diff options
Diffstat (limited to 'target/linux/octeon/files-3.10/drivers')
8 files changed, 0 insertions, 7608 deletions
diff --git a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/Kconfig b/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/Kconfig deleted file mode 100644 index 018af6db08..0000000000 --- a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/Kconfig +++ /dev/null @@ -1,10 +0,0 @@ -config OCTEON_USB - tristate "Cavium Networks Octeon USB support" - depends on CPU_CAVIUM_OCTEON && USB - help - This driver supports USB host controller on some Cavium - Networks' products in the Octeon family. - - To compile this driver as a module, choose M here. The module - will be called octeon-usb. - diff --git a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/Makefile b/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/Makefile deleted file mode 100644 index 89df1ad8be..0000000000 --- a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/Makefile +++ /dev/null @@ -1,3 +0,0 @@ -obj-${CONFIG_OCTEON_USB} := octeon-usb.o -octeon-usb-y := octeon-hcd.o -octeon-usb-y += cvmx-usb.o diff --git a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/TODO b/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/TODO deleted file mode 100644 index cc58a7e88b..0000000000 --- a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/TODO +++ /dev/null @@ -1,11 +0,0 @@ -This driver is functional and has been tested on EdgeRouter Lite with -USB mass storage. - -TODO: - - kernel coding style - - checkpatch warnings - - dead code elimination - - device tree bindings - - possibly eliminate the extra "hardware abstraction layer" - -Contact: Aaro Koskinen <aaro.koskinen@iki.fi> diff --git a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/cvmx-usb.c b/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/cvmx-usb.c deleted file mode 100644 index bf366495fd..0000000000 --- a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/cvmx-usb.c +++ /dev/null @@ -1,3229 +0,0 @@ -/***********************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.c" 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. - * - * <hr>$Revision: 32636 $<hr> - */ -#include <linux/delay.h> -#include <asm/octeon/cvmx.h> -#include <asm/octeon/octeon.h> -#include <asm/octeon/cvmx-sysinfo.h> -#include "cvmx-usbnx-defs.h" -#include "cvmx-usbcx-defs.h" -#include "cvmx-usb.h" -#include <asm/octeon/cvmx-helper.h> -#include <asm/octeon/cvmx-helper-board.h> - -#define CVMX_PREFETCH0(address) CVMX_PREFETCH(address, 0) -#define CVMX_PREFETCH128(address) CVMX_PREFETCH(address, 128) -// a normal prefetch -#define CVMX_PREFETCH(address, offset) CVMX_PREFETCH_PREF0(address, offset) -// normal prefetches that use the pref instruction -#define CVMX_PREFETCH_PREFX(X, address, offset) asm volatile ("pref %[type], %[off](%[rbase])" : : [rbase] "d" (address), [off] "I" (offset), [type] "n" (X)) -#define CVMX_PREFETCH_PREF0(address, offset) CVMX_PREFETCH_PREFX(0, address, offset) -#define CVMX_CLZ(result, input) asm ("clz %[rd],%[rs]" : [rd] "=d" (result) : [rs] "d" (input)) - -#define cvmx_likely likely -#define cvmx_wait_usec udelay -#define cvmx_unlikely unlikely -#define cvmx_le16_to_cpu le16_to_cpu - -#define MAX_RETRIES 3 /* Maximum number of times to retry failed transactions */ -#define MAX_PIPES 32 /* Maximum number of pipes that can be open at once */ -#define MAX_TRANSACTIONS 256 /* Maximum number of outstanding transactions across all pipes */ -#define MAX_CHANNELS 8 /* Maximum number of hardware channels supported by the USB block */ -#define MAX_USB_ADDRESS 127 /* The highest valid USB device address */ -#define MAX_USB_ENDPOINT 15 /* The highest valid USB endpoint number */ -#define MAX_USB_HUB_PORT 15 /* The highest valid port number on a hub */ -#define MAX_TRANSFER_BYTES ((1<<19)-1) /* The low level hardware can transfer a maximum of this number of bytes in each transfer. The field is 19 bits wide */ -#define MAX_TRANSFER_PACKETS ((1<<10)-1) /* The low level hardware can transfer a maximum of this number of packets in each transfer. The field is 10 bits wide */ - -/* These defines disable the normal read and write csr. This is so I can add - extra debug stuff to the usb specific version and I won't use the normal - version by mistake */ -#define cvmx_read_csr use_cvmx_usb_read_csr64_instead_of_cvmx_read_csr -#define cvmx_write_csr use_cvmx_usb_write_csr64_instead_of_cvmx_write_csr - -typedef enum { - __CVMX_USB_TRANSACTION_FLAGS_IN_USE = 1<<16, -} cvmx_usb_transaction_flags_t; - -enum { - USB_CLOCK_TYPE_REF_12, - USB_CLOCK_TYPE_REF_24, - USB_CLOCK_TYPE_REF_48, - USB_CLOCK_TYPE_CRYSTAL_12, -}; - -/** - * Logical transactions may take numerous low level - * transactions, especially when splits are concerned. This - * enum represents all of the possible stages a transaction can - * be in. Note that split completes are always even. This is so - * the NAK handler can backup to the previous low level - * transaction with a simple clearing of bit 0. - */ -typedef enum { - CVMX_USB_STAGE_NON_CONTROL, - CVMX_USB_STAGE_NON_CONTROL_SPLIT_COMPLETE, - CVMX_USB_STAGE_SETUP, - CVMX_USB_STAGE_SETUP_SPLIT_COMPLETE, - CVMX_USB_STAGE_DATA, - CVMX_USB_STAGE_DATA_SPLIT_COMPLETE, - CVMX_USB_STAGE_STATUS, - CVMX_USB_STAGE_STATUS_SPLIT_COMPLETE, -} cvmx_usb_stage_t; - -/** - * This structure describes each pending USB transaction - * regardless of type. These are linked together to form a list - * of pending requests for a pipe. - */ -typedef struct cvmx_usb_transaction { - struct cvmx_usb_transaction *prev; /**< Transaction before this one in the pipe */ - struct cvmx_usb_transaction *next; /**< Transaction after this one in the pipe */ - cvmx_usb_transfer_t type; /**< Type of transaction, duplicated of the pipe */ - cvmx_usb_transaction_flags_t flags; /**< State flags for this transaction */ - uint64_t buffer; /**< User's physical buffer address to read/write */ - int buffer_length; /**< Size of the user's buffer in bytes */ - uint64_t control_header; /**< For control transactions, physical address of the 8 byte standard header */ - int iso_start_frame; /**< For ISO transactions, the starting frame number */ - int iso_number_packets; /**< For ISO transactions, the number of packets in the request */ - cvmx_usb_iso_packet_t *iso_packets; /**< For ISO transactions, the sub packets in the request */ - int xfersize; - int pktcnt; - int retries; - int actual_bytes; /**< Actual bytes transfer for this transaction */ - cvmx_usb_stage_t stage; /**< For control transactions, the current stage */ - cvmx_usb_callback_func_t callback; /**< User's callback function when complete */ - void *callback_data; /**< User's data */ -} cvmx_usb_transaction_t; - -/** - * A pipe represents a virtual connection between Octeon and some - * USB device. It contains a list of pending request to the device. - */ -typedef struct cvmx_usb_pipe { - struct cvmx_usb_pipe *prev; /**< Pipe before this one in the list */ - struct cvmx_usb_pipe *next; /**< Pipe after this one in the list */ - cvmx_usb_transaction_t *head; /**< The first pending transaction */ - cvmx_usb_transaction_t *tail; /**< The last pending transaction */ - uint64_t interval; /**< For periodic pipes, the interval between packets in frames */ - uint64_t next_tx_frame; /**< The next frame this pipe is allowed to transmit on */ - cvmx_usb_pipe_flags_t flags; /**< State flags for this pipe */ - cvmx_usb_speed_t device_speed; /**< Speed of device connected to this pipe */ - cvmx_usb_transfer_t transfer_type; /**< Type of transaction supported by this pipe */ - cvmx_usb_direction_t transfer_dir; /**< IN or OUT. Ignored for Control */ - int multi_count; /**< Max packet in a row for the device */ - uint16_t max_packet; /**< The device's maximum packet size in bytes */ - uint8_t device_addr; /**< USB device address at other end of pipe */ - uint8_t endpoint_num; /**< USB endpoint number at other end of pipe */ - uint8_t hub_device_addr; /**< Hub address this device is connected to */ - uint8_t hub_port; /**< Hub port this device is connected to */ - uint8_t pid_toggle; /**< This toggles between 0/1 on every packet send to track the data pid needed */ - uint8_t channel; /**< Hardware DMA channel for this pipe */ - int8_t split_sc_frame; /**< The low order bits of the frame number the split complete should be sent on */ -} cvmx_usb_pipe_t; - -typedef struct { - cvmx_usb_pipe_t *head; /**< Head of the list, or NULL if empty */ - cvmx_usb_pipe_t *tail; /**< Tail if the list, or NULL if empty */ -} cvmx_usb_pipe_list_t; - -typedef struct { - struct { - int channel; - int size; - uint64_t address; - } entry[MAX_CHANNELS+1]; - int head; - int tail; -} cvmx_usb_tx_fifo_t; - -/** - * The state of the USB block is stored in this structure - */ -typedef struct { - int init_flags; /**< Flags passed to initialize */ - int index; /**< Which USB block this is for */ - int idle_hardware_channels; /**< Bit set for every idle hardware channel */ - cvmx_usbcx_hprt_t usbcx_hprt; /**< Stored port status so we don't need to read a CSR to determine splits */ - cvmx_usb_pipe_t *pipe_for_channel[MAX_CHANNELS]; /**< Map channels to pipes */ - cvmx_usb_transaction_t *free_transaction_head; /**< List of free transactions head */ - cvmx_usb_transaction_t *free_transaction_tail; /**< List of free transactions tail */ - cvmx_usb_pipe_t pipe[MAX_PIPES]; /**< Storage for pipes */ - cvmx_usb_transaction_t transaction[MAX_TRANSACTIONS]; /**< Storage for transactions */ - cvmx_usb_callback_func_t callback[__CVMX_USB_CALLBACK_END]; /**< User global callbacks */ - void *callback_data[__CVMX_USB_CALLBACK_END]; /**< User data for each callback */ - int indent; /**< Used by debug output to indent functions */ - cvmx_usb_port_status_t port_status; /**< Last port status used for change notification */ - cvmx_usb_pipe_list_t free_pipes; /**< List of all pipes that are currently closed */ - cvmx_usb_pipe_list_t idle_pipes; /**< List of open pipes that have no transactions */ - cvmx_usb_pipe_list_t active_pipes[4]; /**< Active pipes indexed by transfer type */ - uint64_t frame_number; /**< Increments every SOF interrupt for time keeping */ - cvmx_usb_transaction_t *active_split; /**< Points to the current active split, or NULL */ - cvmx_usb_tx_fifo_t periodic; - cvmx_usb_tx_fifo_t nonperiodic; -} cvmx_usb_internal_state_t; - -/* This macro logs out whenever a function is called if debugging is on */ -#define CVMX_USB_LOG_CALLED() \ - if (cvmx_unlikely(usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_CALLS)) \ - cvmx_dprintf("%*s%s: called\n", 2*usb->indent++, "", __FUNCTION__); - -/* This macro logs out each function parameter if debugging is on */ -#define CVMX_USB_LOG_PARAM(format, param) \ - if (cvmx_unlikely(usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_CALLS)) \ - cvmx_dprintf("%*s%s: param %s = " format "\n", 2*usb->indent, "", __FUNCTION__, #param, param); - -/* This macro logs out when a function returns a value */ -#define CVMX_USB_RETURN(v) \ - do { \ - typeof(v) r = v; \ - if (cvmx_unlikely(usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_CALLS)) \ - cvmx_dprintf("%*s%s: returned %s(%d)\n", 2*--usb->indent, "", __FUNCTION__, #v, r); \ - return r; \ - } while (0); - -/* This macro logs out when a function doesn't return a value */ -#define CVMX_USB_RETURN_NOTHING() \ - do { \ - if (cvmx_unlikely(usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_CALLS)) \ - cvmx_dprintf("%*s%s: returned\n", 2*--usb->indent, "", __FUNCTION__); \ - return; \ - } while (0); - -/* This macro spins on a field waiting for it to reach a value */ -#define CVMX_WAIT_FOR_FIELD32(address, type, field, op, value, timeout_usec)\ - ({int result; \ - do { \ - uint64_t done = cvmx_get_cycle() + (uint64_t)timeout_usec * \ - octeon_get_clock_rate() / 1000000; \ - type c; \ - while (1) \ - { \ - c.u32 = __cvmx_usb_read_csr32(usb, address); \ - if (c.s.field op (value)) { \ - result = 0; \ - break; \ - } else if (cvmx_get_cycle() > done) { \ - result = -1; \ - break; \ - } else \ - cvmx_wait(100); \ - } \ - } while (0); \ - result;}) - -/* This macro logically sets a single field in a CSR. It does the sequence - read, modify, and write */ -#define USB_SET_FIELD32(address, type, field, value)\ - do { \ - type c; \ - c.u32 = __cvmx_usb_read_csr32(usb, address);\ - c.s.field = value; \ - __cvmx_usb_write_csr32(usb, address, c.u32);\ - } while (0) - -/* Returns the IO address to push/pop stuff data from the FIFOs */ -#define USB_FIFO_ADDRESS(channel, usb_index) (CVMX_USBCX_GOTGCTL(usb_index) + ((channel)+1)*0x1000) - -static int octeon_usb_get_clock_type(void) -{ - switch (cvmx_sysinfo_get()->board_type) { - case CVMX_BOARD_TYPE_BBGW_REF: - case CVMX_BOARD_TYPE_LANAI2_A: - case CVMX_BOARD_TYPE_LANAI2_U: - case CVMX_BOARD_TYPE_LANAI2_G: - return USB_CLOCK_TYPE_CRYSTAL_12; - } - - /* FIXME: This should use CVMX_BOARD_TYPE_UBNT_E100 */ - if (OCTEON_IS_MODEL(OCTEON_CN50XX) && - cvmx_sysinfo_get()->board_type == 20002) - return USB_CLOCK_TYPE_CRYSTAL_12; - - return USB_CLOCK_TYPE_REF_48; -} - -/** - * @INTERNAL - * Read a USB 32bit CSR. It performs the necessary address swizzle - * for 32bit CSRs and logs the value in a readable format if - * debugging is on. - * - * @param usb USB block this access is for - * @param address 64bit address to read - * - * @return Result of the read - */ -static inline uint32_t __cvmx_usb_read_csr32(cvmx_usb_internal_state_t *usb, - uint64_t address) -{ - uint32_t result = cvmx_read64_uint32(address ^ 4); - return result; -} - - -/** - * @INTERNAL - * Write a USB 32bit CSR. It performs the necessary address - * swizzle for 32bit CSRs and logs the value in a readable format - * if debugging is on. - * - * @param usb USB block this access is for - * @param address 64bit address to write - * @param value Value to write - */ -static inline void __cvmx_usb_write_csr32(cvmx_usb_internal_state_t *usb, - uint64_t address, uint32_t value) -{ - cvmx_write64_uint32(address ^ 4, value); - cvmx_read64_uint64(CVMX_USBNX_DMA0_INB_CHN0(usb->index)); -} - - -/** - * @INTERNAL - * Read a USB 64bit CSR. It logs the value in a readable format if - * debugging is on. - * - * @param usb USB block this access is for - * @param address 64bit address to read - * - * @return Result of the read - */ -static inline uint64_t __cvmx_usb_read_csr64(cvmx_usb_internal_state_t *usb, - uint64_t address) -{ - uint64_t result = cvmx_read64_uint64(address); - return result; -} - - -/** - * @INTERNAL - * Write a USB 64bit CSR. It logs the value in a readable format - * if debugging is on. - * - * @param usb USB block this access is for - * @param address 64bit address to write - * @param value Value to write - */ -static inline void __cvmx_usb_write_csr64(cvmx_usb_internal_state_t *usb, - uint64_t address, uint64_t value) -{ - cvmx_write64_uint64(address, value); -} - - -/** - * @INTERNAL - * Utility function to convert complete codes into strings - * - * @param complete_code - * Code to convert - * - * @return Human readable string - */ -static const char *__cvmx_usb_complete_to_string(cvmx_usb_complete_t complete_code) -{ - switch (complete_code) - { - case CVMX_USB_COMPLETE_SUCCESS: return "SUCCESS"; - case CVMX_USB_COMPLETE_SHORT: return "SHORT"; - case CVMX_USB_COMPLETE_CANCEL: return "CANCEL"; - case CVMX_USB_COMPLETE_ERROR: return "ERROR"; - case CVMX_USB_COMPLETE_STALL: return "STALL"; - case CVMX_USB_COMPLETE_XACTERR: return "XACTERR"; - case CVMX_USB_COMPLETE_DATATGLERR: return "DATATGLERR"; - case CVMX_USB_COMPLETE_BABBLEERR: return "BABBLEERR"; - case CVMX_USB_COMPLETE_FRAMEERR: return "FRAMEERR"; - } - return "Update __cvmx_usb_complete_to_string"; -} - - -/** - * @INTERNAL - * Return non zero if this pipe connects to a non HIGH speed - * device through a high speed hub. - * - * @param usb USB block this access is for - * @param pipe Pipe to check - * - * @return Non zero if we need to do split transactions - */ -static inline int __cvmx_usb_pipe_needs_split(cvmx_usb_internal_state_t *usb, cvmx_usb_pipe_t *pipe) -{ - return ((pipe->device_speed != CVMX_USB_SPEED_HIGH) && (usb->usbcx_hprt.s.prtspd == CVMX_USB_SPEED_HIGH)); -} - - -/** - * @INTERNAL - * Trivial utility function to return the correct PID for a pipe - * - * @param pipe pipe to check - * - * @return PID for pipe - */ -static inline int __cvmx_usb_get_data_pid(cvmx_usb_pipe_t *pipe) -{ - if (pipe->pid_toggle) - return 2; /* Data1 */ - else - return 0; /* Data0 */ -} - - -/** - * 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 - */ -int cvmx_usb_get_num_ports(void) -{ - int arch_ports = 0; - - if (OCTEON_IS_MODEL(OCTEON_CN56XX)) - arch_ports = 1; - else if (OCTEON_IS_MODEL(OCTEON_CN52XX)) - arch_ports = 2; - else if (OCTEON_IS_MODEL(OCTEON_CN50XX)) - arch_ports = 1; - else if (OCTEON_IS_MODEL(OCTEON_CN31XX)) - arch_ports = 1; - else if (OCTEON_IS_MODEL(OCTEON_CN30XX)) - arch_ports = 1; - else - arch_ports = 0; - - return arch_ports; -} - - -/** - * @INTERNAL - * Allocate a usb transaction for use - * - * @param usb USB device state populated by - * cvmx_usb_initialize(). - * - * @return Transaction or NULL - */ -static inline cvmx_usb_transaction_t *__cvmx_usb_alloc_transaction(cvmx_usb_internal_state_t *usb) -{ - cvmx_usb_transaction_t *t; - t = usb->free_transaction_head; - if (t) { - usb->free_transaction_head = t->next; - if (!usb->free_transaction_head) - usb->free_transaction_tail = NULL; - } - else if (cvmx_unlikely(usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_INFO)) - cvmx_dprintf("%s: Failed to allocate a transaction\n", __FUNCTION__); - if (t) { - memset(t, 0, sizeof(*t)); - t->flags = __CVMX_USB_TRANSACTION_FLAGS_IN_USE; - } - return t; -} - - -/** - * @INTERNAL - * Free a usb transaction - * - * @param usb USB device state populated by - * cvmx_usb_initialize(). - * @param transaction - * Transaction to free - */ -static inline void __cvmx_usb_free_transaction(cvmx_usb_internal_state_t *usb, - cvmx_usb_transaction_t *transaction) -{ - transaction->flags = 0; - transaction->prev = NULL; - transaction->next = NULL; - if (usb->free_transaction_tail) - usb->free_transaction_tail->next = transaction; - else - usb->free_transaction_head = transaction; - usb->free_transaction_tail = transaction; -} - - -/** - * @INTERNAL - * Add a pipe to the tail of a list - * @param list List to add pipe to - * @param pipe Pipe to add - */ -static inline void __cvmx_usb_append_pipe(cvmx_usb_pipe_list_t *list, cvmx_usb_pipe_t *pipe) -{ - pipe->next = NULL; - pipe->prev = list->tail; - if (list->tail) - list->tail->next = pipe; - else - list->head = pipe; - list->tail = pipe; -} - - -/** - * @INTERNAL - * Remove a pipe from a list - * @param list List to remove pipe from - * @param pipe Pipe to remove - */ -static inline void __cvmx_usb_remove_pipe(cvmx_usb_pipe_list_t *list, cvmx_usb_pipe_t *pipe) -{ - if (list->head == pipe) { - list->head = pipe->next; - pipe->next = NULL; - if (list->head) - list->head->prev = NULL; - else - list->tail = NULL; - } - else if (list->tail == pipe) { - list->tail = pipe->prev; - list->tail->next = NULL; - pipe->prev = NULL; - } - else { - pipe->prev->next = pipe->next; - pipe->next->prev = pipe->prev; - pipe->prev = NULL; - pipe->next = NULL; - } -} - - -/** - * 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. - */ -cvmx_usb_status_t cvmx_usb_initialize(cvmx_usb_state_t *state, - int usb_port_number, - cvmx_usb_initialize_flags_t flags) -{ - cvmx_usbnx_clk_ctl_t usbn_clk_ctl; - cvmx_usbnx_usbp_ctl_status_t usbn_usbp_ctl_status; - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - - usb->init_flags = flags; - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - CVMX_USB_LOG_PARAM("%d", usb_port_number); - CVMX_USB_LOG_PARAM("0x%x", flags); - - /* Make sure that state is large enough to store the internal state */ - if (sizeof(*state) < sizeof(*usb)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - /* At first allow 0-1 for the usb port number */ - if ((usb_port_number < 0) || (usb_port_number > 1)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - /* For all chips except 52XX there is only one port */ - if (!OCTEON_IS_MODEL(OCTEON_CN52XX) && (usb_port_number > 0)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - /* Try to determine clock type automatically */ - if ((flags & (CVMX_USB_INITIALIZE_FLAGS_CLOCK_XO_XI | - CVMX_USB_INITIALIZE_FLAGS_CLOCK_XO_GND)) == 0) { - if (octeon_usb_get_clock_type() == USB_CLOCK_TYPE_CRYSTAL_12) - flags |= CVMX_USB_INITIALIZE_FLAGS_CLOCK_XO_XI; /* Only 12 MHZ crystals are supported */ - else - flags |= CVMX_USB_INITIALIZE_FLAGS_CLOCK_XO_GND; - } - - if (flags & CVMX_USB_INITIALIZE_FLAGS_CLOCK_XO_GND) { - /* Check for auto ref clock frequency */ - if (!(flags & CVMX_USB_INITIALIZE_FLAGS_CLOCK_MHZ_MASK)) - switch (octeon_usb_get_clock_type()) { - case USB_CLOCK_TYPE_REF_12: - flags |= CVMX_USB_INITIALIZE_FLAGS_CLOCK_12MHZ; - break; - case USB_CLOCK_TYPE_REF_24: - flags |= CVMX_USB_INITIALIZE_FLAGS_CLOCK_24MHZ; - break; - case USB_CLOCK_TYPE_REF_48: - flags |= CVMX_USB_INITIALIZE_FLAGS_CLOCK_48MHZ; - break; - default: - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - break; - } - } - - memset(usb, 0, sizeof(usb)); - usb->init_flags = flags; - - /* Initialize the USB state structure */ - { - int i; - usb->index = usb_port_number; - - /* Initialize the transaction double linked list */ - usb->free_transaction_head = NULL; - usb->free_transaction_tail = NULL; - for (i=0; i<MAX_TRANSACTIONS; i++) - __cvmx_usb_free_transaction(usb, usb->transaction + i); - for (i=0; i<MAX_PIPES; i++) - __cvmx_usb_append_pipe(&usb->free_pipes, usb->pipe + i); - } - - /* Power On Reset and PHY Initialization */ - - /* 1. Wait for DCOK to assert (nothing to do) */ - /* 2a. Write USBN0/1_CLK_CTL[POR] = 1 and - USBN0/1_CLK_CTL[HRST,PRST,HCLK_RST] = 0 */ - usbn_clk_ctl.u64 = __cvmx_usb_read_csr64(usb, CVMX_USBNX_CLK_CTL(usb->index)); - usbn_clk_ctl.s.por = 1; - usbn_clk_ctl.s.hrst = 0; - usbn_clk_ctl.s.prst = 0; - usbn_clk_ctl.s.hclk_rst = 0; - usbn_clk_ctl.s.enable = 0; - /* 2b. Select the USB reference clock/crystal parameters by writing - appropriate values to USBN0/1_CLK_CTL[P_C_SEL, P_RTYPE, P_COM_ON] */ - if (usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_CLOCK_XO_GND) { - /* The USB port uses 12/24/48MHz 2.5V board clock - source at USB_XO. USB_XI should be tied to GND. - Most Octeon evaluation boards require this setting */ - if (OCTEON_IS_MODEL(OCTEON_CN3XXX)) { - usbn_clk_ctl.cn31xx.p_rclk = 1; /* From CN31XX,CN30XX manual */ - usbn_clk_ctl.cn31xx.p_xenbn = 0; - } - else if (OCTEON_IS_MODEL(OCTEON_CN56XX) || OCTEON_IS_MODEL(OCTEON_CN50XX)) - usbn_clk_ctl.cn56xx.p_rtype = 2; /* From CN56XX,CN50XX manual */ - else - usbn_clk_ctl.cn52xx.p_rtype = 1; /* From CN52XX manual */ - - switch (flags & CVMX_USB_INITIALIZE_FLAGS_CLOCK_MHZ_MASK) { - case CVMX_USB_INITIALIZE_FLAGS_CLOCK_12MHZ: - usbn_clk_ctl.s.p_c_sel = 0; - break; - case CVMX_USB_INITIALIZE_FLAGS_CLOCK_24MHZ: - usbn_clk_ctl.s.p_c_sel = 1; - break; - case CVMX_USB_INITIALIZE_FLAGS_CLOCK_48MHZ: - usbn_clk_ctl.s.p_c_sel = 2; - break; - } - } - else { - /* The USB port uses a 12MHz crystal as clock source - at USB_XO and USB_XI */ - if (OCTEON_IS_MODEL(OCTEON_CN3XXX)) { - usbn_clk_ctl.cn31xx.p_rclk = 1; /* From CN31XX,CN30XX manual */ - usbn_clk_ctl.cn31xx.p_xenbn = 1; - } - else if (OCTEON_IS_MODEL(OCTEON_CN56XX) || OCTEON_IS_MODEL(OCTEON_CN50XX)) - usbn_clk_ctl.cn56xx.p_rtype = 0; /* From CN56XX,CN50XX manual */ - else - usbn_clk_ctl.cn52xx.p_rtype = 0; /* From CN52XX manual */ - - usbn_clk_ctl.s.p_c_sel = 0; - } - /* 2c. Select the HCLK via writing USBN0/1_CLK_CTL[DIVIDE, DIVIDE2] and - setting USBN0/1_CLK_CTL[ENABLE] = 1. Divide the core clock down such - that USB is as close as possible to 125Mhz */ - { - int divisor = (octeon_get_clock_rate()+125000000-1)/125000000; - if (divisor < 4) /* Lower than 4 doesn't seem to work properly */ - divisor = 4; - usbn_clk_ctl.s.divide = divisor; - usbn_clk_ctl.s.divide2 = 0; - } - __cvmx_usb_write_csr64(usb, CVMX_USBNX_CLK_CTL(usb->index), - usbn_clk_ctl.u64); - /* 2d. Write USBN0/1_CLK_CTL[HCLK_RST] = 1 */ - usbn_clk_ctl.s.hclk_rst = 1; - __cvmx_usb_write_csr64(usb, CVMX_USBNX_CLK_CTL(usb->index), - usbn_clk_ctl.u64); - /* 2e. Wait 64 core-clock cycles for HCLK to stabilize */ - cvmx_wait(64); - /* 3. Program the power-on reset field in the USBN clock-control register: - USBN_CLK_CTL[POR] = 0 */ - usbn_clk_ctl.s.por = 0; - __cvmx_usb_write_csr64(usb, CVMX_USBNX_CLK_CTL(usb->index), - usbn_clk_ctl.u64); - /* 4. Wait 1 ms for PHY clock to start */ - cvmx_wait_usec(1000); - /* 5. Program the Reset input from automatic test equipment field in the - USBP control and status register: USBN_USBP_CTL_STATUS[ATE_RESET] = 1 */ - usbn_usbp_ctl_status.u64 = __cvmx_usb_read_csr64(usb, CVMX_USBNX_USBP_CTL_STATUS(usb->index)); - usbn_usbp_ctl_status.s.ate_reset = 1; - __cvmx_usb_write_csr64(usb, CVMX_USBNX_USBP_CTL_STATUS(usb->index), - usbn_usbp_ctl_status.u64); - /* 6. Wait 10 cycles */ - cvmx_wait(10); - /* 7. Clear ATE_RESET field in the USBN clock-control register: - USBN_USBP_CTL_STATUS[ATE_RESET] = 0 */ - usbn_usbp_ctl_status.s.ate_reset = 0; - __cvmx_usb_write_csr64(usb, CVMX_USBNX_USBP_CTL_STATUS(usb->index), - usbn_usbp_ctl_status.u64); - /* 8. Program the PHY reset field in the USBN clock-control register: - USBN_CLK_CTL[PRST] = 1 */ - usbn_clk_ctl.s.prst = 1; - __cvmx_usb_write_csr64(usb, CVMX_USBNX_CLK_CTL(usb->index), - usbn_clk_ctl.u64); - /* 9. Program the USBP control and status register to select host or - device mode. USBN_USBP_CTL_STATUS[HST_MODE] = 0 for host, = 1 for - device */ - usbn_usbp_ctl_status.s.hst_mode = 0; - __cvmx_usb_write_csr64(usb, CVMX_USBNX_USBP_CTL_STATUS(usb->index), - usbn_usbp_ctl_status.u64); - /* 10. Wait 1 us */ - cvmx_wait_usec(1); - /* 11. Program the hreset_n field in the USBN clock-control register: - USBN_CLK_CTL[HRST] = 1 */ - usbn_clk_ctl.s.hrst = 1; - __cvmx_usb_write_csr64(usb, CVMX_USBNX_CLK_CTL(usb->index), - usbn_clk_ctl.u64); - /* 12. Proceed to USB core initialization */ - usbn_clk_ctl.s.enable = 1; - __cvmx_usb_write_csr64(usb, CVMX_USBNX_CLK_CTL(usb->index), - usbn_clk_ctl.u64); - cvmx_wait_usec(1); - - /* USB Core Initialization */ - - /* 1. Read USBC_GHWCFG1, USBC_GHWCFG2, USBC_GHWCFG3, USBC_GHWCFG4 to - determine USB core configuration parameters. */ - /* Nothing needed */ - /* 2. Program the following fields in the global AHB configuration - register (USBC_GAHBCFG) - DMA mode, USBC_GAHBCFG[DMAEn]: 1 = DMA mode, 0 = slave mode - Burst length, USBC_GAHBCFG[HBSTLEN] = 0 - Nonperiodic TxFIFO empty level (slave mode only), - USBC_GAHBCFG[NPTXFEMPLVL] - Periodic TxFIFO empty level (slave mode only), - USBC_GAHBCFG[PTXFEMPLVL] - Global interrupt mask, USBC_GAHBCFG[GLBLINTRMSK] = 1 */ - { - cvmx_usbcx_gahbcfg_t usbcx_gahbcfg; - /* Due to an errata, CN31XX doesn't support DMA */ - if (OCTEON_IS_MODEL(OCTEON_CN31XX)) - usb->init_flags |= CVMX_USB_INITIALIZE_FLAGS_NO_DMA; - usbcx_gahbcfg.u32 = 0; - usbcx_gahbcfg.s.dmaen = !(usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_NO_DMA); - if (usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_NO_DMA) - usb->idle_hardware_channels = 0x1; /* Only use one channel with non DMA */ - else if (OCTEON_IS_MODEL(OCTEON_CN5XXX)) - usb->idle_hardware_channels = 0xf7; /* CN5XXX have an errata with channel 3 */ - else - usb->idle_hardware_channels = 0xff; - usbcx_gahbcfg.s.hbstlen = 0; - usbcx_gahbcfg.s.nptxfemplvl = 1; - usbcx_gahbcfg.s.ptxfemplvl = 1; - usbcx_gahbcfg.s.glblintrmsk = 1; - __cvmx_usb_write_csr32(usb, CVMX_USBCX_GAHBCFG(usb->index), - usbcx_gahbcfg.u32); - } - /* 3. Program the following fields in USBC_GUSBCFG register. - HS/FS timeout calibration, USBC_GUSBCFG[TOUTCAL] = 0 - ULPI DDR select, USBC_GUSBCFG[DDRSEL] = 0 - USB turnaround time, USBC_GUSBCFG[USBTRDTIM] = 0x5 - PHY low-power clock select, USBC_GUSBCFG[PHYLPWRCLKSEL] = 0 */ - { - cvmx_usbcx_gusbcfg_t usbcx_gusbcfg; - usbcx_gusbcfg.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_GUSBCFG(usb->index)); - usbcx_gusbcfg.s.toutcal = 0; - usbcx_gusbcfg.s.ddrsel = 0; - usbcx_gusbcfg.s.usbtrdtim = 0x5; - usbcx_gusbcfg.s.phylpwrclksel = 0; - __cvmx_usb_write_csr32(usb, CVMX_USBCX_GUSBCFG(usb->index), - usbcx_gusbcfg.u32); - } - /* 4. The software must unmask the following bits in the USBC_GINTMSK - register. - OTG interrupt mask, USBC_GINTMSK[OTGINTMSK] = 1 - Mode mismatch interrupt mask, USBC_GINTMSK[MODEMISMSK] = 1 */ - { - cvmx_usbcx_gintmsk_t usbcx_gintmsk; - int channel; - - usbcx_gintmsk.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_GINTMSK(usb->index)); - usbcx_gintmsk.s.otgintmsk = 1; - usbcx_gintmsk.s.modemismsk = 1; - usbcx_gintmsk.s.hchintmsk = 1; - usbcx_gintmsk.s.sofmsk = 0; - /* We need RX FIFO interrupts if we don't have DMA */ - if (usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_NO_DMA) - usbcx_gintmsk.s.rxflvlmsk = 1; - __cvmx_usb_write_csr32(usb, CVMX_USBCX_GINTMSK(usb->index), - usbcx_gintmsk.u32); - - /* Disable all channel interrupts. We'll enable them per channel later */ - for (channel=0; channel<8; channel++) - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HCINTMSKX(channel, usb->index), 0); - } - - { - /* Host Port Initialization */ - if (cvmx_unlikely(usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_INFO)) - cvmx_dprintf("%s: USB%d is in host mode\n", __FUNCTION__, usb->index); - - /* 1. Program the host-port interrupt-mask field to unmask, - USBC_GINTMSK[PRTINT] = 1 */ - USB_SET_FIELD32(CVMX_USBCX_GINTMSK(usb->index), cvmx_usbcx_gintmsk_t, - prtintmsk, 1); - USB_SET_FIELD32(CVMX_USBCX_GINTMSK(usb->index), cvmx_usbcx_gintmsk_t, - disconnintmsk, 1); - /* 2. Program the USBC_HCFG register to select full-speed host or - high-speed host. */ - { - cvmx_usbcx_hcfg_t usbcx_hcfg; - usbcx_hcfg.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HCFG(usb->index)); - usbcx_hcfg.s.fslssupp = 0; - usbcx_hcfg.s.fslspclksel = 0; - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HCFG(usb->index), usbcx_hcfg.u32); - } - /* 3. Program the port power bit to drive VBUS on the USB, - USBC_HPRT[PRTPWR] = 1 */ - USB_SET_FIELD32(CVMX_USBCX_HPRT(usb->index), cvmx_usbcx_hprt_t, prtpwr, 1); - - /* Steps 4-15 from the manual are done later in the port enable */ - } - - CVMX_USB_RETURN(CVMX_USB_SUCCESS); -} - - -/** - * 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. - */ -cvmx_usb_status_t cvmx_usb_shutdown(cvmx_usb_state_t *state) -{ - cvmx_usbnx_clk_ctl_t usbn_clk_ctl; - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - - /* Make sure all pipes are closed */ - if (usb->idle_pipes.head || - usb->active_pipes[CVMX_USB_TRANSFER_ISOCHRONOUS].head || - usb->active_pipes[CVMX_USB_TRANSFER_INTERRUPT].head || - usb->active_pipes[CVMX_USB_TRANSFER_CONTROL].head || - usb->active_pipes[CVMX_USB_TRANSFER_BULK].head) - CVMX_USB_RETURN(CVMX_USB_BUSY); - - /* Disable the clocks and put them in power on reset */ - usbn_clk_ctl.u64 = __cvmx_usb_read_csr64(usb, CVMX_USBNX_CLK_CTL(usb->index)); - usbn_clk_ctl.s.enable = 1; - usbn_clk_ctl.s.por = 1; - usbn_clk_ctl.s.hclk_rst = 1; - usbn_clk_ctl.s.prst = 0; - usbn_clk_ctl.s.hrst = 0; - __cvmx_usb_write_csr64(usb, CVMX_USBNX_CLK_CTL(usb->index), - usbn_clk_ctl.u64); - CVMX_USB_RETURN(CVMX_USB_SUCCESS); -} - - -/** - * 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. - */ -cvmx_usb_status_t cvmx_usb_enable(cvmx_usb_state_t *state) -{ - cvmx_usbcx_ghwcfg3_t usbcx_ghwcfg3; - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - - usb->usbcx_hprt.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HPRT(usb->index)); - - /* If the port is already enabled the just return. We don't need to do - anything */ - if (usb->usbcx_hprt.s.prtena) - CVMX_USB_RETURN(CVMX_USB_SUCCESS); - - /* If there is nothing plugged into the port then fail immediately */ - if (!usb->usbcx_hprt.s.prtconnsts) { - if (cvmx_unlikely(usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_INFO)) - cvmx_dprintf("%s: USB%d Nothing plugged into the port\n", __FUNCTION__, usb->index); - CVMX_USB_RETURN(CVMX_USB_TIMEOUT); - } - - /* Program the port reset bit to start the reset process */ - USB_SET_FIELD32(CVMX_USBCX_HPRT(usb->index), cvmx_usbcx_hprt_t, prtrst, 1); - - /* Wait at least 50ms (high speed), or 10ms (full speed) for the reset - process to complete. */ - cvmx_wait_usec(50000); - - /* Program the port reset bit to 0, USBC_HPRT[PRTRST] = 0 */ - USB_SET_FIELD32(CVMX_USBCX_HPRT(usb->index), cvmx_usbcx_hprt_t, prtrst, 0); - - /* Wait for the USBC_HPRT[PRTENA]. */ - if (CVMX_WAIT_FOR_FIELD32(CVMX_USBCX_HPRT(usb->index), cvmx_usbcx_hprt_t, - prtena, ==, 1, 100000)) { - if (cvmx_unlikely(usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_INFO)) - cvmx_dprintf("%s: Timeout waiting for the port to finish reset\n", - __FUNCTION__); - CVMX_USB_RETURN(CVMX_USB_TIMEOUT); - } - - /* Read the port speed field to get the enumerated speed, USBC_HPRT[PRTSPD]. */ - usb->usbcx_hprt.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HPRT(usb->index)); - if (cvmx_unlikely(usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_INFO)) - cvmx_dprintf("%s: USB%d is in %s speed mode\n", __FUNCTION__, usb->index, - (usb->usbcx_hprt.s.prtspd == CVMX_USB_SPEED_HIGH) ? "high" : - (usb->usbcx_hprt.s.prtspd == CVMX_USB_SPEED_FULL) ? "full" : - "low"); - - usbcx_ghwcfg3.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_GHWCFG3(usb->index)); - - /* 13. Program the USBC_GRXFSIZ register to select the size of the receive - FIFO (25%). */ - USB_SET_FIELD32(CVMX_USBCX_GRXFSIZ(usb->index), cvmx_usbcx_grxfsiz_t, - rxfdep, usbcx_ghwcfg3.s.dfifodepth / 4); - /* 14. Program the USBC_GNPTXFSIZ register to select the size and the - start address of the non- periodic transmit FIFO for nonperiodic - transactions (50%). */ - { - cvmx_usbcx_gnptxfsiz_t siz; - siz.