priv_dev); #endif } buf->in_use = 1; priv_req->aligned_buf = buf; list_add_tail(&buf->list, &priv_dev->aligned_buf_list); } if (priv_ep->dir == USB_DIR_IN) { memcpy(buf->buf, priv_req->request.buf, priv_req->request.length); } priv_req->flags |= REQUEST_UNALIGNED; trace_cdns3_prepare_aligned_request(priv_req); return 0; } static int cdns3_wa1_update_guard(struct cdns3_endpoint *priv_ep, struct cdns3_trb *trb) { struct cdns3_device *priv_dev = priv_ep->cdns3_dev; if (!priv_ep->wa1_set) { u32 doorbell; doorbell = !!(readl(&priv_dev->regs->ep_cmd) & EP_CMD_DRDY); if (doorbell) { priv_ep->wa1_cycle_bit = priv_ep->pcs ? TRB_CYCLE : 0; priv_ep->wa1_set = 1; priv_ep->wa1_trb = trb; priv_ep->wa1_trb_index = priv_ep->enqueue; trace_cdns3_wa1(priv_ep, "set guard"); return 0; } } return 1; } static void cdns3_wa1_tray_restore_cycle_bit(struct cdns3_device *priv_dev, struct cdns3_endpoint *priv_ep) { int dma_index; u32 doorbell; doorbell = !!(readl(&priv_dev->regs->ep_cmd) & EP_CMD_DRDY); dma_index = cdns3_get_dma_pos(priv_dev, priv_ep); if (!doorbell || dma_index != priv_ep->wa1_trb_index) cdns3_wa1_restore_cycle_bit(priv_ep); } /** * cdns3_ep_run_transfer - start transfer on no-default endpoint hardware * @priv_ep: endpoint object * * Returns zero on success or negative value on failure */ int cdns3_ep_run_transfer(struct cdns3_endpoint *priv_ep, struct usb_request *request) { struct cdns3_device *priv_dev = priv_ep->cdns3_dev; struct cdns3_request *priv_req; struct cdns3_trb *trb; dma_addr_t trb_dma; u32 togle_pcs = 1; int sg_iter = 0; int num_trb = 1; int address; u32 control; int pcs; if (num_trb > priv_ep->free_trbs) { priv_ep->flags |= EP_RING_FULL; return -ENOBUFS; } priv_req = to_cdns3_request(request); address = priv_ep->endpoint.desc->bEndpointAddress; priv_ep->flags |= EP_PENDING_REQUEST; /* must allocate buffer aligned to 8 */ if (priv_req->flags & REQUEST_UNALIGNED) trb_dma = priv_req->aligned_buf->dma; else trb_dma = request->dma; trb = priv_ep->trb_pool + priv_ep->enqueue; priv_req->start_trb = priv_ep->enqueue; priv_req->trb = trb; cdns3_select_ep(priv_ep->cdns3_dev, address); /* prepare ring */ if ((priv_ep->enqueue + num_trb) >= (priv_ep->num_trbs - 1)) { struct cdns3_trb *link_trb; int doorbell, dma_index; u32 ch_bit = 0; doorbell = !!(readl(&priv_dev->regs->ep_cmd) & EP_CMD_DRDY); dma_index = cdns3_get_dma_pos(priv_dev, priv_ep); /* Driver can't update LINK TRB if it is current processed. */ if (doorbell && dma_index == priv_ep->num_trbs - 1) { priv_ep->flags |= EP_DEFERRED_DRDY; return -ENOBUFS; } /*updating C bt in Link TRB before starting DMA*/ link_trb = priv_ep->trb_pool + (priv_ep->num_trbs - 1); /* * For TRs size equal 2 enabling TRB_CHAIN for epXin causes * that DMA stuck at the LINK TRB. * On the other hand, removing TRB_CHAIN for longer TRs for * epXout cause that DMA stuck after handling LINK TRB. * To eliminate this strange behavioral driver set TRB_CHAIN * bit only for TR size > 2. */ if (priv_ep->type == USB_ENDPOINT_XFER_ISOC || TRBS_PER_SEGMENT > 2) ch_bit = TRB_CHAIN; link_trb->control = ((priv_ep->pcs) ? TRB_CYCLE : 0) | TRB_TYPE(TRB_LINK) | TRB_TOGGLE | ch_bit; } if (priv_dev->dev_ver <= DEV_VER_V2) togle_pcs = cdns3_wa1_update_guard(priv_ep, trb); /* set incorrect Cycle Bit for first trb*/ control = priv_ep->pcs ? 0 : TRB_CYCLE; do { u32 length; u16 td_size = 0; /* fill TRB */ control |= TRB_TYPE(TRB_NORMAL); trb->buffer = TRB_BUFFER(trb_dma); length = request->length; if (likely(priv_dev->dev_ver >= DEV_VER_V2)) td_size = DIV_ROUND_UP(length, priv_ep->endpoint.maxpacket); trb->length = TRB_BURST_LEN(priv_ep->trb_burst_size) | TRB_LEN(length); if (priv_dev->gadget.speed == USB_SPEED_SUPER) trb->length |= TRB_TDL_SS_SIZE(td_size); else control |= TRB_TDL_HS_SIZE(td_size); pcs = priv_ep->pcs ? TRB_CYCLE : 0; /* * first trb should be prepared as last to avoid processing * transfer to early */ if (sg_iter != 0) control |= pcs; if (priv_ep->type == USB_ENDPOINT_XFER_ISOC && !priv_ep->dir) { control |= TRB_IOC | TRB_ISP; } else { /* for last element in TD or in SG list */ if (sg_iter == (num_trb - 1) && sg_iter != 0) control |= pcs | TRB_IOC | TRB_ISP; } if (sg_iter) trb->control = control; else priv_req->trb->control = control; control = 0; ++sg_iter; priv_req->end_trb = priv_ep->enqueue; cdns3_ep_inc_enq(priv_ep); trb = priv_ep->trb_pool + priv_ep->enqueue; } while (sg_iter < num_trb); trb = priv_req->trb; priv_req->flags |= REQUEST_PENDING; if (sg_iter == 1) trb->control |= TRB_IOC | TRB_ISP; /* * Memory barrier - cycle bit must be set before other filds in trb. */ dmb(); /* give the TD to the consumer*/ if (togle_pcs) trb->control = trb->control ^ 1; if (priv_dev->dev_ver <= DEV_VER_V2) cdns3_wa1_tray_restore_cycle_bit(priv_dev, priv_ep); trace_cdns3_prepare_trb(priv_ep, priv_req->trb); /* * Memory barrier - Cycle Bit must be set before trb->length and * trb->buffer fields. */ dmb(); /* * For DMULT mode we can set address to transfer ring only once after * enabling endpoint. */ if (priv_ep->flags & EP_UPDATE_EP_TRBADDR) { /* * Until SW is not ready to handle the OUT transfer the ISO OUT * Endpoint should be disabled (EP_CFG.ENABLE = 0). * EP_CFG_ENABLE must be set before updating ep_traddr. */ if (priv_ep->type == USB_ENDPOINT_XFER_ISOC && !priv_ep->dir && !(priv_ep->flags & EP_QUIRK_ISO_OUT_EN)) { priv_ep->flags |= EP_QUIRK_ISO_OUT_EN; cdns3_set_register_bit(&priv_dev->regs->ep_cfg, EP_CFG_ENABLE); } writel(EP_TRADDR_TRADDR(priv_ep->trb_pool_dma + priv_req->start_trb * TRB_SIZE), &priv_dev->regs->ep_traddr); priv_ep->flags &= ~EP_UPDATE_EP_TRBADDR; } if (!priv_ep->wa1_set && !