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/***********************license start*************** * Copyright (c) 2003-2010 Cavium Networks (support@cavium.com). All rights * reserved. * * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials provided * with the distribution. * * Neither the name of Cavium Networks nor the names of * its contributors may be used to endorse or promote products * derived from this software without specific prior written * permission. * This Software, including technical data, may be subject to U.S. export control * laws, including the U.S. Export Administration Act and its associated * regulations, and may be subject to export or import regulations in other * countries. * TO THE MAXIMUM EXTENT PERMITTED BY LAW, THE SOFTWARE IS PROVIDED "AS IS" * AND WITH ALL FAULTS AND CAVIUM NETWORKS MAKES NO PROMISES, REPRESENTATIONS OR * WARRANTIES, EITHER EXPRESS, IMPLIED, STATUTORY, OR OTHERWISE, WITH RESPECT TO * THE SOFTWARE, INCLUDING ITS CONDITION, ITS CONFORMITY TO ANY REPRESENTATION OR * DESCRIPTION, OR THE EXISTENCE OF ANY LATENT OR PATENT DEFECTS, AND CAVIUM * SPECIFICALLY DISCLAIMS ALL IMPLIED (IF ANY) WARRANTIES OF TITLE, * MERCHANTABILITY, NONINFRINGEMENT, FITNESS FOR A PARTICULAR PURPOSE, LACK OF * VIRUSES, ACCURACY OR COMPLETENESS, QUIET ENJOYMENT, QUIET POSSESSION OR * CORRESPONDENCE TO DESCRIPTION. THE ENTIRE RISK ARISING OUT OF USE OR * PERFORMANCE OF THE SOFTWARE LIES WITH YOU. ***********************license end**************************************/ /** * @file * * "cvmx-usb.h" defines a set of low level USB functions to help * developers create Octeon USB drivers for various operating * systems. These functions provide a generic API to the Octeon * USB blocks, hiding the internal hardware specific * operations. * * At a high level the device driver needs to: * * -# Call cvmx_usb_get_num_ports() to get the number of * supported ports. * -# Call cvmx_usb_initialize() for each Octeon USB port. * -# Enable the port using cvmx_usb_enable(). * -# Either periodically, or in an interrupt handler, call * cvmx_usb_poll() to service USB events. * -# Manage pipes using cvmx_usb_open_pipe() and * cvmx_usb_close_pipe(). * -# Manage transfers using cvmx_usb_submit_*() and * cvmx_usb_cancel*(). * -# Shutdown USB on unload using cvmx_usb_shutdown(). * * To monitor USB status changes, the device driver must use * cvmx_usb_register_callback() to register for events that it * is interested in. Below are a few hints on successfully * implementing a driver on top of this API. * * <h2>Initialization</h2> * * When a driver is first loaded, it is normally not necessary * to bring up the USB port completely. Most operating systems * expect to initialize and enable the port in two independent * steps. Normally an operating system will probe hardware, * initialize anything found, and then enable the hardware. * * In the probe phase you should: * -# Use cvmx_usb_get_num_ports() to determine the number of * USB port to be supported. * -# Allocate space for a cvmx_usb_state_t structure for each * port. * -# Tell the operating system about each port * * In the initialization phase you should: * -# Use cvmx_usb_initialize() on each port. * -# Do not call cvmx_usb_enable(). This leaves the USB port in * the disabled state until the operating system is ready. * * Finally, in the enable phase you should: * -# Call cvmx_usb_enable() on the appropriate port. * -# Note that some operating system use a RESET instead of an * enable call. To implement RESET, you should call * cvmx_usb_disable() followed by cvmx_usb_enable(). * * <h2>Locking</h2> * * All of the functions in the cvmx-usb API assume exclusive * access to the USB hardware and internal data structures. This * means that the driver must provide locking as necessary. * * In the single CPU state it is normally enough to disable * interrupts before every call to cvmx_usb*() and enable them * again after the call is complete. Keep in mind that it is * very common for the callback handlers to make additional * calls into cvmx-usb, so the disable/enable must be protected * against recursion. As an example, the Linux kernel * local_irq_save() and local_irq_restore() are perfect for this * in the non SMP case. * * In the SMP case, locking is more complicated. For SMP you not * only need to disable interrupts on the local core, but also * take a lock to make sure that another core cannot call * cvmx-usb. * * <h2>Port callback</h2> * * The port callback prototype needs to look as follows: * * void port_callback(cvmx_usb_state_t *usb, * cvmx_usb_callback_t reason, * cvmx_usb_complete_t status, * int pipe_handle, * int submit_handle, * int bytes_transferred, * void *user_data); * - @b usb is the cvmx_usb_state_t for the port. * - @b reason will