1f9f848faSopenharmony_ci/*- 2f9f848faSopenharmony_ci * SPDX-License-Identifier: BSD-2-Clause 3f9f848faSopenharmony_ci * 4f9f848faSopenharmony_ci * Copyright (c) 2008-2021 Hans Petter Selasky. All rights reserved. 5f9f848faSopenharmony_ci * 6f9f848faSopenharmony_ci * Redistribution and use in source and binary forms, with or without 7f9f848faSopenharmony_ci * modification, are permitted provided that the following conditions 8f9f848faSopenharmony_ci * are met: 9f9f848faSopenharmony_ci * 1. Redistributions of source code must retain the above copyright 10f9f848faSopenharmony_ci * notice, this list of conditions and the following disclaimer. 11f9f848faSopenharmony_ci * 2. Redistributions in binary form must reproduce the above copyright 12f9f848faSopenharmony_ci * notice, this list of conditions and the following disclaimer in the 13f9f848faSopenharmony_ci * documentation and/or other materials provided with the distribution. 14f9f848faSopenharmony_ci * 15f9f848faSopenharmony_ci * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 16f9f848faSopenharmony_ci * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 17f9f848faSopenharmony_ci * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 18f9f848faSopenharmony_ci * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 19f9f848faSopenharmony_ci * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 20f9f848faSopenharmony_ci * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 21f9f848faSopenharmony_ci * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 22f9f848faSopenharmony_ci * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 23f9f848faSopenharmony_ci * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 24f9f848faSopenharmony_ci * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 25f9f848faSopenharmony_ci * SUCH DAMAGE. 26f9f848faSopenharmony_ci */ 27f9f848faSopenharmony_ci 28f9f848faSopenharmony_ci#include "implementation/global_implementation.h" 29f9f848faSopenharmony_ci 30f9f848faSopenharmony_ci#undef USB_DEBUG_VAR 31f9f848faSopenharmony_ci#define USB_DEBUG_VAR usb_debug 32f9f848faSopenharmony_ci 33f9f848faSopenharmony_ciSPIN_LOCK_INIT(g_usb_wait_queue_spinlock); 34f9f848faSopenharmony_ci 35f9f848faSopenharmony_cistruct usb_std_packet_size { 36f9f848faSopenharmony_ci struct { 37f9f848faSopenharmony_ci uint16_t min; /* inclusive */ 38f9f848faSopenharmony_ci uint16_t max; /* inclusive */ 39f9f848faSopenharmony_ci } range; 40f9f848faSopenharmony_ci 41f9f848faSopenharmony_ci uint16_t fixed[4]; 42f9f848faSopenharmony_ci}; 43f9f848faSopenharmony_ci 44f9f848faSopenharmony_cistatic usb_callback_t usb_request_callback; 45f9f848faSopenharmony_ci 46f9f848faSopenharmony_cistatic const struct usb_config usb_control_ep_cfg[USB_CTRL_XFER_MAX] = { 47f9f848faSopenharmony_ci /* This transfer is used for generic control endpoint transfers */ 48f9f848faSopenharmony_ci 49f9f848faSopenharmony_ci [0] = { 50f9f848faSopenharmony_ci .type = UE_CONTROL, 51f9f848faSopenharmony_ci .endpoint = 0x00, /* Control endpoint */ 52f9f848faSopenharmony_ci .direction = UE_DIR_ANY, 53f9f848faSopenharmony_ci .bufsize = USB_EP0_BUFSIZE, /* bytes */ 54f9f848faSopenharmony_ci .flags = {.proxy_buffer = 1,}, 55f9f848faSopenharmony_ci .callback = &usb_request_callback, 56f9f848faSopenharmony_ci .usb_mode = USB_MODE_DUAL, /* both modes */ 57f9f848faSopenharmony_ci }, 58f9f848faSopenharmony_ci 59f9f848faSopenharmony_ci /* This transfer is used for generic clear stall only */ 60f9f848faSopenharmony_ci 61f9f848faSopenharmony_ci [1] = { 62f9f848faSopenharmony_ci .type = UE_CONTROL, 63f9f848faSopenharmony_ci .endpoint = 0x00, /* Control pipe */ 64f9f848faSopenharmony_ci .direction = UE_DIR_ANY, 65f9f848faSopenharmony_ci .bufsize = sizeof(struct usb_device_request), 66f9f848faSopenharmony_ci .callback = &usb_do_clear_stall_callback, 67f9f848faSopenharmony_ci .timeout = 1000, /* 1 second */ 68f9f848faSopenharmony_ci .interval = 50, /* 50ms */ 69f9f848faSopenharmony_ci .usb_mode = USB_MODE_HOST, 70f9f848faSopenharmony_ci }, 71f9f848faSopenharmony_ci}; 72f9f848faSopenharmony_ci 73f9f848faSopenharmony_cistatic const struct usb_config usb_control_ep_quirk_cfg[USB_CTRL_XFER_MAX] = { 74f9f848faSopenharmony_ci /* This transfer is used for generic control endpoint transfers */ 75f9f848faSopenharmony_ci 76f9f848faSopenharmony_ci [0] = { 77f9f848faSopenharmony_ci .type = UE_CONTROL, 78f9f848faSopenharmony_ci .endpoint = 0x00, /* Control endpoint */ 79f9f848faSopenharmony_ci .direction = UE_DIR_ANY, 80f9f848faSopenharmony_ci .bufsize = 65535, /* bytes */ 81f9f848faSopenharmony_ci .callback = &usb_request_callback, 82f9f848faSopenharmony_ci .usb_mode = USB_MODE_DUAL, /* both modes */ 83f9f848faSopenharmony_ci }, 84f9f848faSopenharmony_ci 85f9f848faSopenharmony_ci /* This transfer is used for generic clear stall only */ 86f9f848faSopenharmony_ci 87f9f848faSopenharmony_ci [1] = { 88f9f848faSopenharmony_ci .type = UE_CONTROL, 89f9f848faSopenharmony_ci .endpoint = 0x00, /* Control pipe */ 90f9f848faSopenharmony_ci .direction = UE_DIR_ANY, 91f9f848faSopenharmony_ci .bufsize = sizeof(struct usb_device_request), 92f9f848faSopenharmony_ci .callback = &usb_do_clear_stall_callback, 93f9f848faSopenharmony_ci .timeout = 1000, /* 1 second */ 94f9f848faSopenharmony_ci .interval = 50, /* 50ms */ 95f9f848faSopenharmony_ci .usb_mode = USB_MODE_HOST, 96f9f848faSopenharmony_ci }, 97f9f848faSopenharmony_ci}; 98f9f848faSopenharmony_ci 99f9f848faSopenharmony_ci/* function prototypes */ 100f9f848faSopenharmony_ci 101f9f848faSopenharmony_cistatic void usbd_update_max_frame_size(struct usb_xfer *); 102f9f848faSopenharmony_cistatic void usbd_transfer_unsetup_sub(struct usb_xfer_root *, uint8_t); 103f9f848faSopenharmony_cistatic void usbd_control_transfer_init(struct usb_xfer *); 104f9f848faSopenharmony_cistatic int usbd_setup_ctrl_transfer(struct usb_xfer *); 105f9f848faSopenharmony_cistatic void usb_callback_proc(struct usb_proc_msg *); 106f9f848faSopenharmony_cistatic void usbd_callback_ss_done_defer(struct usb_xfer *); 107f9f848faSopenharmony_cistatic void usbd_callback_wrapper(struct usb_xfer_queue *); 108f9f848faSopenharmony_cistatic void usbd_transfer_start_cb(void *); 109f9f848faSopenharmony_cistatic uint8_t usbd_callback_wrapper_sub(struct usb_xfer *); 110f9f848faSopenharmony_cistatic void usbd_get_std_packet_size(struct usb_std_packet_size *ptr, 111f9f848faSopenharmony_ci uint8_t type, enum usb_dev_speed speed); 112f9f848faSopenharmony_ci 113f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 114f9f848faSopenharmony_ci * usb_request_callback 115f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 116f9f848faSopenharmony_cistatic void 117f9f848faSopenharmony_ciusb_request_callback(struct usb_xfer *xfer, usb_error_t error) 118f9f848faSopenharmony_ci{ 119f9f848faSopenharmony_ci if (xfer->flags_int.usb_mode == USB_MODE_DEVICE) 120f9f848faSopenharmony_ci usb_handle_request_callback(xfer, error); 121f9f848faSopenharmony_ci else 122f9f848faSopenharmony_ci usbd_do_request_callback(xfer, error); 123f9f848faSopenharmony_ci} 124f9f848faSopenharmony_ci 125f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 126f9f848faSopenharmony_ci * usbd_update_max_frame_size 127f9f848faSopenharmony_ci * 128f9f848faSopenharmony_ci * This function updates the maximum frame size, hence high speed USB 129f9f848faSopenharmony_ci * can transfer multiple consecutive packets. 130f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 131f9f848faSopenharmony_cistatic void 132f9f848faSopenharmony_ciusbd_update_max_frame_size(struct usb_xfer *xfer) 133f9f848faSopenharmony_ci{ 134f9f848faSopenharmony_ci /* compute maximum frame size */ 135f9f848faSopenharmony_ci /* this computation should not overflow 16-bit */ 136f9f848faSopenharmony_ci /* max = 15 * 1024 */ 137f9f848faSopenharmony_ci 138f9f848faSopenharmony_ci xfer->max_frame_size = xfer->max_packet_size * xfer->max_packet_count; 139f9f848faSopenharmony_ci} 140f9f848faSopenharmony_ci 141f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 142f9f848faSopenharmony_ci * usbd_get_dma_delay 143f9f848faSopenharmony_ci * 144f9f848faSopenharmony_ci * The following function is called when we need to 145f9f848faSopenharmony_ci * synchronize with DMA hardware. 146f9f848faSopenharmony_ci * 147f9f848faSopenharmony_ci * Returns: 148f9f848faSopenharmony_ci * 0: no DMA delay required 149f9f848faSopenharmony_ci * Else: milliseconds of DMA delay 150f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 151f9f848faSopenharmony_ciusb_timeout_t 152f9f848faSopenharmony_ciusbd_get_dma_delay(struct usb_device *udev) 153f9f848faSopenharmony_ci{ 154f9f848faSopenharmony_ci const struct usb_bus_methods *mtod; 155f9f848faSopenharmony_ci uint32_t temp; 156f9f848faSopenharmony_ci 157f9f848faSopenharmony_ci mtod = udev->bus->methods; 158f9f848faSopenharmony_ci temp = 0; 159f9f848faSopenharmony_ci 160f9f848faSopenharmony_ci if (mtod->get_dma_delay) { 161f9f848faSopenharmony_ci (mtod->get_dma_delay) (udev, &temp); 162f9f848faSopenharmony_ci /* 163f9f848faSopenharmony_ci * Round up and convert to milliseconds. Note that we use 164f9f848faSopenharmony_ci * 1024 milliseconds per second. to save a division. 165f9f848faSopenharmony_ci */ 166f9f848faSopenharmony_ci temp += 0x3FF; 167f9f848faSopenharmony_ci temp /= 0x400; 168f9f848faSopenharmony_ci } 169f9f848faSopenharmony_ci return (temp); 170f9f848faSopenharmony_ci} 171f9f848faSopenharmony_ci 172f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 173f9f848faSopenharmony_ci * usbd_transfer_setup_sub_malloc 174f9f848faSopenharmony_ci * 175f9f848faSopenharmony_ci * This function will allocate one or more DMA'able memory chunks 176f9f848faSopenharmony_ci * according to "size", "align" and "count" arguments. "ppc" is 177f9f848faSopenharmony_ci * pointed to a linear array of USB page caches afterwards. 178f9f848faSopenharmony_ci * 179f9f848faSopenharmony_ci * If the "align" argument is equal to "1" a non-contiguous allocation 180f9f848faSopenharmony_ci * can happen. Else if the "align" argument is greater than "1", the 181f9f848faSopenharmony_ci * allocation will always be contiguous in memory. 182f9f848faSopenharmony_ci * 183f9f848faSopenharmony_ci * Returns: 184f9f848faSopenharmony_ci * 0: Success 185f9f848faSopenharmony_ci * Else: Failure 186f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 187f9f848faSopenharmony_ci#if USB_HAVE_BUSDMA 188f9f848faSopenharmony_ciuint8_t 189f9f848faSopenharmony_ciusbd_transfer_setup_sub_malloc(struct usb_setup_params *parm, 190f9f848faSopenharmony_ci struct usb_page_cache **ppc, usb_size_t size, usb_size_t align, 191f9f848faSopenharmony_ci usb_size_t count) 192f9f848faSopenharmony_ci{ 193f9f848faSopenharmony_ci struct usb_page_cache *pc; 194f9f848faSopenharmony_ci struct usb_page *pg; 195f9f848faSopenharmony_ci void *buf; 196f9f848faSopenharmony_ci usb_size_t n_dma_pc; 197f9f848faSopenharmony_ci usb_size_t n_dma_pg; 198f9f848faSopenharmony_ci usb_size_t n_obj; 199f9f848faSopenharmony_ci usb_size_t x; 200f9f848faSopenharmony_ci usb_size_t y; 201f9f848faSopenharmony_ci usb_size_t r; 202f9f848faSopenharmony_ci usb_size_t z; 203f9f848faSopenharmony_ci 204f9f848faSopenharmony_ci USB_ASSERT(align > 0, ("Invalid alignment, 0x%08x\n", 205f9f848faSopenharmony_ci align)); 206f9f848faSopenharmony_ci USB_ASSERT(size > 0, ("Invalid size = 0\n")); 207f9f848faSopenharmony_ci 208f9f848faSopenharmony_ci if (count == 0) { 209f9f848faSopenharmony_ci return (0); /* nothing to allocate */ 210f9f848faSopenharmony_ci } 211f9f848faSopenharmony_ci /* 212f9f848faSopenharmony_ci * Make sure that the size is aligned properly. 213f9f848faSopenharmony_ci */ 214f9f848faSopenharmony_ci size = -((-size) & (-align)); 215f9f848faSopenharmony_ci 216f9f848faSopenharmony_ci /* 217f9f848faSopenharmony_ci * Try multi-allocation chunks to reduce the number of DMA 218f9f848faSopenharmony_ci * allocations, hence DMA allocations are slow. 219f9f848faSopenharmony_ci */ 220f9f848faSopenharmony_ci if (align == 1) { 221f9f848faSopenharmony_ci /* special case - non-cached multi page DMA memory */ 222f9f848faSopenharmony_ci n_dma_pc = count; 223f9f848faSopenharmony_ci n_dma_pg = (2 + (size / USB_PAGE_SIZE)); 224f9f848faSopenharmony_ci n_obj = 1; 225f9f848faSopenharmony_ci } else if (size >= USB_PAGE_SIZE) { 226f9f848faSopenharmony_ci n_dma_pc = count; 227f9f848faSopenharmony_ci n_dma_pg = 1; 228f9f848faSopenharmony_ci n_obj = 1; 229f9f848faSopenharmony_ci } else { 230f9f848faSopenharmony_ci /* compute number of objects per page */ 231f9f848faSopenharmony_ci n_obj = (USB_PAGE_SIZE / size); 232f9f848faSopenharmony_ci /* 233f9f848faSopenharmony_ci * Compute number of DMA chunks, rounded up 234f9f848faSopenharmony_ci * to nearest one: 235f9f848faSopenharmony_ci */ 236f9f848faSopenharmony_ci n_dma_pc = ((count + n_obj - 1) / n_obj); 237f9f848faSopenharmony_ci n_dma_pg = 1; 238f9f848faSopenharmony_ci } 239f9f848faSopenharmony_ci 240f9f848faSopenharmony_ci /* 241f9f848faSopenharmony_ci * DMA memory is allocated once, but mapped twice. That's why 242f9f848faSopenharmony_ci * there is one list for auto-free and another list for 243f9f848faSopenharmony_ci * non-auto-free which only holds the mapping and not the 244f9f848faSopenharmony_ci * allocation. 245f9f848faSopenharmony_ci */ 246f9f848faSopenharmony_ci if (parm->buf == NULL) { 247f9f848faSopenharmony_ci /* reserve memory (auto-free) */ 248f9f848faSopenharmony_ci parm->dma_page_ptr += n_dma_pc * n_dma_pg; 249f9f848faSopenharmony_ci parm->dma_page_cache_ptr += n_dma_pc; 250f9f848faSopenharmony_ci 251f9f848faSopenharmony_ci /* reserve memory (no-auto-free) */ 252f9f848faSopenharmony_ci parm->dma_page_ptr += count * n_dma_pg; 253f9f848faSopenharmony_ci parm->xfer_page_cache_ptr += count; 254f9f848faSopenharmony_ci return (0); 255f9f848faSopenharmony_ci } 256f9f848faSopenharmony_ci for (x = 0; x != n_dma_pc; x++) { 257f9f848faSopenharmony_ci /* need to initialize the page cache */ 258f9f848faSopenharmony_ci parm->dma_page_cache_ptr[x].tag_parent = 259f9f848faSopenharmony_ci &parm->curr_xfer->xroot->dma_parent_tag; 260f9f848faSopenharmony_ci } 261f9f848faSopenharmony_ci for (x = 0; x != count; x++) { 262f9f848faSopenharmony_ci /* need to initialize the page cache */ 263f9f848faSopenharmony_ci parm->xfer_page_cache_ptr[x].tag_parent = 264f9f848faSopenharmony_ci &parm->curr_xfer->xroot->dma_parent_tag; 265f9f848faSopenharmony_ci } 266f9f848faSopenharmony_ci 267f9f848faSopenharmony_ci if (ppc != NULL) { 268f9f848faSopenharmony_ci *ppc = parm->xfer_page_cache_ptr; 269f9f848faSopenharmony_ci } 270f9f848faSopenharmony_ci r = count; /* set remainder count */ 271f9f848faSopenharmony_ci z = n_obj * size; /* set allocation size */ 272f9f848faSopenharmony_ci pc = parm->xfer_page_cache_ptr; 273f9f848faSopenharmony_ci pg = parm->dma_page_ptr; 274f9f848faSopenharmony_ci 275f9f848faSopenharmony_ci for (x = 0; x != n_dma_pc; x++) { 276f9f848faSopenharmony_ci if (r < n_obj) { 277f9f848faSopenharmony_ci /* compute last remainder */ 278f9f848faSopenharmony_ci z = r * size; 279f9f848faSopenharmony_ci n_obj = r; 280f9f848faSopenharmony_ci } 281f9f848faSopenharmony_ci if (usb_pc_alloc_mem(parm->dma_page_cache_ptr, 282f9f848faSopenharmony_ci pg, z, align)) { 283f9f848faSopenharmony_ci return (1); /* failure */ 284f9f848faSopenharmony_ci } 285f9f848faSopenharmony_ci /* Set beginning of current buffer */ 286f9f848faSopenharmony_ci buf = parm->dma_page_cache_ptr->buffer; 287f9f848faSopenharmony_ci /* Make room for one DMA page cache and one page */ 288f9f848faSopenharmony_ci parm->dma_page_cache_ptr++; 289f9f848faSopenharmony_ci pg += n_dma_pg; 290f9f848faSopenharmony_ci 291f9f848faSopenharmony_ci for (y = 0; (y != n_obj); y++, r--, pc++, pg += n_dma_pg) { 292f9f848faSopenharmony_ci /* Load sub-chunk into DMA */ 293f9f848faSopenharmony_ci if (usb_pc_dmamap_create(pc, size)) { 294f9f848faSopenharmony_ci return (1); /* failure */ 295f9f848faSopenharmony_ci } 296f9f848faSopenharmony_ci pc->buffer = USB_ADD_BYTES(buf, y * size); 297f9f848faSopenharmony_ci pc->page_start = pg; 298f9f848faSopenharmony_ci 299f9f848faSopenharmony_ci USB_MTX_LOCK(pc->tag_parent->mtx); 300f9f848faSopenharmony_ci if (usb_pc_load_mem(pc, size, 1 /* synchronous */ )) { 301f9f848faSopenharmony_ci USB_MTX_UNLOCK(pc->tag_parent->mtx); 302f9f848faSopenharmony_ci return (1); /* failure */ 303f9f848faSopenharmony_ci } 304f9f848faSopenharmony_ci USB_MTX_UNLOCK(pc->tag_parent->mtx); 305f9f848faSopenharmony_ci } 306f9f848faSopenharmony_ci } 307f9f848faSopenharmony_ci 308f9f848faSopenharmony_ci parm->xfer_page_cache_ptr = pc; 309f9f848faSopenharmony_ci parm->dma_page_ptr = pg; 310f9f848faSopenharmony_ci return (0); 311f9f848faSopenharmony_ci} 312f9f848faSopenharmony_ci#endif 313f9f848faSopenharmony_ci 314f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 315f9f848faSopenharmony_ci * usbd_transfer_setup_sub - transfer setup subroutine 316f9f848faSopenharmony_ci * 317f9f848faSopenharmony_ci * This function must be called from the "xfer_setup" callback of the 318f9f848faSopenharmony_ci * USB Host or Device controller driver when setting up an USB 319f9f848faSopenharmony_ci * transfer. This function will setup correct packet sizes, buffer 320f9f848faSopenharmony_ci * sizes, flags and more, that are stored in the "usb_xfer" 321f9f848faSopenharmony_ci * structure. 322f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 323f9f848faSopenharmony_civoid 324f9f848faSopenharmony_ciusbd_transfer_setup_sub(struct usb_setup_params *parm) 325f9f848faSopenharmony_ci{ 326f9f848faSopenharmony_ci enum { 327f9f848faSopenharmony_ci REQ_SIZE = 8, 328f9f848faSopenharmony_ci MIN_PKT = 8, 329f9f848faSopenharmony_ci }; 330f9f848faSopenharmony_ci struct usb_xfer *xfer = parm->curr_xfer; 331f9f848faSopenharmony_ci const struct usb_config *setup = parm->curr_setup; 332f9f848faSopenharmony_ci struct usb_endpoint_ss_comp_descriptor *ecomp; 333f9f848faSopenharmony_ci struct usb_endpoint_descriptor *edesc; 334f9f848faSopenharmony_ci struct usb_std_packet_size std_size; 335f9f848faSopenharmony_ci usb_frcount_t n_frlengths; 336f9f848faSopenharmony_ci usb_frcount_t n_frbuffers; 337f9f848faSopenharmony_ci usb_frcount_t x; 338f9f848faSopenharmony_ci uint16_t maxp_old; 339f9f848faSopenharmony_ci uint8_t type; 340f9f848faSopenharmony_ci uint8_t zmps; 341f9f848faSopenharmony_ci 342f9f848faSopenharmony_ci /* 343f9f848faSopenharmony_ci * Sanity check. The following parameters must be initialized before 344f9f848faSopenharmony_ci * calling this function. 345f9f848faSopenharmony_ci */ 346f9f848faSopenharmony_ci if ((parm->hc_max_packet_size == 0) || 347f9f848faSopenharmony_ci (parm->hc_max_packet_count == 0) || 348f9f848faSopenharmony_ci (parm->hc_max_frame_size == 0)) { 349f9f848faSopenharmony_ci parm->err = USB_ERR_INVAL; 350f9f848faSopenharmony_ci goto done; 351f9f848faSopenharmony_ci } 352f9f848faSopenharmony_ci edesc = xfer->endpoint->edesc; 353f9f848faSopenharmony_ci ecomp = xfer->endpoint->ecomp; 354f9f848faSopenharmony_ci 355f9f848faSopenharmony_ci type = (edesc->bmAttributes & UE_XFERTYPE); 356f9f848faSopenharmony_ci 357f9f848faSopenharmony_ci xfer->flags = setup->flags; 358f9f848faSopenharmony_ci xfer->nframes = setup->frames; 359f9f848faSopenharmony_ci xfer->timeout = setup->timeout; 360f9f848faSopenharmony_ci xfer->callback = setup->callback; 361f9f848faSopenharmony_ci xfer->interval = setup->interval; 362f9f848faSopenharmony_ci xfer->endpointno = edesc->bEndpointAddress; 363f9f848faSopenharmony_ci xfer->max_packet_size = UGETW(edesc->wMaxPacketSize); 364f9f848faSopenharmony_ci xfer->max_packet_count = 1; 365f9f848faSopenharmony_ci /* make a shadow copy: */ 366f9f848faSopenharmony_ci xfer->flags_int.usb_mode = parm->udev->flags.usb_mode; 367f9f848faSopenharmony_ci 368f9f848faSopenharmony_ci parm->bufsize = setup->bufsize; 369f9f848faSopenharmony_ci 370f9f848faSopenharmony_ci switch (parm->speed) { 371f9f848faSopenharmony_ci case USB_SPEED_HIGH: 372f9f848faSopenharmony_ci switch (type) { 373f9f848faSopenharmony_ci case UE_ISOCHRONOUS: 374f9f848faSopenharmony_ci case UE_INTERRUPT: 375f9f848faSopenharmony_ci xfer->max_packet_count += 376f9f848faSopenharmony_ci (xfer->max_packet_size >> 11) & 3; 377f9f848faSopenharmony_ci 378f9f848faSopenharmony_ci /* check for invalid max packet count */ 379f9f848faSopenharmony_ci if (xfer->max_packet_count > 3) 380f9f848faSopenharmony_ci xfer->max_packet_count = 3; 381f9f848faSopenharmony_ci break; 382f9f848faSopenharmony_ci default: 383f9f848faSopenharmony_ci break; 384f9f848faSopenharmony_ci } 385f9f848faSopenharmony_ci xfer->max_packet_size &= 0x7FF; 386f9f848faSopenharmony_ci break; 387f9f848faSopenharmony_ci case USB_SPEED_SUPER: 388f9f848faSopenharmony_ci xfer->max_packet_count += (xfer->max_packet_size >> 11) & 3; 389f9f848faSopenharmony_ci 390f9f848faSopenharmony_ci if (ecomp != NULL) 391f9f848faSopenharmony_ci xfer->max_packet_count += ecomp->bMaxBurst; 392f9f848faSopenharmony_ci 393f9f848faSopenharmony_ci if ((xfer->max_packet_count == 0) || 394f9f848faSopenharmony_ci (xfer->max_packet_count > 16)) 395f9f848faSopenharmony_ci xfer->max_packet_count = 16; 396f9f848faSopenharmony_ci 397f9f848faSopenharmony_ci switch (type) { 398f9f848faSopenharmony_ci case UE_CONTROL: 399f9f848faSopenharmony_ci xfer->max_packet_count = 1; 400f9f848faSopenharmony_ci break; 401f9f848faSopenharmony_ci case UE_ISOCHRONOUS: 402f9f848faSopenharmony_ci if (ecomp != NULL) { 403f9f848faSopenharmony_ci uint8_t mult; 404f9f848faSopenharmony_ci 405f9f848faSopenharmony_ci mult = UE_GET_SS_ISO_MULT( 406f9f848faSopenharmony_ci ecomp->bmAttributes) + 1; 407f9f848faSopenharmony_ci if (mult > 3) 408f9f848faSopenharmony_ci mult = 3; 409f9f848faSopenharmony_ci 410f9f848faSopenharmony_ci xfer->max_packet_count *= mult; 411f9f848faSopenharmony_ci } 412f9f848faSopenharmony_ci break; 413f9f848faSopenharmony_ci default: 414f9f848faSopenharmony_ci break; 415f9f848faSopenharmony_ci } 416f9f848faSopenharmony_ci xfer->max_packet_size &= 0x7FF; 417f9f848faSopenharmony_ci break; 418f9f848faSopenharmony_ci default: 419f9f848faSopenharmony_ci break; 420f9f848faSopenharmony_ci } 421f9f848faSopenharmony_ci /* range check "max_packet_count" */ 422f9f848faSopenharmony_ci 423f9f848faSopenharmony_ci if (xfer->max_packet_count > parm->hc_max_packet_count) { 424f9f848faSopenharmony_ci xfer->max_packet_count = parm->hc_max_packet_count; 425f9f848faSopenharmony_ci } 426f9f848faSopenharmony_ci 427f9f848faSopenharmony_ci /* store max packet size value before filtering */ 428f9f848faSopenharmony_ci 429f9f848faSopenharmony_ci maxp_old = xfer->max_packet_size; 430f9f848faSopenharmony_ci 431f9f848faSopenharmony_ci /* filter "wMaxPacketSize" according to HC capabilities */ 432f9f848faSopenharmony_ci 433f9f848faSopenharmony_ci if ((xfer->max_packet_size > parm->hc_max_packet_size) || 434f9f848faSopenharmony_ci (xfer->max_packet_size == 0)) { 435f9f848faSopenharmony_ci xfer->max_packet_size = parm->hc_max_packet_size; 436f9f848faSopenharmony_ci } 437f9f848faSopenharmony_ci /* filter "wMaxPacketSize" according to standard sizes */ 438f9f848faSopenharmony_ci 439f9f848faSopenharmony_ci usbd_get_std_packet_size(&std_size, type, parm->speed); 440f9f848faSopenharmony_ci 441f9f848faSopenharmony_ci if (std_size.range.min || std_size.range.max) { 442f9f848faSopenharmony_ci if (xfer->max_packet_size < std_size.range.min) { 443f9f848faSopenharmony_ci xfer->max_packet_size = std_size.range.min; 444f9f848faSopenharmony_ci } 445f9f848faSopenharmony_ci if (xfer->max_packet_size > std_size.range.max) { 446f9f848faSopenharmony_ci xfer->max_packet_size = std_size.range.max; 447f9f848faSopenharmony_ci } 448f9f848faSopenharmony_ci } else { 449f9f848faSopenharmony_ci if (xfer->max_packet_size >= std_size.fixed[3]) { 450f9f848faSopenharmony_ci xfer->max_packet_size = std_size.fixed[3]; 451f9f848faSopenharmony_ci } else if (xfer->max_packet_size >= std_size.fixed[2]) { 452f9f848faSopenharmony_ci xfer->max_packet_size = std_size.fixed[2]; 453f9f848faSopenharmony_ci } else if (xfer->max_packet_size >= std_size.fixed[1]) { 454f9f848faSopenharmony_ci xfer->max_packet_size = std_size.fixed[1]; 455f9f848faSopenharmony_ci } else { 456f9f848faSopenharmony_ci /* only one possibility left */ 457f9f848faSopenharmony_ci xfer->max_packet_size = std_size.fixed[0]; 458f9f848faSopenharmony_ci } 459f9f848faSopenharmony_ci } 460f9f848faSopenharmony_ci 461f9f848faSopenharmony_ci /* 462f9f848faSopenharmony_ci * Check if the max packet size was outside its allowed range 463f9f848faSopenharmony_ci * and clamped to a valid value: 464f9f848faSopenharmony_ci */ 465f9f848faSopenharmony_ci if (maxp_old != xfer->max_packet_size) 466f9f848faSopenharmony_ci xfer->flags_int.maxp_was_clamped = 1; 467f9f848faSopenharmony_ci 468f9f848faSopenharmony_ci /* compute "max_frame_size" */ 469f9f848faSopenharmony_ci 470f9f848faSopenharmony_ci usbd_update_max_frame_size(xfer); 471f9f848faSopenharmony_ci 472f9f848faSopenharmony_ci /* check interrupt interval and transfer pre-delay */ 473f9f848faSopenharmony_ci 474f9f848faSopenharmony_ci if (type == UE_ISOCHRONOUS) { 475f9f848faSopenharmony_ci uint16_t frame_limit; 476f9f848faSopenharmony_ci 477f9f848faSopenharmony_ci xfer->interval = 0; /* not used, must be zero */ 478f9f848faSopenharmony_ci xfer->flags_int.isochronous_xfr = 1; /* set flag */ 479f9f848faSopenharmony_ci 480f9f848faSopenharmony_ci if (xfer->timeout == 0) { 481f9f848faSopenharmony_ci /* 482f9f848faSopenharmony_ci * set a default timeout in 483f9f848faSopenharmony_ci * case something goes wrong! 