/**************************************************************************** * drivers/usbhost/usbhost_max3421e.c * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. The * ASF licenses this file to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance with the * License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. * ****************************************************************************/ /* References: * "MAX3421E USB Peripheral/Host Controller with SPI Interface", * 19-3953, Rev 4, Maxim Integrated, July 2013 (Datasheet). * "MAX3421E Programming Guide", Maxim Integrated, December 2006 * (Application Note). */ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef CONFIG_USBHOST_MAX3421E /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ /* Configuration ************************************************************/ /* MAX3421E USB Host Driver Support * * Pre-requisites * * CONFIG_USBHOST - Enable general USB host support * CONFIG_USBHOST_MAX3421E - Enable the MAX3421E USB host support * CONFIG_SCHED_LPWORK - Low priority work queue support is required. * * Options: * * CONFIG_MAX3421E_DESCSIZE - Maximum size of a descriptor. Default: 128 * CONFIG_MAX3421E_USBHOST_REGDEBUG - Enable very low-level register access * debug. Depends on CONFIG_DEBUG_USB_INFO. * CONFIG_MAX3421E_USBHOST_PKTDUMP - Dump all incoming and outgoing USB * packets. Depends on CONFIG_DEBUG_USB_INFO. */ /* Maximum size of a descriptor */ #ifndef CONFIG_MAX3421E_DESCSIZE # define CONFIG_MAX3421E_DESCSIZE 128 #endif /* Low-priority work queue support is required. The high priority work * queue is not used because this driver requires SPI access and may * block or wait for a variety of reasons. */ #ifndef CONFIG_SCHED_LPWORK # warning Low priority work thread support is necessary (CONFIG_SCHED_LPWORK) #endif /* Register/packet debug depends on CONFIG_DEBUG_FEATURES */ #ifndef CONFIG_DEBUG_USB_INFO # undef CONFIG_MAX3421E_USBHOST_REGDEBUG # undef CONFIG_MAX3421E_USBHOST_PKTDUMP #endif /* Delays *******************************************************************/ #define MAX3421E_READY_DELAY 200000 /* In loop counts */ #define MAX3421E_FLUSH_DELAY 200000 /* In loop counts */ #define MAX3421E_SETUP_DELAY SEC2TICK(5) /* 5 seconds in system ticks */ #define MAX3421E_DATANAK_DELAY SEC2TICK(5) /* 5 seconds in system ticks */ #define MAX3421E_RETRY_COUNT 5 /* Number of tries before giving up */ #define NO_HOLDER (INVALID_PROCESS_ID) /* Debug ********************************************************************/ #define TR_FMT1 false #define TR_FMT2 true #define TRENTRY(id,fmt1,string) {string} /**************************************************************************** * Private Types ****************************************************************************/ /* The following enumeration represents the various states of the USB host * state machine (for debug purposes only) */ enum max3421e_smstate_e { SMSTATE_DETACHED = 0, /* Not attached to a device */ SMSTATE_ATTACHED, /* Attached to a device */ SMSTATE_ENUM, /* Attached, enumerating */ SMSTATE_CLASS_BOUND, /* Enumeration complete, class bound */ }; /* When a transfer completes and the HXFRDN interrupt is received, this * informs the HXFRDN interrupt handle of the type of transfer that just * completed. */ enum mx3421e_hxfrdn_e { HXFRDN_SETUP = 0, /* A setup transfer just completed */ HXFRDN_SNDZLP, /* A zero length IN transfer just completed */ HXFRDN_SNDFIFO, /* A normal IN transfer using SNDFIFO just completed */ HXFRDN_RCVFIFO, /* A normal OUT transfer using RCVFIFO just completed */ }; /* This structure retains the state of one host channel. NOTE: Since there * is only one channel operation active at a time, some of the fields in * in the structure could be moved in struct max3421e_ubhost_s to achieve * some memory savings. */ struct max3421e_chan_s { bool inuse; /* True: This channel is "in use" */ bool in; /* True: IN endpoint */ uint8_t chidx; /* Channel index (0-3) */ uint8_t epno; /* Device endpoint number (0-127) */ uint8_t eptype; /* See MAX3421E_EPTYPE_* definitions */ uint8_t funcaddr; /* Device function address */ uint8_t speed; /* Device speed */ uint8_t interval; /* Interrupt/isochronous EP polling interval */ uint8_t maxpacket; /* Max packet size (8 or 64) */ uint8_t toggles; /* Saved data toggles from the HCTL register */ }; /* This structure retains the state of the USB host controller */ struct max3421e_usbhost_s { /* Common device fields. This must be the first thing defined in the * structure so that it is possible to simply cast from struct * usbhost_driver_s to struct max3421e_usbhost_s. */ struct usbhost_driver_s drvr; /* This is the interface to the max3421e lower-half driver */ FAR const struct max3421e_lowerhalf_s *lower; /* This is the hub port description understood by class drivers */ struct usbhost_roothubport_s rhport; /* Overall driver status */ bool connected; /* Connected to device */ bool change; /* Connection change */ bool pscwait; /* True: Thread is waiting for a port event */ #ifdef CONFIG_DEBUG_ASSERTIONS bool locked; /* The SPI bus is locked */ #endif uint8_t smstate; /* The state of the USB host state machine */ uint8_t irqset; /* Set of enabled interrupts */ uint8_t xfrtype; /* See enum mx3421e_hxfrdn_e */ uint8_t inflight; /* Number of Tx bytes "in-flight" (<= 128) */ uint8_t result; /* The result of the transfer */ uint16_t buflen; /* Buffer length (at start of transfer) */ uint16_t xfrd; /* Bytes transferred (at end of transfer) */ rmutex_t lock; /* Support mutually exclusive access */ sem_t pscsem; /* Semaphore to wait for a port event */ sem_t waitsem; /* Channel wait semaphore */ FAR uint8_t *buffer; /* Transfer buffer pointer */ #ifdef CONFIG_USBHOST_ASYNCH usbhost_asynch_t callback; /* Transfer complete callback */ FAR void *arg; /* Argument that accompanies the callback */ #endif struct work_s irqwork; /* Used to process interrupts */ #ifdef CONFIG_USBHOST_HUB /* Used to pass external hub port events */ FAR struct usbhost_hubport_s *hport; #endif /* The channel waiting for the next event (there will only be one in * this design) */ FAR struct max3421e_chan_s *waiter; /* The state of each host channel, one for each device endpoint. */ struct max3421e_chan_s chan[MAX3421E_NHOST_CHANNELS]; }; /* This is the MAX3421E connection structure */ struct max3421e_connection_s { /* Common device fields. This must be the first thing defined in the * structure so that it is possible to simply cast from struct * usbhost_connection_s to struct usbhost_connection_s. */ struct usbhost_connection_s conn; /* Pointer to the associated state structure */ FAR struct max3421e_usbhost_s *priv; }; /* Supports allocation of both structures simultaneously */ struct usbhost_alloc_s { struct max3421e_usbhost_s priv; struct max3421e_connection_s conn; }; /* Tracing support */ #ifdef HAVE_USBHOST_TRACE struct max3421e_usbhost_trace_s { #if 0 uint16_t id; bool fmt2; #endif FAR const char *string; }; enum usbhost_trace1codes_e { __TRACE1_BASEVALUE = 0, /* This will force the first value to be 1 */ MAX3421E_TRACE1_ALLOC_FAIL, #ifdef CONFIG_USBHOST_ASYNCH MAX3421E_TRACE1_ASYNCHSETUP_FAIL1, MAX3421E_TRACE1_ASYNCHSETUP_FAIL2, #endif MAX3421E_TRACE1_BAD_JKSTATE, MAX3421E_TRACE1_BADREVISION, MAX3421E_TRACE1_CHANALLOC_FAIL, MAX3421E_TRACE1_CHANWAIT_FAIL, MAX3421E_TRACE1_DEVDISCONN1, MAX3421E_TRACE1_DEVDISCONN2, MAX3421E_TRACE1_DEVDISCONN3, MAX3421E_TRACE1_DEVDISCONN4, MAX3421E_TRACE1_DEVDISCONN5, MAX3421E_TRACE1_DEVDISCONN6, MAX3421E_TRACE1_DEVDISCONN7, MAX3421E_TRACE1_DEVDISCONN8, MAX3421E_TRACE1_ENUMERATE_FAIL, MAX3421E_TRACE1_INSETUP_FAIL1, #ifdef CONFIG_USBHOST_ASYNCH MAX3421E_TRACE1_INSETUP_FAIL2, MAX3421E_TRACE1_INSETUP_FAIL3, #endif MAX3421E_TRACE1_IRQATTACH_FAIL, MAX3421E_TRACE1_OUTSETUP_FAIL1, #ifdef CONFIG_USBHOST_ASYNCH MAX3421E_TRACE1_OUTSETUP_FAIL2, MAX3421E_TRACE1_OUTSETUP_FAIL3, #endif MAX3421E_TRACE1_RECVDATA_FAIL, MAX3421E_TRACE1_RECVSTATUS_FAIL, MAX3421E_TRACE1_SENDDATA_FAIL, MAX3421E_TRACE1_SENDSETUP_FAIL1, MAX3421E_TRACE1_SENDSETUP_FAIL2, MAX3421E_TRACE1_SENDSTATUS_FAIL, MAX3421E_TRACE1_TRANSFER_FAILED1, MAX3421E_TRACE1_TRANSFER_FAILED2, MAX3421E_TRACE1_TRANSFER_FAILED3, #ifdef HAVE_USBHOST_TRACE_VERBOSE MAX3421E_VTRACE1_CANCEL, MAX3421E_VTRACE1_CONNECTED1, MAX3421E_VTRACE1_CONNECTED2, MAX3421E_VTRACE1_CONNECTED3, MAX3421E_VTRACE1_DISCONNECTED1, MAX3421E_VTRACE1_DISCONNECTED2, MAX3421E_VTRACE1_ENUMERATE, #ifdef CONFIG_USBHOST_HUB MAX3421E_VTRACE1_HUB_CONNECTED, #endif MAX3421E_VTRACE1_INITIALIZED, #ifdef CONFIG_USBHOST_ASYNCH MAX3421E_VTRACE1_TRANSFER_COMPLETE, #endif #endif __TRACE1_NSTRINGS, /* Separates the format 1 from the format 2 strings */ #ifdef HAVE_USBHOST_TRACE_VERBOSE #ifdef CONFIG_USBHOST_ASYNCH MAX3421E_VTRACE2_ASYNCH, #endif MAX3421E_VTRACE2_BULKIN, MAX3421E_VTRACE2_BULKOUT, MAX3421E_VTRACE2_CHANWAKEUP_IN, MAX3421E_VTRACE2_CHANWAKEUP_OUT, MAX3421E_VTRACE2_CTRLIN, MAX3421E_VTRACE2_CTRLOUT, #ifdef CONFIG_USBHOST_HUB MAX3421E_VTRACE2_HUB_CONNECTED, #endif MAX3421E_VTRACE2_INTRIN, MAX3421E_VTRACE2_INTROUT, MAX3421E_VTRACE2_ISOCIN, MAX3421E_VTRACE2_ISOCOUT, MAX3421E_VTRACE2_RECVSTATUS, MAX3421E_VTRACE2_SENDSTATUS, MAX3421E_VTRACE2_STARTTRANSFER1, MAX3421E_VTRACE2_STARTTRANSFER2, MAX3421E_VTRACE2_TRANSFER, #ifdef CONFIG_USBHOST_ASYNCH MAX3421E_VTRACE2_XFRCOMPLETE, #endif #endif __TRACE2_NSTRINGS /* Total number of enumeration values */ }; # define TRACE1_FIRST ((int)__TRACE1_BASEVALUE + 1) # define TRACE1_INDEX(id) ((int)(id) - TRACE1_FIRST) # define TRACE1_NSTRINGS TRACE1_INDEX(__TRACE1_NSTRINGS) # define TRACE2_FIRST ((int)__TRACE1_NSTRINGS + 1) # define TRACE2_INDEX(id) ((int)(id) - TRACE2_FIRST) # define TRACE2_NSTRINGS TRACE2_INDEX(__TRACE2_NSTRINGS) #endif /**************************************************************************** * Private Function Prototypes ****************************************************************************/ /* SPI/Register operations **************************************************/ static void max3421e_lock(FAR struct max3421e_usbhost_s *priv); static void max3421e_unlock(FAR struct max3421e_usbhost_s *priv); #ifdef CONFIG_MAX3421E_USBHOST_REGDEBUG static void max3421e_printreg(uint8_t addr, uint8_t val, bool iswrite); static void max3421e_checkreg(uint8_t addr, uint8_t val, bool iswrite) #endif static inline uint8_t max3421e_fmtcmd(FAR struct max3421e_usbhost_s *priv, uint8_t addr, uint8_t dir); static uint32_t max3421e_getreg(FAR struct max3421e_usbhost_s *priv, uint8_t addr); static void max3421e_putreg(FAR struct max3421e_usbhost_s *priv, uint8_t addr, uint8_t value); static inline void max3421e_modifyreg(FAR struct max3421e_usbhost_s *priv, uint8_t addr, uint8_t clrbits, uint8_t setbits); static void max3421e_recvblock(FAR struct max3421e_usbhost_s *priv, uint8_t addr, FAR void *buffer, size_t buflen); static void max3421e_sndblock(FAR struct max3421e_usbhost_s *priv, uint8_t addr, FAR const void *buffer, size_t buflen); #ifdef CONFIG_MAX3421E_USBHOST_PKTDUMP # define max3421e_pktdump(m,b,n) lib_dumpbuffer(m,b,n) #else # define max3421e_pktdump(m,b,n) #endif /* Byte stream access helper functions **************************************/ static inline uint16_t max3421e_getle16(const uint8_t *val); /* Channel management *******************************************************/ static int max3421e_chan_alloc(FAR struct max3421e_usbhost_s *priv); static inline void max3421e_chan_free(FAR struct max3421e_usbhost_s *priv, int chidx); static int max3421e_chan_waitsetup(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan); #ifdef CONFIG_USBHOST_ASYNCH static int max3421e_chan_asynchsetup(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, usbhost_asynch_t callback, FAR void *arg); #endif static int max3421e_chan_wait(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan); static void max3421e_chan_wakeup(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, int result); /* Control/data transfer logic **********************************************/ static inline void max3421e_save_toggles(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan); static inline void max3421e_restore_toggles( FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan); static int max3421e_transfer_status(FAR struct max3421e_usbhost_s *priv); static void max3421e_transfer_terminate(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, int result); /* OUT transfers */ static void max3421e_put_sndfifo(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan); static void max3421e_send_continue(FAR struct max3421e_usbhost_s *priv); static void max3421e_send_start(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan); static ssize_t max3421e_out_transfer(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, FAR uint8_t *buffer, size_t buflen); #ifdef CONFIG_USBHOST_ASYNCH static void max3421e_out_next(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan); static int max3421e_out_asynch(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, FAR uint8_t *buffer, size_t buflen, usbhost_asynch_t callback, FAR void *arg); #endif /* Control transfers */ static int max3421e_ctrl_sendsetup(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, FAR const struct usb_ctrlreq_s *req); static int max3421e_ctrl_senddata(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, FAR uint8_t *buffer, unsigned int buflen); static int max3421e_ctrl_sendstatus(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan); static int max3421e_ctrl_recvstatus(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan); static int max3421e_in_setup(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan); static int max3421e_out_setup(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan); /* IN transfers */ static uint8_t max3421e_get_rcvfifo(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan); static void max3421e_recv_restart(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan); static void max3421e_recv_continue(FAR struct max3421e_usbhost_s *priv); static void max3421e_recv_start(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan); static ssize_t max3421e_in_transfer(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, FAR uint8_t *buffer, size_t buflen); #ifdef CONFIG_USBHOST_ASYNCH static void max3421e_in_next(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan); static int max3421e_in_asynch(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, FAR uint8_t *buffer, size_t buflen, usbhost_asynch_t callback, FAR void *arg); #endif /* Interrupt handling *******************************************************/ static void max3421e_connect_event(FAR struct max3421e_usbhost_s *priv); static void max3421e_disconnect_event(FAR struct max3421e_usbhost_s *priv); static int max3421e_connected(FAR struct max3421e_usbhost_s *priv); static void max3421e_disconnected(FAR struct max3421e_usbhost_s *priv); static void max3421e_irqwork(FAR void *arg); static int max3421e_interrupt(int irq, FAR void *context, FAR void *arg); /* Interrupt controls */ static inline void max3421e_int_enable(FAR struct max3421e_usbhost_s *priv, uint8_t irqset); static inline void max3421e_int_disable(FAR struct max3421e_usbhost_s *priv, uint8_t irqset); static inline uint8_t max3421e_int_status( FAR struct max3421e_usbhost_s *priv); static inline void max3421e_int_clear(FAR struct max3421e_usbhost_s *priv, uint8_t irqset); static void max3421e_int_wait(FAR struct max3421e_usbhost_s *priv, uint8_t irqset, unsigned int usec); /* USB host controller operations *******************************************/ static int max3421e_wait(FAR struct usbhost_connection_s *conn, FAR struct usbhost_hubport_s **hport); static int max3421e_getspeed(FAR struct max3421e_usbhost_s *priv, FAR struct usbhost_connection_s *conn, FAR struct usbhost_hubport_s *hport); static int max3421e_enumerate(FAR struct usbhost_connection_s *conn, FAR struct usbhost_hubport_s *hport); static int max3421e_ep0configure(FAR struct usbhost_driver_s *drvr, usbhost_ep_t ep0, uint8_t funcaddr, uint8_t speed, uint16_t maxpacketsize); static int max3421e_epalloc(FAR struct usbhost_driver_s *drvr, FAR const struct usbhost_epdesc_s *epdesc, FAR usbhost_ep_t *ep); static int max3421e_epfree(FAR struct usbhost_driver_s *drvr, usbhost_ep_t ep); static int max3421e_alloc(FAR struct usbhost_driver_s *drvr, FAR uint8_t **buffer, FAR size_t *maxlen); static int max3421e_free(FAR struct usbhost_driver_s *drvr, FAR uint8_t *buffer); static int max3421e_ioalloc(FAR struct usbhost_driver_s *drvr, FAR uint8_t **buffer, size_t buflen); static int max3421e_iofree(FAR struct usbhost_driver_s *drvr, FAR uint8_t *buffer); static int max3421e_ctrlin(FAR struct usbhost_driver_s *drvr, usbhost_ep_t ep0, FAR const struct usb_ctrlreq_s *req, FAR uint8_t *buffer); static int max3421e_ctrlout(FAR struct usbhost_driver_s *drvr, usbhost_ep_t ep0, FAR const struct usb_ctrlreq_s *req, FAR const uint8_t *buffer); static ssize_t max3421e_transfer(FAR struct usbhost_driver_s *drvr, usbhost_ep_t ep, FAR uint8_t *buffer, size_t buflen); #ifdef CONFIG_USBHOST_ASYNCH static int max3421e_asynch(FAR struct usbhost_driver_s *drvr, usbhost_ep_t ep, FAR uint8_t *buffer, size_t buflen, usbhost_asynch_t callback, FAR void *arg); #endif static int max3421e_cancel(FAR struct usbhost_driver_s *drvr, usbhost_ep_t ep); #ifdef CONFIG_USBHOST_HUB static int max3421e_connect(FAR struct max3421e_usbhost_s *priv, FAR struct usbhost_hubport_s *hport, bool connected); #endif static void max3421e_disconnect(FAR struct usbhost_driver_s *drvr, FAR struct usbhost_hubport_s *hport); /* Initialization ***********************************************************/ static void max3421e_busreset(FAR struct max3421e_usbhost_s *priv); static int max3421e_startsof(FAR struct max3421e_usbhost_s *priv); static inline int max3421e_sw_initialize(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_connection_s *conn, FAR const struct max3421e_lowerhalf_s *lower); static inline int max3421e_hw_initialize( FAR struct max3421e_usbhost_s *priv); /**************************************************************************** * Private Data ****************************************************************************/ #ifdef HAVE_USBHOST_TRACE /* Trace/debug format strings. */ static const struct max3421e_usbhost_trace_s g_trace1[TRACE1_NSTRINGS] = { TRENTRY(MAX3421E_TRACE1_ALLOC_FAIL, TR_FMT1, "INIT: Failed to allocate state structure: %u\n"), #ifdef CONFIG_USBHOST_ASYNCH TRENTRY(MAX3421E_TRACE1_ASYNCHSETUP_FAIL1, TR_FMT1, "OUT: Asynch setup failed: %u\n"), TRENTRY(MAX3421E_TRACE1_ASYNCHSETUP_FAIL2, TR_FMT1, "IN: Asynch setup failed: %u\n"), #endif TRENTRY(MAX3421E_TRACE1_BAD_JKSTATE, TR_FMT1, "CONNECT: Bad JK state: %02x\n"), TRENTRY(MAX3421E_TRACE1_BADREVISION, TR_FMT1, "INIT: Bad revision number: %02x\n"), TRENTRY(MAX3421E_TRACE1_CHANALLOC_FAIL, TR_FMT1, "EPALLOC: Channel allocation failed: %u\n"), TRENTRY(MAX3421E_TRACE1_CHANWAIT_FAIL, TR_FMT1, "OUT: Channel wait failure: %u\n"), TRENTRY(MAX3421E_TRACE1_DEVDISCONN1, TR_FMT1, "OUT: Disconnected during wait: %u\n"), TRENTRY(MAX3421E_TRACE1_DEVDISCONN2, TR_FMT1, "CTRL: Disconnected during SETUP phase: %u\n"), TRENTRY(MAX3421E_TRACE1_DEVDISCONN3, TR_FMT1, "CTRL OUT: Disconnected during DATA phase: %u\n"), TRENTRY(MAX3421E_TRACE1_DEVDISCONN4, TR_FMT1, "CTRL IN: Disconnected during DATA phase: %u"), TRENTRY(MAX3421E_TRACE1_DEVDISCONN5, TR_FMT1, "IN: Disconnected during wait: %u\n"), TRENTRY(MAX3421E_TRACE1_DEVDISCONN6, TR_FMT1, "CONNECT: Device disconnect #1: %u\n"), TRENTRY(MAX3421E_TRACE1_DEVDISCONN7, TR_FMT1, "CONNECT: Device disconnect #2: %u\n"), TRENTRY(MAX3421E_TRACE1_DEVDISCONN8, TR_FMT1, "CONNECT: Device disconnect #3: %u\n"), TRENTRY(MAX3421E_TRACE1_ENUMERATE_FAIL, TR_FMT1, "CONNECT: Enumeration failed: %u\n"), TRENTRY(MAX3421E_TRACE1_INSETUP_FAIL1, TR_FMT1, "CTRL IN: SETUP phase failure: %u\n"), #ifdef CONFIG_USBHOST_ASYNCH TRENTRY(MAX3421E_TRACE1_INSETUP_FAIL2, TR_FMT1, "CTRL IN: Asynch SETUP phase failure #1: %u\n"), TRENTRY(MAX3421E_TRACE1_INSETUP_FAIL3, TR_FMT1, "CTRL IN: Asynch SETUP phase failure #2: %u\n"), #endif TRENTRY(MAX3421E_TRACE1_IRQATTACH_FAIL, TR_FMT1, "INIT: Failed to attach interrupt: %u\n"), TRENTRY(MAX3421E_TRACE1_OUTSETUP_FAIL1, TR_FMT1, "CTRL OUT: SETUP phase failure: %u\n"), #ifdef CONFIG_USBHOST_ASYNCH TRENTRY(MAX3421E_TRACE1_OUTSETUP_FAIL2, TR_FMT1, "CTRL OUT: Asynch SETUP phase failure #1: %u\n"), TRENTRY(MAX3421E_TRACE1_OUTSETUP_FAIL3, TR_FMT1, "CTRL OUT: Asynch SETUP phase failure #2: %u\n"), #endif TRENTRY(MAX3421E_TRACE1_RECVDATA_FAIL, TR_FMT1, "CTRL IN: Data phase failure: %u\n"), TRENTRY(MAX3421E_TRACE1_RECVSTATUS_FAIL, TR_FMT1, "CTRL OUT: Status phase failure: %u\n"), TRENTRY(MAX3421E_TRACE1_SENDDATA_FAIL, TR_FMT1, "CTRL OUT: Data phase failure: %u\n"), TRENTRY(MAX3421E_TRACE1_SENDSETUP_FAIL1, TR_FMT1, "CTRL OUT: SETUP phase failure: %u\n"), TRENTRY(MAX3421E_TRACE1_SENDSETUP_FAIL2, TR_FMT1, "CTRL IN: SETUP phase failure: %u\n"), TRENTRY(MAX3421E_TRACE1_SENDSTATUS_FAIL, TR_FMT1, "CTRL IN: Status phase failure: %u\n"), TRENTRY(MAX3421E_TRACE1_TRANSFER_FAILED1, TR_FMT1, "OUT: Transfer wait returned failure: %u\n"), TRENTRY(MAX3421E_TRACE1_TRANSFER_FAILED2, TR_FMT1, "CTRL: SETUP wait returned failure: %u\n"), TRENTRY(MAX3421E_TRACE1_TRANSFER_FAILED3, TR_FMT1, "IN: Transfer wait returned failure: %u\n"), #ifdef HAVE_USBHOST_TRACE_VERBOSE TRENTRY(MAX3421E_VTRACE1_CANCEL, TR_FMT1, "Transfer canceled: EP%u\n"), TRENTRY(MAX3421E_VTRACE1_CONNECTED1, TR_FMT1, "CONNECT: Connection event: %u\n"), TRENTRY(MAX3421E_VTRACE1_CONNECTED2, TR_FMT1, "CONNECT: Connection change detected: %u\n"), TRENTRY(MAX3421E_VTRACE1_CONNECTED3, TR_FMT1, "CONNECT: Connected: %u\n"), TRENTRY(MAX3421E_VTRACE1_DISCONNECTED1, TR_FMT1, "CONNECT: Disconnected: %u\n"), TRENTRY(MAX3421E_VTRACE1_DISCONNECTED2, TR_FMT1, "CONNECT: Disconnect detected: %u\n"), TRENTRY(MAX3421E_VTRACE1_ENUMERATE, TR_FMT1, "ENUMERATE: Start: %u\n"), #ifdef CONFIG_USBHOST_HUB TRENTRY(MAX3421E_VTRACE1_HUB_CONNECTED, TR_FMT1, "CONNECT: Hub connected: %u\n"), #endif TRENTRY(MAX3421E_VTRACE1_INITIALIZED, TR_FMT1, "INIT: Hardware initialized: %u\n"), #ifdef CONFIG_USBHOST_ASYNCH TRENTRY(MAX3421E_VTRACE1_TRANSFER_COMPLETE, TR_FMT1, "OUT: Asynch transfer complete: %u\n"), #endif #endif }; static const struct max3421e_usbhost_trace_s g_trace2[TRACE2_NSTRINGS] = { #ifdef HAVE_USBHOST_TRACE_VERBOSE #ifdef CONFIG_USBHOST_ASYNCH TRENTRY(MAX3421E_VTRACE2_ASYNCH, TR_FMT2, "ASYNCH: Transfer started: EP%u len=%u\n"), #endif TRENTRY(MAX3421E_VTRACE2_BULKIN, TR_FMT2, "BULK IN: SETUP: Chan%u len=%u\n"), TRENTRY(MAX3421E_VTRACE2_BULKOUT, TR_FMT2, "BULK OUT: SETUP: Chan%u len=%u\n"), TRENTRY(MAX3421E_VTRACE2_CHANWAKEUP_IN, TR_FMT2, "IN: Channel wakeup: Chan%, result=%u\n"), TRENTRY(MAX3421E_VTRACE2_CHANWAKEUP_OUT, TR_FMT2, "OUT: Channel wakeup: Chan%u result=%u\n"), TRENTRY(MAX3421E_VTRACE2_CTRLIN, TR_FMT2, "CTRL IN: Start: type=%u req=%u\n"), TRENTRY(MAX3421E_VTRACE2_CTRLOUT, TR_FMT2, "CTRL OUT: Start: type=%u req=%u\n"), #ifdef CONFIG_USBHOST_HUB TRENTRY(MAX3421E_VTRACE2_HUB_CONNECTED, TR_FMT2, "CONNECT: Hub connected: port=%u, connected=%u\n"), #endif TRENTRY(MAX3421E_VTRACE2_INTRIN, TR_FMT2, "INTR IN: SETUP: Chan%u len=%u\n"), TRENTRY(MAX3421E_VTRACE2_INTROUT, TR_FMT2, "INTR OUT: SETUP: Chan%u len=%u\n"), TRENTRY(MAX3421E_VTRACE2_ISOCIN, TR_FMT2, "ISOC IN: SETUP: Chan%u len=%u\n"), TRENTRY(MAX3421E_VTRACE2_ISOCOUT, TR_FMT2, "ISOC OUT: SETUP: Chan%u len=%u\n"), TRENTRY(MAX3421E_VTRACE2_RECVSTATUS, TR_FMT2, "CTRL OUT: Receive status: Chan% len=%u\n"), TRENTRY(MAX3421E_VTRACE2_SENDSTATUS, TR_FMT2, "CTRL IN: Send status: Chan% len=%u\n"), TRENTRY(MAX3421E_VTRACE2_STARTTRANSFER1, TR_FMT2, "OUT: Send start: Chan% len=%u\n"), TRENTRY(MAX3421E_VTRACE2_STARTTRANSFER2, TR_FMT2, "IN: Receive start: Chan% len=%u\n"), TRENTRY(MAX3421E_VTRACE2_TRANSFER, TR_FMT2, "Transfer start: EP%u len=%u\n"), #ifdef CONFIG_USBHOST_ASYNCH TRENTRY(MAX3421E_VTRACE2_XFRCOMPLETE, TR_FMT2, "ASYNCH: Transfer complete: EP%u len=%u\n"), #endif #endif }; #endif /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Name: max3421e_lock * * Description: * Lock and configure the SPI bus. * ****************************************************************************/ static void max3421e_lock(FAR struct max3421e_usbhost_s *priv) { FAR const struct max3421e_lowerhalf_s *lower = priv->lower; FAR struct spi_dev_s *spi; DEBUGASSERT(lower != NULL && lower->spi != NULL && !priv->locked); spi = lower->spi; SPI_LOCK(spi, true); SPI_SETMODE(spi, lower->mode); SPI_SETBITS(spi, 8); SPI_HWFEATURES(spi, 0); SPI_SETFREQUENCY(spi, lower->frequency); #ifdef CONFIG_DEBUG_ASSERTIONS /* Mark the SPI bus as locked (for debug only) */ priv->locked = true; #endif } /**************************************************************************** * Name: max3421e_unlock * * Description: * Unlock the SPI bus. * ****************************************************************************/ static void max3421e_unlock(FAR struct max3421e_usbhost_s *priv) { FAR const struct max3421e_lowerhalf_s *lower = priv->lower; DEBUGASSERT(lower != NULL && lower->spi != NULL && priv->locked); SPI_LOCK(lower->spi, false); #ifdef CONFIG_DEBUG_ASSERTIONS /* Mark the SPI bus as unlocked (for debug only) */ priv->locked = false; #endif } /**************************************************************************** * Name: max3421e_printreg * * Description: * Print the contents of an MAX3421Exx register operation * ****************************************************************************/ #ifdef CONFIG_MAX3421E_USBHOST_REGDEBUG static void max3421e_printreg(uint8_t addr, uint8_t val, bool iswrite) { uinfo("%02x%s%02x\n", addr, iswrite ? "<-" : "->", val); } #endif /**************************************************************************** * Name: max3421e_checkreg * * Description: * Get the contents of an MAX3421E register * ****************************************************************************/ #ifdef CONFIG_MAX3421E_USBHOST_REGDEBUG static void max3421e_checkreg(uint8_t addr, uint8_t val, bool iswrite) { static uint8_t prevaddr = 0; static uint8_t preval = 0; static unsigned int count = 0; static bool prevwrite = false; /* Is this the same value that we read from/wrote to the same register * last time? Are we polling the register? If so, suppress the output. */ if (addr == prevaddr && val == preval && prevwrite == iswrite) { /* Yes.. Just increment the count */ count++; } else { /* No this is a new address or value or operation. Were there any * duplicate accesses before this one? */ if (count > 0) { /* Yes.. Just one? */ if (count == 1) { /* Yes.. Just one */ max3421e_printreg(prevaddr, preval, prevwrite); } else { /* No.. More than one. */ uinfo("[repeats %d more times]\n", count); } } /* Save the new address, value, count, and operation for next time */ prevaddr = addr; preval = val; count = 0; prevwrite = iswrite; /* Show the new register access */ max3421e_printreg(addr, val, iswrite); } } #endif /**************************************************************************** * Name: max3421e_fmtcmd * * Description: * Format a command * * The command byte contains the register address, a direction bit, and an * ACKSTAT bit: * * Bits 3-7: Command * Bit 2: Unused * Bit 1: Direction (read = 0, write = 1) * Bit 0: ACKSTAT * * The ACKSTAT bit is ignored in host mode. * ****************************************************************************/ static inline uint8_t max3421e_fmtcmd(FAR struct max3421e_usbhost_s *priv, uint8_t addr, uint8_t dir) { return addr | dir | MAX3421E_ACKSTAT_FALSE; } /**************************************************************************** * Name: max3421e_getreg * * Description: * Get the contents of an MAX3421E register * * Assumption: * SPI bus is locked * ****************************************************************************/ static uint32_t max3421e_getreg(FAR struct max3421e_usbhost_s *priv, uint8_t addr) { FAR const struct max3421e_lowerhalf_s *lower = priv->lower; FAR struct spi_dev_s *spi; uint8_t cmd; uint8_t value; DEBUGASSERT(lower != NULL && lower->spi != NULL && priv->locked); spi = lower->spi; /* Select the MAX4321E */ SPI_SELECT(spi, SPIDEV_USBHOST(lower->devid), true); /* Send the read command byte */ cmd = max3421e_fmtcmd(priv, addr, MAX3421E_DIR_READ); SPI_SEND(spi, cmd); /* Read the value of the register */ value = SPI_SEND(spi, 0xff); /* De-select the MAX4321E */ SPI_SELECT(spi, SPIDEV_USBHOST(lower->devid), false); #ifdef CONFIG_MAX3421E_USBHOST_REGDEBUG /* Check if we need to print this value */ max3421e_checkreg(addr, value, false); #endif return value; } /**************************************************************************** * Name: max3421e_putreg * * Description: * Set the contents of an MAX3421E register to a value * * Assumption: * SPI bus is locked * ****************************************************************************/ static void max3421e_putreg(FAR struct max3421e_usbhost_s *priv, uint8_t addr, uint8_t value) { FAR const struct max3421e_lowerhalf_s *lower = priv->lower; FAR struct spi_dev_s *spi; uint8_t cmd; DEBUGASSERT(lower != NULL && lower->spi != NULL && priv->locked); spi = lower->spi; #ifdef CONFIG_MAX3421E_USBHOST_REGDEBUG /* Check if we need to print this value */ max3421e_checkreg(addr, val, true); #endif /* Select the MAX4321E */ SPI_SELECT(spi, SPIDEV_USBHOST(lower->devid), true); /* Send the write command byte */ cmd = max3421e_fmtcmd(priv, addr, MAX3421E_DIR_WRITE); SPI_SEND(spi, cmd); /* Send the new value for the register */ SPI_SEND(spi, value); /* De-select the MAX4321E */ SPI_SELECT(spi, SPIDEV_USBHOST(lower->devid), false); } /**************************************************************************** * Name: max3421e_modifyreg * * Description: * Modify selected bits of an MAX3421E register. * * Assumption: * SPI bus is locked * ****************************************************************************/ static inline void max3421e_modifyreg(FAR struct max3421e_usbhost_s *priv, uint8_t addr, uint8_t clrbits, uint8_t setbits) { uint8_t value; value = max3421e_getreg(priv, addr); value &= ~clrbits; value |= setbits; max3421e_putreg(priv, addr, value); } /**************************************************************************** * Name: max3421e_recvblock * * Description: * Receive a block of data from the MAX341E. * * Assumption: * SPI bus is locked * ****************************************************************************/ static void max3421e_recvblock(FAR struct max3421e_usbhost_s *priv, uint8_t addr, FAR void *buffer, size_t buflen) { FAR const struct max3421e_lowerhalf_s *lower = priv->lower; FAR struct spi_dev_s *spi; uint8_t cmd; DEBUGASSERT(lower != NULL && lower->spi != NULL && priv->locked); spi = lower->spi; /* Select the MAX4321E */ SPI_SELECT(spi, SPIDEV_USBHOST(lower->devid), true); /* Send the read command byte */ cmd = max3421e_fmtcmd(priv, addr, MAX3421E_DIR_READ); SPI_SEND(spi, cmd); /* Read the block of values from the register(s) */ SPI_RECVBLOCK(spi, buffer, buflen); /* De-select the MAX4321E */ SPI_SELECT(spi, SPIDEV_USBHOST(lower->devid), false); #ifdef CONFIG_MAX3421E_USBHOST_REGDEBUG /* Dump the block of data received */ lib_dumpbuffer("Received:", buffer, buflen); #endif } /**************************************************************************** * Name: max3421e_sndblock * * Description: * Send a block of data to the MAX341E. * * Assumption: * SPI bus is locked * ****************************************************************************/ static void max3421e_sndblock(FAR struct max3421e_usbhost_s *priv, uint8_t addr, FAR const void *buffer, size_t buflen) { FAR const struct max3421e_lowerhalf_s *lower = priv->lower; FAR struct spi_dev_s *spi; uint8_t cmd; DEBUGASSERT(lower != NULL && lower->spi != NULL && priv->locked); spi = lower->spi; #ifdef CONFIG_MAX3421E_USBHOST_REGDEBUG /* Dump the block of data to be sent */ lib_dumpbuffer("Sending:", buffer, buflen); #endif /* Select the MAX4321E */ SPI_SELECT(spi, SPIDEV_USBHOST(lower->devid), true); /* Send the wrte command byte */ cmd = max3421e_fmtcmd(priv, addr, MAX3421E_DIR_WRITE); SPI_SEND(spi, cmd); /* Send the new value for the register */ SPI_SNDBLOCK(spi, buffer, buflen); /* De-select the MAX4321E */ SPI_SELECT(spi, SPIDEV_USBHOST(lower->devid), false); } /**************************************************************************** * Name: max3421e_getle16 * * Description: * Get a (possibly