15fd54aceSGreg Kroah-Hartman // SPDX-License-Identifier: (GPL-2.0+ OR BSD-3-Clause) 2197ba5f4SPaul Zimmerman /* 3197ba5f4SPaul Zimmerman * hcd_queue.c - DesignWare HS OTG Controller host queuing routines 4197ba5f4SPaul Zimmerman * 5197ba5f4SPaul Zimmerman * Copyright (C) 2004-2013 Synopsys, Inc. 6197ba5f4SPaul Zimmerman * 7197ba5f4SPaul Zimmerman * Redistribution and use in source and binary forms, with or without 8197ba5f4SPaul Zimmerman * modification, are permitted provided that the following conditions 9197ba5f4SPaul Zimmerman * are met: 10197ba5f4SPaul Zimmerman * 1. Redistributions of source code must retain the above copyright 11197ba5f4SPaul Zimmerman * notice, this list of conditions, and the following disclaimer, 12197ba5f4SPaul Zimmerman * without modification. 13197ba5f4SPaul Zimmerman * 2. Redistributions in binary form must reproduce the above copyright 14197ba5f4SPaul Zimmerman * notice, this list of conditions and the following disclaimer in the 15197ba5f4SPaul Zimmerman * documentation and/or other materials provided with the distribution. 16197ba5f4SPaul Zimmerman * 3. The names of the above-listed copyright holders may not be used 17197ba5f4SPaul Zimmerman * to endorse or promote products derived from this software without 18197ba5f4SPaul Zimmerman * specific prior written permission. 19197ba5f4SPaul Zimmerman * 20197ba5f4SPaul Zimmerman * ALTERNATIVELY, this software may be distributed under the terms of the 21197ba5f4SPaul Zimmerman * GNU General Public License ("GPL") as published by the Free Software 22197ba5f4SPaul Zimmerman * Foundation; either version 2 of the License, or (at your option) any 23197ba5f4SPaul Zimmerman * later version. 24197ba5f4SPaul Zimmerman * 25197ba5f4SPaul Zimmerman * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS 26197ba5f4SPaul Zimmerman * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, 27197ba5f4SPaul Zimmerman * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 28197ba5f4SPaul Zimmerman * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR 29197ba5f4SPaul Zimmerman * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, 30197ba5f4SPaul Zimmerman * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, 31197ba5f4SPaul Zimmerman * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR 32197ba5f4SPaul Zimmerman * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF 33197ba5f4SPaul Zimmerman * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING 34197ba5f4SPaul Zimmerman * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS 35197ba5f4SPaul Zimmerman * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 36197ba5f4SPaul Zimmerman */ 37197ba5f4SPaul Zimmerman 38197ba5f4SPaul Zimmerman /* 39197ba5f4SPaul Zimmerman * This file contains the functions to manage Queue Heads and Queue 40197ba5f4SPaul Zimmerman * Transfer Descriptors for Host mode 41197ba5f4SPaul Zimmerman */ 42fb616e3fSDouglas Anderson #include <linux/gcd.h> 43197ba5f4SPaul Zimmerman #include <linux/kernel.h> 44197ba5f4SPaul Zimmerman #include <linux/module.h> 45197ba5f4SPaul Zimmerman #include <linux/spinlock.h> 46197ba5f4SPaul Zimmerman #include <linux/interrupt.h> 47197ba5f4SPaul Zimmerman #include <linux/dma-mapping.h> 48197ba5f4SPaul Zimmerman #include <linux/io.h> 49197ba5f4SPaul Zimmerman #include <linux/slab.h> 50197ba5f4SPaul Zimmerman #include <linux/usb.h> 51197ba5f4SPaul Zimmerman 52197ba5f4SPaul Zimmerman #include <linux/usb/hcd.h> 53197ba5f4SPaul Zimmerman #include <linux/usb/ch11.h> 54197ba5f4SPaul Zimmerman 55197ba5f4SPaul Zimmerman #include "core.h" 56197ba5f4SPaul Zimmerman #include "hcd.h" 57197ba5f4SPaul Zimmerman 5817dd5b64SDouglas Anderson /* Wait this long before releasing periodic reservation */ 5917dd5b64SDouglas Anderson #define DWC2_UNRESERVE_DELAY (msecs_to_jiffies(5)) 6017dd5b64SDouglas Anderson 6117dd5b64SDouglas Anderson /** 62b951c6c7SDouglas Anderson * dwc2_periodic_channel_available() - Checks that a channel is available for a 63b951c6c7SDouglas Anderson * periodic transfer 64b951c6c7SDouglas Anderson * 65b951c6c7SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller 66b951c6c7SDouglas Anderson * 67b951c6c7SDouglas Anderson * Return: 0 if successful, negative error code otherwise 68b951c6c7SDouglas Anderson */ 69b951c6c7SDouglas Anderson static int dwc2_periodic_channel_available(struct dwc2_hsotg *hsotg) 70b951c6c7SDouglas Anderson { 71b951c6c7SDouglas Anderson /* 72b951c6c7SDouglas Anderson * Currently assuming that there is a dedicated host channel for 73b951c6c7SDouglas Anderson * each periodic transaction plus at least one host channel for 74b951c6c7SDouglas Anderson * non-periodic transactions 75b951c6c7SDouglas Anderson */ 76b951c6c7SDouglas Anderson int status; 77b951c6c7SDouglas Anderson int num_channels; 78b951c6c7SDouglas Anderson 79bea8e86cSJohn Youn num_channels = hsotg->params.host_channels; 80ab283202SJohn Youn if ((hsotg->periodic_channels + hsotg->non_periodic_channels < 81ab283202SJohn Youn num_channels) && (hsotg->periodic_channels < num_channels - 1)) { 82b951c6c7SDouglas Anderson status = 0; 83b951c6c7SDouglas Anderson } else { 84b951c6c7SDouglas Anderson dev_dbg(hsotg->dev, 859da51974SJohn Youn "%s: Total channels: %d, Periodic: %d, Non-periodic: %d\n", 869da51974SJohn Youn __func__, num_channels, 87b951c6c7SDouglas Anderson hsotg->periodic_channels, hsotg->non_periodic_channels); 88b951c6c7SDouglas Anderson status = -ENOSPC; 89b951c6c7SDouglas Anderson } 90b951c6c7SDouglas Anderson 91b951c6c7SDouglas Anderson return status; 92b951c6c7SDouglas Anderson } 93b951c6c7SDouglas Anderson 94b951c6c7SDouglas Anderson /** 95b951c6c7SDouglas Anderson * dwc2_check_periodic_bandwidth() - Checks that there is sufficient bandwidth 96b951c6c7SDouglas Anderson * for the specified QH in the periodic schedule 97b951c6c7SDouglas Anderson * 98b951c6c7SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller 99b951c6c7SDouglas Anderson * @qh: QH containing periodic bandwidth required 100b951c6c7SDouglas Anderson * 101b951c6c7SDouglas Anderson * Return: 0 if successful, negative error code otherwise 102b951c6c7SDouglas Anderson * 103b951c6c7SDouglas Anderson * For simplicity, this calculation assumes that all the transfers in the 104b951c6c7SDouglas Anderson * periodic schedule may occur in the same (micro)frame 105b951c6c7SDouglas Anderson */ 106b951c6c7SDouglas Anderson static int dwc2_check_periodic_bandwidth(struct dwc2_hsotg *hsotg, 107b951c6c7SDouglas Anderson struct dwc2_qh *qh) 108b951c6c7SDouglas Anderson { 109b951c6c7SDouglas Anderson int status; 110b951c6c7SDouglas Anderson s16 max_claimed_usecs; 111b951c6c7SDouglas Anderson 112b951c6c7SDouglas Anderson status = 0; 113b951c6c7SDouglas Anderson 114b951c6c7SDouglas Anderson if (qh->dev_speed == USB_SPEED_HIGH || qh->do_split) { 115b951c6c7SDouglas Anderson /* 116b951c6c7SDouglas Anderson * High speed mode 117b951c6c7SDouglas Anderson * Max periodic usecs is 80% x 125 usec = 100 usec 118b951c6c7SDouglas Anderson */ 119b951c6c7SDouglas Anderson max_claimed_usecs = 100 - qh->host_us; 120b951c6c7SDouglas Anderson } else { 121b951c6c7SDouglas Anderson /* 122b951c6c7SDouglas Anderson * Full speed mode 123b951c6c7SDouglas Anderson * Max periodic usecs is 90% x 1000 usec = 900 usec 124b951c6c7SDouglas Anderson */ 125b951c6c7SDouglas Anderson max_claimed_usecs = 900 - qh->host_us; 126b951c6c7SDouglas Anderson } 127b951c6c7SDouglas Anderson 128b951c6c7SDouglas Anderson if (hsotg->periodic_usecs > max_claimed_usecs) { 129b951c6c7SDouglas Anderson dev_err(hsotg->dev, 130b951c6c7SDouglas Anderson "%s: already claimed usecs %d, required usecs %d\n", 131b951c6c7SDouglas Anderson __func__, hsotg->periodic_usecs, qh->host_us); 132b951c6c7SDouglas Anderson status = -ENOSPC; 133b951c6c7SDouglas Anderson } 134b951c6c7SDouglas Anderson 135b951c6c7SDouglas Anderson return status; 136b951c6c7SDouglas Anderson } 137b951c6c7SDouglas Anderson 138b951c6c7SDouglas Anderson /** 1399f9f09b0SDouglas Anderson * pmap_schedule() - Schedule time in a periodic bitmap (pmap). 1409f9f09b0SDouglas Anderson * 1419f9f09b0SDouglas Anderson * @map: The bitmap representing the schedule; will be updated 1429f9f09b0SDouglas Anderson * upon success. 1439f9f09b0SDouglas Anderson * @bits_per_period: The schedule represents several periods. This is how many 1449f9f09b0SDouglas Anderson * bits are in each period. It's assumed that the beginning 1459f9f09b0SDouglas Anderson * of the schedule will repeat after its end. 1469f9f09b0SDouglas Anderson * @periods_in_map: The number of periods in the schedule. 1479f9f09b0SDouglas Anderson * @num_bits: The number of bits we need per period we want to reserve 1489f9f09b0SDouglas Anderson * in this function call. 1499f9f09b0SDouglas Anderson * @interval: How often we need to be scheduled for the reservation this 1509f9f09b0SDouglas Anderson * time. 1 means every period. 2 means every other period. 1519f9f09b0SDouglas Anderson * ...you get the picture? 1529f9f09b0SDouglas Anderson * @start: The bit number to start at. Normally 0. Must be within 1539f9f09b0SDouglas Anderson * the interval or we return failure right away. 1549f9f09b0SDouglas Anderson * @only_one_period: Normally we'll allow picking a start anywhere within the 1559f9f09b0SDouglas Anderson * first interval, since we can still make all repetition 1569f9f09b0SDouglas Anderson * requirements by doing that. However, if you pass true 1579f9f09b0SDouglas Anderson * here then we'll return failure if we can't fit within 1589f9f09b0SDouglas Anderson * the period that "start" is in. 1599f9f09b0SDouglas Anderson * 1609f9f09b0SDouglas Anderson * The idea here is that we want to schedule time for repeating events that all 1619f9f09b0SDouglas Anderson * want the same resource. The resource is divided into fixed-sized periods 1629f9f09b0SDouglas Anderson * and the events want to repeat every "interval" periods. The schedule 1639f9f09b0SDouglas Anderson * granularity is one bit. 1649f9f09b0SDouglas Anderson * 1659f9f09b0SDouglas Anderson * To keep things "simple", we'll represent our schedule with a bitmap that 1669f9f09b0SDouglas Anderson * contains a fixed number of periods. This gets rid of a lot of complexity 1679f9f09b0SDouglas Anderson * but does mean that we need to handle things specially (and non-ideally) if 1689f9f09b0SDouglas Anderson * the number of the periods in the schedule doesn't match well with the 1699f9f09b0SDouglas Anderson * intervals that we're trying to schedule. 1709f9f09b0SDouglas Anderson * 1719f9f09b0SDouglas Anderson * Here's an explanation of the scheme we'll implement, assuming 8 periods. 1729f9f09b0SDouglas Anderson * - If interval is 1, we need to take up space in each of the 8 1739f9f09b0SDouglas Anderson * periods we're scheduling. Easy. 1749f9f09b0SDouglas Anderson * - If interval is 2, we need to take up space in half of the 1759f9f09b0SDouglas Anderson * periods. Again, easy. 1769f9f09b0SDouglas Anderson * - If interval is 3, we actually need to fall back to interval 1. 1779f9f09b0SDouglas Anderson * Why? Because we might need time in any period. AKA for the 1789f9f09b0SDouglas Anderson * first 8 periods, we'll be in slot 0, 3, 6. Then we'll be 1799f9f09b0SDouglas Anderson * in slot 1, 4, 7. Then we'll be in 2, 5. Then we'll be back to 1809f9f09b0SDouglas Anderson * 0, 3, and 6. Since we could be in any frame we need to reserve 1819f9f09b0SDouglas Anderson * for all of them. Sucks, but that's what you gotta do. Note that 1829f9f09b0SDouglas Anderson * if we were instead scheduling 8 * 3 = 24 we'd do much better, but 1839f9f09b0SDouglas Anderson * then we need more memory and time to do scheduling. 1849f9f09b0SDouglas Anderson * - If interval is 4, easy. 1859f9f09b0SDouglas Anderson * - If interval is 5, we again need interval 1. The schedule will be 1869f9f09b0SDouglas Anderson * 0, 5, 2, 7, 4, 1, 6, 3, 0 1879f9f09b0SDouglas Anderson * - If interval is 6, we need interval 2. 0, 6, 4, 2. 1889f9f09b0SDouglas Anderson * - If interval is 7, we need interval 1. 1899f9f09b0SDouglas Anderson * - If interval is 8, we need interval 8. 1909f9f09b0SDouglas Anderson * 1919f9f09b0SDouglas Anderson * If you do the math, you'll see that we need to pretend that interval is 1929f9f09b0SDouglas Anderson * equal to the greatest_common_divisor(interval, periods_in_map). 1939f9f09b0SDouglas Anderson * 1949f9f09b0SDouglas Anderson * Note that at the moment this function tends to front-pack the schedule. 1959f9f09b0SDouglas Anderson * In some cases that's really non-ideal (it's hard to schedule things that 1969f9f09b0SDouglas Anderson * need to repeat every period). In other cases it's perfect (you can easily 1979f9f09b0SDouglas Anderson * schedule bigger, less often repeating things). 1989f9f09b0SDouglas Anderson * 1999f9f09b0SDouglas Anderson * Here's the algorithm in action (8 periods, 5 bits per period): 2009f9f09b0SDouglas Anderson * |** | |** | |** | |** | | OK 2 bits, intv 2 at 0 2019f9f09b0SDouglas Anderson * |*****| ***|*****| ***|*****| ***|*****| ***| OK 3 bits, intv 3 at 2 2029f9f09b0SDouglas Anderson * |*****|* ***|*****| ***|*****|* ***|*****| ***| OK 1 bits, intv 4 at 5 2039f9f09b0SDouglas Anderson * |** |* |** | |** |* |** | | Remv 3 bits, intv 3 at 2 2049f9f09b0SDouglas Anderson * |*** |* |*** | |*** |* |*** | | OK 1 bits, intv 6 at 2 2059f9f09b0SDouglas Anderson * |**** |* * |**** | * |**** |* * |**** | * | OK 1 bits, intv 1 at 3 2069f9f09b0SDouglas Anderson * |**** |**** |**** | *** |**** |**** |**** | *** | OK 2 bits, intv 2 at 6 2079f9f09b0SDouglas Anderson * |*****|*****|*****| ****|*****|*****|*****| ****| OK 1 bits, intv 1 at 4 2089f9f09b0SDouglas Anderson * |*****|*****|*****| ****|*****|*****|*****| ****| FAIL 1 bits, intv 1 2099f9f09b0SDouglas Anderson * | ***|*****| ***| ****| ***|*****| ***| ****| Remv 2 bits, intv 2 at 0 2109f9f09b0SDouglas Anderson * | ***| ****| ***| ****| ***| ****| ***| ****| Remv 1 bits, intv 4 at 5 2119f9f09b0SDouglas Anderson * | **| ****| **| ****| **| ****| **| ****| Remv 1 bits, intv 6 at 2 2129f9f09b0SDouglas Anderson * | *| ** *| *| ** *| *| ** *| *| ** *| Remv 1 bits, intv 1 at 3 2139f9f09b0SDouglas Anderson * | *| *| *| *| *| *| *| *| Remv 2 bits, intv 2 at 6 2149f9f09b0SDouglas Anderson * | | | | | | | | | Remv 1 bits, intv 1 at 4 2159f9f09b0SDouglas Anderson * |** | |** | |** | |** | | OK 2 bits, intv 2 at 0 2169f9f09b0SDouglas Anderson * |*** | |** | |*** | |** | | OK 1 bits, intv 4 at 2 2179f9f09b0SDouglas Anderson * |*****| |** **| |*****| |** **| | OK 2 bits, intv 2 at 3 2189f9f09b0SDouglas Anderson * |*****|* |** **| |*****|* |** **| | OK 1 bits, intv 4 at 5 2199f9f09b0SDouglas Anderson * |*****|*** |** **| ** |*****|*** |** **| ** | OK 2 bits, intv 2 at 6 2209f9f09b0SDouglas Anderson * |*****|*****|** **| ****|*****|*****|** **| ****| OK 2 bits, intv 2 at 8 2219f9f09b0SDouglas Anderson * |*****|*****|*****| ****|*****|*****|*****| ****| OK 1 bits, intv 4 at 12 2229f9f09b0SDouglas Anderson * 2239f9f09b0SDouglas Anderson * This function is pretty generic and could be easily abstracted if anything 2249f9f09b0SDouglas Anderson * needed similar scheduling. 