484f9f848faSopenharmony_ci */ 485f9f848faSopenharmony_ci xfer->timeout = 1000 / 4; 486f9f848faSopenharmony_ci } 487f9f848faSopenharmony_ci switch (parm->speed) { 488f9f848faSopenharmony_ci case USB_SPEED_LOW: 489f9f848faSopenharmony_ci case USB_SPEED_FULL: 490f9f848faSopenharmony_ci frame_limit = USB_MAX_FS_ISOC_FRAMES_PER_XFER; 491f9f848faSopenharmony_ci xfer->fps_shift = 0; 492f9f848faSopenharmony_ci break; 493f9f848faSopenharmony_ci default: 494f9f848faSopenharmony_ci frame_limit = USB_MAX_HS_ISOC_FRAMES_PER_XFER; 495f9f848faSopenharmony_ci xfer->fps_shift = edesc->bInterval; 496f9f848faSopenharmony_ci if (xfer->fps_shift > 0) 497f9f848faSopenharmony_ci xfer->fps_shift--; 498f9f848faSopenharmony_ci if (xfer->fps_shift > 3) 499f9f848faSopenharmony_ci xfer->fps_shift = 3; 500f9f848faSopenharmony_ci if (xfer->flags.pre_scale_frames != 0) 501f9f848faSopenharmony_ci xfer->nframes <<= (3 - xfer->fps_shift); 502f9f848faSopenharmony_ci break; 503f9f848faSopenharmony_ci } 504f9f848faSopenharmony_ci 505f9f848faSopenharmony_ci if (xfer->nframes > frame_limit) { 506f9f848faSopenharmony_ci /* 507f9f848faSopenharmony_ci * this is not going to work 508f9f848faSopenharmony_ci * cross hardware 509f9f848faSopenharmony_ci */ 510f9f848faSopenharmony_ci parm->err = USB_ERR_INVAL; 511f9f848faSopenharmony_ci goto done; 512f9f848faSopenharmony_ci } 513f9f848faSopenharmony_ci if (xfer->nframes == 0) { 514f9f848faSopenharmony_ci /* 515f9f848faSopenharmony_ci * this is not a valid value 516f9f848faSopenharmony_ci */ 517f9f848faSopenharmony_ci parm->err = USB_ERR_ZERO_NFRAMES; 518f9f848faSopenharmony_ci goto done; 519f9f848faSopenharmony_ci } 520f9f848faSopenharmony_ci } else { 521f9f848faSopenharmony_ci /* 522f9f848faSopenharmony_ci * If a value is specified use that else check the 523f9f848faSopenharmony_ci * endpoint descriptor! 524f9f848faSopenharmony_ci */ 525f9f848faSopenharmony_ci if (type == UE_INTERRUPT) { 526f9f848faSopenharmony_ci uint32_t temp; 527f9f848faSopenharmony_ci 528f9f848faSopenharmony_ci if (xfer->interval == 0) { 529f9f848faSopenharmony_ci xfer->interval = edesc->bInterval; 530f9f848faSopenharmony_ci 531f9f848faSopenharmony_ci switch (parm->speed) { 532f9f848faSopenharmony_ci case USB_SPEED_LOW: 533f9f848faSopenharmony_ci case USB_SPEED_FULL: 534f9f848faSopenharmony_ci break; 535f9f848faSopenharmony_ci default: 536f9f848faSopenharmony_ci /* 125us -> 1ms */ 537f9f848faSopenharmony_ci if (xfer->interval < 4) 538f9f848faSopenharmony_ci xfer->interval = 1; 539f9f848faSopenharmony_ci else if (xfer->interval > 16) 540f9f848faSopenharmony_ci xfer->interval = (1 << (16 - 4)); 541f9f848faSopenharmony_ci else 542f9f848faSopenharmony_ci xfer->interval = 543f9f848faSopenharmony_ci (1 << (xfer->interval - 4)); 544f9f848faSopenharmony_ci break; 545f9f848faSopenharmony_ci } 546f9f848faSopenharmony_ci } 547f9f848faSopenharmony_ci 548f9f848faSopenharmony_ci if (xfer->interval == 0) { 549f9f848faSopenharmony_ci /* 550f9f848faSopenharmony_ci * One millisecond is the smallest 551f9f848faSopenharmony_ci * interval we support: 552f9f848faSopenharmony_ci */ 553f9f848faSopenharmony_ci xfer->interval = 1; 554f9f848faSopenharmony_ci } 555f9f848faSopenharmony_ci 556f9f848faSopenharmony_ci xfer->fps_shift = 0; 557f9f848faSopenharmony_ci temp = 1; 558f9f848faSopenharmony_ci 559f9f848faSopenharmony_ci while ((temp != 0) && (temp < xfer->interval)) { 560f9f848faSopenharmony_ci xfer->fps_shift++; 561f9f848faSopenharmony_ci temp *= 2; 562f9f848faSopenharmony_ci } 563f9f848faSopenharmony_ci 564f9f848faSopenharmony_ci switch (parm->speed) { 565f9f848faSopenharmony_ci case USB_SPEED_LOW: 566f9f848faSopenharmony_ci case USB_SPEED_FULL: 567f9f848faSopenharmony_ci break; 568f9f848faSopenharmony_ci default: 569f9f848faSopenharmony_ci xfer->fps_shift += 3; 570f9f848faSopenharmony_ci break; 571f9f848faSopenharmony_ci } 572f9f848faSopenharmony_ci } 573f9f848faSopenharmony_ci } 574f9f848faSopenharmony_ci 575f9f848faSopenharmony_ci /* 576f9f848faSopenharmony_ci * NOTE: we do not allow "max_packet_size" or "max_frame_size" 577f9f848faSopenharmony_ci * to be equal to zero when setting up USB transfers, hence 578f9f848faSopenharmony_ci * this leads to alot of extra code in the USB kernel. 579f9f848faSopenharmony_ci */ 580f9f848faSopenharmony_ci 581f9f848faSopenharmony_ci if ((xfer->max_frame_size == 0) || 582f9f848faSopenharmony_ci (xfer->max_packet_size == 0)) { 583f9f848faSopenharmony_ci zmps = 1; 584f9f848faSopenharmony_ci 585f9f848faSopenharmony_ci if ((parm->bufsize <= MIN_PKT) && 586f9f848faSopenharmony_ci (type != UE_CONTROL) && 587f9f848faSopenharmony_ci (type != UE_BULK)) { 588f9f848faSopenharmony_ci /* workaround */ 589f9f848faSopenharmony_ci xfer->max_packet_size = MIN_PKT; 590f9f848faSopenharmony_ci xfer->max_packet_count = 1; 591f9f848faSopenharmony_ci parm->bufsize = 0; /* automatic setup length */ 592f9f848faSopenharmony_ci usbd_update_max_frame_size(xfer); 593f9f848faSopenharmony_ci 594f9f848faSopenharmony_ci } else { 595f9f848faSopenharmony_ci parm->err = USB_ERR_ZERO_MAXP; 596f9f848faSopenharmony_ci goto done; 597f9f848faSopenharmony_ci } 598f9f848faSopenharmony_ci 599f9f848faSopenharmony_ci } else { 600f9f848faSopenharmony_ci zmps = 0; 601f9f848faSopenharmony_ci } 602f9f848faSopenharmony_ci 603f9f848faSopenharmony_ci /* 604f9f848faSopenharmony_ci * check if we should setup a default 605f9f848faSopenharmony_ci * length: 606f9f848faSopenharmony_ci */ 607f9f848faSopenharmony_ci 608f9f848faSopenharmony_ci if (parm->bufsize == 0) { 609f9f848faSopenharmony_ci parm->bufsize = xfer->max_frame_size; 610f9f848faSopenharmony_ci 611f9f848faSopenharmony_ci if (type == UE_ISOCHRONOUS) { 612f9f848faSopenharmony_ci parm->bufsize *= xfer->nframes; 613f9f848faSopenharmony_ci } 614f9f848faSopenharmony_ci } 615f9f848faSopenharmony_ci /* 616f9f848faSopenharmony_ci * check if we are about to setup a proxy 617f9f848faSopenharmony_ci * type of buffer: 618f9f848faSopenharmony_ci */ 619f9f848faSopenharmony_ci 620f9f848faSopenharmony_ci if (xfer->flags.proxy_buffer) { 621f9f848faSopenharmony_ci /* round bufsize up */ 622f9f848faSopenharmony_ci 623f9f848faSopenharmony_ci parm->bufsize += (xfer->max_frame_size - 1); 624f9f848faSopenharmony_ci 625f9f848faSopenharmony_ci if (parm->bufsize < xfer->max_frame_size) { 626f9f848faSopenharmony_ci /* length wrapped around */ 627f9f848faSopenharmony_ci parm->err = USB_ERR_INVAL; 628f9f848faSopenharmony_ci goto done; 629f9f848faSopenharmony_ci } 630f9f848faSopenharmony_ci /* subtract remainder */ 631f9f848faSopenharmony_ci 632f9f848faSopenharmony_ci parm->bufsize -= (parm->bufsize % xfer->max_frame_size); 633f9f848faSopenharmony_ci 634f9f848faSopenharmony_ci /* add length of USB device request structure, if any */ 635f9f848faSopenharmony_ci 636f9f848faSopenharmony_ci if (type == UE_CONTROL) { 637f9f848faSopenharmony_ci parm->bufsize += REQ_SIZE; /* SETUP message */ 638f9f848faSopenharmony_ci } 639f9f848faSopenharmony_ci } 640f9f848faSopenharmony_ci xfer->max_data_length = parm->bufsize; 641f9f848faSopenharmony_ci 642f9f848faSopenharmony_ci /* Setup "n_frlengths" and "n_frbuffers" */ 643f9f848faSopenharmony_ci 644f9f848faSopenharmony_ci if (type == UE_ISOCHRONOUS) { 645f9f848faSopenharmony_ci n_frlengths = xfer->nframes; 646f9f848faSopenharmony_ci n_frbuffers = 1; 647f9f848faSopenharmony_ci } else { 648f9f848faSopenharmony_ci if (type == UE_CONTROL) { 649f9f848faSopenharmony_ci xfer->flags_int.control_xfr = 1; 650f9f848faSopenharmony_ci if (xfer->nframes == 0) { 651f9f848faSopenharmony_ci if (parm->bufsize <= REQ_SIZE) { 652f9f848faSopenharmony_ci /* 653f9f848faSopenharmony_ci * there will never be any data 654f9f848faSopenharmony_ci * stage 655f9f848faSopenharmony_ci */ 656f9f848faSopenharmony_ci xfer->nframes = 1; 657f9f848faSopenharmony_ci } else { 658f9f848faSopenharmony_ci xfer->nframes = 2; 659f9f848faSopenharmony_ci } 660f9f848faSopenharmony_ci } 661f9f848faSopenharmony_ci } else { 662f9f848faSopenharmony_ci if (xfer->nframes == 0) { 663f9f848faSopenharmony_ci xfer->nframes = 1; 664f9f848faSopenharmony_ci } 665f9f848faSopenharmony_ci } 666f9f848faSopenharmony_ci 667f9f848faSopenharmony_ci n_frlengths = xfer->nframes; 668f9f848faSopenharmony_ci n_frbuffers = xfer->nframes; 669f9f848faSopenharmony_ci } 670f9f848faSopenharmony_ci 671f9f848faSopenharmony_ci /* 672f9f848faSopenharmony_ci * check if we have room for the 673f9f848faSopenharmony_ci * USB device request structure: 674f9f848faSopenharmony_ci */ 675f9f848faSopenharmony_ci 676f9f848faSopenharmony_ci if (type == UE_CONTROL) { 677f9f848faSopenharmony_ci if (xfer->max_data_length < REQ_SIZE) { 678f9f848faSopenharmony_ci /* length wrapped around or too small bufsize */ 679f9f848faSopenharmony_ci parm->err = USB_ERR_INVAL; 680f9f848faSopenharmony_ci goto done; 681f9f848faSopenharmony_ci } 682f9f848faSopenharmony_ci xfer->max_data_length -= REQ_SIZE; 683f9f848faSopenharmony_ci } 684f9f848faSopenharmony_ci /* 685f9f848faSopenharmony_ci * Setup "frlengths" and shadow "frlengths" for keeping the 686f9f848faSopenharmony_ci * initial frame lengths when a USB transfer is complete. This 687f9f848faSopenharmony_ci * information is useful when computing isochronous offsets. 688f9f848faSopenharmony_ci */ 689f9f848faSopenharmony_ci xfer->frlengths = parm->xfer_length_ptr; 690f9f848faSopenharmony_ci parm->xfer_length_ptr += 2 * n_frlengths; 691f9f848faSopenharmony_ci 692f9f848faSopenharmony_ci /* setup "frbuffers" */ 693f9f848faSopenharmony_ci xfer->frbuffers = parm->xfer_page_cache_ptr; 694f9f848faSopenharmony_ci parm->xfer_page_cache_ptr += n_frbuffers; 695f9f848faSopenharmony_ci 696f9f848faSopenharmony_ci /* initialize max frame count */ 697f9f848faSopenharmony_ci xfer->max_frame_count = xfer->nframes; 698f9f848faSopenharmony_ci 699f9f848faSopenharmony_ci /* 700f9f848faSopenharmony_ci * check if we need to setup 701f9f848faSopenharmony_ci * a local buffer: 702f9f848faSopenharmony_ci */ 703f9f848faSopenharmony_ci 704f9f848faSopenharmony_ci if (!xfer->flags.ext_buffer) { 705f9f848faSopenharmony_ci#if USB_HAVE_BUSDMA 706f9f848faSopenharmony_ci struct usb_page_search page_info; 707f9f848faSopenharmony_ci struct usb_page_cache *pc; 708f9f848faSopenharmony_ci 709f9f848faSopenharmony_ci if (usbd_transfer_setup_sub_malloc(parm, 710f9f848faSopenharmony_ci &pc, parm->bufsize, 1, 1)) { 711f9f848faSopenharmony_ci parm->err = USB_ERR_NOMEM; 712f9f848faSopenharmony_ci } else if (parm->buf != NULL) { 713f9f848faSopenharmony_ci usbd_get_page(pc, 0, &page_info); 714f9f848faSopenharmony_ci 715f9f848faSopenharmony_ci xfer->local_buffer = page_info.buffer; 716f9f848faSopenharmony_ci 717f9f848faSopenharmony_ci usbd_xfer_set_frame_offset(xfer, 0, 0); 718f9f848faSopenharmony_ci 719f9f848faSopenharmony_ci if ((type == UE_CONTROL) && (n_frbuffers > 1)) { 720f9f848faSopenharmony_ci usbd_xfer_set_frame_offset(xfer, REQ_SIZE, 1); 721f9f848faSopenharmony_ci } 722f9f848faSopenharmony_ci } 723f9f848faSopenharmony_ci#else 724f9f848faSopenharmony_ci /* align data */ 725f9f848faSopenharmony_ci parm->size[0] += ((-parm->size[0]) & (USB_HOST_ALIGN - 1)); 726f9f848faSopenharmony_ci 727f9f848faSopenharmony_ci if (parm->buf != NULL) { 728f9f848faSopenharmony_ci xfer->local_buffer = 729f9f848faSopenharmony_ci USB_ADD_BYTES(parm->buf, parm->size[0]); 730f9f848faSopenharmony_ci 731f9f848faSopenharmony_ci usbd_xfer_set_frame_offset(xfer, 0, 0); 732f9f848faSopenharmony_ci 733f9f848faSopenharmony_ci if ((type == UE_CONTROL) && (n_frbuffers > 1)) { 734f9f848faSopenharmony_ci usbd_xfer_set_frame_offset(xfer, REQ_SIZE, 1); 735f9f848faSopenharmony_ci } 736f9f848faSopenharmony_ci } 737f9f848faSopenharmony_ci parm->size[0] += parm->bufsize; 738f9f848faSopenharmony_ci 739f9f848faSopenharmony_ci /* align data again */ 740f9f848faSopenharmony_ci parm->size[0] += ((-parm->size[0]) & (USB_HOST_ALIGN - 1)); 741f9f848faSopenharmony_ci#endif 742f9f848faSopenharmony_ci } 743f9f848faSopenharmony_ci /* 744f9f848faSopenharmony_ci * Compute maximum buffer size 745f9f848faSopenharmony_ci */ 746f9f848faSopenharmony_ci 747f9f848faSopenharmony_ci if (parm->bufsize_max < parm->bufsize) { 748f9f848faSopenharmony_ci parm->bufsize_max = parm->bufsize; 749f9f848faSopenharmony_ci } 750f9f848faSopenharmony_ci#if USB_HAVE_BUSDMA 751f9f848faSopenharmony_ci if (xfer->flags_int.bdma_enable) { 752f9f848faSopenharmony_ci /* 753f9f848faSopenharmony_ci * Setup "dma_page_ptr". 754f9f848faSopenharmony_ci * 755f9f848faSopenharmony_ci * Proof for formula below: 756f9f848faSopenharmony_ci * 757f9f848faSopenharmony_ci * Assume there are three USB frames having length "a", "b" and 758f9f848faSopenharmony_ci * "c". These USB frames will at maximum need "z" 759f9f848faSopenharmony_ci * "usb_page" structures. "z" is given by: 760f9f848faSopenharmony_ci * 761f9f848faSopenharmony_ci * z = ((a / USB_PAGE_SIZE) + 2) + ((b / USB_PAGE_SIZE) + 2) + 762f9f848faSopenharmony_ci * ((c / USB_PAGE_SIZE) + 2); 763f9f848faSopenharmony_ci * 764f9f848faSopenharmony_ci * Constraining "a", "b" and "c" like this: 765f9f848faSopenharmony_ci * 766f9f848faSopenharmony_ci * (a + b + c) <= parm->bufsize 767f9f848faSopenharmony_ci * 768f9f848faSopenharmony_ci * We know that: 769f9f848faSopenharmony_ci * 770f9f848faSopenharmony_ci * z <= ((parm->bufsize / USB_PAGE_SIZE) + (3*2)); 771f9f848faSopenharmony_ci * 772f9f848faSopenharmony_ci * Here is the general formula: 773f9f848faSopenharmony_ci */ 774f9f848faSopenharmony_ci xfer->dma_page_ptr = parm->dma_page_ptr; 775f9f848faSopenharmony_ci parm->dma_page_ptr += (2 * n_frbuffers); 776f9f848faSopenharmony_ci parm->dma_page_ptr += (parm->bufsize / USB_PAGE_SIZE); 777f9f848faSopenharmony_ci } 778f9f848faSopenharmony_ci#endif 779f9f848faSopenharmony_ci if (zmps) { 780f9f848faSopenharmony_ci /* correct maximum data length */ 781f9f848faSopenharmony_ci xfer->max_data_length = 0; 782f9f848faSopenharmony_ci } 783f9f848faSopenharmony_ci /* subtract USB frame remainder from "hc_max_frame_size" */ 784f9f848faSopenharmony_ci 785f9f848faSopenharmony_ci xfer->max_hc_frame_size = 786f9f848faSopenharmony_ci (parm->hc_max_frame_size - 787f9f848faSopenharmony_ci (parm->hc_max_frame_size % xfer->max_frame_size)); 788f9f848faSopenharmony_ci 789f9f848faSopenharmony_ci if (xfer->max_hc_frame_size == 0) { 790f9f848faSopenharmony_ci parm->err = USB_ERR_INVAL; 791f9f848faSopenharmony_ci goto done; 792f9f848faSopenharmony_ci } 793f9f848faSopenharmony_ci 794f9f848faSopenharmony_ci /* initialize frame buffers */ 795f9f848faSopenharmony_ci 796f9f848faSopenharmony_ci if (parm->buf) { 797f9f848faSopenharmony_ci for (x = 0; x != n_frbuffers; x++) { 798f9f848faSopenharmony_ci xfer->frbuffers[x].tag_parent = 799f9f848faSopenharmony_ci &xfer->xroot->dma_parent_tag; 800f9f848faSopenharmony_ci#if USB_HAVE_BUSDMA 801f9f848faSopenharmony_ci if (xfer->flags_int.bdma_enable && 802f9f848faSopenharmony_ci (parm->bufsize_max > 0)) { 803f9f848faSopenharmony_ci if (usb_pc_dmamap_create( 804f9f848faSopenharmony_ci xfer->frbuffers + x, 805f9f848faSopenharmony_ci parm->bufsize_max)) { 806f9f848faSopenharmony_ci parm->err = USB_ERR_NOMEM; 807f9f848faSopenharmony_ci goto done; 808f9f848faSopenharmony_ci } 809f9f848faSopenharmony_ci } 810f9f848faSopenharmony_ci#endif 811f9f848faSopenharmony_ci } 812f9f848faSopenharmony_ci } 813f9f848faSopenharmony_cidone: 814f9f848faSopenharmony_ci if (parm->err) { 815f9f848faSopenharmony_ci /* 816f9f848faSopenharmony_ci * Set some dummy values so that we avoid division by zero: 817f9f848faSopenharmony_ci */ 818f9f848faSopenharmony_ci xfer->max_hc_frame_size = 1; 819f9f848faSopenharmony_ci xfer->max_frame_size = 1; 820f9f848faSopenharmony_ci xfer->max_packet_size = 1; 821f9f848faSopenharmony_ci xfer->max_data_length = 0; 822f9f848faSopenharmony_ci xfer->nframes = 0; 823f9f848faSopenharmony_ci xfer->max_frame_count = 0; 824f9f848faSopenharmony_ci } 825f9f848faSopenharmony_ci} 826f9f848faSopenharmony_ci 827f9f848faSopenharmony_cistatic uint8_t 828f9f848faSopenharmony_ciusbd_transfer_setup_has_bulk(const struct usb_config *setup_start, 829f9f848faSopenharmony_ci uint16_t n_setup) 830f9f848faSopenharmony_ci{ 831f9f848faSopenharmony_ci uint8_t type; 832f9f848faSopenharmony_ci 833f9f848faSopenharmony_ci while (n_setup--) { 834f9f848faSopenharmony_ci type = setup_start[n_setup].type; 835f9f848faSopenharmony_ci if ((type == UE_BULK) || (type == UE_BULK_INTR) || 836f9f848faSopenharmony_ci (type == UE_TYPE_ANY)) 837f9f848faSopenharmony_ci return (1); 838f9f848faSopenharmony_ci } 839f9f848faSopenharmony_ci return (0); 840f9f848faSopenharmony_ci} 841f9f848faSopenharmony_ci 842f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 843f9f848faSopenharmony_ci * usbd_transfer_setup - setup an array of USB transfers 844f9f848faSopenharmony_ci * 845f9f848faSopenharmony_ci * NOTE: You must always call "usbd_transfer_unsetup" after calling 846f9f848faSopenharmony_ci * "usbd_transfer_setup" if success was returned. 847f9f848faSopenharmony_ci * 848f9f848faSopenharmony_ci * The idea is that the USB device driver should pre-allocate all its 849f9f848faSopenharmony_ci * transfers by one call to this function. 850f9f848faSopenharmony_ci * 851f9f848faSopenharmony_ci * Return values: 852f9f848faSopenharmony_ci * 0: Success 853f9f848faSopenharmony_ci * Else: Failure 854f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 855f9f848faSopenharmony_ciusb_error_t 856f9f848faSopenharmony_ciusbd_transfer_setup(struct usb_device *udev, 857f9f848faSopenharmony_ci const uint8_t *ifaces, struct usb_xfer **ppxfer, 858f9f848faSopenharmony_ci const struct usb_config *setup_start, uint16_t n_setup, 859f9f848faSopenharmony_ci void *priv_sc, struct mtx *xfer_mtx) 860f9f848faSopenharmony_ci{ 861f9f848faSopenharmony_ci const struct usb_config *setup_end = setup_start + n_setup; 862f9f848faSopenharmony_ci const struct usb_config *setup; 863f9f848faSopenharmony_ci struct usb_setup_params *parm; 864f9f848faSopenharmony_ci struct usb_endpoint *ep; 865f9f848faSopenharmony_ci struct usb_xfer_root *info; 866f9f848faSopenharmony_ci struct usb_xfer *xfer; 867f9f848faSopenharmony_ci void *buf = NULL; 868f9f848faSopenharmony_ci usb_error_t error = USB_ERR_NORMAL_COMPLETION; 869f9f848faSopenharmony_ci uint16_t n; 870f9f848faSopenharmony_ci uint16_t refcount; 871f9f848faSopenharmony_ci uint8_t do_unlock; 872f9f848faSopenharmony_ci 873f9f848faSopenharmony_ci WITNESS_WARN(WARN_GIANTOK | WARN_SLEEPOK, NULL, 874f9f848faSopenharmony_ci "usbd_transfer_setup can sleep!"); 875f9f848faSopenharmony_ci 876f9f848faSopenharmony_ci /* do some checking first */ 877f9f848faSopenharmony_ci 878f9f848faSopenharmony_ci if (n_setup == 0) { 879f9f848faSopenharmony_ci DPRINTFN(5, "setup array has zero length!\n"); 880f9f848faSopenharmony_ci return (USB_ERR_INVAL); 881f9f848faSopenharmony_ci } 882f9f848faSopenharmony_ci if (ifaces == 0) { 883f9f848faSopenharmony_ci DPRINTFN(5, "ifaces array is NULL!