(priv_ep->flags & EP_STALLED)) { trace_cdns3_ring(priv_ep); /*clearing TRBERR and EP_STS_DESCMIS before seting DRDY*/ writel(EP_STS_TRBERR | EP_STS_DESCMIS, &priv_dev->regs->ep_sts); writel(EP_CMD_DRDY, &priv_dev->regs->ep_cmd); trace_cdns3_doorbell_epx(priv_ep->name, readl(&priv_dev->regs->ep_traddr)); } /* WORKAROUND for transition to L0 */ __cdns3_gadget_wakeup(priv_dev); return 0; } void cdns3_set_hw_configuration(struct cdns3_device *priv_dev) { struct cdns3_endpoint *priv_ep; struct usb_ep *ep; int val; if (priv_dev->hw_configured_flag) return; writel(USB_CONF_CFGSET, &priv_dev->regs->usb_conf); writel(EP_CMD_ERDY | EP_CMD_REQ_CMPL, &priv_dev->regs->ep_cmd); cdns3_set_register_bit(&priv_dev->regs->usb_conf, USB_CONF_U1EN | USB_CONF_U2EN); /* wait until configuration set */ readl_poll_timeout_atomic(&priv_dev->regs->usb_sts, val, val & USB_STS_CFGSTS_MASK, 100); priv_dev->hw_configured_flag = 1; list_for_each_entry(ep, &priv_dev->gadget.ep_list, ep_list) { priv_ep = ep_to_cdns3_ep(ep); if (priv_ep->flags & EP_ENABLED) cdns3_start_all_request(priv_dev, priv_ep); } } /** * cdns3_request_handled - check whether request has been handled by DMA * * @priv_ep: extended endpoint object. * @priv_req: request object for checking * * Endpoint must be selected before invoking this function. * * Returns false if request has not been handled by DMA, else returns true. * * SR - start ring * ER - end ring * DQ = priv_ep->dequeue - dequeue position * EQ = priv_ep->enqueue - enqueue position * ST = priv_req->start_trb - index of first TRB in transfer ring * ET = priv_req->end_trb - index of last TRB in transfer ring * CI = current_index - index of processed TRB by DMA. * * As first step, function checks if cycle bit for priv_req->start_trb is * correct. * * some rules: * 1. priv_ep->dequeue never exceed current_index. * 2 priv_ep->enqueue never exceed priv_ep->dequeue * 3. exception: priv_ep->enqueue == priv_ep->dequeue * and priv_ep->free_trbs is zero. * This case indicate that TR is full. * * Then We can split recognition into two parts: * Case 1 - priv_ep->dequeue < current_index * SR ... EQ ... DQ ... CI ... ER * SR ... DQ ... CI ... EQ ... ER * * Request has been handled by DMA if ST and ET is between DQ and CI. * * Case 2 - priv_ep->dequeue > current_index * This situation take place when CI go through the LINK TRB at the end of * transfer ring. * SR ... CI ... EQ ... DQ ... ER * * Request has been handled by DMA if ET is less then CI or * ET is greater or equal DQ. */ static bool cdns3_request_handled(struct cdns3_endpoint *priv_ep, struct cdns3_request *priv_req) { struct cdns3_device *priv_dev = priv_ep->cdns3_dev; struct cdns3_trb *trb = priv_req->trb; int current_index = 0; int handled = 0; int doorbell; current_index = cdns3_get_dma_pos(priv_dev, priv_ep); doorbell = !!(readl(&priv_dev->regs->ep_cmd) & EP_CMD_DRDY); trb = &priv_ep->trb_pool[priv_req->start_trb]; if ((trb->control & TRB_CYCLE) != priv_ep->ccs) goto finish; if (doorbell == 1 && current_index == priv_ep->dequeue) goto finish; /* The corner case for TRBS_PER_SEGMENT equal 2). */ if (TRBS_PER_SEGMENT == 2 && priv_ep->type != USB_ENDPOINT_XFER_ISOC) { handled = 1; goto finish; } if (priv_ep->enqueue == priv_ep->dequeue && priv_ep->free_trbs == 0) { handled = 1; } else if (priv_ep->dequeue < current_index) { if ((current_index == (priv_ep->num_trbs - 1)) && !priv_ep->dequeue) goto finish; if (priv_req->end_trb >= priv_ep->dequeue && priv_req->end_trb < current_index) handled = 1; } else if (priv_ep->dequeue > current_index) { if (priv_req->end_trb < current_index || priv_req->end_trb >= priv_ep->dequeue) handled = 1; } finish: trace_cdns3_request_handled(priv_req, current_index, handled); return handled; } static void cdns3_transfer_completed(struct cdns3_device *priv_dev, struct cdns3_endpoint *priv_ep) { struct cdns3_request *priv_req; struct usb_request *request; struct cdns3_trb *trb; while (!list_empty(&priv_ep->pending_req_list)) { request = cdns3_next_request(&priv_ep->pending_req_list); priv_req = to_cdns3_request(request); /* Re-select endpoint. It could be changed by other CPU during * handling usb_gadget_giveback_request. */ #ifndef __UBOOT__ cdns3_select_ep(priv_dev, priv_ep->endpoint.address); #else cdns3_select_ep(priv_dev, priv_ep->endpoint.desc->bEndpointAddress); #endif if (!cdns3_request_handled(priv_ep, priv_req)) goto prepare_next_td; trb = priv_ep->trb_pool + priv_ep->dequeue; trace_cdns3_complete_trb(priv_ep, trb); if (trb != priv_req->trb) dev_warn(priv_dev->dev, "request_trb=0x%p, queue_trb=0x%p\n", priv_req->trb, trb); request->actual = TRB_LEN(le32_to_cpu(trb->length)); cdns3_move_deq_to_next_trb(priv_req); cdns3_gadget_giveback(priv_ep, priv_req, 0); if (priv_ep->type != USB_ENDPOINT_XFER_ISOC && TRBS_PER_SEGMENT == 2) break; } priv_ep->flags &= ~EP_PENDING_REQUEST; prepare_next_td: if (!(priv_ep->flags & EP_STALLED) && !(priv_ep->flags & EP_STALL_PENDING)) cdns3_start_all_request(priv_dev, priv_ep); } void cdns3_rearm_transfer(struct cdns3_endpoint *priv_ep, u8 rearm) { struct cdns3_device *priv_dev = priv_ep->cdns3_dev; cdns3_wa1_restore_cycle_bit(priv_ep); if (rearm) { trace_cdns3_ring(priv_ep); /* Cycle Bit must be updated before arming DMA. */ dmb(); writel(EP_CMD_DRDY, &priv_dev->regs->ep_cmd); __cdns3_gadget_wakeup(priv_dev); trace_cdns3_doorbell_epx(priv_ep->name, readl(&priv_dev->regs->ep_traddr)); } } /** * cdns3_check_ep_interrupt_proceed - Processes interrupt related to endpoint * @priv_ep: endpoint object * * Returns 0 */ static int cdns3_check_ep_interrupt_proceed(struct cdns3_endpoint *priv_ep) { struct cdns3_device *priv_dev = priv_ep->cdns3_dev; u32 ep_sts_reg; #ifndef __UBOOT__ cdns3_select_ep(priv_dev, priv_ep->endpoint.address); #else cdns3_select_ep(priv_dev, priv_ep->endpoint.desc->bEndpointAddress); #endif trace_cdns3_epx_irq(priv_dev, priv_ep); ep_sts_reg = readl(&priv_dev->regs->ep_sts); writel(ep_sts_reg, &priv_dev->regs->ep_sts); if (ep_sts_reg & EP_STS_TRBERR) { if (priv_ep->flags & EP_STALL_PENDING && !(ep_sts_reg & EP_STS_DESCMIS && priv_dev->dev_ver < DEV_VER_V2)) { cdns3_ep_stall_flush(priv_ep); } /* * For isochronous transfer driver completes request on * IOC or on TRBERR. IOC appears only when device receive * OUT data packet. If host disable stream or lost some packet * then the only way to finish all queued transfer is to do it * on TRBERR event. */ if (priv_ep->type == USB_ENDPOINT_XFER_ISOC && !priv_ep->wa1_set) { if (!priv_ep->dir) { u32 ep_cfg = readl(&priv_dev->regs->ep_cfg); ep_cfg &= ~EP_CFG_ENABLE; writel(ep_cfg, &priv_dev->regs->ep_cfg); priv_ep->flags &= ~EP_QUIRK_ISO_OUT_EN; } cdns3_transfer_completed(priv_dev, priv_ep); } else if (!(priv_ep->flags & EP_STALLED) && !