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_GNPTXFSIZ(usb->index)); - siz.s.nptxfdep = usbcx_ghwcfg3.s.dfifodepth / 2; - siz.s.nptxfstaddr = usbcx_ghwcfg3.s.dfifodepth / 4; - __cvmx_usb_write_csr32(usb, CVMX_USBCX_GNPTXFSIZ(usb->index), siz.u32); - } - /* 15. Program the USBC_HPTXFSIZ register to select the size and start - address of the periodic transmit FIFO for periodic transactions (25%). */ - { - cvmx_usbcx_hptxfsiz_t siz; - siz.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HPTXFSIZ(usb->index)); - siz.s.ptxfsize = usbcx_ghwcfg3.s.dfifodepth / 4; - siz.s.ptxfstaddr = 3 * usbcx_ghwcfg3.s.dfifodepth / 4; - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HPTXFSIZ(usb->index), siz.u32); - } - /* Flush all FIFOs */ - USB_SET_FIELD32(CVMX_USBCX_GRSTCTL(usb->index), cvmx_usbcx_grstctl_t, txfnum, 0x10); - USB_SET_FIELD32(CVMX_USBCX_GRSTCTL(usb->index), cvmx_usbcx_grstctl_t, txfflsh, 1); - CVMX_WAIT_FOR_FIELD32(CVMX_USBCX_GRSTCTL(usb->index), cvmx_usbcx_grstctl_t, - txfflsh, ==, 0, 100); - USB_SET_FIELD32(CVMX_USBCX_GRSTCTL(usb->index), cvmx_usbcx_grstctl_t, rxfflsh, 1); - CVMX_WAIT_FOR_FIELD32(CVMX_USBCX_GRSTCTL(usb->index), cvmx_usbcx_grstctl_t, - rxfflsh, ==, 0, 100); - - CVMX_USB_RETURN(CVMX_USB_SUCCESS); -} - - -/** - * 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. - */ -cvmx_usb_status_t cvmx_usb_disable(cvmx_usb_state_t *state) -{ - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - - /* Disable the port */ - USB_SET_FIELD32(CVMX_USBCX_HPRT(usb->index), cvmx_usbcx_hprt_t, prtena, 1); - CVMX_USB_RETURN(CVMX_USB_SUCCESS); -} - - -/** - * 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 - */ -cvmx_usb_port_status_t cvmx_usb_get_status(cvmx_usb_state_t *state) -{ - cvmx_usbcx_hprt_t usbc_hprt; - cvmx_usb_port_status_t result; - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - - memset(&result, 0, sizeof(result)); - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - - usbc_hprt.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HPRT(usb->index)); - result.port_enabled = usbc_hprt.s.prtena; - result.port_over_current = usbc_hprt.s.prtovrcurract; - result.port_powered = usbc_hprt.s.prtpwr; - result.port_speed = usbc_hprt.s.prtspd; - result.connected = usbc_hprt.s.prtconnsts; - result.connect_change = (result.connected != usb->port_status.connected); - - if (cvmx_unlikely(usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_CALLS)) - cvmx_dprintf("%*s%s: returned port enabled=%d, over_current=%d, powered=%d, speed=%d, connected=%d, connect_change=%d\n", - 2*(--usb->indent), "", __FUNCTION__, - result.port_enabled, - result.port_over_current, - result.port_powered, - result.port_speed, - result.connected, - result.connect_change); - return result; -} - - -/** - * 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() - */ -void cvmx_usb_set_status(cvmx_usb_state_t *state, cvmx_usb_port_status_t port_status) -{ - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - usb->port_status = port_status; - CVMX_USB_RETURN_NOTHING(); -} - - -/** - * @INTERNAL - * Convert a USB transaction into a handle - * - * @param usb USB device state populated by - * cvmx_usb_initialize(). - * @param transaction - * Transaction to get handle for - * - * @return Handle - */ -static inline int __cvmx_usb_get_submit_handle(cvmx_usb_internal_state_t *usb, - cvmx_usb_transaction_t *transaction) -{ - return ((unsigned long)transaction - (unsigned long)usb->transaction) / - sizeof(*transaction); -} - - -/** - * @INTERNAL - * Convert a USB pipe into a handle - * - * @param usb USB device state populated by - * cvmx_usb_initialize(). - * @param pipe Pipe to get handle for - * - * @return Handle - */ -static inline int __cvmx_usb_get_pipe_handle(cvmx_usb_internal_state_t *usb, - cvmx_usb_pipe_t *pipe) -{ - return ((unsigned long)pipe - (unsigned long)usb->pipe) / sizeof(*pipe); -} - - -/** - * 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. - */ -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) -{ - cvmx_usb_pipe_t *pipe; - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - CVMX_USB_LOG_PARAM("0x%x", flags); - CVMX_USB_LOG_PARAM("%d", device_addr); - CVMX_USB_LOG_PARAM("%d", endpoint_num); - CVMX_USB_LOG_PARAM("%d", device_speed); - CVMX_USB_LOG_PARAM("%d", max_packet); - CVMX_USB_LOG_PARAM("%d", transfer_type); - CVMX_USB_LOG_PARAM("%d", transfer_dir); - CVMX_USB_LOG_PARAM("%d", interval); - CVMX_USB_LOG_PARAM("%d", multi_count); - CVMX_USB_LOG_PARAM("%d", hub_device_addr); - CVMX_USB_LOG_PARAM("%d", hub_port); - - if (cvmx_unlikely((device_addr < 0) || (device_addr > MAX_USB_ADDRESS))) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely((endpoint_num < 0) || (endpoint_num > MAX_USB_ENDPOINT))) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely(device_speed > CVMX_USB_SPEED_LOW)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely((max_packet <= 0) || (max_packet > 1024))) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely(transfer_type > CVMX_USB_TRANSFER_INTERRUPT)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely((transfer_dir != CVMX_USB_DIRECTION_OUT) && - (transfer_dir != CVMX_USB_DIRECTION_IN))) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely(interval < 0)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely((transfer_type == CVMX_USB_TRANSFER_CONTROL) && interval)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely(multi_count < 0)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely((device_speed != CVMX_USB_SPEED_HIGH) && - (multi_count != 0))) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely((hub_device_addr < 0) || (hub_device_addr > MAX_USB_ADDRESS))) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely((hub_port < 0) || (hub_port > MAX_USB_HUB_PORT))) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - - /* Find a free pipe */ - pipe = usb->free_pipes.head; - if (!pipe) - CVMX_USB_RETURN(CVMX_USB_NO_MEMORY); - __cvmx_usb_remove_pipe(&usb->free_pipes, pipe); - pipe->flags = flags | __CVMX_USB_PIPE_FLAGS_OPEN; - if ((device_speed == CVMX_USB_SPEED_HIGH) && - (transfer_dir == CVMX_USB_DIRECTION_OUT) && - (transfer_type == CVMX_USB_TRANSFER_BULK)) - pipe->flags |= __CVMX_USB_PIPE_FLAGS_NEED_PING; - pipe->device_addr = device_addr; - pipe->endpoint_num = endpoint_num; - pipe->device_speed = device_speed; - pipe->max_packet = max_packet; - pipe->transfer_type = transfer_type; - pipe->transfer_dir = transfer_dir; - /* All pipes use interval to rate limit NAK processing. Force an interval - if one wasn't supplied */ - if (!interval) - interval = 1; - if (__cvmx_usb_pipe_needs_split(usb, pipe)) { - pipe->interval = interval*8; - /* Force start splits to be schedule on uFrame 0 */ - pipe->next_tx_frame = ((usb->frame_number+7)&~7) + pipe->interval; - } - else { - pipe->interval = interval; - pipe->next_tx_frame = usb->frame_number + pipe->interval; - } - pipe->multi_count = multi_count; - pipe->hub_device_addr = hub_device_addr; - pipe->hub_port = hub_port; - pipe->pid_toggle = 0; - pipe->split_sc_frame = -1; - __cvmx_usb_append_pipe(&usb->idle_pipes, pipe); - - /* We don't need to tell the hardware about this pipe yet since - it doesn't have any submitted requests */ - - CVMX_USB_RETURN(__cvmx_usb_get_pipe_handle(usb, pipe)); -} - - -/** - * @INTERNAL - * Poll the RX FIFOs and remove data as needed. This function is only used - * in non DMA mode. It is very important that this function be called quickly - * enough to prevent FIFO overflow. - * - * @param usb USB device state populated by - * cvmx_usb_initialize(). - */ -static void __cvmx_usb_poll_rx_fifo(cvmx_usb_internal_state_t *usb) -{ - cvmx_usbcx_grxstsph_t rx_status; - int channel; - int bytes; - uint64_t address; - uint32_t *ptr; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", usb); - - rx_status.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_GRXSTSPH(usb->index)); - /* Only read data if IN data is there */ - if (rx_status.s.pktsts != 2) - CVMX_USB_RETURN_NOTHING(); - /* Check if no data is available */ - if (!rx_status.s.bcnt) - CVMX_USB_RETURN_NOTHING(); - - channel = rx_status.s.chnum; - bytes = rx_status.s.bcnt; - if (!bytes) - CVMX_USB_RETURN_NOTHING(); - - /* Get where the DMA engine would have written this data */ - address = __cvmx_usb_read_csr64(usb, CVMX_USBNX_DMA0_INB_CHN0(usb->index) + channel*8); - ptr = cvmx_phys_to_ptr(address); - __cvmx_usb_write_csr64(usb, CVMX_USBNX_DMA0_INB_CHN0(usb->index) + channel*8, address + bytes); - - /* Loop writing the FIFO data for this packet into memory */ - while (bytes > 0) { - *ptr++ = __cvmx_usb_read_csr32(usb, USB_FIFO_ADDRESS(channel, usb->index)); - bytes -= 4; - } - CVMX_SYNCW; - - CVMX_USB_RETURN_NOTHING(); -} - - -/** - * Fill the TX hardware fifo with data out of the software - * fifos - * - * @param usb USB device state populated by - * cvmx_usb_initialize(). - * @param fifo Software fifo to use - * @param available Amount of space in the hardware fifo - * - * @return Non zero if the hardware fifo was too small and needs - * to be serviced again. - */ -static int __cvmx_usb_fill_tx_hw(cvmx_usb_internal_state_t *usb, cvmx_usb_tx_fifo_t *fifo, int available) -{ - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", usb); - CVMX_USB_LOG_PARAM("%p", fifo); - CVMX_USB_LOG_PARAM("%d", available); - - /* We're done either when there isn't anymore space or the software FIFO - is empty */ - while (available && (fifo->head != fifo->tail)) { - int i = fifo->tail; - const uint32_t *ptr = cvmx_phys_to_ptr(fifo->entry[i].address); - uint64_t csr_address = USB_FIFO_ADDRESS(fifo->entry[i].channel, usb->index) ^ 4; - int words = available; - - /* Limit the amount of data to waht the SW fifo has */ - if (fifo->entry[i].size <= available) { - words = fifo->entry[i].size; - fifo->tail++; - if (fifo->tail > MAX_CHANNELS) - fifo->tail = 0; - } - - /* Update the next locations and counts */ - available -= words; - fifo->entry[i].address += words * 4; - fifo->entry[i].size -= words; - - /* Write the HW fifo data. The read every three writes is due - to an errata on CN3XXX chips */ - while (words > 3) { - cvmx_write64_uint32(csr_address, *ptr++); - cvmx_write64_uint32(csr_address, *ptr++); - cvmx_write64_uint32(csr_address, *ptr++); - cvmx_read64_uint64(CVMX_USBNX_DMA0_INB_CHN0(usb->index)); - words -= 3; - } - cvmx_write64_uint32(csr_address, *ptr++); - if (--words) { - cvmx_write64_uint32(csr_address, *ptr++); - if (--words) - cvmx_write64_uint32(csr_address, *ptr++); - } - cvmx_read64_uint64(CVMX_USBNX_DMA0_INB_CHN0(usb->index)); - } - CVMX_USB_RETURN(fifo->head != fifo->tail); -} - - -/** - * Check the hardware FIFOs and fill them as needed - * - * @param usb USB device state populated by - * cvmx_usb_initialize(). - */ -static void __cvmx_usb_poll_tx_fifo(cvmx_usb_internal_state_t *usb) -{ - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", usb); - - if (usb->periodic.head != usb->periodic.tail) { - cvmx_usbcx_hptxsts_t tx_status; - tx_status.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HPTXSTS(usb->index)); - if (__cvmx_usb_fill_tx_hw(usb, &usb->periodic, tx_status.s.ptxfspcavail)) - USB_SET_FIELD32(CVMX_USBCX_GINTMSK(usb->index), cvmx_usbcx_gintmsk_t, ptxfempmsk, 1); - else - USB_SET_FIELD32(CVMX_USBCX_GINTMSK(usb->index), cvmx_usbcx_gintmsk_t, ptxfempmsk, 0); - } - - if (usb->nonperiodic.head != usb->nonperiodic.tail) { - cvmx_usbcx_gnptxsts_t tx_status; - tx_status.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_GNPTXSTS(usb->index)); - if (__cvmx_usb_fill_tx_hw(usb, &usb->nonperiodic, tx_status.s.nptxfspcavail)) - USB_SET_FIELD32(CVMX_USBCX_GINTMSK(usb->index), cvmx_usbcx_gintmsk_t, nptxfempmsk, 1); - else - USB_SET_FIELD32(CVMX_USBCX_GINTMSK(usb->index), cvmx_usbcx_gintmsk_t, nptxfempmsk, 0); - } - - CVMX_USB_RETURN_NOTHING(); -} - - -/** - * @INTERNAL - * Fill the TX FIFO with an outgoing packet - * - * @param usb USB device state populated by - * cvmx_usb_initialize(). - * @param channel Channel number to get packet from - */ -static void __cvmx_usb_fill_tx_fifo(cvmx_usb_internal_state_t *usb, int channel) -{ - cvmx_usbcx_hccharx_t hcchar; - cvmx_usbcx_hcspltx_t usbc_hcsplt; - cvmx_usbcx_hctsizx_t usbc_hctsiz; - cvmx_usb_tx_fifo_t *fifo; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", usb); - CVMX_USB_LOG_PARAM("%d", channel); - - /* We only need to fill data on outbound channels */ - hcchar.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HCCHARX(channel, usb->index)); - if (hcchar.s.epdir != CVMX_USB_DIRECTION_OUT) - CVMX_USB_RETURN_NOTHING(); - - /* OUT Splits only have data on the start and not the complete */ - usbc_hcsplt.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HCSPLTX(channel, usb->index)); - if (usbc_hcsplt.s.spltena && usbc_hcsplt.s.compsplt) - CVMX_USB_RETURN_NOTHING(); - - /* Find out how many bytes we need to fill and convert it into 32bit words */ - usbc_hctsiz.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HCTSIZX(channel, usb->index)); - if (!usbc_hctsiz.s.xfersize) - CVMX_USB_RETURN_NOTHING(); - - if ((hcchar.s.eptype == CVMX_USB_TRANSFER_INTERRUPT) || - (hcchar.s.eptype == CVMX_USB_TRANSFER_ISOCHRONOUS)) - fifo = &usb->periodic; - else - fifo = &usb->nonperiodic; - - fifo->entry[fifo->head].channel = channel; - fifo->entry[fifo->head].address = __cvmx_usb_read_csr64(usb, CVMX_USBNX_DMA0_OUTB_CHN0(usb->index) + channel*8); - fifo->entry[fifo->head].size = (usbc_hctsiz.s.xfersize+3)>>2; - fifo->head++; - if (fifo->head > MAX_CHANNELS) - fifo->head = 0; - - __cvmx_usb_poll_tx_fifo(usb); - - CVMX_USB_RETURN_NOTHING(); -} - -/** - * @INTERNAL - * Perform channel specific setup for Control transactions. All - * the generic stuff will already have been done in - * __cvmx_usb_start_channel() - * - * @param usb USB device state populated by - * cvmx_usb_initialize(). - * @param channel Channel to setup - * @param pipe Pipe for control transaction - */ -static void __cvmx_usb_start_channel_control(cvmx_usb_internal_state_t *usb, - int channel, - cvmx_usb_pipe_t *pipe) -{ - cvmx_usb_transaction_t *transaction = pipe->head; - cvmx_usb_control_header_t *header = cvmx_phys_to_ptr(transaction->control_header); - int bytes_to_transfer = transaction->buffer_length - transaction->actual_bytes; - int packets_to_transfer; - cvmx_usbcx_hctsizx_t usbc_hctsiz; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", usb); - CVMX_USB_LOG_PARAM("%d", channel); - CVMX_USB_LOG_PARAM("%p", pipe); - - usbc_hctsiz.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HCTSIZX(channel, usb->index)); - - switch (transaction->stage) { - case CVMX_USB_STAGE_NON_CONTROL: - case CVMX_USB_STAGE_NON_CONTROL_SPLIT_COMPLETE: - cvmx_dprintf("%s: ERROR - Non control stage\n", __FUNCTION__); - break; - case CVMX_USB_STAGE_SETUP: - usbc_hctsiz.s.pid = 3; /* Setup */ - bytes_to_transfer = sizeof(*header); - /* All Control operations start with a setup going OUT */ - USB_SET_FIELD32(CVMX_USBCX_HCCHARX(channel, usb->index), cvmx_usbcx_hccharx_t, epdir, CVMX_USB_DIRECTION_OUT); - /* Setup send the control header instead of the buffer data. The - buffer data will be used in the next stage */ - __cvmx_usb_write_csr64(usb, CVMX_USBNX_DMA0_OUTB_CHN0(usb->index) + channel*8, transaction->control_header); - break; - case CVMX_USB_STAGE_SETUP_SPLIT_COMPLETE: - usbc_hctsiz.s.pid = 3; /* Setup */ - bytes_to_transfer = 0; - /* All Control operations start with a setup going OUT */ - USB_SET_FIELD32(CVMX_USBCX_HCCHARX(channel, usb->index), cvmx_usbcx_hccharx_t, epdir, CVMX_USB_DIRECTION_OUT); - USB_SET_FIELD32(CVMX_USBCX_HCSPLTX(channel, usb->index), cvmx_usbcx_hcspltx_t, compsplt, 1); - break; - case CVMX_USB_STAGE_DATA: - usbc_hctsiz.s.pid = __cvmx_usb_get_data_pid(pipe); - if (__cvmx_usb_pipe_needs_split(usb, pipe)) { - if (header->s.request_type & 0x80) - bytes_to_transfer = 0; - else if (bytes_to_transfer > pipe->max_packet) - bytes_to_transfer = pipe->max_packet; - } - USB_SET_FIELD32(CVMX_USBCX_HCCHARX(channel, usb->index), - cvmx_usbcx_hccharx_t, epdir, - ((header->s.request_type & 0x80) ? - CVMX_USB_DIRECTION_IN : - CVMX_USB_DIRECTION_OUT)); - break; - case CVMX_USB_STAGE_DATA_SPLIT_COMPLETE: - usbc_hctsiz.s.pid = __cvmx_usb_get_data_pid(pipe); - if (!