\n"); 884f9f848faSopenharmony_ci return (USB_ERR_INVAL); 885f9f848faSopenharmony_ci } 886f9f848faSopenharmony_ci if (xfer_mtx == NULL) { 887f9f848faSopenharmony_ci DPRINTFN(5, "using global lock\n"); 888f9f848faSopenharmony_ci xfer_mtx = &Giant; 889f9f848faSopenharmony_ci } 890f9f848faSopenharmony_ci 891f9f848faSopenharmony_ci /* more sanity checks */ 892f9f848faSopenharmony_ci 893f9f848faSopenharmony_ci for (setup = setup_start, n = 0; 894f9f848faSopenharmony_ci setup != setup_end; setup++, n++) { 895f9f848faSopenharmony_ci if (setup->bufsize == (usb_frlength_t)-1) { 896f9f848faSopenharmony_ci error = USB_ERR_BAD_BUFSIZE; 897f9f848faSopenharmony_ci DPRINTF("invalid bufsize\n"); 898f9f848faSopenharmony_ci } 899f9f848faSopenharmony_ci if (setup->callback == NULL) { 900f9f848faSopenharmony_ci error = USB_ERR_NO_CALLBACK; 901f9f848faSopenharmony_ci DPRINTF("no callback\n"); 902f9f848faSopenharmony_ci } 903f9f848faSopenharmony_ci ppxfer[n] = NULL; 904f9f848faSopenharmony_ci } 905f9f848faSopenharmony_ci 906f9f848faSopenharmony_ci if (error) 907f9f848faSopenharmony_ci return (error); 908f9f848faSopenharmony_ci 909f9f848faSopenharmony_ci /* Protect scratch area */ 910f9f848faSopenharmony_ci do_unlock = usbd_ctrl_lock(udev); 911f9f848faSopenharmony_ci 912f9f848faSopenharmony_ci refcount = 0; 913f9f848faSopenharmony_ci info = NULL; 914f9f848faSopenharmony_ci 915f9f848faSopenharmony_ci parm = &udev->scratch.xfer_setup[0].parm; 916f9f848faSopenharmony_ci (void)memset_s(parm, sizeof(*parm), 0, sizeof(*parm)); 917f9f848faSopenharmony_ci 918f9f848faSopenharmony_ci parm->udev = udev; 919f9f848faSopenharmony_ci parm->speed = usbd_get_speed(udev); 920f9f848faSopenharmony_ci parm->hc_max_packet_count = 1; 921f9f848faSopenharmony_ci 922f9f848faSopenharmony_ci if (parm->speed >= USB_SPEED_MAX) { 923f9f848faSopenharmony_ci parm->err = USB_ERR_INVAL; 924f9f848faSopenharmony_ci goto done; 925f9f848faSopenharmony_ci } 926f9f848faSopenharmony_ci /* setup all transfers */ 927f9f848faSopenharmony_ci 928f9f848faSopenharmony_ci while (1) { 929f9f848faSopenharmony_ci if (buf) { 930f9f848faSopenharmony_ci /* 931f9f848faSopenharmony_ci * Initialize the "usb_xfer_root" structure, 932f9f848faSopenharmony_ci * which is common for all our USB transfers. 933f9f848faSopenharmony_ci */ 934f9f848faSopenharmony_ci info = USB_ADD_BYTES(buf, 0); 935f9f848faSopenharmony_ci 936f9f848faSopenharmony_ci info->memory_base = buf; 937f9f848faSopenharmony_ci info->memory_size = parm->size[0]; 938f9f848faSopenharmony_ci 939f9f848faSopenharmony_ci#if USB_HAVE_BUSDMA 940f9f848faSopenharmony_ci info->dma_page_cache_start = USB_ADD_BYTES(buf, parm->size[4]); 941f9f848faSopenharmony_ci info->dma_page_cache_end = USB_ADD_BYTES(buf, parm->size[5]); 942f9f848faSopenharmony_ci#endif 943f9f848faSopenharmony_ci info->xfer_page_cache_start = USB_ADD_BYTES(buf, parm->size[5]); 944f9f848faSopenharmony_ci info->xfer_page_cache_end = USB_ADD_BYTES(buf, parm->size[2]); 945f9f848faSopenharmony_ci 946f9f848faSopenharmony_ci cv_init(&info->cv_drain, "WDRAIN"); 947f9f848faSopenharmony_ci 948f9f848faSopenharmony_ci info->xfer_mtx = xfer_mtx; 949f9f848faSopenharmony_ci#if USB_HAVE_BUSDMA 950f9f848faSopenharmony_ci usb_dma_tag_setup(&info->dma_parent_tag, 951f9f848faSopenharmony_ci parm->dma_tag_p, udev->bus->dma_parent_tag[0].tag, 952f9f848faSopenharmony_ci xfer_mtx, &usb_bdma_done_event, udev->bus->dma_bits, parm->dma_tag_max); 953f9f848faSopenharmony_ci#endif 954f9f848faSopenharmony_ci 955f9f848faSopenharmony_ci info->bus = udev->bus; 956f9f848faSopenharmony_ci info->udev = udev; 957f9f848faSopenharmony_ci 958f9f848faSopenharmony_ci TAILQ_INIT(&info->done_q.head); 959f9f848faSopenharmony_ci info->done_q.command = &usbd_callback_wrapper; 960f9f848faSopenharmony_ci#if USB_HAVE_BUSDMA 961f9f848faSopenharmony_ci TAILQ_INIT(&info->dma_q.head); 962f9f848faSopenharmony_ci info->dma_q.command = &usb_bdma_work_loop; 963f9f848faSopenharmony_ci#endif 964f9f848faSopenharmony_ci info->done_m[0].hdr.pm_callback = &usb_callback_proc; 965f9f848faSopenharmony_ci info->done_m[0].xroot = info; 966f9f848faSopenharmony_ci info->done_m[1].hdr.pm_callback = &usb_callback_proc; 967f9f848faSopenharmony_ci info->done_m[1].xroot = info; 968f9f848faSopenharmony_ci 969f9f848faSopenharmony_ci /* 970f9f848faSopenharmony_ci * In device side mode control endpoint 971f9f848faSopenharmony_ci * requests need to run from a separate 972f9f848faSopenharmony_ci * context, else there is a chance of 973f9f848faSopenharmony_ci * deadlock! 974f9f848faSopenharmony_ci */ 975f9f848faSopenharmony_ci if (setup_start == usb_control_ep_cfg || 976f9f848faSopenharmony_ci setup_start == usb_control_ep_quirk_cfg) 977f9f848faSopenharmony_ci info->done_p = 978f9f848faSopenharmony_ci USB_BUS_CONTROL_XFER_PROC(udev->bus); 979f9f848faSopenharmony_ci else if (xfer_mtx == &Giant) 980f9f848faSopenharmony_ci info->done_p = 981f9f848faSopenharmony_ci USB_BUS_GIANT_PROC(udev->bus); 982f9f848faSopenharmony_ci else if (usbd_transfer_setup_has_bulk(setup_start, n_setup)) 983f9f848faSopenharmony_ci info->done_p = 984f9f848faSopenharmony_ci USB_BUS_NON_GIANT_BULK_PROC(udev->bus); 985f9f848faSopenharmony_ci else 986f9f848faSopenharmony_ci info->done_p = 987f9f848faSopenharmony_ci USB_BUS_NON_GIANT_ISOC_PROC(udev->bus); 988f9f848faSopenharmony_ci } 989f9f848faSopenharmony_ci /* reset sizes */ 990f9f848faSopenharmony_ci 991f9f848faSopenharmony_ci parm->size[0] = 0; 992f9f848faSopenharmony_ci parm->buf = buf; 993f9f848faSopenharmony_ci parm->size[0] += sizeof(info[0]); 994f9f848faSopenharmony_ci 995f9f848faSopenharmony_ci for (setup = setup_start, n = 0; 996f9f848faSopenharmony_ci setup != setup_end; setup++, n++) { 997f9f848faSopenharmony_ci /* skip USB transfers without callbacks: */ 998f9f848faSopenharmony_ci if (setup->callback == NULL) { 999f9f848faSopenharmony_ci continue; 1000f9f848faSopenharmony_ci } 1001f9f848faSopenharmony_ci /* see if there is a matching endpoint */ 1002f9f848faSopenharmony_ci ep = usbd_get_endpoint(udev, 1003f9f848faSopenharmony_ci ifaces[setup->if_index], setup); 1004f9f848faSopenharmony_ci 1005f9f848faSopenharmony_ci /* 1006f9f848faSopenharmony_ci * Check that the USB PIPE is valid and that 1007f9f848faSopenharmony_ci * the endpoint mode is proper. 1008f9f848faSopenharmony_ci * 1009f9f848faSopenharmony_ci * Make sure we don't allocate a streams 1010f9f848faSopenharmony_ci * transfer when such a combination is not 1011f9f848faSopenharmony_ci * valid. 1012f9f848faSopenharmony_ci */ 1013f9f848faSopenharmony_ci if ((ep == NULL) || (ep->methods == NULL) || 1014f9f848faSopenharmony_ci ((ep->ep_mode != USB_EP_MODE_STREAMS) && 1015f9f848faSopenharmony_ci (ep->ep_mode != USB_EP_MODE_DEFAULT)) || 1016f9f848faSopenharmony_ci ((setup->stream_id != 0) && 1017f9f848faSopenharmony_ci ((setup->stream_id >= USB_MAX_EP_STREAMS) || 1018f9f848faSopenharmony_ci (ep->ep_mode != USB_EP_MODE_STREAMS)))) { 1019f9f848faSopenharmony_ci if (setup->flags.no_pipe_ok) 1020f9f848faSopenharmony_ci continue; 1021f9f848faSopenharmony_ci if ((setup->usb_mode != USB_MODE_DUAL) && 1022f9f848faSopenharmony_ci (setup->usb_mode != udev->flags.usb_mode)) 1023f9f848faSopenharmony_ci continue; 1024f9f848faSopenharmony_ci parm->err = USB_ERR_NO_PIPE; 1025f9f848faSopenharmony_ci goto done; 1026f9f848faSopenharmony_ci } 1027f9f848faSopenharmony_ci 1028f9f848faSopenharmony_ci /* align data properly */ 1029f9f848faSopenharmony_ci parm->size[0] += ((-parm->size[0]) & (USB_HOST_ALIGN - 1)); 1030f9f848faSopenharmony_ci 1031f9f848faSopenharmony_ci /* store current setup pointer */ 1032f9f848faSopenharmony_ci parm->curr_setup = setup; 1033f9f848faSopenharmony_ci 1034f9f848faSopenharmony_ci if (buf) { 1035f9f848faSopenharmony_ci /* 1036f9f848faSopenharmony_ci * Common initialization of the 1037f9f848faSopenharmony_ci * "usb_xfer" structure. 1038f9f848faSopenharmony_ci */ 1039f9f848faSopenharmony_ci xfer = USB_ADD_BYTES(buf, parm->size[0]); 1040f9f848faSopenharmony_ci xfer->address = udev->address; 1041f9f848faSopenharmony_ci xfer->priv_sc = priv_sc; 1042f9f848faSopenharmony_ci xfer->xroot = info; 1043f9f848faSopenharmony_ci 1044f9f848faSopenharmony_ci usb_callout_init_mtx(&xfer->timeout_handle, 1045f9f848faSopenharmony_ci &udev->bus->bus_mtx, 0); 1046f9f848faSopenharmony_ci } else { 1047f9f848faSopenharmony_ci /* 1048f9f848faSopenharmony_ci * Setup a dummy xfer, hence we are 1049f9f848faSopenharmony_ci * writing to the "usb_xfer" 1050f9f848faSopenharmony_ci * structure pointed to by "xfer" 1051f9f848faSopenharmony_ci * before we have allocated any 1052f9f848faSopenharmony_ci * memory: 1053f9f848faSopenharmony_ci */ 1054f9f848faSopenharmony_ci xfer = &udev->scratch.xfer_setup[0].dummy; 1055f9f848faSopenharmony_ci (void)memset_s(xfer, sizeof(*xfer), 0, sizeof(*xfer)); 1056f9f848faSopenharmony_ci refcount++; 1057f9f848faSopenharmony_ci } 1058f9f848faSopenharmony_ci 1059f9f848faSopenharmony_ci /* set transfer endpoint pointer */ 1060f9f848faSopenharmony_ci xfer->endpoint = ep; 1061f9f848faSopenharmony_ci 1062f9f848faSopenharmony_ci /* set transfer stream ID */ 1063f9f848faSopenharmony_ci xfer->stream_id = setup->stream_id; 1064f9f848faSopenharmony_ci 1065f9f848faSopenharmony_ci parm->size[0] += sizeof(xfer[0]); 1066f9f848faSopenharmony_ci parm->methods = xfer->endpoint->methods; 1067f9f848faSopenharmony_ci parm->curr_xfer = xfer; 1068f9f848faSopenharmony_ci 1069f9f848faSopenharmony_ci /* 1070f9f848faSopenharmony_ci * Call the Host or Device controller transfer 1071f9f848faSopenharmony_ci * setup routine: 1072f9f848faSopenharmony_ci */ 1073f9f848faSopenharmony_ci (udev->bus->methods->xfer_setup) (parm); 1074f9f848faSopenharmony_ci 1075f9f848faSopenharmony_ci /* check for error */ 1076f9f848faSopenharmony_ci if (parm->err) 1077f9f848faSopenharmony_ci goto done; 1078f9f848faSopenharmony_ci 1079f9f848faSopenharmony_ci if (buf) { 1080f9f848faSopenharmony_ci /* 1081f9f848faSopenharmony_ci * Increment the endpoint refcount. This 1082f9f848faSopenharmony_ci * basically prevents setting a new 1083f9f848faSopenharmony_ci * configuration and alternate setting 1084f9f848faSopenharmony_ci * when USB transfers are in use on 1085f9f848faSopenharmony_ci * the given interface. Search the USB 1086f9f848faSopenharmony_ci * code for "endpoint->refcount_alloc" if you 1087f9f848faSopenharmony_ci * want more information. 1088f9f848faSopenharmony_ci */ 1089f9f848faSopenharmony_ci USB_BUS_LOCK(info->bus); 1090f9f848faSopenharmony_ci if (xfer->endpoint->refcount_alloc >= USB_EP_REF_MAX) 1091f9f848faSopenharmony_ci parm->err = USB_ERR_INVAL; 1092f9f848faSopenharmony_ci 1093f9f848faSopenharmony_ci xfer->endpoint->refcount_alloc++; 1094f9f848faSopenharmony_ci 1095f9f848faSopenharmony_ci if (xfer->endpoint->refcount_alloc == 0) 1096f9f848faSopenharmony_ci panic("usbd_transfer_setup(): Refcount wrapped to zero\n"); 1097f9f848faSopenharmony_ci USB_BUS_UNLOCK(info->bus); 1098f9f848faSopenharmony_ci 1099f9f848faSopenharmony_ci /* 1100f9f848faSopenharmony_ci * Whenever we set ppxfer[] then we 1101f9f848faSopenharmony_ci * also need to increment the 1102f9f848faSopenharmony_ci * "setup_refcount": 1103f9f848faSopenharmony_ci */ 1104f9f848faSopenharmony_ci info->setup_refcount++; 1105f9f848faSopenharmony_ci 1106f9f848faSopenharmony_ci /* 1107f9f848faSopenharmony_ci * Transfer is successfully setup and 1108f9f848faSopenharmony_ci * can be used: 1109f9f848faSopenharmony_ci */ 1110f9f848faSopenharmony_ci ppxfer[n] = xfer; 1111f9f848faSopenharmony_ci } 1112f9f848faSopenharmony_ci 1113f9f848faSopenharmony_ci /* check for error */ 1114f9f848faSopenharmony_ci if (parm->err) 1115f9f848faSopenharmony_ci goto done; 1116f9f848faSopenharmony_ci } 1117f9f848faSopenharmony_ci 1118f9f848faSopenharmony_ci if ((buf != NULL) || (parm->err != 0)) 1119f9f848faSopenharmony_ci goto done; 1120f9f848faSopenharmony_ci 1121f9f848faSopenharmony_ci /* if no transfers, nothing to do */ 1122f9f848faSopenharmony_ci if (refcount == 0) 1123f9f848faSopenharmony_ci goto done; 1124f9f848faSopenharmony_ci 1125f9f848faSopenharmony_ci /* align data properly */ 1126f9f848faSopenharmony_ci parm->size[0] += ((-parm->size[0]) & (USB_HOST_ALIGN - 1)); 1127f9f848faSopenharmony_ci 1128f9f848faSopenharmony_ci /* store offset temporarily */ 1129f9f848faSopenharmony_ci parm->size[1] = parm->size[0]; 1130f9f848faSopenharmony_ci 1131f9f848faSopenharmony_ci /* 1132f9f848faSopenharmony_ci * The number of DMA tags required depends on 1133f9f848faSopenharmony_ci * the number of endpoints. The current estimate 1134f9f848faSopenharmony_ci * for maximum number of DMA tags per endpoint 1135f9f848faSopenharmony_ci * is three: 1136f9f848faSopenharmony_ci * 1) for loading memory 1137f9f848faSopenharmony_ci * 2) for allocating memory 1138f9f848faSopenharmony_ci * 3) for fixing memory [UHCI] 1139f9f848faSopenharmony_ci */ 1140f9f848faSopenharmony_ci parm->dma_tag_max += 3 * MIN(n_setup, USB_EP_MAX); 1141f9f848faSopenharmony_ci 1142f9f848faSopenharmony_ci /* 1143f9f848faSopenharmony_ci * DMA tags for QH, TD, Data and more. 1144f9f848faSopenharmony_ci */ 1145f9f848faSopenharmony_ci parm->dma_tag_max += 8; 1146f9f848faSopenharmony_ci 1147f9f848faSopenharmony_ci parm->dma_tag_p += parm->dma_tag_max; 1148f9f848faSopenharmony_ci 1149f9f848faSopenharmony_ci parm->size[0] += ((uint8_t *)parm->dma_tag_p) - 1150f9f848faSopenharmony_ci ((uint8_t *)0); 1151f9f848faSopenharmony_ci 1152f9f848faSopenharmony_ci /* align data properly */ 1153f9f848faSopenharmony_ci parm->size[0] += ((-parm->size[0]) & (USB_HOST_ALIGN - 1)); 1154f9f848faSopenharmony_ci 1155f9f848faSopenharmony_ci /* store offset temporarily */ 1156f9f848faSopenharmony_ci parm->size[3] = parm->size[0]; 1157f9f848faSopenharmony_ci 1158f9f848faSopenharmony_ci parm->size[0] += ((uint8_t *)parm->dma_page_ptr) - 1159f9f848faSopenharmony_ci ((uint8_t *)0); 1160f9f848faSopenharmony_ci 1161f9f848faSopenharmony_ci /* align data properly */ 1162f9f848faSopenharmony_ci parm->size[0] += ((-parm->size[0]) & (USB_HOST_ALIGN - 1)); 1163f9f848faSopenharmony_ci 1164f9f848faSopenharmony_ci /* store offset temporarily */ 1165f9f848faSopenharmony_ci parm->size[4] = parm->size[0]; 1166f9f848faSopenharmony_ci 1167f9f848faSopenharmony_ci parm->size[0] += ((uint8_t *)parm->dma_page_cache_ptr) - 1168f9f848faSopenharmony_ci ((uint8_t *)0); 1169f9f848faSopenharmony_ci 1170f9f848faSopenharmony_ci /* store end offset temporarily */ 1171f9f848faSopenharmony_ci parm->size[5] = parm->size[0]; 1172f9f848faSopenharmony_ci 1173f9f848faSopenharmony_ci parm->size[0] += ((uint8_t *)parm->xfer_page_cache_ptr) - 1174f9f848faSopenharmony_ci ((uint8_t *)0); 1175f9f848faSopenharmony_ci 1176f9f848faSopenharmony_ci /* store end offset temporarily */ 1177f9f848faSopenharmony_ci 1178f9f848faSopenharmony_ci parm->size[2] = parm->size[0]; 1179f9f848faSopenharmony_ci 1180f9f848faSopenharmony_ci /* align data properly */ 1181f9f848faSopenharmony_ci parm->size[0] += ((-parm->size[0]) & (USB_HOST_ALIGN - 1)); 1182f9f848faSopenharmony_ci 1183f9f848faSopenharmony_ci parm->size[6] = parm->size[0]; 1184f9f848faSopenharmony_ci 1185f9f848faSopenharmony_ci parm->size[0] += ((uint8_t *)parm->xfer_length_ptr) - 1186f9f848faSopenharmony_ci ((uint8_t *)0); 1187f9f848faSopenharmony_ci 1188f9f848faSopenharmony_ci /* align data properly */ 1189f9f848faSopenharmony_ci parm->size[0] += ((-parm->size[0]) & (USB_HOST_ALIGN - 1)); 1190f9f848faSopenharmony_ci 1191f9f848faSopenharmony_ci /* allocate zeroed memory */ 1192f9f848faSopenharmony_ci buf = bsd_malloc(parm->size[0], M_USB, M_WAITOK | M_ZERO); 1193f9f848faSopenharmony_ci 1194f9f848faSopenharmony_ci if (buf == NULL) { 1195f9f848faSopenharmony_ci parm->err = USB_ERR_NOMEM; 1196f9f848faSopenharmony_ci DPRINTFN(0, "cannot allocate memory block for " 1197f9f848faSopenharmony_ci "configuration (%d bytes)\n", 1198f9f848faSopenharmony_ci parm->size[0]); 1199f9f848faSopenharmony_ci goto done; 1200f9f848faSopenharmony_ci } 1201f9f848faSopenharmony_ci parm->dma_tag_p = USB_ADD_BYTES(buf, parm->size[1]); 1202f9f848faSopenharmony_ci parm->dma_page_ptr = USB_ADD_BYTES(buf, parm->size[3]); 1203f9f848faSopenharmony_ci parm->dma_page_cache_ptr = USB_ADD_BYTES(buf, parm->size[4]); 1204f9f848faSopenharmony_ci parm->xfer_page_cache_ptr = USB_ADD_BYTES(buf, parm->size[5]); 1205f9f848faSopenharmony_ci parm->xfer_length_ptr = USB_ADD_BYTES(buf, parm->size[6]); 1206f9f848faSopenharmony_ci } 1207f9f848faSopenharmony_ci 1208f9f848faSopenharmony_cidone: 1209f9f848faSopenharmony_ci if (buf) { 1210f9f848faSopenharmony_ci if (info->setup_refcount == 0) { 1211f9f848faSopenharmony_ci /* 1212f9f848faSopenharmony_ci * "usbd_transfer_unsetup_sub" will unlock 1213f9f848faSopenharmony_ci * the bus mutex before returning ! 1214f9f848faSopenharmony_ci */ 1215f9f848faSopenharmony_ci USB_BUS_LOCK(info->bus); 1216f9f848faSopenharmony_ci 1217f9f848faSopenharmony_ci /* something went wrong */ 1218f9f848faSopenharmony_ci usbd_transfer_unsetup_sub(info, 0); 1219f9f848faSopenharmony_ci } 1220f9f848faSopenharmony_ci } 1221f9f848faSopenharmony_ci 1222f9f848faSopenharmony_ci /* check if any errors happened */ 1223f9f848faSopenharmony_ci if (parm->err) 1224f9f848faSopenharmony_ci usbd_transfer_unsetup(ppxfer, n_setup); 1225f9f848faSopenharmony_ci 1226f9f848faSopenharmony_ci error = parm->err; 1227f9f848faSopenharmony_ci 1228f9f848faSopenharmony_ci if (do_unlock) 1229f9f848faSopenharmony_ci usbd_ctrl_unlock(udev); 1230f9f848faSopenharmony_ci 1231f9f848faSopenharmony_ci return (error); 1232f9f848faSopenharmony_ci} 1233f9f848faSopenharmony_ci 1234f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 1235f9f848faSopenharmony_ci * usbd_transfer_unsetup_sub - factored out code 1236f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 1237f9f848faSopenharmony_cistatic void 1238f9f848faSopenharmony_ciusbd_transfer_unsetup_sub(struct usb_xfer_root *info, uint8_t needs_delay) 1239f9f848faSopenharmony_ci{ 1240f9f848faSopenharmony_ci#if USB_HAVE_BUSDMA 1241f9f848faSopenharmony_ci struct usb_page_cache *pc; 1242f9f848faSopenharmony_ci#endif 1243f9f848faSopenharmony_ci 1244f9f848faSopenharmony_ci USB_BUS_LOCK_ASSERT(info->bus, MA_OWNED); 1245f9f848faSopenharmony_ci 1246f9f848faSopenharmony_ci /* wait for any outstanding DMA operations */ 1247f9f848faSopenharmony_ci 1248f9f848faSopenharmony_ci if (needs_delay) { 1249f9f848faSopenharmony_ci usb_timeout_t temp; 1250f9f848faSopenharmony_ci temp = usbd_get_dma_delay(info->udev); 1251f9f848faSopenharmony_ci if (temp != 0) { 1252f9f848faSopenharmony_ci usb_pause_mtx(&info->bus->bus_mtx, 1253f9f848faSopenharmony_ci USB_MS_TO_TICKS(temp)); 1254f9f848faSopenharmony_ci } 1255f9f848faSopenharmony_ci } 1256f9f848faSopenharmony_ci 1257f9f848faSopenharmony_ci /* make sure that our done messages are not queued anywhere */ 1258f9f848faSopenharmony_ci usb_proc_mwait(info->done_p, &info->done_m[0], &info->done_m[1]); 1259f9f848faSopenharmony_ci 1260f9f848faSopenharmony_ci USB_BUS_UNLOCK(info->bus); 1261f9f848faSopenharmony_ci 1262f9f848faSopenharmony_ci#if USB_HAVE_BUSDMA 1263f9f848faSopenharmony_ci /* free DMA'able memory, if any */ 1264f9f848faSopenharmony_ci pc = info->dma_page_cache_start; 1265f9f848faSopenharmony_ci while (pc != info->dma_page_cache_end) { 1266f9f848faSopenharmony_ci usb_pc_free_mem(pc); 1267f9f848faSopenharmony_ci pc++; 1268f9f848faSopenharmony_ci } 1269f9f848faSopenharmony_ci 1270f9f848faSopenharmony_ci /* free DMA maps in all "xfer->frbuffers" */ 1271f9f848faSopenharmony_ci pc = info->xfer_page_cache_start; 1272f9f848faSopenharmony_ci while (pc != info->xfer_page_cache_end) { 1273f9f848faSopenharmony_ci usb_pc_dmamap_destroy(pc); 1274f9f848faSopenharmony_ci pc++; 1275f9f848faSopenharmony_ci } 1276f9f848faSopenharmony_ci 1277f9f848faSopenharmony_ci /* free all DMA tags */ 1278f9f848faSopenharmony_ci usb_dma_tag_unsetup(&info->dma_parent_tag); 1279f9f848faSopenharmony_ci#endif 1280f9f848faSopenharmony_ci 1281f9f848faSopenharmony_ci cv_destroy(&info->cv_drain); 1282f9f848faSopenharmony_ci 1283f9f848faSopenharmony_ci /* 1284f9f848faSopenharmony_ci * free the "memory_base" last, hence the "info" structure is 1285f9f848faSopenharmony_ci * contained within the "memory_base"! 1286f9f848faSopenharmony_ci */ 1287f9f848faSopenharmony_ci bsd_free(info->memory_base, M_USB); 1288f9f848faSopenharmony_ci info->memory_base = NULL; 1289f9f848faSopenharmony_ci} 1290f9f848faSopenharmony_ci 1291f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 1292f9f848faSopenharmony_ci * usbd_transfer_unsetup - unsetup/free an array of USB transfers 1293f9f848faSopenharmony_ci * 1294f9f848faSopenharmony_ci * NOTE: All USB transfers in progress will get called back passing 1295f9f848faSopenharmony_ci * the error code "USB_ERR_CANCELLED" before this function 1296f9f848faSopenharmony_ci * returns. 1297f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 1298f9f848faSopenharmony_civoid 1299f9f848faSopenharmony_ciusbd_transfer_unsetup(struct usb_xfer **pxfer, uint16_t n_setup) 1300f9f848faSopenharmony_ci{ 1301f9f848faSopenharmony_ci struct usb_xfer *xfer; 1302f9f848faSopenharmony_ci struct usb_xfer_root *info; 1303f9f848faSopenharmony_ci uint8_t needs_delay = 0; 1304f9f848faSopenharmony_ci 1305f9f848faSopenharmony_ci WITNESS_WARN(WARN_GIANTOK | WARN_SLEEPOK, NULL, 1306f9f848faSopenharmony_ci "usbd_transfer_unsetup can sleep!"); 1307f9f848faSopenharmony_ci 1308f9f848faSopenharmony_ci while (n_setup--) { 1309f9f848faSopenharmony_ci xfer = pxfer[n_setup]; 1310f9f848faSopenharmony_ci 1311f9f848faSopenharmony_ci if (xfer == NULL) 1312f9f848faSopenharmony_ci continue; 1313f9f848faSopenharmony_ci 1314f9f848faSopenharmony_ci info = xfer->xroot; 1315f9f848faSopenharmony_ci 1316f9f848faSopenharmony_ci USB_XFER_LOCK(xfer); 1317f9f848faSopenharmony_ci USB_BUS_LOCK(info->bus); 1318f9f848faSopenharmony_ci 1319f9f848faSopenharmony_ci /* 1320f9f848faSopenharmony_ci * HINT: when you start/stop a transfer, it might be a 1321f9f848faSopenharmony_ci * good idea to directly use the "pxfer[]" structure: 1322f9f848faSopenharmony_ci * 1323f9f848faSopenharmony_ci * usbd_transfer_start(sc->pxfer[0]); 1324f9f848faSopenharmony_ci * usbd_transfer_stop(sc->pxfer[0]); 1325f9f848faSopenharmony_ci * 1326f9f848faSopenharmony_ci * That way, if your code has many parts that will not 1327f9f848faSopenharmony_ci * stop running under the same lock, in other words 1328f9f848faSopenharmony_ci * "xfer_mtx", the usbd_transfer_start and 1329f9f848faSopenharmony_ci * usbd_transfer_stop functions will simply return 1330f9f848faSopenharmony_ci * when they detect a NULL pointer argument. 