unaligned) 16-bit little endian value. * ****************************************************************************/ static inline uint16_t max3421e_getle16(const uint8_t *val) { return (uint16_t)val[1] << 8 | (uint16_t)val[0]; } /**************************************************************************** * Name: max3421e_chan_alloc * * Description: * Allocate a channel. * ****************************************************************************/ static int max3421e_chan_alloc(FAR struct max3421e_usbhost_s *priv) { int chidx; /* Search the table of channels */ for (chidx = 0; chidx < MAX3421E_NHOST_CHANNELS; chidx++) { /* Is this channel available? */ if (!priv->chan[chidx].inuse) { /* Yes... make it "in use" and return the index */ priv->chan[chidx].inuse = true; return chidx; } } /* All of the channels are "in-use" */ return -EBUSY; } /**************************************************************************** * Name: max3421e_chan_free * * Description: * Free a previoiusly allocated channel. * ****************************************************************************/ static void max3421e_chan_free(FAR struct max3421e_usbhost_s *priv, int chidx) { DEBUGASSERT((unsigned)chidx < MAX3421E_NHOST_CHANNELS); /* Halt the channel */ #warning Missing logic /* Mark the channel available */ priv->chan[chidx].inuse = false; } /**************************************************************************** * Name: max3421e_chan_waitsetup * * Description: * Set the request for the transfer complete event well BEFORE enabling * the transfer (as soon as we are absolutely committed to the transfer). * We do this to minimize race conditions. This logic would have to be * expanded if we want to have more than one packet in flight at a time! * * Assumptions: * Called from a normal thread context BEFORE the transfer has been * started. * ****************************************************************************/ static int max3421e_chan_waitsetup(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan) { irqstate_t flags = enter_critical_section(); int ret = -ENODEV; DEBUGASSERT(priv != NULL && chan != NULL && priv->waiter == NULL); /* Is the device still connected? */ if (priv->connected) { /* Yes.. then set waiter to indicate that we expect to be informed * when either (1) the device is disconnected, or (2) the transfer * completed. */ priv->waiter = chan; #ifdef CONFIG_USBHOST_ASYNCH priv->callback = NULL; priv->arg = NULL; #endif ret = OK; } leave_critical_section(flags); return ret; } /**************************************************************************** * Name: max3421e_chan_asynchsetup * * Description: * Set the request for the transfer complete event well BEFORE enabling the * transfer (as soon as we are absolutely committed to transfer). We do * this to minimize race conditions. This logic would have to be expanded * if we want to have more than one packet in flight at a time! * * Assumptions: * Might be called from the level of an interrupt handler * ****************************************************************************/ #ifdef CONFIG_USBHOST_ASYNCH static int max3421e_chan_asynchsetup(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, usbhost_asynch_t callback, FAR void *arg) { irqstate_t flags = enter_critical_section(); int ret = -ENODEV; DEBUGASSERT(priv != NULL && chan != NULL); /* Is the device still connected? */ if (priv->connected) { priv->waiter = NULL; /* No waiter */ priv->callback = callback; priv->arg = arg; ret = OK; } leave_critical_section(flags); return ret; } #endif /**************************************************************************** * Name: max3421e_chan_wait * * Description: * Wait for a transfer on a channel to complete. * * Assumptions: * Called from a normal thread context * ****************************************************************************/ static int max3421e_chan_wait(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan) { irqstate_t flags; int ret; /* Disable interrupts so that the following operations will be atomic. On * the host global interrupt needs to be disabled. However, here we * disable all interrupts to exploit that fact that interrupts will be re- * enabled while we wait. */ flags = enter_critical_section(); /* Loop, testing for an end of transfer condition. The channel 'result' * was set to EBUSY and 'waiter' was set to the channel expecting the * response before the transfer was started; 'waiter' will be nullified * and 'result' will be set appropriately when the transfer is completed. */ do { /* Wait for the transfer to complete. NOTE the transfer may already * completed before we get here or the transfer may complete while we * wait here. */ ret = nxsem_wait_uninterruptible(&priv->waitsem); if (ret < 0) { leave_critical_section(flags); return ret; } } while (priv->waiter != NULL); /* The transfer is complete re-enable interrupts and return the result */ ret = -(int)priv->result; leave_critical_section(flags); return ret; } /**************************************************************************** * Name: max3421e_chan_wakeup * * Description: * A channel transfer has completed... wakeup any threads waiting for the * transfer to complete. * * Assumptions: * This function is called from the transfer complete interrupt handler for * the channel. Interrupts are disabled. * ****************************************************************************/ static void max3421e_chan_wakeup(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, int result) { /* Save the result of the operation */ DEBUGASSERT(priv->result != EBUSY); priv->result = result; /* Is there a thread waiting for this transfer to complete? */ if (priv->waiter != NULL) { #ifdef CONFIG_USBHOST_ASYNCH /* Yes.. there should not also be a callback scheduled */ DEBUGASSERT(priv->callback == NULL); #endif /* Wake'em up! */ usbhost_vtrace2(chan->in ? MAX3421E_VTRACE2_CHANWAKEUP_IN : MAX3421E_VTRACE2_CHANWAKEUP_OUT, chan->chidx, priv->result); nxsem_post(&priv->waitsem); priv->waiter = NULL; } #ifdef CONFIG_USBHOST_ASYNCH /* No.. is an asynchronous callback expected when the transfer completes? */ else if (priv->callback) { /* Handle continuation of IN/OUT pipes */ if (chan->in) { max3421e_in_next(priv, chan); } else { max3421e_out_next(priv, chan); } } #endif } /**************************************************************************** * Name: max3421e_save_toggles and max3421e_restore_toggles * * Description: * Save and restore data toggles from/to the HCTL register. The MAX3421E * will automatically update the toggles for consecutive transfers to the * same endpoint; We need to use these only when we change endpoints. * ****************************************************************************/ static inline void max3421e_save_toggles(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan) { chan->toggles = max3421e_getreg(priv, MAX3421E_USBHOST_HCTL); } static inline void max3421e_restore_toggles(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan) { max3421e_modifyreg(priv, MAX3421E_USBHOST_HCTL, USBHOST_HCTL_TOGGLES_MASK, chan->toggles & USBHOST_HCTL_TOGGLES_MASK); } /**************************************************************************** * Name: max3421e_transfer_status * * Description: * Get the end-of-transfer status from HRSLT register. * * REVISIT: Currently NAKs are treated as errors. A NAK on the first * packet can probably be treated that way. But not NAKs after the * transfer is in progress. We should also need to reset the peripheral * in that case. Better to try and retry here within the driver. * * Returned value: * OK - Transfer successful * -EAGAIN - If devices NAKs the transfer. * -EPERM - If the endpoint stalls * -BUSY - The transfer is not complete * -EIO - Other, undecoded error * * Assumptions: * The SPI bus is locked. * ****************************************************************************/ static int max3421e_transfer_status(FAR struct max3421e_usbhost_s *priv) { uint8_t regval; int ret; /* Get the result of the transfer from the HRSLT register */ regval = max3421e_getreg(priv, MAX3421E_USBHOST_HRSL); /* Make the error result to something that the world knows about */ switch (regval & USBHOST_HRSL_HRSLT_MASK) { case USBHOST_HRSL_HRSLT_SUCCESS: ret = OK; break; case USBHOST_HRSL_HRSLT_BUSY: ret = -EBUSY; break; case USBHOST_HRSL_HRSLT_NAK: ret = -EAGAIN; break; case USBHOST_HRSL_HRSLT_STALL: ret = -EPERM; break; default: ret = -EIO; break; } return ret; } /**************************************************************************** * Name: max3421e_transfer_terminate * * Description: * Terminate a IN or OUT transfer due to an error (or because a zero- * length OUT transfer occurred). * * Returned value: * OK - Transfer successful * -EAGAIN - If devices NAKs the transfer. * -EPERM - If the endpoint stalls * -BUSY - The transfer is not complete * -EIO - Other, undecoded error * * Assumptions: * The SPI bus is locked. * ****************************************************************************/ static void max3421e_transfer_terminate(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, int result) { /* Disable further SNDBAV, RCVDAV or HXFRDN interrupts */ max3421e_int_disable(priv, USBHOST_HIRQ_SNDBAVIRQ | USBHOST_HIRQ_RCVDAVIRQ | USBHOST_HIRQ_HXFRDNIRQ); /* Save the endpoint toggle settings. * * REVISIT: The MAX4321E sends fixed DATA0 and DATA1 PID tokens for the * various stages of a CONTROL transfer, regardless of the setting of * the internal data toggle. */ max3421e_save_toggles(priv, chan); /* Wake up any waiters for the end of transfer event */ DEBUGASSERT(priv->waiter != NULL); max3421e_chan_wakeup(priv, chan, -result); } /**************************************************************************** * Name: max3421e_put_sndfifo * * Description: * Copy data from the user-provided buffer into the SNDFIFO. * * Assumptions: * The SPI bus is locked. * There is data to be remaining to be sent. * The caller has already set up for the wait event. * ****************************************************************************/ static void max3421e_put_sndfifo(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan) { uint16_t committed; uint16_t wrsize; uint8_t maxpacket; int i; DEBUGASSERT(priv != NULL && chan != NULL); /* The SNDFIFO is double buffered. We may load up to MAX3421E_SNDFIFO_SIZE * into one buffer. After loading the SNDFIFO buffer, the write the SNDBC * (Send Byte Count) register with the number of bytes loaded. The * MAX3421E will clear SNDBAVIRQ (Send Buffer Available IRQ) and commit * the FIFO to USB transmission. * * If the other buffer is available when SNDBC is written, the MAX3421E * will clear SNDBAVIRQ then immediately set it to indicate * availability of the second buffer. * * The CPU should load the SNDFIFO only when a SNDBAVIRQ = 1. */ maxpacket = chan->maxpacket; DEBUGASSERT(maxpacket <= MAX3421E_SNDFIFO_SIZE); committed = priv->xfrd + (uint16_t)priv->inflight; DEBUGASSERT(committed < priv->buflen); for (i = 0; i < 2 && committed < priv->buflen && (max3421e_int_status(priv) & USBHOST_HIRQ_SNDBAVIRQ) != 0; i++) { /* Get the size of the biggest thing that we can put in the current * SNDFIFO buffer. */ wrsize = priv->buflen - committed; if (wrsize > maxpacket) { wrsize = maxpacket; } /* Write packet into the SNDFIFO. */ max3421e_sndblock(priv, MAX3421E_USBHOST_SNDFIFO, priv->buffer + committed, wrsize); /* Write the byte count to the SNDBC register */ max3421e_putreg(priv, MAX3421E_USBHOST_SNDBC, wrsize); /* Send the OUT token */ max3421e_putreg(priv, MAX3421E_USBHOST_HXFR, USBHOST_HXFR_TOKEN_OUT | chan->epno); /* Increment the count of bytes "in-flight" in the SNDFIFO */ priv->inflight += wrsize; committed = priv->xfrd + wrsize; } /* Enable the SNDFIFO interrupt to handle the completion/continuation * of transfer. Enable the HXFRDNIRQ to catch NAKs and transfer errors. */ priv->xfrtype = HXFRDN_SNDFIFO; max3421e_int_enable(priv, USBHOST_HIRQ_SNDBAVIRQ | USBHOST_HIRQ_HXFRDNIRQ); } /**************************************************************************** * Name: max3421e_send_continue * * Description: * Continue the send operation started by max3421e_send_start(). If * max3421e_put_sndfifo() was unable to load the entire outgoing buffer * into the SNDFIFO, it enabled SNDBAV interrupt. * * When the SNDBAV interrupt occurred, max3421e_irqwork() disabled that * interrupt and called this function in order to continue that long send * operations. * * Assumptions: * The SPI bus is locked. * The SNDBAV interrupt has been disabled. * ****************************************************************************/ static void max3421e_send_continue(FAR struct max3421e_usbhost_s *priv) { FAR struct max3421e_chan_s *chan; int result; uint8_t xfrd; DEBUGASSERT(priv != NULL && priv->waiter != NULL); chan = priv->waiter; /* Check the result of a transfer */ result = max3421e_transfer_status(priv); if (result < 0) { /* Terminate the transfer on any error. */ max3421e_transfer_terminate(priv, chan, result); return; } /* Update the number of bytes transferred. We have to be a little clever * here: We do not keep track of the number of bytes sent in each of the * SNDFIFO buffers, rather only the outstanding number of buffered * transferred, 'inflight'. However, we know that all transfers will be * the max packet size (other than the last one perhaps). */ /* If the number inflight is strictly greater than the maxpacket size, then * we can infer that the transfer that just completed was maxpacket size. */ if (priv->inflight > chan->maxpacket) { xfrd = chan->maxpacket; } /* If the number inflight is less than chan->maxpacket, then that must have * been the last packet of the transfer. */ else if (priv->inflight < chan->maxpacket) { xfrd = priv->inflight; DEBUGASSERT((priv->xfrd + xfrd) == priv->buflen); } /* If the number inflight is exactly the maxpacket size and the transfer * is not yet finished, then the the transfer size must have been max * packet size. */ else if ((priv->xfrd + chan->maxpacket) >= priv->buflen) { xfrd = priv->buflen - priv->xfrd; DEBUGASSERT((priv->xfrd + xfrd) == priv->buflen); } /* Otherwise, the transfer must have been the max packet size */ else { xfrd = chan->maxpacket; } priv->xfrd += xfrd; priv->inflight -= xfrd; /* Check for the end of transfer */ if (priv->xfrd >= priv->buflen) { /* Successful end-of-transfer */ max3421e_transfer_terminate(priv, chan, OK); } else { /* No.. there are more bytes to be sent */ max3421e_put_sndfifo(priv, chan); } } /**************************************************************************** * Name: max3421e_send_start * * Description: * Start at transfer on the selected IN or OUT channel. * ****************************************************************************/ static void max3421e_send_start(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan) { max3421e_pktdump("Sending", priv->buffer, priv->buflen); /* Set up the initial state of the transfer */ usbhost_vtrace2(MAX3421E_VTRACE2_STARTTRANSFER1, chan->chidx, priv->buflen); priv->result = EBUSY; priv->inflight = 0; priv->xfrd = 0; /* Make sure the peripheral address is correct */ max3421e_putreg(priv, MAX3421E_USBHOST_PERADDR, chan->funcaddr); /* Checkout for zero length packet */ if (priv->buflen > 0) { /* No.. we need to copy the outgoing data into SNDFIFO. */ max3421e_restore_toggles(priv, chan); /* Then load the data into the SNDFIFO and start the transfer */ max3421e_put_sndfifo(priv, chan); } else { /* Write the zero byte count to the SNDBC register */ max3421e_putreg(priv, MAX3421E_USBHOST_SNDBC, 0); /* Send the OUT token */ max3421e_putreg(priv, MAX3421E_USBHOST_HXFR, USBHOST_HXFR_TOKEN_OUT | chan->epno); /* Enable the HXFRDNIRQ to catch completion of the ZLP. */ priv->xfrtype = HXFRDN_SNDZLP; max3421e_int_enable(priv, USBHOST_HIRQ_HXFRDNIRQ); } } /**************************************************************************** * Name: max3421e_out_transfer * * Description: * Transfer the 'buflen' bytes in 'buffer' through an OUT channel. * * Assumptions: * The SPI is not locked. This function is called only from the TRANSFER * interface and must manage the SPI lock itself. The lock, for example, * must be