(priv_ep->flags & EP_STALL_PENDING)) { if (priv_ep->flags & EP_DEFERRED_DRDY) { priv_ep->flags &= ~EP_DEFERRED_DRDY; cdns3_start_all_request(priv_dev, priv_ep); } else { cdns3_rearm_transfer(priv_ep, priv_ep->wa1_set); } } } if ((ep_sts_reg & EP_STS_IOC) || (ep_sts_reg & EP_STS_ISP)) { if (priv_ep->flags & EP_QUIRK_EXTRA_BUF_EN) { if (ep_sts_reg & EP_STS_ISP) priv_ep->flags |= EP_QUIRK_END_TRANSFER; else priv_ep->flags &= ~EP_QUIRK_END_TRANSFER; } cdns3_transfer_completed(priv_dev, priv_ep); } /* * WA2: this condition should only be meet when * priv_ep->flags & EP_QUIRK_EXTRA_BUF_DET or * priv_ep->flags & EP_QUIRK_EXTRA_BUF_EN. * In other cases this interrupt will be disabled/ */ if (ep_sts_reg & EP_STS_DESCMIS && priv_dev->dev_ver < DEV_VER_V2 && !(priv_ep->flags & EP_STALLED)) cdns3_wa2_descmissing_packet(priv_ep); return 0; } static void cdns3_disconnect_gadget(struct cdns3_device *priv_dev) { if (priv_dev->gadget_driver && priv_dev->gadget_driver->disconnect) { spin_unlock(&priv_dev->lock); priv_dev->gadget_driver->disconnect(&priv_dev->gadget); spin_lock(&priv_dev->lock); } } /** * cdns3_check_usb_interrupt_proceed - Processes interrupt related to device * @priv_dev: extended gadget object * @usb_ists: bitmap representation of device's reported interrupts * (usb_ists register value) */ static void cdns3_check_usb_interrupt_proceed(struct cdns3_device *priv_dev, u32 usb_ists) { int speed = 0; trace_cdns3_usb_irq(priv_dev, usb_ists); if (usb_ists & USB_ISTS_L1ENTI) { /* * WORKAROUND: CDNS3 controller has issue with hardware resuming * from L1. To fix it, if any DMA transfer is pending driver * must starts driving resume signal immediately. */ if (readl(&priv_dev->regs->drbl)) __cdns3_gadget_wakeup(priv_dev); } /* Connection detected */ if (usb_ists & (USB_ISTS_CON2I | USB_ISTS_CONI)) { speed = cdns3_get_speed(priv_dev); priv_dev->gadget.speed = speed; usb_gadget_set_state(&priv_dev->gadget, USB_STATE_POWERED); cdns3_ep0_config(priv_dev); } /* Disconnection detected */ if (usb_ists & (USB_ISTS_DIS2I | USB_ISTS_DISI)) { cdns3_disconnect_gadget(priv_dev); priv_dev->gadget.speed = USB_SPEED_UNKNOWN; usb_gadget_set_state(&priv_dev->gadget, USB_STATE_NOTATTACHED); cdns3_hw_reset_eps_config(priv_dev); } if (usb_ists & (USB_ISTS_L2ENTI | USB_ISTS_U3ENTI)) { if (priv_dev->gadget_driver && priv_dev->gadget_driver->suspend) { spin_unlock(&priv_dev->lock); priv_dev->gadget_driver->suspend(&priv_dev->gadget); spin_lock(&priv_dev->lock); } } if (usb_ists & (USB_ISTS_L2EXTI | USB_ISTS_U3EXTI)) { if (priv_dev->gadget_driver && priv_dev->gadget_driver->resume) { spin_unlock(&priv_dev->lock); priv_dev->gadget_driver->resume(&priv_dev->gadget); spin_lock(&priv_dev->lock); } } /* reset*/ if (usb_ists & (USB_ISTS_UWRESI | USB_ISTS_UHRESI | USB_ISTS_U2RESI)) { if (priv_dev->gadget_driver) { spin_unlock(&priv_dev->lock); usb_gadget_udc_reset(&priv_dev->gadget, priv_dev->gadget_driver); spin_lock(&priv_dev->lock); /*read again to check the actual speed*/ speed = cdns3_get_speed(priv_dev); priv_dev->gadget.speed = speed; cdns3_hw_reset_eps_config(priv_dev); cdns3_ep0_config(priv_dev); } } } /** * cdns3_device_irq_handler- interrupt handler for device part of controller * * @irq: irq number for cdns3 core device * @data: structure of cdns3 * * Returns IRQ_HANDLED or IRQ_NONE */ static irqreturn_t cdns3_device_irq_handler(int irq, void *data) { struct cdns3_device *priv_dev; struct cdns3 *cdns = data; irqreturn_t ret = IRQ_NONE; u32 reg; priv_dev = cdns->gadget_dev; /* check USB device interrupt */ reg = readl(&priv_dev->regs->usb_ists); if (reg) { /* After masking interrupts the new interrupts won't be * reported in usb_ists/ep_ists. In order to not lose some * of them driver disables only detected interrupts. * They will be enabled ASAP after clearing source of * interrupt. This an unusual behavior only applies to * usb_ists register. */ reg = ~reg & readl(&priv_dev->regs->usb_ien); /* mask deferred interrupt. */ writel(reg, &priv_dev->regs->usb_ien); ret = IRQ_WAKE_THREAD; } /* check endpoint interrupt */ reg = readl(&priv_dev->regs->ep_ists); if (reg) { writel(0, &priv_dev->regs->ep_ien); ret = IRQ_WAKE_THREAD; } return ret; } /** * cdns3_device_thread_irq_handler- interrupt handler for device part * of controller * * @irq: irq number for cdns3 core device * @data: structure of cdns3 * * Returns IRQ_HANDLED or IRQ_NONE */ static irqreturn_t cdns3_device_thread_irq_handler(int irq, void *data) { struct cdns3_device *priv_dev; struct cdns3 *cdns = data; irqreturn_t ret = IRQ_NONE; unsigned long flags; int bit; u32 reg; priv_dev = cdns->gadget_dev; spin_lock_irqsave(&priv_dev->lock, flags); reg = readl(&priv_dev->regs->usb_ists); if (reg) { writel(reg, &priv_dev->regs->usb_ists); writel(USB_IEN_INIT, &priv_dev->regs->usb_ien); cdns3_check_usb_interrupt_proceed(priv_dev, reg); ret = IRQ_HANDLED; } reg = readl(&priv_dev->regs->ep_ists); /* handle default endpoint OUT */ if (reg & EP_ISTS_EP_OUT0) { cdns3_check_ep0_interrupt_proceed(priv_dev, USB_DIR_OUT); ret = IRQ_HANDLED; } /* handle default endpoint IN */ if (reg & EP_ISTS_EP_IN0) { cdns3_check_ep0_interrupt_proceed(priv_dev, USB_DIR_IN); ret = IRQ_HANDLED; } /* check if interrupt from non default endpoint, if no exit */ reg &= ~(EP_ISTS_EP_OUT0 | EP_ISTS_EP_IN0); if (!reg) goto irqend; for_each_set_bit(bit, (unsigned long *)®, sizeof(u32) * BITS_PER_BYTE) { cdns3_check_ep_interrupt_proceed(priv_dev->eps[bit]); ret = IRQ_HANDLED; } irqend: writel(~0, &priv_dev->regs->ep_ien); spin_unlock_irqrestore(&priv_dev->lock, flags); return ret; } /** * cdns3_ep_onchip_buffer_reserve - Try to reserve onchip buf for EP * * The real reservation will occur during write to EP_CFG register, * this function is used to check if the 'size' reservation is allowed. * * @priv_dev: extended gadget object * @size: the size (KB) for EP would like to allocate * @is_in: endpoint direction * * Return 0 if the required size can met or negative value on failure */ static int cdns3_ep_onchip_buffer_reserve(struct cdns3_device *priv_dev, int size, int is_in) { int remained; /* 2KB are reserved for EP0*/ remained = priv_dev->onchip_buffers - priv_dev->onchip_used_size - 2; if (is_in) { if (remained < size) return -EPERM; priv_dev->onchip_used_size += size; } else { int required; /** * ALL OUT EPs are shared the same chunk onchip memory, so * driver checks if it already has assigned enough buffers */ if (priv_dev->out_mem_is_allocated >= size) return 0; required = size - priv_dev->out_mem_is_allocated; if (required > remained) return -EPERM; priv_dev->out_mem_is_allocated += required; priv_dev->onchip_used_size += required; } return 0; } void cdns3_configure_dmult(struct cdns3_device *priv_dev, struct cdns3_endpoint *priv_ep) { struct cdns3_usb_regs __iomem *regs = priv_dev->regs; /* For dev_ver > DEV_VER_V2 DMULT is configured per endpoint */ if (priv_dev->dev_ver <= DEV_VER_V2) writel(USB_CONF_DMULT, ®s->usb_conf); if (priv_dev->dev_ver == DEV_VER_V2) writel(USB_CONF2_EN_TDL_TRB, ®s->usb_conf2); if (priv_dev->dev_ver >= DEV_VER_V3 && priv_ep) { u32 mask; if (priv_ep->dir) mask = BIT(priv_ep->num + 16); else mask = BIT(priv_ep->num); if (priv_ep->type != USB_ENDPOINT_XFER_ISOC) { cdns3_set_register_bit(®s->tdl_from_trb, mask); cdns3_set_register_bit(®s->tdl_beh, mask); cdns3_set_register_bit(®s->tdl_beh2, mask); cdns3_set_register_bit(®s->dma_adv_td, mask); } if (priv_ep->type == USB_ENDPOINT_XFER_ISOC && !priv_ep->dir) cdns3_set_register_bit(®s->tdl_from_trb, mask); cdns3_set_register_bit(®s->dtrans, mask); } } /** * cdns3_ep_config Configure hardware endpoint * @priv_ep: extended endpoint object */ void cdns3_ep_config(struct cdns3_endpoint *priv_ep) { bool is_iso_ep = (priv_ep->type == USB_ENDPOINT_XFER_ISOC); struct cdns3_device *priv_dev = priv_ep->cdns3_dev; u32 bEndpointAddress = priv_ep->num | priv_ep->dir; u32 max_packet_size = 0; u8 maxburst = 0; u32 ep_cfg = 0; u8 buffering; u8 mult = 0; int ret; buffering = CDNS3_EP_BUF_SIZE - 1; cdns3_configure_dmult(priv_dev, priv_ep); switch (priv_ep->type) { case USB_ENDPOINT_XFER_INT: ep_cfg = EP_CFG_EPTYPE(USB_ENDPOINT_XFER_INT); if ((priv_dev->dev_ver == DEV_VER_V2 && !priv_ep->dir) || priv_dev->dev_ver > DEV_VER_V2) ep_cfg |= EP_CFG_TDL_CHK; break; case USB_ENDPOINT_XFER_BULK: ep_cfg = EP_CFG_EPTYPE(USB_ENDPOINT_XFER_BULK); if ((priv_dev->dev_ver == DEV_VER_V2 && !priv_ep->dir) || priv_dev->dev_ver > DEV_VER_V2) ep_cfg |= EP_CFG_TDL_CHK; break; default: ep_cfg = EP_CFG_EPTYPE(USB_ENDPOINT_XFER_ISOC); mult = CDNS3_EP_ISO_HS_MULT - 1; buffering = mult + 1; } switch (priv_dev->gadget.speed) { case USB_SPEED_FULL: max_packet_size = is_iso_ep ? 1023 : 64; break; case USB_SPEED_HIGH: max_packet_size = is_iso_ep ? 1024 : 512; break; case USB_SPEED_SUPER: /* It's limitation that driver assumes in driver. */ mult = 0; max_packet_size = 1024; if (priv_ep->type == USB_ENDPOINT_XFER_ISOC) { maxburst = CDNS3_EP_ISO_SS_BURST - 1; buffering = (mult + 1) * (maxburst + 1); if (priv_ep->interval > 1) buffering++; } else { maxburst = CDNS3_EP_BUF_SIZE - 1; } break; default: /* all other speed are not supported */ return; } if (max_packet_size == 1024) priv_ep->trb_burst_size = 128; else if (max_packet_size >= 512) priv_ep->trb_burst_size = 64; else priv_ep->trb_burst_size = 16; ret = cdns3_ep_onchip_buffer_reserve(priv_dev, buffering + 1, !!priv_ep->dir); if (ret) { dev_err(priv_dev->dev, "onchip mem is full, ep is invalid\n"); return; } ep_cfg |= EP_CFG_MAXPKTSIZE(max_packet_size) | EP_CFG_MULT(mult) | EP_CFG_BUFFERING(buffering) | EP_CFG_MAXBURST(maxburst); cdns3_select_ep(priv_dev, bEndpointAddress); writel(ep_cfg, &priv_dev->regs->ep_cfg); dev_dbg(priv_dev->dev, "Configure %s: with val %08x\n", priv_ep->name, ep_cfg); } /* Find correct direction for HW endpoint according to description */ static int cdns3_ep_dir_is_correct(struct usb_endpoint_descriptor *desc, struct cdns3_endpoint *priv_ep) { return (priv_ep->endpoint.caps.dir_in && usb_endpoint_dir_in(desc)) || (priv_ep->endpoint.caps.dir_out && usb_endpoint_dir_out(desc)); } static struct cdns3_endpoint *cdns3_find_available_ep(struct cdns3_device *priv_dev, struct usb_endpoint_descriptor *desc) { struct usb_ep *ep; struct cdns3_endpoint *priv_ep; list_for_each_entry(ep, &priv_dev->gadget.ep_list, ep_list) { unsigned long num; /* ep name pattern likes epXin or epXout */ char c[2] = {ep->name[2], '\0'}; num = dectoul(c, NULL); priv_ep = ep_to_cdns3_ep(ep); if (cdns3_ep_dir_is_correct(desc, priv_ep)) { if (!(priv_ep->flags & EP_CLAIMED)) { priv_ep->num = num; return priv_ep; } } } return ERR_PTR(-ENOENT); } /* * Cadence IP has one limitation that all endpoints must be configured * (Type & MaxPacketSize) before setting configuration through hardware * register, it means we can't change endpoints configuration after * set_configuration. * * This function set EP_CLAIMED flag which is added when the gadget driver * uses usb_ep_autoconfig to configure specific endpoint; * When the udc driver receives set_configurion request, * it goes through all claimed endpoints, and configure all endpoints * accordingly. * * At usb_ep_ops.enable/disable, we only enable and disable endpoint through * ep_cfg register which can be changed after set_configuration, and do * some software operation accordingly. */ static struct usb_ep *cdns3_gadget_match_ep(struct usb_gadget *gadget, struct usb_endpoint_descriptor *desc, struct usb_ss_ep_comp_descriptor *comp_desc) { struct cdns3_device *priv_dev = gadget_to_cdns3_device(gadget); struct cdns3_endpoint *priv_ep; unsigned long flags; priv_ep = cdns3_find_available_ep(priv_dev, desc); if (IS_ERR(priv_ep)) { dev_err(priv_dev->dev, "no available ep\n"); return NULL; } dev_dbg(priv_dev->dev, "match endpoint: %s\n", priv_ep->name); spin_lock_irqsave(&priv_dev->lock, flags); priv_ep->endpoint.desc = desc; priv_ep->dir = usb_endpoint_dir_in(desc) ? USB_DIR_IN : USB_DIR_OUT; priv_ep->type = usb_endpoint_type(desc); priv_ep->flags |= EP_CLAIMED; priv_ep->interval = desc->bInterval ? BIT(desc->bInterval - 1) : 0; spin_unlock_irqrestore(&priv_dev->lock, flags); return &priv_ep->endpoint; } /** * cdns3_gadget_ep_alloc_request Allocates request * @ep: endpoint object associated with request * @gfp_flags: gfp flags * * Returns allocated request address, NULL on allocation