1331f9f848faSopenharmony_ci * 1332f9f848faSopenharmony_ci * To avoid any races we clear the "pxfer[]" pointer 1333f9f848faSopenharmony_ci * while holding the private mutex of the driver: 1334f9f848faSopenharmony_ci */ 1335f9f848faSopenharmony_ci pxfer[n_setup] = NULL; 1336f9f848faSopenharmony_ci 1337f9f848faSopenharmony_ci USB_BUS_UNLOCK(info->bus); 1338f9f848faSopenharmony_ci USB_XFER_UNLOCK(xfer); 1339f9f848faSopenharmony_ci 1340f9f848faSopenharmony_ci usbd_transfer_drain(xfer); 1341f9f848faSopenharmony_ci 1342f9f848faSopenharmony_ci#if USB_HAVE_BUSDMA 1343f9f848faSopenharmony_ci if (xfer->flags_int.bdma_enable) 1344f9f848faSopenharmony_ci needs_delay = 1; 1345f9f848faSopenharmony_ci#endif 1346f9f848faSopenharmony_ci /* 1347f9f848faSopenharmony_ci * NOTE: default endpoint does not have an 1348f9f848faSopenharmony_ci * interface, even if endpoint->iface_index == 0 1349f9f848faSopenharmony_ci */ 1350f9f848faSopenharmony_ci USB_BUS_LOCK(info->bus); 1351f9f848faSopenharmony_ci xfer->endpoint->refcount_alloc--; 1352f9f848faSopenharmony_ci USB_BUS_UNLOCK(info->bus); 1353f9f848faSopenharmony_ci 1354f9f848faSopenharmony_ci usb_callout_drain(&xfer->timeout_handle); 1355f9f848faSopenharmony_ci 1356f9f848faSopenharmony_ci USB_BUS_LOCK(info->bus); 1357f9f848faSopenharmony_ci 1358f9f848faSopenharmony_ci USB_ASSERT(info->setup_refcount != 0, ("Invalid setup " 1359f9f848faSopenharmony_ci "reference count\n")); 1360f9f848faSopenharmony_ci 1361f9f848faSopenharmony_ci info->setup_refcount--; 1362f9f848faSopenharmony_ci 1363f9f848faSopenharmony_ci if (info->setup_refcount == 0) { 1364f9f848faSopenharmony_ci usbd_transfer_unsetup_sub(info, 1365f9f848faSopenharmony_ci needs_delay); 1366f9f848faSopenharmony_ci } else { 1367f9f848faSopenharmony_ci USB_BUS_UNLOCK(info->bus); 1368f9f848faSopenharmony_ci } 1369f9f848faSopenharmony_ci } 1370f9f848faSopenharmony_ci} 1371f9f848faSopenharmony_ci 1372f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 1373f9f848faSopenharmony_ci * usbd_control_transfer_init - factored out code 1374f9f848faSopenharmony_ci * 1375f9f848faSopenharmony_ci * In USB Device Mode we have to wait for the SETUP packet which 1376f9f848faSopenharmony_ci * containst the "struct usb_device_request" structure, before we can 1377f9f848faSopenharmony_ci * transfer any data. In USB Host Mode we already have the SETUP 1378f9f848faSopenharmony_ci * packet at the moment the USB transfer is started. This leads us to 1379f9f848faSopenharmony_ci * having to setup the USB transfer at two different places in 1380f9f848faSopenharmony_ci * time. This function just contains factored out control transfer 1381f9f848faSopenharmony_ci * initialisation code, so that we don't duplicate the code. 1382f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 1383f9f848faSopenharmony_cistatic void 1384f9f848faSopenharmony_ciusbd_control_transfer_init(struct usb_xfer *xfer) 1385f9f848faSopenharmony_ci{ 1386f9f848faSopenharmony_ci struct usb_device_request req; 1387f9f848faSopenharmony_ci 1388f9f848faSopenharmony_ci /* copy out the USB request header */ 1389f9f848faSopenharmony_ci 1390f9f848faSopenharmony_ci usbd_copy_out(xfer->frbuffers, 0, &req, sizeof(req)); 1391f9f848faSopenharmony_ci 1392f9f848faSopenharmony_ci /* setup remainder */ 1393f9f848faSopenharmony_ci 1394f9f848faSopenharmony_ci xfer->flags_int.control_rem = UGETW(req.wLength); 1395f9f848faSopenharmony_ci 1396f9f848faSopenharmony_ci /* copy direction to endpoint variable */ 1397f9f848faSopenharmony_ci 1398f9f848faSopenharmony_ci xfer->endpointno &= ~(UE_DIR_IN | UE_DIR_OUT); 1399f9f848faSopenharmony_ci xfer->endpointno |= 1400f9f848faSopenharmony_ci (req.bmRequestType & UT_READ) ? UE_DIR_IN : UE_DIR_OUT; 1401f9f848faSopenharmony_ci} 1402f9f848faSopenharmony_ci 1403f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 1404f9f848faSopenharmony_ci * usbd_control_transfer_did_data 1405f9f848faSopenharmony_ci * 1406f9f848faSopenharmony_ci * This function returns non-zero if a control endpoint has 1407f9f848faSopenharmony_ci * transferred the first DATA packet after the SETUP packet. 1408f9f848faSopenharmony_ci * Else it returns zero. 1409f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 1410f9f848faSopenharmony_cistatic uint8_t 1411f9f848faSopenharmony_ciusbd_control_transfer_did_data(struct usb_xfer *xfer) 1412f9f848faSopenharmony_ci{ 1413f9f848faSopenharmony_ci struct usb_device_request req; 1414f9f848faSopenharmony_ci 1415f9f848faSopenharmony_ci /* SETUP packet is not yet sent */ 1416f9f848faSopenharmony_ci if (xfer->flags_int.control_hdr != 0) 1417f9f848faSopenharmony_ci return (0); 1418f9f848faSopenharmony_ci 1419f9f848faSopenharmony_ci /* copy out the USB request header */ 1420f9f848faSopenharmony_ci usbd_copy_out(xfer->frbuffers, 0, &req, sizeof(req)); 1421f9f848faSopenharmony_ci 1422f9f848faSopenharmony_ci /* compare remainder to the initial value */ 1423f9f848faSopenharmony_ci return (xfer->flags_int.control_rem != UGETW(req.wLength)); 1424f9f848faSopenharmony_ci} 1425f9f848faSopenharmony_ci 1426f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 1427f9f848faSopenharmony_ci * usbd_setup_ctrl_transfer 1428f9f848faSopenharmony_ci * 1429f9f848faSopenharmony_ci * This function handles initialisation of control transfers. Control 1430f9f848faSopenharmony_ci * transfers are special in that regard that they can both transmit 1431f9f848faSopenharmony_ci * and receive data. 1432f9f848faSopenharmony_ci * 1433f9f848faSopenharmony_ci * Return values: 1434f9f848faSopenharmony_ci * 0: Success 1435f9f848faSopenharmony_ci * Else: Failure 1436f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 1437f9f848faSopenharmony_cistatic int 1438f9f848faSopenharmony_ciusbd_setup_ctrl_transfer(struct usb_xfer *xfer) 1439f9f848faSopenharmony_ci{ 1440f9f848faSopenharmony_ci usb_frlength_t len; 1441f9f848faSopenharmony_ci 1442f9f848faSopenharmony_ci /* Check for control endpoint stall */ 1443f9f848faSopenharmony_ci if (xfer->flags.stall_pipe && xfer->flags_int.control_act) { 1444f9f848faSopenharmony_ci /* the control transfer is no longer active */ 1445f9f848faSopenharmony_ci xfer->flags_int.control_stall = 1; 1446f9f848faSopenharmony_ci xfer->flags_int.control_act = 0; 1447f9f848faSopenharmony_ci } else { 1448f9f848faSopenharmony_ci /* don't stall control transfer by default */ 1449f9f848faSopenharmony_ci xfer->flags_int.control_stall = 0; 1450f9f848faSopenharmony_ci } 1451f9f848faSopenharmony_ci 1452f9f848faSopenharmony_ci /* Check for invalid number of frames */ 1453f9f848faSopenharmony_ci if (xfer->nframes > 2) { 1454f9f848faSopenharmony_ci /* 1455f9f848faSopenharmony_ci * If you need to split a control transfer, you 1456f9f848faSopenharmony_ci * have to do one part at a time. Only with 1457f9f848faSopenharmony_ci * non-control transfers you can do multiple 1458f9f848faSopenharmony_ci * parts a time. 1459f9f848faSopenharmony_ci */ 1460f9f848faSopenharmony_ci DPRINTFN(0, "Too many frames: %u\n", 1461f9f848faSopenharmony_ci (unsigned int)xfer->nframes); 1462f9f848faSopenharmony_ci goto error; 1463f9f848faSopenharmony_ci } 1464f9f848faSopenharmony_ci 1465f9f848faSopenharmony_ci /* 1466f9f848faSopenharmony_ci * Check if there is a control 1467f9f848faSopenharmony_ci * transfer in progress: 1468f9f848faSopenharmony_ci */ 1469f9f848faSopenharmony_ci if (xfer->flags_int.control_act) { 1470f9f848faSopenharmony_ci if (xfer->flags_int.control_hdr) { 1471f9f848faSopenharmony_ci /* clear send header flag */ 1472f9f848faSopenharmony_ci 1473f9f848faSopenharmony_ci xfer->flags_int.control_hdr = 0; 1474f9f848faSopenharmony_ci 1475f9f848faSopenharmony_ci /* setup control transfer */ 1476f9f848faSopenharmony_ci if (xfer->flags_int.usb_mode == USB_MODE_DEVICE) { 1477f9f848faSopenharmony_ci usbd_control_transfer_init(xfer); 1478f9f848faSopenharmony_ci } 1479f9f848faSopenharmony_ci } 1480f9f848faSopenharmony_ci /* get data length */ 1481f9f848faSopenharmony_ci 1482f9f848faSopenharmony_ci len = xfer->sumlen; 1483f9f848faSopenharmony_ci 1484f9f848faSopenharmony_ci } else { 1485f9f848faSopenharmony_ci /* the size of the SETUP structure is hardcoded ! */ 1486f9f848faSopenharmony_ci 1487f9f848faSopenharmony_ci if (xfer->frlengths[0] != sizeof(struct usb_device_request)) { 1488f9f848faSopenharmony_ci DPRINTFN(0, "Wrong framelength %u != %zu\n", 1489f9f848faSopenharmony_ci xfer->frlengths[0], sizeof(struct 1490f9f848faSopenharmony_ci usb_device_request)); 1491f9f848faSopenharmony_ci goto error; 1492f9f848faSopenharmony_ci } 1493f9f848faSopenharmony_ci /* check USB mode */ 1494f9f848faSopenharmony_ci if (xfer->flags_int.usb_mode == USB_MODE_DEVICE) { 1495f9f848faSopenharmony_ci /* check number of frames */ 1496f9f848faSopenharmony_ci if (xfer->nframes != 1) { 1497f9f848faSopenharmony_ci /* 1498f9f848faSopenharmony_ci * We need to receive the setup 1499f9f848faSopenharmony_ci * message first so that we know the 1500f9f848faSopenharmony_ci * data direction! 1501f9f848faSopenharmony_ci */ 1502f9f848faSopenharmony_ci DPRINTF("Misconfigured transfer\n"); 1503f9f848faSopenharmony_ci goto error; 1504f9f848faSopenharmony_ci } 1505f9f848faSopenharmony_ci /* 1506f9f848faSopenharmony_ci * Set a dummy "control_rem" value. This 1507f9f848faSopenharmony_ci * variable will be overwritten later by a 1508f9f848faSopenharmony_ci * call to "usbd_control_transfer_init()" ! 1509f9f848faSopenharmony_ci */ 1510f9f848faSopenharmony_ci xfer->flags_int.control_rem = 0xFFFF; 1511f9f848faSopenharmony_ci } else { 1512f9f848faSopenharmony_ci /* setup "endpoint" and "control_rem" */ 1513f9f848faSopenharmony_ci 1514f9f848faSopenharmony_ci usbd_control_transfer_init(xfer); 1515f9f848faSopenharmony_ci } 1516f9f848faSopenharmony_ci 1517f9f848faSopenharmony_ci /* set transfer-header flag */ 1518f9f848faSopenharmony_ci 1519f9f848faSopenharmony_ci xfer->flags_int.control_hdr = 1; 1520f9f848faSopenharmony_ci 1521f9f848faSopenharmony_ci /* get data length */ 1522f9f848faSopenharmony_ci 1523f9f848faSopenharmony_ci len = (xfer->sumlen - sizeof(struct usb_device_request)); 1524f9f848faSopenharmony_ci } 1525f9f848faSopenharmony_ci 1526f9f848faSopenharmony_ci /* update did data flag */ 1527f9f848faSopenharmony_ci 1528f9f848faSopenharmony_ci xfer->flags_int.control_did_data = 1529f9f848faSopenharmony_ci usbd_control_transfer_did_data(xfer); 1530f9f848faSopenharmony_ci 1531f9f848faSopenharmony_ci /* check if there is a length mismatch */ 1532f9f848faSopenharmony_ci 1533f9f848faSopenharmony_ci if (len > xfer->flags_int.control_rem) { 1534f9f848faSopenharmony_ci DPRINTFN(0, "Length (%d) greater than " 1535f9f848faSopenharmony_ci "remaining length (%d)\n", len, 1536f9f848faSopenharmony_ci xfer->flags_int.control_rem); 1537f9f848faSopenharmony_ci goto error; 1538f9f848faSopenharmony_ci } 1539f9f848faSopenharmony_ci /* check if we are doing a short transfer */ 1540f9f848faSopenharmony_ci 1541f9f848faSopenharmony_ci if (xfer->flags.force_short_xfer) { 1542f9f848faSopenharmony_ci xfer->flags_int.control_rem = 0; 1543f9f848faSopenharmony_ci } else { 1544f9f848faSopenharmony_ci if ((len != xfer->max_data_length) && 1545f9f848faSopenharmony_ci (len != xfer->flags_int.control_rem) && 1546f9f848faSopenharmony_ci (xfer->nframes != 1)) { 1547f9f848faSopenharmony_ci DPRINTFN(0, "Short control transfer without " 1548f9f848faSopenharmony_ci "force_short_xfer set\n"); 1549f9f848faSopenharmony_ci goto error; 1550f9f848faSopenharmony_ci } 1551f9f848faSopenharmony_ci xfer->flags_int.control_rem -= len; 1552f9f848faSopenharmony_ci } 1553f9f848faSopenharmony_ci 1554f9f848faSopenharmony_ci /* the status part is executed when "control_act" is 0 */ 1555f9f848faSopenharmony_ci 1556f9f848faSopenharmony_ci if ((xfer->flags_int.control_rem > 0) || 1557f9f848faSopenharmony_ci (xfer->flags.manual_status)) { 1558f9f848faSopenharmony_ci /* don't execute the STATUS stage yet */ 1559f9f848faSopenharmony_ci xfer->flags_int.control_act = 1; 1560f9f848faSopenharmony_ci 1561f9f848faSopenharmony_ci /* sanity check */ 1562f9f848faSopenharmony_ci if ((!xfer->flags_int.control_hdr) && 1563f9f848faSopenharmony_ci (xfer->nframes == 1)) { 1564f9f848faSopenharmony_ci /* 1565f9f848faSopenharmony_ci * This is not a valid operation! 1566f9f848faSopenharmony_ci */ 1567f9f848faSopenharmony_ci DPRINTFN(0, "Invalid parameter " 1568f9f848faSopenharmony_ci "combination\n"); 1569f9f848faSopenharmony_ci goto error; 1570f9f848faSopenharmony_ci } 1571f9f848faSopenharmony_ci } else { 1572f9f848faSopenharmony_ci /* time to execute the STATUS stage */ 1573f9f848faSopenharmony_ci xfer->flags_int.control_act = 0; 1574f9f848faSopenharmony_ci } 1575f9f848faSopenharmony_ci return (0); /* success */ 1576f9f848faSopenharmony_ci 1577f9f848faSopenharmony_cierror: 1578f9f848faSopenharmony_ci return (1); /* failure */ 1579f9f848faSopenharmony_ci} 1580f9f848faSopenharmony_ci 1581f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 1582f9f848faSopenharmony_ci * usbd_transfer_submit - start USB hardware for the given transfer 1583f9f848faSopenharmony_ci * 1584f9f848faSopenharmony_ci * This function should only be called from the USB callback. 1585f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 1586f9f848faSopenharmony_civoid 1587f9f848faSopenharmony_ciusbd_transfer_submit(struct usb_xfer *xfer) 1588f9f848faSopenharmony_ci{ 1589f9f848faSopenharmony_ci struct usb_xfer_root *info; 1590f9f848faSopenharmony_ci struct usb_bus *bus; 1591f9f848faSopenharmony_ci usb_frcount_t x; 1592f9f848faSopenharmony_ci 1593f9f848faSopenharmony_ci info = xfer->xroot; 1594f9f848faSopenharmony_ci bus = info->bus; 1595f9f848faSopenharmony_ci 1596f9f848faSopenharmony_ci DPRINTF("xfer=%p, endpoint=%p, nframes=%d, dir=%s\n", 1597f9f848faSopenharmony_ci xfer, xfer->endpoint, xfer->nframes, USB_GET_DATA_ISREAD(xfer) ? 1598f9f848faSopenharmony_ci "read" : "write"); 1599f9f848faSopenharmony_ci 1600f9f848faSopenharmony_ci#ifdef LOSCFG_USB_DEBUG 1601f9f848faSopenharmony_ci if (USB_DEBUG_VAR > 0) { 1602f9f848faSopenharmony_ci USB_BUS_LOCK(bus); 1603f9f848faSopenharmony_ci 1604f9f848faSopenharmony_ci usb_dump_endpoint(xfer->endpoint); 1605f9f848faSopenharmony_ci 1606f9f848faSopenharmony_ci USB_BUS_UNLOCK(bus); 1607f9f848faSopenharmony_ci } 1608f9f848faSopenharmony_ci#endif 1609f9f848faSopenharmony_ci 1610f9f848faSopenharmony_ci USB_XFER_LOCK_ASSERT(xfer, MA_OWNED); 1611f9f848faSopenharmony_ci USB_BUS_LOCK_ASSERT(bus, MA_NOTOWNED); 1612f9f848faSopenharmony_ci 1613f9f848faSopenharmony_ci /* Only open the USB transfer once! */ 1614f9f848faSopenharmony_ci if (!xfer->flags_int.open) { 1615f9f848faSopenharmony_ci xfer->flags_int.open = 1; 1616f9f848faSopenharmony_ci 1617f9f848faSopenharmony_ci DPRINTF("open\n"); 1618f9f848faSopenharmony_ci 1619f9f848faSopenharmony_ci USB_BUS_LOCK(bus); 1620f9f848faSopenharmony_ci (xfer->endpoint->methods->open) (xfer); 1621f9f848faSopenharmony_ci USB_BUS_UNLOCK(bus); 1622f9f848faSopenharmony_ci } 1623f9f848faSopenharmony_ci /* set "transferring" flag */ 1624f9f848faSopenharmony_ci xfer->flags_int.transferring = 1; 1625f9f848faSopenharmony_ci 1626f9f848faSopenharmony_ci#if USB_HAVE_POWERD 1627f9f848faSopenharmony_ci /* increment power reference */ 1628f9f848faSopenharmony_ci usbd_transfer_power_ref(xfer, 1); 1629f9f848faSopenharmony_ci#endif 1630f9f848faSopenharmony_ci /* 1631f9f848faSopenharmony_ci * Check if the transfer is waiting on a queue, most 1632f9f848faSopenharmony_ci * frequently the "done_q": 1633f9f848faSopenharmony_ci */ 1634f9f848faSopenharmony_ci if (xfer->wait_queue) { 1635f9f848faSopenharmony_ci USB_BUS_LOCK(bus); 1636f9f848faSopenharmony_ci usbd_transfer_dequeue(xfer); 1637f9f848faSopenharmony_ci USB_BUS_UNLOCK(bus); 1638f9f848faSopenharmony_ci } 1639f9f848faSopenharmony_ci /* clear "did_dma_delay" flag */ 1640f9f848faSopenharmony_ci xfer->flags_int.did_dma_delay = 0; 1641f9f848faSopenharmony_ci 1642f9f848faSopenharmony_ci /* clear "did_close" flag */ 1643f9f848faSopenharmony_ci xfer->flags_int.did_close = 0; 1644f9f848faSopenharmony_ci 1645f9f848faSopenharmony_ci#if USB_HAVE_BUSDMA 1646f9f848faSopenharmony_ci /* clear "bdma_setup" flag */ 1647f9f848faSopenharmony_ci xfer->flags_int.bdma_setup = 0; 1648f9f848faSopenharmony_ci#endif 1649f9f848faSopenharmony_ci /* by default we cannot cancel any USB transfer immediately */ 1650f9f848faSopenharmony_ci xfer->flags_int.can_cancel_immed = 0; 1651f9f848faSopenharmony_ci 1652f9f848faSopenharmony_ci /* clear lengths and frame counts by default */ 1653f9f848faSopenharmony_ci xfer->sumlen = 0; 1654f9f848faSopenharmony_ci xfer->actlen = 0; 1655f9f848faSopenharmony_ci xfer->aframes = 0; 1656f9f848faSopenharmony_ci 1657f9f848faSopenharmony_ci /* clear any previous errors */ 1658f9f848faSopenharmony_ci xfer->error = USB_ERR_NORMAL_COMPLETION; 1659f9f848faSopenharmony_ci 1660f9f848faSopenharmony_ci /* Check if the device is still alive */ 1661f9f848faSopenharmony_ci if (info->udev->state < USB_STATE_POWERED) { 1662f9f848faSopenharmony_ci USB_BUS_LOCK(bus); 1663f9f848faSopenharmony_ci /* 1664f9f848faSopenharmony_ci * Must return cancelled error code else 1665f9f848faSopenharmony_ci * device drivers can hang. 1666f9f848faSopenharmony_ci */ 1667f9f848faSopenharmony_ci usbd_transfer_done(xfer, USB_ERR_CANCELLED); 1668f9f848faSopenharmony_ci USB_BUS_UNLOCK(bus); 1669f9f848faSopenharmony_ci return; 1670f9f848faSopenharmony_ci } 1671f9f848faSopenharmony_ci 1672f9f848faSopenharmony_ci /* sanity check */ 1673f9f848faSopenharmony_ci if (xfer->nframes == 0) { 1674f9f848faSopenharmony_ci if (xfer->flags.stall_pipe) { 1675f9f848faSopenharmony_ci /* 1676f9f848faSopenharmony_ci * Special case - want to stall without transferring 1677f9f848faSopenharmony_ci * any data: 1678f9f848faSopenharmony_ci */ 1679f9f848faSopenharmony_ci DPRINTF("xfer=%p nframes=0: stall " 1680f9f848faSopenharmony_ci "or clear stall!\n", xfer); 1681f9f848faSopenharmony_ci USB_BUS_LOCK(bus); 1682f9f848faSopenharmony_ci xfer->flags_int.can_cancel_immed = 1; 1683f9f848faSopenharmony_ci /* start the transfer */ 1684f9f848faSopenharmony_ci usb_command_wrapper(&xfer->endpoint-> 1685f9f848faSopenharmony_ci endpoint_q[xfer->stream_id], xfer); 1686f9f848faSopenharmony_ci USB_BUS_UNLOCK(bus); 1687f9f848faSopenharmony_ci return; 1688f9f848faSopenharmony_ci } 1689f9f848faSopenharmony_ci USB_BUS_LOCK(bus); 1690f9f848faSopenharmony_ci usbd_transfer_done(xfer, USB_ERR_INVAL); 1691f9f848faSopenharmony_ci USB_BUS_UNLOCK(bus); 1692f9f848faSopenharmony_ci return; 1693f9f848faSopenharmony_ci } 1694f9f848faSopenharmony_ci /* compute some variables */ 1695f9f848faSopenharmony_ci 1696f9f848faSopenharmony_ci for (x = 0; x != xfer->nframes; x++) { 1697f9f848faSopenharmony_ci /* make a copy of the frlenghts[] */ 1698f9f848faSopenharmony_ci xfer->frlengths[x + xfer->max_frame_count] = xfer->frlengths[x]; 1699f9f848faSopenharmony_ci /* compute total transfer length */ 1700f9f848faSopenharmony_ci xfer->sumlen += xfer->frlengths[x]; 1701f9f848faSopenharmony_ci if (xfer->sumlen < xfer->frlengths[x]) { 1702f9f848faSopenharmony_ci /* length wrapped around */ 1703f9f848faSopenharmony_ci USB_BUS_LOCK(bus); 1704f9f848faSopenharmony_ci usbd_transfer_done(xfer, USB_ERR_INVAL); 1705f9f848faSopenharmony_ci USB_BUS_UNLOCK(bus); 1706f9f848faSopenharmony_ci return; 1707f9f848faSopenharmony_ci } 1708f9f848faSopenharmony_ci } 1709f9f848faSopenharmony_ci 1710f9f848faSopenharmony_ci /* clear some internal flags */ 1711f9f848faSopenharmony_ci 1712f9f848faSopenharmony_ci xfer->flags_int.short_xfer_ok = 0; 1713f9f848faSopenharmony_ci xfer->flags_int.short_frames_ok = 0; 1714f9f848faSopenharmony_ci 1715f9f848faSopenharmony_ci /* check if this is a control transfer */ 1716f9f848faSopenharmony_ci 1717f9f848faSopenharmony_ci if (xfer->flags_int.control_xfr) { 1718f9f848faSopenharmony_ci if (usbd_setup_ctrl_transfer(xfer)) { 1719f9f848faSopenharmony_ci USB_BUS_LOCK(bus); 1720f9f848faSopenharmony_ci usbd_transfer_done(xfer, USB_ERR_STALLED); 1721f9f848faSopenharmony_ci USB_BUS_UNLOCK(bus); 1722f9f848faSopenharmony_ci return; 1723f9f848faSopenharmony_ci } 1724f9f848faSopenharmony_ci } 1725f9f848faSopenharmony_ci /* 1726f9f848faSopenharmony_ci * Setup filtered version of some transfer flags, 1727f9f848faSopenharmony_ci * in case of data read direction 1728f9f848faSopenharmony_ci */ 1729f9f848faSopenharmony_ci if (USB_GET_DATA_ISREAD(xfer)) { 1730f9f848faSopenharmony_ci if (xfer->flags.short_frames_ok) { 1731f9f848faSopenharmony_ci xfer->flags_int.short_xfer_ok = 1; 1732f9f848faSopenharmony_ci xfer->flags_int.short_frames_ok = 1; 1733f9f848faSopenharmony_ci } else if (xfer->flags.short_xfer_ok) { 1734f9f848faSopenharmony_ci xfer->flags_int.short_xfer_ok = 1; 1735f9f848faSopenharmony_ci 1736f9f848faSopenharmony_ci /* check for control transfer */ 1737f9f848faSopenharmony_ci if (xfer->flags_int.control_xfr) { 1738f9f848faSopenharmony_ci /* 1739f9f848faSopenharmony_ci * 1) Control transfers do not support 1740f9f848faSopenharmony_ci * reception of multiple short USB 1741f9f848faSopenharmony_ci * frames in host mode and device side 1742f9f848faSopenharmony_ci * mode, with exception of: 1743f9f848faSopenharmony_ci * 1744f9f848faSopenharmony_ci * 2) Due to sometimes buggy device 1745f9f848faSopenharmony_ci * side firmware we need to do a 1746f9f848faSopenharmony_ci * STATUS stage in case of short 1747f9f848faSopenharmony_ci * control transfers in USB host mode. 1748f9f848faSopenharmony_ci * The STATUS stage then becomes the 1749f9f848faSopenharmony_ci * "alt_next" to the DATA stage. 1750f9f848faSopenharmony_ci */ 1751f9f848faSopenharmony_ci xfer->flags_int.short_frames_ok = 1; 1752f9f848faSopenharmony_ci } 1753f9f848faSopenharmony_ci } 1754f9f848faSopenharmony_ci } 1755f9f848faSopenharmony_ci /* 1756f9f848faSopenharmony_ci * Check if BUS-DMA support is enabled and try to load virtual 1757f9f848faSopenharmony_ci * buffers into DMA, if any: 1758f9f848faSopenharmony_ci */ 1759f9f848faSopenharmony_ci#if USB_HAVE_BUSDMA 1760f9f848faSopenharmony_ci if (xfer->flags_int.bdma_enable) { 1761f9f848faSopenharmony_ci /* insert the USB transfer last in the BUS-DMA queue */ 1762f9f848faSopenharmony_ci usb_command_wrapper(&xfer->xroot->dma_q, xfer); 1763f9f848faSopenharmony_ci return; 1764f9f848faSopenharmony_ci } 1765f9f848faSopenharmony_ci#endif 1766f9f848faSopenharmony_ci /* 1767f9f848faSopenharmony_ci * Enter the USB transfer into the Host Controller or 1768f9f848faSopenharmony_ci * Device Controller schedule: 1769f9f848faSopenharmony_ci */ 1770f9f848faSopenharmony_ci usbd_pipe_enter(xfer); 1771f9f848faSopenharmony_ci} 1772f9f848faSopenharmony_ci 1773f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 1774f9f848faSopenharmony_ci * usbd_pipe_enter - factored out code 1775f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 1776f9f848faSopenharmony_civoid 1777f9f848faSopenharmony_ciusbd_pipe_enter(struct usb_xfer *xfer) 1778f9f848faSopenharmony_ci{ 1779f9f848faSopenharmony_ci struct usb_endpoint *ep; 1780f9f848faSopenharmony_ci 1781f9f848faSopenharmony_ci USB_XFER_LOCK_ASSERT(xfer, MA_OWNED); 1782f9f848faSopenharmony_ci 1783f9f848faSopenharmony_ci USB_BUS_LOCK(xfer->xroot->bus); 1784f9f848faSopenharmony_ci 1785f9f848faSopenharmony_ci ep = xfer->endpoint; 1786f9f848faSopenharmony_ci 1787f9f848faSopenharmony_ci DPRINTF("enter\n"); 1788f9f848faSopenharmony_ci 1789f9f848faSopenharmony_ci /* the transfer can now be cancelled */ 1790f9f848faSopenharmony_ci xfer->flags_int.can_cancel_immed = 1; 1791f9f848faSopenharmony_ci 1792f9f848faSopenharmony_ci /* enter the transfer */ 1793f9f848faSopenharmony_ci (ep->methods->enter) (xfer); 1794f9f848faSopenharmony_ci 1795f9f848faSopenharmony_ci /* check for transfer error */ 1796f9f848faSopenharmony_ci if (xfer->error) { 1797f9f848faSopenharmony_ci /* some error has happened */ 1798f9f848faSopenharmony_ci usbd_transfer_done(xfer, (usb_error_t)0); 1799f9f848faSopenharmony_ci USB_BUS_UNLOCK(xfer->xroot->bus); 1800f9f848faSopenharmony_ci return; 1801f9f848faSopenharmony_ci } 1802f9f848faSopenharmony_ci 1803f9f848faSopenharmony_ci /* start the transfer */ 1804f9f848faSopenharmony_ci usb_command_wrapper(&ep->endpoint_q[xfer->stream_id], xfer); 1805f9f848faSopenharmony_ci USB_BUS_UNLOCK(xfer->xroot->bus); 1806f9f848faSopenharmony_ci} 1807f9f848faSopenharmony_ci 1808f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 1809f9f848faSopenharmony_ci * usbd_transfer_start - start an USB transfer 1810f9f848faSopenharmony_ci * 1811f9f848faSopenharmony_ci * NOTE: Calling this function more than one time will only 1812f9f848faSopenharmony_ci * result in a single transfer start, until the USB transfer 1813f9f848faSopenharmony_ci * completes. 