(header->s.request_type & 0x80)) - bytes_to_transfer = 0; - USB_SET_FIELD32(CVMX_USBCX_HCCHARX(channel, usb->index), - cvmx_usbcx_hccharx_t, epdir, - ((header->s.request_type & 0x80) ? - CVMX_USB_DIRECTION_IN : - CVMX_USB_DIRECTION_OUT)); - USB_SET_FIELD32(CVMX_USBCX_HCSPLTX(channel, usb->index), cvmx_usbcx_hcspltx_t, compsplt, 1); - break; - case CVMX_USB_STAGE_STATUS: - usbc_hctsiz.s.pid = __cvmx_usb_get_data_pid(pipe); - bytes_to_transfer = 0; - USB_SET_FIELD32(CVMX_USBCX_HCCHARX(channel, usb->index), cvmx_usbcx_hccharx_t, epdir, - ((header->s.request_type & 0x80) ? - CVMX_USB_DIRECTION_OUT : - CVMX_USB_DIRECTION_IN)); - break; - case CVMX_USB_STAGE_STATUS_SPLIT_COMPLETE: - usbc_hctsiz.s.pid = __cvmx_usb_get_data_pid(pipe); - bytes_to_transfer = 0; - USB_SET_FIELD32(CVMX_USBCX_HCCHARX(channel, usb->index), cvmx_usbcx_hccharx_t, epdir, - ((header->s.request_type & 0x80) ? - CVMX_USB_DIRECTION_OUT : - CVMX_USB_DIRECTION_IN)); - USB_SET_FIELD32(CVMX_USBCX_HCSPLTX(channel, usb->index), cvmx_usbcx_hcspltx_t, compsplt, 1); - break; - } - - /* Make sure the transfer never exceeds the byte limit of the hardware. - Further bytes will be sent as continued transactions */ - if (bytes_to_transfer > MAX_TRANSFER_BYTES) { - /* Round MAX_TRANSFER_BYTES to a multiple of out packet size */ - bytes_to_transfer = MAX_TRANSFER_BYTES / pipe->max_packet; - bytes_to_transfer *= pipe->max_packet; - } - - /* Calculate the number of packets to transfer. If the length is zero - we still need to transfer one packet */ - packets_to_transfer = (bytes_to_transfer + pipe->max_packet - 1) / pipe->max_packet; - if (packets_to_transfer == 0) - packets_to_transfer = 1; - else if ((packets_to_transfer>1) && (usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_NO_DMA)) { - /* Limit to one packet when not using DMA. Channels must be restarted - between every packet for IN transactions, so there is no reason to - do multiple packets in a row */ - packets_to_transfer = 1; - bytes_to_transfer = packets_to_transfer * pipe->max_packet; - } - else if (packets_to_transfer > MAX_TRANSFER_PACKETS) { - /* Limit the number of packet and data transferred to what the - hardware can handle */ - packets_to_transfer = MAX_TRANSFER_PACKETS; - bytes_to_transfer = packets_to_transfer * pipe->max_packet; - } - - usbc_hctsiz.s.xfersize = bytes_to_transfer; - usbc_hctsiz.s.pktcnt = packets_to_transfer; - - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HCTSIZX(channel, usb->index), usbc_hctsiz.u32); - CVMX_USB_RETURN_NOTHING(); -} - - -/** - * @INTERNAL - * Start a channel to perform the pipe's head transaction - * - * @param usb USB device state populated by - * cvmx_usb_initialize(). - * @param channel Channel to setup - * @param pipe Pipe to start - */ -static void __cvmx_usb_start_channel(cvmx_usb_internal_state_t *usb, - int channel, - cvmx_usb_pipe_t *pipe) -{ - cvmx_usb_transaction_t *transaction = pipe->head; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", usb); - CVMX_USB_LOG_PARAM("%d", channel); - CVMX_USB_LOG_PARAM("%p", pipe); - - if (cvmx_unlikely((usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_TRANSFERS) || - (pipe->flags & CVMX_USB_PIPE_FLAGS_DEBUG_TRANSFERS))) - cvmx_dprintf("%s: Channel %d started. Pipe %d transaction %d stage %d\n", - __FUNCTION__, channel, __cvmx_usb_get_pipe_handle(usb, pipe), - __cvmx_usb_get_submit_handle(usb, transaction), - transaction->stage); - - /* Make sure all writes to the DMA region get flushed */ - CVMX_SYNCW; - - /* Attach the channel to the pipe */ - usb->pipe_for_channel[channel] = pipe; - pipe->channel = channel; - pipe->flags |= __CVMX_USB_PIPE_FLAGS_SCHEDULED; - - /* Mark this channel as in use */ - usb->idle_hardware_channels &= ~(1<<channel); - - /* Enable the channel interrupt bits */ - { - cvmx_usbcx_hcintx_t usbc_hcint; - cvmx_usbcx_hcintmskx_t usbc_hcintmsk; - cvmx_usbcx_haintmsk_t usbc_haintmsk; - - /* Clear all channel status bits */ - usbc_hcint.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HCINTX(channel, usb->index)); - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HCINTX(channel, usb->index), usbc_hcint.u32); - - usbc_hcintmsk.u32 = 0; - usbc_hcintmsk.s.chhltdmsk = 1; - if (usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_NO_DMA) { - /* Channels need these extra interrupts when we aren't in DMA mode */ - usbc_hcintmsk.s.datatglerrmsk = 1; - usbc_hcintmsk.s.frmovrunmsk = 1; - usbc_hcintmsk.s.bblerrmsk = 1; - usbc_hcintmsk.s.xacterrmsk = 1; - if (__cvmx_usb_pipe_needs_split(usb, pipe)) { - /* Splits don't generate xfercompl, so we need ACK and NYET */ - usbc_hcintmsk.s.nyetmsk = 1; - usbc_hcintmsk.s.ackmsk = 1; - } - usbc_hcintmsk.s.nakmsk = 1; - usbc_hcintmsk.s.stallmsk = 1; - usbc_hcintmsk.s.xfercomplmsk = 1; - } - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HCINTMSKX(channel, usb->index), usbc_hcintmsk.u32); - - /* Enable the channel interrupt to propagate */ - usbc_haintmsk.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HAINTMSK(usb->index)); - usbc_haintmsk.s.haintmsk |= 1<<channel; - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HAINTMSK(usb->index), usbc_haintmsk.u32); - } - - /* Setup the locations the DMA engines use */ - { - uint64_t dma_address = transaction->buffer + transaction->actual_bytes; - if (transaction->type == CVMX_USB_TRANSFER_ISOCHRONOUS) - dma_address = transaction->buffer + transaction->iso_packets[0].offset + transaction->actual_bytes; - __cvmx_usb_write_csr64(usb, CVMX_USBNX_DMA0_OUTB_CHN0(usb->index) + channel*8, dma_address); - __cvmx_usb_write_csr64(usb, CVMX_USBNX_DMA0_INB_CHN0(usb->index) + channel*8, dma_address); - } - - /* Setup both the size of the transfer and the SPLIT characteristics */ - { - cvmx_usbcx_hcspltx_t usbc_hcsplt = {.u32 = 0}; - cvmx_usbcx_hctsizx_t usbc_hctsiz = {.u32 = 0}; - int packets_to_transfer; - int bytes_to_transfer = transaction->buffer_length - transaction->actual_bytes; - - /* ISOCHRONOUS transactions store each individual transfer size in the - packet structure, not the global buffer_length */ - if (transaction->type == CVMX_USB_TRANSFER_ISOCHRONOUS) - bytes_to_transfer = transaction->iso_packets[0].length - transaction->actual_bytes; - - /* We need to do split transactions when we are talking to non high - speed devices that are behind a high speed hub */ - if (__cvmx_usb_pipe_needs_split(usb, pipe)) { - /* On the start split phase (stage is even) record the frame number we - will need to send the split complete. We only store the lower two bits - since the time ahead can only be two frames */ - if ((transaction->stage&1) == 0) { - if (transaction->type == CVMX_USB_TRANSFER_BULK) - pipe->split_sc_frame = (usb->frame_number + 1) & 0x7f; - else - pipe->split_sc_frame = (usb->frame_number + 2) & 0x7f; - } - else - pipe->split_sc_frame = -1; - - usbc_hcsplt.s.spltena = 1; - usbc_hcsplt.s.hubaddr = pipe->hub_device_addr; - usbc_hcsplt.s.prtaddr = pipe->hub_port; - usbc_hcsplt.s.compsplt = (transaction->stage == CVMX_USB_STAGE_NON_CONTROL_SPLIT_COMPLETE); - - /* SPLIT transactions can only ever transmit one data packet so - limit the transfer size to the max packet size */ - if (bytes_to_transfer > pipe->max_packet) - bytes_to_transfer = pipe->max_packet; - - /* ISOCHRONOUS OUT splits are unique in that they limit - data transfers to 188 byte chunks representing the - begin/middle/end of the data or all */ - if (!usbc_hcsplt.s.compsplt && - (pipe->transfer_dir == CVMX_USB_DIRECTION_OUT) && - (pipe->transfer_type == CVMX_USB_TRANSFER_ISOCHRONOUS)) { - /* Clear the split complete frame number as there isn't going - to be a split complete */ - pipe->split_sc_frame = -1; - /* See if we've started this transfer and sent data */ - if (transaction->actual_bytes == 0) { - /* Nothing sent yet, this is either a begin or the - entire payload */ - if (bytes_to_transfer <= 188) - usbc_hcsplt.s.xactpos = 3; /* Entire payload in one go */ - else - usbc_hcsplt.s.xactpos = 2; /* First part of payload */ - } - else { - /* Continuing the previous data, we must either be - in the middle or at the end */ - if (bytes_to_transfer <= 188) - usbc_hcsplt.s.xactpos = 1; /* End of payload */ - else - usbc_hcsplt.s.xactpos = 0; /* Middle of payload */ - } - /* Again, the transfer size is limited to 188 bytes */ - if (bytes_to_transfer > 188) - bytes_to_transfer = 188; - } - } - - /* Make sure the transfer never exceeds the byte limit of the hardware. - Further bytes will be sent as continued transactions */ - if (bytes_to_transfer > MAX_TRANSFER_BYTES) { - /* Round MAX_TRANSFER_BYTES to a multiple of out packet size */ - bytes_to_transfer = MAX_TRANSFER_BYTES / pipe->max_packet; - bytes_to_transfer *= pipe->max_packet; - } - - /* Calculate the number of packets to transfer. If the length is zero - we still need to transfer one packet */ - packets_to_transfer = (bytes_to_transfer + pipe->max_packet - 1) / pipe->max_packet; - if (packets_to_transfer == 0) - packets_to_transfer = 1; - else if ((packets_to_transfer>1) && (usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_NO_DMA)) { - /* Limit to one packet when not using DMA. Channels must be restarted - between every packet for IN transactions, so there is no reason to - do multiple packets in a row */ - packets_to_transfer = 1; - bytes_to_transfer = packets_to_transfer * pipe->max_packet; - } - else if (packets_to_transfer > MAX_TRANSFER_PACKETS) { - /* Limit the number of packet and data transferred to what the - hardware can handle */ - packets_to_transfer = MAX_TRANSFER_PACKETS; - bytes_to_transfer = packets_to_transfer * pipe->max_packet; - } - - usbc_hctsiz.s.xfersize = bytes_to_transfer; - usbc_hctsiz.s.pktcnt = packets_to_transfer; - - /* Update the DATA0/DATA1 toggle */ - usbc_hctsiz.s.pid = __cvmx_usb_get_data_pid(pipe); - /* High speed pipes may need a hardware ping before they start */ - if (pipe->flags & __CVMX_USB_PIPE_FLAGS_NEED_PING) - usbc_hctsiz.s.dopng = 1; - - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HCSPLTX(channel, usb->index), usbc_hcsplt.u32); - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HCTSIZX(channel, usb->index), usbc_hctsiz.u32); - } - - /* Setup the Host Channel Characteristics Register */ - { - cvmx_usbcx_hccharx_t usbc_hcchar = {.u32 = 0}; - - /* Set the startframe odd/even properly. This is only used for periodic */ - usbc_hcchar.s.oddfrm = usb->frame_number&1; - - /* Set the number of back to back packets allowed by this endpoint. - Split transactions interpret "ec" as the number of immediate - retries of failure. These retries happen too quickly, so we - disable these entirely for splits */ - if (__cvmx_usb_pipe_needs_split(usb, pipe)) - usbc_hcchar.s.ec = 1; - else if (pipe->multi_count < 1) - usbc_hcchar.s.ec = 1; - else if (pipe->multi_count > 3) - usbc_hcchar.s.ec = 3; - else - usbc_hcchar.s.ec = pipe->multi_count; - - /* Set the rest of the endpoint specific settings */ - usbc_hcchar.s.devaddr = pipe->device_addr; - usbc_hcchar.s.eptype = transaction->type; - usbc_hcchar.s.lspddev = (pipe->device_speed == CVMX_USB_SPEED_LOW); - usbc_hcchar.s.epdir = pipe->transfer_dir; - usbc_hcchar.s.epnum = pipe->endpoint_num; - usbc_hcchar.s.mps = pipe->max_packet; - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HCCHARX(channel, usb->index), usbc_hcchar.u32); - } - - /* Do transaction type specific fixups as needed */ - switch (transaction->type) { - case CVMX_USB_TRANSFER_CONTROL: - __cvmx_usb_start_channel_control(usb, channel, pipe); - break; - case CVMX_USB_TRANSFER_BULK: - case CVMX_USB_TRANSFER_INTERRUPT: - break; - case CVMX_USB_TRANSFER_ISOCHRONOUS: - if (!__cvmx_usb_pipe_needs_split(usb, pipe)) { - /* ISO transactions require different PIDs depending on direction - and how many packets are needed */ - if (pipe->transfer_dir == CVMX_USB_DIRECTION_OUT) { - if (pipe->multi_count < 2) /* Need DATA0 */ - USB_SET_FIELD32(CVMX_USBCX_HCTSIZX(channel, usb->index), cvmx_usbcx_hctsizx_t, pid, 0); - else /* Need MDATA */ - USB_SET_FIELD32(CVMX_USBCX_HCTSIZX(channel, usb->index), cvmx_usbcx_hctsizx_t, pid, 3); - } - } - break; - } - { - cvmx_usbcx_hctsizx_t usbc_hctsiz = {.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HCTSIZX(channel, usb->index))}; - transaction->xfersize = usbc_hctsiz.s.xfersize; - transaction->pktcnt = usbc_hctsiz.s.pktcnt; - } - /* Remeber when we start a split transaction */ - if (__cvmx_usb_pipe_needs_split(usb, pipe)) - usb->active_split = transaction; - USB_SET_FIELD32(CVMX_USBCX_HCCHARX(channel, usb->index), cvmx_usbcx_hccharx_t, chena, 1); - if (usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_NO_DMA) - __cvmx_usb_fill_tx_fifo(usb, channel); - CVMX_USB_RETURN_NOTHING(); -} - - -/** - * @INTERNAL - * Find a pipe that is ready to be scheduled to hardware. - * @param usb USB device state populated by - * cvmx_usb_initialize(). - * @param list Pipe list to search - * @param current_frame - * Frame counter to use as a time reference. - * - * @return Pipe or NULL if none are ready - */ -static cvmx_usb_pipe_t *__cvmx_usb_find_ready_pipe(cvmx_usb_internal_state_t *usb, cvmx_usb_pipe_list_t *list, uint64_t current_frame) -{ - cvmx_usb_pipe_t *pipe = list->head; - while (pipe) { - if (!(pipe->flags & __CVMX_USB_PIPE_FLAGS_SCHEDULED) && pipe->head && - (pipe->next_tx_frame <= current_frame) && - ((pipe->split_sc_frame == -1) || ((((int)current_frame - (int)pipe->split_sc_frame) & 0x7f) < 0x40)) && - (!usb->active_split || (usb->active_split == pipe->head))) { - CVMX_PREFETCH(pipe, 128); - CVMX_PREFETCH(pipe->head, 0); - return pipe; - } - pipe = pipe->next; - } - return NULL; -} - - -/** - * @INTERNAL - * Called whenever a pipe might need to be scheduled to the - * hardware. - * - * @param usb USB device state populated by - * cvmx_usb_initialize(). - * @param is_sof True if this schedule was called on a SOF interrupt. - */ -static void __cvmx_usb_schedule(cvmx_usb_internal_state_t *usb, int is_sof) -{ - int channel; - cvmx_usb_pipe_t *pipe; - int need_sof; - cvmx_usb_transfer_t ttype; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", usb); - - if (usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_NO_DMA) { - /* Without DMA we need to be careful to not schedule something at the end of a frame and cause an overrun */ - cvmx_usbcx_hfnum_t hfnum = {.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HFNUM(usb->index))}; - cvmx_usbcx_hfir_t hfir = {.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HFIR(usb->index))}; - if (hfnum.s.frrem < hfir.s.frint/4) - goto done; - } - - while (usb->idle_hardware_channels) { - /* Find an idle channel */ - CVMX_CLZ(channel, usb->idle_hardware_channels); - channel = 31 - channel; - if (cvmx_unlikely(channel > 7)) { - if (cvmx_unlikely(usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_INFO)) - cvmx_dprintf("%s: Idle hardware channels has a channel higher than 7. This is wrong\n", __FUNCTION__); - break; - } - - /* Find a pipe needing service */ - pipe = NULL; - if (is_sof) { - /* Only process periodic pipes on SOF interrupts. This way we are - sure that the periodic data is sent in the beginning of the - frame */ - pipe = __cvmx_usb_find_ready_pipe(usb, usb->active_pipes + CVMX_USB_TRANSFER_ISOCHRONOUS, usb->frame_number); - if (cvmx_likely(!pipe)) - pipe = __cvmx_usb_find_ready_pipe(usb, usb->active_pipes + CVMX_USB_TRANSFER_INTERRUPT, usb->frame_number); - } - if (cvmx_likely(!pipe)) { - pipe = __cvmx_usb_find_ready_pipe(usb, usb->active_pipes + CVMX_USB_TRANSFER_CONTROL, usb->frame_number); - if (cvmx_likely(!pipe)) - pipe = __cvmx_usb_find_ready_pipe(usb, usb->active_pipes + CVMX_USB_TRANSFER_BULK, usb->frame_number); - } - if (!pipe) - break; - - CVMX_USB_LOG_PARAM("%d", channel); - CVMX_USB_LOG_PARAM("%p", pipe); - - if (cvmx_unlikely((usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_TRANSFERS) || - (pipe->flags & CVMX_USB_PIPE_FLAGS_DEBUG_TRANSFERS))) { - cvmx_usb_transaction_t *transaction = pipe->head; - const cvmx_usb_control_header_t *header = (transaction->control_header) ? cvmx_phys_to_ptr(transaction->control_header) : NULL; - const char *dir = (pipe->transfer_dir == CVMX_USB_DIRECTION_IN) ? "IN" : "OUT"; - const char *type; - switch (pipe->transfer_type) { - case CVMX_USB_TRANSFER_CONTROL: - type = "SETUP"; - dir = (header->s.request_type & 0x80) ? "IN" : "OUT"; - break; - case CVMX_USB_TRANSFER_ISOCHRONOUS: - type = "ISOCHRONOUS"; - break; - case CVMX_USB_TRANSFER_BULK: - type = "BULK"; - break; - default: /* CVMX_USB_TRANSFER_INTERRUPT */ - type = "INTERRUPT"; - break; - } - cvmx_dprintf("%s: Starting pipe %d, transaction %d on channel %d. %s %s len=%d header=0x%llx\n", - __FUNCTION__, __cvmx_usb_get_pipe_handle(usb, pipe), - __cvmx_usb_get_submit_handle(usb, transaction), - channel, type, dir, - transaction->buffer_length, - (header) ? (unsigned long long)header->u64 : 0ull); - } - __cvmx_usb_start_channel(usb, channel, pipe); - } - -done: - /* Only enable SOF interrupts when we have transactions pending in the - future that might need to be scheduled */ - need_sof = 0; - for (ttype=CVMX_USB_TRANSFER_CONTROL; ttype<=CVMX_USB_TRANSFER_INTERRUPT; ttype++) { - pipe = usb->active_pipes[ttype].head; - while (pipe) { - if (pipe->next_tx_frame > usb->frame_number) { - need_sof = 1; - break; - } - pipe=pipe->next; - } - } - USB_SET_FIELD32(CVMX_USBCX_GINTMSK(usb->index), cvmx_usbcx_gintmsk_t, sofmsk, need_sof); - CVMX_USB_RETURN_NOTHING(); -} - - -/** - * @INTERNAL - * Call a user's callback for a specific reason. - * - * @param usb USB device state populated by - * cvmx_usb_initialize(). - * @param pipe Pipe the callback is for or NULL - * @param transaction - * Transaction the callback is for or NULL - * @param reason Reason this callback is being called - * @param complete_code - * Completion code for the transaction, if any - */ -static void __cvmx_usb_perform_callback(cvmx_usb_internal_state_t *usb, - cvmx_usb_pipe_t *pipe, - cvmx_usb_transaction_t *transaction, - cvmx_usb_callback_t reason, - cvmx_usb_complete_t complete_code) -{ - cvmx_usb_callback_func_t callback = usb->callback[reason]; - void *user_data = usb->callback_data[reason]; - int submit_handle = -1; - int pipe_handle = -1; - int bytes_transferred = 0; - - if (pipe) - pipe_handle = __cvmx_usb_get_pipe_handle(usb, pipe); - - if (transaction) { - submit_handle = __cvmx_usb_get_submit_handle(usb, transaction); - bytes_transferred = transaction->actual_bytes; - /* Transactions are allowed to override the default callback */ - if ((reason == CVMX_USB_CALLBACK_TRANSFER_COMPLETE) && transaction->callback) { - callback = transaction->callback; - user_data = transaction->callback_data; - } - } - - if (!callback) - return; - - if (cvmx_unlikely(usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_CALLBACKS)) - cvmx_dprintf("%*s%s: calling callback %p(usb=%p, complete_code=%s, " - "pipe_handle=%d, submit_handle=%d, bytes_transferred=%d, user_data=%p);\n", - 2*usb->indent, "", __FUNCTION__, callback, usb, - __cvmx_usb_complete_to_string(complete_code), - pipe_handle, submit_handle, bytes_transferred, user_data); - - callback((cvmx_usb_state_t *)usb, reason, complete_code, pipe_handle, submit_handle, - bytes_transferred, user_data); - - if (cvmx_unlikely(usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_CALLBACKS)) - cvmx_dprintf("%*s%s: callback %p complete\n", 2*usb->indent, "", - __FUNCTION__, callback); -} - - -/** - * @INTERNAL - * Signal the completion of a transaction and free it. The - * transaction will be removed from the pipe transaction list. - * - * @param usb USB device state populated by - * cvmx_usb_initialize(). - * @param pipe Pipe the transaction is on - * @param transaction - * Transaction that completed - * @param complete_code - * Completion code - */ -static void __cvmx_usb_perform_complete(cvmx_usb_internal_state_t * usb, - cvmx_usb_pipe_t *pipe, - cvmx_usb_transaction_t *transaction, - cvmx_usb_complete_t complete_code) -{ - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", usb); - CVMX_USB_LOG_PARAM("%p", pipe); - CVMX_USB_LOG_PARAM("%p", transaction); - CVMX_USB_LOG_PARAM("%d", complete_code); - - /* If this was a split then clear our split in progress marker */ - if (usb->active_split == transaction) - usb->active_split = NULL; - - /* Isochronous transactions need extra processing as they might not be done - after a single data transfer */ - if (cvmx_unlikely(transaction->type == CVMX_USB_TRANSFER_ISOCHRONOUS)) { - /* Update the number of bytes transferred in this ISO packet */ - transaction->iso_packets[0].length = transaction->actual_bytes; - transaction->iso_packets[0].status = complete_code; - - /* If there are more ISOs pending and we succeeded, schedule the next - one */ - if ((transaction->iso_number_packets > 1) && (complete_code == CVMX_USB_COMPLETE_SUCCESS)) { - transaction->actual_bytes = 0; /* No bytes transferred for this packet as of yet */ - transaction->iso_number_packets--; /* One less ISO waiting to transfer */ - transaction->iso_packets++; /* Increment to the next location in our packet array */ - transaction->stage = CVMX_USB_STAGE_NON_CONTROL; - goto done; - } - } - - /* Remove the transaction from the pipe list */ - if (transaction->next) - transaction->next->prev = transaction->prev; - else - pipe->tail = transaction->prev; - if (transaction->prev) - transaction->prev->next = transaction->next; - else - pipe->head = transaction->next; - if (!pipe->head) { - __cvmx_usb_remove_pipe(usb->active_pipes + pipe->transfer_type, pipe); - __cvmx_usb_append_pipe(&usb->idle_pipes, pipe); - - } - __cvmx_usb_perform_callback(usb, pipe, transaction, - CVMX_USB_CALLBACK_TRANSFER_COMPLETE, - complete_code); - __cvmx_usb_free_transaction(usb, transaction); -done: - CVMX_USB_RETURN_NOTHING(); -} - - -/** - * @INTERNAL - * Submit a usb transaction to a pipe. Called for all types - * of transactions. - * - * @param usb - * @param pipe_handle - * Which pipe to submit to. Will be validated in this function. - * @param type Transaction type - * @param flags Flags for the transaction - * @param buffer User buffer for the transaction - * @param buffer_length - * User buffer's length in bytes - * @param control_header - * For control transactions, the 8 byte standard header - * @param iso_start_frame - * For ISO transactions, the start frame - * @param iso_number_packets - * For ISO, the number of packet in the transaction. - * @param iso_packets - * A description of each ISO packet - * @param callback User callback to call when the transaction completes - * @param user_data User's data for the callback - * - * @return Submit handle or negative on failure. Matches the result - * in the external API. - */ -static int __cvmx_usb_submit_transaction(cvmx_usb_internal_state_t *usb, - int pipe_handle, - cvmx_usb_transfer_t type, - int flags, - uint64_t buffer, - int buffer_length, - uint64_t control_header, - int iso_start_frame, - int iso_number_packets, - cvmx_usb_iso_packet_t *iso_packets, - cvmx_usb_callback_func_t callback, - void *user_data) -{ - int submit_handle; - cvmx_usb_transaction_t *transaction; - cvmx_usb_pipe_t *pipe = usb->pipe + pipe_handle; - - CVMX_USB_LOG_CALLED(); - if (cvmx_unlikely((pipe_handle < 0) || (pipe_handle >= MAX_PIPES))) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - /* Fail if the pipe isn't open */ - if (cvmx_unlikely((pipe->flags & __CVMX_USB_PIPE_FLAGS_OPEN) == 0)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely(pipe->transfer_type != type)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - - transaction = __cvmx_usb_alloc_transaction(usb); - if (cvmx_unlikely(!transaction)) - CVMX_USB_RETURN(CVMX_USB_NO_MEMORY); - - transaction->type = type; - transaction->flags |= flags; - transaction->buffer = buffer; - transaction->buffer_length = buffer_length; - transaction->control_header = control_header; - transaction->iso_start_frame = iso_start_frame; // FIXME: This is not used, implement it - transaction->iso_number_packets = iso_number_packets; - transaction->iso_packets = iso_packets; - transaction->callback = callback; - transaction->callback_data = user_data; - if (transaction->type == CVMX_USB_TRANSFER_CONTROL) - transaction->stage = CVMX_USB_STAGE_SETUP; - else - transaction->stage = CVMX_USB_STAGE_NON_CONTROL; - - transaction->next = NULL; - if (pipe->tail) { - transaction->prev = pipe->tail; - transaction->prev->next = transaction; - } - else { - if (pipe->next_tx_frame < usb->frame_number) - pipe->next_tx_frame = usb->frame_number + pipe->interval - - (usb->frame_number - pipe->next_tx_frame) % pipe->interval; - transaction->prev = NULL; - pipe->head = transaction; - __cvmx_usb_remove_pipe(&usb->idle_pipes, pipe); - __cvmx_usb_append_pipe(usb->active_pipes + pipe->transfer_type, pipe); - } - pipe->tail = transaction; - - submit_handle = __cvmx_usb_get_submit_handle(usb, transaction); - - /* We may need to schedule the pipe if this was the head of the pipe */ - if (!transaction->prev) - __cvmx_usb_schedule(usb, 0); - - CVMX_USB_RETURN(submit_handle); -} - - -/** - * 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. - */ -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) -{ - int submit_handle; - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - CVMX_USB_LOG_PARAM("%d", pipe_handle); - CVMX_USB_LOG_PARAM("0x%llx", (unsigned long long)buffer); - CVMX_USB_LOG_PARAM("%d", buffer_length); - - /* Pipe handle checking is done later in a common place */ - if (cvmx_unlikely(!buffer)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely(buffer_length < 0)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - - submit_handle = __cvmx_usb_submit_transaction(usb, pipe_handle, - CVMX_USB_TRANSFER_BULK, - 0, /* flags */ - buffer, - buffer_length, - 0, /* control_header */ - 0, /* iso_start_frame */ - 0, /* iso_number_packets */ - NULL, /* iso_packets */ - callback, - user_data); - CVMX_USB_RETURN(submit_handle); -} - - -/** - * 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. - */ -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) -{ - int submit_handle; - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - CVMX_USB_LOG_PARAM("%d", pipe_handle); - CVMX_USB_LOG_PARAM("0x%llx", (unsigned long long)buffer); - CVMX_USB_LOG_PARAM("%d", buffer_length); - - /* Pipe handle checking is done later in a common place */ - if (cvmx_unlikely(!buffer)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely(buffer_length < 0)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - - submit_handle = __cvmx_usb_submit_transaction(usb, pipe_handle, - CVMX_USB_TRANSFER_INTERRUPT, - 0, /* flags */ - buffer, - buffer_length, - 0, /* control_header */ - 0, /* iso_start_frame */ - 0, /* iso_number_packets */ - NULL, /* iso_packets */ - callback, - user_data); - CVMX_USB_RETURN(submit_handle); -} - - -/** - * 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. - */ -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) -{ - int submit_handle; - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - cvmx_usb_control_header_t *header = cvmx_phys_to_ptr(control_header); - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - CVMX_USB_LOG_PARAM("%d", pipe_handle); - CVMX_USB_LOG_PARAM("0x%llx", (unsigned long long)control_header); - CVMX_USB_LOG_PARAM("0x%llx", (unsigned long long)buffer); - CVMX_USB_LOG_PARAM("%d", buffer_length); - - /* Pipe handle checking is done later in a common place */ - if (cvmx_unlikely(!control_header)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - /* Some drivers send a buffer with a zero length. God only knows why */ - if (cvmx_unlikely(buffer && (buffer_length < 0))) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely(!buffer && (buffer_length != 0))) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if ((header->s.request_type & 0x80) == 0) - buffer_length = cvmx_le16_to_cpu(header->s.length); - - submit_handle = __cvmx_usb_submit_transaction(usb, pipe_handle, - CVMX_USB_TRANSFER_CONTROL, - 0, /* flags */ - buffer, - buffer_length, - control_header, - 0, /* iso_start_frame */ - 0, /* iso_number_packets */ - NULL, /* iso_packets */ - callback, - user_data); - CVMX_USB_RETURN(submit_handle); -} - - -/** - * 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. - */ -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) -{ - int submit_handle; - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - CVMX_USB_LOG_PARAM("%d", pipe_handle); - CVMX_USB_LOG_PARAM("%d", start_frame); - CVMX_USB_LOG_PARAM("0x%x", flags); - CVMX_USB_LOG_PARAM("%d", number_packets); - CVMX_USB_LOG_PARAM("%p", packets); - CVMX_USB_LOG_PARAM("0x%llx", (unsigned long long)buffer); - CVMX_USB_LOG_PARAM("%d", buffer_length); - - /* Pipe handle checking is done later in a common place */ - if (cvmx_unlikely(start_frame < 0)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely(flags & ~(CVMX_USB_ISOCHRONOUS_FLAGS_ALLOW_SHORT | CVMX_USB_ISOCHRONOUS_FLAGS_ASAP))) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely(number_packets < 1)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely(!packets)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely(!buffer)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely(buffer_length < 0)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - - submit_handle = __cvmx_usb_submit_transaction(usb, pipe_handle, - CVMX_USB_TRANSFER_ISOCHRONOUS, - flags, - buffer, - buffer_length, - 0, /* control_header */ - start_frame, - number_packets, - packets, - callback, - user_data); - CVMX_USB_RETURN(submit_handle); -} - - -/** - * 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. - */ -cvmx_usb_status_t cvmx_usb_cancel(cvmx_usb_state_t *state, int pipe_handle, - int submit_handle) -{ - cvmx_usb_transaction_t *transaction; - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - cvmx_usb_pipe_t *pipe = usb->pipe + pipe_handle; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - CVMX_USB_LOG_PARAM("%d", pipe_handle); - CVMX_USB_LOG_PARAM("%d", submit_handle); - - if (cvmx_unlikely((pipe_handle < 0) || (pipe_handle >= MAX_PIPES))) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely((submit_handle < 0) || (submit_handle >= MAX_TRANSACTIONS))) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - - /* Fail if the pipe isn't open */ - if (cvmx_unlikely((pipe->flags & __CVMX_USB_PIPE_FLAGS_OPEN) == 0)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - - transaction = usb->transaction + submit_handle; - - /* Fail if this transaction already completed */ - if (cvmx_unlikely((transaction->flags & __CVMX_USB_TRANSACTION_FLAGS_IN_USE) == 0)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - - /* If the transaction is the HEAD of the queue and scheduled. We need to - treat it special */ - if ((pipe->head == transaction) && - (pipe->flags & __CVMX_USB_PIPE_FLAGS_SCHEDULED)) { - cvmx_usbcx_hccharx_t usbc_hcchar; - - usb->pipe_for_channel[pipe->channel] = NULL; - pipe->flags &= ~__CVMX_USB_PIPE_FLAGS_SCHEDULED; - - CVMX_SYNCW; - - usbc_hcchar.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HCCHARX(pipe->channel, usb->index)); - /* If the channel isn't enabled then the transaction already completed */ - if (usbc_hcchar.s.chena) { - usbc_hcchar.s.chdis = 1; - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HCCHARX(pipe->channel, usb->index), usbc_hcchar.u32); - } - } - __cvmx_usb_perform_complete(usb, pipe, transaction, CVMX_USB_COMPLETE_CANCEL); - CVMX_USB_RETURN(CVMX_USB_SUCCESS); -} - - -/** - * 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. - */ -cvmx_usb_status_t cvmx_usb_cancel_all(cvmx_usb_state_t *state, int pipe_handle) -{ - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - cvmx_usb_pipe_t *pipe = usb->pipe + pipe_handle; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - CVMX_USB_LOG_PARAM("%d", pipe_handle); - if (cvmx_unlikely((pipe_handle < 0) || (pipe_handle >= MAX_PIPES))) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - - /* Fail if the pipe isn't open */ - if (cvmx_unlikely((pipe->flags & __CVMX_USB_PIPE_FLAGS_OPEN) == 0)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - - /* Simply loop through and attempt to cancel each transaction */ - while (pipe->head) { - cvmx_usb_status_t result = cvmx_usb_cancel(state, pipe_handle, - __cvmx_usb_get_submit_handle(usb, pipe->head)); - if (cvmx_unlikely(result != CVMX_USB_SUCCESS)) - CVMX_USB_RETURN(result); - } - CVMX_USB_RETURN(CVMX_USB_SUCCESS); -} - - -/** - * 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. - */ -cvmx_usb_status_t cvmx_usb_close_pipe(cvmx_usb_state_t *state, int pipe_handle) -{ - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - cvmx_usb_pipe_t *pipe = usb->pipe + pipe_handle; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - CVMX_USB_LOG_PARAM("%d", pipe_handle); - if (cvmx_unlikely((pipe_handle < 0) || (pipe_handle >= MAX_PIPES))) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - - /* Fail if the pipe isn't open */ - if (cvmx_unlikely((pipe->flags & __CVMX_USB_PIPE_FLAGS_OPEN) == 0)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - - /* Fail if the pipe has pending transactions */ - if (cvmx_unlikely(pipe->head)) - CVMX_USB_RETURN(CVMX_USB_BUSY); - - pipe->flags = 0; - __cvmx_usb_remove_pipe(&usb->idle_pipes, pipe); - __cvmx_usb_append_pipe(&usb->free_pipes, pipe); - - CVMX_USB_RETURN(CVMX_USB_SUCCESS); -} - - -/** - * 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. - */ -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) -{ - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - CVMX_USB_LOG_PARAM("%d", reason); - CVMX_USB_LOG_PARAM("%p", callback); - CVMX_USB_LOG_PARAM("%p", user_data); - if (cvmx_unlikely(reason >= __CVMX_USB_CALLBACK_END)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - if (cvmx_unlikely(!callback)) - CVMX_USB_RETURN(CVMX_USB_INVALID_PARAM); - - usb->callback[reason] = callback; - usb->callback_data[reason] = user_data; - - CVMX_USB_RETURN(CVMX_USB_SUCCESS); -} - - -/** - * 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 - */ -int cvmx_usb_get_frame_number(cvmx_usb_state_t *state) -{ - int frame_number; - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - cvmx_usbcx_hfnum_t usbc_hfnum; - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - - usbc_hfnum.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HFNUM(usb->index)); - frame_number = usbc_hfnum.s.frnum; - - CVMX_USB_RETURN(frame_number); -} - - -/** - * @INTERNAL - * Poll a channel for status - * - * @param usb USB device - * @param channel Channel to poll - * - * @return Zero on success - */ -static int __cvmx_usb_poll_channel(cvmx_usb_internal_state_t *usb, int channel) -{ - cvmx_usbcx_hcintx_t usbc_hcint; - cvmx_usbcx_hctsizx_t usbc_hctsiz; - cvmx_usbcx_hccharx_t usbc_hcchar; - cvmx_usb_pipe_t *pipe; - cvmx_usb_transaction_t *transaction; - int bytes_this_transfer; - int bytes_in_last_packet; - int packets_processed; - int buffer_space_left; - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", usb); - CVMX_USB_LOG_PARAM("%d", channel); - - /* Read the interrupt status bits for the channel */ - usbc_hcint.