always be * CVMX_USB_CALLBACK_PORT_CHANGED. * - @b status will always be CVMX_USB_COMPLETE_SUCCESS. * - @b pipe_handle will always be -1. * - @b submit_handle will always be -1. * - @b bytes_transferred will always be 0. * - @b user_data is the void pointer originally passed along * with the callback. Use this for any state information you * need. * * The port callback will be called whenever the user plugs / * unplugs a device from the port. It will not be called when a * device is plugged / unplugged from a hub connected to the * root port. Normally all the callback needs to do is tell the * operating system to poll the root hub for status. Under * Linux, this is performed by calling usb_hcd_poll_rh_status(). * In the Linux driver we use @b user_data. to pass around the * Linux "hcd" structure. Once the port callback completes, * Linux automatically calls octeon_usb_hub_status_data() which * uses cvmx_usb_get_status() to determine the root port status. * * <h2>Complete callback</h2> * * The completion callback prototype needs to look as follows: * * void complete_callback(cvmx_usb_state_t *usb, * cvmx_usb_callback_t reason, * cvmx_usb_complete_t status, * int pipe_handle, * int submit_handle, * int bytes_transferred, * void *user_data); * - @b usb is the cvmx_usb_state_t for the port. * - @b reason will always be * CVMX_USB_CALLBACK_TRANSFER_COMPLETE. * - @b status will be one of the cvmx_usb_complete_t * enumerations. * - @b pipe_handle is the handle to the pipe the transaction * was originally submitted on. * - @b submit_handle is the handle returned by the original * cvmx_usb_submit_* call. * - @b bytes_transferred is the number of bytes successfully * transferred in the transaction. This will be zero on most * error conditions. * - @b user_data is the void pointer originally passed along * with the callback. Use this for any state information you * need. For example, the Linux "urb" is stored in here in the * Linux driver. * * In general your callback handler should use @b status and @b * bytes_transferred to tell the operating system the how the * transaction completed. Normally the pipe is not changed in * this callback. * * <h2>Canceling transactions</h2> * * When a transaction is cancelled using cvmx_usb_cancel*(), the * actual length of time until the complete callback is called * can vary greatly. It may be called before cvmx_usb_cancel*() * returns, or it may be called a number of usb frames in the * future once the hardware frees the transaction. In either of * these cases, the complete handler will receive * CVMX_USB_COMPLETE_CANCEL. * * <h2>Handling pipes</h2> * * USB "pipes" is a software construct created by this API to * enable the ordering of usb transactions to a device endpoint. * Octeon's underlying hardware doesn't have any concept * equivalent to "pipes". The hardware instead has eight * channels that can be used simultaneously to have up to eight * transaction in process at the same time. In order to maintain * ordering in a pipe, the transactions for a pipe will only be * active in one hardware channel at a time. From an API user's * perspective, this doesn't matter but it can be helpful to * keep this in mind when you are probing hardware while * debugging. * * Also keep in mind that usb transactions contain state * information about the previous transaction to the same * endpoint. Each transaction has a PID toggle that changes 0/1 * between each sub packet. This is maintained in the pipe data * structures. For this reason, you generally cannot create and * destroy a pipe for every transaction. A sequence of * transaction to the same endpoint must use the same pipe. * * <h2>Root Hub</h2> * * Some operating systems view the usb root port as a normal usb * hub. These systems attempt to control the root hub with * messages similar to the usb 2.0 spec for hub control and * status. For these systems it may be necessary to write * function to decode standard usb control messages into * equivalent cvmx-usb API calls. As an example, the following * code is used under Linux for some of the basic hub control * messages. * * @code * static int octeon_usb_hub_control(struct usb_hcd *hcd, u16 typeReq, u16 wValue, u16 wIndex, char *buf, u16 wLength) * { * cvmx_usb_state_t *usb = (cvmx_usb_state_t *)hcd->hcd_priv; * cvmx_usb_port_status_t usb_port_status; * int port_status; * struct usb_hub_descriptor *desc; * unsigned long flags; * * switch (typeReq) * { * case ClearHubFeature: * DEBUG_ROOT_HUB("OcteonUSB: ClearHubFeature\n"); * switch (wValue) * { * case C_HUB_LOCAL_POWER: * case C_HUB_OVER_CURRENT: * // Nothing required here * break; * default: * return -EINVAL; * } * break; * case ClearPortFeature: * DEBUG_ROOT_HUB("OcteonUSB: ClearPortFeature"); * if (wIndex != 