1814f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 1815f9f848faSopenharmony_civoid 1816f9f848faSopenharmony_ciusbd_transfer_start(struct usb_xfer *xfer) 1817f9f848faSopenharmony_ci{ 1818f9f848faSopenharmony_ci if (xfer == NULL) { 1819f9f848faSopenharmony_ci /* transfer is gone */ 1820f9f848faSopenharmony_ci return; 1821f9f848faSopenharmony_ci } 1822f9f848faSopenharmony_ci USB_XFER_LOCK_ASSERT(xfer, MA_OWNED); 1823f9f848faSopenharmony_ci 1824f9f848faSopenharmony_ci /* mark the USB transfer started */ 1825f9f848faSopenharmony_ci 1826f9f848faSopenharmony_ci if (!xfer->flags_int.started) { 1827f9f848faSopenharmony_ci /* lock the BUS lock to avoid races updating flags_int */ 1828f9f848faSopenharmony_ci USB_BUS_LOCK(xfer->xroot->bus); 1829f9f848faSopenharmony_ci xfer->flags_int.started = 1; 1830f9f848faSopenharmony_ci USB_BUS_UNLOCK(xfer->xroot->bus); 1831f9f848faSopenharmony_ci } 1832f9f848faSopenharmony_ci /* check if the USB transfer callback is already transferring */ 1833f9f848faSopenharmony_ci 1834f9f848faSopenharmony_ci if (xfer->flags_int.transferring) { 1835f9f848faSopenharmony_ci return; 1836f9f848faSopenharmony_ci } 1837f9f848faSopenharmony_ci USB_BUS_LOCK(xfer->xroot->bus); 1838f9f848faSopenharmony_ci /* call the USB transfer callback */ 1839f9f848faSopenharmony_ci usbd_callback_ss_done_defer(xfer); 1840f9f848faSopenharmony_ci USB_BUS_UNLOCK(xfer->xroot->bus); 1841f9f848faSopenharmony_ci} 1842f9f848faSopenharmony_ci 1843f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 1844f9f848faSopenharmony_ci * usbd_transfer_stop - stop an USB transfer 1845f9f848faSopenharmony_ci * 1846f9f848faSopenharmony_ci * NOTE: Calling this function more than one time will only 1847f9f848faSopenharmony_ci * result in a single transfer stop. 1848f9f848faSopenharmony_ci * NOTE: When this function returns it is not safe to free nor 1849f9f848faSopenharmony_ci * reuse any DMA buffers. See "usbd_transfer_drain()". 1850f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 1851f9f848faSopenharmony_civoid 1852f9f848faSopenharmony_ciusbd_transfer_stop(struct usb_xfer *xfer) 1853f9f848faSopenharmony_ci{ 1854f9f848faSopenharmony_ci struct usb_endpoint *ep; 1855f9f848faSopenharmony_ci 1856f9f848faSopenharmony_ci if (xfer == NULL) { 1857f9f848faSopenharmony_ci /* transfer is gone */ 1858f9f848faSopenharmony_ci return; 1859f9f848faSopenharmony_ci } 1860f9f848faSopenharmony_ci USB_XFER_LOCK_ASSERT(xfer, MA_OWNED); 1861f9f848faSopenharmony_ci 1862f9f848faSopenharmony_ci /* check if the USB transfer was ever opened */ 1863f9f848faSopenharmony_ci 1864f9f848faSopenharmony_ci if (!xfer->flags_int.open) { 1865f9f848faSopenharmony_ci if (xfer->flags_int.started) { 1866f9f848faSopenharmony_ci /* nothing to do except clearing the "started" flag */ 1867f9f848faSopenharmony_ci /* lock the BUS lock to avoid races updating flags_int */ 1868f9f848faSopenharmony_ci USB_BUS_LOCK(xfer->xroot->bus); 1869f9f848faSopenharmony_ci xfer->flags_int.started = 0; 1870f9f848faSopenharmony_ci USB_BUS_UNLOCK(xfer->xroot->bus); 1871f9f848faSopenharmony_ci } 1872f9f848faSopenharmony_ci return; 1873f9f848faSopenharmony_ci } 1874f9f848faSopenharmony_ci /* try to stop the current USB transfer */ 1875f9f848faSopenharmony_ci 1876f9f848faSopenharmony_ci USB_BUS_LOCK(xfer->xroot->bus); 1877f9f848faSopenharmony_ci /* override any previous error */ 1878f9f848faSopenharmony_ci xfer->error = USB_ERR_CANCELLED; 1879f9f848faSopenharmony_ci 1880f9f848faSopenharmony_ci /* 1881f9f848faSopenharmony_ci * Clear "open" and "started" when both private and USB lock 1882f9f848faSopenharmony_ci * is locked so that we don't get a race updating "flags_int" 1883f9f848faSopenharmony_ci */ 1884f9f848faSopenharmony_ci xfer->flags_int.open = 0; 1885f9f848faSopenharmony_ci xfer->flags_int.started = 0; 1886f9f848faSopenharmony_ci 1887f9f848faSopenharmony_ci /* 1888f9f848faSopenharmony_ci * Check if we can cancel the USB transfer immediately. 1889f9f848faSopenharmony_ci */ 1890f9f848faSopenharmony_ci if (xfer->flags_int.transferring) { 1891f9f848faSopenharmony_ci if (xfer->flags_int.can_cancel_immed && 1892f9f848faSopenharmony_ci (!xfer->flags_int.did_close)) { 1893f9f848faSopenharmony_ci DPRINTF("close\n"); 1894f9f848faSopenharmony_ci /* 1895f9f848faSopenharmony_ci * The following will lead to an USB_ERR_CANCELLED 1896f9f848faSopenharmony_ci * error code being passed to the USB callback. 1897f9f848faSopenharmony_ci */ 1898f9f848faSopenharmony_ci (xfer->endpoint->methods->close) (xfer); 1899f9f848faSopenharmony_ci /* only close once */ 1900f9f848faSopenharmony_ci xfer->flags_int.did_close = 1; 1901f9f848faSopenharmony_ci } else { 1902f9f848faSopenharmony_ci /* need to wait for the next done callback */ 1903f9f848faSopenharmony_ci } 1904f9f848faSopenharmony_ci } else { 1905f9f848faSopenharmony_ci DPRINTF("close\n"); 1906f9f848faSopenharmony_ci 1907f9f848faSopenharmony_ci /* close here and now */ 1908f9f848faSopenharmony_ci (xfer->endpoint->methods->close) (xfer); 1909f9f848faSopenharmony_ci 1910f9f848faSopenharmony_ci /* 1911f9f848faSopenharmony_ci * Any additional DMA delay is done by 1912f9f848faSopenharmony_ci * "usbd_transfer_unsetup()". 1913f9f848faSopenharmony_ci */ 1914f9f848faSopenharmony_ci 1915f9f848faSopenharmony_ci /* 1916f9f848faSopenharmony_ci * Special case. Check if we need to restart a blocked 1917f9f848faSopenharmony_ci * endpoint. 1918f9f848faSopenharmony_ci */ 1919f9f848faSopenharmony_ci ep = xfer->endpoint; 1920f9f848faSopenharmony_ci 1921f9f848faSopenharmony_ci /* 1922f9f848faSopenharmony_ci * If the current USB transfer is completing we need 1923f9f848faSopenharmony_ci * to start the next one: 1924f9f848faSopenharmony_ci */ 1925f9f848faSopenharmony_ci if (ep->endpoint_q[xfer->stream_id].curr == xfer) { 1926f9f848faSopenharmony_ci usb_command_wrapper( 1927f9f848faSopenharmony_ci &ep->endpoint_q[xfer->stream_id], NULL); 1928f9f848faSopenharmony_ci } 1929f9f848faSopenharmony_ci } 1930f9f848faSopenharmony_ci 1931f9f848faSopenharmony_ci USB_BUS_UNLOCK(xfer->xroot->bus); 1932f9f848faSopenharmony_ci} 1933f9f848faSopenharmony_ci 1934f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 1935f9f848faSopenharmony_ci * usbd_transfer_pending 1936f9f848faSopenharmony_ci * 1937f9f848faSopenharmony_ci * This function will check if an USB transfer is pending which is a 1938f9f848faSopenharmony_ci * little bit complicated! 1939f9f848faSopenharmony_ci * Return values: 1940f9f848faSopenharmony_ci * 0: Not pending 1941f9f848faSopenharmony_ci * 1: Pending: The USB transfer will receive a callback in the future. 1942f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 1943f9f848faSopenharmony_ciuint8_t 1944f9f848faSopenharmony_ciusbd_transfer_pending(struct usb_xfer *xfer) 1945f9f848faSopenharmony_ci{ 1946f9f848faSopenharmony_ci struct usb_xfer_root *info; 1947f9f848faSopenharmony_ci struct usb_xfer_queue *pq; 1948f9f848faSopenharmony_ci 1949f9f848faSopenharmony_ci if (xfer == NULL) { 1950f9f848faSopenharmony_ci /* transfer is gone */ 1951f9f848faSopenharmony_ci return (0); 1952f9f848faSopenharmony_ci } 1953f9f848faSopenharmony_ci USB_XFER_LOCK_ASSERT(xfer, MA_OWNED); 1954f9f848faSopenharmony_ci 1955f9f848faSopenharmony_ci if (xfer->flags_int.transferring) { 1956f9f848faSopenharmony_ci /* trivial case */ 1957f9f848faSopenharmony_ci return (1); 1958f9f848faSopenharmony_ci } 1959f9f848faSopenharmony_ci USB_BUS_LOCK(xfer->xroot->bus); 1960f9f848faSopenharmony_ci if (xfer->wait_queue) { 1961f9f848faSopenharmony_ci /* we are waiting on a queue somewhere */ 1962f9f848faSopenharmony_ci USB_BUS_UNLOCK(xfer->xroot->bus); 1963f9f848faSopenharmony_ci return (1); 1964f9f848faSopenharmony_ci } 1965f9f848faSopenharmony_ci info = xfer->xroot; 1966f9f848faSopenharmony_ci pq = &info->done_q; 1967f9f848faSopenharmony_ci 1968f9f848faSopenharmony_ci if (pq->curr == xfer) { 1969f9f848faSopenharmony_ci /* we are currently scheduled for callback */ 1970f9f848faSopenharmony_ci USB_BUS_UNLOCK(xfer->xroot->bus); 1971f9f848faSopenharmony_ci return (1); 1972f9f848faSopenharmony_ci } 1973f9f848faSopenharmony_ci /* we are not pending */ 1974f9f848faSopenharmony_ci USB_BUS_UNLOCK(xfer->xroot->bus); 1975f9f848faSopenharmony_ci return (0); 1976f9f848faSopenharmony_ci} 1977f9f848faSopenharmony_ci 1978f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 1979f9f848faSopenharmony_ci * usbd_transfer_drain 1980f9f848faSopenharmony_ci * 1981f9f848faSopenharmony_ci * This function will stop the USB transfer and wait for any 1982f9f848faSopenharmony_ci * additional BUS-DMA and HW-DMA operations to complete. Buffers that 1983f9f848faSopenharmony_ci * are loaded into DMA can safely be freed or reused after that this 1984f9f848faSopenharmony_ci * function has returned. 1985f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 1986f9f848faSopenharmony_civoid 1987f9f848faSopenharmony_ciusbd_transfer_drain(struct usb_xfer *xfer) 1988f9f848faSopenharmony_ci{ 1989f9f848faSopenharmony_ci WITNESS_WARN(WARN_GIANTOK | WARN_SLEEPOK, NULL, 1990f9f848faSopenharmony_ci "usbd_transfer_drain can sleep!"); 1991f9f848faSopenharmony_ci 1992f9f848faSopenharmony_ci if (xfer == NULL) { 1993f9f848faSopenharmony_ci /* transfer is gone */ 1994f9f848faSopenharmony_ci return; 1995f9f848faSopenharmony_ci } 1996f9f848faSopenharmony_ci if (xfer->xroot->xfer_mtx != &Giant) { 1997f9f848faSopenharmony_ci USB_XFER_LOCK_ASSERT(xfer, MA_NOTOWNED); 1998f9f848faSopenharmony_ci } 1999f9f848faSopenharmony_ci USB_XFER_LOCK(xfer); 2000f9f848faSopenharmony_ci 2001f9f848faSopenharmony_ci usbd_transfer_stop(xfer); 2002f9f848faSopenharmony_ci 2003f9f848faSopenharmony_ci while (usbd_transfer_pending(xfer) || 2004f9f848faSopenharmony_ci xfer->flags_int.doing_callback) { 2005f9f848faSopenharmony_ci /* 2006f9f848faSopenharmony_ci * It is allowed that the callback can drop its 2007f9f848faSopenharmony_ci * transfer mutex. In that case checking only 2008f9f848faSopenharmony_ci * "usbd_transfer_pending()" is not enough to tell if 2009f9f848faSopenharmony_ci * the USB transfer is fully drained. We also need to 2010f9f848faSopenharmony_ci * check the internal "doing_callback" flag. 2011f9f848faSopenharmony_ci */ 2012f9f848faSopenharmony_ci xfer->flags_int.draining = 1; 2013f9f848faSopenharmony_ci 2014f9f848faSopenharmony_ci /* 2015f9f848faSopenharmony_ci * Wait until the current outstanding USB 2016f9f848faSopenharmony_ci * transfer is complete ! 2017f9f848faSopenharmony_ci */ 2018f9f848faSopenharmony_ci (void)cv_wait(&xfer->xroot->cv_drain, xfer->xroot->xfer_mtx); 2019f9f848faSopenharmony_ci } 2020f9f848faSopenharmony_ci USB_XFER_UNLOCK(xfer); 2021f9f848faSopenharmony_ci} 2022f9f848faSopenharmony_ci 2023f9f848faSopenharmony_cistruct usb_page_cache * 2024f9f848faSopenharmony_ciusbd_xfer_get_frame(struct usb_xfer *xfer, usb_frcount_t frindex) 2025f9f848faSopenharmony_ci{ 2026f9f848faSopenharmony_ci KASSERT(frindex < xfer->max_frame_count, ("frame index overflow")); 2027f9f848faSopenharmony_ci 2028f9f848faSopenharmony_ci return (&xfer->frbuffers[frindex]); 2029f9f848faSopenharmony_ci} 2030f9f848faSopenharmony_ci 2031f9f848faSopenharmony_civoid * 2032f9f848faSopenharmony_ciusbd_xfer_get_frame_buffer(struct usb_xfer *xfer, usb_frcount_t frindex) 2033f9f848faSopenharmony_ci{ 2034f9f848faSopenharmony_ci struct usb_page_search page_info; 2035f9f848faSopenharmony_ci 2036f9f848faSopenharmony_ci KASSERT(frindex < xfer->max_frame_count, ("frame index overflow")); 2037f9f848faSopenharmony_ci 2038f9f848faSopenharmony_ci usbd_get_page(&xfer->frbuffers[frindex], 0, &page_info); 2039f9f848faSopenharmony_ci return (page_info.buffer); 2040f9f848faSopenharmony_ci} 2041f9f848faSopenharmony_ci 2042f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2043f9f848faSopenharmony_ci * usbd_xfer_get_fps_shift 2044f9f848faSopenharmony_ci * 2045f9f848faSopenharmony_ci * The following function is only useful for isochronous transfers. It 2046f9f848faSopenharmony_ci * returns how many times the frame execution rate has been shifted 2047f9f848faSopenharmony_ci * down. 2048f9f848faSopenharmony_ci * 2049f9f848faSopenharmony_ci * Return value: 2050f9f848faSopenharmony_ci * Success: 0..3 2051f9f848faSopenharmony_ci * Failure: 0 2052f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2053f9f848faSopenharmony_ciuint8_t 2054f9f848faSopenharmony_ciusbd_xfer_get_fps_shift(struct usb_xfer *xfer) 2055f9f848faSopenharmony_ci{ 2056f9f848faSopenharmony_ci return (xfer->fps_shift); 2057f9f848faSopenharmony_ci} 2058f9f848faSopenharmony_ci 2059f9f848faSopenharmony_ciusb_frlength_t 2060f9f848faSopenharmony_ciusbd_xfer_frame_len(struct usb_xfer *xfer, usb_frcount_t frindex) 2061f9f848faSopenharmony_ci{ 2062f9f848faSopenharmony_ci KASSERT(frindex < xfer->max_frame_count, ("frame index overflow")); 2063f9f848faSopenharmony_ci 2064f9f848faSopenharmony_ci return (xfer->frlengths[frindex]); 2065f9f848faSopenharmony_ci} 2066f9f848faSopenharmony_ci 2067f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2068f9f848faSopenharmony_ci * usbd_xfer_set_frame_data 2069f9f848faSopenharmony_ci * 2070f9f848faSopenharmony_ci * This function sets the pointer of the buffer that should 2071f9f848faSopenharmony_ci * loaded directly into DMA for the given USB frame. Passing "ptr" 2072f9f848faSopenharmony_ci * equal to NULL while the corresponding "frlength" is greater 2073f9f848faSopenharmony_ci * than zero gives undefined results! 2074f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2075f9f848faSopenharmony_civoid 2076f9f848faSopenharmony_ciusbd_xfer_set_frame_data(struct usb_xfer *xfer, usb_frcount_t frindex, 2077f9f848faSopenharmony_ci void *ptr, usb_frlength_t len) 2078f9f848faSopenharmony_ci{ 2079f9f848faSopenharmony_ci KASSERT(frindex < xfer->max_frame_count, ("frame index overflow")); 2080f9f848faSopenharmony_ci 2081f9f848faSopenharmony_ci /* set virtual address to load and length */ 2082f9f848faSopenharmony_ci xfer->frbuffers[frindex].buffer = ptr; 2083f9f848faSopenharmony_ci usbd_xfer_set_frame_len(xfer, frindex, len); 2084f9f848faSopenharmony_ci} 2085f9f848faSopenharmony_ci 2086f9f848faSopenharmony_civoid 2087f9f848faSopenharmony_ciusbd_xfer_frame_data(struct usb_xfer *xfer, usb_frcount_t frindex, 2088f9f848faSopenharmony_ci void **ptr, int *len) 2089f9f848faSopenharmony_ci{ 2090f9f848faSopenharmony_ci KASSERT(frindex < xfer->max_frame_count, ("frame index overflow")); 2091f9f848faSopenharmony_ci 2092f9f848faSopenharmony_ci if (ptr != NULL) 2093f9f848faSopenharmony_ci *ptr = xfer->frbuffers[frindex].buffer; 2094f9f848faSopenharmony_ci if (len != NULL) 2095f9f848faSopenharmony_ci *len = xfer->frlengths[frindex]; 2096f9f848faSopenharmony_ci} 2097f9f848faSopenharmony_ci 2098f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2099f9f848faSopenharmony_ci * usbd_xfer_old_frame_length 2100f9f848faSopenharmony_ci * 2101f9f848faSopenharmony_ci * This function returns the framelength of the given frame at the 2102f9f848faSopenharmony_ci * time the transfer was submitted. This function can be used to 2103f9f848faSopenharmony_ci * compute the starting data pointer of the next isochronous frame 2104f9f848faSopenharmony_ci * when an isochronous transfer has completed. 2105f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2106f9f848faSopenharmony_ciusb_frlength_t 2107f9f848faSopenharmony_ciusbd_xfer_old_frame_length(struct usb_xfer *xfer, usb_frcount_t frindex) 2108f9f848faSopenharmony_ci{ 2109f9f848faSopenharmony_ci KASSERT(frindex < xfer->max_frame_count, ("frame index overflow")); 2110f9f848faSopenharmony_ci 2111f9f848faSopenharmony_ci return (xfer->frlengths[frindex + xfer->max_frame_count]); 2112f9f848faSopenharmony_ci} 2113f9f848faSopenharmony_ci 2114f9f848faSopenharmony_civoid 2115f9f848faSopenharmony_ciusbd_xfer_status(struct usb_xfer *xfer, int *actlen, int *sumlen, int *aframes, 2116f9f848faSopenharmony_ci int *nframes) 2117f9f848faSopenharmony_ci{ 2118f9f848faSopenharmony_ci if (actlen != NULL) 2119f9f848faSopenharmony_ci *actlen = xfer->actlen; 2120f9f848faSopenharmony_ci if (sumlen != NULL) 2121f9f848faSopenharmony_ci *sumlen = xfer->sumlen; 2122f9f848faSopenharmony_ci if (aframes != NULL) 2123f9f848faSopenharmony_ci *aframes = xfer->aframes; 2124f9f848faSopenharmony_ci if (nframes != NULL) 2125f9f848faSopenharmony_ci *nframes = xfer->nframes; 2126f9f848faSopenharmony_ci} 2127f9f848faSopenharmony_ci 2128f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2129f9f848faSopenharmony_ci * usbd_xfer_set_frame_offset 2130f9f848faSopenharmony_ci * 2131f9f848faSopenharmony_ci * This function sets the frame data buffer offset relative to the beginning 2132f9f848faSopenharmony_ci * of the USB DMA buffer allocated for this USB transfer. 2133f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2134f9f848faSopenharmony_civoid 2135f9f848faSopenharmony_ciusbd_xfer_set_frame_offset(struct usb_xfer *xfer, usb_frlength_t offset, 2136f9f848faSopenharmony_ci usb_frcount_t frindex) 2137f9f848faSopenharmony_ci{ 2138f9f848faSopenharmony_ci KASSERT(!xfer->flags.ext_buffer, ("Cannot offset data frame " 2139f9f848faSopenharmony_ci "when the USB buffer is external\n")); 2140f9f848faSopenharmony_ci KASSERT(frindex < xfer->max_frame_count, ("frame index overflow")); 2141f9f848faSopenharmony_ci 2142f9f848faSopenharmony_ci /* set virtual address to load */ 2143f9f848faSopenharmony_ci xfer->frbuffers[frindex].buffer = 2144f9f848faSopenharmony_ci USB_ADD_BYTES(xfer->local_buffer, offset); 2145f9f848faSopenharmony_ci} 2146f9f848faSopenharmony_ci 2147f9f848faSopenharmony_civoid 2148f9f848faSopenharmony_ciusbd_xfer_set_interval(struct usb_xfer *xfer, int i) 2149f9f848faSopenharmony_ci{ 2150f9f848faSopenharmony_ci xfer->interval = i; 2151f9f848faSopenharmony_ci} 2152f9f848faSopenharmony_ci 2153f9f848faSopenharmony_civoid 2154f9f848faSopenharmony_ciusbd_xfer_set_timeout(struct usb_xfer *xfer, int t) 2155f9f848faSopenharmony_ci{ 2156f9f848faSopenharmony_ci xfer->timeout = t; 2157f9f848faSopenharmony_ci} 2158f9f848faSopenharmony_ci 2159f9f848faSopenharmony_civoid 2160f9f848faSopenharmony_ciusbd_xfer_set_frames(struct usb_xfer *xfer, usb_frcount_t n) 2161f9f848faSopenharmony_ci{ 2162f9f848faSopenharmony_ci xfer->nframes = n; 2163f9f848faSopenharmony_ci} 2164f9f848faSopenharmony_ci 2165f9f848faSopenharmony_ciusb_frcount_t 2166f9f848faSopenharmony_ciusbd_xfer_max_frames(struct usb_xfer *xfer) 2167f9f848faSopenharmony_ci{ 2168f9f848faSopenharmony_ci return (xfer->max_frame_count); 2169f9f848faSopenharmony_ci} 2170f9f848faSopenharmony_ci 2171f9f848faSopenharmony_ciusb_frlength_t 2172f9f848faSopenharmony_ciusbd_xfer_max_len(struct usb_xfer *xfer) 2173f9f848faSopenharmony_ci{ 2174f9f848faSopenharmony_ci return (xfer->max_data_length); 2175f9f848faSopenharmony_ci} 2176f9f848faSopenharmony_ci 2177f9f848faSopenharmony_ciusb_frlength_t 2178f9f848faSopenharmony_ciusbd_xfer_max_framelen(struct usb_xfer *xfer) 2179f9f848faSopenharmony_ci{ 2180f9f848faSopenharmony_ci return (xfer->max_frame_size); 2181f9f848faSopenharmony_ci} 2182f9f848faSopenharmony_ci 2183f9f848faSopenharmony_civoid 2184f9f848faSopenharmony_ciusbd_xfer_set_frame_len(struct usb_xfer *xfer, usb_frcount_t frindex, 2185f9f848faSopenharmony_ci usb_frlength_t len) 2186f9f848faSopenharmony_ci{ 2187f9f848faSopenharmony_ci KASSERT(frindex < xfer->max_frame_count, ("frame index overflow")); 2188f9f848faSopenharmony_ci 2189f9f848faSopenharmony_ci xfer->frlengths[frindex] = len; 2190f9f848faSopenharmony_ci} 2191f9f848faSopenharmony_ci 2192f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2193f9f848faSopenharmony_ci * usb_callback_proc - factored out code 2194f9f848faSopenharmony_ci * 2195f9f848faSopenharmony_ci * This function performs USB callbacks. 2196f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2197f9f848faSopenharmony_cistatic void 2198f9f848faSopenharmony_ciusb_callback_proc(struct usb_proc_msg *_pm) 2199f9f848faSopenharmony_ci{ 2200f9f848faSopenharmony_ci struct usb_done_msg *pm = (void *)_pm; 2201f9f848faSopenharmony_ci struct usb_xfer_root *info = pm->xroot; 2202f9f848faSopenharmony_ci 2203f9f848faSopenharmony_ci /* Change locking order */ 2204f9f848faSopenharmony_ci USB_BUS_UNLOCK(info->bus); 2205f9f848faSopenharmony_ci 2206f9f848faSopenharmony_ci /* 2207f9f848faSopenharmony_ci * We exploit the fact that the mutex is the same for all 2208f9f848faSopenharmony_ci * callbacks that will be called from this thread: 2209f9f848faSopenharmony_ci */ 2210f9f848faSopenharmony_ci USB_MTX_LOCK(info->xfer_mtx); 2211f9f848faSopenharmony_ci USB_BUS_LOCK(info->bus); 2212f9f848faSopenharmony_ci 2213f9f848faSopenharmony_ci /* Continue where we lost track */ 2214f9f848faSopenharmony_ci usb_command_wrapper(&info->done_q, 2215f9f848faSopenharmony_ci info->done_q.curr); 2216f9f848faSopenharmony_ci 2217f9f848faSopenharmony_ci USB_MTX_UNLOCK(info->xfer_mtx); 2218f9f848faSopenharmony_ci} 2219f9f848faSopenharmony_ci 2220f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2221f9f848faSopenharmony_ci * usbd_callback_ss_done_defer 2222f9f848faSopenharmony_ci * 2223f9f848faSopenharmony_ci * This function will defer the start, stop and done callback to the 2224f9f848faSopenharmony_ci * correct thread. 