relinquished before waiting. * ****************************************************************************/ static ssize_t max3421e_out_transfer(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, FAR uint8_t *buffer, size_t buflen) { clock_t start; clock_t elapsed; size_t xfrlen; ssize_t xfrd; int ret; /* Loop until the transfer completes (i.e., buflen is decremented to zero) * or a fatal error occurs (any error other than a simple NAK) */ start = clock_systime_ticks(); xfrd = 0; while (buflen > 0) { /* Transfer one packet at a time. The hardware is capable of queueing * multiple OUT packets, but I just haven't figured out how to handle * the case where a single OUT packet in the group is NAKed. */ xfrlen = MIN(chan->maxpacket, buflen); priv->buffer = buffer; priv->buflen = xfrlen; priv->xfrd = 0; /* Set up for the wait BEFORE starting the transfer */ ret = max3421e_chan_waitsetup(priv, chan); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_DEVDISCONN1, 0); return (ssize_t)ret; } /* Set up for the transfer based on the direction and the endpoint */ max3421e_lock(priv); ret = max3421e_out_setup(priv, chan); max3421e_unlock(priv); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_OUTSETUP_FAIL1, -ret); return (ssize_t)ret; } /* Wait for the transfer to complete and get the result */ ret = max3421e_chan_wait(priv, chan); /* Handle transfer failures */ if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_TRANSFER_FAILED1, ret); /* Check for a special case: If (1) the transfer was NAKed and (2) * no SNDFIFO empty or Rx FIFO not-empty event occurred, then we * should be able to just flush the Rx and SNDFIFOs and try again. * We can detect this latter case because then the transfer buffer * pointer and buffer size will be unaltered. */ elapsed = clock_systime_ticks() - start; if (ret != -EAGAIN || /* Not a NAK condition OR */ elapsed >= MAX3421E_DATANAK_DELAY || /* Timeout has elapsed OR */ priv->xfrd > 0) /* Data has been partially transferred */ { /* Break out and return the error */ usbhost_trace1(MAX3421E_TRACE1_CHANWAIT_FAIL, -ret); return (ssize_t)ret; } /* Get the device a little time to catch up. Then retry the * transfer using the same buffer pointer and length. */ nxsig_usleep(20 * 1000); } else { /* Successfully transferred. Update the buffer pointer/length */ buffer += xfrlen; buflen -= xfrlen; xfrd += priv->xfrd; } } return xfrd; } /**************************************************************************** * Name: max3421e_out_next * * Description: * Initiate the next of a sequence of asynchronous transfers. * * Assumptions: * This function is always called from an interrupt handler * ****************************************************************************/ #ifdef CONFIG_USBHOST_ASYNCH static void max3421e_out_next(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan) { usbhost_asynch_t callback; FAR void *arg; ssize_t nbytes; int result; int ret; /* Is the full transfer complete? Did the last chunk transfer OK? */ result = -(int)priv->result; if (priv->xfrd < priv->buflen && result == OK) { /* Yes.. Set up for the next transfer based on the direction and the * endpoint type */ ret = max3421e_out_setup(priv, chan); if (ret >= 0) { return; } usbhost_trace1(MAX3421E_TRACE1_OUTSETUP_FAIL2, -ret); result = ret; } /* The transfer is complete, with or without an error */ usbhost_vtrace1(MAX3421E_VTRACE1_TRANSFER_COMPLETE, result); /* Extract the callback information */ callback = priv->callback; arg = priv->arg; nbytes = priv->xfrd; priv->callback = NULL; priv->arg = NULL; priv->xfrd = 0; /* Then perform the callback */ if (result < 0) { nbytes = (ssize_t)result; } callback(arg, nbytes); } #endif /**************************************************************************** * Name: max3421e_out_asynch * * Description: * Initiate the first of a sequence of asynchronous transfers. * * Assumptions: * The SPI is not locked. This function is called only from the ASYNCH * interface and must manage the SPI lock itself. The lock, for example, * must be relinquished before waiting. * ****************************************************************************/ #ifdef CONFIG_USBHOST_ASYNCH static int max3421e_out_asynch(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, FAR uint8_t *buffer, size_t buflen, usbhost_asynch_t callback, FAR void *arg) { int ret; /* Set up for the transfer BEFORE starting the first transfer */ priv->buffer = buffer; priv->buflen = buflen; priv->xfrd = 0; ret = max3421e_chan_asynchsetup(priv, chan, callback, arg); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_ASYNCHSETUP_FAIL1, -ret); return ret; } /* Set up for the transfer based on the direction and the endpoint type */ max3421e_lock(priv); ret = max3421e_out_setup(priv, chan); max3421e_unlock(priv); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_OUTSETUP_FAIL3, -ret); } /* And return with the transfer pending */ return ret; } #endif /**************************************************************************** * Name: max3421e_ctrl_sendsetup * * Description: * Send an IN/OUT SETUP packet. * * Assumptions: * The SPI is not locked. This function is called only from the CTRLIN and * CTRLOUT interfaces and must manage the SPI lock itself. The lock, for * example, must be relinquished before waiting. * ****************************************************************************/ static int max3421e_ctrl_sendsetup(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, FAR const struct usb_ctrlreq_s *req) { clock_t start; clock_t elapsed; int ret; /* Loop while the device reports NAK (and a timeout is not exceeded */ start = clock_systime_ticks(); do { /* Send the SETUP packet */ priv->buffer = (FAR uint8_t *)req; priv->buflen = USB_SIZEOF_CTRLREQ; priv->inflight = 0; priv->xfrd = 0; priv->result = EBUSY; /* Set up for the wait BEFORE starting the transfer */ ret = max3421e_chan_waitsetup(priv, chan); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_DEVDISCONN2, 0); return ret; } /* Make sure the peripheral address is correct */ max3421e_lock(priv); max3421e_putreg(priv, MAX3421E_USBHOST_PERADDR, chan->funcaddr); /* Write packet into the SUDFIFO. */ max3421e_sndblock(priv, MAX3421E_USBHOST_SUDFIFO, priv->buffer, priv->buflen); /* Send the SETUP token (always EP0) */ max3421e_putreg(priv, MAX3421E_USBHOST_HXFR, USBHOST_HXFR_TOKEN_SETUP); /* Increment the count of bytes "in-flight" in the SNDFIFO */ priv->inflight = priv->buflen; /* The MAX3421E waits 18 bit times for the device to respond or time * out then terminates the transfer by asserting the HXFRDNIRQ and * updating the HSRLT bits. NOTE: The USB spec says that a * peripheral must always ACK a SETUP packet. */ priv->xfrtype = HXFRDN_SETUP; max3421e_int_enable(priv, USBHOST_HIRQ_HXFRDNIRQ); /* Wait for the transfer to complete */ max3421e_unlock(priv); ret = max3421e_chan_wait(priv, chan); /* Return on success and for all failures other than EAGAIN. EAGAIN * means that the device NAKed the SETUP command and that we should * try a few more times. NOTE: The USB spec says that a peripheral * must always ACK a SETUP packet. */ if (ret != -EAGAIN) { /* Output some debug information if the transfer failed */ if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_TRANSFER_FAILED2, ret); } /* Return the result in any event */ return ret; } /* Get the elapsed time (in frames) */ elapsed = clock_systime_ticks() - start; } while (elapsed < MAX3421E_SETUP_DELAY); return -ETIMEDOUT; } /**************************************************************************** * Name: max3421e_ctrl_senddata * * Description: * Send data in the data phase of an OUT control transfer. Or send status * in the status phase of an IN control transfer * * Assumptions: * The SPI is not locked. This function is called only from the CTRLOUT * interface and must manage the SPI lock itself. The lock, for example, * must be relinquished before waiting. * ****************************************************************************/ static int max3421e_ctrl_senddata(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, FAR uint8_t *buffer, unsigned int buflen) { int ret; /* Save buffer information */ chan->in = false; priv->xfrd = 0; priv->buffer = buffer; priv->buflen = buflen; /* The MAX4321E sends fixed DATA0 and DATA1 PID tokens for the various * stages of a CONTROL transfer, regardless of the setting of the internal * data toggle. */ /* Set up for the wait BEFORE starting the transfer */ ret = max3421e_chan_waitsetup(priv, chan); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_DEVDISCONN3, 0); return ret; } /* Start the transfer */ max3421e_lock(priv); max3421e_send_start(priv, chan); max3421e_unlock(priv); /* Wait for the transfer to complete and return the result */ return max3421e_chan_wait(priv, chan); } /**************************************************************************** * Name: max3421e_ctrl_recvdata * * Description: * Receive data in the data phase of an IN control transfer. Or receive * status in the status phase of an OUT control transfer * * Assumptions: * The SPI is not locked. This function is called only from the CTRLIN * interface and must manage the SPI lock itself. The lock, for example, * must be relinquished before waiting. * ****************************************************************************/ static int max3421e_ctrl_recvdata(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, FAR uint8_t *buffer, unsigned int buflen) { int ret; /* Save buffer information */ chan->in = true; priv->buffer = buffer; priv->buflen = buflen; priv->xfrd = 0; /* The MAX4321E sends fixed DATA0 and DATA1 PID tokens for the various * stages of a CONTROL transfer, regardless of the setting of the internal * data toggle. */ /* Set up for the wait BEFORE starting the transfer */ ret = max3421e_chan_waitsetup(priv, chan); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_DEVDISCONN4, 0); return ret; } /* Start the transfer */ max3421e_lock(priv); max3421e_recv_start(priv, chan); max3421e_unlock(priv); /* Wait for the transfer to complete and return the result */ return max3421e_chan_wait(priv, chan); } /**************************************************************************** * Name: max3421e_ctrl_sendstatus * * Description: * Send status to complete the status phase of a CTRLIN transfer. * * Assumptions: * The SPI is not locked. This function is called only from the CTRLIN * interface and must manage the SPI lock itself. The lock, for example, * must be relinquished before waiting. * ****************************************************************************/ static int max3421e_ctrl_sendstatus(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan) { /* Set up the initial state of the transfer */ usbhost_vtrace2(MAX3421E_VTRACE2_SENDSTATUS, chan->chidx, priv->buflen); priv->result = EBUSY; priv->inflight = 0; priv->buflen = 0; priv->xfrd = 0; /* Make sure the peripheral address is correct */ max3421e_lock(priv); max3421e_putreg(priv, MAX3421E_USBHOST_PERADDR, chan->funcaddr); /* Write the zero byte count to the SNDBC register */ max3421e_putreg(priv, MAX3421E_USBHOST_SNDBC, 0); /* Send the HS-OUT token */ max3421e_putreg(priv, MAX3421E_USBHOST_HXFR, USBHOST_HXFR_TOKEN_OUTHS | chan->epno); /* Enable the HXFRDNIRQ to catch completion of the ZLP. */ priv->xfrtype = HXFRDN_SNDZLP; max3421e_int_enable(priv, USBHOST_HIRQ_HXFRDNIRQ); max3421e_unlock(priv); /* Wait for the transfer to complete and return the result */ return max3421e_chan_wait(priv, chan); } /**************************************************************************** * Name: max3421e_ctrl_recvstatus * * Description: * Receive status to complete the status phase of a CTRLOUT transfer. * * Assumptions: * The SPI is not locked. This function is called only from the CTRLOUT * interface and must manage the SPI lock itself. The lock, for example, * must be relinquished before waiting. * ****************************************************************************/ static int max3421e_ctrl_recvstatus(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan) { max3421e_pktdump("Sending", priv->buffer, priv->buflen); /* Set up the initial state of the transfer */ usbhost_vtrace2(MAX3421E_VTRACE2_RECVSTATUS, chan->chidx, priv->buflen); priv->result = EBUSY; priv->inflight = 0; priv->buflen = 0; priv->xfrd = 0; /* Make sure the peripheral address is correct */ max3421e_lock(priv); max3421e_putreg(priv, MAX3421E_USBHOST_PERADDR, chan->funcaddr); /* Send the HS-IN token. */ max3421e_putreg(priv, MAX3421E_USBHOST_HXFR, USBHOST_HXFR_TOKEN_INHS | chan->epno); /* Enable the RCVFIFO interrupt to handle the completion/continuation * of transfer. Enable the HXFRDNIRQ to catch NAKs and transfer * errors. */ priv->xfrtype = HXFRDN_RCVFIFO; max3421e_int_enable(priv, USBHOST_HIRQ_RCVDAVIRQ | USBHOST_HIRQ_HXFRDNIRQ); max3421e_unlock(priv); /* Wait for the transfer to complete and return the result */ return max3421e_chan_wait(priv, chan); } /**************************************************************************** * Name: max3421e_in_setup * * Description: * Initiate an IN transfer on an bulk, interrupt, or isochronous pipe. * ****************************************************************************/ static int max3421e_in_setup(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan) { /* Set up for the transfer based on the direction and the endpoint type */ switch (chan->eptype) { default: case USB_EP_ATTR_XFER_CONTROL: /* Control */ { /* This kind of transfer on control endpoints other than EP0 are * not currently supported */ return -ENOSYS; } case USB_EP_ATTR_XFER_ISOC: /* Isochronous */ { /* Set up the IN DATA0 PID */ usbhost_vtrace2(MAX3421E_VTRACE2_ISOCIN, chan->chidx, priv->buflen); chan->toggles = USBHOST_HCTL_RCVTOG0 | USBHOST_HCTL_SNDTOG0; } break; case USB_EP_ATTR_XFER_BULK: /* Bulk */ { usbhost_vtrace2(MAX3421E_VTRACE2_BULKIN, chan->chidx, priv->buflen); } break; case USB_EP_ATTR_XFER_INT: /* Interrupt */ { usbhost_vtrace2(MAX3421E_VTRACE2_INTRIN, chan->chidx, priv->buflen); } break; } /* Start the transfer. */ max3421e_recv_start(priv, chan); return OK; } /**************************************************************************** * Name: max3421e_out_setup * * Description: * Initiate an OUT transfer on an bulk, interrupt, or isochronous pipe. * ****************************************************************************/ static int max3421e_out_setup(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan) { /* Set up for the transfer based on the direction and the endpoint type */ switch (chan->eptype) { default: case USB_EP_ATTR_XFER_CONTROL: /* Control */ { /* This kind of transfer on control endpoints other than EP0 are * not currently supported */ return -ENOSYS; } case USB_EP_ATTR_XFER_ISOC: /* Isochronous */ { /* Set up the IN DATA0 PID */ usbhost_vtrace2(MAX3421E_VTRACE2_ISOCOUT, chan->chidx, priv->buflen); chan->toggles = USBHOST_HCTL_RCVTOG0 | USBHOST_HCTL_SNDTOG0; } break; case USB_EP_ATTR_XFER_BULK: /* Bulk */ { usbhost_vtrace2(MAX3421E_VTRACE2_BULKOUT, chan->chidx, priv->buflen); } break; case USB_EP_ATTR_XFER_INT: /* Interrupt */ { usbhost_vtrace2(MAX3421E_VTRACE2_INTROUT, chan->chidx, priv->buflen); } break; } /* Start the transfer */ max3421e_send_start(priv, chan); return OK; } /**************************************************************************** * Name: max3421e_get_rcvfifo * * Description: * Copy data from the RCVFIFO to the user-provided buffer. * * The RCVFIFO is double buffered. If another packet is available in the * other buffer, the MAX3421E will immediately re-assert RCVDAVIRQ and we * will catch that by interrupt handling logic. * * Assumptions: * The SPI bus is locked. * ****************************************************************************/ static uint8_t max3421e_get_rcvfifo(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan) { uint16_t remaining; uint8_t navail; uint8_t nrcvd; /* Get the number of bytes available in the RCVFIFO */ navail = max3421e_getreg(priv, MAX3421E_USBHOST_RCVBC); /* Get the number that will fit into the user-provided buffer */ remaining = priv->buflen - priv->xfrd; if (navail > remaining) { nrcvd = remaining; } else { nrcvd = navail; } /* Read the received