1) * { * DEBUG_ROOT_HUB(" INVALID\n"); * return -EINVAL; * } * * switch (wValue) * { * case USB_PORT_FEAT_ENABLE: * DEBUG_ROOT_HUB(" ENABLE"); * local_irq_save(flags); * cvmx_usb_disable(usb); * local_irq_restore(flags); * break; * case USB_PORT_FEAT_SUSPEND: * DEBUG_ROOT_HUB(" SUSPEND"); * // Not supported on Octeon * break; * case USB_PORT_FEAT_POWER: * DEBUG_ROOT_HUB(" POWER"); * // Not supported on Octeon * break; * case USB_PORT_FEAT_INDICATOR: * DEBUG_ROOT_HUB(" INDICATOR"); * // Port inidicator not supported * break; * case USB_PORT_FEAT_C_CONNECTION: * DEBUG_ROOT_HUB(" C_CONNECTION"); * // Clears drivers internal connect status change flag * cvmx_usb_set_status(usb, cvmx_usb_get_status(usb)); * break; * case USB_PORT_FEAT_C_RESET: * DEBUG_ROOT_HUB(" C_RESET"); * // Clears the driver's internal Port Reset Change flag * cvmx_usb_set_status(usb, cvmx_usb_get_status(usb)); * break; * case USB_PORT_FEAT_C_ENABLE: * DEBUG_ROOT_HUB(" C_ENABLE"); * // Clears the driver's internal Port Enable/Disable Change flag * cvmx_usb_set_status(usb, cvmx_usb_get_status(usb)); * break; * case USB_PORT_FEAT_C_SUSPEND: * DEBUG_ROOT_HUB(" C_SUSPEND"); * // Clears the driver's internal Port Suspend Change flag, * which is set when resume signaling on the host port is * complete * break; * case USB_PORT_FEAT_C_OVER_CURRENT: * DEBUG_ROOT_HUB(" C_OVER_CURRENT"); * // Clears the driver's overcurrent Change flag * cvmx_usb_set_status(usb, cvmx_usb_get_status(usb)); * break; * default: * DEBUG_ROOT_HUB(" UNKNOWN\n"); * return -EINVAL; * } * DEBUG_ROOT_HUB("\n"); * break; * case GetHubDescriptor: * DEBUG_ROOT_HUB("OcteonUSB: GetHubDescriptor\n"); * desc = (struct usb_hub_descriptor *)buf; * desc->bDescLength = 9; * desc->bDescriptorType = 0x29; * desc->bNbrPorts = 1; * desc->wHubCharacteristics = 0x08; * desc->bPwrOn2PwrGood = 1; * desc->bHubContrCurrent = 0; * desc->bitmap[0] = 0; * desc->bitmap[1] = 0xff; * break; * case GetHubStatus: * DEBUG_ROOT_HUB("OcteonUSB: GetHubStatus\n"); * *(__le32 *)buf = 0; * break; * case GetPortStatus: * DEBUG_ROOT_HUB("OcteonUSB: GetPortStatus"); * if (wIndex != 1) * { * DEBUG_ROOT_HUB(" INVALID\n"); * return -EINVAL; * } * * usb_port_status = cvmx_usb_get_status(usb); * port_status = 0; * * if (usb_port_status.connect_change) * { * port_status |= (1 << USB_PORT_FEAT_C_CONNECTION); * DEBUG_ROOT_HUB(" C_CONNECTION"); * } * * if (usb_port_status.port_enabled) * { * port_status |= (1 << USB_PORT_FEAT_C_ENABLE); * DEBUG_ROOT_HUB(" C_ENABLE"); * } * * if (usb_port_status.connected) * { * port_status |= (1 << USB_PORT_FEAT_CONNECTION); * DEBUG_ROOT_HUB(" CONNECTION"); * } * * if (usb_port_status.port_enabled) * { * port_status |= (1 << USB_PORT_FEAT_ENABLE); * DEBUG_ROOT_HUB(" ENABLE"); * } * * if (usb_port_status.port_over_current) * { * port_status |= (1 << USB_PORT_FEAT_OVER_CURRENT); * DEBUG_ROOT_HUB(" OVER_CURRENT"); * } * * if (usb_port_status.port_powered) * { * port_status |= (1 << USB_PORT_FEAT_POWER); * DEBUG_ROOT_HUB(" POWER"); * } * * if (usb_port_status.port_speed == CVMX_USB_SPEED_HIGH) * { * port_status |= (1 << USB_PORT_FEAT_HIGHSPEED); * DEBUG_ROOT_HUB(" HIGHSPEED"); * } * else if (usb_port_status.port_speed == CVMX_USB_SPEED_LOW) * { * port_status |= (1 << USB_PORT_FEAT_LOWSPEED); * DEBUG_ROOT_HUB(" LOWSPEED"); * } * * *((__le32 *)buf) = cpu_to_le32(port_status); * DEBUG_ROOT_HUB("\n"); * break; * case SetHubFeature: * DEBUG_ROOT_HUB("OcteonUSB: SetHubFeature\n"); * // No HUB features supported * break; * case SetPortFeature: * DEBUG_ROOT_HUB("OcteonUSB: SetPortFeature"); * if (wIndex != 1) * { * DEBUG_ROOT_HUB(" INVALID\n"); * return -EINVAL; * } * * switch (wValue) * { * case USB_PORT_FEAT_SUSPEND: * DEBUG_ROOT_HUB(" SUSPEND\n"); * return -EINVAL; * case USB_PORT_FEAT_POWER: * DEBUG_ROOT_HUB(" POWER\n"); * return -EINVAL; * case USB_PORT_FEAT_RESET: * DEBUG_ROOT_HUB(" RESET\n"); * local_irq_save(flags); * cvmx_usb_disable(usb); * if (cvmx_usb_enable(usb)) * DEBUG_ERROR("Failed to enable the port\n"); * local_irq_restore(flags); * return 0; * case USB_PORT_FEAT_INDICATOR: * DEBUG_ROOT_HUB(" INDICATOR\n"); * // Not supported * break; * default: * DEBUG_ROOT_HUB(" UNKNOWN\n"); * return -EINVAL; * } * break; * default: * DEBUG_ROOT_HUB("OcteonUSB: Unknown root hub request\n"); * return -EINVAL; * } * return 0; * } * @endcode * * <h2>Interrupts</h2> * * If you plan on using usb interrupts, cvmx_usb_poll() must be * called on every usb interrupt. It will read the usb state, * call any needed callbacks, and schedule transactions as * needed. Your device driver needs only to hookup an interrupt * handler and call cvmx_usb_poll(). Octeon's usb port 0 causes * CIU bit CIU_INT*_SUM0[USB] to be set (bit 56). For port 1, * CIU bit CIU_INT_SUM1[USB1] is set (bit 17). How these bits * are turned into interrupt