2259f9f09b0SDouglas Anderson * 2269f9f09b0SDouglas Anderson * Returns either -ENOSPC or a >= 0 start bit which should be passed to the 2279f9f09b0SDouglas Anderson * unschedule routine. The map bitmap will be updated on a non-error result. 228b951c6c7SDouglas Anderson */ 2299f9f09b0SDouglas Anderson static int pmap_schedule(unsigned long *map, int bits_per_period, 2309f9f09b0SDouglas Anderson int periods_in_map, int num_bits, 2319f9f09b0SDouglas Anderson int interval, int start, bool only_one_period) 2329f9f09b0SDouglas Anderson { 2339f9f09b0SDouglas Anderson int interval_bits; 2349f9f09b0SDouglas Anderson int to_reserve; 2359f9f09b0SDouglas Anderson int first_end; 2369f9f09b0SDouglas Anderson int i; 2379f9f09b0SDouglas Anderson 2389f9f09b0SDouglas Anderson if (num_bits > bits_per_period) 2399f9f09b0SDouglas Anderson return -ENOSPC; 2409f9f09b0SDouglas Anderson 2419f9f09b0SDouglas Anderson /* Adjust interval as per description */ 2429f9f09b0SDouglas Anderson interval = gcd(interval, periods_in_map); 2439f9f09b0SDouglas Anderson 2449f9f09b0SDouglas Anderson interval_bits = bits_per_period * interval; 2459f9f09b0SDouglas Anderson to_reserve = periods_in_map / interval; 2469f9f09b0SDouglas Anderson 2479f9f09b0SDouglas Anderson /* If start has gotten us past interval then we can't schedule */ 2489f9f09b0SDouglas Anderson if (start >= interval_bits) 2499f9f09b0SDouglas Anderson return -ENOSPC; 2509f9f09b0SDouglas Anderson 2519f9f09b0SDouglas Anderson if (only_one_period) 2529f9f09b0SDouglas Anderson /* Must fit within same period as start; end at begin of next */ 2539f9f09b0SDouglas Anderson first_end = (start / bits_per_period + 1) * bits_per_period; 2549f9f09b0SDouglas Anderson else 2559f9f09b0SDouglas Anderson /* Can fit anywhere in the first interval */ 2569f9f09b0SDouglas Anderson first_end = interval_bits; 2579f9f09b0SDouglas Anderson 2589f9f09b0SDouglas Anderson /* 2599f9f09b0SDouglas Anderson * We'll try to pick the first repetition, then see if that time 2609f9f09b0SDouglas Anderson * is free for each of the subsequent repetitions. If it's not 2619f9f09b0SDouglas Anderson * we'll adjust the start time for the next search of the first 2629f9f09b0SDouglas Anderson * repetition. 2639f9f09b0SDouglas Anderson */ 2649f9f09b0SDouglas Anderson while (start + num_bits <= first_end) { 2659f9f09b0SDouglas Anderson int end; 2669f9f09b0SDouglas Anderson 2679f9f09b0SDouglas Anderson /* Need to stay within this period */ 2689f9f09b0SDouglas Anderson end = (start / bits_per_period + 1) * bits_per_period; 2699f9f09b0SDouglas Anderson 2709f9f09b0SDouglas Anderson /* Look for num_bits us in this microframe starting at start */ 2719f9f09b0SDouglas Anderson start = bitmap_find_next_zero_area(map, end, start, num_bits, 2729f9f09b0SDouglas Anderson 0); 2739f9f09b0SDouglas Anderson 2749f9f09b0SDouglas Anderson /* 2759f9f09b0SDouglas Anderson * We should get start >= end if we fail. We might be 2769f9f09b0SDouglas Anderson * able to check the next microframe depending on the 2779f9f09b0SDouglas Anderson * interval, so continue on (start already updated). 2789f9f09b0SDouglas Anderson */ 2799f9f09b0SDouglas Anderson if (start >= end) { 2809f9f09b0SDouglas Anderson start = end; 2819f9f09b0SDouglas Anderson continue; 2829f9f09b0SDouglas Anderson } 2839f9f09b0SDouglas Anderson 2849f9f09b0SDouglas Anderson /* At this point we have a valid point for first one */ 2859f9f09b0SDouglas Anderson for (i = 1; i < to_reserve; i++) { 2869f9f09b0SDouglas Anderson int ith_start = start + interval_bits * i; 2879f9f09b0SDouglas Anderson int ith_end = end + interval_bits * i; 2889f9f09b0SDouglas Anderson int ret; 2899f9f09b0SDouglas Anderson 2909f9f09b0SDouglas Anderson /* Use this as a dumb "check if bits are 0" */ 2919f9f09b0SDouglas Anderson ret = bitmap_find_next_zero_area( 2929f9f09b0SDouglas Anderson map, ith_start + num_bits, ith_start, num_bits, 2939f9f09b0SDouglas Anderson 0); 2949f9f09b0SDouglas Anderson 2959f9f09b0SDouglas Anderson /* We got the right place, continue checking */ 2969f9f09b0SDouglas Anderson if (ret == ith_start) 2979f9f09b0SDouglas Anderson continue; 2989f9f09b0SDouglas Anderson 2999f9f09b0SDouglas Anderson /* Move start up for next time and exit for loop */ 3009f9f09b0SDouglas Anderson ith_start = bitmap_find_next_zero_area( 3019f9f09b0SDouglas Anderson map, ith_end, ith_start, num_bits, 0); 3029f9f09b0SDouglas Anderson if (ith_start >= ith_end) 3039f9f09b0SDouglas Anderson /* Need a while new period next time */ 3049f9f09b0SDouglas Anderson start = end; 3059f9f09b0SDouglas Anderson else 3069f9f09b0SDouglas Anderson start = ith_start - interval_bits * i; 3079f9f09b0SDouglas Anderson break; 3089f9f09b0SDouglas Anderson } 3099f9f09b0SDouglas Anderson 3109f9f09b0SDouglas Anderson /* If didn't exit the for loop with a break, we have success */ 3119f9f09b0SDouglas Anderson if (i == to_reserve) 3129f9f09b0SDouglas Anderson break; 3139f9f09b0SDouglas Anderson } 3149f9f09b0SDouglas Anderson 3159f9f09b0SDouglas Anderson if (start + num_bits > first_end) 3169f9f09b0SDouglas Anderson return -ENOSPC; 3179f9f09b0SDouglas Anderson 3189f9f09b0SDouglas Anderson for (i = 0; i < to_reserve; i++) { 3199f9f09b0SDouglas Anderson int ith_start = start + interval_bits * i; 3209f9f09b0SDouglas Anderson 3219f9f09b0SDouglas Anderson bitmap_set(map, ith_start, num_bits); 3229f9f09b0SDouglas Anderson } 3239f9f09b0SDouglas Anderson 3249f9f09b0SDouglas Anderson return start; 3259f9f09b0SDouglas Anderson } 3269f9f09b0SDouglas Anderson 3279f9f09b0SDouglas Anderson /** 3289f9f09b0SDouglas Anderson * pmap_unschedule() - Undo work done by pmap_schedule() 3299f9f09b0SDouglas Anderson * 3309f9f09b0SDouglas Anderson * @map: See pmap_schedule(). 3319f9f09b0SDouglas Anderson * @bits_per_period: See pmap_schedule(). 3329f9f09b0SDouglas Anderson * @periods_in_map: See pmap_schedule(). 3339f9f09b0SDouglas Anderson * @num_bits: The number of bits that was passed to schedule. 3349f9f09b0SDouglas Anderson * @interval: The interval that was passed to schedule. 3359f9f09b0SDouglas Anderson * @start: The return value from pmap_schedule(). 3369f9f09b0SDouglas Anderson */ 3379f9f09b0SDouglas Anderson static void pmap_unschedule(unsigned long *map, int bits_per_period, 3389f9f09b0SDouglas Anderson int periods_in_map, int num_bits, 3399f9f09b0SDouglas Anderson int interval, int start) 3409f9f09b0SDouglas Anderson { 3419f9f09b0SDouglas Anderson int interval_bits; 3429f9f09b0SDouglas Anderson int to_release; 3439f9f09b0SDouglas Anderson int i; 3449f9f09b0SDouglas Anderson 3459f9f09b0SDouglas Anderson /* Adjust interval as per description in pmap_schedule() */ 3469f9f09b0SDouglas Anderson interval = gcd(interval, periods_in_map); 3479f9f09b0SDouglas Anderson 3489f9f09b0SDouglas Anderson interval_bits = bits_per_period * interval; 3499f9f09b0SDouglas Anderson to_release = periods_in_map / interval; 3509f9f09b0SDouglas Anderson 3519f9f09b0SDouglas Anderson for (i = 0; i < to_release; i++) { 3529f9f09b0SDouglas Anderson int ith_start = start + interval_bits * i; 3539f9f09b0SDouglas Anderson 3549f9f09b0SDouglas Anderson bitmap_clear(map, ith_start, num_bits); 3559f9f09b0SDouglas Anderson } 3569f9f09b0SDouglas Anderson } 3579f9f09b0SDouglas Anderson 3583c220370SVardan Mikayelyan /** 3593c220370SVardan Mikayelyan * dwc2_get_ls_map() - Get the map used for the given qh 3603c220370SVardan Mikayelyan * 3613c220370SVardan Mikayelyan * @hsotg: The HCD state structure for the DWC OTG controller. 3623c220370SVardan Mikayelyan * @qh: QH for the periodic transfer. 3633c220370SVardan Mikayelyan * 3643c220370SVardan Mikayelyan * We'll always get the periodic map out of our TT. Note that even if we're 3653c220370SVardan Mikayelyan * running the host straight in low speed / full speed mode it appears as if 3663c220370SVardan Mikayelyan * a TT is allocated for us, so we'll use it. If that ever changes we can 3673c220370SVardan Mikayelyan * add logic here to get a map out of "hsotg" if !qh->do_split. 3683c220370SVardan Mikayelyan * 3693c220370SVardan Mikayelyan * Returns: the map or NULL if a map couldn't be found. 3703c220370SVardan Mikayelyan */ 3713c220370SVardan Mikayelyan static unsigned long *dwc2_get_ls_map(struct dwc2_hsotg *hsotg, 3723c220370SVardan Mikayelyan struct dwc2_qh *qh) 3733c220370SVardan Mikayelyan { 3743c220370SVardan Mikayelyan unsigned long *map; 3753c220370SVardan Mikayelyan 3763c220370SVardan Mikayelyan /* Don't expect to be missing a TT and be doing low speed scheduling */ 3773c220370SVardan Mikayelyan if (WARN_ON(!qh->dwc_tt)) 3783c220370SVardan Mikayelyan return NULL; 3793c220370SVardan Mikayelyan 3803c220370SVardan Mikayelyan /* Get the map and adjust if this is a multi_tt hub */ 3813c220370SVardan Mikayelyan map = qh->dwc_tt->periodic_bitmaps; 3823c220370SVardan Mikayelyan if (qh->dwc_tt->usb_tt->multi) 3833c220370SVardan Mikayelyan map += DWC2_ELEMENTS_PER_LS_BITMAP * qh->ttport; 3843c220370SVardan Mikayelyan 3853c220370SVardan Mikayelyan return map; 3863c220370SVardan Mikayelyan } 3873c220370SVardan Mikayelyan 3883c220370SVardan Mikayelyan #ifdef DWC2_PRINT_SCHEDULE 3899f9f09b0SDouglas Anderson /* 3909f9f09b0SDouglas Anderson * cat_printf() - A printf() + strcat() helper 3919f9f09b0SDouglas Anderson * 3929f9f09b0SDouglas Anderson * This is useful for concatenating a bunch of strings where each string is 3939f9f09b0SDouglas Anderson * constructed using printf. 3949f9f09b0SDouglas Anderson * 3959f9f09b0SDouglas Anderson * @buf: The destination buffer; will be updated to point after the printed 3969f9f09b0SDouglas Anderson * data. 3979f9f09b0SDouglas Anderson * @size: The number of bytes in the buffer (includes space for '\0'). 3989f9f09b0SDouglas Anderson * @fmt: The format for printf. 3999f9f09b0SDouglas Anderson * @...: The args for printf. 4009f9f09b0SDouglas Anderson */ 401e135ab74SNicolas Iooss static __printf(3, 4) 402e135ab74SNicolas Iooss void cat_printf(char **buf, size_t *size, const char *fmt, ...) 4039f9f09b0SDouglas Anderson { 4049f9f09b0SDouglas Anderson va_list args; 4059f9f09b0SDouglas Anderson int i; 4069f9f09b0SDouglas Anderson 4079f9f09b0SDouglas Anderson if (*size == 0) 4089f9f09b0SDouglas Anderson return; 4099f9f09b0SDouglas Anderson 4109f9f09b0SDouglas Anderson va_start(args, fmt); 4119f9f09b0SDouglas Anderson i = vsnprintf(*buf, *size, fmt, args); 4129f9f09b0SDouglas Anderson va_end(args); 4139f9f09b0SDouglas Anderson 4149f9f09b0SDouglas Anderson if (i >= *size) { 4159f9f09b0SDouglas Anderson (*buf)[*size - 1] = '\0'; 4169f9f09b0SDouglas Anderson *buf += *size; 4179f9f09b0SDouglas Anderson *size = 0; 4189f9f09b0SDouglas Anderson } else { 4199f9f09b0SDouglas Anderson *buf += i; 4209f9f09b0SDouglas Anderson *size -= i; 4219f9f09b0SDouglas Anderson } 4229f9f09b0SDouglas Anderson } 4239f9f09b0SDouglas Anderson 4249f9f09b0SDouglas Anderson /* 4259f9f09b0SDouglas Anderson * pmap_print() - Print the given periodic map 4269f9f09b0SDouglas Anderson * 4279f9f09b0SDouglas Anderson * Will attempt to print out the periodic schedule. 4289f9f09b0SDouglas Anderson * 4299f9f09b0SDouglas Anderson * @map: See pmap_schedule(). 4309f9f09b0SDouglas Anderson * @bits_per_period: See pmap_schedule(). 4319f9f09b0SDouglas Anderson * @periods_in_map: See pmap_schedule(). 4329f9f09b0SDouglas Anderson * @period_name: The name of 1 period, like "uFrame" 4339f9f09b0SDouglas Anderson * @units: The name of the units, like "us". 4349f9f09b0SDouglas Anderson * @print_fn: The function to call for printing. 4359f9f09b0SDouglas Anderson * @print_data: Opaque data to pass to the print function. 4369f9f09b0SDouglas Anderson */ 4379f9f09b0SDouglas Anderson static void pmap_print(unsigned long *map, int bits_per_period, 4389f9f09b0SDouglas Anderson int periods_in_map, const char *period_name, 4399f9f09b0SDouglas Anderson const char *units, 4409f9f09b0SDouglas Anderson void (*print_fn)(const char *str, void *data), 4419f9f09b0SDouglas Anderson void *print_data) 4429f9f09b0SDouglas Anderson { 4439f9f09b0SDouglas Anderson int period; 4449f9f09b0SDouglas Anderson 4459f9f09b0SDouglas Anderson for (period = 0; period < periods_in_map; period++) { 4469f9f09b0SDouglas Anderson char tmp[64]; 4479f9f09b0SDouglas Anderson char *buf = tmp; 4489f9f09b0SDouglas Anderson size_t buf_size = sizeof(tmp); 4499f9f09b0SDouglas Anderson int period_start = period * bits_per_period; 4509f9f09b0SDouglas Anderson int period_end = period_start + bits_per_period; 4519f9f09b0SDouglas Anderson int start = 0; 4529f9f09b0SDouglas Anderson int count = 0; 4539f9f09b0SDouglas Anderson bool printed = false; 4549f9f09b0SDouglas Anderson int i; 4559f9f09b0SDouglas Anderson 4569f9f09b0SDouglas Anderson for (i = period_start; i < period_end + 1; i++) { 4579f9f09b0SDouglas Anderson /* Handle case when ith bit is set */ 4589f9f09b0SDouglas Anderson if (i < period_end && 4599f9f09b0SDouglas Anderson bitmap_find_next_zero_area(map, i + 1, 4609f9f09b0SDouglas Anderson i, 1, 0) != i) { 4619f9f09b0SDouglas Anderson if (count == 0) 4629f9f09b0SDouglas Anderson start = i - period_start; 4639f9f09b0SDouglas Anderson count++; 4649f9f09b0SDouglas Anderson continue; 4659f9f09b0SDouglas Anderson } 4669f9f09b0SDouglas Anderson 4679f9f09b0SDouglas Anderson /* ith bit isn't set; don't care if count == 0 */ 4689f9f09b0SDouglas Anderson if (count == 0) 4699f9f09b0SDouglas Anderson continue; 4709f9f09b0SDouglas Anderson 4719f9f09b0SDouglas Anderson if (!printed) 4729f9f09b0SDouglas Anderson cat_printf(&buf, &buf_size, "%s %d: ", 4739f9f09b0SDouglas Anderson period_name, period); 4749f9f09b0SDouglas Anderson else 4759f9f09b0SDouglas Anderson cat_printf(&buf, &buf_size, ", "); 4769f9f09b0SDouglas Anderson printed = true; 4779f9f09b0SDouglas Anderson 4789f9f09b0SDouglas Anderson cat_printf(&buf, &buf_size, "%d %s -%3d %s", start, 4799f9f09b0SDouglas Anderson units, start + count - 1, units); 4809f9f09b0SDouglas Anderson count = 0; 4819f9f09b0SDouglas Anderson } 4829f9f09b0SDouglas Anderson 4839f9f09b0SDouglas Anderson if (printed) 4849f9f09b0SDouglas Anderson print_fn(tmp, print_data); 4859f9f09b0SDouglas Anderson } 4869f9f09b0SDouglas Anderson } 4879f9f09b0SDouglas Anderson 4889f9f09b0SDouglas Anderson struct dwc2_qh_print_data { 4899f9f09b0SDouglas Anderson struct dwc2_hsotg *hsotg; 4909f9f09b0SDouglas Anderson struct dwc2_qh *qh; 491b951c6c7SDouglas Anderson }; 492b951c6c7SDouglas Anderson 4939f9f09b0SDouglas Anderson /** 4949f9f09b0SDouglas Anderson * dwc2_qh_print() - Helper function for dwc2_qh_schedule_print() 4959f9f09b0SDouglas Anderson * 4969f9f09b0SDouglas Anderson * @str: The string to print 4979f9f09b0SDouglas Anderson * @data: A pointer to a struct dwc2_qh_print_data 4989f9f09b0SDouglas Anderson */ 4999f9f09b0SDouglas Anderson static void dwc2_qh_print(const char *str, void *data) 500b951c6c7SDouglas Anderson { 5019f9f09b0SDouglas Anderson struct dwc2_qh_print_data *print_data = data; 5029f9f09b0SDouglas Anderson 5039f9f09b0SDouglas Anderson dwc2_sch_dbg(print_data->hsotg, "QH=%p ...