2225f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2226f9f848faSopenharmony_cistatic void 2227f9f848faSopenharmony_ciusbd_callback_ss_done_defer(struct usb_xfer *xfer) 2228f9f848faSopenharmony_ci{ 2229f9f848faSopenharmony_ci struct usb_xfer_root *info = xfer->xroot; 2230f9f848faSopenharmony_ci struct usb_xfer_queue *pq = &info->done_q; 2231f9f848faSopenharmony_ci 2232f9f848faSopenharmony_ci USB_BUS_LOCK_ASSERT(xfer->xroot->bus, MA_OWNED); 2233f9f848faSopenharmony_ci 2234f9f848faSopenharmony_ci if (pq->curr != xfer) { 2235f9f848faSopenharmony_ci usbd_transfer_enqueue(pq, xfer); 2236f9f848faSopenharmony_ci } 2237f9f848faSopenharmony_ci if (!pq->recurse_1) { 2238f9f848faSopenharmony_ci /* 2239f9f848faSopenharmony_ci * We have to postpone the callback due to the fact we 2240f9f848faSopenharmony_ci * will have a Lock Order Reversal, LOR, if we try to 2241f9f848faSopenharmony_ci * proceed ! 2242f9f848faSopenharmony_ci */ 2243f9f848faSopenharmony_ci if (usb_proc_msignal(info->done_p, 2244f9f848faSopenharmony_ci &info->done_m[0], &info->done_m[1])) { 2245f9f848faSopenharmony_ci /* ignore */ 2246f9f848faSopenharmony_ci } 2247f9f848faSopenharmony_ci } else { 2248f9f848faSopenharmony_ci /* clear second recurse flag */ 2249f9f848faSopenharmony_ci pq->recurse_2 = 0; 2250f9f848faSopenharmony_ci } 2251f9f848faSopenharmony_ci return; 2252f9f848faSopenharmony_ci 2253f9f848faSopenharmony_ci} 2254f9f848faSopenharmony_ci 2255f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2256f9f848faSopenharmony_ci * usbd_callback_wrapper 2257f9f848faSopenharmony_ci * 2258f9f848faSopenharmony_ci * This is a wrapper for USB callbacks. This wrapper does some 2259f9f848faSopenharmony_ci * auto-magic things like figuring out if we can call the callback 2260f9f848faSopenharmony_ci * directly from the current context or if we need to wakeup the 2261f9f848faSopenharmony_ci * interrupt process. 2262f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2263f9f848faSopenharmony_cistatic void 2264f9f848faSopenharmony_ciusbd_callback_wrapper(struct usb_xfer_queue *pq) 2265f9f848faSopenharmony_ci{ 2266f9f848faSopenharmony_ci struct usb_xfer *xfer = pq->curr; 2267f9f848faSopenharmony_ci struct usb_xfer_root *info = xfer->xroot; 2268f9f848faSopenharmony_ci 2269f9f848faSopenharmony_ci USB_BUS_LOCK_ASSERT(info->bus, MA_OWNED); 2270f9f848faSopenharmony_ci if (!mtx_owned(info->xfer_mtx) && !SCHEDULER_STOPPED()) { 2271f9f848faSopenharmony_ci /* 2272f9f848faSopenharmony_ci * Cases that end up here: 2273f9f848faSopenharmony_ci * 2274f9f848faSopenharmony_ci * 5) HW interrupt done callback or other source. 2275f9f848faSopenharmony_ci */ 2276f9f848faSopenharmony_ci DPRINTFN(3, "case 5\n"); 2277f9f848faSopenharmony_ci 2278f9f848faSopenharmony_ci /* 2279f9f848faSopenharmony_ci * We have to postpone the callback due to the fact we 2280f9f848faSopenharmony_ci * will have a Lock Order Reversal, LOR, if we try to 2281f9f848faSopenharmony_ci * proceed! 2282f9f848faSopenharmony_ci */ 2283f9f848faSopenharmony_ci if (usb_proc_msignal(info->done_p, 2284f9f848faSopenharmony_ci &info->done_m[0], &info->done_m[1])) { 2285f9f848faSopenharmony_ci /* ignore */ 2286f9f848faSopenharmony_ci } 2287f9f848faSopenharmony_ci return; 2288f9f848faSopenharmony_ci } 2289f9f848faSopenharmony_ci /* 2290f9f848faSopenharmony_ci * Cases that end up here: 2291f9f848faSopenharmony_ci * 2292f9f848faSopenharmony_ci * 1) We are starting a transfer 2293f9f848faSopenharmony_ci * 2) We are prematurely calling back a transfer 2294f9f848faSopenharmony_ci * 3) We are stopping a transfer 2295f9f848faSopenharmony_ci * 4) We are doing an ordinary callback 2296f9f848faSopenharmony_ci */ 2297f9f848faSopenharmony_ci DPRINTFN(3, "case 1-4\n"); 2298f9f848faSopenharmony_ci /* get next USB transfer in the queue */ 2299f9f848faSopenharmony_ci info->done_q.curr = NULL; 2300f9f848faSopenharmony_ci 2301f9f848faSopenharmony_ci /* set flag in case of drain */ 2302f9f848faSopenharmony_ci xfer->flags_int.doing_callback = 1; 2303f9f848faSopenharmony_ci 2304f9f848faSopenharmony_ci USB_BUS_UNLOCK(info->bus); 2305f9f848faSopenharmony_ci USB_BUS_LOCK_ASSERT(info->bus, MA_NOTOWNED); 2306f9f848faSopenharmony_ci 2307f9f848faSopenharmony_ci /* set correct USB state for callback */ 2308f9f848faSopenharmony_ci if (!xfer->flags_int.transferring) { 2309f9f848faSopenharmony_ci xfer->usb_state = USB_ST_SETUP; 2310f9f848faSopenharmony_ci if (!xfer->flags_int.started) { 2311f9f848faSopenharmony_ci /* we got stopped before we even got started */ 2312f9f848faSopenharmony_ci USB_BUS_LOCK(info->bus); 2313f9f848faSopenharmony_ci goto done; 2314f9f848faSopenharmony_ci } 2315f9f848faSopenharmony_ci } else { 2316f9f848faSopenharmony_ci if (usbd_callback_wrapper_sub(xfer)) { 2317f9f848faSopenharmony_ci /* the callback has been deferred */ 2318f9f848faSopenharmony_ci USB_BUS_LOCK(info->bus); 2319f9f848faSopenharmony_ci goto done; 2320f9f848faSopenharmony_ci } 2321f9f848faSopenharmony_ci#if USB_HAVE_POWERD 2322f9f848faSopenharmony_ci /* decrement power reference */ 2323f9f848faSopenharmony_ci usbd_transfer_power_ref(xfer, -1); 2324f9f848faSopenharmony_ci#endif 2325f9f848faSopenharmony_ci xfer->flags_int.transferring = 0; 2326f9f848faSopenharmony_ci 2327f9f848faSopenharmony_ci if (xfer->error) { 2328f9f848faSopenharmony_ci xfer->usb_state = USB_ST_ERROR; 2329f9f848faSopenharmony_ci } else { 2330f9f848faSopenharmony_ci /* set transferred state */ 2331f9f848faSopenharmony_ci xfer->usb_state = USB_ST_TRANSFERRED; 2332f9f848faSopenharmony_ci#if USB_HAVE_BUSDMA 2333f9f848faSopenharmony_ci /* sync DMA memory, if any */ 2334f9f848faSopenharmony_ci if (xfer->flags_int.bdma_enable && 2335f9f848faSopenharmony_ci (!xfer->flags_int.bdma_no_post_sync)) { 2336f9f848faSopenharmony_ci usb_bdma_post_sync(xfer); 2337f9f848faSopenharmony_ci } 2338f9f848faSopenharmony_ci#endif 2339f9f848faSopenharmony_ci } 2340f9f848faSopenharmony_ci } 2341f9f848faSopenharmony_ci 2342f9f848faSopenharmony_ci#if USB_HAVE_PF 2343f9f848faSopenharmony_ci if (xfer->usb_state != USB_ST_SETUP) { 2344f9f848faSopenharmony_ci USB_BUS_LOCK(info->bus); 2345f9f848faSopenharmony_ci usbpf_xfertap(xfer, USBPF_XFERTAP_DONE); 2346f9f848faSopenharmony_ci USB_BUS_UNLOCK(info->bus); 2347f9f848faSopenharmony_ci } 2348f9f848faSopenharmony_ci#endif 2349f9f848faSopenharmony_ci /* call processing routine */ 2350f9f848faSopenharmony_ci (xfer->callback) (xfer, xfer->error); 2351f9f848faSopenharmony_ci 2352f9f848faSopenharmony_ci /* pickup the USB mutex again */ 2353f9f848faSopenharmony_ci USB_BUS_LOCK(info->bus); 2354f9f848faSopenharmony_ci 2355f9f848faSopenharmony_ci /* 2356f9f848faSopenharmony_ci * Check if we got started after that we got cancelled, but 2357f9f848faSopenharmony_ci * before we managed to do the callback. 2358f9f848faSopenharmony_ci */ 2359f9f848faSopenharmony_ci if ((!xfer->flags_int.open) && 2360f9f848faSopenharmony_ci (xfer->flags_int.started) && 2361f9f848faSopenharmony_ci (xfer->usb_state == USB_ST_ERROR)) { 2362f9f848faSopenharmony_ci /* clear flag in case of drain */ 2363f9f848faSopenharmony_ci xfer->flags_int.doing_callback = 0; 2364f9f848faSopenharmony_ci /* try to loop, but not recursivly */ 2365f9f848faSopenharmony_ci usb_command_wrapper(&info->done_q, xfer); 2366f9f848faSopenharmony_ci return; 2367f9f848faSopenharmony_ci } 2368f9f848faSopenharmony_ci 2369f9f848faSopenharmony_cidone: 2370f9f848faSopenharmony_ci /* clear flag in case of drain */ 2371f9f848faSopenharmony_ci xfer->flags_int.doing_callback = 0; 2372f9f848faSopenharmony_ci 2373f9f848faSopenharmony_ci /* 2374f9f848faSopenharmony_ci * Check if we are draining. 2375f9f848faSopenharmony_ci */ 2376f9f848faSopenharmony_ci if (xfer->flags_int.draining && 2377f9f848faSopenharmony_ci (!xfer->flags_int.transferring)) { 2378f9f848faSopenharmony_ci /* "usbd_transfer_drain()" is waiting for end of transfer */ 2379f9f848faSopenharmony_ci xfer->flags_int.draining = 0; 2380f9f848faSopenharmony_ci (void)cv_broadcast(&info->cv_drain); 2381f9f848faSopenharmony_ci } 2382f9f848faSopenharmony_ci 2383f9f848faSopenharmony_ci /* do the next callback, if any */ 2384f9f848faSopenharmony_ci usb_command_wrapper(&info->done_q, 2385f9f848faSopenharmony_ci info->done_q.curr); 2386f9f848faSopenharmony_ci} 2387f9f848faSopenharmony_ci 2388f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2389f9f848faSopenharmony_ci * usb_dma_delay_done_cb 2390f9f848faSopenharmony_ci * 2391f9f848faSopenharmony_ci * This function is called when the DMA delay has been exectuded, and 2392f9f848faSopenharmony_ci * will make sure that the callback is called to complete the USB 2393f9f848faSopenharmony_ci * transfer. This code path is usually only used when there is an USB 2394f9f848faSopenharmony_ci * error like USB_ERR_CANCELLED. 2395f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2396f9f848faSopenharmony_civoid 2397f9f848faSopenharmony_ciusb_dma_delay_done_cb(struct usb_xfer *xfer) 2398f9f848faSopenharmony_ci{ 2399f9f848faSopenharmony_ci USB_BUS_LOCK_ASSERT(xfer->xroot->bus, MA_OWNED); 2400f9f848faSopenharmony_ci 2401f9f848faSopenharmony_ci DPRINTFN(3, "Completed %p\n", xfer); 2402f9f848faSopenharmony_ci 2403f9f848faSopenharmony_ci /* queue callback for execution, again */ 2404f9f848faSopenharmony_ci usbd_transfer_done(xfer, (usb_error_t)0); 2405f9f848faSopenharmony_ci} 2406f9f848faSopenharmony_ci 2407f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2408f9f848faSopenharmony_ci * usbd_transfer_dequeue 2409f9f848faSopenharmony_ci * 2410f9f848faSopenharmony_ci * - This function is used to remove an USB transfer from a USB 2411f9f848faSopenharmony_ci * transfer queue. 2412f9f848faSopenharmony_ci * 2413f9f848faSopenharmony_ci * - This function can be called multiple times in a row. 2414f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2415f9f848faSopenharmony_civoid 2416f9f848faSopenharmony_ciusbd_transfer_dequeue(struct usb_xfer *xfer) 2417f9f848faSopenharmony_ci{ 2418f9f848faSopenharmony_ci struct usb_xfer_queue *pq; 2419f9f848faSopenharmony_ci uint32_t int_save; 2420f9f848faSopenharmony_ci 2421f9f848faSopenharmony_ci LOS_SpinLockSave(&g_usb_wait_queue_spinlock, &int_save); 2422f9f848faSopenharmony_ci pq = xfer->wait_queue; 2423f9f848faSopenharmony_ci if (pq != NULL) { 2424f9f848faSopenharmony_ci TAILQ_REMOVE(&pq->head, xfer, wait_entry); 2425f9f848faSopenharmony_ci xfer->wait_queue = NULL; 2426f9f848faSopenharmony_ci } 2427f9f848faSopenharmony_ci LOS_SpinUnlockRestore(&g_usb_wait_queue_spinlock, int_save); 2428f9f848faSopenharmony_ci} 2429f9f848faSopenharmony_ci 2430f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2431f9f848faSopenharmony_ci * usbd_transfer_enqueue 2432f9f848faSopenharmony_ci * 2433f9f848faSopenharmony_ci * - This function is used to insert an USB transfer into a USB * 2434f9f848faSopenharmony_ci * transfer queue. 2435f9f848faSopenharmony_ci * 2436f9f848faSopenharmony_ci * - This function can be called multiple times in a row. 2437f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2438f9f848faSopenharmony_civoid 2439f9f848faSopenharmony_ciusbd_transfer_enqueue(struct usb_xfer_queue *pq, struct usb_xfer *xfer) 2440f9f848faSopenharmony_ci{ 2441f9f848faSopenharmony_ci uint32_t int_save; 2442f9f848faSopenharmony_ci /* 2443f9f848faSopenharmony_ci * Insert the USB transfer into the queue, if it is not 2444f9f848faSopenharmony_ci * already on a USB transfer queue: 2445f9f848faSopenharmony_ci */ 2446f9f848faSopenharmony_ci LOS_SpinLockSave(&g_usb_wait_queue_spinlock, &int_save); 2447f9f848faSopenharmony_ci if (xfer->wait_queue == NULL) { 2448f9f848faSopenharmony_ci xfer->wait_queue = pq; 2449f9f848faSopenharmony_ci TAILQ_INSERT_TAIL(&pq->head, xfer, wait_entry); 2450f9f848faSopenharmony_ci } 2451f9f848faSopenharmony_ci LOS_SpinUnlockRestore(&g_usb_wait_queue_spinlock, int_save); 2452f9f848faSopenharmony_ci} 2453f9f848faSopenharmony_ci 2454f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2455f9f848faSopenharmony_ci * usbd_transfer_done 2456f9f848faSopenharmony_ci * 2457f9f848faSopenharmony_ci * - This function is used to remove an USB transfer from the busdma, 2458f9f848faSopenharmony_ci * pipe or interrupt queue. 2459f9f848faSopenharmony_ci * 2460f9f848faSopenharmony_ci * - This function is used to queue the USB transfer on the done 2461f9f848faSopenharmony_ci * queue. 2462f9f848faSopenharmony_ci * 2463f9f848faSopenharmony_ci * - This function is used to stop any USB transfer timeouts. 2464f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2465f9f848faSopenharmony_civoid 2466f9f848faSopenharmony_ciusbd_transfer_done(struct usb_xfer *xfer, usb_error_t error) 2467f9f848faSopenharmony_ci{ 2468f9f848faSopenharmony_ci struct usb_xfer_root *info = xfer->xroot; 2469f9f848faSopenharmony_ci 2470f9f848faSopenharmony_ci USB_BUS_LOCK_ASSERT(info->bus, MA_OWNED); 2471f9f848faSopenharmony_ci 2472f9f848faSopenharmony_ci DPRINTF("err=%s\n", usbd_errstr(error)); 2473f9f848faSopenharmony_ci 2474f9f848faSopenharmony_ci /* 2475f9f848faSopenharmony_ci * If we are not transferring then just return. 2476f9f848faSopenharmony_ci * This can happen during transfer cancel. 2477f9f848faSopenharmony_ci */ 2478f9f848faSopenharmony_ci if (!xfer->flags_int.transferring) { 2479f9f848faSopenharmony_ci DPRINTF("not transferring\n"); 2480f9f848faSopenharmony_ci /* end of control transfer, if any */ 2481f9f848faSopenharmony_ci xfer->flags_int.control_act = 0; 2482f9f848faSopenharmony_ci return; 2483f9f848faSopenharmony_ci } 2484f9f848faSopenharmony_ci /* only set transfer error, if not already set */ 2485f9f848faSopenharmony_ci if (xfer->error == USB_ERR_NORMAL_COMPLETION) 2486f9f848faSopenharmony_ci xfer->error = error; 2487f9f848faSopenharmony_ci 2488f9f848faSopenharmony_ci /* stop any callouts */ 2489f9f848faSopenharmony_ci usb_callout_stop(&xfer->timeout_handle); 2490f9f848faSopenharmony_ci 2491f9f848faSopenharmony_ci /* 2492f9f848faSopenharmony_ci * If we are waiting on a queue, just remove the USB transfer 2493f9f848faSopenharmony_ci * from the queue, if any. We should have the required locks 2494f9f848faSopenharmony_ci * locked to do the remove when this function is called. 2495f9f848faSopenharmony_ci */ 2496f9f848faSopenharmony_ci usbd_transfer_dequeue(xfer); 2497f9f848faSopenharmony_ci 2498f9f848faSopenharmony_ci#if USB_HAVE_BUSDMA 2499f9f848faSopenharmony_ci if (mtx_owned(info->xfer_mtx)) { 2500f9f848faSopenharmony_ci struct usb_xfer_queue *pq; 2501f9f848faSopenharmony_ci 2502f9f848faSopenharmony_ci /* 2503f9f848faSopenharmony_ci * If the private USB lock is not locked, then we assume 2504f9f848faSopenharmony_ci * that the BUS-DMA load stage has been passed: 2505f9f848faSopenharmony_ci */ 2506f9f848faSopenharmony_ci pq = &info->dma_q; 2507f9f848faSopenharmony_ci 2508f9f848faSopenharmony_ci if (pq->curr == xfer) { 2509f9f848faSopenharmony_ci /* start the next BUS-DMA load, if any */ 2510f9f848faSopenharmony_ci usb_command_wrapper(pq, NULL); 2511f9f848faSopenharmony_ci } 2512f9f848faSopenharmony_ci } 2513f9f848faSopenharmony_ci#endif 2514f9f848faSopenharmony_ci /* keep some statistics */ 2515f9f848faSopenharmony_ci if (xfer->error == USB_ERR_CANCELLED) { 2516f9f848faSopenharmony_ci info->udev->stats_cancelled.uds_requests 2517f9f848faSopenharmony_ci [xfer->endpoint->edesc->bmAttributes & UE_XFERTYPE]++; 2518f9f848faSopenharmony_ci } else if (xfer->error != USB_ERR_NORMAL_COMPLETION) { 2519f9f848faSopenharmony_ci info->udev->stats_err.uds_requests 2520f9f848faSopenharmony_ci [xfer->endpoint->edesc->bmAttributes & UE_XFERTYPE]++; 2521f9f848faSopenharmony_ci } else { 2522f9f848faSopenharmony_ci info->udev->stats_ok.uds_requests 2523f9f848faSopenharmony_ci [xfer->endpoint->edesc->bmAttributes & UE_XFERTYPE]++; 2524f9f848faSopenharmony_ci } 2525f9f848faSopenharmony_ci 2526f9f848faSopenharmony_ci /* call the USB transfer callback */ 2527f9f848faSopenharmony_ci usbd_callback_ss_done_defer(xfer); 2528f9f848faSopenharmony_ci} 2529f9f848faSopenharmony_ci 2530f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2531f9f848faSopenharmony_ci * usbd_transfer_start_cb 2532f9f848faSopenharmony_ci * 2533f9f848faSopenharmony_ci * This function is called to start the USB transfer when 2534f9f848faSopenharmony_ci * "xfer->interval" is greater than zero, and and the endpoint type is 2535f9f848faSopenharmony_ci * BULK or CONTROL. 2536f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2537f9f848faSopenharmony_cistatic void 2538f9f848faSopenharmony_ciusbd_transfer_start_cb(void *arg) 2539f9f848faSopenharmony_ci{ 2540f9f848faSopenharmony_ci struct usb_xfer *xfer = arg; 2541f9f848faSopenharmony_ci struct usb_endpoint *ep = xfer->endpoint; 2542f9f848faSopenharmony_ci 2543f9f848faSopenharmony_ci USB_BUS_LOCK_ASSERT(xfer->xroot->bus, MA_OWNED); 2544f9f848faSopenharmony_ci 2545f9f848faSopenharmony_ci DPRINTF("start\n"); 2546f9f848faSopenharmony_ci 2547f9f848faSopenharmony_ci#if USB_HAVE_PF 2548f9f848faSopenharmony_ci usbpf_xfertap(xfer, USBPF_XFERTAP_SUBMIT); 2549f9f848faSopenharmony_ci#endif 2550f9f848faSopenharmony_ci 2551f9f848faSopenharmony_ci /* the transfer can now be cancelled */ 2552f9f848faSopenharmony_ci xfer->flags_int.can_cancel_immed = 1; 2553f9f848faSopenharmony_ci 2554f9f848faSopenharmony_ci /* start USB transfer, if no error */ 2555f9f848faSopenharmony_ci if (xfer->error == 0) 2556f9f848faSopenharmony_ci (ep->methods->start) (xfer); 2557f9f848faSopenharmony_ci 2558f9f848faSopenharmony_ci /* check for transfer error */ 2559f9f848faSopenharmony_ci if (xfer->error) { 2560f9f848faSopenharmony_ci /* some error has happened */ 2561f9f848faSopenharmony_ci usbd_transfer_done(xfer, (usb_error_t)0); 2562f9f848faSopenharmony_ci } 2563f9f848faSopenharmony_ci} 2564f9f848faSopenharmony_ci 2565f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2566f9f848faSopenharmony_ci * usbd_xfer_set_stall 2567f9f848faSopenharmony_ci * 2568f9f848faSopenharmony_ci * This function is used to set the stall flag outside the 2569f9f848faSopenharmony_ci * callback. This function is NULL safe. 2570f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2571f9f848faSopenharmony_civoid 2572f9f848faSopenharmony_ciusbd_xfer_set_stall(struct usb_xfer *xfer) 2573f9f848faSopenharmony_ci{ 2574f9f848faSopenharmony_ci if (xfer == NULL) { 2575f9f848faSopenharmony_ci /* tearing down */ 2576f9f848faSopenharmony_ci return; 2577f9f848faSopenharmony_ci } 2578f9f848faSopenharmony_ci USB_XFER_LOCK_ASSERT(xfer, MA_OWNED); 2579f9f848faSopenharmony_ci 2580f9f848faSopenharmony_ci /* avoid any races by locking the USB mutex */ 2581f9f848faSopenharmony_ci USB_BUS_LOCK(xfer->xroot->bus); 2582f9f848faSopenharmony_ci xfer->flags.stall_pipe = 1; 2583f9f848faSopenharmony_ci USB_BUS_UNLOCK(xfer->xroot->bus); 2584f9f848faSopenharmony_ci} 2585f9f848faSopenharmony_ci 2586f9f848faSopenharmony_ciint 2587f9f848faSopenharmony_ciusbd_xfer_is_stalled(struct usb_xfer *xfer) 2588f9f848faSopenharmony_ci{ 2589f9f848faSopenharmony_ci return (xfer->endpoint->is_stalled); 2590f9f848faSopenharmony_ci} 2591f9f848faSopenharmony_ci 2592f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2593f9f848faSopenharmony_ci * usbd_transfer_clear_stall 2594f9f848faSopenharmony_ci * 2595f9f848faSopenharmony_ci * This function is used to clear the stall flag outside the 2596f9f848faSopenharmony_ci * callback. This function is NULL safe. 2597f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2598f9f848faSopenharmony_civoid 2599f9f848faSopenharmony_ciusbd_transfer_clear_stall(struct usb_xfer *xfer) 2600f9f848faSopenharmony_ci{ 2601f9f848faSopenharmony_ci if (xfer == NULL) { 2602f9f848faSopenharmony_ci /* tearing down */ 2603f9f848faSopenharmony_ci return; 2604f9f848faSopenharmony_ci } 2605f9f848faSopenharmony_ci USB_XFER_LOCK_ASSERT(xfer, MA_OWNED); 2606f9f848faSopenharmony_ci 2607f9f848faSopenharmony_ci /* avoid any races by locking the USB mutex */ 2608f9f848faSopenharmony_ci USB_BUS_LOCK(xfer->xroot->bus); 2609f9f848faSopenharmony_ci 2610f9f848faSopenharmony_ci xfer->flags.stall_pipe = 0; 2611f9f848faSopenharmony_ci 2612f9f848faSopenharmony_ci USB_BUS_UNLOCK(xfer->xroot->bus); 2613f9f848faSopenharmony_ci} 2614f9f848faSopenharmony_ci 2615f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2616f9f848faSopenharmony_ci * usbd_pipe_start 2617f9f848faSopenharmony_ci * 2618f9f848faSopenharmony_ci * This function is used to add an USB transfer to the pipe transfer list. 2619f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2620f9f848faSopenharmony_civoid 2621f9f848faSopenharmony_ciusbd_pipe_start(struct usb_xfer_queue *pq) 2622f9f848faSopenharmony_ci{ 2623f9f848faSopenharmony_ci struct usb_endpoint *ep; 2624f9f848faSopenharmony_ci struct usb_xfer *xfer; 2625f9f848faSopenharmony_ci uint8_t type; 2626f9f848faSopenharmony_ci 2627f9f848faSopenharmony_ci xfer = pq->curr; 2628f9f848faSopenharmony_ci ep = xfer->endpoint; 2629f9f848faSopenharmony_ci 2630f9f848faSopenharmony_ci USB_BUS_LOCK_ASSERT(xfer->xroot->bus, MA_OWNED); 2631f9f848faSopenharmony_ci 2632f9f848faSopenharmony_ci /* 2633f9f848faSopenharmony_ci * If the endpoint is already stalled we do nothing ! 2634f9f848faSopenharmony_ci */ 2635f9f848faSopenharmony_ci if (ep->is_stalled) { 2636f9f848faSopenharmony_ci DPRINTFN(1, "is_stalled\n"); 2637f9f848faSopenharmony_ci return; 2638f9f848faSopenharmony_ci } 2639f9f848faSopenharmony_ci /* 2640f9f848faSopenharmony_ci * Check if we are supposed to stall the endpoint: 2641f9f848faSopenharmony_ci */ 2642f9f848faSopenharmony_ci if (xfer->flags.stall_pipe) { 2643f9f848faSopenharmony_ci struct usb_device *udev; 2644f9f848faSopenharmony_ci struct usb_xfer_root *info; 2645f9f848faSopenharmony_ci 2646f9f848faSopenharmony_ci /* clear stall command */ 2647f9f848faSopenharmony_ci xfer->flags.stall_pipe = 0; 2648f9f848faSopenharmony_ci 2649f9f848faSopenharmony_ci /* get pointer to USB device */ 2650f9f848faSopenharmony_ci info = xfer->xroot; 2651f9f848faSopenharmony_ci udev = info->udev; 2652f9f848faSopenharmony_ci 2653f9f848faSopenharmony_ci /* 2654f9f848faSopenharmony_ci * Only stall BULK and INTERRUPT endpoints. 