error */ struct usb_request *cdns3_gadget_ep_alloc_request(struct usb_ep *ep, gfp_t gfp_flags) { struct cdns3_endpoint *priv_ep = ep_to_cdns3_ep(ep); struct cdns3_request *priv_req; priv_req = kzalloc(sizeof(*priv_req), gfp_flags); if (!priv_req) return NULL; priv_req->priv_ep = priv_ep; trace_cdns3_alloc_request(priv_req); return &priv_req->request; } /** * cdns3_gadget_ep_free_request Free memory occupied by request * @ep: endpoint object associated with request * @request: request to free memory */ void cdns3_gadget_ep_free_request(struct usb_ep *ep, struct usb_request *request) { struct cdns3_request *priv_req = to_cdns3_request(request); if (priv_req->aligned_buf) priv_req->aligned_buf->in_use = 0; trace_cdns3_free_request(priv_req); kfree(priv_req); } /** * cdns3_gadget_ep_enable Enable endpoint * @ep: endpoint object * @desc: endpoint descriptor * * Returns 0 on success, error code elsewhere */ static int cdns3_gadget_ep_enable(struct usb_ep *ep, const struct usb_endpoint_descriptor *desc) { struct cdns3_endpoint *priv_ep; struct cdns3_device *priv_dev; u32 reg = EP_STS_EN_TRBERREN; u32 bEndpointAddress; unsigned long flags; int enable = 1; int ret; int val; priv_ep = ep_to_cdns3_ep(ep); priv_dev = priv_ep->cdns3_dev; if (!ep || !desc || desc->bDescriptorType != USB_DT_ENDPOINT) { dev_dbg(priv_dev->dev, "usbss: invalid parameters\n"); return -EINVAL; } if (!desc->wMaxPacketSize) { dev_err(priv_dev->dev, "usbss: missing wMaxPacketSize\n"); return -EINVAL; } if (WARN_ON(priv_ep->flags & EP_ENABLED)) return 0; spin_lock_irqsave(&priv_dev->lock, flags); priv_ep->endpoint.desc = desc; priv_ep->type = usb_endpoint_type(desc); priv_ep->interval = desc->bInterval ? BIT(desc->bInterval - 1) : 0; if (priv_ep->interval > ISO_MAX_INTERVAL && priv_ep->type == USB_ENDPOINT_XFER_ISOC) { dev_err(priv_dev->dev, "Driver is limited to %d period\n", ISO_MAX_INTERVAL); ret = -EINVAL; goto exit; } ret = cdns3_allocate_trb_pool(priv_ep); if (ret) goto exit; bEndpointAddress = priv_ep->num | priv_ep->dir; cdns3_select_ep(priv_dev, bEndpointAddress); trace_cdns3_gadget_ep_enable(priv_ep); writel(EP_CMD_EPRST, &priv_dev->regs->ep_cmd); ret = readl_poll_timeout_atomic(&priv_dev->regs->ep_cmd, val, !(val & (EP_CMD_CSTALL | EP_CMD_EPRST)), 1000); if (unlikely(ret)) { cdns3_free_trb_pool(priv_ep); ret = -EINVAL; goto exit; } /* enable interrupt for selected endpoint */ cdns3_set_register_bit(&priv_dev->regs->ep_ien, BIT(cdns3_ep_addr_to_index(bEndpointAddress))); if (priv_dev->dev_ver < DEV_VER_V2) cdns3_wa2_enable_detection(priv_dev, priv_ep, reg); writel(reg, &priv_dev->regs->ep_sts_en); /* * For some versions of controller at some point during ISO OUT traffic * DMA reads Transfer Ring for the EP which has never got doorbell. * This issue was detected only on simulation, but to avoid this issue * driver add protection against it. To fix it driver enable ISO OUT * endpoint before setting DRBL. This special treatment of ISO OUT * endpoints are recommended by controller specification. */ if (priv_ep->type == USB_ENDPOINT_XFER_ISOC && !priv_ep->dir) enable = 0; if (enable) cdns3_set_register_bit(&priv_dev->regs->ep_cfg, EP_CFG_ENABLE); ep->desc = desc; priv_ep->flags &= ~(EP_PENDING_REQUEST | EP_STALLED | EP_STALL_PENDING | EP_QUIRK_ISO_OUT_EN | EP_QUIRK_EXTRA_BUF_EN); priv_ep->flags |= EP_ENABLED | EP_UPDATE_EP_TRBADDR; priv_ep->wa1_set = 0; priv_ep->enqueue = 0; priv_ep->dequeue = 0; reg = readl(&priv_dev->regs->ep_sts); priv_ep->pcs = !!EP_STS_CCS(reg); priv_ep->ccs = !!EP_STS_CCS(reg); /* one TRB is reserved for link TRB used in DMULT mode*/ priv_ep->free_trbs = priv_ep->num_trbs - 1; exit: spin_unlock_irqrestore(&priv_dev->lock, flags); return ret; } /** * cdns3_gadget_ep_disable Disable endpoint * @ep: endpoint object * * Returns 0 on success, error code elsewhere */ static int cdns3_gadget_ep_disable(struct usb_ep *ep) { struct cdns3_endpoint *priv_ep; struct cdns3_request *priv_req; struct cdns3_device *priv_dev; struct usb_request *request; unsigned long flags; int ret = 0; u32 ep_cfg; int val; if (!ep) { pr_err("usbss: invalid parameters\n"); return -EINVAL; } priv_ep = ep_to_cdns3_ep(ep); priv_dev = priv_ep->cdns3_dev; if (WARN_ON(!(priv_ep->flags & EP_ENABLED))) return 0; spin_lock_irqsave(&priv_dev->lock, flags); trace_cdns3_gadget_ep_disable(priv_ep); cdns3_select_ep(priv_dev, ep->desc->bEndpointAddress); ep_cfg = readl(&priv_dev->regs->ep_cfg); ep_cfg &= ~EP_CFG_ENABLE; writel(ep_cfg, &priv_dev->regs->ep_cfg); /** * Driver needs some time before resetting endpoint. * It need waits for clearing DBUSY bit or for timeout expired. * 10us is enough time for controller to stop transfer. */ readl_poll_timeout_atomic(&priv_dev->regs->ep_sts, val, !(val & EP_STS_DBUSY), 10); writel(EP_CMD_EPRST, &priv_dev->regs->ep_cmd); readl_poll_timeout_atomic(&priv_dev->regs->ep_cmd, val, !(val & (EP_CMD_CSTALL | EP_CMD_EPRST)), 1000); if (unlikely(ret)) dev_err(priv_dev->dev, "Timeout: %s resetting failed.\n", priv_ep->name); while (!list_empty(&priv_ep->pending_req_list)) { request = cdns3_next_request(&priv_ep->pending_req_list); cdns3_gadget_giveback(priv_ep, to_cdns3_request(request), -ESHUTDOWN); } while (!list_empty(&priv_ep->wa2_descmiss_req_list)) { priv_req = cdns3_next_priv_request(&priv_ep->wa2_descmiss_req_list); kfree(priv_req->request.buf); cdns3_gadget_ep_free_request(&priv_ep->endpoint, &priv_req->request); list_del_init(&priv_req->list); --priv_ep->wa2_counter; } while (!list_empty(&priv_ep->deferred_req_list)) { request = cdns3_next_request(&priv_ep->deferred_req_list); cdns3_gadget_giveback(priv_ep, to_cdns3_request(request), -ESHUTDOWN); } priv_ep->descmis_req = NULL; ep->desc = NULL; priv_ep->flags &= ~EP_ENABLED; spin_unlock_irqrestore(&priv_dev->lock, flags); return ret; } /** * cdns3_gadget_ep_queue Transfer data on endpoint * @ep: endpoint object * @request: request object * @gfp_flags: gfp flags * * Returns 0 on success, error code elsewhere */ static int __cdns3_gadget_ep_queue(struct usb_ep *ep, struct usb_request *request, gfp_t gfp_flags) { struct cdns3_endpoint *priv_ep = ep_to_cdns3_ep(ep); struct cdns3_device *priv_dev = priv_ep->cdns3_dev; struct cdns3_request *priv_req; int ret = 0; request->actual = 0; request->status = -EINPROGRESS; priv_req = to_cdns3_request(request); trace_cdns3_ep_queue(priv_req); if (priv_dev->dev_ver < DEV_VER_V2) { ret = cdns3_wa2_gadget_ep_queue(priv_dev, priv_ep, priv_req); if (ret == EINPROGRESS) return 0; } ret = cdns3_prepare_aligned_request_buf(priv_req); if (ret < 0) return ret; ret = usb_gadget_map_request(&priv_dev->gadget, request, usb_endpoint_dir_in(ep->desc)); if (ret) return ret; list_add_tail(&request->list, &priv_ep->deferred_req_list); /* * If hardware endpoint configuration has not been set yet then * just queue request in deferred list. Transfer will be started in * cdns3_set_hw_configuration. */ if (priv_dev->hw_configured_flag && !