%s\n", print_data->qh, str); 5049f9f09b0SDouglas Anderson } 5059f9f09b0SDouglas Anderson 5069f9f09b0SDouglas Anderson /** 5079f9f09b0SDouglas Anderson * dwc2_qh_schedule_print() - Print the periodic schedule 5089f9f09b0SDouglas Anderson * 5099f9f09b0SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller. 5109f9f09b0SDouglas Anderson * @qh: QH to print. 5119f9f09b0SDouglas Anderson */ 5129f9f09b0SDouglas Anderson static void dwc2_qh_schedule_print(struct dwc2_hsotg *hsotg, 5139f9f09b0SDouglas Anderson struct dwc2_qh *qh) 5149f9f09b0SDouglas Anderson { 5159f9f09b0SDouglas Anderson struct dwc2_qh_print_data print_data = { hsotg, qh }; 516b951c6c7SDouglas Anderson int i; 517b951c6c7SDouglas Anderson 5189f9f09b0SDouglas Anderson /* 5199f9f09b0SDouglas Anderson * The printing functions are quite slow and inefficient. 5209f9f09b0SDouglas Anderson * If we don't have tracing turned on, don't run unless the special 5219f9f09b0SDouglas Anderson * define is turned on. 5229f9f09b0SDouglas Anderson */ 5239f9f09b0SDouglas Anderson 5249f9f09b0SDouglas Anderson if (qh->schedule_low_speed) { 5259f9f09b0SDouglas Anderson unsigned long *map = dwc2_get_ls_map(hsotg, qh); 5269f9f09b0SDouglas Anderson 5279f9f09b0SDouglas Anderson dwc2_sch_dbg(hsotg, "QH=%p LS/FS trans: %d=>%d us @ %d us", 5289f9f09b0SDouglas Anderson qh, qh->device_us, 5299f9f09b0SDouglas Anderson DWC2_ROUND_US_TO_SLICE(qh->device_us), 5309f9f09b0SDouglas Anderson DWC2_US_PER_SLICE * qh->ls_start_schedule_slice); 5319f9f09b0SDouglas Anderson 5329f9f09b0SDouglas Anderson if (map) { 5339f9f09b0SDouglas Anderson dwc2_sch_dbg(hsotg, 5349f9f09b0SDouglas Anderson "QH=%p Whole low/full speed map %p now:\n", 5359f9f09b0SDouglas Anderson qh, map); 5369f9f09b0SDouglas Anderson pmap_print(map, DWC2_LS_PERIODIC_SLICES_PER_FRAME, 5379f9f09b0SDouglas Anderson DWC2_LS_SCHEDULE_FRAMES, "Frame ", "slices", 5389f9f09b0SDouglas Anderson dwc2_qh_print, &print_data); 5399f9f09b0SDouglas Anderson } 540b951c6c7SDouglas Anderson } 541b951c6c7SDouglas Anderson 5429f9f09b0SDouglas Anderson for (i = 0; i < qh->num_hs_transfers; i++) { 5439f9f09b0SDouglas Anderson struct dwc2_hs_transfer_time *trans_time = qh->hs_transfers + i; 5449f9f09b0SDouglas Anderson int uframe = trans_time->start_schedule_us / 5459f9f09b0SDouglas Anderson DWC2_HS_PERIODIC_US_PER_UFRAME; 5469f9f09b0SDouglas Anderson int rel_us = trans_time->start_schedule_us % 5479f9f09b0SDouglas Anderson DWC2_HS_PERIODIC_US_PER_UFRAME; 5489f9f09b0SDouglas Anderson 5499f9f09b0SDouglas Anderson dwc2_sch_dbg(hsotg, 5509f9f09b0SDouglas Anderson "QH=%p HS trans #%d: %d us @ uFrame %d + %d us\n", 5519f9f09b0SDouglas Anderson qh, i, trans_time->duration_us, uframe, rel_us); 5529f9f09b0SDouglas Anderson } 5539f9f09b0SDouglas Anderson if (qh->num_hs_transfers) { 5549f9f09b0SDouglas Anderson dwc2_sch_dbg(hsotg, "QH=%p Whole high speed map now:\n", qh); 5559f9f09b0SDouglas Anderson pmap_print(hsotg->hs_periodic_bitmap, 5569f9f09b0SDouglas Anderson DWC2_HS_PERIODIC_US_PER_UFRAME, 5579f9f09b0SDouglas Anderson DWC2_HS_SCHEDULE_UFRAMES, "uFrame", "us", 5589f9f09b0SDouglas Anderson dwc2_qh_print, &print_data); 5599f9f09b0SDouglas Anderson } 5609f9f09b0SDouglas Anderson } 5613c220370SVardan Mikayelyan #else 5623c220370SVardan Mikayelyan static inline void dwc2_qh_schedule_print(struct dwc2_hsotg *hsotg, 5633c220370SVardan Mikayelyan struct dwc2_qh *qh) {}; 5643c220370SVardan Mikayelyan #endif 5659f9f09b0SDouglas Anderson 5669f9f09b0SDouglas Anderson /** 5679f9f09b0SDouglas Anderson * dwc2_ls_pmap_schedule() - Schedule a low speed QH 5689f9f09b0SDouglas Anderson * 5699f9f09b0SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller. 5709f9f09b0SDouglas Anderson * @qh: QH for the periodic transfer. 5719f9f09b0SDouglas Anderson * @search_slice: We'll start trying to schedule at the passed slice. 5729f9f09b0SDouglas Anderson * Remember that slices are the units of the low speed 5739f9f09b0SDouglas Anderson * schedule (think 25us or so). 5749f9f09b0SDouglas Anderson * 5759f9f09b0SDouglas Anderson * Wraps pmap_schedule() with the right parameters for low speed scheduling. 5769f9f09b0SDouglas Anderson * 5779f9f09b0SDouglas Anderson * Normally we schedule low speed devices on the map associated with the TT. 5789f9f09b0SDouglas Anderson * 5799f9f09b0SDouglas Anderson * Returns: 0 for success or an error code. 5809f9f09b0SDouglas Anderson */ 5819f9f09b0SDouglas Anderson static int dwc2_ls_pmap_schedule(struct dwc2_hsotg *hsotg, struct dwc2_qh *qh, 5829f9f09b0SDouglas Anderson int search_slice) 583b951c6c7SDouglas Anderson { 5849f9f09b0SDouglas Anderson int slices = DIV_ROUND_UP(qh->device_us, DWC2_US_PER_SLICE); 5859f9f09b0SDouglas Anderson unsigned long *map = dwc2_get_ls_map(hsotg, qh); 5869f9f09b0SDouglas Anderson int slice; 5879f9f09b0SDouglas Anderson 5889da51974SJohn Youn if (!map) 5899f9f09b0SDouglas Anderson return -EINVAL; 5909f9f09b0SDouglas Anderson 5919f9f09b0SDouglas Anderson /* 5929f9f09b0SDouglas Anderson * Schedule on the proper low speed map with our low speed scheduling 5939f9f09b0SDouglas Anderson * parameters. Note that we use the "device_interval" here since 5949f9f09b0SDouglas Anderson * we want the low speed interval and the only way we'd be in this 5959f9f09b0SDouglas Anderson * function is if the device is low speed. 5969f9f09b0SDouglas Anderson * 5979f9f09b0SDouglas Anderson * If we happen to be doing low speed and high speed scheduling for the 5989f9f09b0SDouglas Anderson * same transaction (AKA we have a split) we always do low speed first. 5999f9f09b0SDouglas Anderson * That means we can always pass "false" for only_one_period (that 6009f9f09b0SDouglas Anderson * parameters is only useful when we're trying to get one schedule to 6019f9f09b0SDouglas Anderson * match what we already planned in the other schedule). 6029f9f09b0SDouglas Anderson */ 6039f9f09b0SDouglas Anderson slice = pmap_schedule(map, DWC2_LS_PERIODIC_SLICES_PER_FRAME, 6049f9f09b0SDouglas Anderson DWC2_LS_SCHEDULE_FRAMES, slices, 6059f9f09b0SDouglas Anderson qh->device_interval, search_slice, false); 6069f9f09b0SDouglas Anderson 6079f9f09b0SDouglas Anderson if (slice < 0) 6089f9f09b0SDouglas Anderson return slice; 6099f9f09b0SDouglas Anderson 6109f9f09b0SDouglas Anderson qh->ls_start_schedule_slice = slice; 6119f9f09b0SDouglas Anderson return 0; 6129f9f09b0SDouglas Anderson } 6139f9f09b0SDouglas Anderson 6149f9f09b0SDouglas Anderson /** 6159f9f09b0SDouglas Anderson * dwc2_ls_pmap_unschedule() - Undo work done by dwc2_ls_pmap_schedule() 6169f9f09b0SDouglas Anderson * 6179f9f09b0SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller. 6189f9f09b0SDouglas Anderson * @qh: QH for the periodic transfer. 6199f9f09b0SDouglas Anderson */ 6209f9f09b0SDouglas Anderson static void dwc2_ls_pmap_unschedule(struct dwc2_hsotg *hsotg, 6219f9f09b0SDouglas Anderson struct dwc2_qh *qh) 6229f9f09b0SDouglas Anderson { 6239f9f09b0SDouglas Anderson int slices = DIV_ROUND_UP(qh->device_us, DWC2_US_PER_SLICE); 6249f9f09b0SDouglas Anderson unsigned long *map = dwc2_get_ls_map(hsotg, qh); 6259f9f09b0SDouglas Anderson 6269f9f09b0SDouglas Anderson /* Schedule should have failed, so no worries about no error code */ 6279da51974SJohn Youn if (!map) 6289f9f09b0SDouglas Anderson return; 6299f9f09b0SDouglas Anderson 6309f9f09b0SDouglas Anderson pmap_unschedule(map, DWC2_LS_PERIODIC_SLICES_PER_FRAME, 6319f9f09b0SDouglas Anderson DWC2_LS_SCHEDULE_FRAMES, slices, qh->device_interval, 6329f9f09b0SDouglas Anderson qh->ls_start_schedule_slice); 6339f9f09b0SDouglas Anderson } 6349f9f09b0SDouglas Anderson 6359f9f09b0SDouglas Anderson /** 6369f9f09b0SDouglas Anderson * dwc2_hs_pmap_schedule - Schedule in the main high speed schedule 6379f9f09b0SDouglas Anderson * 6389f9f09b0SDouglas Anderson * This will schedule something on the main dwc2 schedule. 6399f9f09b0SDouglas Anderson * 6409f9f09b0SDouglas Anderson * We'll start looking in qh->hs_transfers[index].start_schedule_us. We'll 6419f9f09b0SDouglas Anderson * update this with the result upon success. We also use the duration from 6429f9f09b0SDouglas Anderson * the same structure. 6439f9f09b0SDouglas Anderson * 6449f9f09b0SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller. 6459f9f09b0SDouglas Anderson * @qh: QH for the periodic transfer. 6469f9f09b0SDouglas Anderson * @only_one_period: If true we will limit ourselves to just looking at 6479f9f09b0SDouglas Anderson * one period (aka one 100us chunk). This is used if we have 6489f9f09b0SDouglas Anderson * already scheduled something on the low speed schedule and 6499f9f09b0SDouglas Anderson * need to find something that matches on the high speed one. 6509f9f09b0SDouglas Anderson * @index: The index into qh->hs_transfers that we're working with. 6519f9f09b0SDouglas Anderson * 6529f9f09b0SDouglas Anderson * Returns: 0 for success or an error code. Upon success the 6539f9f09b0SDouglas Anderson * dwc2_hs_transfer_time specified by "index" will be updated. 6549f9f09b0SDouglas Anderson */ 6559f9f09b0SDouglas Anderson static int dwc2_hs_pmap_schedule(struct dwc2_hsotg *hsotg, struct dwc2_qh *qh, 6569f9f09b0SDouglas Anderson bool only_one_period, int index) 6579f9f09b0SDouglas Anderson { 6589f9f09b0SDouglas Anderson struct dwc2_hs_transfer_time *trans_time = qh->hs_transfers + index; 6599f9f09b0SDouglas Anderson int us; 6609f9f09b0SDouglas Anderson 6619f9f09b0SDouglas Anderson us = pmap_schedule(hsotg->hs_periodic_bitmap, 6629f9f09b0SDouglas Anderson DWC2_HS_PERIODIC_US_PER_UFRAME, 6639f9f09b0SDouglas Anderson DWC2_HS_SCHEDULE_UFRAMES, trans_time->duration_us, 6649f9f09b0SDouglas Anderson qh->host_interval, trans_time->start_schedule_us, 6659f9f09b0SDouglas Anderson only_one_period); 6669f9f09b0SDouglas Anderson 6679f9f09b0SDouglas Anderson if (us < 0) 6689f9f09b0SDouglas Anderson return us; 6699f9f09b0SDouglas Anderson 6709f9f09b0SDouglas Anderson trans_time->start_schedule_us = us; 6719f9f09b0SDouglas Anderson return 0; 6729f9f09b0SDouglas Anderson } 6739f9f09b0SDouglas Anderson 6749f9f09b0SDouglas Anderson /** 6759f9f09b0SDouglas Anderson * dwc2_ls_pmap_unschedule() - Undo work done by dwc2_hs_pmap_schedule() 6769f9f09b0SDouglas Anderson * 6779f9f09b0SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller. 6789f9f09b0SDouglas Anderson * @qh: QH for the periodic transfer. 6799f9f09b0SDouglas Anderson */ 6809f9f09b0SDouglas Anderson static void dwc2_hs_pmap_unschedule(struct dwc2_hsotg *hsotg, 6819f9f09b0SDouglas Anderson struct dwc2_qh *qh, int index) 6829f9f09b0SDouglas Anderson { 6839f9f09b0SDouglas Anderson struct dwc2_hs_transfer_time *trans_time = qh->hs_transfers + index; 6849f9f09b0SDouglas Anderson 6859f9f09b0SDouglas Anderson pmap_unschedule(hsotg->hs_periodic_bitmap, 6869f9f09b0SDouglas Anderson DWC2_HS_PERIODIC_US_PER_UFRAME, 6879f9f09b0SDouglas Anderson DWC2_HS_SCHEDULE_UFRAMES, trans_time->duration_us, 6889f9f09b0SDouglas Anderson qh->host_interval, trans_time->start_schedule_us); 6899f9f09b0SDouglas Anderson } 6909f9f09b0SDouglas Anderson 6919f9f09b0SDouglas Anderson /** 6929f9f09b0SDouglas Anderson * dwc2_uframe_schedule_split - Schedule a QH for a periodic split xfer. 6939f9f09b0SDouglas Anderson * 6949f9f09b0SDouglas Anderson * This is the most complicated thing in USB. We have to find matching time 6959f9f09b0SDouglas Anderson * in both the global high speed schedule for the port and the low speed 6969f9f09b0SDouglas Anderson * schedule for the TT associated with the given device. 6979f9f09b0SDouglas Anderson * 6989f9f09b0SDouglas Anderson * Being here means that the host must be running in high speed mode and the 6999f9f09b0SDouglas Anderson * device is in low or full speed mode (and behind a hub). 7009f9f09b0SDouglas Anderson * 7019f9f09b0SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller. 7029f9f09b0SDouglas Anderson * @qh: QH for the periodic transfer. 7039f9f09b0SDouglas Anderson */ 7049f9f09b0SDouglas Anderson static int dwc2_uframe_schedule_split(struct dwc2_hsotg *hsotg, 7059f9f09b0SDouglas Anderson struct dwc2_qh *qh) 7069f9f09b0SDouglas Anderson { 7079f9f09b0SDouglas Anderson int bytecount = dwc2_hb_mult(qh->maxp) * dwc2_max_packet(qh->maxp); 7089f9f09b0SDouglas Anderson int ls_search_slice; 7099f9f09b0SDouglas Anderson int err = 0; 7109f9f09b0SDouglas Anderson int host_interval_in_sched; 7119f9f09b0SDouglas Anderson 7129f9f09b0SDouglas Anderson /* 7139f9f09b0SDouglas Anderson * The interval (how often to repeat) in the actual host schedule. 7149f9f09b0SDouglas Anderson * See pmap_schedule() for gcd() explanation. 7159f9f09b0SDouglas Anderson */ 7169f9f09b0SDouglas Anderson host_interval_in_sched = gcd(qh->host_interval, 7179f9f09b0SDouglas Anderson DWC2_HS_SCHEDULE_UFRAMES); 7189f9f09b0SDouglas Anderson 7199f9f09b0SDouglas Anderson /* 7209f9f09b0SDouglas Anderson * We always try to find space in the low speed schedule first, then 7219f9f09b0SDouglas Anderson * try to find high speed time that matches. If we don't, we'll bump 7229f9f09b0SDouglas Anderson * up the place we start searching in the low speed schedule and try 7239f9f09b0SDouglas Anderson * again. To start we'll look right at the beginning of the low speed 7249f9f09b0SDouglas Anderson * schedule. 7259f9f09b0SDouglas Anderson * 7269f9f09b0SDouglas Anderson * Note that this will tend to front-load the high speed schedule. 7279f9f09b0SDouglas Anderson * We may eventually want to try to avoid this by either considering 7289f9f09b0SDouglas Anderson * both schedules together or doing some sort of round robin. 