numbers is operating system * specific. For Linux, there are the convenient defines * OCTEON_IRQ_USB0 and OCTEON_IRQ_USB1 for the IRQ numbers. * * If you aren't using interrupts, simple call cvmx_usb_poll() * in your main processing loop. * * <hr>$Revision: 32636 $<hr> */ #ifndef __CVMX_USB_H__ #define __CVMX_USB_H__ #ifdef __cplusplus extern "C" { #endif /** * Enumerations representing the status of function calls. */ typedef enum { CVMX_USB_SUCCESS = 0, /**< There were no errors */ CVMX_USB_INVALID_PARAM = -1, /**< A parameter to the function was invalid */ CVMX_USB_NO_MEMORY = -2, /**< Insufficient resources were available for the request */ CVMX_USB_BUSY = -3, /**< The resource is busy and cannot service the request */ CVMX_USB_TIMEOUT = -4, /**< Waiting for an action timed out */ CVMX_USB_INCORRECT_MODE = -5, /**< The function call doesn't work in the current USB mode. This happens when host only functions are called in device mode or vice versa */ } cvmx_usb_status_t; /** * Enumerations representing the possible USB device speeds */ typedef enum { CVMX_USB_SPEED_HIGH = 0, /**< Device is operation at 480Mbps */ CVMX_USB_SPEED_FULL = 1, /**< Device is operation at 12Mbps */ CVMX_USB_SPEED_LOW = 2, /**< Device is operation at 1.5Mbps */ } cvmx_usb_speed_t; /** * Enumeration representing the possible USB transfer types. */ typedef enum { CVMX_USB_TRANSFER_CONTROL = 0, /**< USB transfer type control for hub and status transfers */ CVMX_USB_TRANSFER_ISOCHRONOUS = 1, /**< USB transfer type isochronous for low priority periodic transfers */ CVMX_USB_TRANSFER_BULK = 2, /**< USB transfer type bulk for large low priority transfers */ CVMX_USB_TRANSFER_INTERRUPT = 3, /**< USB transfer type interrupt for high priority periodic transfers */ } cvmx_usb_transfer_t; /** * Enumeration of the transfer directions */ typedef enum { CVMX_USB_DIRECTION_OUT, /**< Data is transferring from Octeon to the device/host */ CVMX_USB_DIRECTION_IN, /**< Data is transferring from the device/host to Octeon */ } cvmx_usb_direction_t; /** * Enumeration of all possible status codes passed to callback * functions. */ typedef enum { CVMX_USB_COMPLETE_SUCCESS, /**< The transaction / operation finished without any errors */ CVMX_USB_COMPLETE_SHORT, /**< FIXME: This is currently not implemented */ CVMX_USB_COMPLETE_CANCEL, /**< The transaction was canceled while in flight by a user call to cvmx_usb_cancel* */ CVMX_USB_COMPLETE_ERROR, /**< The transaction aborted with an unexpected error status */ CVMX_USB_COMPLETE_STALL, /**< The transaction received a USB STALL response from the device */ CVMX_USB_COMPLETE_XACTERR, /**< The transaction failed with an error from the device even after a number of retries */ CVMX_USB_COMPLETE_DATATGLERR, /**< The transaction failed with a data toggle error even after a number of retries */ CVMX_USB_COMPLETE_BABBLEERR, /**< The transaction failed with a babble error */ CVMX_USB_COMPLETE_FRAMEERR, /**< The transaction failed with a frame error even after a number of retries */ } cvmx_usb_complete_t; /** * Structure returned containing the USB port status information. */ typedef struct { uint32_t reserved : 25; uint32_t port_enabled : 1; /**< 1 = Usb port is enabled, 0 = disabled */ uint32_t port_over_current : 1; /**< 1 = Over current detected, 0 = Over current not detected. Octeon doesn't support over current detection */ uint32_t port_powered : 1; /**< 1 = Port power is being supplied to the device, 0 = power is off. Octeon doesn't support turning port power off */ cvmx_usb_speed_t port_speed : 2; /**< Current port speed */ uint32_t connected : 1; /**< 1 = A device is connected to the port, 0 = No device is connected */ uint32_t connect_change : 1; /**< 1 = Device connected state changed since the last set status call */ } cvmx_usb_port_status_t; /** * This is the structure of a Control packet header */ typedef union { uint64_t u64; struct { uint64_t request_type : 8; /**< Bit 7 tells the direction: 1=IN, 0=OUT */ uint64_t request : 8; /**< The standard usb request to make */ uint64_t value : 16; /**< Value parameter for the request in little endian format */ uint64_t index : 16; /**< Index for the request in little endian format */ uint64_t length : 16; /**< Length of the data associated with this request in little endian format */ } s; } cvmx_usb_control_header_t; /** * Descriptor for Isochronous packets */ typedef struct { int offset; /**< This is the offset in bytes into the main buffer where this data is stored */ int length; /**< This is the length in bytes of the data */ cvmx_usb_complete_t status; /**< This is the status of this individual packet transfer */ } cvmx_usb_iso_packet_t; /** * Possible callback reasons for the USB API. */ typedef enum { CVMX_USB_CALLBACK_TRANSFER_COMPLETE, /**< A callback