2655f9f848faSopenharmony_ci */ 2656f9f848faSopenharmony_ci type = (ep->edesc->bmAttributes & UE_XFERTYPE); 2657f9f848faSopenharmony_ci if ((type == UE_BULK) || 2658f9f848faSopenharmony_ci (type == UE_INTERRUPT)) { 2659f9f848faSopenharmony_ci uint8_t did_stall; 2660f9f848faSopenharmony_ci 2661f9f848faSopenharmony_ci did_stall = 1; 2662f9f848faSopenharmony_ci 2663f9f848faSopenharmony_ci if (udev->flags.usb_mode == USB_MODE_DEVICE) { 2664f9f848faSopenharmony_ci (udev->bus->methods->set_stall) ( 2665f9f848faSopenharmony_ci udev, ep, &did_stall); 2666f9f848faSopenharmony_ci } else if (udev->ctrl_xfer[1]) { 2667f9f848faSopenharmony_ci info = udev->ctrl_xfer[1]->xroot; 2668f9f848faSopenharmony_ci (void)usb_proc_msignal( 2669f9f848faSopenharmony_ci USB_BUS_CS_PROC(info->bus), 2670f9f848faSopenharmony_ci &udev->cs_msg[0], &udev->cs_msg[1]); 2671f9f848faSopenharmony_ci } else { 2672f9f848faSopenharmony_ci /* should not happen */ 2673f9f848faSopenharmony_ci DPRINTFN(0, "No stall handler\n"); 2674f9f848faSopenharmony_ci } 2675f9f848faSopenharmony_ci /* 2676f9f848faSopenharmony_ci * Check if we should stall. Some USB hardware 2677f9f848faSopenharmony_ci * handles set- and clear-stall in hardware. 2678f9f848faSopenharmony_ci */ 2679f9f848faSopenharmony_ci if (did_stall) { 2680f9f848faSopenharmony_ci /* 2681f9f848faSopenharmony_ci * The transfer will be continued when 2682f9f848faSopenharmony_ci * the clear-stall control endpoint 2683f9f848faSopenharmony_ci * message is received. 2684f9f848faSopenharmony_ci */ 2685f9f848faSopenharmony_ci ep->is_stalled = 1; 2686f9f848faSopenharmony_ci DPRINTFN(1, "did_stall\n"); 2687f9f848faSopenharmony_ci return; 2688f9f848faSopenharmony_ci } 2689f9f848faSopenharmony_ci } else if (type == UE_ISOCHRONOUS) { 2690f9f848faSopenharmony_ci /* 2691f9f848faSopenharmony_ci * Make sure any FIFO overflow or other FIFO 2692f9f848faSopenharmony_ci * error conditions go away by resetting the 2693f9f848faSopenharmony_ci * endpoint FIFO through the clear stall 2694f9f848faSopenharmony_ci * method. 2695f9f848faSopenharmony_ci */ 2696f9f848faSopenharmony_ci if (udev->flags.usb_mode == USB_MODE_DEVICE) { 2697f9f848faSopenharmony_ci (udev->bus->methods->clear_stall) (udev, ep); 2698f9f848faSopenharmony_ci } 2699f9f848faSopenharmony_ci } 2700f9f848faSopenharmony_ci } 2701f9f848faSopenharmony_ci /* Set or clear stall complete - special case */ 2702f9f848faSopenharmony_ci if (xfer->nframes == 0) { 2703f9f848faSopenharmony_ci /* we are complete */ 2704f9f848faSopenharmony_ci xfer->aframes = 0; 2705f9f848faSopenharmony_ci usbd_transfer_done(xfer, (usb_error_t)0); 2706f9f848faSopenharmony_ci DPRINTFN(1, "nframes == 0\n"); 2707f9f848faSopenharmony_ci return; 2708f9f848faSopenharmony_ci } 2709f9f848faSopenharmony_ci /* 2710f9f848faSopenharmony_ci * Handled cases: 2711f9f848faSopenharmony_ci * 2712f9f848faSopenharmony_ci * 1) Start the first transfer queued. 2713f9f848faSopenharmony_ci * 2714f9f848faSopenharmony_ci * 2) Re-start the current USB transfer. 2715f9f848faSopenharmony_ci */ 2716f9f848faSopenharmony_ci /* 2717f9f848faSopenharmony_ci * Check if there should be any 2718f9f848faSopenharmony_ci * pre transfer start delay: 2719f9f848faSopenharmony_ci */ 2720f9f848faSopenharmony_ci if (xfer->interval > 0) { 2721f9f848faSopenharmony_ci type = (ep->edesc->bmAttributes & UE_XFERTYPE); 2722f9f848faSopenharmony_ci if ((type == UE_BULK) || 2723f9f848faSopenharmony_ci (type == UE_CONTROL)) { 2724f9f848faSopenharmony_ci usbd_transfer_timeout_ms(xfer, 2725f9f848faSopenharmony_ci &usbd_transfer_start_cb, 2726f9f848faSopenharmony_ci xfer->interval); 2727f9f848faSopenharmony_ci DPRINTFN(1, "usbd_transfer_timeout_ms \n"); 2728f9f848faSopenharmony_ci return; 2729f9f848faSopenharmony_ci } 2730f9f848faSopenharmony_ci } 2731f9f848faSopenharmony_ci 2732f9f848faSopenharmony_ci usbd_transfer_start_cb((void *)xfer); 2733f9f848faSopenharmony_ci} 2734f9f848faSopenharmony_ci 2735f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2736f9f848faSopenharmony_ci * usbd_transfer_timeout_ms 2737f9f848faSopenharmony_ci * 2738f9f848faSopenharmony_ci * This function is used to setup a timeout on the given USB 2739f9f848faSopenharmony_ci * transfer. If the timeout has been deferred the callback given by 2740f9f848faSopenharmony_ci * "cb" will get called after "ms" milliseconds. 2741f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2742f9f848faSopenharmony_civoid 2743f9f848faSopenharmony_ciusbd_transfer_timeout_ms(struct usb_xfer *xfer, 2744f9f848faSopenharmony_ci void (*cb) (void *arg), usb_timeout_t ms) 2745f9f848faSopenharmony_ci{ 2746f9f848faSopenharmony_ci USB_BUS_LOCK_ASSERT(xfer->xroot->bus, MA_OWNED); 2747f9f848faSopenharmony_ci 2748f9f848faSopenharmony_ci /* defer delay */ 2749f9f848faSopenharmony_ci usb_callout_reset(&xfer->timeout_handle, 2750f9f848faSopenharmony_ci USB_MS_TO_TICKS(ms) + USB_CALLOUT_ZERO_TICKS, cb, xfer); 2751f9f848faSopenharmony_ci} 2752f9f848faSopenharmony_ci 2753f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2754f9f848faSopenharmony_ci * usbd_callback_wrapper_sub 2755f9f848faSopenharmony_ci * 2756f9f848faSopenharmony_ci * - This function will update variables in an USB transfer after 2757f9f848faSopenharmony_ci * that the USB transfer is complete. 2758f9f848faSopenharmony_ci * 2759f9f848faSopenharmony_ci * - This function is used to start the next USB transfer on the 2760f9f848faSopenharmony_ci * ep transfer queue, if any. 2761f9f848faSopenharmony_ci * 2762f9f848faSopenharmony_ci * NOTE: In some special cases the USB transfer will not be removed from 2763f9f848faSopenharmony_ci * the pipe queue, but remain first. To enforce USB transfer removal call 2764f9f848faSopenharmony_ci * this function passing the error code "USB_ERR_CANCELLED". 2765f9f848faSopenharmony_ci * 2766f9f848faSopenharmony_ci * Return values: 2767f9f848faSopenharmony_ci * 0: Success. 2768f9f848faSopenharmony_ci * Else: The callback has been deferred. 2769f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2770f9f848faSopenharmony_cistatic uint8_t 2771f9f848faSopenharmony_ciusbd_callback_wrapper_sub(struct usb_xfer *xfer) 2772f9f848faSopenharmony_ci{ 2773f9f848faSopenharmony_ci struct usb_endpoint *ep; 2774f9f848faSopenharmony_ci struct usb_bus *bus; 2775f9f848faSopenharmony_ci usb_frcount_t x; 2776f9f848faSopenharmony_ci 2777f9f848faSopenharmony_ci bus = xfer->xroot->bus; 2778f9f848faSopenharmony_ci 2779f9f848faSopenharmony_ci if ((!xfer->flags_int.open) && 2780f9f848faSopenharmony_ci (!xfer->flags_int.did_close)) { 2781f9f848faSopenharmony_ci DPRINTF("close\n"); 2782f9f848faSopenharmony_ci USB_BUS_LOCK(bus); 2783f9f848faSopenharmony_ci (xfer->endpoint->methods->close) (xfer); 2784f9f848faSopenharmony_ci USB_BUS_UNLOCK(bus); 2785f9f848faSopenharmony_ci /* only close once */ 2786f9f848faSopenharmony_ci xfer->flags_int.did_close = 1; 2787f9f848faSopenharmony_ci return (1); /* wait for new callback */ 2788f9f848faSopenharmony_ci } 2789f9f848faSopenharmony_ci /* 2790f9f848faSopenharmony_ci * If we have a non-hardware induced error we 2791f9f848faSopenharmony_ci * need to do the DMA delay! 2792f9f848faSopenharmony_ci */ 2793f9f848faSopenharmony_ci if ((xfer->error != 0) && (!xfer->flags_int.did_dma_delay) && 2794f9f848faSopenharmony_ci ((xfer->error == USB_ERR_CANCELLED) || 2795f9f848faSopenharmony_ci (xfer->error == USB_ERR_TIMEOUT) || 2796f9f848faSopenharmony_ci (bus->methods->start_dma_delay != NULL))) { 2797f9f848faSopenharmony_ci usb_timeout_t temp; 2798f9f848faSopenharmony_ci 2799f9f848faSopenharmony_ci /* only delay once */ 2800f9f848faSopenharmony_ci xfer->flags_int.did_dma_delay = 1; 2801f9f848faSopenharmony_ci 2802f9f848faSopenharmony_ci /* we can not cancel this delay */ 2803f9f848faSopenharmony_ci xfer->flags_int.can_cancel_immed = 0; 2804f9f848faSopenharmony_ci 2805f9f848faSopenharmony_ci temp = usbd_get_dma_delay(xfer->xroot->udev); 2806f9f848faSopenharmony_ci 2807f9f848faSopenharmony_ci DPRINTFN(3, "DMA delay, %u ms, " 2808f9f848faSopenharmony_ci "on %p\n", temp, xfer); 2809f9f848faSopenharmony_ci 2810f9f848faSopenharmony_ci if (temp != 0) { 2811f9f848faSopenharmony_ci USB_BUS_LOCK(bus); 2812f9f848faSopenharmony_ci /* 2813f9f848faSopenharmony_ci * Some hardware solutions have dedicated 2814f9f848faSopenharmony_ci * events when it is safe to free DMA'ed 2815f9f848faSopenharmony_ci * memory. For the other hardware platforms we 2816f9f848faSopenharmony_ci * use a static delay. 2817f9f848faSopenharmony_ci */ 2818f9f848faSopenharmony_ci if (bus->methods->start_dma_delay != NULL) { 2819f9f848faSopenharmony_ci (bus->methods->start_dma_delay) (xfer); 2820f9f848faSopenharmony_ci } else { 2821f9f848faSopenharmony_ci usbd_transfer_timeout_ms(xfer, 2822f9f848faSopenharmony_ci (void (*)(void *))&usb_dma_delay_done_cb, 2823f9f848faSopenharmony_ci temp); 2824f9f848faSopenharmony_ci } 2825f9f848faSopenharmony_ci USB_BUS_UNLOCK(bus); 2826f9f848faSopenharmony_ci return (1); /* wait for new callback */ 2827f9f848faSopenharmony_ci } 2828f9f848faSopenharmony_ci } 2829f9f848faSopenharmony_ci /* check actual number of frames */ 2830f9f848faSopenharmony_ci if (xfer->aframes > xfer->nframes) { 2831f9f848faSopenharmony_ci if (xfer->error == 0) { 2832f9f848faSopenharmony_ci panic("%s: actual number of frames, %d, is " 2833f9f848faSopenharmony_ci "greater than initial number of frames, %d\n", 2834f9f848faSopenharmony_ci __FUNCTION__, xfer->aframes, xfer->nframes); 2835f9f848faSopenharmony_ci } else { 2836f9f848faSopenharmony_ci /* just set some valid value */ 2837f9f848faSopenharmony_ci xfer->aframes = xfer->nframes; 2838f9f848faSopenharmony_ci } 2839f9f848faSopenharmony_ci } 2840f9f848faSopenharmony_ci /* compute actual length */ 2841f9f848faSopenharmony_ci xfer->actlen = 0; 2842f9f848faSopenharmony_ci 2843f9f848faSopenharmony_ci for (x = 0; x != xfer->aframes; x++) { 2844f9f848faSopenharmony_ci xfer->actlen += xfer->frlengths[x]; 2845f9f848faSopenharmony_ci } 2846f9f848faSopenharmony_ci 2847f9f848faSopenharmony_ci /* 2848f9f848faSopenharmony_ci * Frames that were not transferred get zero actual length in 2849f9f848faSopenharmony_ci * case the USB device driver does not check the actual number 2850f9f848faSopenharmony_ci * of frames transferred, "xfer->aframes": 2851f9f848faSopenharmony_ci */ 2852f9f848faSopenharmony_ci for (; x < xfer->nframes; x++) { 2853f9f848faSopenharmony_ci usbd_xfer_set_frame_len(xfer, x, 0); 2854f9f848faSopenharmony_ci } 2855f9f848faSopenharmony_ci 2856f9f848faSopenharmony_ci /* check actual length */ 2857f9f848faSopenharmony_ci if (xfer->actlen > xfer->sumlen) { 2858f9f848faSopenharmony_ci if (xfer->error == 0) { 2859f9f848faSopenharmony_ci panic("%s: actual length, %d, is greater than " 2860f9f848faSopenharmony_ci "initial length, %d\n", 2861f9f848faSopenharmony_ci __FUNCTION__, xfer->actlen, xfer->sumlen); 2862f9f848faSopenharmony_ci } else { 2863f9f848faSopenharmony_ci /* just set some valid value */ 2864f9f848faSopenharmony_ci xfer->actlen = xfer->sumlen; 2865f9f848faSopenharmony_ci } 2866f9f848faSopenharmony_ci } 2867f9f848faSopenharmony_ci DPRINTFN(1, "xfer=%p endpoint=%p sts=%d alen=%d, slen=%d, afrm=%d, nfrm=%d\n", 2868f9f848faSopenharmony_ci xfer, xfer->endpoint, xfer->error, xfer->actlen, xfer->sumlen, 2869f9f848faSopenharmony_ci xfer->aframes, xfer->nframes); 2870f9f848faSopenharmony_ci 2871f9f848faSopenharmony_ci if (xfer->error) { 2872f9f848faSopenharmony_ci /* end of control transfer, if any */ 2873f9f848faSopenharmony_ci xfer->flags_int.control_act = 0; 2874f9f848faSopenharmony_ci 2875f9f848faSopenharmony_ci#if USB_HAVE_TT_SUPPORT 2876f9f848faSopenharmony_ci switch (xfer->error) { 2877f9f848faSopenharmony_ci case USB_ERR_NORMAL_COMPLETION: 2878f9f848faSopenharmony_ci case USB_ERR_SHORT_XFER: 2879f9f848faSopenharmony_ci case USB_ERR_STALLED: 2880f9f848faSopenharmony_ci case USB_ERR_CANCELLED: 2881f9f848faSopenharmony_ci /* nothing to do */ 2882f9f848faSopenharmony_ci break; 2883f9f848faSopenharmony_ci default: 2884f9f848faSopenharmony_ci /* try to reset the TT, if any */ 2885f9f848faSopenharmony_ci USB_BUS_LOCK(bus); 2886f9f848faSopenharmony_ci uhub_tt_buffer_reset_async_locked(xfer->xroot->udev, xfer->endpoint); 2887f9f848faSopenharmony_ci USB_BUS_UNLOCK(bus); 2888f9f848faSopenharmony_ci break; 2889f9f848faSopenharmony_ci } 2890f9f848faSopenharmony_ci#endif 2891f9f848faSopenharmony_ci /* check if we should block the execution queue */ 2892f9f848faSopenharmony_ci if ((xfer->error != USB_ERR_CANCELLED) && 2893f9f848faSopenharmony_ci (xfer->flags.pipe_bof)) { 2894f9f848faSopenharmony_ci DPRINTFN(2, "xfer=%p: Block On Failure " 2895f9f848faSopenharmony_ci "on endpoint=%p\n", xfer, xfer->endpoint); 2896f9f848faSopenharmony_ci goto done; 2897f9f848faSopenharmony_ci } 2898f9f848faSopenharmony_ci } else { 2899f9f848faSopenharmony_ci /* check for short transfers */ 2900f9f848faSopenharmony_ci if (xfer->actlen < xfer->sumlen) { 2901f9f848faSopenharmony_ci /* end of control transfer, if any */ 2902f9f848faSopenharmony_ci xfer->flags_int.control_act = 0; 2903f9f848faSopenharmony_ci 2904f9f848faSopenharmony_ci if (!xfer->flags_int.short_xfer_ok) { 2905f9f848faSopenharmony_ci xfer->error = USB_ERR_SHORT_XFER; 2906f9f848faSopenharmony_ci if (xfer->flags.pipe_bof) { 2907f9f848faSopenharmony_ci DPRINTFN(2, "xfer=%p: Block On Failure on " 2908f9f848faSopenharmony_ci "Short Transfer on endpoint %p.\n", 2909f9f848faSopenharmony_ci xfer, xfer->endpoint); 2910f9f848faSopenharmony_ci goto done; 2911f9f848faSopenharmony_ci } 2912f9f848faSopenharmony_ci } 2913f9f848faSopenharmony_ci } else { 2914f9f848faSopenharmony_ci /* 2915f9f848faSopenharmony_ci * Check if we are in the middle of a 2916f9f848faSopenharmony_ci * control transfer: 2917f9f848faSopenharmony_ci */ 2918f9f848faSopenharmony_ci if (xfer->flags_int.control_act) { 2919f9f848faSopenharmony_ci DPRINTFN(5, "xfer=%p: Control transfer " 2920f9f848faSopenharmony_ci "active on endpoint=%p\n", xfer, xfer->endpoint); 2921f9f848faSopenharmony_ci goto done; 2922f9f848faSopenharmony_ci } 2923f9f848faSopenharmony_ci } 2924f9f848faSopenharmony_ci } 2925f9f848faSopenharmony_ci 2926f9f848faSopenharmony_ci ep = xfer->endpoint; 2927f9f848faSopenharmony_ci 2928f9f848faSopenharmony_ci /* 2929f9f848faSopenharmony_ci * If the current USB transfer is completing we need to start the 2930f9f848faSopenharmony_ci * next one: 2931f9f848faSopenharmony_ci */ 2932f9f848faSopenharmony_ci USB_BUS_LOCK(bus); 2933f9f848faSopenharmony_ci if (ep->endpoint_q[xfer->stream_id].curr == xfer) { 2934f9f848faSopenharmony_ci usb_command_wrapper(&ep->endpoint_q[xfer->stream_id], NULL); 2935f9f848faSopenharmony_ci 2936f9f848faSopenharmony_ci if ((ep->endpoint_q[xfer->stream_id].curr != NULL) || 2937f9f848faSopenharmony_ci (TAILQ_FIRST(&ep->endpoint_q[xfer->stream_id].head) != NULL)) { 2938f9f848faSopenharmony_ci /* there is another USB transfer waiting */ 2939f9f848faSopenharmony_ci } else { 2940f9f848faSopenharmony_ci /* this is the last USB transfer */ 2941f9f848faSopenharmony_ci /* clear isochronous sync flag */ 2942f9f848faSopenharmony_ci xfer->endpoint->is_synced = 0; 2943f9f848faSopenharmony_ci } 2944f9f848faSopenharmony_ci } 2945f9f848faSopenharmony_ci USB_BUS_UNLOCK(bus); 2946f9f848faSopenharmony_cidone: 2947f9f848faSopenharmony_ci return (0); 2948f9f848faSopenharmony_ci} 2949f9f848faSopenharmony_ci 2950f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 2951f9f848faSopenharmony_ci * usb_command_wrapper 2952f9f848faSopenharmony_ci * 2953f9f848faSopenharmony_ci * This function is used to execute commands non-recursivly on an USB 2954f9f848faSopenharmony_ci * transfer. 2955f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 2956f9f848faSopenharmony_civoid 2957f9f848faSopenharmony_ciusb_command_wrapper(struct usb_xfer_queue *pq, struct usb_xfer *xfer) 2958f9f848faSopenharmony_ci{ 2959f9f848faSopenharmony_ci uint32_t int_save; 2960f9f848faSopenharmony_ci 2961f9f848faSopenharmony_ci if (xfer) { 2962f9f848faSopenharmony_ci /* 2963f9f848faSopenharmony_ci * If the transfer is not already processing, 2964f9f848faSopenharmony_ci * queue it! 2965f9f848faSopenharmony_ci */ 2966f9f848faSopenharmony_ci if (pq->curr != xfer) { 2967f9f848faSopenharmony_ci usbd_transfer_enqueue(pq, xfer); 2968f9f848faSopenharmony_ci if (pq->curr != NULL) { 2969f9f848faSopenharmony_ci /* something is already processing */ 2970f9f848faSopenharmony_ci DPRINTFN(6, "busy %p\n", pq->curr); 2971f9f848faSopenharmony_ci return; 2972f9f848faSopenharmony_ci } 2973f9f848faSopenharmony_ci } 2974f9f848faSopenharmony_ci } else { 2975f9f848faSopenharmony_ci /* Get next element in queue */ 2976f9f848faSopenharmony_ci pq->curr = NULL; 2977f9f848faSopenharmony_ci } 2978f9f848faSopenharmony_ci 2979f9f848faSopenharmony_ci if (!pq->recurse_1) { 2980f9f848faSopenharmony_ci do { 2981f9f848faSopenharmony_ci 2982f9f848faSopenharmony_ci LOS_SpinLockSave(&g_usb_wait_queue_spinlock, &int_save); 2983f9f848faSopenharmony_ci /* set both recurse flags */ 2984f9f848faSopenharmony_ci pq->recurse_1 = 1; 2985f9f848faSopenharmony_ci pq->recurse_2 = 1; 2986f9f848faSopenharmony_ci 2987f9f848faSopenharmony_ci if (pq->curr == NULL) { 2988f9f848faSopenharmony_ci xfer = TAILQ_FIRST(&pq->head); 2989f9f848faSopenharmony_ci if (xfer) { 2990f9f848faSopenharmony_ci TAILQ_REMOVE(&pq->head, xfer, 2991f9f848faSopenharmony_ci wait_entry); 2992f9f848faSopenharmony_ci xfer->wait_queue = NULL; 2993f9f848faSopenharmony_ci pq->curr = xfer; 2994f9f848faSopenharmony_ci } else { 2995f9f848faSopenharmony_ci /* clear first recurse flag */ 2996f9f848faSopenharmony_ci pq->recurse_1 = 0; 2997f9f848faSopenharmony_ci LOS_SpinUnlockRestore(&g_usb_wait_queue_spinlock, int_save); 2998f9f848faSopenharmony_ci break; 2999f9f848faSopenharmony_ci } 3000f9f848faSopenharmony_ci } 3001f9f848faSopenharmony_ci LOS_SpinUnlockRestore(&g_usb_wait_queue_spinlock, int_save); 3002f9f848faSopenharmony_ci 3003f9f848faSopenharmony_ci DPRINTFN(6, "cb %p (enter)\n", pq->curr); 3004f9f848faSopenharmony_ci (pq->command) (pq); 3005f9f848faSopenharmony_ci DPRINTFN(6, "cb %p (leave)\n", pq->curr); 3006f9f848faSopenharmony_ci 3007f9f848faSopenharmony_ci LOS_SpinLockSave(&g_usb_wait_queue_spinlock, &int_save); 3008f9f848faSopenharmony_ci if (pq->recurse_2) { 3009f9f848faSopenharmony_ci /* clear first recurse flag */ 3010f9f848faSopenharmony_ci pq->recurse_1 = 0; 3011f9f848faSopenharmony_ci LOS_SpinUnlockRestore(&g_usb_wait_queue_spinlock, int_save); 3012f9f848faSopenharmony_ci break; 3013f9f848faSopenharmony_ci } 3014f9f848faSopenharmony_ci LOS_SpinUnlockRestore(&g_usb_wait_queue_spinlock, int_save); 3015f9f848faSopenharmony_ci } while (1); 3016f9f848faSopenharmony_ci 3017f9f848faSopenharmony_ci } else { 3018f9f848faSopenharmony_ci /* clear second recurse flag */ 3019f9f848faSopenharmony_ci pq->recurse_2 = 0; 3020f9f848faSopenharmony_ci } 3021f9f848faSopenharmony_ci} 3022f9f848faSopenharmony_ci 3023f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 3024f9f848faSopenharmony_ci * usbd_ctrl_transfer_setup 3025f9f848faSopenharmony_ci * 3026f9f848faSopenharmony_ci * This function is used to setup the default USB control endpoint 3027f9f848faSopenharmony_ci * transfer. 3028f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 3029f9f848faSopenharmony_civoid 3030f9f848faSopenharmony_ciusbd_ctrl_transfer_setup(struct usb_device *udev) 3031f9f848faSopenharmony_ci{ 3032f9f848faSopenharmony_ci struct usb_xfer *xfer; 3033f9f848faSopenharmony_ci uint8_t no_resetup; 3034f9f848faSopenharmony_ci uint8_t iface_index; 3035f9f848faSopenharmony_ci 3036f9f848faSopenharmony_ci /* check for root HUB */ 3037f9f848faSopenharmony_ci if (udev->parent_hub == NULL) 3038f9f848faSopenharmony_ci return; 3039f9f848faSopenharmony_cirepeat: 3040f9f848faSopenharmony_ci 3041f9f848faSopenharmony_ci xfer = udev->ctrl_xfer[0]; 3042f9f848faSopenharmony_ci if (xfer) { 3043f9f848faSopenharmony_ci USB_XFER_LOCK(xfer); 3044f9f848faSopenharmony_ci no_resetup = 3045f9f848faSopenharmony_ci ((xfer->address == udev->address) && 3046f9f848faSopenharmony_ci (udev->ctrl_ep_desc.wMaxPacketSize[0] == 3047f9f848faSopenharmony_ci udev->ddesc.bMaxPacketSize)); 3048f9f848faSopenharmony_ci if (udev->flags.usb_mode == USB_MODE_DEVICE) { 3049f9f848faSopenharmony_ci if (no_resetup) { 3050f9f848faSopenharmony_ci /* 3051f9f848faSopenharmony_ci * NOTE: checking "xfer->address" and 3052f9f848faSopenharmony_ci * starting the USB transfer must be 3053f9f848faSopenharmony_ci * atomic! 3054f9f848faSopenharmony_ci */ 3055f9f848faSopenharmony_ci usbd_transfer_start(xfer); 3056f9f848faSopenharmony_ci } 3057f9f848faSopenharmony_ci } 3058f9f848faSopenharmony_ci USB_XFER_UNLOCK(xfer); 3059f9f848faSopenharmony_ci } else { 3060f9f848faSopenharmony_ci no_resetup = 0; 3061f9f848faSopenharmony_ci } 3062f9f848faSopenharmony_ci 3063f9f848faSopenharmony_ci if (no_resetup) { 3064f9f848faSopenharmony_ci /* 3065f9f848faSopenharmony_ci * All parameters are exactly the same like before. 3066f9f848faSopenharmony_ci * Just return. 3067f9f848faSopenharmony_ci */ 3068f9f848faSopenharmony_ci return; 3069f9f848faSopenharmony_ci } 3070f9f848faSopenharmony_ci /* 3071f9f848faSopenharmony_ci * Update wMaxPacketSize for the default control endpoint: 3072f9f848faSopenharmony_ci */ 3073f9f848faSopenharmony_ci udev->ctrl_ep_desc.wMaxPacketSize[0] = 3074f9f848faSopenharmony_ci udev->ddesc.bMaxPacketSize; 3075f9f848faSopenharmony_ci 3076f9f848faSopenharmony_ci /* 3077f9f848faSopenharmony_ci * Unsetup any existing USB transfer: 3078f9f848faSopenharmony_ci */ 3079f9f848faSopenharmony_ci usbd_transfer_unsetup(udev->ctrl_xfer, USB_CTRL_XFER_MAX); 3080f9f848faSopenharmony_ci 3081f9f848faSopenharmony_ci /* 3082f9f848faSopenharmony_ci * Reset clear stall error counter. 3083f9f848faSopenharmony_ci */ 3084f9f848faSopenharmony_ci udev->clear_stall_errors = 0; 3085f9f848faSopenharmony_ci 3086f9f848faSopenharmony_ci /* 3087f9f848faSopenharmony_ci * Try to setup a new USB transfer for the 3088f9f848faSopenharmony_ci * default control endpoint: 3089f9f848faSopenharmony_ci */ 3090f9f848faSopenharmony_ci iface_index = 0; 3091f9f848faSopenharmony_ci if (usbd_transfer_setup(udev, &iface_index, 3092f9f848faSopenharmony_ci udev->ctrl_xfer, udev->bus->control_ep_quirk ? 3093f9f848faSopenharmony_ci usb_control_ep_quirk_cfg : usb_control_ep_cfg, USB_CTRL_XFER_MAX, NULL, 3094f9f848faSopenharmony_ci &udev->device_mtx)) { 3095f9f848faSopenharmony_ci DPRINTFN(0, "could not setup default " 3096f9f848faSopenharmony_ci "USB transfer\n"); 3097f9f848faSopenharmony_ci } else { 3098f9f848faSopenharmony_ci goto repeat; 3099f9f848faSopenharmony_ci } 3100f9f848faSopenharmony_ci} 3101f9f848faSopenharmony_ci 3102f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 3103f9f848faSopenharmony_ci * usbd_clear_data_toggle - factored out code 3104f9f848faSopenharmony_ci * 3105f9f848faSopenharmony_ci * NOTE: the intention of this function is not to reset the hardware 3106f9f848faSopenharmony_ci * data toggle. 