7299f9f09b0SDouglas Anderson */ 7309f9f09b0SDouglas Anderson ls_search_slice = 0; 7319f9f09b0SDouglas Anderson 7329f9f09b0SDouglas Anderson while (ls_search_slice < DWC2_LS_SCHEDULE_SLICES) { 7339f9f09b0SDouglas Anderson int start_s_uframe; 7349f9f09b0SDouglas Anderson int ssplit_s_uframe; 7359f9f09b0SDouglas Anderson int second_s_uframe; 7369f9f09b0SDouglas Anderson int rel_uframe; 7379f9f09b0SDouglas Anderson int first_count; 7389f9f09b0SDouglas Anderson int middle_count; 7399f9f09b0SDouglas Anderson int end_count; 7409f9f09b0SDouglas Anderson int first_data_bytes; 7419f9f09b0SDouglas Anderson int other_data_bytes; 742b951c6c7SDouglas Anderson int i; 743b951c6c7SDouglas Anderson 7449f9f09b0SDouglas Anderson if (qh->schedule_low_speed) { 7459f9f09b0SDouglas Anderson err = dwc2_ls_pmap_schedule(hsotg, qh, ls_search_slice); 746b951c6c7SDouglas Anderson 747b951c6c7SDouglas Anderson /* 7489f9f09b0SDouglas Anderson * If we got an error here there's no other magic we 7499f9f09b0SDouglas Anderson * can do, so bail. All the looping above is only 7509f9f09b0SDouglas Anderson * helpful to redo things if we got a low speed slot 7519f9f09b0SDouglas Anderson * and then couldn't find a matching high speed slot. 752b951c6c7SDouglas Anderson */ 7539f9f09b0SDouglas Anderson if (err) 7549f9f09b0SDouglas Anderson return err; 755b951c6c7SDouglas Anderson } else { 7569f9f09b0SDouglas Anderson /* Must be missing the tt structure? Why? */ 7579f9f09b0SDouglas Anderson WARN_ON_ONCE(1); 758b951c6c7SDouglas Anderson } 759b951c6c7SDouglas Anderson 7609f9f09b0SDouglas Anderson /* 7619f9f09b0SDouglas Anderson * This will give us a number 0 - 7 if 7629f9f09b0SDouglas Anderson * DWC2_LS_SCHEDULE_FRAMES == 1, or 0 - 15 if == 2, or ... 7639f9f09b0SDouglas Anderson */ 7649f9f09b0SDouglas Anderson start_s_uframe = qh->ls_start_schedule_slice / 7659f9f09b0SDouglas Anderson DWC2_SLICES_PER_UFRAME; 7669f9f09b0SDouglas Anderson 7679f9f09b0SDouglas Anderson /* Get a number that's always 0 - 7 */ 7689f9f09b0SDouglas Anderson rel_uframe = (start_s_uframe % 8); 7699f9f09b0SDouglas Anderson 7709f9f09b0SDouglas Anderson /* 7719f9f09b0SDouglas Anderson * If we were going to start in uframe 7 then we would need to 7729f9f09b0SDouglas Anderson * issue a start split in uframe 6, which spec says is not OK. 7739f9f09b0SDouglas Anderson * Move on to the next full frame (assuming there is one). 7749f9f09b0SDouglas Anderson * 7759f9f09b0SDouglas Anderson * See 11.18.4 Host Split Transaction Scheduling Requirements 7769f9f09b0SDouglas Anderson * bullet 1. 7779f9f09b0SDouglas Anderson */ 7789f9f09b0SDouglas Anderson if (rel_uframe == 7) { 7799f9f09b0SDouglas Anderson if (qh->schedule_low_speed) 7809f9f09b0SDouglas Anderson dwc2_ls_pmap_unschedule(hsotg, qh); 7819f9f09b0SDouglas Anderson ls_search_slice = 7829f9f09b0SDouglas Anderson (qh->ls_start_schedule_slice / 7839f9f09b0SDouglas Anderson DWC2_LS_PERIODIC_SLICES_PER_FRAME + 1) * 7849f9f09b0SDouglas Anderson DWC2_LS_PERIODIC_SLICES_PER_FRAME; 7859f9f09b0SDouglas Anderson continue; 7869f9f09b0SDouglas Anderson } 7879f9f09b0SDouglas Anderson 7889f9f09b0SDouglas Anderson /* 7899f9f09b0SDouglas Anderson * For ISOC in: 7909f9f09b0SDouglas Anderson * - start split (frame -1) 7919f9f09b0SDouglas Anderson * - complete split w/ data (frame +1) 7929f9f09b0SDouglas Anderson * - complete split w/ data (frame +2) 7939f9f09b0SDouglas Anderson * - ... 7949f9f09b0SDouglas Anderson * - complete split w/ data (frame +num_data_packets) 7959f9f09b0SDouglas Anderson * - complete split w/ data (frame +num_data_packets+1) 7969f9f09b0SDouglas Anderson * - complete split w/ data (frame +num_data_packets+2, max 8) 7979f9f09b0SDouglas Anderson * ...though if frame was "0" then max is 7... 7989f9f09b0SDouglas Anderson * 7999f9f09b0SDouglas Anderson * For ISOC out we might need to do: 8009f9f09b0SDouglas Anderson * - start split w/ data (frame -1) 8019f9f09b0SDouglas Anderson * - start split w/ data (frame +0) 8029f9f09b0SDouglas Anderson * - ... 8039f9f09b0SDouglas Anderson * - start split w/ data (frame +num_data_packets-2) 8049f9f09b0SDouglas Anderson * 8059f9f09b0SDouglas Anderson * For INTERRUPT in we might need to do: 8069f9f09b0SDouglas Anderson * - start split (frame -1) 8079f9f09b0SDouglas Anderson * - complete split w/ data (frame +1) 8089f9f09b0SDouglas Anderson * - complete split w/ data (frame +2) 8099f9f09b0SDouglas Anderson * - complete split w/ data (frame +3, max 8) 8109f9f09b0SDouglas Anderson * 8119f9f09b0SDouglas Anderson * For INTERRUPT out we might need to do: 8129f9f09b0SDouglas Anderson * - start split w/ data (frame -1) 8139f9f09b0SDouglas Anderson * - complete split (frame +1) 8149f9f09b0SDouglas Anderson * - complete split (frame +2) 8159f9f09b0SDouglas Anderson * - complete split (frame +3, max 8) 8169f9f09b0SDouglas Anderson * 8179f9f09b0SDouglas Anderson * Start adjusting! 8189f9f09b0SDouglas Anderson */ 8199f9f09b0SDouglas Anderson ssplit_s_uframe = (start_s_uframe + 8209f9f09b0SDouglas Anderson host_interval_in_sched - 1) % 8219f9f09b0SDouglas Anderson host_interval_in_sched; 8229f9f09b0SDouglas Anderson if (qh->ep_type == USB_ENDPOINT_XFER_ISOC && !qh->ep_is_in) 8239f9f09b0SDouglas Anderson second_s_uframe = start_s_uframe; 8249f9f09b0SDouglas Anderson else 8259f9f09b0SDouglas Anderson second_s_uframe = start_s_uframe + 1; 8269f9f09b0SDouglas Anderson 8279f9f09b0SDouglas Anderson /* First data transfer might not be all 188 bytes. */ 8289f9f09b0SDouglas Anderson first_data_bytes = 188 - 8299f9f09b0SDouglas Anderson DIV_ROUND_UP(188 * (qh->ls_start_schedule_slice % 8309f9f09b0SDouglas Anderson DWC2_SLICES_PER_UFRAME), 8319f9f09b0SDouglas Anderson DWC2_SLICES_PER_UFRAME); 8329f9f09b0SDouglas Anderson if (first_data_bytes > bytecount) 8339f9f09b0SDouglas Anderson first_data_bytes = bytecount; 8349f9f09b0SDouglas Anderson other_data_bytes = bytecount - first_data_bytes; 8359f9f09b0SDouglas Anderson 8369f9f09b0SDouglas Anderson /* 8379f9f09b0SDouglas Anderson * For now, skip OUT xfers where first xfer is partial 8389f9f09b0SDouglas Anderson * 8399f9f09b0SDouglas Anderson * Main dwc2 code assumes: 8409f9f09b0SDouglas Anderson * - INT transfers never get split in two. 8419f9f09b0SDouglas Anderson * - ISOC transfers can always transfer 188 bytes the first 8429f9f09b0SDouglas Anderson * time. 8439f9f09b0SDouglas Anderson * 8449f9f09b0SDouglas Anderson * Until that code is fixed, try again if the first transfer 8459f9f09b0SDouglas Anderson * couldn't transfer everything. 8469f9f09b0SDouglas Anderson * 8479f9f09b0SDouglas Anderson * This code can be removed if/when the rest of dwc2 handles 8489f9f09b0SDouglas Anderson * the above cases. Until it's fixed we just won't be able 8499f9f09b0SDouglas Anderson * to schedule quite as tightly. 8509f9f09b0SDouglas Anderson */ 8519f9f09b0SDouglas Anderson if (!qh->ep_is_in && 8529f9f09b0SDouglas Anderson (first_data_bytes != min_t(int, 188, bytecount))) { 8539f9f09b0SDouglas Anderson dwc2_sch_dbg(hsotg, 8549f9f09b0SDouglas Anderson "QH=%p avoiding broken 1st xfer (%d, %d)\n", 8559f9f09b0SDouglas Anderson qh, first_data_bytes, bytecount); 8569f9f09b0SDouglas Anderson if (qh->schedule_low_speed) 8579f9f09b0SDouglas Anderson dwc2_ls_pmap_unschedule(hsotg, qh); 8589f9f09b0SDouglas Anderson ls_search_slice = (start_s_uframe + 1) * 8599f9f09b0SDouglas Anderson DWC2_SLICES_PER_UFRAME; 8609f9f09b0SDouglas Anderson continue; 8619f9f09b0SDouglas Anderson } 8629f9f09b0SDouglas Anderson 8639f9f09b0SDouglas Anderson /* Start by assuming transfers for the bytes */ 8649f9f09b0SDouglas Anderson qh->num_hs_transfers = 1 + DIV_ROUND_UP(other_data_bytes, 188); 8659f9f09b0SDouglas Anderson 8669f9f09b0SDouglas Anderson /* 8679f9f09b0SDouglas Anderson * Everything except ISOC OUT has extra transfers. Rules are 8689f9f09b0SDouglas Anderson * complicated. See 11.18.4 Host Split Transaction Scheduling 8699f9f09b0SDouglas Anderson * Requirements bullet 3. 8709f9f09b0SDouglas Anderson */ 8719f9f09b0SDouglas Anderson if (qh->ep_type == USB_ENDPOINT_XFER_INT) { 8729f9f09b0SDouglas Anderson if (rel_uframe == 6) 8739f9f09b0SDouglas Anderson qh->num_hs_transfers += 2; 8749f9f09b0SDouglas Anderson else 8759f9f09b0SDouglas Anderson qh->num_hs_transfers += 3; 8769f9f09b0SDouglas Anderson 8779f9f09b0SDouglas Anderson if (qh->ep_is_in) { 8789f9f09b0SDouglas Anderson /* 8799f9f09b0SDouglas Anderson * First is start split, middle/end is data. 8809f9f09b0SDouglas Anderson * Allocate full data bytes for all data. 8819f9f09b0SDouglas Anderson */ 8829f9f09b0SDouglas Anderson first_count = 4; 8839f9f09b0SDouglas Anderson middle_count = bytecount; 8849f9f09b0SDouglas Anderson end_count = bytecount; 8859f9f09b0SDouglas Anderson } else { 8869f9f09b0SDouglas Anderson /* 8879f9f09b0SDouglas Anderson * First is data, middle/end is complete. 8889f9f09b0SDouglas Anderson * First transfer and second can have data. 8899f9f09b0SDouglas Anderson * Rest should just have complete split. 8909f9f09b0SDouglas Anderson */ 8919f9f09b0SDouglas Anderson first_count = first_data_bytes; 8929f9f09b0SDouglas Anderson middle_count = max_t(int, 4, other_data_bytes); 8939f9f09b0SDouglas Anderson end_count = 4; 8949f9f09b0SDouglas Anderson } 8959f9f09b0SDouglas Anderson } else { 8969f9f09b0SDouglas Anderson if (qh->ep_is_in) { 8979f9f09b0SDouglas Anderson int last; 8989f9f09b0SDouglas Anderson 8999f9f09b0SDouglas Anderson /* Account for the start split */ 9009f9f09b0SDouglas Anderson qh->num_hs_transfers++; 9019f9f09b0SDouglas Anderson 9029f9f09b0SDouglas Anderson /* Calculate "L" value from spec */ 9039f9f09b0SDouglas Anderson last = rel_uframe + qh->num_hs_transfers + 1; 9049f9f09b0SDouglas Anderson 9059f9f09b0SDouglas Anderson /* Start with basic case */ 9069f9f09b0SDouglas Anderson if (last <= 6) 9079f9f09b0SDouglas Anderson qh->num_hs_transfers += 2; 9089f9f09b0SDouglas Anderson else 9099f9f09b0SDouglas Anderson qh->num_hs_transfers += 1; 9109f9f09b0SDouglas Anderson 9119f9f09b0SDouglas Anderson /* Adjust downwards */ 9129f9f09b0SDouglas Anderson if (last >= 6 && rel_uframe == 0) 9139f9f09b0SDouglas Anderson qh->num_hs_transfers--; 9149f9f09b0SDouglas Anderson 9159f9f09b0SDouglas Anderson /* 1st = start; rest can contain data */ 9169f9f09b0SDouglas Anderson first_count = 4; 9179f9f09b0SDouglas Anderson middle_count = min_t(int, 188, bytecount); 9189f9f09b0SDouglas Anderson end_count = middle_count; 9199f9f09b0SDouglas Anderson } else { 9209f9f09b0SDouglas Anderson /* All contain data, last might be smaller */ 9219f9f09b0SDouglas Anderson first_count = first_data_bytes; 9229f9f09b0SDouglas Anderson middle_count = min_t(int, 188, 9239f9f09b0SDouglas Anderson other_data_bytes); 9249f9f09b0SDouglas Anderson end_count = other_data_bytes % 188; 9259f9f09b0SDouglas Anderson } 9269f9f09b0SDouglas Anderson } 9279f9f09b0SDouglas Anderson 9289f9f09b0SDouglas Anderson /* Assign durations per uFrame */ 9299f9f09b0SDouglas Anderson qh->hs_transfers[0].duration_us = HS_USECS_ISO(first_count); 9309f9f09b0SDouglas Anderson for (i = 1; i < qh->num_hs_transfers - 1; i++) 9319f9f09b0SDouglas Anderson qh->hs_transfers[i].duration_us = 9329f9f09b0SDouglas Anderson HS_USECS_ISO(middle_count); 9339f9f09b0SDouglas Anderson if (qh->num_hs_transfers > 1) 9349f9f09b0SDouglas Anderson qh->hs_transfers[qh->num_hs_transfers - 1].duration_us = 9359f9f09b0SDouglas Anderson HS_USECS_ISO(end_count); 9369f9f09b0SDouglas Anderson 9379f9f09b0SDouglas Anderson /* 9389f9f09b0SDouglas Anderson * Assign start us. The call below to dwc2_hs_pmap_schedule() 9399f9f09b0SDouglas Anderson * will start with these numbers but may adjust within the same 9409f9f09b0SDouglas Anderson * microframe. 9419f9f09b0SDouglas Anderson */ 9429f9f09b0SDouglas Anderson qh->hs_transfers[0].start_schedule_us = 9439f9f09b0SDouglas Anderson ssplit_s_uframe * DWC2_HS_PERIODIC_US_PER_UFRAME; 9449f9f09b0SDouglas Anderson for (i = 1; i < qh->num_hs_transfers; i++) 9459f9f09b0SDouglas Anderson qh->hs_transfers[i].start_schedule_us = 9469f9f09b0SDouglas Anderson ((second_s_uframe + i - 1) % 9479f9f09b0SDouglas Anderson DWC2_HS_SCHEDULE_UFRAMES) * 9489f9f09b0SDouglas Anderson DWC2_HS_PERIODIC_US_PER_UFRAME; 9499f9f09b0SDouglas Anderson 9509f9f09b0SDouglas Anderson /* Try to schedule with filled in hs_transfers above */ 9519f9f09b0SDouglas Anderson for (i = 0; i < qh->num_hs_transfers; i++) { 9529f9f09b0SDouglas Anderson err = dwc2_hs_pmap_schedule(hsotg, qh, true, i); 9539f9f09b0SDouglas Anderson if (err) 9549f9f09b0SDouglas Anderson break; 9559f9f09b0SDouglas Anderson } 9569f9f09b0SDouglas Anderson 9579f9f09b0SDouglas Anderson /* If we scheduled all w/out breaking out then we're all good */ 9589f9f09b0SDouglas Anderson if (i == qh->num_hs_transfers) 9599f9f09b0SDouglas Anderson break; 9609f9f09b0SDouglas Anderson 9619f9f09b0SDouglas Anderson for (; i >= 0; i--) 9629f9f09b0SDouglas Anderson dwc2_hs_pmap_unschedule(hsotg, qh, i); 9639f9f09b0SDouglas Anderson 9649f9f09b0SDouglas Anderson if (qh->schedule_low_speed) 9659f9f09b0SDouglas Anderson dwc2_ls_pmap_unschedule(hsotg, qh); 9669f9f09b0SDouglas Anderson 9679f9f09b0SDouglas Anderson /* Try again starting in the next microframe */ 9689f9f09b0SDouglas Anderson ls_search_slice = (start_s_uframe + 1) * DWC2_SLICES_PER_UFRAME; 9699f9f09b0SDouglas Anderson } 9709f9f09b0SDouglas Anderson 9719f9f09b0SDouglas Anderson if (ls_search_slice >= DWC2_LS_SCHEDULE_SLICES) 9729f9f09b0SDouglas Anderson return -ENOSPC; 9739f9f09b0SDouglas Anderson 9749f9f09b0SDouglas Anderson return 0; 9759f9f09b0SDouglas Anderson } 9769f9f09b0SDouglas Anderson 9779f9f09b0SDouglas Anderson /** 9789f9f09b0SDouglas Anderson * dwc2_uframe_schedule_hs - Schedule a QH for a periodic high speed xfer. 9799f9f09b0SDouglas Anderson * 9809f9f09b0SDouglas Anderson * Basically this just wraps dwc2_hs_pmap_schedule() to provide a clean 9819f9f09b0SDouglas Anderson * interface. 9829f9f09b0SDouglas Anderson * 9839f9f09b0SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller. 9849f9f09b0SDouglas Anderson * @qh: QH for the periodic transfer. 9859f9f09b0SDouglas Anderson */ 9869f9f09b0SDouglas Anderson static int dwc2_uframe_schedule_hs(struct dwc2_hsotg *hsotg, struct dwc2_qh *qh) 9879f9f09b0SDouglas Anderson { 9889f9f09b0SDouglas Anderson /* In non-split host and device time are the same */ 9899f9f09b0SDouglas Anderson WARN_ON(qh->host_us != qh->device_us); 9909f9f09b0SDouglas Anderson WARN_ON(qh->host_interval != qh->device_interval); 9919f9f09b0SDouglas Anderson WARN_ON(qh->num_hs_transfers != 1); 9929f9f09b0SDouglas Anderson 9939f9f09b0SDouglas Anderson /* We'll have one transfer; init start to 0 before calling scheduler */ 9949f9f09b0SDouglas Anderson qh->hs_transfers[0].start_schedule_us = 0; 9959f9f09b0SDouglas Anderson qh->hs_transfers[0].duration_us = qh->host_us; 9969f9f09b0SDouglas Anderson 9979f9f09b0SDouglas Anderson return dwc2_hs_pmap_schedule(hsotg, qh, false, 0); 9989f9f09b0SDouglas Anderson } 9999f9f09b0SDouglas Anderson 10009f9f09b0SDouglas Anderson /** 10019f9f09b0SDouglas Anderson * dwc2_uframe_schedule_ls - Schedule a QH for a periodic low/full speed xfer. 10029f9f09b0SDouglas Anderson * 10039f9f09b0SDouglas Anderson * Basically this just wraps dwc2_ls_pmap_schedule() to provide a clean 10049f9f09b0SDouglas Anderson * interface. 