of this type is called when a submitted transfer completes. The completion callback will be called even if the transfer fails or is canceled. The status parameter will contain details of why he callback was called. */ CVMX_USB_CALLBACK_PORT_CHANGED, /**< The status of the port changed. For example, someone may have plugged a device in. The status parameter contains CVMX_USB_COMPLETE_SUCCESS. Use cvmx_usb_get_status() to get the new port status. */ __CVMX_USB_CALLBACK_END /**< Do not use. Used internally for array bounds */ } cvmx_usb_callback_t; /** * USB state internal data. The contents of this structure * may change in future SDKs. No data in it should be referenced * by user's of this API. */ typedef struct { char data[65536]; } cvmx_usb_state_t; /** * USB callback functions are always of the following type. * The parameters are as follows: * - state = USB device state populated by * cvmx_usb_initialize(). * - reason = The cvmx_usb_callback_t used to register * the callback. * - status = The cvmx_usb_complete_t representing the * status code of a transaction. * - pipe_handle = The Pipe that caused this callback, or * -1 if this callback wasn't associated with a pipe. * - submit_handle = Transfer submit handle causing this * callback, or -1 if this callback wasn't associated * with a transfer. * - Actual number of bytes transfer. * - user_data = The user pointer supplied to the * function cvmx_usb_submit() or * cvmx_usb_register_callback() */ typedef void (*cvmx_usb_callback_func_t)(cvmx_usb_state_t *state, cvmx_usb_callback_t reason, cvmx_usb_complete_t status, int pipe_handle, int submit_handle, int bytes_transferred, void *user_data); /** * Flags to pass the initialization function. */ typedef enum { CVMX_USB_INITIALIZE_FLAGS_CLOCK_XO_XI = 1<<0, /**< The USB port uses a 12MHz crystal as clock source at USB_XO and USB_XI. */ CVMX_USB_INITIALIZE_FLAGS_CLOCK_XO_GND = 1<<1, /**< The USB port uses 12/24/48MHz 2.5V board clock source at USB_XO. USB_XI should be tied to GND.*/ CVMX_USB_INITIALIZE_FLAGS_CLOCK_AUTO = 0, /**< Automatically determine clock type based on function in cvmx-helper-board.c. */ CVMX_USB_INITIALIZE_FLAGS_CLOCK_MHZ_MASK = 3<<3, /**< Mask for clock speed field */ CVMX_USB_INITIALIZE_FLAGS_CLOCK_12MHZ = 1<<3, /**< Speed of reference clock or crystal */ CVMX_USB_INITIALIZE_FLAGS_CLOCK_24MHZ = 2<<3, /**< Speed of reference clock */ CVMX_USB_INITIALIZE_FLAGS_CLOCK_48MHZ = 3<<3, /**< Speed of reference clock */ /* Bits 3-4 used to encode the clock frequency */ CVMX_USB_INITIALIZE_FLAGS_NO_DMA = 1<<5, /**< Disable DMA and used polled IO for data transfer use for the USB */ CVMX_USB_INITIALIZE_FLAGS_DEBUG_TRANSFERS = 1<<16, /**< Enable extra console output for debugging USB transfers */ CVMX_USB_INITIALIZE_FLAGS_DEBUG_CALLBACKS = 1<<17, /**< Enable extra console output for debugging USB callbacks */ CVMX_USB_INITIALIZE_FLAGS_DEBUG_INFO = 1<<18, /**< Enable extra console output for USB informational data */ CVMX_USB_INITIALIZE_FLAGS_DEBUG_CALLS = 1<<19, /**< Enable extra console output for every function call */ CVMX_USB_INITIALIZE_FLAGS_DEBUG_CSRS = 1<<20, /**< Enable extra console output for every CSR access */ CVMX_USB_INITIALIZE_FLAGS_DEBUG_ALL = ((CVMX_USB_INITIALIZE_FLAGS_DEBUG_CSRS<<1)-1) - (CVMX_USB_INITIALIZE_FLAGS_DEBUG_TRANSFERS-1), } cvmx_usb_initialize_flags_t; /** * Flags for passing when a pipe is created. Currently no flags * need to be passed. */ typedef enum { CVMX_USB_PIPE_FLAGS_DEBUG_TRANSFERS = 1<<15,/**< Used to display CVMX_USB_INITIALIZE_FLAGS_DEBUG_TRANSFERS for a specific pipe only */ __CVMX_USB_PIPE_FLAGS_OPEN = 1<<16, /**< Used internally to determine if a pipe is open. Do not use */ __CVMX_USB_PIPE_FLAGS_SCHEDULED = 1<<17, /**< Used internally to determine if a pipe is actively using hardware. Do not use */ __CVMX_USB_PIPE_FLAGS_NEED_PING = 1<<18, /**< Used internally to determine if a high speed pipe is in the ping state. Do not use */ } cvmx_usb_pipe_flags_t; /** * Return the number of USB ports supported by this Octeon * chip. If the chip doesn't support USB, or is not supported * by this API, a zero will be returned. Most Octeon chips * support one usb port, but some support two ports. * cvmx_usb_initialize() must be called on independent * cvmx_usb_state_t structures. * * @return Number of port, zero if usb isn't supported */ extern int cvmx_usb_get_num_ports(void); /** * Initialize a USB port for use. This must be called before any * other access to the Octeon USB port is made. The port starts * off in the disabled state. * * @param state Pointer to an empty cvmx_usb_state_t structure * that will be populated by the initialize call. * This structure is then passed to all other USB * functions. * @param usb_port_number * Which Octeon USB port to