(priv_ep->flags & EP_STALLED) && !(priv_ep->flags & EP_STALL_PENDING)) cdns3_start_all_request(priv_dev, priv_ep); return 0; } static int cdns3_gadget_ep_queue(struct usb_ep *ep, struct usb_request *request, gfp_t gfp_flags) { struct usb_request *zlp_request; struct cdns3_endpoint *priv_ep; struct cdns3_device *priv_dev; unsigned long flags; int ret; if (!request || !ep) return -EINVAL; priv_ep = ep_to_cdns3_ep(ep); priv_dev = priv_ep->cdns3_dev; spin_lock_irqsave(&priv_dev->lock, flags); ret = __cdns3_gadget_ep_queue(ep, request, gfp_flags); if (ret == 0 && request->zero && request->length && (request->length % ep->maxpacket == 0)) { struct cdns3_request *priv_req; zlp_request = cdns3_gadget_ep_alloc_request(ep, GFP_ATOMIC); zlp_request->buf = priv_dev->zlp_buf; zlp_request->length = 0; priv_req = to_cdns3_request(zlp_request); priv_req->flags |= REQUEST_ZLP; dev_dbg(priv_dev->dev, "Queuing ZLP for endpoint: %s\n", priv_ep->name); ret = __cdns3_gadget_ep_queue(ep, zlp_request, gfp_flags); } spin_unlock_irqrestore(&priv_dev->lock, flags); return ret; } /** * cdns3_gadget_ep_dequeue Remove request from transfer queue * @ep: endpoint object associated with request * @request: request object * * Returns 0 on success, error code elsewhere */ int cdns3_gadget_ep_dequeue(struct usb_ep *ep, struct usb_request *request) { struct cdns3_endpoint *priv_ep = ep_to_cdns3_ep(ep); struct cdns3_device *priv_dev = priv_ep->cdns3_dev; struct usb_request *req, *req_temp; struct cdns3_request *priv_req; struct cdns3_trb *link_trb; unsigned long flags; int ret = 0; if (!ep || !request || !ep->desc) return -EINVAL; spin_lock_irqsave(&priv_dev->lock, flags); priv_req = to_cdns3_request(request); trace_cdns3_ep_dequeue(priv_req); cdns3_select_ep(priv_dev, ep->desc->bEndpointAddress); list_for_each_entry_safe(req, req_temp, &priv_ep->pending_req_list, list) { if (request == req) goto found; } list_for_each_entry_safe(req, req_temp, &priv_ep->deferred_req_list, list) { if (request == req) goto found; } goto not_found; found: if (priv_ep->wa1_trb == priv_req->trb) cdns3_wa1_restore_cycle_bit(priv_ep); link_trb = priv_req->trb; cdns3_move_deq_to_next_trb(priv_req); cdns3_gadget_giveback(priv_ep, priv_req, -ECONNRESET); /* Update ring */ request = cdns3_next_request(&priv_ep->deferred_req_list); if (request) { priv_req = to_cdns3_request(request); link_trb->buffer = TRB_BUFFER(priv_ep->trb_pool_dma + (priv_req->start_trb * TRB_SIZE)); link_trb->control = (link_trb->control & TRB_CYCLE) | TRB_TYPE(TRB_LINK) | TRB_CHAIN | TRB_TOGGLE; } else { priv_ep->flags |= EP_UPDATE_EP_TRBADDR; } not_found: spin_unlock_irqrestore(&priv_dev->lock, flags); return ret; } /** * __cdns3_gadget_ep_set_halt Sets stall on selected endpoint * Should be called after acquiring spin_lock and selecting ep * @ep: endpoint object to set stall on. */ void __cdns3_gadget_ep_set_halt(struct cdns3_endpoint *priv_ep) { struct cdns3_device *priv_dev = priv_ep->cdns3_dev; trace_cdns3_halt(priv_ep, 1, 0); if (!(priv_ep->flags & EP_STALLED)) { u32 ep_sts_reg = readl(&priv_dev->regs->ep_sts); if (!(ep_sts_reg & EP_STS_DBUSY)) cdns3_ep_stall_flush(priv_ep); else priv_ep->flags |= EP_STALL_PENDING; } } /** * __cdns3_gadget_ep_clear_halt Clears stall on selected endpoint * Should be called after acquiring spin_lock and selecting ep * @ep: endpoint object to clear stall on */ int __cdns3_gadget_ep_clear_halt(struct cdns3_endpoint *priv_ep) { struct cdns3_device *priv_dev = priv_ep->cdns3_dev; struct usb_request *request; int ret = 0; int val; trace_cdns3_halt(priv_ep, 0, 0); writel(EP_CMD_CSTALL | EP_CMD_EPRST, &priv_dev->regs->ep_cmd); /* wait for EPRST cleared */ readl_poll_timeout_atomic(&priv_dev->regs->ep_cmd, val, !(val & EP_CMD_EPRST), 100); if (ret) return -EINVAL; priv_ep->flags &= ~(EP_STALLED | EP_STALL_PENDING); request = cdns3_next_request(&priv_ep->pending_req_list); if (request) cdns3_rearm_transfer(priv_ep, 1); cdns3_start_all_request(priv_dev, priv_ep); return ret; } /** * cdns3_gadget_ep_set_halt Sets/clears stall on selected endpoint * @ep: endpoint object to set/clear stall on * @value: 1 for set stall, 0 for clear stall * * Returns 0 on success, error code elsewhere */ int cdns3_gadget_ep_set_halt(struct usb_ep *ep, int value) { struct cdns3_endpoint *priv_ep = ep_to_cdns3_ep(ep); struct cdns3_device *priv_dev = priv_ep->cdns3_dev; unsigned long flags; int ret = 0; if (!(priv_ep->flags & EP_ENABLED)) return -EPERM; spin_lock_irqsave(&priv_dev->lock, flags); cdns3_select_ep(priv_dev, ep->desc->bEndpointAddress); if (!value) { priv_ep->flags &= ~EP_WEDGE; ret = __cdns3_gadget_ep_clear_halt(priv_ep); } else { __cdns3_gadget_ep_set_halt(priv_ep); } spin_unlock_irqrestore(&priv_dev->lock, flags); return ret; } extern const struct usb_ep_ops cdns3_gadget_ep0_ops; static const struct usb_ep_ops cdns3_gadget_ep_ops = { .enable = cdns3_gadget_ep_enable, .disable = cdns3_gadget_ep_disable, .alloc_request = cdns3_gadget_ep_alloc_request, .free_request = cdns3_gadget_ep_free_request, .queue = cdns3_gadget_ep_queue, .dequeue = cdns3_gadget_ep_dequeue, .set_halt = cdns3_gadget_ep_set_halt, .set_wedge = cdns3_gadget_ep_set_wedge, }; /** * cdns3_gadget_get_frame Returns number of actual ITP frame * @gadget: gadget object * * Returns number of actual ITP frame */ static int cdns3_gadget_get_frame(struct usb_gadget *gadget) { struct cdns3_device *priv_dev = gadget_to_cdns3_device(gadget); return readl(&priv_dev->regs->usb_itpn); } int __cdns3_gadget_wakeup(struct cdns3_device *priv_dev) { enum usb_device_speed speed; speed = cdns3_get_speed(priv_dev); if (speed >= USB_SPEED_SUPER) return 0; /* Start driving resume signaling to indicate remote wakeup. */ writel(USB_CONF_LGO_L0, &priv_dev->regs->usb_conf); return 0; } static int cdns3_gadget_wakeup(struct usb_gadget *gadget) { struct cdns3_device *priv_dev = gadget_to_cdns3_device(gadget); unsigned long flags; int ret = 0; spin_lock_irqsave(&priv_dev->lock, flags); ret = __cdns3_gadget_wakeup(priv_dev); spin_unlock_irqrestore(&priv_dev->lock, flags); return ret; } static int cdns3_gadget_set_selfpowered(struct usb_gadget *gadget, int is_selfpowered) { struct cdns3_device *priv_dev = gadget_to_cdns3_device(gadget); unsigned long flags; spin_lock_irqsave(&priv_dev->lock, flags); priv_dev->is_selfpowered = !!is_selfpowered; spin_unlock_irqrestore(&priv_dev->lock, flags); return 0; } static int cdns3_gadget_pullup(struct usb_gadget *gadget, int is_on) { struct cdns3_device *priv_dev = gadget_to_cdns3_device(gadget); if (is_on) writel(USB_CONF_DEVEN, &priv_dev->regs->usb_conf); else writel(USB_CONF_DEVDS, &priv_dev->regs->usb_conf); return 0; } static void cdns3_gadget_config(struct cdns3_device *priv_dev) { struct cdns3_usb_regs __iomem *regs = priv_dev->regs; u32 reg; cdns3_ep0_config(priv_dev); /* enable interrupts for endpoint 0 (in and out) */ writel(EP_IEN_EP_OUT0 | EP_IEN_EP_IN0, ®s->ep_ien); /* * Driver needs to modify LFPS minimal U1 Exit time for DEV_VER_TI_V1 * revision of controller. */ if (priv_dev->dev_ver == DEV_VER_TI_V1) { reg = readl(®s->dbg_link1); reg &= ~DBG_LINK1_LFPS_MIN_GEN_U1_EXIT_MASK; reg |= DBG_LINK1_LFPS_MIN_GEN_U1_EXIT(0x55) | DBG_LINK1_LFPS_MIN_GEN_U1_EXIT_SET; writel(reg, ®s->dbg_link1); } /* * By default some platforms has set protected access to memory. * This cause problem with cache, so driver restore non-secure * access to memory. */ reg = readl(®s->dma_axi_ctrl); reg |= DMA_AXI_CTRL_MARPROT(DMA_AXI_CTRL_NON_SECURE) | DMA_AXI_CTRL_MAWPROT(DMA_AXI_CTRL_NON_SECURE); writel(reg, ®s->dma_axi_ctrl); /* enable generic interrupt*/ writel(USB_IEN_INIT, ®s->usb_ien); writel(USB_CONF_CLK2OFFDS | USB_CONF_L1DS, ®s->usb_conf); cdns3_configure_dmult(priv_dev, NULL); cdns3_gadget_pullup(&priv_dev->gadget, 1); } /** * cdns3_gadget_udc_start Gadget start * @gadget: gadget object * @driver: driver which operates on this gadget * * Returns 0 on success, error code elsewhere */ static int cdns3_gadget_udc_start(struct usb_gadget *gadget, struct usb_gadget_driver *driver) { struct cdns3_device *priv_dev = gadget_to_cdns3_device(gadget); unsigned long flags; spin_lock_irqsave(&priv_dev->lock, flags); priv_dev->gadget_driver = driver; cdns3_gadget_udc_set_speed(gadget, gadget->max_speed); cdns3_gadget_config(priv_dev); spin_unlock_irqrestore(&priv_dev->lock, flags); return 0; } /** * cdns3_gadget_udc_stop Stops gadget * @gadget: gadget object * * Returns 0 */ static int cdns3_gadget_udc_stop(struct usb_gadget *gadget) { struct cdns3_device *priv_dev = gadget_to_cdns3_device(gadget); struct cdns3_endpoint *priv_ep; u32 bEndpointAddress; struct usb_ep *ep; int ret = 0; int val; priv_dev->gadget_driver = NULL; priv_dev->onchip_used_size = 0; priv_dev->out_mem_is_allocated = 0; priv_dev->gadget.speed = USB_SPEED_UNKNOWN; list_for_each_entry(ep, &priv_dev->gadget.ep_list, ep_list) { priv_ep = ep_to_cdns3_ep(ep); bEndpointAddress = priv_ep->num | priv_ep->dir; cdns3_select_ep(priv_dev, bEndpointAddress); writel(EP_CMD_EPRST, &priv_dev->regs->ep_cmd); readl_poll_timeout_atomic(&priv_dev->regs->ep_cmd, val, !(val & EP_CMD_EPRST), 100); } /* disable interrupt for device */ writel(0, &priv_dev->regs->usb_ien); writel(USB_CONF_DEVDS, &priv_dev->regs->usb_conf); return ret; } static void cdns3_gadget_udc_set_speed(struct usb_gadget *gadget, enum usb_device_speed speed) { struct cdns3_device *priv_dev = gadget_to_cdns3_device(gadget); switch (speed) { case USB_SPEED_FULL: writel(USB_CONF_SFORCE_FS, &priv_dev->regs->usb_conf); writel(USB_CONF_USB3DIS, &priv_dev->regs->usb_conf); break; case USB_SPEED_HIGH: writel(USB_CONF_USB3DIS, &priv_dev->regs->usb_conf); break; case USB_SPEED_SUPER: break; default: dev_err(priv_dev->dev, "invalid speed parameter %d\n", speed); } priv_dev->gadget.speed = speed; } static const struct usb_gadget_ops cdns3_gadget_ops = { .get_frame = cdns3_gadget_get_frame, .wakeup = cdns3_gadget_wakeup, .set_selfpowered = cdns3_gadget_set_selfpowered, .pullup = cdns3_gadget_pullup, .udc_start = cdns3_gadget_udc_start, .udc_stop = cdns3_gadget_udc_stop, .match_ep = cdns3_gadget_match_ep, .udc_set_speed = cdns3_gadget_udc_set_speed, }; static void cdns3_free_all_eps(struct cdns3_device *priv_dev) { int i; /* ep0 OUT point to ep0 IN. */ priv_dev->eps[16] = NULL; for (i = 0; i < CDNS3_ENDPOINTS_MAX_COUNT; i++) if (priv_dev->eps[i]) { cdns3_free_trb_pool(priv_dev->eps[i]); devm_kfree(priv_dev->dev, priv_dev->eps[i]); } } /** * cdns3_init_eps Initializes software endpoints of gadget * @cdns3: extended gadget object * * Returns 0 on success, error code elsewhere */ static int cdns3_init_eps(struct cdns3_device *priv_dev) { u32 ep_enabled_reg, iso_ep_reg; struct cdns3_endpoint *priv_ep; int ep_dir, ep_number; u32 ep_mask; int ret = 0; int i; /* Read it from USB_CAP3 to USB_CAP5 */ ep_enabled_reg = readl(&priv_dev->regs->usb_cap3); iso_ep_reg = readl(&priv_dev->regs->usb_cap4); dev_dbg(priv_dev->dev, "Initializing non-zero endpoints\n"); for (i = 0; i < CDNS3_ENDPOINTS_MAX_COUNT; i++) { ep_dir = i >> 4; /* i div 16 */ ep_number = i & 0xF; /* i % 16 */ ep_mask = BIT(i); if (!