data into the user-buffer. */ max3421e_recvblock(priv, MAX3421E_USBHOST_RCVFIFO, priv->buffer + priv->xfrd, nrcvd); /* Update the number of bytes transferred */ priv->xfrd += nrcvd; /* Discard any byte remaining in the RCVFIFO */ /* REVISIT: Is this necessary? Or the MAX3421E automatically discard any * unread data? */ #if 0 if (nrcvd < navail) { max3421e_discard() } #endif return nrcvd; } /**************************************************************************** * Name: max3421e_recv_restart * * Description: * Start/Re-start the transfer on the selected IN or OUT channel. * ****************************************************************************/ static void max3421e_recv_restart(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan) { /* Send the IN token. */ max3421e_putreg(priv, MAX3421E_USBHOST_HXFR, USBHOST_HXFR_TOKEN_IN | chan->epno); /* Enable the RCVFIFO interrupt to handle the completion/continuation * of transfer. Enable the HXFRDNIRQ to catch NAKs and transfer * errors. */ priv->xfrtype = HXFRDN_RCVFIFO; max3421e_int_enable(priv, USBHOST_HIRQ_RCVDAVIRQ | USBHOST_HIRQ_HXFRDNIRQ); } /**************************************************************************** * Name: max3421e_recv_continue * * Description: * Continue the receive operation started by max3421e_recv_start(). This * function is called from the interrupt handler worker when an interrupt * indicates that new, incoming data is available in the RCVFIFO (RCVDAV) * * When the RCBBAV interrupt occurred, max3421e_irqwork() disabled that * interrupt and called this function in order to handle the receipt of * data * * Assumptions: * The SPI bus is locked. * The RCVDAV interrupt has been disabled. * ****************************************************************************/ static void max3421e_recv_continue(FAR struct max3421e_usbhost_s *priv) { FAR struct max3421e_chan_s *chan; uint8_t nrcvd; int result; DEBUGASSERT(priv != NULL && priv->waiter != NULL); chan = priv->waiter; /* Check the result of a transfer */ result = max3421e_transfer_status(priv); if (result < 0) { /* Terminate the transfer on any error. */ max3421e_transfer_terminate(priv, chan, result); return; } /* Transfer the data from the RCVFIFO to the user buffer */ nrcvd = max3421e_get_rcvfifo(priv, chan); /* A partial or zero-length packet is an indication that the transfer * completed early. Terminate the transfer in those cases OR if all * of the requested data has been received */ if (nrcvd < chan->maxpacket || priv->xfrd >= priv->buflen) { max3421e_transfer_terminate(priv, chan, OK); } /* If not all of the data has been received, then setup to receive * another packet. */ else { max3421e_recv_restart(priv, chan); } } /**************************************************************************** * Name: max3421e_recv_start * * Description: * Start at transfer on the selected IN or OUT channel. * * Assumptions: * The caller has the SPI locked. * ****************************************************************************/ static void max3421e_recv_start(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan) { max3421e_pktdump("Sending", priv->buffer, priv->buflen); /* Set up the initial state of the transfer */ usbhost_vtrace2(MAX3421E_VTRACE2_STARTTRANSFER2, chan->chidx, priv->buflen); priv->result = EBUSY; priv->inflight = 0; priv->xfrd = 0; /* Make sure the peripheral address is correct */ max3421e_putreg(priv, MAX3421E_USBHOST_PERADDR, chan->funcaddr); /* Start the transfer. */ max3421e_recv_restart(priv, chan); } /**************************************************************************** * Name: max3421e_in_transfer * * Description: * Transfer 'buflen' bytes into 'buffer' from an IN channel. * * Assumptions: * The SPI is not locked. This function is called only from the TRANSFER * interface and must manage the SPI lock itself. The lock, for example, * must be relinquished before waiting. * ****************************************************************************/ static ssize_t max3421e_in_transfer(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, FAR uint8_t *buffer, size_t buflen) { clock_t start; ssize_t xfrd; int ret; /* Loop until the transfer completes (i.e., buflen is decremented to zero) * or a fatal error occurs any error other than a simple NAK. NAK would * simply indicate the end of the transfer (short-transfer). */ priv->buffer = buffer; priv->buflen = buflen; priv->xfrd = 0; xfrd = 0; start = clock_systime_ticks(); while (priv->xfrd < priv->buflen) { /* Set up for the wait BEFORE starting the transfer */ ret = max3421e_chan_waitsetup(priv, chan); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_DEVDISCONN5, 0); return (ssize_t)ret; } /* Set up for the transfer based on the direction and the endpoint */ max3421e_lock(priv); ret = max3421e_in_setup(priv, chan); max3421e_unlock(priv); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_INSETUP_FAIL1, -ret); return (ssize_t)ret; } /* Wait for the transfer to complete and get the result */ ret = max3421e_chan_wait(priv, chan); /* EAGAIN indicates that the device NAKed the transfer. */ if (ret < 0) { /* The transfer failed. If we received a NAK, return all data * buffered so far (if any). */ if (ret == -EAGAIN) { /* Was data buffered prior to the NAK? */ if (xfrd > 0) { /* Yes, return the amount of data received. * * REVISIT: This behavior is clearly correct for CDC/ACM * bulk transfers and HID interrupt transfers. But I am * not so certain for MSC bulk transfers which, I think, * could have NAKed packets in the middle of a transfer. */ return xfrd; } else { useconds_t delay; /* Get the elapsed time. Has the timeout elapsed? * if not then try again. */ clock_t elapsed = clock_systime_ticks() - start; if (elapsed >= MAX3421E_DATANAK_DELAY) { /* Timeout out... break out returning the NAK as * as a failure. */ return (ssize_t)ret; } /* Wait a bit before retrying after a NAK. */ if (chan->eptype == USB_EP_ATTR_XFER_INT) { /* For interrupt (and isochronous) endpoints, the * polling rate is determined by the bInterval field * of the endpoint descriptor (in units of frames * which we treat as milliseconds here). */ if (chan->interval > 0) { /* Convert the delay to units of microseconds */ delay = (useconds_t)chan->interval * 1000; } else { /* Out of range! For interrupt endpoints, the valid * range is 1-255 frames. Assume one frame. */ delay = 1000; } } else { /* For Isochronous endpoints, bInterval must be 1. * Bulk endpoints do not have a polling interval. * Rather, the should wait until data is received. * * REVISIT: For bulk endpoints this 1 msec delay is * only intended to give the CPU a break from the bulk * EP tight polling loop. But are there performance * issues? */ delay = 1000; } /* Wait for the next polling interval. For interrupt and * isochronous endpoints, this is necessary to assure the * polling interval. It is used in other cases only to * prevent the polling from consuming too much CPU * bandwidth. * * Small delays could require more resolution than is * provided by the system timer. For example, if the * system timer resolution is 10MS, then nxsig_usleep(1000) * will actually request a delay 20MS (due to both * quantization and rounding). * * REVISIT: So which is better? To ignore tiny delays and * hog the system bandwidth? Or to wait for an excessive * amount and destroy system throughput? */ if (delay > CONFIG_USEC_PER_TICK) { nxsig_usleep(delay - CONFIG_USEC_PER_TICK); } } } else { /* Some unexpected, fatal error occurred. */ usbhost_trace1(MAX3421E_TRACE1_TRANSFER_FAILED3, -ret); /* Break out and return the error */ return (ssize_t)ret; } } else { /* Successfully received another chunk of data... add that to the * running total. Then continue reading until we read 'buflen' * bytes of data or until the devices NAKs (implying a short * packet). */ xfrd += priv->xfrd; } } return xfrd; } /**************************************************************************** * Name: max3421e_in_next * * Description: * Initiate the next of a sequence of asynchronous transfers. * * Assumptions: * This function is always called from an interrupt handler * ****************************************************************************/ #ifdef CONFIG_USBHOST_ASYNCH static void max3421e_in_next(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan) { usbhost_asynch_t callback; FAR void *arg; ssize_t nbytes; int result; int ret; /* Is the full transfer complete? Did the last chunk transfer OK? */ result = -(int)priv->result; if (priv->xfrd < priv->buflen && result == OK) { /* Yes.. Set up for the next transfer based on the direction and the * endpoint type */ ret = max3421e_in_setup(priv, chan); if (ret >= 0) { return; } usbhost_trace1(MAX3421E_TRACE1_INSETUP_FAIL2, -ret); result = ret; } /* The transfer is complete, with or without an error */ usbhost_vtrace2(MAX3421E_VTRACE2_XFRCOMPLETE, (unsigned int)ep, buflen); /* Extract the callback information */ callback = priv->callback; arg = priv->arg; nbytes = priv->xfrd; priv->callback = NULL; priv->arg = NULL; priv->xfrd = 0; /* Then perform the callback */ if (result < 0) { nbytes = (ssize_t)result; } callback(arg, nbytes); } #endif /**************************************************************************** * Name: max3421e_in_asynch * * Description: * Initiate the first of a sequence of asynchronous transfers. * * Assumptions: * The SPI is not locked. This function is called only from the ASYNCH * interface and must manage the SPI lock itself. The lock, for example, * must be relinquished before waiting. * ****************************************************************************/ #ifdef CONFIG_USBHOST_ASYNCH static int max3421e_in_asynch(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_chan_s *chan, FAR uint8_t *buffer, size_t buflen, usbhost_asynch_t callback, FAR void *arg) { int ret; /* Set up for the transfer BEFORE starting the first transfer */ priv->buffer = buffer; priv->buflen = buflen; priv->xfrd = 0; ret = max3421e_chan_asynchsetup(priv, chan, callback, arg); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_ASYNCHSETUP_FAIL2, -ret); return ret; } /* Set up for the transfer based on the direction and the endpoint type */ max3421e_lock(priv); ret = max3421e_in_setup(priv, chan); max3421e_unlock(priv); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_INSETUP_FAIL3, -ret); } /* And return with the transfer pending */ return ret; } #endif /**************************************************************************** * Name: max3421e_connect_event * * Description: * Handle a connection event. * ****************************************************************************/ static void max3421e_connect_event(FAR struct max3421e_usbhost_s *priv) { /* Were we previously disconnected? */ if (!priv->connected) { /* Yes.. then now we are connected */ usbhost_vtrace1(MAX3421E_VTRACE1_CONNECTED1, 0); priv->connected = true; priv->change = true; DEBUGASSERT(priv->smstate == SMSTATE_DETACHED); /* Notify any waiters */ priv->smstate = SMSTATE_ATTACHED; if (priv->pscwait) { nxsem_post(&priv->pscsem); priv->pscwait = false; } } } /**************************************************************************** * Name: max3421e_disconnect_event * * Description: * Handle a disconnection event. * ****************************************************************************/ static void max3421e_disconnect_event(FAR struct max3421e_usbhost_s *priv) { /* Were we previously connected? */ if (priv->connected) { /* Yes.. then we no longer connected */ usbhost_vtrace1(MAX3421E_VTRACE1_DISCONNECTED1, 0); /* Are we bound to a class driver? */ if (priv->rhport.hport.devclass) { /* Yes.. Disconnect the class driver */ CLASS_DISCONNECTED(priv->rhport.hport.devclass); priv->rhport.hport.devclass = NULL; } /* Re-Initialize Host for new Enumeration */ priv->smstate = SMSTATE_DETACHED; priv->connected = false; priv->change = true; priv->rhport.hport.speed = USB_SPEED_FULL; priv->rhport.hport.funcaddr = 0; /* Notify any waiters that there is a change in the connection state */ if (priv->pscwait) { nxsem_post(&priv->pscsem); priv->pscwait = false; } } } /**************************************************************************** * Name: max3421e_connected * * Description: * USB host port interrupt handler * ****************************************************************************/ static int max3421e_connected(FAR struct max3421e_usbhost_s *priv) { int ret; /* Stop SOF generation and reset the bus */ max3421e_busreset(priv); nxsig_sleep(1); /* Check for low- or full-speed and restart SOF generation. */ ret = max3421e_startsof(priv); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_DEVDISCONN7, -ret); return ret; } usbhost_vtrace1(MAX3421E_VTRACE1_CONNECTED3, 0); /* Were we previously disconnected? */ max3421e_connect_event(priv); return OK; } /**************************************************************************** * Name: max3421e_disconnected * * Description: * USB disconnect detected interrupt handler * ****************************************************************************/ static void max3421e_disconnected(FAR struct max3421e_usbhost_s *priv) { usbhost_vtrace1(MAX3421E_VTRACE1_DISCONNECTED2, 0); /* Disable the SOF generator */ max3421e_modifyreg(priv, MAX3421E_USBHOST_MODE, USBHOST_MODE_SOFKAENAB, 0); /* Handle the disconnection event */ max3421e_disconnect_event(priv); } /**************************************************************************** * Name: max3421e_irqwork * * Description: * MAX3421E interrupt worker. Perform MAX3421E interrupt processing on the * high priority work queue thread. Interrupts were disabled by the * interrupt handler when the interrupt was received. This worker must * re-enable MAX3421E interrupts when interrupt processing is complete. * ****************************************************************************/ static void max3421e_irqwork(FAR void *arg) { FAR struct max3421e_usbhost_s *priv; FAR const struct max3421e_lowerhalf_s *lower; uint8_t pending; int ret; priv = (FAR struct max3421e_usbhost_s *)arg; DEBUGASSERT(priv != NULL && priv->lower != NULL); lower = (FAR const struct max3421e_lowerhalf_s *)priv->lower; /* Get exclusive access to the SPI bus */ max3421e_lock(priv); /* Loop while there are pending interrupts to process. This loop may save * a little interrupt handling overhead. */ for (; ; ) { /* Get the unmasked bits in the GINT status */ pending = max3421e_int_status(priv); priv->lower->acknowledge(lower); /* Break out of the loop when there are no pending interrupts. */ if (pending == 0) { break; } /* Possibilities: * * HXFRDNIRQ - Host Transfer Done Interrupt * FRAMEIRQ - Frame Generator Interrupt * CONNIRQ - Peripheral Connect/Disconnect Interrupt * SUSDNIRQ - Suspend operation Done * SNDBAVIRQ - SNDFIFO is available * RCVDAVIRQ - RCVFIFO data available * RSMREQIRQ - Remote Wakeup Interrupt * BUSEVENTIRQ - Bus Reset or Bus Resume Interrupt * * Only CONNIRQ handled here. */ /* HXFRDNIRQ: Host transfer done interrupt */ if ((pending & USBHOST_HIRQ_HXFRDNIRQ) != 0 && (pending & USBHOST_HIRQ_SNDBAVIRQ) == 0 && (pending & USBHOST_HIRQ_RCVDAVIRQ) == 0) { int result; /* Disable further SNDBAV (or HXFRDN) interrupts */ max3421e_int_disable(priv, USBHOST_HIRQ_HXFRDNIRQ); /* Clear the pending HXFRDN interrupt */ max3421e_int_clear(priv, USBHOST_HIRQ_HXFRDNIRQ); /* Check transfer status and terminate the transfer if any error * occurred. */ result = max3421e_transfer_status(priv); if (result < 0 || priv->xfrtype == HXFRDN_SETUP || priv->xfrtype == HXFRDN_SNDZLP) { FAR struct max3421e_chan_s *chan = priv->waiter; DEBUGASSERT(chan != NULL); max3421e_transfer_terminate(priv, chan, result); } } /* CONNIRQ: Has a peripheral been connected or disconnected */ if ((pending & USBHOST_HIRQ_CONNIRQ) != 0) { /* Clear the pending CONNIRQ interrupt */ max3421e_int_clear(priv, USBHOST_HIRQ_CONNIRQ); /* Check if a peripheral device has been connected */ ret = max3421e_connected(priv); if (ret < 0) { /* No.. then a device must have been disconnected. */ max3421e_disconnected(priv); } } /* SNDBAV: The SNDFIFO is available */ else if ((pending & USBHOST_HIRQ_SNDBAVIRQ) != 0) { /* Disable further SNDBAV (or HXFRDN) interrupts */ max3421e_int_disable(priv, USBHOST_HIRQ_SNDBAVIRQ | USBHOST_HIRQ_HXFRDNIRQ); /* Clear the pending SNDBAV interrupt */ max3421e_int_clear(priv, USBHOST_HIRQ_SNDBAVIRQ); /* Finish long transfer, possibly re-enabling the SNDBAV * interrupt (see max3421e_send_start) */ max3421e_send_continue(priv); } /* RCVDAVIRQ: RCVFIFO data available */ else if ((pending & USBHOST_HIRQ_RCVDAVIRQ) != 0) { /* Disable further RCVDAV (or HXFRDN) interrupts */ max3421e_int_disable(priv, USBHOST_HIRQ_RCVDAVIRQ | USBHOST_HIRQ_HXFRDNIRQ); /* Clear the pending RCVDAV interrupt. The RCVFIFO is double * buffered. If another packet is available in the other buffer, * the MAX3421E will immediately re-assert RCVDAVIRQ and we * will catch that the next time through this loop. */ max3421e_int_clear(priv, USBHOST_HIRQ_RCVDAVIRQ); /* Handle the receipt of data */ max3421e_recv_continue(priv); } } /* Re-enable interrupts */ lower->enable(lower, true); max3421e_unlock(priv); } /**************************************************************************** * Name: max3421e_interrupt * * Description: * MAX3421E interrupt handler. This interrupt handler simply defers * interrupt processing to the high priority work queue thread. This is * necessary because we cannot perform interrupt/DMA driven SPI accesses * from an interrupt handler. * ****************************************************************************/ static int max3421e_interrupt(int irq, FAR void *context, FAR void *arg) { FAR struct max3421e_usbhost_s *priv; FAR const struct max3421e_lowerhalf_s *lower; priv = (FAR struct max3421e_usbhost_s *)arg; DEBUGASSERT(priv != NULL && priv->lower != NULL); lower = (FAR const struct max3421e_lowerhalf_s *)priv->lower; /* Disable further interrupts until work associated with this interrupt * has been processed. */ lower->enable(lower, false); /* And defer interrupt processing to the high priority work queue thread */ work_queue(LPWORK, &priv->irqwork, max3421e_irqwork, priv, 0); return OK; } /**************************************************************************** * Name: max3421e_int_enable, max3421e_int_disable, max3421e_int_status, and * max3421e_int_wait * * Description: * Respectively enable, disable, or get status of the USB host interrupt * (HIRQ) and a mask of enabled interrupts. * * Input Parameters: * priv - Private state data * irqset - IRQ bits to be set (max3421e_int_status only) * * Returned Value: * The current unmasks interrupt status (max3421e_int_status only) * ****************************************************************************/ /* Enable a set of interrupts */ static inline void max3421e_int_enable(FAR struct max3421e_usbhost_s *priv, uint8_t irqset) { priv->irqset |= irqset; max3421e_putreg(priv, MAX3421E_USBHOST_HIEN, priv->irqset); } /* Disable a set of interrupts */ static inline void max3421e_int_disable(FAR struct max3421e_usbhost_s *priv, uint8_t irqset) { priv->irqset &= ~irqset; max3421e_putreg(priv, MAX3421E_USBHOST_HIEN, priv->irqset); } /* Get the set of pending interrupts */ static inline uint8_t max3421e_int_status(FAR struct max3421e_usbhost_s *priv) { return max3421e_getreg(priv, MAX3421E_USBHOST_HIRQ) & priv->irqset; } /* Clear a set of pending interrupts */ static inline void max3421e_int_clear(FAR struct max3421e_usbhost_s *priv, uint8_t irqset) { max3421e_putreg(priv, MAX3421E_USBHOST_HIRQ, irqset); } /* Wait until any interrupt from a set of interrupts occurs */ static void max3421e_int_wait(FAR struct max3421e_usbhost_s *priv, uint8_t irqset, unsigned int usec) { uint8_t regval; do { regval = max3421e_getreg(priv, MAX3421E_USBHOST_HIRQ); regval &= irqset; if (regval == 0 && usec > 0) { nxsig_usleep(usec); } } while (regval == 0); } /**************************************************************************** * Name: max3421e_wait * * Description: * Wait for a device to be connected or disconnected to/from a hub port. * * Input Parameters: * conn - The USB host connection instance obtained as a parameter from * the call to the USB driver initialization logic. * hport - The location to return the hub port descriptor that detected the * connection related event. * * Returned Value: * Zero (OK) is returned on success when a device is connected or * disconnected. This function will not return until either (1) a device is * connected or disconnect to/from any hub port or until (2) some failure * occurs. On a failure, a negated errno value is returned indicating the * nature of the failure * * Assumptions: * - Called from a single thread so no mutual exclusion is required. * - Never called from an interrupt handler. * ****************************************************************************/ static int max3421e_wait(FAR struct usbhost_connection_s *conn, FAR struct usbhost_hubport_s **hport) { FAR struct max3421e_connection_s *maxconn; FAR struct max3421e_usbhost_s *priv; struct usbhost_hubport_s *connport; int ret; maxconn = (FAR struct max3421e_connection_s *)conn; DEBUGASSERT(maxconn != NULL && maxconn->priv != NULL); priv = maxconn->priv; /* Loop until a change in connection state is detected */ for (; ; ) { /* We must have exclusive access to USB host hardware and structures */ ret = nxrmutex_lock(&priv->lock); if (ret < 0) { return ret; } /* Is there a change in the connection state of the single root hub * port? */ if (priv->change) { connport = &priv->rhport.hport; /* Yes. Remember the new state */ connport->connected = priv->connected; priv->change = false; /* And return the root hub port */ *hport = connport; usbhost_vtrace1(MAX3421E_VTRACE1_CONNECTED2, connport->connected); nxrmutex_unlock(&priv->lock); return OK; } #ifdef CONFIG_USBHOST_HUB /* Is a device connected to an external hub? */ if (priv->hport) { /* Yes.. return the external hub port */ connport = (struct usbhost_hubport_s *)priv->hport; priv->hport = NULL; *hport = connport; usbhost_vtrace1(MAX3421E_VTRACE1_HUB_CONNECTED, connport->connected); nxrmutex_unlock(&priv->lock); return OK; } #endif /* Wait for the next connection event */ priv->pscwait = true; nxrmutex_unlock(&priv->lock); ret = nxsem_wait_uninterruptible(&priv->pscsem); if (ret < 0) { return ret; } } } /**************************************************************************** * Name: max3421e_getspeed * * Description: * Get the speed of the connected device. * * Input Parameters: * priv - Driver private state structure * conn - The USB host connection instance obtained as a parameter from * the call to the USB driver initialization logic. * hport - The descriptor of the hub port that has the newly connected * device. * * Returned Value: * On success, zero (OK) is returned. On a failure, a negated errno value * is returned indicating the nature of the failure * * Assumptions: * The caller has the SPI bus locked. * ****************************************************************************/ static int max3421e_getspeed(FAR struct max3421e_usbhost_s *priv, FAR struct usbhost_connection_s *conn, FAR struct usbhost_hubport_s *hport) { int ret; DEBUGASSERT(conn != NULL && hport != NULL && hport->port == 0); /* Are we connected to a device? The caller should have called the wait() * method first to be assured that a device is connected. */ if (!priv->connected) { /* No, return an error */ usbhost_trace1(MAX3421E_TRACE1_DEVDISCONN6, 0); return -ENODEV; } DEBUGASSERT(priv->smstate == SMSTATE_ATTACHED); /* USB 2.0 spec says at least 50ms delay before port reset. We wait * 100ms. */ nxsig_usleep(100 * 1000); /* Make sure we are still connected */ if (!priv->connected) { /* No, return an error */ usbhost_trace1(MAX3421E_TRACE1_DEVDISCONN6, 0); nxrmutex_unlock(&priv->lock); return -ENODEV; } /* Stop SOF generation and reset the host port */ max3421e_busreset(priv); nxsig_sleep(1); /* Get the current device speed */ ret = max3421e_startsof(priv); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_DEVDISCONN8, -ret); } return ret; } /**************************************************************************** * Name: max3421e_enumerate * * Description: * Enumerate the connected device. As part of this enumeration process, * the driver will (1) get the device's configuration descriptor, (2) * extract the class ID info from the configuration descriptor, (3) call * usbhost_findclass() to find the class that supports this device, (4) * call the create() method on the struct usbhost_registry_s interface * to get a class instance, and finally (5) call the connect() method * of the struct usbhost_class_s interface. After that, the class is in * charge of the sequence of operations. * * Input Parameters: * conn - The USB host connection instance obtained as a parameter from * the call to the USB driver initialization logic. * hport - The descriptor of the hub port that has the newly connected * device. * * Returned Value: * On success, zero (OK) is returned. On a failure, a negated errno value * is returned indicating the nature of the failure * * Assumptions: * This function will *not* be called from an interrupt handler. * ****************************************************************************/ static int max3421e_enumerate(FAR struct usbhost_connection_s *conn, FAR struct usbhost_hubport_s *hport) { FAR struct max3421e_connection_s *maxconn; FAR struct max3421e_usbhost_s *priv; int ret; maxconn = (FAR struct max3421e_connection_s *)conn; DEBUGASSERT(maxconn != NULL && maxconn->priv != NULL); priv = maxconn->priv; /* We must have exclusive access to the USB host hardware and structures */ ret = nxrmutex_lock(&priv->lock); if (ret < 0) { return ret; } /* If this is a connection on the root hub, then we need to go to * little more effort to get the device speed. If it is a connection * on an external hub, then we already have that information. */ max3421e_lock(priv); #warning REVISIT: Isn't this already done? #ifdef CONFIG_USBHOST_HUB if (ROOTHUB(hport)) #endif { ret = max3421e_getspeed(priv, conn, hport); if (ret < 0) { nxrmutex_unlock(&priv->lock); return ret; } } /* Set enumeration data toggles */ max3421e_modifyreg(priv, MAX3421E_USBHOST_HCTL, USBHOST_HCTL_TOGGLES_MASK, USBHOST_HCTL_RCVTOG1 | USBHOST_HCTL_SNDTOG1); max3421e_unlock(priv); /* Then let the common usbhost_enumerate do the real enumeration. */ usbhost_vtrace1(MAX3421E_VTRACE1_ENUMERATE, 0); priv->smstate = SMSTATE_ENUM; ret = usbhost_enumerate(hport, &hport->devclass); /* The enumeration may fail either because of some HCD interfaces failure * or because the device class is not supported. In either case, we just * need to perform the disconnection operation and make ready for a new * enumeration. */ if (ret < 0) { /* Return to the disconnected state */ usbhost_trace1(MAX3421E_TRACE1_ENUMERATE_FAIL, -ret); max3421e_disconnect_event(priv); } /* Set post-enumeration data toggles (assuming success) */ max3421e_lock(priv); max3421e_modifyreg(priv, MAX3421E_USBHOST_HCTL, USBHOST_HCTL_TOGGLES_MASK, USBHOST_HCTL_RCVTOG0 | USBHOST_HCTL_SNDTOG0); max3421e_unlock(priv); nxrmutex_unlock(&priv->lock); return ret; } /**************************************************************************** * Name: max3421e_ep0configure * * Description: * Configure endpoint 0. This method is normally used internally by the * enumerate() method but is made available at the interface to support an * external implementation of the enumeration logic. * * Input Parameters: * drvr - The USB host driver instance obtained as a parameter * from the call to the class create() method. * ep0 - The (opaque) EP0 endpoint instance * funcaddr - The USB address of the function containing the endpoint * that EP0 controls * speed - The speed of the port USB_SPEED_LOW or _FULL * maxpacketsize - The maximum number of bytes that can be sent to or * received from the endpoint in a single data packet * * Returned Value: * On success, zero (OK) is returned. On a failure, a negated errno value * is returned indicating the nature of the failure * * Assumptions: * This function will *not* be called from an interrupt handler. * ****************************************************************************/ static int max3421e_ep0configure(FAR struct usbhost_driver_s *drvr, usbhost_ep_t ep0, uint8_t funcaddr, uint8_t speed, uint16_t maxpacketsize) { FAR struct max3421e_usbhost_s *priv = (FAR struct max3421e_usbhost_s *)drvr; FAR struct max3421e_chan_s *chan; int ret; DEBUGASSERT(drvr != NULL && funcaddr < 128 && maxpacketsize <= 64); /* We must have exclusive access to the USB host hardware and structures */ ret = nxrmutex_lock(&priv->lock); if (ret < 0) { return ret; } /* Configure the EP0 channel */ chan = &priv->chan[(intptr_t)ep0]; chan->funcaddr = funcaddr; chan->speed = speed; chan->maxpacket = maxpacketsize; chan->toggles = USBHOST_HCTL_RCVTOG0 | USBHOST_HCTL_SNDTOG0; nxrmutex_unlock(&priv->lock); return OK; } /**************************************************************************** * Name: max3421e_epalloc * * Description: * Allocate and configure one endpoint. * * Input Parameters: * drvr - The USB host driver instance obtained as a parameter from the * call to the class create() method. * epdesc - Describes the endpoint to be allocated. * ep - A memory location provided by the caller in which to receive * the allocated endpoint descriptor. * * Returned Value: * On success, zero (OK) is returned. On a failure, a negated errno value * is returned indicating the nature of the failure * * Assumptions: * This function will *not* be called from an interrupt handler. * ****************************************************************************/ static int max3421e_epalloc(FAR struct usbhost_driver_s *drvr, FAR const struct usbhost_epdesc_s *epdesc, FAR usbhost_ep_t *ep) { FAR struct max3421e_usbhost_s *priv = (FAR struct max3421e_usbhost_s *)drvr; struct usbhost_hubport_s *hport; FAR struct max3421e_chan_s *chan; int chidx; int ret; /* Sanity check. NOTE that this method should only be called if a device * is connected (because we need a valid low speed indication). */ DEBUGASSERT(drvr != 0 && epdesc != NULL && ep != NULL); hport = epdesc->hport; DEBUGASSERT(hport != NULL); /* We must have exclusive access to the USB host hardware and structures */ ret = nxrmutex_lock(&priv->lock); if (ret < 0) { return ret; } /* Allocate a host channel for the endpoint */ chidx = max3421e_chan_alloc(priv); if (chidx < 0) { usbhost_trace1(MAX3421E_TRACE1_CHANALLOC_FAIL, -chidx); nxrmutex_unlock(&priv->lock); return chidx; } /* Decode the endpoint descriptor to initialize the channel data * structures. Note: Here we depend on the fact that the endpoint point * type is encoded in the same way in the endpoint descriptor as it is in * the OTG HS hardware. */ chan = &priv->chan[chidx]; chan->epno = epdesc->addr & USB_EPNO_MASK; chan->in = epdesc->in; chan->eptype = epdesc->xfrtype; chan->funcaddr = hport->funcaddr; chan->speed = hport->speed; chan->interval = epdesc->interval; chan->maxpacket = epdesc->mxpacketsize; chan->toggles = USBHOST_HCTL_RCVTOG0 | USBHOST_HCTL_SNDTOG0; /* Return the endpoint number as the endpoint "handle" */ *ep = (usbhost_ep_t)chidx; nxrmutex_unlock(&priv->lock); return OK; } /**************************************************************************** * Name: max3421e_epfree * * Description: * Free and endpoint previously allocated by DRVR_EPALLOC. * * Input Parameters: * drvr - The USB host driver instance obtained as a parameter from the * call to the class create() method. * ep - The endpoint to be freed. * * Returned Value: * On success, zero (OK) is returned. On a failure, a negated errno value * is returned indicating the nature of the failure * * Assumptions: * This function will *not* be called from an interrupt handler. * ****************************************************************************/ static int max3421e_epfree(FAR struct usbhost_driver_s *drvr, usbhost_ep_t ep) { FAR struct max3421e_usbhost_s *priv = (FAR struct max3421e_usbhost_s *)drvr; int ret; DEBUGASSERT(priv); /* We must have exclusive access to the USB host hardware and structures */ ret = nxrmutex_lock(&priv->lock); if (ret >= 0) { /* Halt the channel and mark the channel available */ max3421e_chan_free(priv, (intptr_t)ep); nxrmutex_unlock(&priv->lock); } return