initialize. * @param flags Flags to control hardware initialization. See * cvmx_usb_initialize_flags_t for the flag * definitions. Some flags are mandatory. * * @return CVMX_USB_SUCCESS or a negative error code defined in * cvmx_usb_status_t. */ extern cvmx_usb_status_t cvmx_usb_initialize(cvmx_usb_state_t *state, int usb_port_number, cvmx_usb_initialize_flags_t flags); /** * Shutdown a USB port after a call to cvmx_usb_initialize(). * The port should be disabled with all pipes closed when this * function is called. * * @param state USB device state populated by * cvmx_usb_initialize(). * * @return CVMX_USB_SUCCESS or a negative error code defined in * cvmx_usb_status_t. */ extern cvmx_usb_status_t cvmx_usb_shutdown(cvmx_usb_state_t *state); /** * Enable a USB port. After this call succeeds, the USB port is * online and servicing requests. * * @param state USB device state populated by * cvmx_usb_initialize(). * * @return CVMX_USB_SUCCESS or a negative error code defined in * cvmx_usb_status_t. */ extern cvmx_usb_status_t cvmx_usb_enable(cvmx_usb_state_t *state); /** * Disable a USB port. After this call the USB port will not * generate data transfers and will not generate events. * Transactions in process will fail and call their * associated callbacks. * * @param state USB device state populated by * cvmx_usb_initialize(). * * @return CVMX_USB_SUCCESS or a negative error code defined in * cvmx_usb_status_t. */ extern cvmx_usb_status_t cvmx_usb_disable(cvmx_usb_state_t *state); /** * Get the current state of the USB port. Use this call to * determine if the usb port has anything connected, is enabled, * or has some sort of error condition. The return value of this * call has "changed" bits to signal of the value of some fields * have changed between calls. These "changed" fields are based * on the last call to cvmx_usb_set_status(). In order to clear * them, you must update the status through cvmx_usb_set_status(). * * @param state USB device state populated by * cvmx_usb_initialize(). * * @return Port status information */ extern cvmx_usb_port_status_t cvmx_usb_get_status(cvmx_usb_state_t *state); /** * Set the current state of the USB port. The status is used as * a reference for the "changed" bits returned by * cvmx_usb_get_status(). Other than serving as a reference, the * status passed to this function is not used. No fields can be * changed through this call. * * @param state USB device state populated by * cvmx_usb_initialize(). * @param port_status * Port status to set, most like returned by cvmx_usb_get_status() */ extern void cvmx_usb_set_status(cvmx_usb_state_t *state, cvmx_usb_port_status_t port_status); /** * Open a virtual pipe between the host and a USB device. A pipe * must be opened before data can be transferred between a device * and Octeon. * * @param state USB device state populated by * cvmx_usb_initialize(). * @param flags Optional pipe flags defined in * cvmx_usb_pipe_flags_t. * @param device_addr * USB device address to open the pipe to * (0-127). * @param endpoint_num * USB endpoint number to open the pipe to * (0-15). * @param device_speed * The speed of the device the pipe is going * to. This must match the device's speed, * which may be different than the port speed. * @param max_packet The maximum packet length the device can * transmit/receive (low speed=0-8, full * speed=0-1023, high speed=0-1024). This value * comes from the standard endpoint descriptor * field wMaxPacketSize bits <10:0>. * @param transfer_type * The type of transfer this pipe is for. * @param transfer_dir * The direction the pipe is in. This is not * used for control pipes. * @param interval For ISOCHRONOUS and INTERRUPT transfers, * this is how often the transfer is scheduled * for. All other transfers should specify * zero. The units are in frames (8000/sec at * high speed, 1000/sec for full speed). * @param multi_count * For high speed devices, this is the maximum * allowed number of packet per microframe. * Specify zero for non high speed devices. This * value comes from the standard endpoint descriptor * field wMaxPacketSize bits <12:11>. * @param hub_device_addr * Hub device address this device is connected * to. Devices connected directly to Octeon * use zero. This is only used when the device * is full/low speed behind a high speed hub. * The address will be of the high speed hub, * not and full speed hubs after it. * @param hub_port Which port on the hub the device is * connected. Use zero for devices connected * directly to Octeon. Like hub_device_addr, * this is only used for full/low speed * devices behind a high speed hub. * * @return A non negative value is a pipe handle. Negative * values are failure codes from cvmx_usb_status_t. */ extern int cvmx_usb_open_pipe(cvmx_usb_state_t *state, cvmx_usb_pipe_flags_t