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HCINTX(channel, usb->index)); - - if (usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_NO_DMA) { - usbc_hcchar.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HCCHARX(channel, usb->index)); - - if (usbc_hcchar.s.chena && usbc_hcchar.s.chdis) { - /* There seems to be a bug in CN31XX which can cause interrupt - IN transfers to get stuck until we do a write of HCCHARX - without changing things */ - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HCCHARX(channel, usb->index), usbc_hcchar.u32); - CVMX_USB_RETURN(0); - } - - /* In non DMA mode the channels don't halt themselves. We need to - manually disable channels that are left running */ - if (!usbc_hcint.s.chhltd) { - if (usbc_hcchar.s.chena) { - cvmx_usbcx_hcintmskx_t hcintmsk; - /* Disable all interrupts except CHHLTD */ - hcintmsk.u32 = 0; - hcintmsk.s.chhltdmsk = 1; - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HCINTMSKX(channel, usb->index), hcintmsk.u32); - usbc_hcchar.s.chdis = 1; - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HCCHARX(channel, usb->index), usbc_hcchar.u32); - CVMX_USB_RETURN(0); - } - else if (usbc_hcint.s.xfercompl) { - /* Successful IN/OUT with transfer complete. Channel halt isn't needed */ - } - else { - cvmx_dprintf("USB%d: Channel %d interrupt without halt\n", usb->index, channel); - CVMX_USB_RETURN(0); - } - } - } - else { - /* There is are no interrupts that we need to process when the channel is - still running */ - if (!usbc_hcint.s.chhltd) - CVMX_USB_RETURN(0); - } - - /* Disable the channel interrupts now that it is done */ - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HCINTMSKX(channel, usb->index), 0); - usb->idle_hardware_channels |= (1<<channel); - - /* Make sure this channel is tied to a valid pipe */ - pipe = usb->pipe_for_channel[channel]; - CVMX_PREFETCH(pipe, 0); - CVMX_PREFETCH(pipe, 128); - if (!pipe) - CVMX_USB_RETURN(0); - transaction = pipe->head; - CVMX_PREFETCH0(transaction); - - /* Disconnect this pipe from the HW channel. Later the schedule function will - figure out which pipe needs to go */ - usb->pipe_for_channel[channel] = NULL; - pipe->flags &= ~__CVMX_USB_PIPE_FLAGS_SCHEDULED; - - /* Read the channel config info so we can figure out how much data - transfered */ - usbc_hcchar.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HCCHARX(channel, usb->index)); - usbc_hctsiz.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HCTSIZX(channel, usb->index)); - - /* Calculating the number of bytes successfully transferred is dependent on - the transfer direction */ - packets_processed = transaction->pktcnt - usbc_hctsiz.s.pktcnt; - if (usbc_hcchar.s.epdir) { - /* IN transactions are easy. For every byte received the hardware - decrements xfersize. All we need to do is subtract the current - value of xfersize from its starting value and we know how many - bytes were written to the buffer */ - bytes_this_transfer = transaction->xfersize - usbc_hctsiz.s.xfersize; - } - else { - /* OUT transaction don't decrement xfersize. Instead pktcnt is - decremented on every successful packet send. The hardware does - this when it receives an ACK, or NYET. If it doesn't - receive one of these responses pktcnt doesn't change */ - bytes_this_transfer = packets_processed * usbc_hcchar.s.mps; - /* The last packet may not be a full transfer if we didn't have - enough data */ - if (bytes_this_transfer > transaction->xfersize) - bytes_this_transfer = transaction->xfersize; - } - /* Figure out how many bytes were in the last packet of the transfer */ - if (packets_processed) - bytes_in_last_packet = bytes_this_transfer - (packets_processed-1) * usbc_hcchar.s.mps; - else - bytes_in_last_packet = bytes_this_transfer; - - /* As a special case, setup transactions output the setup header, not - the user's data. For this reason we don't count setup data as bytes - transferred */ - if ((transaction->stage == CVMX_USB_STAGE_SETUP) || - (transaction->stage == CVMX_USB_STAGE_SETUP_SPLIT_COMPLETE)) - bytes_this_transfer = 0; - - /* Optional debug output */ - if (cvmx_unlikely((usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_DEBUG_TRANSFERS) || - (pipe->flags & CVMX_USB_PIPE_FLAGS_DEBUG_TRANSFERS))) - cvmx_dprintf("%s: Channel %d halted. Pipe %d transaction %d stage %d bytes=%d\n", - __FUNCTION__, channel, - __cvmx_usb_get_pipe_handle(usb, pipe), - __cvmx_usb_get_submit_handle(usb, transaction), - transaction->stage, bytes_this_transfer); - - /* Add the bytes transferred to the running total. It is important that - bytes_this_transfer doesn't count any data that needs to be - retransmitted */ - transaction->actual_bytes += bytes_this_transfer; - if (transaction->type == CVMX_USB_TRANSFER_ISOCHRONOUS) - buffer_space_left = transaction->iso_packets[0].length - transaction->actual_bytes; - else - buffer_space_left = transaction->buffer_length - transaction->actual_bytes; - - /* We need to remember the PID toggle state for the next transaction. The - hardware already updated it for the next transaction */ - pipe->pid_toggle = !(usbc_hctsiz.s.pid == 0); - - /* For high speed bulk out, assume the next transaction will need to do a - ping before proceeding. If this isn't true the ACK processing below - will clear this flag */ - if ((pipe->device_speed == CVMX_USB_SPEED_HIGH) && - (pipe->transfer_type == CVMX_USB_TRANSFER_BULK) && - (pipe->transfer_dir == CVMX_USB_DIRECTION_OUT)) - pipe->flags |= __CVMX_USB_PIPE_FLAGS_NEED_PING; - - if (usbc_hcint.s.stall) { - /* STALL as a response means this transaction cannot be completed - because the device can't process transactions. Tell the user. Any - data that was transferred will be counted on the actual bytes - transferred */ - pipe->pid_toggle = 0; - __cvmx_usb_perform_complete(usb, pipe, transaction, CVMX_USB_COMPLETE_STALL); - } - else if (usbc_hcint.s.xacterr) { - /* We know at least one packet worked if we get a ACK or NAK. Reset the retry counter */ - if (usbc_hcint.s.nak || usbc_hcint.s.ack) - transaction->retries = 0; - transaction->retries++; - if (transaction->retries > MAX_RETRIES) { - /* XactErr as a response means the device signaled something wrong with - the transfer. For example, PID toggle errors cause these */ - __cvmx_usb_perform_complete(usb, pipe, transaction, CVMX_USB_COMPLETE_XACTERR); - } - else { - /* If this was a split then clear our split in progress marker */ - if (usb->active_split == transaction) - usb->active_split = NULL; - /* Rewind to the beginning of the transaction by anding off the - split complete bit */ - transaction->stage &= ~1; - pipe->split_sc_frame = -1; - pipe->next_tx_frame += pipe->interval; - if (pipe->next_tx_frame < usb->frame_number) - pipe->next_tx_frame = usb->frame_number + pipe->interval - - (usb->frame_number - pipe->next_tx_frame) % pipe->interval; - } - } - else if (usbc_hcint.s.bblerr) - { - /* Babble Error (BblErr) */ - __cvmx_usb_perform_complete(usb, pipe, transaction, CVMX_USB_COMPLETE_BABBLEERR); - } - else if (usbc_hcint.s.datatglerr) - { - /* We'll retry the exact same transaction again */ - transaction->retries++; - } - else if (usbc_hcint.s.nyet) { - /* NYET as a response is only allowed in three cases: as a response to - a ping, as a response to a split transaction, and as a response to - a bulk out. The ping case is handled by hardware, so we only have - splits and bulk out */ - if (!__cvmx_usb_pipe_needs_split(usb, pipe)) { - transaction->retries = 0; - /* If there is more data to go then we need to try again. Otherwise - this transaction is complete */ - if ((buffer_space_left == 0) || (bytes_in_last_packet < pipe->max_packet)) - __cvmx_usb_perform_complete(usb, pipe, transaction, CVMX_USB_COMPLETE_SUCCESS); - } - else { - /* Split transactions retry the split complete 4 times then rewind - to the start split and do the entire transactions again */ - transaction->retries++; - if ((transaction->retries & 0x3) == 0) { - /* Rewind to the beginning of the transaction by anding off the - split complete bit */ - transaction->stage &= ~1; - pipe->split_sc_frame = -1; - } - } - } - else if (usbc_hcint.s.ack) { - transaction->retries = 0; - /* The ACK bit can only be checked after the other error bits. This is - because a multi packet transfer may succeed in a number of packets - and then get a different response on the last packet. In this case - both ACK and the last response bit will be set. If none of the - other response bits is set, then the last packet must have been an - ACK */ - - /* Since we got an ACK, we know we don't need to do a ping on this - pipe */ - pipe->flags &= ~__CVMX_USB_PIPE_FLAGS_NEED_PING; - - switch (transaction->type) - { - case CVMX_USB_TRANSFER_CONTROL: - switch (transaction->stage) - { - case CVMX_USB_STAGE_NON_CONTROL: - case CVMX_USB_STAGE_NON_CONTROL_SPLIT_COMPLETE: - /* This should be impossible */ - __cvmx_usb_perform_complete(usb, pipe, transaction, CVMX_USB_COMPLETE_ERROR); - break; - case CVMX_USB_STAGE_SETUP: - pipe->pid_toggle = 1; - if (__cvmx_usb_pipe_needs_split(usb, pipe)) - transaction->stage = CVMX_USB_STAGE_SETUP_SPLIT_COMPLETE; - else { - cvmx_usb_control_header_t *header = cvmx_phys_to_ptr(transaction->control_header); - if (header->s.length) - transaction->stage = CVMX_USB_STAGE_DATA; - else - transaction->stage = CVMX_USB_STAGE_STATUS; - } - break; - case CVMX_USB_STAGE_SETUP_SPLIT_COMPLETE: - { - cvmx_usb_control_header_t *header = cvmx_phys_to_ptr(transaction->control_header); - if (header->s.length) - transaction->stage = CVMX_USB_STAGE_DATA; - else - transaction->stage = CVMX_USB_STAGE_STATUS; - } - break; - case CVMX_USB_STAGE_DATA: - if (__cvmx_usb_pipe_needs_split(usb, pipe)) { - transaction->stage = CVMX_USB_STAGE_DATA_SPLIT_COMPLETE; - /* For setup OUT data that are splits, the hardware - doesn't appear to count transferred data. Here - we manually update the data transferred */ - if (!usbc_hcchar.s.epdir) { - if (buffer_space_left < pipe->max_packet) - transaction->actual_bytes += buffer_space_left; - else - transaction->actual_bytes += pipe->max_packet; - } - } - else if ((buffer_space_left == 0) || (bytes_in_last_packet < pipe->max_packet)) { - pipe->pid_toggle = 1; - transaction->stage = CVMX_USB_STAGE_STATUS; - } - break; - case CVMX_USB_STAGE_DATA_SPLIT_COMPLETE: - if ((buffer_space_left == 0) || (bytes_in_last_packet < pipe->max_packet)) { - pipe->pid_toggle = 1; - transaction->stage = CVMX_USB_STAGE_STATUS; - } - else { - transaction->stage = CVMX_USB_STAGE_DATA; - } - break; - case CVMX_USB_STAGE_STATUS: - if (__cvmx_usb_pipe_needs_split(usb, pipe)) - transaction->stage = CVMX_USB_STAGE_STATUS_SPLIT_COMPLETE; - else - __cvmx_usb_perform_complete(usb, pipe, transaction, CVMX_USB_COMPLETE_SUCCESS); - break; - case CVMX_USB_STAGE_STATUS_SPLIT_COMPLETE: - __cvmx_usb_perform_complete(usb, pipe, transaction, CVMX_USB_COMPLETE_SUCCESS); - break; - } - break; - case CVMX_USB_TRANSFER_BULK: - case CVMX_USB_TRANSFER_INTERRUPT: - /* The only time a bulk transfer isn't complete when - it finishes with an ACK is during a split transaction. For - splits we need to continue the transfer if more data is - needed */ - if (__cvmx_usb_pipe_needs_split(usb, pipe)) { - if (transaction->stage == CVMX_USB_STAGE_NON_CONTROL) - transaction->stage = CVMX_USB_STAGE_NON_CONTROL_SPLIT_COMPLETE; - else { - if (buffer_space_left && (bytes_in_last_packet == pipe->max_packet)) - transaction->stage = CVMX_USB_STAGE_NON_CONTROL; - else { - if (transaction->type == CVMX_USB_TRANSFER_INTERRUPT) - pipe->next_tx_frame += pipe->interval; - __cvmx_usb_perform_complete(usb, pipe, transaction, CVMX_USB_COMPLETE_SUCCESS); - } - } - } - else { - if ((pipe->device_speed == CVMX_USB_SPEED_HIGH) && - (pipe->transfer_type == CVMX_USB_TRANSFER_BULK) && - (pipe->transfer_dir == CVMX_USB_DIRECTION_OUT) && - (usbc_hcint.s.nak)) - pipe->flags |= __CVMX_USB_PIPE_FLAGS_NEED_PING; - if (!buffer_space_left || (bytes_in_last_packet < pipe->max_packet)) { - if (transaction->type == CVMX_USB_TRANSFER_INTERRUPT) - pipe->next_tx_frame += pipe->interval; - __cvmx_usb_perform_complete(usb, pipe, transaction, CVMX_USB_COMPLETE_SUCCESS); - } - } - break; - case CVMX_USB_TRANSFER_ISOCHRONOUS: - if (__cvmx_usb_pipe_needs_split(usb, pipe)) { - /* ISOCHRONOUS OUT splits don't require a complete split stage. - Instead they use a sequence of begin OUT splits to transfer - the data 188 bytes at a time. Once the transfer is complete, - the pipe sleeps until the next schedule interval */ - if (pipe->transfer_dir == CVMX_USB_DIRECTION_OUT) { - /* If no space left or this wasn't a max size packet then - this transfer is complete. Otherwise start it again - to send the next 188 bytes */ - if (!buffer_space_left || (bytes_this_transfer < 188)) { - pipe->next_tx_frame += pipe->interval; - __cvmx_usb_perform_complete(usb, pipe, transaction, CVMX_USB_COMPLETE_SUCCESS); - } - } - else { - if (transaction->stage == CVMX_USB_STAGE_NON_CONTROL_SPLIT_COMPLETE) { - /* We are in the incoming data phase. Keep getting - data until we run out of space or get a small - packet */ - if ((buffer_space_left == 0) || (bytes_in_last_packet < pipe->max_packet)) { - pipe->next_tx_frame += pipe->interval; - __cvmx_usb_perform_complete(usb, pipe, transaction, CVMX_USB_COMPLETE_SUCCESS); - } - } - else - transaction->stage = CVMX_USB_STAGE_NON_CONTROL_SPLIT_COMPLETE; - } - } - else { - pipe->next_tx_frame += pipe->interval; - __cvmx_usb_perform_complete(usb, pipe, transaction, CVMX_USB_COMPLETE_SUCCESS); - } - break; - } - } - else if (usbc_hcint.s.nak) { - /* If this was a split then clear our split in progress marker */ - if (usb->active_split == transaction) - usb->active_split = NULL; - /* NAK as a response means the device couldn't accept the transaction, - but it should be retried in the future. Rewind to the beginning of - the transaction by anding off the split complete bit. Retry in the - next interval */ - transaction->retries = 0; - transaction->stage &= ~1; - pipe->next_tx_frame += pipe->interval; - if (pipe->next_tx_frame < usb->frame_number) - pipe->next_tx_frame = usb->frame_number + pipe->interval - - (usb->frame_number - pipe->next_tx_frame) % pipe->interval; - } - else { - cvmx_usb_port_status_t port; - port = cvmx_usb_get_status((cvmx_usb_state_t *)usb); - if (port.port_enabled) - { - /* We'll retry the exact same transaction again */ - transaction->retries++; - } - else - { - /* We get channel halted interrupts with no result bits sets when the - cable is unplugged */ - __cvmx_usb_perform_complete(usb, pipe, transaction, CVMX_USB_COMPLETE_ERROR); - } - } - CVMX_USB_RETURN(0); -} - - -/** - * 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. - */ -cvmx_usb_status_t cvmx_usb_poll(cvmx_usb_state_t *state) -{ - cvmx_usbcx_hfnum_t usbc_hfnum; - cvmx_usbcx_gintsts_t usbc_gintsts; - cvmx_usb_internal_state_t *usb = (cvmx_usb_internal_state_t*)state; - - CVMX_PREFETCH(usb, 0); - CVMX_PREFETCH(usb, 1*128); - CVMX_PREFETCH(usb, 2*128); - CVMX_PREFETCH(usb, 3*128); - CVMX_PREFETCH(usb, 4*128); - - CVMX_USB_LOG_CALLED(); - CVMX_USB_LOG_PARAM("%p", state); - - /* Update the frame counter */ - usbc_hfnum.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HFNUM(usb->index)); - if ((usb->frame_number&0x3fff) > usbc_hfnum.s.frnum) - usb->frame_number += 0x4000; - usb->frame_number &= ~0x3fffull; - usb->frame_number |= usbc_hfnum.s.frnum; - - /* Read the pending interrupts */ - usbc_gintsts.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_GINTSTS(usb->index)); - - /* Clear the interrupts now that we know about them */ - __cvmx_usb_write_csr32(usb, CVMX_USBCX_GINTSTS(usb->index), usbc_gintsts.u32); - - if (usbc_gintsts.s.rxflvl) { - /* RxFIFO Non-Empty (RxFLvl) - Indicates that there is at least one packet pending to be read - from the RxFIFO. */ - /* In DMA mode this is handled by hardware */ - if (usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_NO_DMA) - __cvmx_usb_poll_rx_fifo(usb); - } - if (usbc_gintsts.s.ptxfemp || usbc_gintsts.s.nptxfemp) { - /* Fill the Tx FIFOs when not in DMA mode */ - if (usb->init_flags & CVMX_USB_INITIALIZE_FLAGS_NO_DMA) - __cvmx_usb_poll_tx_fifo(usb); - } - if (usbc_gintsts.s.disconnint || usbc_gintsts.s.prtint) { - cvmx_usbcx_hprt_t usbc_hprt; - /* Disconnect Detected Interrupt (DisconnInt) - Asserted when a device disconnect is detected. */ - - /* Host Port Interrupt (PrtInt) - The core sets this bit to indicate a change in port status of one - of the O2P USB core ports in Host mode. The application must - read the Host Port Control and Status (HPRT) register to - determine the exact event that caused this interrupt. The - application must clear the appropriate status bit in the Host Port - Control and Status register to clear this bit. */ - - /* Call the user's port callback */ - __cvmx_usb_perform_callback(usb, NULL, NULL, - CVMX_USB_CALLBACK_PORT_CHANGED, - CVMX_USB_COMPLETE_SUCCESS); - /* Clear the port change bits */ - usbc_hprt.