3107f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 3108f9f848faSopenharmony_civoid 3109f9f848faSopenharmony_ciusbd_clear_stall_locked(struct usb_device *udev, struct usb_endpoint *ep) 3110f9f848faSopenharmony_ci{ 3111f9f848faSopenharmony_ci USB_BUS_LOCK_ASSERT(udev->bus, MA_OWNED); 3112f9f848faSopenharmony_ci 3113f9f848faSopenharmony_ci /* check that we have a valid case */ 3114f9f848faSopenharmony_ci if ((udev->flags.usb_mode == USB_MODE_HOST) && 3115f9f848faSopenharmony_ci (udev->parent_hub != NULL) && 3116f9f848faSopenharmony_ci (udev->bus->methods->clear_stall != NULL) && 3117f9f848faSopenharmony_ci (ep->methods != NULL)) { 3118f9f848faSopenharmony_ci (udev->bus->methods->clear_stall) (udev, ep); 3119f9f848faSopenharmony_ci } 3120f9f848faSopenharmony_ci} 3121f9f848faSopenharmony_ci 3122f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 3123f9f848faSopenharmony_ci * usbd_clear_data_toggle - factored out code 3124f9f848faSopenharmony_ci * 3125f9f848faSopenharmony_ci * NOTE: the intention of this function is not to reset the hardware 3126f9f848faSopenharmony_ci * data toggle on the USB device side. 3127f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 3128f9f848faSopenharmony_civoid 3129f9f848faSopenharmony_ciusbd_clear_data_toggle(struct usb_device *udev, struct usb_endpoint *ep) 3130f9f848faSopenharmony_ci{ 3131f9f848faSopenharmony_ci DPRINTFN(5, "udev=%p endpoint=%p\n", udev, ep); 3132f9f848faSopenharmony_ci 3133f9f848faSopenharmony_ci USB_BUS_LOCK(udev->bus); 3134f9f848faSopenharmony_ci ep->toggle_next = 0; 3135f9f848faSopenharmony_ci /* some hardware needs a callback to clear the data toggle */ 3136f9f848faSopenharmony_ci usbd_clear_stall_locked(udev, ep); 3137f9f848faSopenharmony_ci USB_BUS_UNLOCK(udev->bus); 3138f9f848faSopenharmony_ci} 3139f9f848faSopenharmony_ci 3140f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 3141f9f848faSopenharmony_ci * usbd_clear_stall_callback - factored out clear stall callback 3142f9f848faSopenharmony_ci * 3143f9f848faSopenharmony_ci * Input parameters: 3144f9f848faSopenharmony_ci * xfer1: Clear Stall Control Transfer 3145f9f848faSopenharmony_ci * xfer2: Stalled USB Transfer 3146f9f848faSopenharmony_ci * 3147f9f848faSopenharmony_ci * This function is NULL safe. 3148f9f848faSopenharmony_ci * 3149f9f848faSopenharmony_ci * Return values: 3150f9f848faSopenharmony_ci * 0: In progress 3151f9f848faSopenharmony_ci * Else: Finished 3152f9f848faSopenharmony_ci * 3153f9f848faSopenharmony_ci * Clear stall config example: 3154f9f848faSopenharmony_ci * 3155f9f848faSopenharmony_ci * static const struct usb_config my_clearstall = { 3156f9f848faSopenharmony_ci * .type = UE_CONTROL, 3157f9f848faSopenharmony_ci * .endpoint = 0, 3158f9f848faSopenharmony_ci * .direction = UE_DIR_ANY, 3159f9f848faSopenharmony_ci * .interval = 50, //50 milliseconds 3160f9f848faSopenharmony_ci * .bufsize = sizeof(struct usb_device_request), 3161f9f848faSopenharmony_ci * .timeout = 1000, //1.000 seconds 3162f9f848faSopenharmony_ci * .callback = &my_clear_stall_callback, // ** 3163f9f848faSopenharmony_ci * .usb_mode = USB_MODE_HOST, 3164f9f848faSopenharmony_ci * }; 3165f9f848faSopenharmony_ci * 3166f9f848faSopenharmony_ci * ** "my_clear_stall_callback" calls "usbd_clear_stall_callback" 3167f9f848faSopenharmony_ci * passing the correct parameters. 3168f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 3169f9f848faSopenharmony_ciuint8_t 3170f9f848faSopenharmony_ciusbd_clear_stall_callback(struct usb_xfer *xfer1, 3171f9f848faSopenharmony_ci struct usb_xfer *xfer2) 3172f9f848faSopenharmony_ci{ 3173f9f848faSopenharmony_ci struct usb_device_request req; 3174f9f848faSopenharmony_ci 3175f9f848faSopenharmony_ci if (xfer2 == NULL) { 3176f9f848faSopenharmony_ci /* looks like we are tearing down */ 3177f9f848faSopenharmony_ci DPRINTF("NULL input parameter\n"); 3178f9f848faSopenharmony_ci return (0); 3179f9f848faSopenharmony_ci } 3180f9f848faSopenharmony_ci USB_XFER_LOCK_ASSERT(xfer1, MA_OWNED); 3181f9f848faSopenharmony_ci USB_XFER_LOCK_ASSERT(xfer2, MA_OWNED); 3182f9f848faSopenharmony_ci 3183f9f848faSopenharmony_ci switch (USB_GET_STATE(xfer1)) { 3184f9f848faSopenharmony_ci case USB_ST_SETUP: 3185f9f848faSopenharmony_ci 3186f9f848faSopenharmony_ci /* 3187f9f848faSopenharmony_ci * pre-clear the data toggle to DATA0 ("umass.c" and 3188f9f848faSopenharmony_ci * "ata-usb.c" depends on this) 3189f9f848faSopenharmony_ci */ 3190f9f848faSopenharmony_ci 3191f9f848faSopenharmony_ci usbd_clear_data_toggle(xfer2->xroot->udev, xfer2->endpoint); 3192f9f848faSopenharmony_ci 3193f9f848faSopenharmony_ci /* setup a clear-stall packet */ 3194f9f848faSopenharmony_ci 3195f9f848faSopenharmony_ci req.bmRequestType = UT_WRITE_ENDPOINT; 3196f9f848faSopenharmony_ci req.bRequest = UR_CLEAR_FEATURE; 3197f9f848faSopenharmony_ci USETW(req.wValue, UF_ENDPOINT_HALT); 3198f9f848faSopenharmony_ci req.wIndex[0] = xfer2->endpoint->edesc->bEndpointAddress; 3199f9f848faSopenharmony_ci req.wIndex[1] = 0; 3200f9f848faSopenharmony_ci USETW(req.wLength, 0); 3201f9f848faSopenharmony_ci 3202f9f848faSopenharmony_ci /* 3203f9f848faSopenharmony_ci * "usbd_transfer_setup_sub()" will ensure that 3204f9f848faSopenharmony_ci * we have sufficient room in the buffer for 3205f9f848faSopenharmony_ci * the request structure! 3206f9f848faSopenharmony_ci */ 3207f9f848faSopenharmony_ci 3208f9f848faSopenharmony_ci /* copy in the transfer */ 3209f9f848faSopenharmony_ci 3210f9f848faSopenharmony_ci usbd_copy_in(xfer1->frbuffers, 0, &req, sizeof(req)); 3211f9f848faSopenharmony_ci 3212f9f848faSopenharmony_ci /* set length */ 3213f9f848faSopenharmony_ci xfer1->frlengths[0] = sizeof(req); 3214f9f848faSopenharmony_ci xfer1->nframes = 1; 3215f9f848faSopenharmony_ci 3216f9f848faSopenharmony_ci usbd_transfer_submit(xfer1); 3217f9f848faSopenharmony_ci return (0); 3218f9f848faSopenharmony_ci 3219f9f848faSopenharmony_ci case USB_ST_TRANSFERRED: 3220f9f848faSopenharmony_ci break; 3221f9f848faSopenharmony_ci 3222f9f848faSopenharmony_ci default: /* Error */ 3223f9f848faSopenharmony_ci if (xfer1->error == USB_ERR_CANCELLED) { 3224f9f848faSopenharmony_ci return (0); 3225f9f848faSopenharmony_ci } 3226f9f848faSopenharmony_ci break; 3227f9f848faSopenharmony_ci } 3228f9f848faSopenharmony_ci return (1); /* Clear Stall Finished */ 3229f9f848faSopenharmony_ci} 3230f9f848faSopenharmony_ci 3231f9f848faSopenharmony_ci/*------------------------------------------------------------------------* 3232f9f848faSopenharmony_ci * usbd_transfer_poll 3233f9f848faSopenharmony_ci * 3234f9f848faSopenharmony_ci * The following function gets called from the USB keyboard driver and 3235f9f848faSopenharmony_ci * UMASS when the system has paniced. 3236f9f848faSopenharmony_ci * 3237f9f848faSopenharmony_ci * NOTE: It is currently not possible to resume normal operation on 3238f9f848faSopenharmony_ci * the USB controller which has been polled, due to clearing of the 3239f9f848faSopenharmony_ci * "up_dsleep" and "up_msleep" flags. 3240f9f848faSopenharmony_ci *------------------------------------------------------------------------*/ 3241f9f848faSopenharmony_civoid 3242f9f848faSopenharmony_ciusbd_transfer_poll(struct usb_xfer **ppxfer, uint16_t max) 3243f9f848faSopenharmony_ci{ 3244f9f848faSopenharmony_ci struct usb_xfer *xfer; 3245f9f848faSopenharmony_ci struct usb_xfer_root *xroot; 3246f9f848faSopenharmony_ci struct usb_device *udev; 3247f9f848faSopenharmony_ci struct usb_proc_msg *pm; 3248f9f848faSopenharmony_ci uint16_t n; 3249f9f848faSopenharmony_ci uint16_t drop_bus; 3250f9f848faSopenharmony_ci uint16_t drop_xfer; 3251f9f848faSopenharmony_ci 3252f9f848faSopenharmony_ci for (n = 0; n != max; n++) { 3253f9f848faSopenharmony_ci /* Extra checks to avoid panic */ 3254f9f848faSopenharmony_ci xfer = ppxfer[n]; 3255f9f848faSopenharmony_ci if (xfer == NULL) 3256f9f848faSopenharmony_ci continue; /* no USB transfer */ 3257f9f848faSopenharmony_ci xroot = xfer->xroot; 3258f9f848faSopenharmony_ci if (xroot == NULL) 3259f9f848faSopenharmony_ci continue; /* no USB root */ 3260f9f848faSopenharmony_ci udev = xroot->udev; 3261f9f848faSopenharmony_ci if (udev == NULL) 3262f9f848faSopenharmony_ci continue; /* no USB device */ 3263f9f848faSopenharmony_ci if (udev->bus == NULL) 3264f9f848faSopenharmony_ci continue; /* no BUS structure */ 3265f9f848faSopenharmony_ci if (udev->bus->methods == NULL) 3266f9f848faSopenharmony_ci continue; /* no BUS methods */ 3267f9f848faSopenharmony_ci if (udev->bus->methods->xfer_poll == NULL) 3268f9f848faSopenharmony_ci continue; /* no poll method */ 3269f9f848faSopenharmony_ci 3270f9f848faSopenharmony_ci /* make sure that the BUS mutex is not locked */ 3271f9f848faSopenharmony_ci drop_bus = 0; 3272f9f848faSopenharmony_ci while (mtx_owned(&xroot->udev->bus->bus_mtx) && !SCHEDULER_STOPPED()) { 3273f9f848faSopenharmony_ci mtx_unlock(&xroot->udev->bus->bus_mtx); 3274f9f848faSopenharmony_ci drop_bus++; 3275f9f848faSopenharmony_ci } 3276f9f848faSopenharmony_ci 3277f9f848faSopenharmony_ci /* make sure that the transfer mutex is not locked */ 3278f9f848faSopenharmony_ci drop_xfer = 0; 3279f9f848faSopenharmony_ci while (mtx_owned(xroot->xfer_mtx) && !SCHEDULER_STOPPED()) { 3280f9f848faSopenharmony_ci mtx_unlock(xroot->xfer_mtx); 3281f9f848faSopenharmony_ci drop_xfer++; 3282f9f848faSopenharmony_ci } 3283f9f848faSopenharmony_ci 3284f9f848faSopenharmony_ci /* Make sure cv_signal() and cv_broadcast() is not called */ 3285f9f848faSopenharmony_ci USB_BUS_CONTROL_XFER_PROC(udev->bus)->up_msleep = 0; 3286f9f848faSopenharmony_ci USB_BUS_EXPLORE_PROC(udev->bus)->up_msleep = 0; 3287f9f848faSopenharmony_ci USB_BUS_GIANT_PROC(udev->bus)->up_msleep = 0; 3288f9f848faSopenharmony_ci USB_BUS_NON_GIANT_ISOC_PROC(udev->bus)->up_msleep = 0; 3289f9f848faSopenharmony_ci USB_BUS_NON_GIANT_BULK_PROC(udev->bus)->up_msleep = 0; 3290f9f848faSopenharmony_ci 3291f9f848faSopenharmony_ci /* poll USB hardware */ 3292f9f848faSopenharmony_ci (udev->bus->methods->xfer_poll) (udev->bus); 3293f9f848faSopenharmony_ci 3294f9f848faSopenharmony_ci USB_BUS_LOCK(xroot->bus); 3295f9f848faSopenharmony_ci 3296f9f848faSopenharmony_ci /* check for clear stall */ 3297f9f848faSopenharmony_ci if (udev->ctrl_xfer[1] != NULL) { 3298f9f848faSopenharmony_ci /* poll clear stall start */ 3299f9f848faSopenharmony_ci pm = &udev->cs_msg[0].hdr; 3300f9f848faSopenharmony_ci (pm->pm_callback) (pm); 3301f9f848faSopenharmony_ci /* poll clear stall done thread */ 3302f9f848faSopenharmony_ci pm = &udev->ctrl_xfer[1]-> 3303f9f848faSopenharmony_ci xroot->done_m[0].hdr; 3304f9f848faSopenharmony_ci (pm->pm_callback) (pm); 3305f9f848faSopenharmony_ci } 3306f9f848faSopenharmony_ci 3307f9f848faSopenharmony_ci /* poll done thread */ 3308f9f848faSopenharmony_ci pm = &xroot->done_m[0].hdr; 3309f9f848faSopenharmony_ci (pm->pm_callback) (pm); 3310f9f848faSopenharmony_ci 3311f9f848faSopenharmony_ci USB_BUS_UNLOCK(xroot->bus); 3312f9f848faSopenharmony_ci 3313f9f848faSopenharmony_ci /* restore transfer mutex */ 3314f9f848faSopenharmony_ci while (drop_xfer--) 3315f9f848faSopenharmony_ci mtx_lock(xroot->xfer_mtx); 3316f9f848faSopenharmony_ci 3317f9f848faSopenharmony_ci /* restore BUS mutex */ 3318f9f848faSopenharmony_ci while (drop_bus--) 3319f9f848faSopenharmony_ci mtx_lock(&xroot->udev->bus->bus_mtx); 3320f9f848faSopenharmony_ci } 3321f9f848faSopenharmony_ci} 3322f9f848faSopenharmony_ci 3323f9f848faSopenharmony_cistatic void 3324f9f848faSopenharmony_ciusbd_get_std_packet_size(struct usb_std_packet_size *ptr, 3325f9f848faSopenharmony_ci uint8_t type, enum usb_dev_speed speed) 3326f9f848faSopenharmony_ci{ 3327f9f848faSopenharmony_ci static const uint16_t intr_range_max[USB_SPEED_MAX] = { 3328f9f848faSopenharmony_ci [USB_SPEED_LOW] = 8, 3329f9f848faSopenharmony_ci [USB_SPEED_FULL] = 64, 3330f9f848faSopenharmony_ci [USB_SPEED_HIGH] = 1024, 3331f9f848faSopenharmony_ci [USB_SPEED_VARIABLE] = 1024, 3332f9f848faSopenharmony_ci [USB_SPEED_SUPER] = 1024, 3333f9f848faSopenharmony_ci }; 3334f9f848faSopenharmony_ci 3335f9f848faSopenharmony_ci static const uint16_t isoc_range_max[USB_SPEED_MAX] = { 3336f9f848faSopenharmony_ci [USB_SPEED_LOW] = 0, /* invalid */ 3337f9f848faSopenharmony_ci [USB_SPEED_FULL] = 1023, 3338f9f848faSopenharmony_ci [USB_SPEED_HIGH] = 1024, 3339f9f848faSopenharmony_ci [USB_SPEED_VARIABLE] = 3584, 3340f9f848faSopenharmony_ci [USB_SPEED_SUPER] = 1024, 3341f9f848faSopenharmony_ci }; 3342f9f848faSopenharmony_ci 3343f9f848faSopenharmony_ci static const uint16_t control_min[USB_SPEED_MAX] = { 3344f9f848faSopenharmony_ci [USB_SPEED_LOW] = 8, 3345f9f848faSopenharmony_ci [USB_SPEED_FULL] = 8, 3346f9f848faSopenharmony_ci [USB_SPEED_HIGH] = 64, 3347f9f848faSopenharmony_ci [USB_SPEED_VARIABLE] = 512, 3348f9f848faSopenharmony_ci [USB_SPEED_SUPER] = 512, 3349f9f848faSopenharmony_ci }; 3350f9f848faSopenharmony_ci 3351f9f848faSopenharmony_ci static const uint16_t bulk_min[USB_SPEED_MAX] = { 3352f9f848faSopenharmony_ci [USB_SPEED_LOW] = 8, 3353f9f848faSopenharmony_ci [USB_SPEED_FULL] = 8, 3354f9f848faSopenharmony_ci [USB_SPEED_HIGH] = 512, 3355f9f848faSopenharmony_ci [USB_SPEED_VARIABLE] = 512, 3356f9f848faSopenharmony_ci [USB_SPEED_SUPER] = 1024, 3357f9f848faSopenharmony_ci }; 3358f9f848faSopenharmony_ci 3359f9f848faSopenharmony_ci uint16_t temp; 3360f9f848faSopenharmony_ci 3361f9f848faSopenharmony_ci (void)memset_s(ptr, sizeof(*ptr), 0, sizeof(*ptr)); 3362f9f848faSopenharmony_ci 3363f9f848faSopenharmony_ci switch (type) { 3364f9f848faSopenharmony_ci case UE_INTERRUPT: 3365f9f848faSopenharmony_ci ptr->range.max = intr_range_max[speed]; 3366f9f848faSopenharmony_ci break; 3367f9f848faSopenharmony_ci case UE_ISOCHRONOUS: 3368f9f848faSopenharmony_ci ptr->range.max = isoc_range_max[speed]; 3369f9f848faSopenharmony_ci break; 3370f9f848faSopenharmony_ci default: 3371f9f848faSopenharmony_ci if (type == UE_BULK) 3372f9f848faSopenharmony_ci temp = bulk_min[speed]; 3373f9f848faSopenharmony_ci else /* UE_CONTROL */ 3374f9f848faSopenharmony_ci temp = control_min[speed]; 3375f9f848faSopenharmony_ci 3376f9f848faSopenharmony_ci /* default is fixed */ 3377f9f848faSopenharmony_ci ptr->fixed[0] = temp; 3378f9f848faSopenharmony_ci ptr->fixed[1] = temp; 3379f9f848faSopenharmony_ci ptr->fixed[2] = temp; 3380f9f848faSopenharmony_ci ptr->fixed[3] = temp; 3381f9f848faSopenharmony_ci 3382f9f848faSopenharmony_ci if (speed == USB_SPEED_FULL) { 3383f9f848faSopenharmony_ci /* multiple sizes */ 3384f9f848faSopenharmony_ci ptr->fixed[1] = 16; 3385f9f848faSopenharmony_ci ptr->fixed[2] = 32; 3386f9f848faSopenharmony_ci ptr->fixed[3] = 64; 3387f9f848faSopenharmony_ci } 3388f9f848faSopenharmony_ci if ((speed == USB_SPEED_VARIABLE) && 3389f9f848faSopenharmony_ci (type == UE_BULK)) { 3390f9f848faSopenharmony_ci /* multiple sizes */ 3391f9f848faSopenharmony_ci ptr->fixed[2] = 1024; 3392f9f848faSopenharmony_ci ptr->fixed[3] = 1536; 3393f9f848faSopenharmony_ci } 3394f9f848faSopenharmony_ci break; 3395f9f848faSopenharmony_ci } 3396f9f848faSopenharmony_ci} 3397f9f848faSopenharmony_ci 3398f9f848faSopenharmony_civoid * 3399f9f848faSopenharmony_ciusbd_xfer_softc(struct usb_xfer *xfer) 3400f9f848faSopenharmony_ci{ 3401f9f848faSopenharmony_ci return (xfer->priv_sc); 3402f9f848faSopenharmony_ci} 3403f9f848faSopenharmony_ci 3404f9f848faSopenharmony_civoid * 3405f9f848faSopenharmony_ciusbd_xfer_get_priv(struct usb_xfer *xfer) 3406f9f848faSopenharmony_ci{ 3407f9f848faSopenharmony_ci return (xfer->priv_fifo); 3408f9f848faSopenharmony_ci} 3409f9f848faSopenharmony_ci 3410f9f848faSopenharmony_civoid 3411f9f848faSopenharmony_ciusbd_xfer_set_priv(struct usb_xfer *xfer, void *ptr) 3412f9f848faSopenharmony_ci{ 3413f9f848faSopenharmony_ci xfer->priv_fifo = ptr; 3414f9f848faSopenharmony_ci} 3415f9f848faSopenharmony_ci 3416f9f848faSopenharmony_ciuint8_t 3417f9f848faSopenharmony_ciusbd_xfer_state(struct usb_xfer *xfer) 3418f9f848faSopenharmony_ci{ 3419f9f848faSopenharmony_ci return (xfer->usb_state); 3420f9f848faSopenharmony_ci} 3421f9f848faSopenharmony_ci 3422f9f848faSopenharmony_civoid 3423f9f848faSopenharmony_ciusbd_xfer_set_flag(struct usb_xfer *xfer, int flag) 3424f9f848faSopenharmony_ci{ 3425f9f848faSopenharmony_ci switch (flag) { 3426f9f848faSopenharmony_ci case USB_FORCE_SHORT_XFER: 3427f9f848faSopenharmony_ci xfer->flags.force_short_xfer = 1; 3428f9f848faSopenharmony_ci break; 3429f9f848faSopenharmony_ci case USB_SHORT_XFER_OK: 3430f9f848faSopenharmony_ci xfer->flags.short_xfer_ok = 1; 3431f9f848faSopenharmony_ci break; 3432f9f848faSopenharmony_ci case USB_MULTI_SHORT_OK: 3433f9f848faSopenharmony_ci xfer->flags.short_frames_ok = 1; 3434f9f848faSopenharmony_ci break; 3435f9f848faSopenharmony_ci case USB_MANUAL_STATUS: 3436f9f848faSopenharmony_ci xfer->flags.manual_status = 1; 3437f9f848faSopenharmony_ci break; 3438f9f848faSopenharmony_ci } 3439f9f848faSopenharmony_ci} 3440f9f848faSopenharmony_ci 3441f9f848faSopenharmony_civoid 3442f9f848faSopenharmony_ciusbd_xfer_clr_flag(struct usb_xfer *xfer, int flag) 3443f9f848faSopenharmony_ci{ 3444f9f848faSopenharmony_ci switch (flag) { 3445f9f848faSopenharmony_ci case USB_FORCE_SHORT_XFER: 3446f9f848faSopenharmony_ci xfer->flags.force_short_xfer = 0; 3447f9f848faSopenharmony_ci break; 3448f9f848faSopenharmony_ci case USB_SHORT_XFER_OK: 3449f9f848faSopenharmony_ci xfer->flags.short_xfer_ok = 0; 3450f9f848faSopenharmony_ci break; 3451f9f848faSopenharmony_ci case USB_MULTI_SHORT_OK: 3452f9f848faSopenharmony_ci xfer->flags.short_frames_ok = 0; 3453f9f848faSopenharmony_ci break; 3454f9f848faSopenharmony_ci case USB_MANUAL_STATUS: 3455f9f848faSopenharmony_ci xfer->flags.manual_status = 0; 3456f9f848faSopenharmony_ci break; 3457f9f848faSopenharmony_ci } 3458f9f848faSopenharmony_ci} 3459f9f848faSopenharmony_ci 3460f9f848faSopenharmony_ci/* 3461f9f848faSopenharmony_ci * The following function returns in milliseconds when the isochronous 3462f9f848faSopenharmony_ci * transfer was completed by the hardware. The returned value wraps 3463f9f848faSopenharmony_ci * around 65536 milliseconds. 3464f9f848faSopenharmony_ci */ 3465f9f848faSopenharmony_ciuint16_t 3466f9f848faSopenharmony_ciusbd_xfer_get_timestamp(struct usb_xfer *xfer) 3467f9f848faSopenharmony_ci{ 3468f9f848faSopenharmony_ci return (xfer->isoc_time_complete); 3469f9f848faSopenharmony_ci} 3470f9f848faSopenharmony_ci 3471f9f848faSopenharmony_ci/* 3472f9f848faSopenharmony_ci * The following function returns non-zero if the max packet size 3473f9f848faSopenharmony_ci * field was clamped to a valid value. Else it returns zero. 3474f9f848faSopenharmony_ci */ 3475f9f848faSopenharmony_ciuint8_t 3476f9f848faSopenharmony_ciusbd_xfer_maxp_was_clamped(struct usb_xfer *xfer) 3477f9f848faSopenharmony_ci{ 3478f9f848faSopenharmony_ci return (xfer->flags_int.maxp_was_clamped); 3479f9f848faSopenharmony_ci} 3480f9f848faSopenharmony_ci 3481f9f848faSopenharmony_ci/* 3482f9f848faSopenharmony_ci * The following function computes the next isochronous frame number 3483f9f848faSopenharmony_ci * where the first isochronous packet should be queued. 3484f9f848faSopenharmony_ci * 3485f9f848faSopenharmony_ci * The function returns non-zero if there was a discontinuity. 3486f9f848faSopenharmony_ci * Else zero is returned for normal operation. 3487f9f848faSopenharmony_ci */ 3488f9f848faSopenharmony_ciuint8_t 3489f9f848faSopenharmony_ciusbd_xfer_get_isochronous_start_frame(struct usb_xfer *xfer, uint32_t frame_curr, 3490f9f848faSopenharmony_ci uint32_t frame_min, uint32_t frame_ms, uint32_t frame_mask, uint32_t *p_frame_start) 3491f9f848faSopenharmony_ci{ 3492f9f848faSopenharmony_ci uint32_t duration; 3493f9f848faSopenharmony_ci uint32_t delta; 3494f9f848faSopenharmony_ci uint8_t retval; 3495f9f848faSopenharmony_ci uint8_t shift; 3496f9f848faSopenharmony_ci 3497f9f848faSopenharmony_ci /* Compute time ahead of current schedule. */ 3498f9f848faSopenharmony_ci delta = (xfer->endpoint->isoc_next - frame_curr) & frame_mask; 3499f9f848faSopenharmony_ci 3500f9f848faSopenharmony_ci /* 3501f9f848faSopenharmony_ci * Check if it is the first transfer or if the future frame 3502f9f848faSopenharmony_ci * delta is less than one millisecond or if the frame delta is 3503f9f848faSopenharmony_ci * negative: 3504f9f848faSopenharmony_ci */ 3505f9f848faSopenharmony_ci if (xfer->endpoint->is_synced == 0 || 3506f9f848faSopenharmony_ci delta < (frame_ms + frame_min) || 3507f9f848faSopenharmony_ci delta > (frame_mask / 2)) { 3508f9f848faSopenharmony_ci /* Schedule transfer 2 milliseconds into the future. */ 3509f9f848faSopenharmony_ci xfer->endpoint->isoc_next = (frame_curr + 2 * frame_ms + frame_min) & frame_mask; 3510f9f848faSopenharmony_ci xfer->endpoint->is_synced = 1; 3511f9f848faSopenharmony_ci 3512f9f848faSopenharmony_ci retval = 1; 3513f9f848faSopenharmony_ci } else { 3514f9f848faSopenharmony_ci retval = 0; 3515f9f848faSopenharmony_ci } 3516f9f848faSopenharmony_ci 3517f9f848faSopenharmony_ci /* Store start time, if any. */ 3518f9f848faSopenharmony_ci if (p_frame_start != NULL) 3519f9f848faSopenharmony_ci *p_frame_start = xfer->endpoint->isoc_next & frame_mask; 3520f9f848faSopenharmony_ci 3521f9f848faSopenharmony_ci /* Get relative completion time, in milliseconds. */ 3522f9f848faSopenharmony_ci delta = xfer->endpoint->isoc_next - frame_curr + (frame_curr % frame_ms); 3523f9f848faSopenharmony_ci delta &= frame_mask; 3524f9f848faSopenharmony_ci delta /= frame_ms; 3525f9f848faSopenharmony_ci 3526f9f848faSopenharmony_ci switch (usbd_get_speed(xfer->xroot->udev)) { 3527f9f848faSopenharmony_ci case USB_SPEED_FULL: 3528f9f848faSopenharmony_ci shift = 3; 3529f9f848faSopenharmony_ci break; 3530f9f848faSopenharmony_ci default: 3531f9f848faSopenharmony_ci shift = usbd_xfer_get_fps_shift(xfer); 3532f9f848faSopenharmony_ci break; 3533f9f848faSopenharmony_ci } 3534f9f848faSopenharmony_ci 3535f9f848faSopenharmony_ci /* Get duration in milliseconds, rounded up. */ 3536f9f848faSopenharmony_ci duration = ((xfer->nframes << shift) + 7) / 8; 3537f9f848faSopenharmony_ci 3538f9f848faSopenharmony_ci /* Compute full 32-bit completion time, in milliseconds. */ 3539f9f848faSopenharmony_ci xfer->isoc_time_complete = 3540f9f848faSopenharmony_ci usb_isoc_time_expand(xfer->xroot->bus, frame_curr / frame_ms) + 3541f9f848faSopenharmony_ci delta + duration; 3542f9f848faSopenharmony_ci 3543f9f848faSopenharmony_ci /* Compute next isochronous frame. */ 3544f9f848faSopenharmony_ci xfer->endpoint->isoc_next += duration * frame_ms; 3545f9f848faSopenharmony_ci xfer->endpoint->isoc_next &= frame_mask; 3546f9f848faSopenharmony_ci 3547f9f848faSopenharmony_ci return (retval); 3548f9f848faSopenharmony_ci} 3549f9f848faSopenharmony_ci 3550f9f848faSopenharmony_ci#undef USB_DEBUG_VAR 3551