flags, int device_addr, int endpoint_num, cvmx_usb_speed_t device_speed, int max_packet, cvmx_usb_transfer_t transfer_type, cvmx_usb_direction_t transfer_dir, int interval, int multi_count, int hub_device_addr, int hub_port); /** * Call to submit a USB Bulk transfer to a pipe. * * @param state USB device state populated by * cvmx_usb_initialize(). * @param pipe_handle * Handle to the pipe for the transfer. * @param buffer Physical address of the data buffer in * memory. Note that this is NOT A POINTER, but * the full 64bit physical address of the * buffer. This may be zero if buffer_length is * zero. * @param buffer_length * Length of buffer in bytes. * @param callback Function to call when this transaction * completes. If the return value of this * function isn't an error, then this function * is guaranteed to be called when the * transaction completes. If this parameter is * NULL, then the generic callback registered * through cvmx_usb_register_callback is * called. If both are NULL, then there is no * way to know when a transaction completes. * @param user_data User supplied data returned when the * callback is called. This is only used if * callback in not NULL. * * @return A submitted transaction handle or negative on * failure. Negative values are failure codes from * cvmx_usb_status_t. */ extern int cvmx_usb_submit_bulk(cvmx_usb_state_t *state, int pipe_handle, uint64_t buffer, int buffer_length, cvmx_usb_callback_func_t callback, void *user_data); /** * Call to submit a USB Interrupt transfer to a pipe. * * @param state USB device state populated by * cvmx_usb_initialize(). * @param pipe_handle * Handle to the pipe for the transfer. * @param buffer Physical address of the data buffer in * memory. Note that this is NOT A POINTER, but * the full 64bit physical address of the * buffer. This may be zero if buffer_length is * zero. * @param buffer_length * Length of buffer in bytes. * @param callback Function to call when this transaction * completes. If the return value of this * function isn't an error, then this function * is guaranteed to be called when the * transaction completes. If this parameter is * NULL, then the generic callback registered * through cvmx_usb_register_callback is * called. If both are NULL, then there is no * way to know when a transaction completes. * @param user_data User supplied data returned when the * callback is called. This is only used if * callback in not NULL. * * @return A submitted transaction handle or negative on * failure. Negative values are failure codes from * cvmx_usb_status_t. */ extern int cvmx_usb_submit_interrupt(cvmx_usb_state_t *state, int pipe_handle, uint64_t buffer, int buffer_length, cvmx_usb_callback_func_t callback, void *user_data); /** * Call to submit a USB Control transfer to a pipe. * * @param state USB device state populated by * cvmx_usb_initialize(). * @param pipe_handle * Handle to the pipe for the transfer. * @param control_header * USB 8 byte control header physical address. * Note that this is NOT A POINTER, but the * full 64bit physical address of the buffer. * @param buffer Physical address of the data buffer in * memory. Note that this is NOT A POINTER, but * the full 64bit physical address of the * buffer. This may be zero if buffer_length is * zero. * @param buffer_length * Length of buffer in bytes. * @param callback Function to call when this transaction * completes. If the return value of this * function isn't an error, then this function * is guaranteed to be called when the * transaction completes. If this parameter is * NULL, then the generic callback registered * through cvmx_usb_register_callback is * called. If both are NULL, then there is no * way to know when a transaction completes. * @param user_data User supplied data returned when the * callback is called. This is only used if * callback in not NULL. * * @return A submitted transaction handle or negative on * failure. Negative values are failure codes from * cvmx_usb_status_t. */ extern int cvmx_usb_submit_control(cvmx_usb_state_t *state, int pipe_handle, uint64_t control_header, uint64_t buffer, int buffer_length, cvmx_usb_callback_func_t callback, void *user_data); /** * Flags to pass the cvmx_usb_submit_isochronous() function. */ typedef enum { CVMX_USB_ISOCHRONOUS_FLAGS_ALLOW_SHORT = 1<<0, /**< Do not return an error if a transfer is less than the maximum packet size of the device */ CVMX_USB_ISOCHRONOUS_FLAGS_ASAP = 1<<1, /**< Schedule the transaction as soon as possible */ } cvmx_usb_isochronous_flags_t; /** * Call to submit a USB Isochronous transfer to a pipe. * * @param state USB device state populated by * cvmx_usb_initialize(). * @param pipe_handle * Handle to the pipe for the transfer. * @param start_frame * Number of frames into the