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HPRT(usb->index)); - usbc_hprt.s.prtena = 0; - __cvmx_usb_write_csr32(usb, CVMX_USBCX_HPRT(usb->index), usbc_hprt.u32); - } - if (usbc_gintsts.s.hchint) { - /* Host Channels Interrupt (HChInt) - The core sets this bit to indicate that an interrupt is pending on - one of the channels of the core (in Host mode). The application - must read the Host All Channels Interrupt (HAINT) register to - determine the exact number of the channel on which the - interrupt occurred, and then read the corresponding Host - Channel-n Interrupt (HCINTn) register to determine the exact - cause of the interrupt. The application must clear the - appropriate status bit in the HCINTn register to clear this bit. */ - cvmx_usbcx_haint_t usbc_haint; - usbc_haint.u32 = __cvmx_usb_read_csr32(usb, CVMX_USBCX_HAINT(usb->index)); - while (usbc_haint.u32) { - int channel; - CVMX_CLZ(channel, usbc_haint.u32); - channel = 31 - channel; - __cvmx_usb_poll_channel(usb, channel); - usbc_haint.u32 ^= 1<<channel; - } - } - - __cvmx_usb_schedule(usb, usbc_gintsts.s.sof); - - CVMX_USB_RETURN(CVMX_USB_SUCCESS); -} diff --git a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/cvmx-usb.h b/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/cvmx-usb.h deleted file mode 100644 index db9cc05e5d..0000000000 --- a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/cvmx-usb.h +++ /dev/null @@ -1,1085 +0,0 @@ -/***********************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); - -#ifdef __cplusplus -} -#endif - -#endif /* __CVMX_USB_H__ */ diff --git a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/cvmx-usbcx-defs.h b/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/cvmx-usbcx-defs.h deleted file mode 100644 index 394e84662c..0000000000 --- a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/cvmx-usbcx-defs.h +++ /dev/null @@ -1,1551 +0,0 @@ -/***********************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**************************************/ - - -/** - * cvmx-usbcx-defs.h - * - * Configuration and status register (CSR) type definitions for - * Octeon usbcx. - * - */ -#ifndef __CVMX_USBCX_TYPEDEFS_H__ -#define __CVMX_USBCX_TYPEDEFS_H__ - -#define CVMX_USBCXBASE 0x00016F0010000000ull -#define CVMX_USBCXREG1(reg, bid) \ - (CVMX_ADD_IO_SEG(CVMX_USBCXBASE | reg) + \ - ((bid) & 1) * 0x100000000000ull) -#define CVMX_USBCXREG2(reg, bid, off) \ - (CVMX_ADD_IO_SEG(CVMX_USBCXBASE | reg) + \ - (((off) & 7) + ((bid) & 1) * 0x8000000000ull) * 32) - -#define CVMX_USBCX_GAHBCFG(bid) CVMX_USBCXREG1(0x008, bid) -#define CVMX_USBCX_GHWCFG3(bid) CVMX_USBCXREG1(0x04c, bid) -#define CVMX_USBCX_GINTMSK(bid) CVMX_USBCXREG1(0x018, bid) -#define CVMX_USBCX_GINTSTS(bid) CVMX_USBCXREG1(0x014, bid) -#define CVMX_USBCX_GNPTXFSIZ(bid) CVMX_USBCXREG1(0x028, bid) -#define CVMX_USBCX_GNPTXSTS(bid) CVMX_USBCXREG1(0x02c, bid) -#define CVMX_USBCX_GOTGCTL(bid) CVMX_USBCXREG1(0x000, bid) -#define CVMX_USBCX_GRSTCTL(bid) CVMX_USBCXREG1(0x010, bid) -#define CVMX_USBCX_GRXFSIZ(bid) CVMX_USBCXREG1(0x024, bid) -#define CVMX_USBCX_GRXSTSPH(bid) CVMX_USBCXREG1(0x020, bid) -#define CVMX_USBCX_GUSBCFG(bid) CVMX_USBCXREG1(0x00c, bid) -#define CVMX_USBCX_HAINT(bid) CVMX_USBCXREG1(0x414, bid) -#define CVMX_USBCX_HAINTMSK(bid) CVMX_USBCXREG1(0x418, bid) -#define CVMX_USBCX_HCCHARX(off, bid) CVMX_USBCXREG2(0x500, bid, off) -#define CVMX_USBCX_HCFG(bid) CVMX_USBCXREG1(0x400, bid) -#define CVMX_USBCX_HCINTMSKX(off, bid) CVMX_USBCXREG2(0x50c, bid, off) -#define CVMX_USBCX_HCINTX(off, bid) CVMX_USBCXREG2(0x508, bid, off) -#define CVMX_USBCX_HCSPLTX(off, bid) CVMX_USBCXREG2(0x504, bid, off) -#define CVMX_USBCX_HCTSIZX(off, bid) CVMX_USBCXREG2(0x510, bid, off) -#define CVMX_USBCX_HFIR(bid) CVMX_USBCXREG1(0x404, bid) -#define CVMX_USBCX_HFNUM(bid) CVMX_USBCXREG1(0x408, bid) -#define CVMX_USBCX_HPRT(bid) CVMX_USBCXREG1(0x440, bid) -#define CVMX_USBCX_HPTXFSIZ(bid) CVMX_USBCXREG1(0x100, bid) -#define CVMX_USBCX_HPTXSTS(bid) CVMX_USBCXREG1(0x410, bid) - -/** - * cvmx_usbc#_gahbcfg - * - * Core AHB Configuration Register (GAHBCFG) - * - * This register can be used to configure the core after power-on or a change in - * mode of operation. This register mainly contains AHB system-related - * configuration parameters. The AHB is the processor interface to the O2P USB - * core. In general, software need not know about this interface except to - * program the values as specified. - * - * The application must program this register as part of the O2P USB core - * initialization. Do not change this register after the initial programming. - */ -union cvmx_usbcx_gahbcfg { - uint32_t u32; - /** - * struct cvmx_usbcx_gahbcfg_s - * @ptxfemplvl: Periodic TxFIFO Empty Level (PTxFEmpLvl) - * Software should set this bit to 0x1. - * Indicates when the Periodic TxFIFO Empty Interrupt bit in the - * Core Interrupt register (GINTSTS.PTxFEmp) is triggered. This - * bit is used only in Slave mode. - * * 1'b0: GINTSTS.PTxFEmp interrupt indicates that the Periodic - * TxFIFO is half empty - * * 1'b1: GINTSTS.PTxFEmp interrupt indicates that the Periodic - * TxFIFO is completely empty - * @nptxfemplvl: Non-Periodic TxFIFO Empty Level (NPTxFEmpLvl) - * Software should set this bit to 0x1. - * Indicates when the Non-Periodic TxFIFO Empty Interrupt bit in - * the Core Interrupt register (GINTSTS.NPTxFEmp) is triggered. - * This bit is used only in Slave mode. - * * 1'b0: GINTSTS.NPTxFEmp interrupt indicates that the Non- - * Periodic TxFIFO is half empty - * * 1'b1: GINTSTS.NPTxFEmp interrupt indicates that the Non- - * Periodic TxFIFO is completely empty - * @dmaen: DMA Enable (DMAEn) - * * 1'b0: Core operates in Slave mode - * * 1'b1: Core operates in a DMA mode - * @hbstlen: Burst Length/Type (HBstLen) - * This field has not effect and should be left as 0x0. - * @glblintrmsk: Global Interrupt Mask (GlblIntrMsk) - * Software should set this field to 0x1. - * The application uses this bit to mask or unmask the interrupt - * line assertion to itself. Irrespective of this bit's setting, - * the interrupt status registers are updated by the core. - * * 1'b0: Mask the interrupt assertion to the application. - * * 1'b1: Unmask the interrupt assertion to the application. - */ - struct cvmx_usbcx_gahbcfg_s { - uint32_t reserved_9_31 : 23; - uint32_t ptxfemplvl : 1; - uint32_t nptxfemplvl : 1; - uint32_t reserved_6_6 : 1; - uint32_t dmaen : 1; - uint32_t hbstlen : 4; - uint32_t glblintrmsk : 1; - } s; -}; -typedef union cvmx_usbcx_gahbcfg cvmx_usbcx_gahbcfg_t; - -/** - * cvmx_usbc#_ghwcfg3 - * - * User HW Config3 Register (GHWCFG3) - * - * This register contains the configuration options of the O2P USB core. - */ -union cvmx_usbcx_ghwcfg3 { - uint32_t u32; - /** - * struct cvmx_usbcx_ghwcfg3_s - * @dfifodepth: DFIFO Depth (DfifoDepth) - * This value is in terms of 32-bit words. - * * Minimum value is 32 - * * Maximum value is 32768 - * @ahbphysync: AHB and PHY Synchronous (AhbPhySync) - * Indicates whether AHB and PHY clocks are synchronous to - * each other. - * * 1'b0: No - * * 1'b1: Yes - * This bit is tied to 1. - * @rsttype: Reset Style for Clocked always Blocks in RTL (RstType) - * * 1'b0: Asynchronous reset is used in the core - * * 1'b1: Synchronous reset is used in the core - * @optfeature: Optional Features Removed (OptFeature) - * Indicates whether the User ID register, GPIO interface ports, - * and SOF toggle and counter ports were removed for gate count - * optimization. - * @vendor_control_interface_support: Vendor Control Interface Support - * * 1'b0: Vendor Control Interface is not available on the core. - * * 1'b1: Vendor Control Interface is available. - * @i2c_selection: I2C Selection - * * 1'b0: I2C Interface is not available on the core. - * * 1'b1: I2C Interface is available on the core. - * @otgen: OTG Function Enabled (OtgEn) - * The application uses this bit to indicate the O2P USB core's - * OTG capabilities. - * * 1'b0: Not OTG capable - * * 1'b1: OTG Capable - * @pktsizewidth: Width of Packet Size Counters (PktSizeWidth) - * * 3'b000: 4 bits - * * 3'b001: 5 bits - * * 3'b010: 6 bits - * * 3'b011: 7 bits - * * 3'b100: 8 bits - * * 3'b101: 9 bits - * * 3'b110: 10 bits - * * Others: Reserved - * @xfersizewidth: Width of Transfer Size Counters (XferSizeWidth) - * * 4'b0000: 11 bits - * * 4'b0001: 12 bits - * - ... - * * 4'b1000: 19 bits - * * Others: Reserved - */ - struct cvmx_usbcx_ghwcfg3_s { - uint32_t dfifodepth : 16; - uint32_t reserved_13_15 : 3; - uint32_t ahbphysync : 1; - uint32_t rsttype : 1; - uint32_t optfeature : 1; - uint32_t vendor_control_interface_support : 1; - uint32_t i2c_selection : 1; - uint32_t otgen : 1; - uint32_t pktsizewidth : 3; - uint32_t xfersizewidth : 4; - } s; -}; -typedef union cvmx_usbcx_ghwcfg3 cvmx_usbcx_ghwcfg3_t; - -/** - * cvmx_usbc#_gintmsk - * - * Core Interrupt Mask Register (GINTMSK) - * - * This register works with the Core Interrupt register to interrupt the - * application. When an interrupt bit is masked, the interrupt associated with - * that bit will not be generated. However, the Core Interrupt (GINTSTS) - * register bit corresponding to that interrupt will still be set. - * Mask interrupt: 1'b0, Unmask interrupt: 1'b1 - */ -union cvmx_usbcx_gintmsk { - uint32_t u32; - /** - * struct cvmx_usbcx_gintmsk_s - * @wkupintmsk: Resume/Remote Wakeup Detected Interrupt Mask - * (WkUpIntMsk) - * @sessreqintmsk: Session Request/New Session Detected Interrupt Mask - * (SessReqIntMsk) - * @disconnintmsk: Disconnect Detected Interrupt Mask (DisconnIntMsk) - * @conidstschngmsk: Connector ID Status Change Mask (ConIDStsChngMsk) - * @ptxfempmsk: Periodic TxFIFO Empty Mask (PTxFEmpMsk) - * @hchintmsk: Host Channels Interrupt Mask (HChIntMsk) - * @prtintmsk: Host Port Interrupt Mask (PrtIntMsk) - * @fetsuspmsk: Data Fetch Suspended Mask (FetSuspMsk) - * @incomplpmsk: Incomplete Periodic Transfer Mask (incomplPMsk) - * Incomplete Isochronous OUT Transfer Mask - * (incompISOOUTMsk) - * @incompisoinmsk: Incomplete Isochronous IN Transfer Mask - * (incompISOINMsk) - * @oepintmsk: OUT Endpoints Interrupt Mask (OEPIntMsk) - * @inepintmsk: IN Endpoints Interrupt Mask (INEPIntMsk) - * @epmismsk: Endpoint Mismatch Interrupt Mask (EPMisMsk) - * @eopfmsk: End of Periodic Frame Interrupt Mask (EOPFMsk) - * @isooutdropmsk: Isochronous OUT Packet Dropped Interrupt Mask - * (ISOOutDropMsk) - * @enumdonemsk: Enumeration Done Mask (EnumDoneMsk) - * @usbrstmsk: USB Reset Mask (USBRstMsk) - * @usbsuspmsk: USB Suspend Mask (USBSuspMsk) - * @erlysuspmsk: Early Suspend Mask (ErlySuspMsk) - * @i2cint: I2C Interrupt Mask (I2CINT) - * @ulpickintmsk: ULPI Carkit Interrupt Mask (ULPICKINTMsk) - * I2C Carkit Interrupt Mask (I2CCKINTMsk) - * @goutnakeffmsk: Global OUT NAK Effective Mask (GOUTNakEffMsk) - * @ginnakeffmsk: Global Non-Periodic IN NAK Effective Mask - * (GINNakEffMsk) - * @nptxfempmsk: Non-Periodic TxFIFO Empty Mask (NPTxFEmpMsk) - * @rxflvlmsk: Receive FIFO Non-Empty Mask (RxFLvlMsk) - * @sofmsk: Start of (micro)Frame Mask (SofMsk) - * @otgintmsk: OTG Interrupt Mask (OTGIntMsk) - * @modemismsk: Mode Mismatch Interrupt Mask (ModeMisMsk) - */ - struct cvmx_usbcx_gintmsk_s { - uint32_t wkupintmsk : 1; - uint32_t sessreqintmsk : 1; - uint32_t disconnintmsk : 1; - uint32_t conidstschngmsk : 1; - uint32_t reserved_27_27 : 1; - uint32_t ptxfempmsk : 1; - uint32_t hchintmsk : 1; - uint32_t prtintmsk : 1; - uint32_t reserved_23_23 : 1; - uint32_t fetsuspmsk : 1; - uint32_t incomplpmsk : 1; - uint32_t incompisoinmsk : 1; - uint32_t oepintmsk : 1; - uint32_t inepintmsk : 1; - uint32_t epmismsk : 1; - uint32_t reserved_16_16 : 1; - uint32_t eopfmsk : 1; - uint32_t isooutdropmsk : 1; - uint32_t enumdonemsk : 1; - uint32_t usbrstmsk : 1; - uint32_t usbsuspmsk : 1; - uint32_t erlysuspmsk : 1; - uint32_t i2cint : 1; - uint32_t ulpickintmsk : 1; - uint32_t goutnakeffmsk : 1; - uint32_t ginnakeffmsk : 1; - uint32_t nptxfempmsk : 1; - uint32_t rxflvlmsk : 1; - uint32_t sofmsk : 1; - uint32_t otgintmsk : 1; - uint32_t modemismsk : 1; - uint32_t reserved_0_0 : 1; - } s; -}; -typedef union cvmx_usbcx_gintmsk cvmx_usbcx_gintmsk_t; - -/** - * cvmx_usbc#_gintsts - * - * Core Interrupt Register (GINTSTS) - * - * This register interrupts the application for system-level events in the - * current mode of operation (Device mode or Host mode). It is shown in - * Interrupt. Some of the bits in this register are valid only in Host mode, - * while others are valid in Device mode only. This register also indicates the - * current mode of operation. In order to clear the interrupt status bits of - * type R_SS_WC, the application must write 1'b1 into the bit. The FIFO status - * interrupts are read only; once software reads from or writes to the FIFO - * while servicing these interrupts, FIFO interrupt conditions are cleared - * automatically. - */ -union cvmx_usbcx_gintsts { - uint32_t u32; - /** - * struct cvmx_usbcx_gintsts_s - * @wkupint: Resume/Remote Wakeup Detected Interrupt (WkUpInt) - * In Device mode, this interrupt is asserted when a resume is - * detected on the USB. In Host mode, this interrupt is asserted - * when a remote wakeup is detected on the USB. - * For more information on how to use this interrupt, see "Partial - * Power-Down and Clock Gating Programming Model" on - * page 353. - * @sessreqint: Session Request/New Session Detected Interrupt - * (SessReqInt) - * In Host mode, this interrupt is asserted when a session request - * is detected from the device. In Device mode, this interrupt is - * asserted when the utmiotg_bvalid signal goes high. - * For more information on how to use this interrupt, see "Partial - * Power-Down and Clock Gating Programming Model" on - * page 353. - * @disconnint: Disconnect Detected Interrupt (DisconnInt) - * Asserted when a device disconnect is detected. - * @conidstschng: Connector ID Status Change (ConIDStsChng) - * The core sets this bit when there is a change in connector ID - * status. - * @ptxfemp: Periodic TxFIFO Empty (PTxFEmp) - * Asserted when the Periodic Transmit FIFO is either half or - * completely empty and there is space for at least one entry to be - * written in the Periodic Request Queue. The half or completely - * empty status is determined by the Periodic TxFIFO Empty Level - * bit in the Core AHB Configuration register - * (GAHBCFG.PTxFEmpLvl). - * @hchint: Host Channels Interrupt (HChInt) - * The core sets this bit to indicate that an interrupt is pending - * on one of the channels of the core (in Host mode). The - * application must read the Host All Channels Interrupt (HAINT) - * register to determine the exact number of the channel on which - * the interrupt occurred, and then read the corresponding Host - * Channel-n Interrupt (HCINTn) register to determine the exact - * cause of the interrupt. The application must clear the - * appropriate status bit in the HCINTn register to clear this bit. - * @prtint: Host Port Interrupt (PrtInt) - * The core sets this bit to indicate a change in port status of - * one of the O2P USB core ports in Host mode. The application must - * read the Host Port Control and Status (HPRT) register to - * determine the exact event that caused this interrupt. The - * application must clear the appropriate status bit in the Host - * Port Control and Status register to clear this bit. - * @fetsusp: Data Fetch Suspended (FetSusp) - * This interrupt is valid only in DMA mode. This interrupt - * indicates that the core has stopped fetching data for IN - * endpoints due to the unavailability of TxFIFO space or Request - * Queue space. This interrupt is used by the application for an - * endpoint mismatch algorithm. - * @incomplp: Incomplete Periodic Transfer (incomplP) - * In Host mode, the core sets this interrupt bit when there are - * incomplete periodic transactions still pending which are - * scheduled for the current microframe. - * Incomplete Isochronous OUT Transfer (incompISOOUT) - * The Device mode, the core sets this interrupt to indicate that - * there is at least one isochronous OUT endpoint on which the - * transfer is not completed in the current microframe. This - * interrupt is asserted along with the End of Periodic Frame - * Interrupt (EOPF) bit in this register. - * @incompisoin: Incomplete Isochronous IN Transfer (incompISOIN) - * The core sets this interrupt to indicate that there is at least - * one isochronous IN endpoint on which the transfer is not - * completed in the current microframe. This interrupt is asserted - * along with the End of Periodic Frame Interrupt (EOPF) bit in - * this register. - * @oepint: OUT Endpoints Interrupt (OEPInt) - * The core sets this bit to indicate that an interrupt is pending - * on one of the OUT endpoints of the core (in Device mode). The - * application must read the Device All Endpoints Interrupt - * (DAINT) register to determine the exact number of the OUT - * endpoint on