10059f9f09b0SDouglas Anderson * 10069f9f09b0SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller. 10079f9f09b0SDouglas Anderson * @qh: QH for the periodic transfer. 10089f9f09b0SDouglas Anderson */ 10099f9f09b0SDouglas Anderson static int dwc2_uframe_schedule_ls(struct dwc2_hsotg *hsotg, struct dwc2_qh *qh) 10109f9f09b0SDouglas Anderson { 10119f9f09b0SDouglas Anderson /* In non-split host and device time are the same */ 10129f9f09b0SDouglas Anderson WARN_ON(qh->host_us != qh->device_us); 10139f9f09b0SDouglas Anderson WARN_ON(qh->host_interval != qh->device_interval); 10149f9f09b0SDouglas Anderson WARN_ON(!qh->schedule_low_speed); 10159f9f09b0SDouglas Anderson 10169f9f09b0SDouglas Anderson /* Run on the main low speed schedule (no split = no hub = no TT) */ 10179f9f09b0SDouglas Anderson return dwc2_ls_pmap_schedule(hsotg, qh, 0); 10189f9f09b0SDouglas Anderson } 10199f9f09b0SDouglas Anderson 10209f9f09b0SDouglas Anderson /** 10219f9f09b0SDouglas Anderson * dwc2_uframe_schedule - Schedule a QH for a periodic xfer. 10229f9f09b0SDouglas Anderson * 10239f9f09b0SDouglas Anderson * Calls one of the 3 sub-function depending on what type of transfer this QH 10249f9f09b0SDouglas Anderson * is for. Also adds some printing. 10259f9f09b0SDouglas Anderson * 10269f9f09b0SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller. 10279f9f09b0SDouglas Anderson * @qh: QH for the periodic transfer. 10289f9f09b0SDouglas Anderson */ 10299f9f09b0SDouglas Anderson static int dwc2_uframe_schedule(struct dwc2_hsotg *hsotg, struct dwc2_qh *qh) 1030b951c6c7SDouglas Anderson { 1031b951c6c7SDouglas Anderson int ret; 1032b951c6c7SDouglas Anderson 10339f9f09b0SDouglas Anderson if (qh->dev_speed == USB_SPEED_HIGH) 10349f9f09b0SDouglas Anderson ret = dwc2_uframe_schedule_hs(hsotg, qh); 10359f9f09b0SDouglas Anderson else if (!qh->do_split) 10369f9f09b0SDouglas Anderson ret = dwc2_uframe_schedule_ls(hsotg, qh); 10379f9f09b0SDouglas Anderson else 10389f9f09b0SDouglas Anderson ret = dwc2_uframe_schedule_split(hsotg, qh); 10399f9f09b0SDouglas Anderson 10409f9f09b0SDouglas Anderson if (ret) 10419f9f09b0SDouglas Anderson dwc2_sch_dbg(hsotg, "QH=%p Failed to schedule %d\n", qh, ret); 10429f9f09b0SDouglas Anderson else 10439f9f09b0SDouglas Anderson dwc2_qh_schedule_print(hsotg, qh); 10449f9f09b0SDouglas Anderson 1045b951c6c7SDouglas Anderson return ret; 1046b951c6c7SDouglas Anderson } 1047b951c6c7SDouglas Anderson 1048b951c6c7SDouglas Anderson /** 10499f9f09b0SDouglas Anderson * dwc2_uframe_unschedule - Undoes dwc2_uframe_schedule(). 10509f9f09b0SDouglas Anderson * 10519f9f09b0SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller. 10529f9f09b0SDouglas Anderson * @qh: QH for the periodic transfer. 10539f9f09b0SDouglas Anderson */ 10549f9f09b0SDouglas Anderson static void dwc2_uframe_unschedule(struct dwc2_hsotg *hsotg, struct dwc2_qh *qh) 10559f9f09b0SDouglas Anderson { 10569f9f09b0SDouglas Anderson int i; 10579f9f09b0SDouglas Anderson 10589f9f09b0SDouglas Anderson for (i = 0; i < qh->num_hs_transfers; i++) 10599f9f09b0SDouglas Anderson dwc2_hs_pmap_unschedule(hsotg, qh, i); 10609f9f09b0SDouglas Anderson 10619f9f09b0SDouglas Anderson if (qh->schedule_low_speed) 10629f9f09b0SDouglas Anderson dwc2_ls_pmap_unschedule(hsotg, qh); 10639f9f09b0SDouglas Anderson 10649f9f09b0SDouglas Anderson dwc2_sch_dbg(hsotg, "QH=%p Unscheduled\n", qh); 10659f9f09b0SDouglas Anderson } 10669f9f09b0SDouglas Anderson 10679f9f09b0SDouglas Anderson /** 1068fb616e3fSDouglas Anderson * dwc2_pick_first_frame() - Choose 1st frame for qh that's already scheduled 1069fb616e3fSDouglas Anderson * 1070fb616e3fSDouglas Anderson * Takes a qh that has already been scheduled (which means we know we have the 1071fb616e3fSDouglas Anderson * bandwdith reserved for us) and set the next_active_frame and the 1072fb616e3fSDouglas Anderson * start_active_frame. 1073fb616e3fSDouglas Anderson * 1074fb616e3fSDouglas Anderson * This is expected to be called on qh's that weren't previously actively 1075fb616e3fSDouglas Anderson * running. It just picks the next frame that we can fit into without any 1076fb616e3fSDouglas Anderson * thought about the past. 1077fb616e3fSDouglas Anderson * 1078fb616e3fSDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller 1079fb616e3fSDouglas Anderson * @qh: QH for a periodic endpoint 1080fb616e3fSDouglas Anderson * 1081fb616e3fSDouglas Anderson */ 1082fb616e3fSDouglas Anderson static void dwc2_pick_first_frame(struct dwc2_hsotg *hsotg, struct dwc2_qh *qh) 1083fb616e3fSDouglas Anderson { 1084fb616e3fSDouglas Anderson u16 frame_number; 1085fb616e3fSDouglas Anderson u16 earliest_frame; 1086fb616e3fSDouglas Anderson u16 next_active_frame; 10879f9f09b0SDouglas Anderson u16 relative_frame; 1088fb616e3fSDouglas Anderson u16 interval; 1089fb616e3fSDouglas Anderson 1090fb616e3fSDouglas Anderson /* 1091fb616e3fSDouglas Anderson * Use the real frame number rather than the cached value as of the 1092fb616e3fSDouglas Anderson * last SOF to give us a little extra slop. 1093fb616e3fSDouglas Anderson */ 1094fb616e3fSDouglas Anderson frame_number = dwc2_hcd_get_frame_number(hsotg); 1095fb616e3fSDouglas Anderson 1096fb616e3fSDouglas Anderson /* 1097fb616e3fSDouglas Anderson * We wouldn't want to start any earlier than the next frame just in 1098fb616e3fSDouglas Anderson * case the frame number ticks as we're doing this calculation. 1099fb616e3fSDouglas Anderson * 1100fb616e3fSDouglas Anderson * NOTE: if we could quantify how long till we actually get scheduled 1101fb616e3fSDouglas Anderson * we might be able to avoid the "+ 1" by looking at the upper part of 1102fb616e3fSDouglas Anderson * HFNUM (the FRREM field). For now we'll just use the + 1 though. 1103fb616e3fSDouglas Anderson */ 1104fb616e3fSDouglas Anderson earliest_frame = dwc2_frame_num_inc(frame_number, 1); 1105fb616e3fSDouglas Anderson next_active_frame = earliest_frame; 1106fb616e3fSDouglas Anderson 1107fb616e3fSDouglas Anderson /* Get the "no microframe schduler" out of the way... */ 110895832c00SJohn Youn if (!hsotg->params.uframe_sched) { 1109fb616e3fSDouglas Anderson if (qh->do_split) 1110fb616e3fSDouglas Anderson /* Splits are active at microframe 0 minus 1 */ 1111fb616e3fSDouglas Anderson next_active_frame |= 0x7; 1112fb616e3fSDouglas Anderson goto exit; 1113fb616e3fSDouglas Anderson } 1114fb616e3fSDouglas Anderson 11159f9f09b0SDouglas Anderson if (qh->dev_speed == USB_SPEED_HIGH || qh->do_split) { 11169f9f09b0SDouglas Anderson /* 11179f9f09b0SDouglas Anderson * We're either at high speed or we're doing a split (which 11189f9f09b0SDouglas Anderson * means we're talking high speed to a hub). In any case 11199f9f09b0SDouglas Anderson * the first frame should be based on when the first scheduled 11209f9f09b0SDouglas Anderson * event is. 11219f9f09b0SDouglas Anderson */ 11229f9f09b0SDouglas Anderson WARN_ON(qh->num_hs_transfers < 1); 11239f9f09b0SDouglas Anderson 11249f9f09b0SDouglas Anderson relative_frame = qh->hs_transfers[0].start_schedule_us / 11259f9f09b0SDouglas Anderson DWC2_HS_PERIODIC_US_PER_UFRAME; 11269f9f09b0SDouglas Anderson 11279f9f09b0SDouglas Anderson /* Adjust interval as per high speed schedule */ 11289f9f09b0SDouglas Anderson interval = gcd(qh->host_interval, DWC2_HS_SCHEDULE_UFRAMES); 11299f9f09b0SDouglas Anderson 11309f9f09b0SDouglas Anderson } else { 11319f9f09b0SDouglas Anderson /* 11329f9f09b0SDouglas Anderson * Low or full speed directly on dwc2. Just about the same 11339f9f09b0SDouglas Anderson * as high speed but on a different schedule and with slightly 11349f9f09b0SDouglas Anderson * different adjustments. Note that this works because when 11359f9f09b0SDouglas Anderson * the host and device are both low speed then frames in the 11369f9f09b0SDouglas Anderson * controller tick at low speed. 11379f9f09b0SDouglas Anderson */ 11389f9f09b0SDouglas Anderson relative_frame = qh->ls_start_schedule_slice / 11399f9f09b0SDouglas Anderson DWC2_LS_PERIODIC_SLICES_PER_FRAME; 11409f9f09b0SDouglas Anderson interval = gcd(qh->host_interval, DWC2_LS_SCHEDULE_FRAMES); 11419f9f09b0SDouglas Anderson } 11429f9f09b0SDouglas Anderson 11439f9f09b0SDouglas Anderson /* Scheduler messed up if frame is past interval */ 11449f9f09b0SDouglas Anderson WARN_ON(relative_frame >= interval); 1145fb616e3fSDouglas Anderson 1146fb616e3fSDouglas Anderson /* 1147fb616e3fSDouglas Anderson * We know interval must divide (HFNUM_MAX_FRNUM + 1) now that we've 1148fb616e3fSDouglas Anderson * done the gcd(), so it's safe to move to the beginning of the current 1149fb616e3fSDouglas Anderson * interval like this. 1150fb616e3fSDouglas Anderson * 1151fb616e3fSDouglas Anderson * After this we might be before earliest_frame, but don't worry, 1152fb616e3fSDouglas Anderson * we'll fix it... 1153fb616e3fSDouglas Anderson */ 1154fb616e3fSDouglas Anderson next_active_frame = (next_active_frame / interval) * interval; 1155fb616e3fSDouglas Anderson 1156fb616e3fSDouglas Anderson /* 1157fb616e3fSDouglas Anderson * Actually choose to start at the frame number we've been 1158fb616e3fSDouglas Anderson * scheduled for. 1159fb616e3fSDouglas Anderson */ 1160fb616e3fSDouglas Anderson next_active_frame = dwc2_frame_num_inc(next_active_frame, 11619f9f09b0SDouglas Anderson relative_frame); 1162fb616e3fSDouglas Anderson 1163fb616e3fSDouglas Anderson /* 1164fb616e3fSDouglas Anderson * We actually need 1 frame before since the next_active_frame is 1165fb616e3fSDouglas Anderson * the frame number we'll be put on the ready list and we won't be on 1166fb616e3fSDouglas Anderson * the bus until 1 frame later. 1167fb616e3fSDouglas Anderson */ 1168fb616e3fSDouglas Anderson next_active_frame = dwc2_frame_num_dec(next_active_frame, 1); 1169fb616e3fSDouglas Anderson 1170fb616e3fSDouglas Anderson /* 1171fb616e3fSDouglas Anderson * By now we might actually be before the earliest_frame. Let's move 1172fb616e3fSDouglas Anderson * up intervals until we're not. 1173fb616e3fSDouglas Anderson */ 1174fb616e3fSDouglas Anderson while (dwc2_frame_num_gt(earliest_frame, next_active_frame)) 1175fb616e3fSDouglas Anderson next_active_frame = dwc2_frame_num_inc(next_active_frame, 1176fb616e3fSDouglas Anderson interval); 1177fb616e3fSDouglas Anderson 1178fb616e3fSDouglas Anderson exit: 1179fb616e3fSDouglas Anderson qh->next_active_frame = next_active_frame; 1180fb616e3fSDouglas Anderson qh->start_active_frame = next_active_frame; 1181fb616e3fSDouglas Anderson 1182fb616e3fSDouglas Anderson dwc2_sch_vdbg(hsotg, "QH=%p First fn=%04x nxt=%04x\n", 1183fb616e3fSDouglas Anderson qh, frame_number, qh->next_active_frame); 1184fb616e3fSDouglas Anderson } 1185fb616e3fSDouglas Anderson 1186fb616e3fSDouglas Anderson /** 11872d3f1398SDouglas Anderson * dwc2_do_reserve() - Make a periodic reservation 11882d3f1398SDouglas Anderson * 11892d3f1398SDouglas Anderson * Try to allocate space in the periodic schedule. Depending on parameters 11902d3f1398SDouglas Anderson * this might use the microframe scheduler or the dumb scheduler. 11912d3f1398SDouglas Anderson * 11922d3f1398SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller 11932d3f1398SDouglas Anderson * @qh: QH for the periodic transfer. 11942d3f1398SDouglas Anderson * 11952d3f1398SDouglas Anderson * Returns: 0 upon success; error upon failure. 11962d3f1398SDouglas Anderson */ 11972d3f1398SDouglas Anderson static int dwc2_do_reserve(struct dwc2_hsotg *hsotg, struct dwc2_qh *qh) 11982d3f1398SDouglas Anderson { 11992d3f1398SDouglas Anderson int status; 12002d3f1398SDouglas Anderson 120195832c00SJohn Youn if (hsotg->params.uframe_sched) { 12029f9f09b0SDouglas Anderson status = dwc2_uframe_schedule(hsotg, qh); 12032d3f1398SDouglas Anderson } else { 12042d3f1398SDouglas Anderson status = dwc2_periodic_channel_available(hsotg); 12052d3f1398SDouglas Anderson if (status) { 12062d3f1398SDouglas Anderson dev_info(hsotg->dev, 12072d3f1398SDouglas Anderson "%s: No host channel available for periodic transfer\n", 12082d3f1398SDouglas Anderson __func__); 12092d3f1398SDouglas Anderson return status; 12102d3f1398SDouglas Anderson } 12112d3f1398SDouglas Anderson 12122d3f1398SDouglas Anderson status = dwc2_check_periodic_bandwidth(hsotg, qh); 12132d3f1398SDouglas Anderson } 12142d3f1398SDouglas Anderson 12152d3f1398SDouglas Anderson if (status) { 12162d3f1398SDouglas Anderson dev_dbg(hsotg->dev, 12172d3f1398SDouglas Anderson "%s: Insufficient periodic bandwidth for periodic transfer\n", 12182d3f1398SDouglas Anderson __func__); 12192d3f1398SDouglas Anderson return status; 12202d3f1398SDouglas Anderson } 12212d3f1398SDouglas Anderson 122295832c00SJohn Youn if (!hsotg->params.uframe_sched) 12232d3f1398SDouglas Anderson /* Reserve periodic channel */ 12242d3f1398SDouglas Anderson hsotg->periodic_channels++; 12252d3f1398SDouglas Anderson 12262d3f1398SDouglas Anderson /* Update claimed usecs per (micro)frame */ 12272d3f1398SDouglas Anderson hsotg->periodic_usecs += qh->host_us; 12282d3f1398SDouglas Anderson 1229fb616e3fSDouglas Anderson dwc2_pick_first_frame(hsotg, qh); 1230fb616e3fSDouglas Anderson 12312d3f1398SDouglas Anderson return 0; 12322d3f1398SDouglas Anderson } 12332d3f1398SDouglas Anderson 12342d3f1398SDouglas Anderson /** 123517dd5b64SDouglas Anderson * dwc2_do_unreserve() - Actually release the periodic reservation 123617dd5b64SDouglas Anderson * 123717dd5b64SDouglas Anderson * This function actually releases the periodic bandwidth that was reserved 123817dd5b64SDouglas Anderson * by the given qh. 123917dd5b64SDouglas Anderson * 124017dd5b64SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller 124117dd5b64SDouglas Anderson * @qh: QH for the periodic transfer. 