ret; } /**************************************************************************** * Name: max3421e_alloc * * Description: * Some hardware supports special memory in which request and descriptor * data can be accessed more efficiently. This method provides a * mechanism to allocate the request/descriptor memory. If the underlying * hardware does not support such "special" memory, this functions may * simply map to kmm_malloc. * * This interface was optimized under a particular assumption. It was * assumed that the driver maintains a pool of small, pre-allocated * buffers for descriptor traffic. NOTE that size is not an input, but * an output: The size of the pre-allocated buffer is returned. * * Input Parameters: * drvr - The USB host driver instance obtained as a parameter from the * call to the class create() method. * buffer - The address of a memory location provided by the caller in * which to return the allocated buffer memory address. * maxlen - The address of a memory location provided by the caller in * which to return the maximum size of the allocated buffer * memory. * * Returned Value: * On success, zero (OK) is returned. On a failure, a negated errno value * is returned indicating the nature of the failure * * Assumptions: * - Called from a single thread so no mutual exclusion is required. * - Never called from an interrupt handler. * ****************************************************************************/ static int max3421e_alloc(FAR struct usbhost_driver_s *drvr, FAR uint8_t **buffer, FAR size_t *maxlen) { FAR uint8_t *alloc; DEBUGASSERT(drvr && buffer && maxlen); /* There is no special memory requirement for the MAX3421E. */ alloc = (FAR uint8_t *)kmm_malloc(CONFIG_MAX3421E_DESCSIZE); if (!alloc) { return -ENOMEM; } /* Return the allocated address and size of the descriptor buffer */ *buffer = alloc; *maxlen = CONFIG_MAX3421E_DESCSIZE; return OK; } /**************************************************************************** * Name: max3421e_free * * Description: * Some hardware supports special memory in which request and descriptor * data can be accessed more efficiently. This method provides a * mechanism to free that request/descriptor memory. If the underlying * hardware does not support such "special" memory, this functions may * simply map to kmm_free(). * * Input Parameters: * drvr - The USB host driver instance obtained as a parameter from the * call to the class create() method. * buffer - The address of the allocated buffer memory to be freed. * * Returned Value: * On success, zero (OK) is returned. On a failure, a negated errno value * is returned indicating the nature of the failure * * Assumptions: * - Never called from an interrupt handler. * ****************************************************************************/ static int max3421e_free(FAR struct usbhost_driver_s *drvr, FAR uint8_t *buffer) { /* There is no special memory requirement */ DEBUGASSERT(drvr && buffer); kmm_free(buffer); return OK; } /**************************************************************************** * Name: max3421e_ioalloc * * Description: * Some hardware supports special memory in which larger IO buffers can * be accessed more efficiently. This method provides a mechanism to * allocate the request/descriptor memory. If the underlying hardware * does not support such "special" memory, this functions may simply map * to kmm_malloc. * * This interface differs from DRVR_ALLOC in that the buffers are * variable-sized. * * Input Parameters: * drvr - The USB host driver instance obtained as a parameter from the * call to the class create() method. * buffer - The address of a memory location provided by the caller in * which to return the allocated buffer memory address. * buflen - The size of the buffer required. * * Returned Value: * On success, zero (OK) is returned. On a failure, a negated errno value * is returned indicating the nature of the failure * * Assumptions: * This function will *not* be called from an interrupt handler. * ****************************************************************************/ static int max3421e_ioalloc(FAR struct usbhost_driver_s *drvr, FAR uint8_t **buffer, size_t buflen) { FAR uint8_t *alloc; DEBUGASSERT(drvr && buffer && buflen > 0); /* There is no special memory requirement */ alloc = (FAR uint8_t *)kmm_malloc(buflen); if (!alloc) { return -ENOMEM; } /* Return the allocated buffer */ *buffer = alloc; return OK; } /**************************************************************************** * Name: max3421e_iofree * * Description: * Some hardware supports special memory in which IO data can be accessed * more efficiently. This method provides a mechanism to free that IO * buffer memory. If the underlying hardware does not support such * "special" memory, this functions may simply map to kmm_free(). * * Input Parameters: * drvr - The USB host driver instance obtained as a parameter from the * call to the class create() method. * buffer - The address of the allocated buffer memory to be freed. * * Returned Value: * On success, zero (OK) is returned. On a failure, a negated errno value * is returned indicating the nature of the failure * * Assumptions: * This function will *not* be called from an interrupt handler. * ****************************************************************************/ static int max3421e_iofree(FAR struct usbhost_driver_s *drvr, FAR uint8_t *buffer) { /* There is no special memory requirement */ DEBUGASSERT(drvr && buffer); kmm_free(buffer); return OK; } /**************************************************************************** * Name: max3421e_ctrlin and max3421e_ctrlout * * Description: * Process a IN or OUT request on the control endpoint. These methods * will enqueue the request and wait for it to complete. Only one * transfer may be queued; Neither these methods nor the transfer() method * can be called again until the control transfer functions returns. * * These are blocking methods; these functions will not return until the * control transfer has completed. * * Input Parameters: * drvr - The USB host driver instance obtained as a parameter from * the call to the class create() method. * ep0 - The control endpoint to send/receive the control request. * req - Describes the request to be sent. This request must lie in * memory created by DRVR_ALLOC. * buffer - A buffer used for sending the request and for returning any * responses. This buffer must be large enough to hold the * length value in the request description. buffer must have been * allocated using DRVR_ALLOC. * * NOTE: On an IN transaction, req and buffer may refer to the same * allocated memory. * * Returned Value: * On success, zero (OK) is returned. On a failure, a negated errno value * is returned indicating the nature of the failure * * Assumptions: * - Called from a single thread so no mutual exclusion is required. * - Never called from an interrupt handler. * ****************************************************************************/ static int max3421e_ctrlin(FAR struct usbhost_driver_s *drvr, usbhost_ep_t ep0, FAR const struct usb_ctrlreq_s *req, FAR uint8_t *buffer) { FAR struct max3421e_usbhost_s *priv; FAR struct max3421e_chan_s *chan; uint16_t buflen; clock_t start; clock_t elapsed; int retries; int ret; DEBUGASSERT(drvr != NULL && req != NULL); priv = (FAR struct max3421e_usbhost_s *)drvr; DEBUGASSERT((intptr_t)ep0 >= 0 && (intptr_t)ep0 < MAX3421E_NHOST_CHANNELS); chan = &priv->chan[(intptr_t)ep0]; usbhost_vtrace2(MAX3421E_VTRACE2_CTRLIN, req->type, req->req); uinfo("type:%02x req:%02x value:%02x%02x index:%02x%02x len:%02x%02x\n", req->type, req->req, req->value[1], req->value[0], req->index[1], req->index[0], req->len[1], req->len[0]); /* Extract values from the request */ buflen = max3421e_getle16(req->len); /* We must have exclusive access to the USB host hardware and structures */ ret = nxrmutex_lock(&priv->lock); if (ret < 0) { return ret; } /* Loop, retrying until the retry time expires */ for (retries = 0; retries < MAX3421E_RETRY_COUNT; retries++) { /* Send the SETUP request */ ret = max3421e_ctrl_sendsetup(priv, chan, req); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_SENDSETUP_FAIL2, -ret); continue; } /* Get the start time. Loop again until the timeout expires */ start = clock_systime_ticks(); do { /* Handle the IN data phase (if any) */ /* The MAX4321E sends fixed DATA0 and DATA1 PID tokens for the * various stages of a CONTROL transfer, regardless of the * setting of the internal data toggle. */ if (buflen > 0) { ret = max3421e_ctrl_recvdata(priv, chan, buffer, buflen); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_RECVDATA_FAIL, -ret); } } /* Handle the status OUT phase */ if (ret >= OK) { ret = max3421e_ctrl_sendstatus(priv, chan); if (ret >= OK) { /* All success transactions exit here */ nxrmutex_unlock(&priv->lock); return OK; } usbhost_trace1(MAX3421E_TRACE1_SENDSTATUS_FAIL, -ret); } /* Get the elapsed time (in frames) */ elapsed = clock_systime_ticks() - start; } while (elapsed < MAX3421E_DATANAK_DELAY); } /* All failures exit here after all retries and timeouts are exhausted */ nxrmutex_unlock(&priv->lock); return -ETIMEDOUT; } static int max3421e_ctrlout(FAR struct usbhost_driver_s *drvr, usbhost_ep_t ep0, FAR const struct usb_ctrlreq_s *req, FAR const uint8_t *buffer) { FAR struct max3421e_usbhost_s *priv = (FAR struct max3421e_usbhost_s *)drvr; FAR struct max3421e_chan_s *chan; uint16_t buflen; clock_t start; clock_t elapsed; int retries; int ret; DEBUGASSERT(drvr != NULL && req != NULL); priv = (FAR struct max3421e_usbhost_s *)drvr; DEBUGASSERT((intptr_t)ep0 >= 0 && (intptr_t)ep0 < MAX3421E_NHOST_CHANNELS); chan = &priv->chan[(intptr_t)ep0]; usbhost_vtrace2(MAX3421E_VTRACE2_CTRLOUT, req->type, req->req); uinfo("type:%02x req:%02x value:%02x%02x index:%02x%02x len:%02x%02x\n", req->type, req->req, req->value[1], req->value[0], req->index[1], req->index[0], req->len[1], req->len[0]); /* Extract values from the request */ buflen = max3421e_getle16(req->len); /* We must have exclusive access to the USB host hardware and structures */ ret = nxrmutex_lock(&priv->lock); if (ret < 0) { return ret; } /* Loop, retrying until the retry time expires */ for (retries = 0; retries < MAX3421E_RETRY_COUNT; retries++) { /* Send the SETUP request */ ret = max3421e_ctrl_sendsetup(priv, chan, req); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_SENDSETUP_FAIL1, -ret); continue; } /* Get the start time. Loop again until the timeout expires */ start = clock_systime_ticks(); do { /* Handle the data OUT phase (if any) */ /* The MAX4321E sends fixed DATA0 and DATA1 PID tokens for the * various stages of a CONTROL transfer, regardless of the setting * of the internal data toggle. */ if (buflen > 0) { /* Start DATA out transfer (only one DATA packet) */ ret = max3421e_ctrl_senddata(priv, chan, NULL, 0); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_SENDDATA_FAIL, -ret); } } /* Handle the status IN phase */ if (ret >= OK) { ret = max3421e_ctrl_recvstatus(priv, chan); if (ret >= OK) { /* All success transactions exit here */ nxrmutex_unlock(&priv->lock); return OK; } usbhost_trace1(MAX3421E_TRACE1_RECVSTATUS_FAIL, -ret); } /* Get the elapsed time (in frames) */ elapsed = clock_systime_ticks() - start; } while (elapsed < MAX3421E_DATANAK_DELAY); } /* All failures exit here after all retries and timeouts are exhausted */ nxrmutex_unlock(&priv->lock); return -ETIMEDOUT; } /**************************************************************************** * Name: max3421e_transfer * * Description: * Process a request to handle a transfer descriptor. This method will * enqueue the transfer request, blocking until the transfer completes. * Only one transfer may be queued; Neither this method nor the ctrlin or * ctrlout methods can be called again until this function returns. * * This is a blocking method; this functions will not return until the * transfer has completed. * * Input Parameters: * drvr - The USB host driver instance obtained as a parameter from the * call to the class create() method. * ep - The IN or OUT endpoint descriptor for the device endpoint on * which to perform the transfer. * buffer - A buffer containing the data to be sent (OUT endpoint) or * received (IN endpoint). buffer must have been allocated * using DRVR_ALLOC * buflen - The length of the data to be sent or received. * * Returned Value: * On success, a non-negative value is returned that indicates the number * of bytes successfully transferred. On a failure, a negated errno value * is returned that indicates the nature of the failure: * * EAGAIN - If devices NAKs the transfer (or NYET or other error where * it may be appropriate to restart the entire transaction). * EPERM - If the endpoint stalls * EIO - On a TX or data toggle error * EPIPE - Overrun errors * * Assumptions: * - Called from a single thread so no mutual exclusion is required. * - Never called from an interrupt handler. * ****************************************************************************/ static ssize_t max3421e_transfer(FAR struct usbhost_driver_s *drvr, usbhost_ep_t ep, FAR uint8_t *buffer, size_t buflen) { FAR struct max3421e_usbhost_s *priv = (FAR struct max3421e_usbhost_s *)drvr; FAR struct max3421e_chan_s *chan; ssize_t nbytes; int ret; DEBUGASSERT(priv != NULL && buffer != NULL && buflen > 0); DEBUGASSERT((intptr_t)ep >= 0 && (intptr_t)ep < MAX3421E_NHOST_CHANNELS); chan = &priv->chan[(intptr_t)ep]; usbhost_vtrace2(MAX3421E_VTRACE2_TRANSFER, (unsigned int)ep, buflen); /* We must have exclusive access to the USB host hardware and structures */ ret = nxrmutex_lock(&priv->lock); if (ret < 0) { return ret; } /* Handle IN and OUT transfer differently */ if (chan->in) { nbytes = max3421e_in_transfer(priv, chan, buffer, buflen); } else { nbytes = max3421e_out_transfer(priv, chan, buffer, buflen); } nxrmutex_unlock(&priv->lock); return nbytes; } /**************************************************************************** * Name: max3421e_asynch * * Description: * Process a request to handle a transfer descriptor. This method will * enqueue the transfer request and return immediately. When the transfer * completes, the callback will be invoked with the provided transfer. * This method is useful for receiving interrupt transfers which may come * infrequently. * * Only one transfer may be queued; Neither this method nor the ctrlin or * ctrlout methods can be called again until the transfer completes. * * Input Parameters: * drvr - The USB host driver instance obtained as a parameter from * the call to the class create() method. * ep - The IN or OUT endpoint descriptor for the device endpoint * on which to perform the transfer. * buffer - A buffer containing the data to be sent (OUT endpoint) or * received (IN endpoint). buffer must have been allocated * using DRVR_ALLOC * buflen - The length of the data to be sent or received. * callback - This function will be called when the transfer completes. * arg - The arbitrary parameter that will be passed to the callback * function when the transfer completes. * * Returned Value: * On success, zero (OK) is returned. On a failure, a negated errno value * is returned indicating the nature of the failure * * Assumptions: * - Called from a single thread so no mutual exclusion is required. * - Never called from an interrupt handler. * ****************************************************************************/ #ifdef CONFIG_USBHOST_ASYNCH static int max3421e_asynch(FAR struct usbhost_driver_s *drvr, usbhost_ep_t ep, FAR uint8_t *buffer, size_t buflen, usbhost_asynch_t callback, FAR void *arg) { FAR struct max3421e_usbhost_s *priv = (FAR struct max3421e_usbhost_s *)drvr; FAR struct max3421e_chan_s *chan; int ret; DEBUGASSERT(priv != NULL && buffer != NULL && buflen > 0); DEBUGASSERT((intptr_t)ep >= 0 && ep < MAX3421E_NHOST_CHANNELS); chan = &priv->chan[(intptr_t)ep]; usbhost_vtrace2(MAX3421E_VTRACE2_ASYNCH, (unsigned int)ep, buflen); /* We must have exclusive access to the USB host hardware and structures */ ret = nxrmutex_lock(&priv->lock); if (ret < 0) { return ret; } /* Handle IN and OUT transfer slightly differently */ if (chan->in) { ret = max3421e_in_asynch(priv, chan, buffer, buflen, callback, arg); } else { ret = max3421e_out_asynch(priv, chan, buffer, buflen, callback, arg); } nxrmutex_unlock(&priv->lock); return ret; } #endif /* CONFIG_USBHOST_ASYNCH */ /**************************************************************************** * Name: max3421e_cancel * * Description: * Cancel a pending transfer on an endpoint. Canceled synchronous or * asynchronous transfer will complete normally with the error -ESHUTDOWN. * * Input Parameters: * drvr - The USB host driver instance obtained as a parameter from the * call to the class create() method. * ep - The IN or OUT endpoint descriptor for the device endpoint on * which an asynchronous transfer should be transferred. * * Returned Value: * On success, zero (OK) is returned. On a failure, a negated errno value * is returned indicating the nature of the failure. * ****************************************************************************/ static int max3421e_cancel(FAR struct usbhost_driver_s *drvr, usbhost_ep_t ep) { FAR struct max3421e_usbhost_s *priv = (FAR struct max3421e_usbhost_s *)drvr; FAR struct max3421e_chan_s *chan; irqstate_t flags; DEBUGASSERT(priv != NULL); DEBUGASSERT((intptr_t)ep >= 0 && (intptr_t)ep < MAX3421E_NHOST_CHANNELS); chan = &priv->chan[(intptr_t)ep]; usbhost_vtrace1(MAX3421E_VTRACE1_CANCEL, (intptr_t)ep); /* We need to disable interrupts to avoid race conditions with the * asynchronous completion of the transfer being canceled. */ flags = enter_critical_section(); /* Halt the channel */ #warning Missing logic UNUSED(chan); /* For now */ priv->result = -ESHUTDOWN; /* Is there a thread waiting for this transfer to complete? */ if (priv->waiter != NULL) { #ifdef CONFIG_USBHOST_ASYNCH /* Yes.. there should not also be a callback scheduled */ DEBUGASSERT(priv->callback == NULL); #endif /* Wake'em up! */ nxsem_post(&priv->waitsem); priv->waiter = NULL; } #ifdef CONFIG_USBHOST_ASYNCH /* No.. is an asynchronous callback expected when the transfer * completes? */ else if (priv->callback) { usbhost_asynch_t callback; FAR void *arg; /* Extract the callback information */ callback = priv->callback; arg = priv->arg; priv->callback = NULL; priv->arg = NULL; priv->xfrd = 0; /* Then perform the callback */ callback(arg, -ESHUTDOWN); } #endif leave_critical_section(flags); return OK; } /**************************************************************************** * Name: max3421e_connect * * Description: * New connections may be detected by an attached hub. This method is the * mechanism that is used by the hub class to introduce a new connection * and port description to the system. * * Input Parameters: * drvr - The USB host driver instance obtained as a parameter from * the call to the class create() method. * hport - The descriptor of the hub port that detected the connection * related event * connected - True: device connected; false: device disconnected * * Returned Value: * On success, zero (OK) is returned. On a failure, a negated errno value * is returned indicating the nature of the failure. * ****************************************************************************/ #ifdef CONFIG_USBHOST_HUB static int max3421e_connect(FAR struct usbhost_driver_s *drvr, FAR struct usbhost_hubport_s *hport, bool connected) { FAR struct max3421e_usbhost_s *priv = (FAR struct max3421e_usbhost_s *)drvr; irqstate_t flags; DEBUGASSERT(priv != NULL && hport != NULL); /* Set the connected/disconnected flag */ hport->connected = connected; usbhost_vtrace2(MAX3421E_VTRACE2_HUB_CONNECTED, hport->port, connected); /* Report the connection event */ flags = enter_critical_section(); priv->hport = hport; if (priv->pscwait) { priv->pscwait = false; nxsem_post(&priv->pscsem); } leave_critical_section(flags); return OK; } #endif /**************************************************************************** * Name: max3421e_disconnect * * Description: * Called by the class when an error occurs and driver has been * disconnected. The USB host driver should discard the handle to the * class instance (it is stale) and not attempt any further interaction * with the class driver instance (until a new instance is received from * the create() method). The driver should not called the class' * disconnected() method. * * Input Parameters: * drvr - The USB host driver instance obtained as a parameter from the * call to the class create() method. * hport - The port from which the device is being disconnected. Might be * a port on a hub. * * Returned Value: * None * * Assumptions: * - Only a single class bound to a single device is supported. * - Never called from an interrupt handler. * ****************************************************************************/ static void max3421e_disconnect(FAR struct usbhost_driver_s *drvr, FAR struct usbhost_hubport_s *hport) { DEBUGASSERT(hport != NULL); hport->devclass = NULL; } /**************************************************************************** * Initialization ****************************************************************************/ /**************************************************************************** * Name: max3421e_busreset * * Description: * Reset the USB host port. * * Input Parameters: * priv -- USB host driver private data structure. * * Returned Value: * None * ****************************************************************************/ static void max3421e_busreset(FAR struct max3421e_usbhost_s *priv) { /* Disable the SOF generator */ max3421e_modifyreg(priv, MAX3421E_USBHOST_MODE, USBHOST_MODE_SOFKAENAB, 0); /* Clear any pending bus event */ max3421e_int_clear(priv, USBHOST_HIRQ_BUSEVENTIRQ); /* Perform the reset */ max3421e_modifyreg(priv, MAX3421E_USBHOST_HCTL, 0, USBHOST_HCTL_BUSRST); max3421e_int_wait(priv, USBHOST_HIRQ_BUSEVENTIRQ, 250); } /**************************************************************************** * Name: max3421e_startsof * * Description: * Called after bus reset. Determine bus speed and restart SOFs. * * Input Parameters: * priv -- USB host driver private data structure. * * Returned Value: * OK if successfully connect; -ENODEV if not connected. * ****************************************************************************/ static int max3421e_startsof(FAR struct max3421e_usbhost_s *priv) { uint8_t clrbits; uint8_t setbits; uint8_t regval; bool lowspeed; /* Check if we are already in low- or full-speed mode */ regval = max3421e_getreg(priv, MAX3421E_USBHOST_MODE); lowspeed = ((regval & USBHOST_MODE_SPEED) != 0); /* Enable SAMPLEBUS */ max3421e_modifyreg(priv, MAX3421E_USBHOST_HCTL, 0, USBHOST_HCTL_BUSSAMPLE); while ((max3421e_getreg(priv, MAX3421E_USBHOST_HCTL) & USBHOST_HCTL_BUSSAMPLE) == 0) { nxsig_usleep(5); } /* Check for low- or full-speed and start SOF (actually already started * by max3421e_busreset). */ clrbits = 0; setbits = USBHOST_MODE_HOST | USBHOST_MODE_SOFKAENAB | USBHOST_MODE_DMPULLD | USBHOST_MODE_DPPULLDN; regval = max3421e_getreg(priv, MAX3421E_USBHOST_HRSL); switch (regval & (USBHOST_HRSL_KSTATUS | USBHOST_HRSL_JSTATUS)) { default: case (USBHOST_HRSL_KSTATUS | USBHOST_HRSL_JSTATUS): /* Invalid state */ usbhost_trace1(MAX3421E_TRACE1_BAD_JKSTATE, regval); /* Fall through */ case 0: /* 0: Not connected */ return -ENODEV; case USBHOST_HRSL_KSTATUS: /* J=0, K=1: low-speed in full-speed (or vice versa) */ if (lowspeed) { /* Full speed in low speed */ clrbits |= USBHOST_MODE_SPEED; } else { /* Low speed in full speed */ setbits |= USBHOST_MODE_SPEED; } break; case USBHOST_HRSL_JSTATUS: /* J=1,K=0: full-speed in full-speed (or vice versa) */ if (lowspeed) { /* Low speed in low speed */ setbits |= USBHOST_MODE_SPEED; } else { /* Full speed in full speed */ clrbits |= USBHOST_MODE_SPEED; } break; } /* Restart the SOF generator */ max3421e_modifyreg(priv, MAX3421E_USBHOST_MODE, clrbits, setbits); /* Wait for the first SOF received and 20ms has passed */ max3421e_int_wait(priv, USBHOST_HIRQ_FRAMEIRQ, 0); nxsig_usleep(20 * 1000); return OK; } /**************************************************************************** * Name: max3421e_sw_initialize * * Description: * One-time setup of the host driver state structure. * * Input Parameters: * priv -- USB host driver private data structure. * conn -- Custom USB host connection structure. * lower -- The lower half driver instance. * * Returned Value: * None. * ****************************************************************************/ static inline int max3421e_sw_initialize(FAR struct max3421e_usbhost_s *priv, FAR struct max3421e_connection_s *conn, FAR const struct max3421e_lowerhalf_s *lower) { FAR struct usbhost_driver_s *drvr; FAR struct usbhost_hubport_s *hport; int ret; int i; /* Initialize the device operations */ drvr = &priv->drvr; drvr->ep0configure = max3421e_ep0configure; drvr->epalloc = max3421e_epalloc; drvr->epfree = max3421e_epfree; drvr->alloc = max3421e_alloc; drvr->free = max3421e_free; drvr->ioalloc = max3421e_ioalloc; drvr->iofree = max3421e_iofree; drvr->ctrlin = max3421e_ctrlin; drvr->ctrlout = max3421e_ctrlout; drvr->transfer = max3421e_transfer; #ifdef CONFIG_USBHOST_ASYNCH drvr->asynch = max3421e_asynch; #endif drvr->cancel = max3421e_cancel; #ifdef CONFIG_USBHOST_HUB drvr->connect = max3421e_connect; #endif drvr->disconnect = max3421e_disconnect; /* Initialize the public port representation */ hport = &priv->rhport.hport; hport->drvr = drvr; #ifdef CONFIG_USBHOST_HUB hport->parent = NULL; #endif hport->ep0 = 0; hport->speed = USB_SPEED_FULL; /* Initialize function address generation logic */ usbhost_devaddr_initialize(&priv->rhport); /* Initialize semaphores */ nxsem_init(&priv->pscsem, 0, 0); nxsem_init(&priv->waitsem, 0, 0); /* Initialize lock */ nxrmutex_init(&priv->lock); /* Initialize the driver state data */ priv->lower = lower; priv->smstate = SMSTATE_DETACHED; priv->connected = false; priv->irqset = 0; priv->change = false; priv->holder = NO_HOLDER; /* Put all of the channels back in their initial, allocated state */ memset(priv->chan, 0, MAX3421E_NHOST_CHANNELS * sizeof(struct max3421e_chan_s)); /* Initialize each channel */ for (i = 0; i < MAX3421E_NHOST_CHANNELS; i++) { FAR struct max3421e_chan_s *chan = &priv->chan[i]; chan->chidx = i; } /* Initialize the connection structure */ conn->conn.wait = max3421e_wait; conn->conn.enumerate = max3421e_enumerate; conn->priv = priv; /* Attach USB host controller interrupt handler */ ret = lower->attach(lower, max3421e_interrupt, priv); if (ret < 0) { usbhost_trace1(MAX3421E_TRACE1_IRQATTACH_FAIL, 0); return ret; } return OK; } /**************************************************************************** * Name: max3421e_hw_initialize * * Description: * One-time setup of the host controller hardware for normal operations. * * Input Parameters: * priv -- USB host driver private data structure. * * Returned Value: * Zero on success; a negated errno value on failure. * ****************************************************************************/ static inline int max3421e_hw_initialize(FAR struct max3421e_usbhost_s *priv) { uint8_t revision; uint8_t regval; int ret; /* Get exclusive access to the SPI bus */ max3421e_lock(priv); /* Configure full duplex SPI, level or edge-active, rising- or falling * edge interrupt. * * NOTE: Initially, the MAX3421E operations in half-duplex mode. MISO is * tristated and there is no status response to commands. Writes are not * effected: The MISO pin continues to be high impedance and the master * continues to drive MOSI. * * For reads, however, after the 8-bit command, the max3421e starts driving * the MOSI pin. The master must turn off its driver to the MOSI pin to * avoid contention. */ regval = priv->lower->intconfig; regval &= (USBHOST_PINCTL_INTLEVEL | USBHOST_PINCTL_POSINT); regval |= USBHOST_PINCTL_FDUPSPI; max3421e_putreg(priv, MAX3421E_USBHOST_PINCTL, regval); /* Reset the MAX3421E by toggling the CHIPRES bit in the USBCTRL register. * * NOTE: The bits that control the SPI interface are not changed by * CHIPRES: FDUPSPI, INTLEVEL, and POSINT. */ max3421e_putreg(priv, MAX3421E_USBHOST_USBCTL, USBHOST_USBCTL_CHIPRES); max3421e_putreg(priv, MAX3421E_USBHOST_USBCTL, 0); /* Wait for the oscillator to become stable */ while ((max3421e_getreg(priv, MAX3421E_USBHOST_USBIRQ) & USBHOST_USBIRQ_OSCOKIRQ) == 0) { } /* Disable interrupts, clear pending interrupts, and reset the interrupt * state. */ max3421e_modifyreg(priv, MAX3421E_USBHOST_CPUCTL, USBHOST_CPUCTL_IE, 0); max3421e_putreg(priv, MAX3421E_USBHOST_HIEN, 0); max3421e_int_clear(priv, 0xff); priv->irqset = 0; /* Configure as full-speed USB host */ max3421e_modifyreg(priv, MAX3421E_USBHOST_MODE, USBHOST_MODE_SPEED | USBHOST_MODE_SOFKAENAB, USBHOST_MODE_HOST | USBHOST_MODE_DMPULLD | USBHOST_MODE_DPPULLDN); /* Clear and enable the connection detected (CONDIRQ) interrupt */ max3421e_int_clear(priv, USBHOST_HIRQ_CONNIRQ); max3421e_int_enable(priv, USBHOST_HIRQ_CONNIRQ); /* Enable MAX3412E interrupts */ max3421e_modifyreg(priv, MAX3421E_USBHOST_CPUCTL, 0, USBHOST_CPUCTL_IE); usbhost_vtrace1(MAX3421E_VTRACE1_INITIALIZED, 0); revision = max3421e_getreg(priv, MAX3421E_USBHOST_REVISION); if (revision != USBHOST_REVISION) { usbhost_trace1(MAX3421E_TRACE1_BADREVISION, revision); max3421e_unlock(priv); return -ENODEV; } /* Perform a bus reset to reconnect after a power down */ ret = max3421e_connected(priv); if (ret < 0) { /* Nothing connected. */ max3421e_disconnected(priv); } max3421e_unlock(priv); return OK; } /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: max3421e_usbhost_initialize * * Description: * Initialize MAX3421E as USB host controller. * * Input Parameters: * lower - The interface to the lower half driver * * Returned Value: * And instance of the USB host interface. The controlling task should * use this interface to (1) call the wait() method to wait for a device * to be connected, and (2) call the enumerate() method to bind the device * to a class driver. * * Assumptions: * - This function should called in the initialization sequence in order * to initialize the USB device functionality. * - Class drivers should be initialized prior to calling this function. * Otherwise, there is a race condition if the device is already connected. * ****************************************************************************/ FAR struct usbhost_connection_s * max3421e_usbhost_initialize(FAR const struct max3421e_lowerhalf_s *lower) { FAR struct usbhost_alloc_s *alloc; FAR struct max3421e_usbhost_s *priv; FAR struct max3421e_connection_s *conn; int ret; DEBUGASSERT(lower != NULL && lower->spi != NULL && lower->attach != NULL && lower->attach != NULL && lower->acknowledge != NULL && lower->power != NULL); /* Allocate and instance of the MAX4321E state structure */ alloc = (FAR struct usbhost_alloc_s *) kmm_zalloc(sizeof(struct usbhost_alloc_s)); if (alloc < 0) { usbhost_trace1(MAX3421E_TRACE1_ALLOC_FAIL, 0); return NULL; } priv = &alloc->priv; conn = &alloc->conn; /* Initialize the state of the host driver */ ret = max3421e_sw_initialize(priv, conn, lower); if (ret < 0) { goto errout_with_alloc; } /* Initialize the MAX3421E, putting it into full operational state. */ ret = max3421e_hw_initialize(priv); if (ret < 0) { goto errout_with_alloc; } /* Drive Vbus +5V (the smoke test). */ lower->power(lower, true); /* Enable host interrupts */ lower->enable(lower, true); return &conn->conn; errout_with_alloc: kmm_free(alloc); return NULL; } /**************************************************************************** * Name: usbhost_trformat1 and usbhost_trformat2 * * Description: * This interface must be provided by platform specific logic that knows * the HCDs encoding of USB trace data. * * Given an 9-bit index, return a format string suitable for use with, * say, printf. The returned format is expected to handle two unsigned * integer values. * ****************************************************************************/ #ifdef HAVE_USBHOST_TRACE FAR const char *usbhost_trformat1(uint16_t id) { int ndx = TRACE1_INDEX(id); if (ndx < TRACE1_NSTRINGS) { return g_trace1[ndx].string; } return NULL; } FAR const char *usbhost_trformat2(uint16_t id) { int ndx = TRACE2_INDEX(id); if (ndx < TRACE2_NSTRINGS) { return g_trace2[ndx].string; } return NULL; } #endif #endif /* CONFIG_USBHOST_MAX3421E */