(ep_enabled_reg & ep_mask)) continue; if (ep_dir && !ep_number) { priv_dev->eps[i] = priv_dev->eps[0]; continue; } priv_ep = devm_kzalloc(priv_dev->dev, sizeof(*priv_ep), GFP_KERNEL); if (!priv_ep) { ret = -ENOMEM; goto err; } /* set parent of endpoint object */ priv_ep->cdns3_dev = priv_dev; priv_dev->eps[i] = priv_ep; priv_ep->num = ep_number; priv_ep->dir = ep_dir ? USB_DIR_IN : USB_DIR_OUT; if (!ep_number) { ret = cdns3_init_ep0(priv_dev, priv_ep); if (ret) { dev_err(priv_dev->dev, "Failed to init ep0\n"); goto err; } } else { snprintf(priv_ep->name, sizeof(priv_ep->name), "ep%d%s", ep_number, !!ep_dir ? "in" : "out"); priv_ep->endpoint.name = priv_ep->name; usb_ep_set_maxpacket_limit(&priv_ep->endpoint, CDNS3_EP_MAX_PACKET_LIMIT); priv_ep->endpoint.max_streams = CDNS3_EP_MAX_STREAMS; priv_ep->endpoint.ops = &cdns3_gadget_ep_ops; if (ep_dir) priv_ep->endpoint.caps.dir_in = 1; else priv_ep->endpoint.caps.dir_out = 1; if (iso_ep_reg & ep_mask) priv_ep->endpoint.caps.type_iso = 1; priv_ep->endpoint.caps.type_bulk = 1; priv_ep->endpoint.caps.type_int = 1; list_add_tail(&priv_ep->endpoint.ep_list, &priv_dev->gadget.ep_list); } priv_ep->flags = 0; dev_info(priv_dev->dev, "Initialized %s support: %s %s\n", priv_ep->name, priv_ep->endpoint.caps.type_bulk ? "BULK, INT" : "", priv_ep->endpoint.caps.type_iso ? "ISO" : ""); INIT_LIST_HEAD(&priv_ep->pending_req_list); INIT_LIST_HEAD(&priv_ep->deferred_req_list); INIT_LIST_HEAD(&priv_ep->wa2_descmiss_req_list); } return 0; err: cdns3_free_all_eps(priv_dev); return -ENOMEM; } void cdns3_gadget_exit(struct cdns3 *cdns) { struct cdns3_device *priv_dev; priv_dev = cdns->gadget_dev; usb_del_gadget_udc(&priv_dev->gadget); cdns3_free_all_eps(priv_dev); while (!list_empty(&priv_dev->aligned_buf_list)) { struct cdns3_aligned_buf *buf; buf = cdns3_next_align_buf(&priv_dev->aligned_buf_list); dma_free_coherent(buf->buf); list_del(&buf->list); kfree(buf); } dma_free_coherent(priv_dev->setup_buf); kfree(priv_dev->zlp_buf); kfree(priv_dev); cdns->gadget_dev = NULL; cdns3_drd_switch_gadget(cdns, 0); } static int cdns3_gadget_start(struct cdns3 *cdns) { struct cdns3_device *priv_dev; u32 max_speed; int ret; priv_dev = kzalloc(sizeof(*priv_dev), GFP_KERNEL); if (!priv_dev) return -ENOMEM; cdns->gadget_dev = priv_dev; priv_dev->sysdev = cdns->dev; priv_dev->dev = cdns->dev; priv_dev->regs = cdns->dev_regs; dev_read_u32(priv_dev->dev, "cdns,on-chip-buff-size", &priv_dev->onchip_buffers); if (priv_dev->onchip_buffers <= 0) { u32 reg = readl(&priv_dev->regs->usb_cap2); priv_dev->onchip_buffers = USB_CAP2_ACTUAL_MEM_SIZE(reg); } if (!priv_dev->onchip_buffers) priv_dev->onchip_buffers = 256; max_speed = usb_get_maximum_speed(dev_ofnode(cdns->dev)); /* Check the maximum_speed parameter */ switch (max_speed) { case USB_SPEED_FULL: /* fall through */ case USB_SPEED_HIGH: /* fall through */ case USB_SPEED_SUPER: break; default: dev_err(cdns->dev, "invalid maximum_speed parameter %d\n", max_speed); /* fall through */ case USB_SPEED_UNKNOWN: /* default to superspeed */ max_speed = USB_SPEED_SUPER; break; } /* fill gadget fields */ priv_dev->gadget.max_speed = max_speed; priv_dev->gadget.speed = USB_SPEED_UNKNOWN; priv_dev->gadget.ops = &cdns3_gadget_ops; priv_dev->gadget.name = "cdns3-gadget"; #ifndef __UBOOT__ priv_dev->gadget.name = "usb-ss-gadget"; priv_dev->gadget.sg_supported = 1; priv_dev->gadget.quirk_avoids_skb_reserve = 1; #endif spin_lock_init(&priv_dev->lock); INIT_WORK(&priv_dev->pending_status_wq, cdns3_pending_setup_status_handler); /* initialize endpoint container */ INIT_LIST_HEAD(&priv_dev->gadget.ep_list); INIT_LIST_HEAD(&priv_dev->aligned_buf_list); ret = cdns3_init_eps(priv_dev); if (ret) { dev_err(priv_dev->dev, "Failed to create endpoints\n"); goto err1; } /* allocate memory for setup packet buffer */ priv_dev->setup_buf = dma_alloc_coherent(8, (unsigned long *)&priv_dev->setup_dma); if (!priv_dev->setup_buf) { ret = -ENOMEM; goto err2; } priv_dev->dev_ver = readl(&priv_dev->regs->usb_cap6); dev_dbg(priv_dev->dev, "Device Controller version: %08x\n", readl(&priv_dev->regs->usb_cap6)); dev_dbg(priv_dev->dev, "USB Capabilities:: %08x\n", readl(&priv_dev->regs->usb_cap1)); dev_dbg(priv_dev->dev, "On-Chip memory cnfiguration: %08x\n", readl(&priv_dev->regs->usb_cap2)); priv_dev->dev_ver = GET_DEV_BASE_VERSION(priv_dev->dev_ver); priv_dev->zlp_buf = kzalloc(CDNS3_EP_ZLP_BUF_SIZE, GFP_KERNEL); if (!priv_dev->zlp_buf) { ret = -ENOMEM; goto err3; } /* add USB gadget device */ ret = usb_add_gadget_udc((struct device *)priv_dev->dev, &priv_dev->gadget); if (ret < 0) { dev_err(priv_dev->dev, "Failed to register USB device controller\n"); goto err4; } return 0; err4: kfree(priv_dev->zlp_buf); err3: dma_free_coherent(priv_dev->setup_buf); err2: cdns3_free_all_eps(priv_dev); err1: cdns->gadget_dev = NULL; return ret; } static int __cdns3_gadget_init(struct cdns3 *cdns) { int ret = 0; cdns3_drd_switch_gadget(cdns, 1); ret = cdns3_gadget_start(cdns); if (ret) return ret; return 0; } static int cdns3_gadget_suspend(struct cdns3 *cdns, bool do_wakeup) { struct cdns3_device *priv_dev = cdns->gadget_dev; cdns3_disconnect_gadget(priv_dev); priv_dev->gadget.speed = USB_SPEED_UNKNOWN; usb_gadget_set_state(&priv_dev->gadget, USB_STATE_NOTATTACHED); cdns3_hw_reset_eps_config(priv_dev); /* disable interrupt for device */ writel(0, &priv_dev->regs->usb_ien); cdns3_gadget_pullup(&priv_dev->gadget, 0); return 0; } static int cdns3_gadget_resume(struct cdns3 *cdns, bool hibernated) { struct cdns3_device *priv_dev = cdns->gadget_dev; if (!priv_dev->gadget_driver) return 0; cdns3_gadget_config(priv_dev); return 0; } /** * cdns3_gadget_init - initialize device structure * * cdns: cdns3 instance * * This function initializes the gadget. */ int cdns3_gadget_init(struct cdns3 *cdns) { struct cdns3_role_driver *rdrv; rdrv = devm_kzalloc(cdns->dev, sizeof(*rdrv), GFP_KERNEL); if (!rdrv) return -ENOMEM; rdrv->start = __cdns3_gadget_init; rdrv->stop = cdns3_gadget_exit; rdrv->suspend = cdns3_gadget_suspend; rdrv->resume = cdns3_gadget_resume; rdrv->state = CDNS3_ROLE_STATE_INACTIVE; rdrv->name = "gadget"; cdns->roles[USB_ROLE_DEVICE] = rdrv; return 0; } /** * cdns3_gadget_uboot_handle_interrupt - handle cdns3 gadget interrupt * @cdns: pointer to struct cdns3 * * Handles ep0 and gadget interrupt */ static void cdns3_gadget_uboot_handle_interrupt(struct cdns3 *cdns) { int ret = cdns3_device_irq_handler(0, cdns); if (ret == IRQ_WAKE_THREAD) cdns3_device_thread_irq_handler(0, cdns); } int dm_usb_gadget_handle_interrupts(struct udevice *dev) { struct cdns3 *cdns = dev_get_priv(dev); cdns3_gadget_uboot_handle_interrupt(cdns); return 0; }