124217dd5b64SDouglas Anderson */ 124317dd5b64SDouglas Anderson static void dwc2_do_unreserve(struct dwc2_hsotg *hsotg, struct dwc2_qh *qh) 124417dd5b64SDouglas Anderson { 124517dd5b64SDouglas Anderson assert_spin_locked(&hsotg->lock); 124617dd5b64SDouglas Anderson 124717dd5b64SDouglas Anderson WARN_ON(!qh->unreserve_pending); 124817dd5b64SDouglas Anderson 124917dd5b64SDouglas Anderson /* No more unreserve pending--we're doing it */ 125017dd5b64SDouglas Anderson qh->unreserve_pending = false; 125117dd5b64SDouglas Anderson 125217dd5b64SDouglas Anderson if (WARN_ON(!list_empty(&qh->qh_list_entry))) 125317dd5b64SDouglas Anderson list_del_init(&qh->qh_list_entry); 125417dd5b64SDouglas Anderson 125517dd5b64SDouglas Anderson /* Update claimed usecs per (micro)frame */ 1256ced9eee1SDouglas Anderson hsotg->periodic_usecs -= qh->host_us; 125717dd5b64SDouglas Anderson 125895832c00SJohn Youn if (hsotg->params.uframe_sched) { 12599f9f09b0SDouglas Anderson dwc2_uframe_unschedule(hsotg, qh); 126017dd5b64SDouglas Anderson } else { 126117dd5b64SDouglas Anderson /* Release periodic channel reservation */ 126217dd5b64SDouglas Anderson hsotg->periodic_channels--; 126317dd5b64SDouglas Anderson } 126417dd5b64SDouglas Anderson } 126517dd5b64SDouglas Anderson 126617dd5b64SDouglas Anderson /** 126717dd5b64SDouglas Anderson * dwc2_unreserve_timer_fn() - Timer function to release periodic reservation 126817dd5b64SDouglas Anderson * 126917dd5b64SDouglas Anderson * According to the kernel doc for usb_submit_urb() (specifically the part about 127017dd5b64SDouglas Anderson * "Reserved Bandwidth Transfers"), we need to keep a reservation active as 127117dd5b64SDouglas Anderson * long as a device driver keeps submitting. Since we're using HCD_BH to give 127217dd5b64SDouglas Anderson * back the URB we need to give the driver a little bit of time before we 127317dd5b64SDouglas Anderson * release the reservation. This worker is called after the appropriate 127417dd5b64SDouglas Anderson * delay. 127517dd5b64SDouglas Anderson * 127617dd5b64SDouglas Anderson * @work: Pointer to a qh unreserve_work. 127717dd5b64SDouglas Anderson */ 1278e99e88a9SKees Cook static void dwc2_unreserve_timer_fn(struct timer_list *t) 127917dd5b64SDouglas Anderson { 1280e99e88a9SKees Cook struct dwc2_qh *qh = from_timer(qh, t, unreserve_timer); 128117dd5b64SDouglas Anderson struct dwc2_hsotg *hsotg = qh->hsotg; 128217dd5b64SDouglas Anderson unsigned long flags; 128317dd5b64SDouglas Anderson 128417dd5b64SDouglas Anderson /* 128517dd5b64SDouglas Anderson * Wait for the lock, or for us to be scheduled again. We 128617dd5b64SDouglas Anderson * could be scheduled again if: 128717dd5b64SDouglas Anderson * - We started executing but didn't get the lock yet. 128817dd5b64SDouglas Anderson * - A new reservation came in, but cancel didn't take effect 128917dd5b64SDouglas Anderson * because we already started executing. 129017dd5b64SDouglas Anderson * - The timer has been kicked again. 129117dd5b64SDouglas Anderson * In that case cancel and wait for the next call. 129217dd5b64SDouglas Anderson */ 129317dd5b64SDouglas Anderson while (!spin_trylock_irqsave(&hsotg->lock, flags)) { 129417dd5b64SDouglas Anderson if (timer_pending(&qh->unreserve_timer)) 129517dd5b64SDouglas Anderson return; 129617dd5b64SDouglas Anderson } 129717dd5b64SDouglas Anderson 129817dd5b64SDouglas Anderson /* 129917dd5b64SDouglas Anderson * Might be no more unreserve pending if: 130017dd5b64SDouglas Anderson * - We started executing but didn't get the lock yet. 130117dd5b64SDouglas Anderson * - A new reservation came in, but cancel didn't take effect 130217dd5b64SDouglas Anderson * because we already started executing. 130317dd5b64SDouglas Anderson * 130417dd5b64SDouglas Anderson * We can't put this in the loop above because unreserve_pending needs 130517dd5b64SDouglas Anderson * to be accessed under lock, so we can only check it once we got the 130617dd5b64SDouglas Anderson * lock. 130717dd5b64SDouglas Anderson */ 130817dd5b64SDouglas Anderson if (qh->unreserve_pending) 130917dd5b64SDouglas Anderson dwc2_do_unreserve(hsotg, qh); 131017dd5b64SDouglas Anderson 131117dd5b64SDouglas Anderson spin_unlock_irqrestore(&hsotg->lock, flags); 131217dd5b64SDouglas Anderson } 131317dd5b64SDouglas Anderson 1314197ba5f4SPaul Zimmerman /** 1315b951c6c7SDouglas Anderson * dwc2_check_max_xfer_size() - Checks that the max transfer size allowed in a 1316b951c6c7SDouglas Anderson * host channel is large enough to handle the maximum data transfer in a single 1317b951c6c7SDouglas Anderson * (micro)frame for a periodic transfer 1318b951c6c7SDouglas Anderson * 1319b951c6c7SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller 1320b951c6c7SDouglas Anderson * @qh: QH for a periodic endpoint 1321b951c6c7SDouglas Anderson * 1322b951c6c7SDouglas Anderson * Return: 0 if successful, negative error code otherwise 1323b951c6c7SDouglas Anderson */ 1324b951c6c7SDouglas Anderson static int dwc2_check_max_xfer_size(struct dwc2_hsotg *hsotg, 1325b951c6c7SDouglas Anderson struct dwc2_qh *qh) 1326b951c6c7SDouglas Anderson { 1327b951c6c7SDouglas Anderson u32 max_xfer_size; 1328b951c6c7SDouglas Anderson u32 max_channel_xfer_size; 1329b951c6c7SDouglas Anderson int status = 0; 1330b951c6c7SDouglas Anderson 1331b951c6c7SDouglas Anderson max_xfer_size = dwc2_max_packet(qh->maxp) * dwc2_hb_mult(qh->maxp); 1332bea8e86cSJohn Youn max_channel_xfer_size = hsotg->params.max_transfer_size; 1333b951c6c7SDouglas Anderson 1334b951c6c7SDouglas Anderson if (max_xfer_size > max_channel_xfer_size) { 1335b951c6c7SDouglas Anderson dev_err(hsotg->dev, 1336b951c6c7SDouglas Anderson "%s: Periodic xfer length %d > max xfer length for channel %d\n", 1337b951c6c7SDouglas Anderson __func__, max_xfer_size, max_channel_xfer_size); 1338b951c6c7SDouglas Anderson status = -ENOSPC; 1339b951c6c7SDouglas Anderson } 1340b951c6c7SDouglas Anderson 1341b951c6c7SDouglas Anderson return status; 1342b951c6c7SDouglas Anderson } 1343b951c6c7SDouglas Anderson 1344b951c6c7SDouglas Anderson /** 1345b951c6c7SDouglas Anderson * dwc2_schedule_periodic() - Schedules an interrupt or isochronous transfer in 1346b951c6c7SDouglas Anderson * the periodic schedule 1347b951c6c7SDouglas Anderson * 1348b951c6c7SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller 1349b951c6c7SDouglas Anderson * @qh: QH for the periodic transfer. The QH should already contain the 1350b951c6c7SDouglas Anderson * scheduling information. 1351b951c6c7SDouglas Anderson * 1352b951c6c7SDouglas Anderson * Return: 0 if successful, negative error code otherwise 1353b951c6c7SDouglas Anderson */ 1354b951c6c7SDouglas Anderson static int dwc2_schedule_periodic(struct dwc2_hsotg *hsotg, struct dwc2_qh *qh) 1355b951c6c7SDouglas Anderson { 1356b951c6c7SDouglas Anderson int status; 1357b951c6c7SDouglas Anderson 1358b951c6c7SDouglas Anderson status = dwc2_check_max_xfer_size(hsotg, qh); 1359b951c6c7SDouglas Anderson if (status) { 1360b951c6c7SDouglas Anderson dev_dbg(hsotg->dev, 1361b951c6c7SDouglas Anderson "%s: Channel max transfer size too small for periodic transfer\n", 1362b951c6c7SDouglas Anderson __func__); 1363b951c6c7SDouglas Anderson return status; 1364b951c6c7SDouglas Anderson } 1365b951c6c7SDouglas Anderson 1366b951c6c7SDouglas Anderson /* Cancel pending unreserve; if canceled OK, unreserve was pending */ 1367b951c6c7SDouglas Anderson if (del_timer(&qh->unreserve_timer)) 1368b951c6c7SDouglas Anderson WARN_ON(!qh->unreserve_pending); 1369b951c6c7SDouglas Anderson 1370b951c6c7SDouglas Anderson /* 1371b951c6c7SDouglas Anderson * Only need to reserve if there's not an unreserve pending, since if an 1372b951c6c7SDouglas Anderson * unreserve is pending then by definition our old reservation is still 1373b951c6c7SDouglas Anderson * valid. Unreserve might still be pending even if we didn't cancel if 1374b951c6c7SDouglas Anderson * dwc2_unreserve_timer_fn() already started. Code in the timer handles 1375b951c6c7SDouglas Anderson * that case. 1376b951c6c7SDouglas Anderson */ 1377b951c6c7SDouglas Anderson if (!qh->unreserve_pending) { 13782d3f1398SDouglas Anderson status = dwc2_do_reserve(hsotg, qh); 13792d3f1398SDouglas Anderson if (status) 1380b951c6c7SDouglas Anderson return status; 1381fb616e3fSDouglas Anderson } else { 1382fb616e3fSDouglas Anderson /* 1383fb616e3fSDouglas Anderson * It might have been a while, so make sure that frame_number 1384fb616e3fSDouglas Anderson * is still good. Note: we could also try to use the similar 1385fb616e3fSDouglas Anderson * dwc2_next_periodic_start() but that schedules much more 1386fb616e3fSDouglas Anderson * tightly and we might need to hurry and queue things up. 1387fb616e3fSDouglas Anderson */ 1388fb616e3fSDouglas Anderson if (dwc2_frame_num_le(qh->next_active_frame, 1389fb616e3fSDouglas Anderson hsotg->frame_number)) 1390fb616e3fSDouglas Anderson dwc2_pick_first_frame(hsotg, qh); 1391b951c6c7SDouglas Anderson } 1392b951c6c7SDouglas Anderson 1393b951c6c7SDouglas Anderson qh->unreserve_pending = 0; 1394b951c6c7SDouglas Anderson 139595832c00SJohn Youn if (hsotg->params.dma_desc_enable) 1396b951c6c7SDouglas Anderson /* Don't rely on SOF and start in ready schedule */ 1397b951c6c7SDouglas Anderson list_add_tail(&qh->qh_list_entry, &hsotg->periodic_sched_ready); 1398b951c6c7SDouglas Anderson else 1399b951c6c7SDouglas Anderson /* Always start in inactive schedule */ 1400b951c6c7SDouglas Anderson list_add_tail(&qh->qh_list_entry, 1401b951c6c7SDouglas Anderson &hsotg->periodic_sched_inactive); 1402b951c6c7SDouglas Anderson 14032d3f1398SDouglas Anderson return 0; 1404b951c6c7SDouglas Anderson } 1405b951c6c7SDouglas Anderson 1406b951c6c7SDouglas Anderson /** 1407b951c6c7SDouglas Anderson * dwc2_deschedule_periodic() - Removes an interrupt or isochronous transfer 1408b951c6c7SDouglas Anderson * from the periodic schedule 1409b951c6c7SDouglas Anderson * 1410b951c6c7SDouglas Anderson * @hsotg: The HCD state structure for the DWC OTG controller 1411b951c6c7SDouglas Anderson * @qh: QH for the periodic transfer 1412b951c6c7SDouglas Anderson */ 1413b951c6c7SDouglas Anderson static void dwc2_deschedule_periodic(struct dwc2_hsotg *hsotg, 1414b951c6c7SDouglas Anderson struct dwc2_qh *qh) 1415b951c6c7SDouglas Anderson { 1416b951c6c7SDouglas Anderson bool did_modify; 1417b951c6c7SDouglas Anderson 1418b951c6c7SDouglas Anderson assert_spin_locked(&hsotg->lock); 1419b951c6c7SDouglas Anderson 1420b951c6c7SDouglas Anderson /* 1421b951c6c7SDouglas Anderson * Schedule the unreserve to happen in a little bit. Cases here: 1422b951c6c7SDouglas Anderson * - Unreserve worker might be sitting there waiting to grab the lock. 1423b951c6c7SDouglas Anderson * In this case it will notice it's been schedule again and will 1424b951c6c7SDouglas Anderson * quit. 1425b951c6c7SDouglas Anderson * - Unreserve worker might not be scheduled. 1426b951c6c7SDouglas Anderson * 1427b951c6c7SDouglas Anderson * We should never already be scheduled since dwc2_schedule_periodic() 1428b951c6c7SDouglas Anderson * should have canceled the scheduled unreserve timer (hence the 1429b951c6c7SDouglas Anderson * warning on did_modify). 1430b951c6c7SDouglas Anderson * 1431b951c6c7SDouglas Anderson * We add + 1 to the timer to guarantee that at least 1 jiffy has 1432b951c6c7SDouglas Anderson * passed (otherwise if the jiffy counter might tick right after we 1433b951c6c7SDouglas Anderson * read it and we'll get no delay). 1434b951c6c7SDouglas Anderson */ 1435b951c6c7SDouglas Anderson did_modify = mod_timer(&qh->unreserve_timer, 1436b951c6c7SDouglas Anderson jiffies + DWC2_UNRESERVE_DELAY + 1); 1437b951c6c7SDouglas Anderson WARN_ON(did_modify); 1438b951c6c7SDouglas Anderson qh->unreserve_pending = 1; 1439b951c6c7SDouglas Anderson 1440b951c6c7SDouglas Anderson list_del_init(&qh->qh_list_entry); 1441b951c6c7SDouglas Anderson } 1442b951c6c7SDouglas Anderson 1443b951c6c7SDouglas Anderson /** 1444197ba5f4SPaul Zimmerman * dwc2_qh_init() - Initializes a QH structure 1445197ba5f4SPaul Zimmerman * 1446197ba5f4SPaul Zimmerman * @hsotg: The HCD state structure for the DWC OTG controller 1447197ba5f4SPaul Zimmerman * @qh: The QH to init 1448197ba5f4SPaul Zimmerman * @urb: Holds the information about the device/endpoint needed to initialize 1449197ba5f4SPaul Zimmerman * the QH 14509f9f09b0SDouglas Anderson * @mem_flags: Flags for allocating memory. 1451197ba5f4SPaul Zimmerman */ 1452197ba5f4SPaul Zimmerman static void dwc2_qh_init(struct dwc2_hsotg *hsotg, struct dwc2_qh *qh, 14539f9f09b0SDouglas Anderson struct dwc2_hcd_urb *urb, gfp_t mem_flags) 1454197ba5f4SPaul Zimmerman { 14559f9f09b0SDouglas Anderson int dev_speed = dwc2_host_get_speed(hsotg, urb->priv); 14569f9f09b0SDouglas Anderson u8 ep_type = dwc2_hcd_get_pipe_type(&urb->pipe_info); 14579f9f09b0SDouglas Anderson bool ep_is_in = !!dwc2_hcd_is_pipe_in(&urb->pipe_info); 14589f9f09b0SDouglas Anderson bool ep_is_isoc = (ep_type == USB_ENDPOINT_XFER_ISOC); 14599f9f09b0SDouglas Anderson bool ep_is_int = (ep_type == USB_ENDPOINT_XFER_INT); 14609f9f09b0SDouglas Anderson u32 hprt = dwc2_readl(hsotg->regs + HPRT0); 14619f9f09b0SDouglas Anderson u32 prtspd = (hprt & HPRT0_SPD_MASK) >> HPRT0_SPD_SHIFT; 14629f9f09b0SDouglas Anderson bool do_split = (prtspd == HPRT0_SPD_HIGH_SPEED && 14639f9f09b0SDouglas Anderson dev_speed != USB_SPEED_HIGH); 14649f9f09b0SDouglas Anderson int maxp = dwc2_hcd_get_mps(&urb->pipe_info); 14659f9f09b0SDouglas Anderson int bytecount = dwc2_hb_mult(maxp) * dwc2_max_packet(maxp); 1466197ba5f4SPaul Zimmerman char *speed, *type; 1467197ba5f4SPaul Zimmerman 1468197ba5f4SPaul Zimmerman /* Initialize QH */ 146917dd5b64SDouglas Anderson qh->hsotg = hsotg; 1470e99e88a9SKees Cook timer_setup(&qh->unreserve_timer, dwc2_unreserve_timer_fn, 0); 14719f9f09b0SDouglas Anderson qh->ep_type = ep_type; 14729f9f09b0SDouglas Anderson qh->ep_is_in = ep_is_in; 1473197ba5f4SPaul Zimmerman 1474197ba5f4SPaul Zimmerman qh->data_toggle = DWC2_HC_PID_DATA0; 14759f9f09b0SDouglas Anderson qh->maxp = maxp; 1476197ba5f4SPaul Zimmerman INIT_LIST_HEAD(&qh->qtd_list); 1477197ba5f4SPaul Zimmerman INIT_LIST_HEAD(&qh->qh_list_entry); 1478197ba5f4SPaul Zimmerman 14799f9f09b0SDouglas Anderson qh->do_split = do_split; 1480197ba5f4SPaul Zimmerman qh->dev_speed = dev_speed; 1481197ba5f4SPaul Zimmerman 14829f9f09b0SDouglas Anderson if (ep_is_int || ep_is_isoc) { 14839f9f09b0SDouglas Anderson /* Compute scheduling parameters once and save them */ 14849f9f09b0SDouglas Anderson int host_speed = do_split ? USB_SPEED_HIGH : dev_speed; 14859f9f09b0SDouglas Anderson struct dwc2_tt *dwc_tt = dwc2_host_get_tt_info(hsotg, urb->priv, 14869f9f09b0SDouglas Anderson mem_flags, 14879f9f09b0SDouglas Anderson &qh->ttport); 14889f9f09b0SDouglas Anderson int device_ns; 14899f9f09b0SDouglas Anderson 14909f9f09b0SDouglas Anderson qh->dwc_tt = dwc_tt; 14919f9f09b0SDouglas Anderson 14929f9f09b0SDouglas Anderson qh->host_us = NS_TO_US(usb_calc_bus_time(host_speed, ep_is_in, 14939f9f09b0SDouglas Anderson ep_is_isoc, bytecount)); 14949f9f09b0SDouglas Anderson device_ns = usb_calc_bus_time(dev_speed, ep_is_in, 14959f9f09b0SDouglas Anderson ep_is_isoc, bytecount); 14969f9f09b0SDouglas Anderson 14979f9f09b0SDouglas Anderson if (do_split && dwc_tt) 14989f9f09b0SDouglas Anderson device_ns += dwc_tt->usb_tt->think_time; 14999f9f09b0SDouglas Anderson qh->device_us = NS_TO_US(device_ns); 15009f9f09b0SDouglas Anderson 15019f9f09b0SDouglas Anderson qh->device_interval = urb->interval; 15029f9f09b0SDouglas Anderson qh->host_interval = urb->interval * (do_split ? 