future to schedule * this transaction. * @param flags Flags to control the transfer. See * cvmx_usb_isochronous_flags_t for the flag * definitions. * @param number_packets * Number of sequential packets to transfer. * "packets" is a pointer to an array of this * many packet structures. * @param packets Description of each transfer packet as * defined by cvmx_usb_iso_packet_t. The array * pointed to here must stay valid until the * complete callback is called. * @param buffer Physical address of the data buffer in * memory. Note that this is NOT A POINTER, but * the full 64bit physical address of the * buffer. This may be zero if buffer_length is * zero. * @param buffer_length * Length of buffer in bytes. * @param callback Function to call when this transaction * completes. If the return value of this * function isn't an error, then this function * is guaranteed to be called when the * transaction completes. If this parameter is * NULL, then the generic callback registered * through cvmx_usb_register_callback is * called. If both are NULL, then there is no * way to know when a transaction completes. * @param user_data User supplied data returned when the * callback is called. This is only used if * callback in not NULL. * * @return A submitted transaction handle or negative on * failure. Negative values are failure codes from * cvmx_usb_status_t. */ extern int cvmx_usb_submit_isochronous(cvmx_usb_state_t *state, int pipe_handle, int start_frame, int flags, int number_packets, cvmx_usb_iso_packet_t packets[], uint64_t buffer, int buffer_length, cvmx_usb_callback_func_t callback, void *user_data); /** * Cancel one outstanding request in a pipe. Canceling a request * can fail if the transaction has already completed before cancel * is called. Even after a successful cancel call, it may take * a frame or two for the cvmx_usb_poll() function to call the * associated callback. * * @param state USB device state populated by * cvmx_usb_initialize(). * @param pipe_handle * Pipe handle to cancel requests in. * @param submit_handle * Handle to transaction to cancel, returned by the submit function. * * @return CVMX_USB_SUCCESS or a negative error code defined in * cvmx_usb_status_t. */ extern cvmx_usb_status_t cvmx_usb_cancel(cvmx_usb_state_t *state, int pipe_handle, int submit_handle); /** * Cancel all outstanding requests in a pipe. Logically all this * does is call cvmx_usb_cancel() in a loop. * * @param state USB device state populated by * cvmx_usb_initialize(). * @param pipe_handle * Pipe handle to cancel requests in. * * @return CVMX_USB_SUCCESS or a negative error code defined in * cvmx_usb_status_t. */ extern cvmx_usb_status_t cvmx_usb_cancel_all(cvmx_usb_state_t *state, int pipe_handle); /** * Close a pipe created with cvmx_usb_open_pipe(). * * @param state USB device state populated by * cvmx_usb_initialize(). * @param pipe_handle * Pipe handle to close. * * @return CVMX_USB_SUCCESS or a negative error code defined in * cvmx_usb_status_t. CVMX_USB_BUSY is returned if the * pipe has outstanding transfers. */ extern cvmx_usb_status_t cvmx_usb_close_pipe(cvmx_usb_state_t *state, int pipe_handle); /** * Register a function to be called when various USB events occur. * * @param state USB device state populated by * cvmx_usb_initialize(). * @param reason Which event to register for. * @param callback Function to call when the event occurs. * @param user_data User data parameter to the function. * * @return CVMX_USB_SUCCESS or a negative error code defined in * cvmx_usb_status_t. */ extern cvmx_usb_status_t cvmx_usb_register_callback(cvmx_usb_state_t *state, cvmx_usb_callback_t reason, cvmx_usb_callback_func_t callback, void *user_data); /** * Get the current USB protocol level frame number. The frame * number is always in the range of 0-0x7ff. * * @param state USB device state populated by * cvmx_usb_initialize(). * * @return USB frame number */ extern int cvmx_usb_get_frame_number(cvmx_usb_state_t *state); /** * Poll the USB block for status and call all needed callback * handlers. This function is meant to be called in the interrupt * handler for the USB controller. It can also be called * periodically in a loop for non-interrupt based operation. * * @param state USB device state populated by * cvmx_usb_initialize(). * * @return CVMX_USB_SUCCESS or a negative error code defined in * cvmx_usb_status_t. */ extern cvmx_usb_status_t cvmx_usb_poll(cvmx_usb_state_t *state); /* * The FreeBSD host driver uses these functions to manipulate the toggle to deal * more easily with endpoint management. */ extern void cvmx_usb_set_toggle(cvmx_usb_state_t *state, int endpoint_num, int toggle); extern int cvmx_usb_get_toggle(cvmx_usb_state_t *state, int endpoint_num); #ifdef __cplusplus } #endif #endif /* __CVMX_USB_H__ */