8 : 1); 15039f9f09b0SDouglas Anderson 15049f9f09b0SDouglas Anderson /* 15059f9f09b0SDouglas Anderson * Schedule low speed if we're running the host in low or 15069f9f09b0SDouglas Anderson * full speed OR if we've got a "TT" to deal with to access this 15079f9f09b0SDouglas Anderson * device. 15089f9f09b0SDouglas Anderson */ 15099f9f09b0SDouglas Anderson qh->schedule_low_speed = prtspd != HPRT0_SPD_HIGH_SPEED || 15109f9f09b0SDouglas Anderson dwc_tt; 15119f9f09b0SDouglas Anderson 15129f9f09b0SDouglas Anderson if (do_split) { 15139f9f09b0SDouglas Anderson /* We won't know num transfers until we schedule */ 15149f9f09b0SDouglas Anderson qh->num_hs_transfers = -1; 15159f9f09b0SDouglas Anderson } else if (dev_speed == USB_SPEED_HIGH) { 15169f9f09b0SDouglas Anderson qh->num_hs_transfers = 1; 15179f9f09b0SDouglas Anderson } else { 15189f9f09b0SDouglas Anderson qh->num_hs_transfers = 0; 15199f9f09b0SDouglas Anderson } 15209f9f09b0SDouglas Anderson 15219f9f09b0SDouglas Anderson /* We'll schedule later when we have something to do */ 15229f9f09b0SDouglas Anderson } 15239f9f09b0SDouglas Anderson 1524197ba5f4SPaul Zimmerman switch (dev_speed) { 1525197ba5f4SPaul Zimmerman case USB_SPEED_LOW: 1526197ba5f4SPaul Zimmerman speed = "low"; 1527197ba5f4SPaul Zimmerman break; 1528197ba5f4SPaul Zimmerman case USB_SPEED_FULL: 1529197ba5f4SPaul Zimmerman speed = "full"; 1530197ba5f4SPaul Zimmerman break; 1531197ba5f4SPaul Zimmerman case USB_SPEED_HIGH: 1532197ba5f4SPaul Zimmerman speed = "high"; 1533197ba5f4SPaul Zimmerman break; 1534197ba5f4SPaul Zimmerman default: 1535197ba5f4SPaul Zimmerman speed = "?"; 1536197ba5f4SPaul Zimmerman break; 1537197ba5f4SPaul Zimmerman } 1538197ba5f4SPaul Zimmerman 1539197ba5f4SPaul Zimmerman switch (qh->ep_type) { 1540197ba5f4SPaul Zimmerman case USB_ENDPOINT_XFER_ISOC: 1541197ba5f4SPaul Zimmerman type = "isochronous"; 1542197ba5f4SPaul Zimmerman break; 1543197ba5f4SPaul Zimmerman case USB_ENDPOINT_XFER_INT: 1544197ba5f4SPaul Zimmerman type = "interrupt"; 1545197ba5f4SPaul Zimmerman break; 1546197ba5f4SPaul Zimmerman case USB_ENDPOINT_XFER_CONTROL: 1547197ba5f4SPaul Zimmerman type = "control"; 1548197ba5f4SPaul Zimmerman break; 1549197ba5f4SPaul Zimmerman case USB_ENDPOINT_XFER_BULK: 1550197ba5f4SPaul Zimmerman type = "bulk"; 1551197ba5f4SPaul Zimmerman break; 1552197ba5f4SPaul Zimmerman default: 1553197ba5f4SPaul Zimmerman type = "?"; 1554197ba5f4SPaul Zimmerman break; 1555197ba5f4SPaul Zimmerman } 1556197ba5f4SPaul Zimmerman 15579f9f09b0SDouglas Anderson dwc2_sch_dbg(hsotg, "QH=%p Init %s, %s speed, %d bytes:\n", qh, type, 15589f9f09b0SDouglas Anderson speed, bytecount); 15599f9f09b0SDouglas Anderson dwc2_sch_dbg(hsotg, "QH=%p ...addr=%d, ep=%d, %s\n", qh, 15609f9f09b0SDouglas Anderson dwc2_hcd_get_dev_addr(&urb->pipe_info), 15619f9f09b0SDouglas Anderson dwc2_hcd_get_ep_num(&urb->pipe_info), 15629f9f09b0SDouglas Anderson ep_is_in ? "IN" : "OUT"); 15639f9f09b0SDouglas Anderson if (ep_is_int || ep_is_isoc) { 15649f9f09b0SDouglas Anderson dwc2_sch_dbg(hsotg, 15659f9f09b0SDouglas Anderson "QH=%p ...duration: host=%d us, device=%d us\n", 15669f9f09b0SDouglas Anderson qh, qh->host_us, qh->device_us); 15679f9f09b0SDouglas Anderson dwc2_sch_dbg(hsotg, "QH=%p ...interval: host=%d, device=%d\n", 15689f9f09b0SDouglas Anderson qh, qh->host_interval, qh->device_interval); 15699f9f09b0SDouglas Anderson if (qh->schedule_low_speed) 15709f9f09b0SDouglas Anderson dwc2_sch_dbg(hsotg, "QH=%p ...low speed schedule=%p\n", 15719f9f09b0SDouglas Anderson qh, dwc2_get_ls_map(hsotg, qh)); 1572197ba5f4SPaul Zimmerman } 1573197ba5f4SPaul Zimmerman } 1574197ba5f4SPaul Zimmerman 1575197ba5f4SPaul Zimmerman /** 1576197ba5f4SPaul Zimmerman * dwc2_hcd_qh_create() - Allocates and initializes a QH 1577197ba5f4SPaul Zimmerman * 1578197ba5f4SPaul Zimmerman * @hsotg: The HCD state structure for the DWC OTG controller 1579197ba5f4SPaul Zimmerman * @urb: Holds the information about the device/endpoint needed 1580197ba5f4SPaul Zimmerman * to initialize the QH 1581197ba5f4SPaul Zimmerman * @atomic_alloc: Flag to do atomic allocation if needed 1582197ba5f4SPaul Zimmerman * 1583197ba5f4SPaul Zimmerman * Return: Pointer to the newly allocated QH, or NULL on error 1584197ba5f4SPaul Zimmerman */ 1585b58e6ceeSMian Yousaf Kaukab struct dwc2_qh *dwc2_hcd_qh_create(struct dwc2_hsotg *hsotg, 1586197ba5f4SPaul Zimmerman struct dwc2_hcd_urb *urb, 1587197ba5f4SPaul Zimmerman gfp_t mem_flags) 1588197ba5f4SPaul Zimmerman { 1589197ba5f4SPaul Zimmerman struct dwc2_qh *qh; 1590197ba5f4SPaul Zimmerman 1591197ba5f4SPaul Zimmerman if (!urb->priv) 1592197ba5f4SPaul Zimmerman return NULL; 1593197ba5f4SPaul Zimmerman 1594197ba5f4SPaul Zimmerman /* Allocate memory */ 1595197ba5f4SPaul Zimmerman qh = kzalloc(sizeof(*qh), mem_flags); 1596197ba5f4SPaul Zimmerman if (!qh) 1597197ba5f4SPaul Zimmerman return NULL; 1598197ba5f4SPaul Zimmerman 15999f9f09b0SDouglas Anderson dwc2_qh_init(hsotg, qh, urb, mem_flags); 1600197ba5f4SPaul Zimmerman 160195832c00SJohn Youn if (hsotg->params.dma_desc_enable && 1602197ba5f4SPaul Zimmerman dwc2_hcd_qh_init_ddma(hsotg, qh, mem_flags) < 0) { 1603197ba5f4SPaul Zimmerman dwc2_hcd_qh_free(hsotg, qh); 1604197ba5f4SPaul Zimmerman return NULL; 1605197ba5f4SPaul Zimmerman } 1606197ba5f4SPaul Zimmerman 1607197ba5f4SPaul Zimmerman return qh; 1608197ba5f4SPaul Zimmerman } 1609197ba5f4SPaul Zimmerman 1610197ba5f4SPaul Zimmerman /** 1611197ba5f4SPaul Zimmerman * dwc2_hcd_qh_free() - Frees the QH 1612197ba5f4SPaul Zimmerman * 1613197ba5f4SPaul Zimmerman * @hsotg: HCD instance 1614197ba5f4SPaul Zimmerman * @qh: The QH to free 1615197ba5f4SPaul Zimmerman * 1616197ba5f4SPaul Zimmerman * QH should already be removed from the list. QTD list should already be empty 1617197ba5f4SPaul Zimmerman * if called from URB Dequeue. 1618197ba5f4SPaul Zimmerman * 1619197ba5f4SPaul Zimmerman * Must NOT be called with interrupt disabled or spinlock held 1620197ba5f4SPaul Zimmerman */ 1621197ba5f4SPaul Zimmerman void dwc2_hcd_qh_free(struct dwc2_hsotg *hsotg, struct dwc2_qh *qh) 1622197ba5f4SPaul Zimmerman { 162317dd5b64SDouglas Anderson /* Make sure any unreserve work is finished. */ 162417dd5b64SDouglas Anderson if (del_timer_sync(&qh->unreserve_timer)) { 162517dd5b64SDouglas Anderson unsigned long flags; 162617dd5b64SDouglas Anderson 162717dd5b64SDouglas Anderson spin_lock_irqsave(&hsotg->lock, flags); 162817dd5b64SDouglas Anderson dwc2_do_unreserve(hsotg, qh); 162917dd5b64SDouglas Anderson spin_unlock_irqrestore(&hsotg->lock, flags); 163017dd5b64SDouglas Anderson } 16319f9f09b0SDouglas Anderson dwc2_host_put_tt_info(hsotg, qh->dwc_tt); 163217dd5b64SDouglas Anderson 16333bc04e28SDouglas Anderson if (qh->desc_list) 1634197ba5f4SPaul Zimmerman dwc2_hcd_qh_free_ddma(hsotg, qh); 1635197ba5f4SPaul Zimmerman kfree(qh); 1636197ba5f4SPaul Zimmerman } 1637197ba5f4SPaul Zimmerman 1638197ba5f4SPaul Zimmerman /** 1639197ba5f4SPaul Zimmerman * dwc2_hcd_qh_add() - Adds a QH to either the non periodic or periodic 1640197ba5f4SPaul Zimmerman * schedule if it is not already in the schedule. If the QH is already in 1641197ba5f4SPaul Zimmerman * the schedule, no action is taken. 1642197ba5f4SPaul Zimmerman * 1643197ba5f4SPaul Zimmerman * @hsotg: The HCD state structure for the DWC OTG controller 1644197ba5f4SPaul Zimmerman * @qh: The QH to add 1645197ba5f4SPaul Zimmerman * 1646197ba5f4SPaul Zimmerman * Return: 0 if successful, negative error code otherwise 1647197ba5f4SPaul Zimmerman */ 1648197ba5f4SPaul Zimmerman int dwc2_hcd_qh_add(struct dwc2_hsotg *hsotg, struct dwc2_qh *qh) 1649197ba5f4SPaul Zimmerman { 1650197ba5f4SPaul Zimmerman int status; 1651197ba5f4SPaul Zimmerman u32 intr_mask; 1652197ba5f4SPaul Zimmerman 1653197ba5f4SPaul Zimmerman if (dbg_qh(qh)) 1654197ba5f4SPaul Zimmerman dev_vdbg(hsotg->dev, "%s()\n", __func__); 1655197ba5f4SPaul Zimmerman 1656197ba5f4SPaul Zimmerman if (!list_empty(&qh->qh_list_entry)) 1657197ba5f4SPaul Zimmerman /* QH already in a schedule */ 1658197ba5f4SPaul Zimmerman return 0; 1659197ba5f4SPaul Zimmerman 1660197ba5f4SPaul Zimmerman /* Add the new QH to the appropriate schedule */ 1661197ba5f4SPaul Zimmerman if (dwc2_qh_is_non_per(qh)) { 1662fb616e3fSDouglas Anderson /* Schedule right away */ 1663fb616e3fSDouglas Anderson qh->start_active_frame = hsotg->frame_number; 1664fb616e3fSDouglas Anderson qh->next_active_frame = qh->start_active_frame; 1665fb616e3fSDouglas Anderson 1666197ba5f4SPaul Zimmerman /* Always start in inactive schedule */ 1667197ba5f4SPaul Zimmerman list_add_tail(&qh->qh_list_entry, 1668197ba5f4SPaul Zimmerman &hsotg->non_periodic_sched_inactive); 1669197ba5f4SPaul Zimmerman return 0; 1670197ba5f4SPaul Zimmerman } 1671197ba5f4SPaul Zimmerman 1672197ba5f4SPaul Zimmerman status = dwc2_schedule_periodic(hsotg, qh); 1673197ba5f4SPaul Zimmerman if (status) 1674197ba5f4SPaul Zimmerman return status; 1675197ba5f4SPaul Zimmerman if (!hsotg->periodic_qh_count) { 167695c8bc36SAntti Seppälä intr_mask = dwc2_readl(hsotg->regs + GINTMSK); 1677197ba5f4SPaul Zimmerman intr_mask |= GINTSTS_SOF; 167895c8bc36SAntti Seppälä dwc2_writel(intr_mask, hsotg->regs + GINTMSK); 1679197ba5f4SPaul Zimmerman } 1680197ba5f4SPaul Zimmerman hsotg->periodic_qh_count++; 1681197ba5f4SPaul Zimmerman 1682197ba5f4SPaul Zimmerman return 0; 1683197ba5f4SPaul Zimmerman } 1684197ba5f4SPaul Zimmerman 1685197ba5f4SPaul Zimmerman /** 1686197ba5f4SPaul Zimmerman * dwc2_hcd_qh_unlink() - Removes a QH from either the non-periodic or periodic 1687197ba5f4SPaul Zimmerman * schedule. Memory is not freed. 1688197ba5f4SPaul Zimmerman * 1689197ba5f4SPaul Zimmerman * @hsotg: The HCD state structure 1690197ba5f4SPaul Zimmerman * @qh: QH to remove from schedule 1691197ba5f4SPaul Zimmerman */ 1692197ba5f4SPaul Zimmerman void dwc2_hcd_qh_unlink(struct dwc2_hsotg *hsotg, struct dwc2_qh *qh) 1693197ba5f4SPaul Zimmerman { 1694197ba5f4SPaul Zimmerman u32 intr_mask; 1695197ba5f4SPaul Zimmerman 1696197ba5f4SPaul Zimmerman dev_vdbg(hsotg->dev, "%s()\n", __func__); 1697197ba5f4SPaul Zimmerman 1698197ba5f4SPaul Zimmerman if (list_empty(&qh->qh_list_entry)) 1699197ba5f4SPaul Zimmerman /* QH is not in a schedule */ 1700197ba5f4SPaul Zimmerman return; 1701197ba5f4SPaul Zimmerman 1702197ba5f4SPaul Zimmerman if (dwc2_qh_is_non_per(qh)) { 1703197ba5f4SPaul Zimmerman if (hsotg->non_periodic_qh_ptr == &qh->qh_list_entry) 1704197ba5f4SPaul Zimmerman hsotg->non_periodic_qh_ptr = 1705197ba5f4SPaul Zimmerman hsotg->non_periodic_qh_ptr->next; 1706197ba5f4SPaul Zimmerman list_del_init(&qh->qh_list_entry); 1707197ba5f4SPaul Zimmerman return; 1708197ba5f4SPaul Zimmerman } 1709197ba5f4SPaul Zimmerman 1710197ba5f4SPaul Zimmerman dwc2_deschedule_periodic(hsotg, qh); 1711197ba5f4SPaul Zimmerman hsotg->periodic_qh_count--; 1712907a4447SSevak Arakelyan if (!hsotg->periodic_qh_count && 171395832c00SJohn Youn !hsotg->params.dma_desc_enable) { 171495c8bc36SAntti Seppälä intr_mask = dwc2_readl(hsotg->regs + GINTMSK); 1715197ba5f4SPaul Zimmerman intr_mask &= ~GINTSTS_SOF; 171695c8bc36SAntti Seppälä dwc2_writel(intr_mask, hsotg->regs + GINTMSK); 1717197ba5f4SPaul Zimmerman } 1718197ba5f4SPaul Zimmerman } 1719197ba5f4SPaul Zimmerman 1720fb616e3fSDouglas Anderson /** 1721fb616e3fSDouglas Anderson * dwc2_next_for_periodic_split() - Set next_active_frame midway thru a split. 1722fb616e3fSDouglas Anderson * 1723fb616e3fSDouglas Anderson * This is called for setting next_active_frame for periodic splits for all but 1724fb616e3fSDouglas Anderson * the first packet of the split. Confusing? I thought so... 1725fb616e3fSDouglas Anderson * 1726fb616e3fSDouglas Anderson * Periodic splits are single low/full speed transfers that we end up splitting 1727fb616e3fSDouglas Anderson * up into several high speed transfers. They always fit into one full (1 ms) 1728fb616e3fSDouglas Anderson * frame but might be split over several microframes (125 us each). We to put 1729fb616e3fSDouglas Anderson * each of the parts on a very specific high speed frame. 1730fb616e3fSDouglas Anderson * 1731fb616e3fSDouglas Anderson * This function figures out where the next active uFrame needs to be. 1732fb616e3fSDouglas Anderson * 1733fb616e3fSDouglas Anderson * @hsotg: The HCD state structure 1734fb616e3fSDouglas Anderson * @qh: QH for the periodic transfer. 1735fb616e3fSDouglas Anderson * @frame_number: The current frame number. 1736fb616e3fSDouglas Anderson * 1737fb616e3fSDouglas Anderson * Return: number missed by (or 0 if we didn't miss). 1738197ba5f4SPaul Zimmerman */ 1739fb616e3fSDouglas Anderson static int dwc2_next_for_periodic_split(struct dwc2_hsotg *hsotg, 1740fb616e3fSDouglas Anderson struct dwc2_qh *qh, u16 frame_number) 1741197ba5f4SPaul Zimmerman { 1742ced9eee1SDouglas Anderson u16 old_frame = qh->next_active_frame; 1743fb616e3fSDouglas Anderson u16 prev_frame_number = dwc2_frame_num_dec(frame_number, 1); 1744fb616e3fSDouglas Anderson int missed = 0; 1745fb616e3fSDouglas Anderson u16 incr; 1746197ba5f4SPaul Zimmerman 1747197ba5f4SPaul Zimmerman /* 17489f9f09b0SDouglas Anderson * See dwc2_uframe_schedule_split() for split scheduling. 17499f9f09b0SDouglas Anderson * 1750fb616e3fSDouglas Anderson * Basically: increment 1 normally, but 2 right after the start split 1751fb616e3fSDouglas Anderson * (except for ISOC out). 1752197ba5f4SPaul Zimmerman */ 1753fb616e3fSDouglas Anderson if (old_frame == qh->start_active_frame && 1754fb616e3fSDouglas Anderson !(qh->ep_type == USB_ENDPOINT_XFER_ISOC && !qh->ep_is_in)) 1755fb616e3fSDouglas Anderson incr = 2; 1756fb616e3fSDouglas Anderson else 1757fb616e3fSDouglas Anderson incr = 1; 1758fb616e3fSDouglas Anderson 1759fb616e3fSDouglas Anderson qh->next_active_frame = dwc2_frame_num_inc(old_frame, incr); 1760fb616e3fSDouglas Anderson 1761fb616e3fSDouglas Anderson /* 1762fb616e3fSDouglas Anderson * Note that it's OK for frame_number to be 1 frame past 1763fb616e3fSDouglas Anderson * next_active_frame. Remember that next_active_frame is supposed to 1764fb616e3fSDouglas Anderson * be 1 frame _before_ when we want to be scheduled. If we're 1 frame 1765fb616e3fSDouglas Anderson * past it just means schedule ASAP. 1766fb616e3fSDouglas Anderson * 1767fb616e3fSDouglas Anderson * It's _not_ OK, however, if we're more than one frame past. 1768fb616e3fSDouglas Anderson */ 1769fb616e3fSDouglas Anderson if (dwc2_frame_num_gt(prev_frame_number, qh->next_active_frame)) { 1770fb616e3fSDouglas Anderson /* 1771fb616e3fSDouglas Anderson * OOPS, we missed. That's actually pretty bad since 1772fb616e3fSDouglas Anderson * the hub will be unhappy; try ASAP I guess. 1773fb616e3fSDouglas Anderson */ 1774fb616e3fSDouglas Anderson missed = dwc2_frame_num_dec(prev_frame_number, 1775fb616e3fSDouglas Anderson qh->next_active_frame); 1776ced9eee1SDouglas Anderson qh->next_active_frame = frame_number; 1777197ba5f4SPaul Zimmerman } 177874fc4a75SDouglas Anderson 1779fb616e3fSDouglas Anderson return missed; 1780fb616e3fSDouglas Anderson } 1781fb616e3fSDouglas Anderson 1782fb616e3fSDouglas Anderson /** 1783fb616e3fSDouglas Anderson * dwc2_next_periodic_start() - Set next_active_frame for next transfer start 1784fb616e3fSDouglas Anderson * 1785fb616e3fSDouglas Anderson * This is called for setting next_active_frame for a periodic transfer for 1786fb616e3fSDouglas Anderson * all cases other than midway through a periodic split. This will also update 1787fb616e3fSDouglas Anderson * start_active_frame. 1788fb616e3fSDouglas Anderson * 1789fb616e3fSDouglas Anderson * Since we _always_ keep start_active_frame as the start of the previous 1790fb616e3fSDouglas Anderson * transfer this is normally pretty easy: we just add our interval to 1791fb616e3fSDouglas Anderson * start_active_frame and we've got our answer. 1792fb616e3fSDouglas Anderson * 1793fb616e3fSDouglas Anderson * The tricks come into play if we miss. In that case we'll look for the next 1794fb616e3fSDouglas Anderson * slot we can fit into. 1795fb616e3fSDouglas Anderson * 1796fb616e3fSDouglas Anderson * @hsotg: The HCD state structure 1797fb616e3fSDouglas Anderson * @qh: QH for the periodic transfer. 1798fb616e3fSDouglas Anderson * @frame_number: The current frame number. 1799fb616e3fSDouglas Anderson * 1800fb616e3fSDouglas Anderson * Return: number missed by (or 0 if we didn't miss). 1801fb616e3fSDouglas Anderson */ 1802fb616e3fSDouglas Anderson static int dwc2_next_periodic_start(struct dwc2_hsotg *hsotg, 1803fb616e3fSDouglas Anderson struct dwc2_qh *qh, u16 frame_number) 1804fb616e3fSDouglas Anderson { 1805fb616e3fSDouglas Anderson int missed = 0; 1806fb616e3fSDouglas Anderson u16 interval = qh->host_interval; 1807fb616e3fSDouglas Anderson u16 prev_frame_number = dwc2_frame_num_dec(frame_number, 1); 1808fb616e3fSDouglas Anderson 1809fb616e3fSDouglas Anderson qh->start_active_frame = dwc2_frame_num_inc(qh->start_active_frame, 1810fb616e3fSDouglas Anderson interval); 1811fb616e3fSDouglas Anderson 1812fb616e3fSDouglas Anderson /* 1813fb616e3fSDouglas Anderson * The dwc2_frame_num_gt() function used below won't work terribly well 1814fb616e3fSDouglas Anderson * with if we just incremented by a really large intervals since the 1815fb616e3fSDouglas Anderson * frame counter only goes to 0x3fff. It's terribly unlikely that we 1816fb616e3fSDouglas Anderson * will have missed in this case anyway. Just go to exit. If we want 1817fb616e3fSDouglas Anderson * to try to do better we'll need to keep track of a bigger counter 1818fb616e3fSDouglas Anderson * somewhere in the driver and handle overflows. 1819fb616e3fSDouglas Anderson */ 1820fb616e3fSDouglas Anderson if (interval >= 0x1000) 1821fb616e3fSDouglas Anderson goto exit; 1822fb616e3fSDouglas Anderson 1823fb616e3fSDouglas Anderson /* 1824fb616e3fSDouglas Anderson * Test for misses, which is when it's too late to schedule. 1825fb616e3fSDouglas Anderson * 1826fb616e3fSDouglas Anderson * A few things to note: 1827fb616e3fSDouglas Anderson * - We compare against prev_frame_number since start_active_frame 1828fb616e3fSDouglas Anderson * and next_active_frame are always 1 frame before we want things 1829fb616e3fSDouglas Anderson * to be active and we assume we can still get scheduled in the 1830fb616e3fSDouglas Anderson * current frame number. 18319cf1a601SDouglas Anderson * - It's possible for start_active_frame (now incremented) to be 18329cf1a601SDouglas Anderson * next_active_frame if we got an EO MISS (even_odd miss) which 18339cf1a601SDouglas Anderson * basically means that we detected there wasn't enough time for 18349cf1a601SDouglas Anderson * the last packet and dwc2_hc_set_even_odd_frame() rescheduled us 18359cf1a601SDouglas Anderson * at the last second. We want to make sure we don't schedule 18369cf1a601SDouglas Anderson * another transfer for the same frame. My test webcam doesn't seem 18379cf1a601SDouglas Anderson * terribly upset by missing a transfer but really doesn't like when 18389cf1a601SDouglas Anderson * we do two transfers in the same frame. 1839fb616e3fSDouglas Anderson * - Some misses are expected. Specifically, in order to work 1840fb616e3fSDouglas Anderson * perfectly dwc2 really needs quite spectacular interrupt latency 1841fb616e3fSDouglas Anderson * requirements. It needs to be able to handle its interrupts 1842fb616e3fSDouglas Anderson * completely within 125 us of them being asserted. That not only 1843fb616e3fSDouglas Anderson * means that the dwc2 interrupt handler needs to be fast but it 1844fb616e3fSDouglas Anderson * means that nothing else in the system has to block dwc2 for a long 1845fb616e3fSDouglas Anderson * time. We can help with the dwc2 parts of this, but it's hard to 1846fb616e3fSDouglas Anderson * guarantee that a system will have interrupt latency < 125 us, so 1847fb616e3fSDouglas Anderson * we have to be robust to some misses. 1848fb616e3fSDouglas Anderson */ 18499cf1a601SDouglas Anderson if (qh->start_active_frame == qh->next_active_frame || 18509cf1a601SDouglas Anderson dwc2_frame_num_gt(prev_frame_number, qh->start_active_frame)) { 1851fb616e3fSDouglas Anderson u16 ideal_start = qh->start_active_frame; 18529f9f09b0SDouglas Anderson int periods_in_map; 1853fb616e3fSDouglas Anderson 18549f9f09b0SDouglas Anderson /* 18559f9f09b0SDouglas Anderson * Adjust interval as per gcd with map size. 18569f9f09b0SDouglas Anderson * See pmap_schedule() for more details here. 18579f9f09b0SDouglas Anderson */ 18589f9f09b0SDouglas Anderson if (qh->do_split || qh->dev_speed == USB_SPEED_HIGH) 18599f9f09b0SDouglas Anderson periods_in_map = DWC2_HS_SCHEDULE_UFRAMES; 18609f9f09b0SDouglas Anderson else 18619f9f09b0SDouglas Anderson periods_in_map = DWC2_LS_SCHEDULE_FRAMES; 18629f9f09b0SDouglas Anderson interval = gcd(interval, periods_in_map); 1863fb616e3fSDouglas Anderson 1864fb616e3fSDouglas Anderson do { 1865fb616e3fSDouglas Anderson qh->start_active_frame = dwc2_frame_num_inc( 1866fb616e3fSDouglas Anderson qh->start_active_frame, interval); 1867fb616e3fSDouglas Anderson } while (dwc2_frame_num_gt(prev_frame_number, 1868fb616e3fSDouglas Anderson qh->start_active_frame)); 1869fb616e3fSDouglas Anderson 1870fb616e3fSDouglas Anderson missed = dwc2_frame_num_dec(qh->start_active_frame, 1871fb616e3fSDouglas Anderson ideal_start); 1872fb616e3fSDouglas Anderson } 1873fb616e3fSDouglas Anderson 1874fb616e3fSDouglas Anderson exit: 1875fb616e3fSDouglas Anderson qh->next_active_frame = qh->start_active_frame; 1876fb616e3fSDouglas Anderson 1877fb616e3fSDouglas Anderson return missed; 1878197ba5f4SPaul Zimmerman } 1879197ba5f4SPaul Zimmerman 1880197ba5f4SPaul Zimmerman /* 1881197ba5f4SPaul Zimmerman * Deactivates a QH. For non-periodic QHs, removes the QH from the active 1882197ba5f4SPaul Zimmerman * non-periodic schedule. The QH is added to the inactive non-periodic 1883197ba5f4SPaul Zimmerman * schedule if any QTDs are still attached to the QH. 1884197ba5f4SPaul Zimmerman * 1885197ba5f4SPaul Zimmerman * For periodic QHs, the QH is removed from the periodic queued schedule. If 1886197ba5f4SPaul Zimmerman * there are any QTDs still attached to the QH, the QH is added to either the 1887197ba5f4SPaul Zimmerman * periodic inactive schedule or the periodic ready schedule and its next 1888197ba5f4SPaul Zimmerman * scheduled frame is calculated. The QH is placed in the ready schedule if 1889197ba5f4SPaul Zimmerman * the scheduled frame has been reached already. Otherwise it's placed in the 1890197ba5f4SPaul Zimmerman * inactive schedule. If there are no QTDs attached to the QH, the QH is 1891197ba5f4SPaul Zimmerman * completely removed from the periodic schedule. 1892197ba5f4SPaul Zimmerman */ 1893197ba5f4SPaul Zimmerman void dwc2_hcd_qh_deactivate(struct dwc2_hsotg *hsotg, struct dwc2_qh *qh, 1894197ba5f4SPaul Zimmerman int sched_next_periodic_split) 1895197ba5f4SPaul Zimmerman { 1896fb616e3fSDouglas Anderson u16 old_frame = qh->next_active_frame; 1897197ba5f4SPaul Zimmerman u16 frame_number; 1898fb616e3fSDouglas Anderson int missed; 1899197ba5f4SPaul Zimmerman 1900197ba5f4SPaul Zimmerman if (dbg_qh(qh)) 1901197ba5f4SPaul Zimmerman dev_vdbg(hsotg->dev, "%s()\n", __func__); 1902197ba5f4SPaul Zimmerman 1903197ba5f4SPaul Zimmerman if (dwc2_qh_is_non_per(qh)) { 1904197ba5f4SPaul Zimmerman dwc2_hcd_qh_unlink(hsotg, qh); 1905197ba5f4SPaul Zimmerman if (!list_empty(&qh->qtd_list)) 1906197ba5f4SPaul Zimmerman /* Add back to inactive non-periodic schedule */ 1907197ba5f4SPaul Zimmerman dwc2_hcd_qh_add(hsotg, qh); 1908197ba5f4SPaul Zimmerman return; 1909197ba5f4SPaul Zimmerman } 1910197ba5f4SPaul Zimmerman 1911fb616e3fSDouglas Anderson /* 1912fb616e3fSDouglas Anderson * Use the real frame number rather than the cached value as of the 1913fb616e3fSDouglas Anderson * last SOF just to get us a little closer to reality. Note that 1914fb616e3fSDouglas Anderson * means we don't actually know if we've already handled the SOF 1915fb616e3fSDouglas Anderson * interrupt for this frame. 1916fb616e3fSDouglas Anderson */ 1917197ba5f4SPaul Zimmerman frame_number = dwc2_hcd_get_frame_number(hsotg); 1918197ba5f4SPaul Zimmerman 1919fb616e3fSDouglas Anderson if (sched_next_periodic_split) 1920fb616e3fSDouglas Anderson missed = dwc2_next_for_periodic_split(hsotg, qh, frame_number); 1921fb616e3fSDouglas Anderson else 1922fb616e3fSDouglas Anderson missed = dwc2_next_periodic_start(hsotg, qh, frame_number); 1923fb616e3fSDouglas Anderson 1924fb616e3fSDouglas Anderson dwc2_sch_vdbg(hsotg, 1925fb616e3fSDouglas Anderson "QH=%p next(%d) fn=%04x, sch=%04x=>%04x (%+d) miss=%d %s\n", 1926fb616e3fSDouglas Anderson qh, sched_next_periodic_split, frame_number, old_frame, 1927fb616e3fSDouglas Anderson qh->next_active_frame, 1928fb616e3fSDouglas Anderson dwc2_frame_num_dec(qh->next_active_frame, old_frame), 1929fb616e3fSDouglas Anderson missed, missed ? "MISS" : ""); 1930197ba5f4SPaul Zimmerman 1931197ba5f4SPaul Zimmerman if (list_empty(&qh->qtd_list)) { 1932197ba5f4SPaul Zimmerman dwc2_hcd_qh_unlink(hsotg, qh); 1933197ba5f4SPaul Zimmerman return; 1934197ba5f4SPaul Zimmerman } 1935fb616e3fSDouglas Anderson 1936197ba5f4SPaul Zimmerman /* 1937197ba5f4SPaul Zimmerman * Remove from periodic_sched_queued and move to 1938197ba5f4SPaul Zimmerman * appropriate queue 1939fb616e3fSDouglas Anderson * 1940fb616e3fSDouglas Anderson * Note: we purposely use the frame_number from the "hsotg" structure 1941fb616e3fSDouglas Anderson * since we know SOF interrupt will handle future frames. 1942197ba5f4SPaul Zimmerman */ 1943fb616e3fSDouglas Anderson if (dwc2_frame_num_le(qh->next_active_frame, hsotg->frame_number)) 194494ef7aeeSDouglas Anderson list_move_tail(&qh->qh_list_entry, 194594ef7aeeSDouglas Anderson &hsotg->periodic_sched_ready); 1946197ba5f4SPaul Zimmerman else 194794ef7aeeSDouglas Anderson list_move_tail(&qh->qh_list_entry, 194894ef7aeeSDouglas Anderson &hsotg->periodic_sched_inactive); 1949197ba5f4SPaul Zimmerman } 1950197ba5f4SPaul Zimmerman 1951197ba5f4SPaul Zimmerman /** 1952197ba5f4SPaul Zimmerman * dwc2_hcd_qtd_init() - Initializes a QTD structure 1953197ba5f4SPaul Zimmerman * 1954197ba5f4SPaul Zimmerman * @qtd: The QTD to initialize 1955197ba5f4SPaul Zimmerman * @urb: The associated URB 1956197ba5f4SPaul Zimmerman */ 1957197ba5f4SPaul Zimmerman void dwc2_hcd_qtd_init(struct dwc2_qtd *qtd, struct dwc2_hcd_urb *urb) 1958197ba5f4SPaul Zimmerman { 1959197ba5f4SPaul Zimmerman qtd->urb = urb; 1960197ba5f4SPaul Zimmerman if (dwc2_hcd_get_pipe_type(&urb->pipe_info) == 1961197ba5f4SPaul Zimmerman USB_ENDPOINT_XFER_CONTROL) { 1962197ba5f4SPaul Zimmerman /* 1963197ba5f4SPaul Zimmerman * The only time the QTD data toggle is used is on the data 1964197ba5f4SPaul Zimmerman * phase of control transfers. This phase always starts with 1965197ba5f4SPaul Zimmerman * DATA1. 1966197ba5f4SPaul Zimmerman */ 1967197ba5f4SPaul Zimmerman qtd->data_toggle = DWC2_HC_PID_DATA1; 1968197ba5f4SPaul Zimmerman qtd->control_phase = DWC2_CONTROL_SETUP; 1969197ba5f4SPaul Zimmerman } 1970197ba5f4SPaul Zimmerman 1971197ba5f4SPaul Zimmerman /* Start split */ 1972197ba5f4SPaul Zimmerman qtd->complete_split = 0; 1973197ba5f4SPaul Zimmerman qtd->isoc_split_pos = DWC2_HCSPLT_XACTPOS_ALL; 1974197ba5f4SPaul Zimmerman qtd->isoc_split_offset = 0; 1975197ba5f4SPaul Zimmerman qtd->in_process = 0; 1976197ba5f4SPaul Zimmerman 1977197ba5f4SPaul Zimmerman /* Store the qtd ptr in the urb to reference the QTD */ 1978197ba5f4SPaul Zimmerman urb->qtd = qtd; 1979197ba5f4SPaul Zimmerman } 1980197ba5f4SPaul Zimmerman 1981197ba5f4SPaul Zimmerman /** 1982197ba5f4SPaul Zimmerman * dwc2_hcd_qtd_add() - Adds a QTD to the QTD-list of a QH 198333ad261aSGregory Herrero * Caller must hold driver lock. 1984197ba5f4SPaul Zimmerman * 1985197ba5f4SPaul Zimmerman * @hsotg: The DWC HCD structure 1986197ba5f4SPaul Zimmerman * @qtd: The QTD to add 1987b58e6ceeSMian Yousaf Kaukab * @qh: Queue head to add qtd to 1988197ba5f4SPaul Zimmerman * 1989197ba5f4SPaul Zimmerman * Return: 0 if successful, negative error code otherwise 1990197ba5f4SPaul Zimmerman * 1991b58e6ceeSMian Yousaf Kaukab * If the QH to which the QTD is added is not currently scheduled, it is placed 1992b58e6ceeSMian Yousaf Kaukab * into the proper schedule based on its EP type. 1993197ba5f4SPaul Zimmerman */ 1994197ba5f4SPaul Zimmerman int dwc2_hcd_qtd_add(struct dwc2_hsotg *hsotg, struct dwc2_qtd *qtd, 1995b58e6ceeSMian Yousaf Kaukab struct dwc2_qh *qh) 1996197ba5f4SPaul Zimmerman { 1997197ba5f4SPaul Zimmerman int retval; 1998197ba5f4SPaul Zimmerman 1999b58e6ceeSMian Yousaf Kaukab if (unlikely(!qh)) { 2000b58e6ceeSMian Yousaf Kaukab dev_err(hsotg->dev, "%s: Invalid QH\n", __func__); 2001b58e6ceeSMian Yousaf Kaukab retval = -EINVAL; 2002b58e6ceeSMian Yousaf Kaukab goto fail; 2003197ba5f4SPaul Zimmerman } 2004197ba5f4SPaul Zimmerman 2005b58e6ceeSMian Yousaf Kaukab retval = dwc2_hcd_qh_add(hsotg, qh); 2006197ba5f4SPaul Zimmerman if (retval) 2007197ba5f4SPaul Zimmerman goto fail; 2008197ba5f4SPaul Zimmerman 2009b58e6ceeSMian Yousaf Kaukab qtd->qh = qh; 2010b58e6ceeSMian Yousaf Kaukab list_add_tail(&qtd->qtd_list_entry, &qh->qtd_list); 2011197ba5f4SPaul Zimmerman 2012197ba5f4SPaul Zimmerman return 0; 2013197ba5f4SPaul Zimmerman fail: 2014197ba5f4SPaul Zimmerman return retval; 2015197ba5f4SPaul Zimmerman } 2016