which the interrupt occurred, and then read the - * corresponding Device OUT Endpoint-n Interrupt (DOEPINTn) - * register to determine the exact cause of the interrupt. The - * application must clear the appropriate status bit in the - * corresponding DOEPINTn register to clear this bit. - * @iepint: IN Endpoints Interrupt (IEPInt) - * The core sets this bit to indicate that an interrupt is pending - * on one of the IN endpoints of the core (in Device mode). The - * application must read the Device All Endpoints Interrupt - * (DAINT) register to determine the exact number of the IN - * endpoint on which the interrupt occurred, and then read the - * corresponding Device IN Endpoint-n Interrupt (DIEPINTn) - * register to determine the exact cause of the interrupt. The - * application must clear the appropriate status bit in the - * corresponding DIEPINTn register to clear this bit. - * @epmis: Endpoint Mismatch Interrupt (EPMis) - * Indicates that an IN token has been received for a non-periodic - * endpoint, but the data for another endpoint is present in the - * top of the Non-Periodic Transmit FIFO and the IN endpoint - * mismatch count programmed by the application has expired. - * @eopf: End of Periodic Frame Interrupt (EOPF) - * Indicates that the period specified in the Periodic Frame - * Interval field of the Device Configuration register - * (DCFG.PerFrInt) has been reached in the current microframe. - * @isooutdrop: Isochronous OUT Packet Dropped Interrupt (ISOOutDrop) - * The core sets this bit when it fails to write an isochronous OUT - * packet into the RxFIFO because the RxFIFO doesn't have - * enough space to accommodate a maximum packet size packet - * for the isochronous OUT endpoint. - * @enumdone: Enumeration Done (EnumDone) - * The core sets this bit to indicate that speed enumeration is - * complete. The application must read the Device Status (DSTS) - * register to obtain the enumerated speed. - * @usbrst: USB Reset (USBRst) - * The core sets this bit to indicate that a reset is detected on - * the USB. - * @usbsusp: USB Suspend (USBSusp) - * The core sets this bit to indicate that a suspend was detected - * on the USB. The core enters the Suspended state when there - * is no activity on the phy_line_state_i signal for an extended - * period of time. - * @erlysusp: Early Suspend (ErlySusp) - * The core sets this bit to indicate that an Idle state has been - * detected on the USB for 3 ms. - * @i2cint: I2C Interrupt (I2CINT) - * This bit is always 0x0. - * @ulpickint: ULPI Carkit Interrupt (ULPICKINT) - * This bit is always 0x0. - * @goutnakeff: Global OUT NAK Effective (GOUTNakEff) - * Indicates that the Set Global OUT NAK bit in the Device Control - * register (DCTL.SGOUTNak), set by the application, has taken - * effect in the core. This bit can be cleared by writing the Clear - * Global OUT NAK bit in the Device Control register - * (DCTL.CGOUTNak). - * @ginnakeff: Global IN Non-Periodic NAK Effective (GINNakEff) - * Indicates that the Set Global Non-Periodic IN NAK bit in the - * Device Control register (DCTL.SGNPInNak), set by the - * application, has taken effect in the core. That is, the core has - * sampled the Global IN NAK bit set by the application. This bit - * can be cleared by clearing the Clear Global Non-Periodic IN - * NAK bit in the Device Control register (DCTL.CGNPInNak). - * This interrupt does not necessarily mean that a NAK handshake - * is sent out on the USB. The STALL bit takes precedence over - * the NAK bit. - * @nptxfemp: Non-Periodic TxFIFO Empty (NPTxFEmp) - * This interrupt is asserted when the Non-Periodic TxFIFO is - * either half or completely empty, and there is space for at least - * one entry to be written to the Non-Periodic Transmit Request - * Queue. The half or completely empty status is determined by - * the Non-Periodic TxFIFO Empty Level bit in the Core AHB - * Configuration register (GAHBCFG.NPTxFEmpLvl). - * @rxflvl: RxFIFO Non-Empty (RxFLvl) - * Indicates that there is at least one packet pending to be read - * from the RxFIFO. - * @sof: Start of (micro)Frame (Sof) - * In Host mode, the core sets this bit to indicate that an SOF - * (FS), micro-SOF (HS), or Keep-Alive (LS) is transmitted on the - * USB. The application must write a 1 to this bit to clear the - * interrupt. - * In Device mode, in the core sets this bit to indicate that an - * SOF token has been received on the USB. The application can read - * the Device Status register to get the current (micro)frame - * number. This interrupt is seen only when the core is operating - * at either HS or FS. - * @otgint: OTG Interrupt (OTGInt) - * The core sets this bit to indicate an OTG protocol event. The - * application must read the OTG Interrupt Status (GOTGINT) - * register to determine the exact event that caused this - * interrupt. The application must clear the appropriate status bit - * in the GOTGINT register to clear this bit. - * @modemis: Mode Mismatch Interrupt (ModeMis) - * The core sets this bit when the application is trying to access: - * * A Host mode register, when the core is operating in Device - * mode - * * A Device mode register, when the core is operating in Host - * mode - * The register access is completed on the AHB with an OKAY - * response, but is ignored by the core internally and doesn't - * affect the operation of the core. - * @curmod: Current Mode of Operation (CurMod) - * Indicates the current mode of operation. - * * 1'b0: Device mode - * * 1'b1: Host mode - */ - struct cvmx_usbcx_gintsts_s { - uint32_t wkupint : 1; - uint32_t sessreqint : 1; - uint32_t disconnint : 1; - uint32_t conidstschng : 1; - uint32_t reserved_27_27 : 1; - uint32_t ptxfemp : 1; - uint32_t hchint : 1; - uint32_t prtint : 1; - uint32_t reserved_23_23 : 1; - uint32_t fetsusp : 1; - uint32_t incomplp : 1; - uint32_t incompisoin : 1; - uint32_t oepint : 1; - uint32_t iepint : 1; - uint32_t epmis : 1; - uint32_t reserved_16_16 : 1; - uint32_t eopf : 1; - uint32_t isooutdrop : 1; - uint32_t enumdone : 1; - uint32_t usbrst : 1; - uint32_t usbsusp : 1; - uint32_t erlysusp : 1; - uint32_t i2cint : 1; - uint32_t ulpickint : 1; - uint32_t goutnakeff : 1; - uint32_t ginnakeff : 1; - uint32_t nptxfemp : 1; - uint32_t rxflvl : 1; - uint32_t sof : 1; - uint32_t otgint : 1; - uint32_t modemis : 1; - uint32_t curmod : 1; - } s; -}; -typedef union cvmx_usbcx_gintsts cvmx_usbcx_gintsts_t; - -/** - * cvmx_usbc#_gnptxfsiz - * - * Non-Periodic Transmit FIFO Size Register (GNPTXFSIZ) - * - * The application can program the RAM size and the memory start address for the - * Non-Periodic TxFIFO. - */ -union cvmx_usbcx_gnptxfsiz { - uint32_t u32; - /** - * struct cvmx_usbcx_gnptxfsiz_s - * @nptxfdep: Non-Periodic TxFIFO Depth (NPTxFDep) - * This value is in terms of 32-bit words. - * Minimum value is 16 - * Maximum value is 32768 - * @nptxfstaddr: Non-Periodic Transmit RAM Start Address (NPTxFStAddr) - * This field contains the memory start address for Non-Periodic - * Transmit FIFO RAM. - */ - struct cvmx_usbcx_gnptxfsiz_s { - uint32_t nptxfdep : 16; - uint32_t nptxfstaddr : 16; - } s; -}; -typedef union cvmx_usbcx_gnptxfsiz cvmx_usbcx_gnptxfsiz_t; - -/** - * cvmx_usbc#_gnptxsts - * - * Non-Periodic Transmit FIFO/Queue Status Register (GNPTXSTS) - * - * This read-only register contains the free space information for the - * Non-Periodic TxFIFO and the Non-Periodic Transmit Request Queue. - */ -union cvmx_usbcx_gnptxsts { - uint32_t u32; - /** - * struct cvmx_usbcx_gnptxsts_s - * @nptxqtop: Top of the Non-Periodic Transmit Request Queue (NPTxQTop) - * Entry in the Non-Periodic Tx Request Queue that is currently - * being processed by the MAC. - * * Bits [30:27]: Channel/endpoint number - * * Bits [26:25]: - * - 2'b00: IN/OUT token - * - 2'b01: Zero-length transmit packet (device IN/host OUT) - * - 2'b10: PING/CSPLIT token - * - 2'b11: Channel halt command - * * Bit [24]: Terminate (last entry for selected channel/endpoint) - * @nptxqspcavail: Non-Periodic Transmit Request Queue Space Available - * (NPTxQSpcAvail) - * Indicates the amount of free space available in the Non- - * Periodic Transmit Request Queue. This queue holds both IN - * and OUT requests in Host mode. Device mode has only IN - * requests. - * * 8'h0: Non-Periodic Transmit Request Queue is full - * * 8'h1: 1 location available - * * 8'h2: 2 locations available - * * n: n locations available (0..8) - * * Others: Reserved - * @nptxfspcavail: Non-Periodic TxFIFO Space Avail (NPTxFSpcAvail) - * Indicates the amount of free space available in the Non- - * Periodic TxFIFO. - * Values are in terms of 32-bit words. - * * 16'h0: Non-Periodic TxFIFO is full - * * 16'h1: 1 word available - * * 16'h2: 2 words available - * * 16'hn: n words available (where 0..32768) - * * 16'h8000: 32768 words available - * * Others: Reserved - */ - struct cvmx_usbcx_gnptxsts_s { - uint32_t reserved_31_31 : 1; - uint32_t nptxqtop : 7; - uint32_t nptxqspcavail : 8; - uint32_t nptxfspcavail : 16; - } s; -}; -typedef union cvmx_usbcx_gnptxsts cvmx_usbcx_gnptxsts_t; - -/** - * cvmx_usbc#_grstctl - * - * Core Reset Register (GRSTCTL) - * - * The application uses this register to reset various hardware features inside - * the core. - */ -union cvmx_usbcx_grstctl { - uint32_t u32; - /** - * struct cvmx_usbcx_grstctl_s - * @ahbidle: AHB Master Idle (AHBIdle) - * Indicates that the AHB Master State Machine is in the IDLE - * condition. - * @dmareq: DMA Request Signal (DMAReq) - * Indicates that the DMA request is in progress. Used for debug. - * @txfnum: TxFIFO Number (TxFNum) - * This is the FIFO number that must be flushed using the TxFIFO - * Flush bit. This field must not be changed until the core clears - * the TxFIFO Flush bit. - * * 5'h0: Non-Periodic TxFIFO flush - * * 5'h1: Periodic TxFIFO 1 flush in Device mode or Periodic - * TxFIFO flush in Host mode - * * 5'h2: Periodic TxFIFO 2 flush in Device mode - * - ... - * * 5'hF: Periodic TxFIFO 15 flush in Device mode - * * 5'h10: Flush all the Periodic and Non-Periodic TxFIFOs in the - * core - * @txfflsh: TxFIFO Flush (TxFFlsh) - * This bit selectively flushes a single or all transmit FIFOs, but - * cannot do so if the core is in the midst of a transaction. - * The application must only write this bit after checking that the - * core is neither writing to the TxFIFO nor reading from the - * TxFIFO. - * The application must wait until the core clears this bit before - * performing any operations. This bit takes 8 clocks (of phy_clk - * or hclk, whichever is slower) to clear. - * @rxfflsh: RxFIFO Flush (RxFFlsh) - * The application can flush the entire RxFIFO using this bit, but - * must first ensure that the core is not in the middle of a - * transaction. - * The application must only write to this bit after checking that - * the core is neither reading from the RxFIFO nor writing to the - * RxFIFO. - * The application must wait until the bit is cleared before - * performing any other operations. This bit will take 8 clocks - * (slowest of PHY or AHB clock) to clear. - * @intknqflsh: IN Token Sequence Learning Queue Flush (INTknQFlsh) - * The application writes this bit to flush the IN Token Sequence - * Learning Queue. - * @frmcntrrst: Host Frame Counter Reset (FrmCntrRst) - * The application writes this bit to reset the (micro)frame number - * counter inside the core. When the (micro)frame counter is reset, - * the subsequent SOF sent out by the core will have a - * (micro)frame number of 0. - * @hsftrst: HClk Soft Reset (HSftRst) - * The application uses this bit to flush the control logic in the - * AHB Clock domain. Only AHB Clock Domain pipelines are reset. - * * FIFOs are not flushed with this bit. - * * All state machines in the AHB clock domain are reset to the - * Idle state after terminating the transactions on the AHB, - * following the protocol. - * * CSR control bits used by the AHB clock domain state - * machines are cleared. - * * To clear this interrupt, status mask bits that control the - * interrupt status and are generated by the AHB clock domain - * state machine are cleared. - * * Because interrupt status bits are not cleared, the application - * can get the status of any core events that occurred after it set - * this bit. - * This is a self-clearing bit that the core clears after all - * necessary logic is reset in the core. This may take several - * clocks, depending on the core's current state. - * @csftrst: Core Soft Reset (CSftRst) - * Resets the hclk and phy_clock domains as follows: - * * Clears the interrupts and all the CSR registers except the - * following register bits: - * - PCGCCTL.RstPdwnModule - * - PCGCCTL.GateHclk - * - PCGCCTL.PwrClmp - * - PCGCCTL.StopPPhyLPwrClkSelclk - * - GUSBCFG.PhyLPwrClkSel - * - GUSBCFG.DDRSel - * - GUSBCFG.PHYSel - * - GUSBCFG.FSIntf - * - GUSBCFG.ULPI_UTMI_Sel - * - GUSBCFG.PHYIf - * - HCFG.FSLSPclkSel - * - DCFG.DevSpd - * * All module state machines (except the AHB Slave Unit) are - * reset to the IDLE state, and all the transmit FIFOs and the - * receive FIFO are flushed. - * * Any transactions on the AHB Master are terminated as soon - * as possible, after gracefully completing the last data phase of - * an AHB transfer. Any transactions on the USB are terminated - * immediately. - * The application can write to this bit any time it wants to reset - * the core. This is a self-clearing bit and the core clears this - * bit after all the necessary logic is reset in the core, which - * may take several clocks, depending on the current state of the - * core. Once this bit is cleared software should wait at least 3 - * PHY clocks before doing any access to the PHY domain - * (synchronization delay). Software should also should check that - * bit 31 of this register is 1 (AHB Master is IDLE) before - * starting any operation. - * Typically software reset is used during software development - * and also when you dynamically change the PHY selection bits - * in the USB configuration registers listed above. When you - * change the PHY, the corresponding clock for the PHY is - * selected and used in the PHY domain. Once a new clock is - * selected, the PHY domain has to be reset for proper operation. - */ - struct cvmx_usbcx_grstctl_s { - uint32_t ahbidle : 1; - uint32_t dmareq : 1; - uint32_t reserved_11_29 : 19; - uint32_t txfnum : 5; - uint32_t txfflsh : 1; - uint32_t rxfflsh : 1; - uint32_t intknqflsh : 1; - uint32_t frmcntrrst : 1; - uint32_t hsftrst : 1; - uint32_t csftrst : 1; - } s; -}; -typedef union cvmx_usbcx_grstctl cvmx_usbcx_grstctl_t; - -/** - * cvmx_usbc#_grxfsiz - * - * Receive FIFO Size Register (GRXFSIZ) - * - * The application can program the RAM size that must be allocated to the - * RxFIFO. - */ -union cvmx_usbcx_grxfsiz { - uint32_t u32; - /** - * struct cvmx_usbcx_grxfsiz_s - * @rxfdep: RxFIFO Depth (RxFDep) - * This value is in terms of 32-bit words. - * * Minimum value is 16 - * * Maximum value is 32768 - */ - struct cvmx_usbcx_grxfsiz_s { - uint32_t reserved_16_31 : 16; - uint32_t rxfdep : 16; - } s; -}; -typedef union cvmx_usbcx_grxfsiz cvmx_usbcx_grxfsiz_t; - -/** - * cvmx_usbc#_grxstsph - * - * Receive Status Read and Pop Register, Host Mode (GRXSTSPH) - * - * A read to the Receive Status Read and Pop register returns and additionally - * pops the top data entry out of the RxFIFO. - * This Description is only valid when the core is in Host Mode. For Device Mode - * use USBC_GRXSTSPD instead. - * NOTE: GRXSTSPH and GRXSTSPD are physically the same register and share the - * same offset in the O2P USB core. The offset difference shown in this - * document is for software clarity and is actually ignored by the - * hardware. - */ -union cvmx_usbcx_grxstsph { - uint32_t u32; - /** - * struct cvmx_usbcx_grxstsph_s - * @pktsts: Packet Status (PktSts) - * Indicates the status of the received packet - * * 4'b0010: IN data packet received - * * 4'b0011: IN transfer completed (triggers an interrupt) - * * 4'b0101: Data toggle error (triggers an interrupt) - * * 4'b0111: Channel halted (triggers an interrupt) - * * Others: Reserved - * @dpid: Data PID (DPID) - * * 2'b00: DATA0 - * * 2'b10: DATA1 - * * 2'b01: DATA2 - * * 2'b11: MDATA - * @bcnt: Byte Count (BCnt) - * Indicates the byte count of the received IN data packet - * @chnum: Channel Number (ChNum) - * Indicates the channel number to which the current received - * packet belongs. - */ - struct cvmx_usbcx_grxstsph_s { - uint32_t reserved_21_31 : 11; - uint32_t pktsts : 4; - uint32_t dpid : 2; - uint32_t bcnt : 11; - uint32_t chnum : 4; - } s; -}; -typedef union cvmx_usbcx_grxstsph cvmx_usbcx_grxstsph_t; - -/** - * cvmx_usbc#_gusbcfg - * - * Core USB Configuration Register (GUSBCFG) - * - * This register can be used to configure the core after power-on or a changing - * to Host mode or Device mode. It contains USB and USB-PHY related - * configuration parameters. The application must program this register before - * starting any transactions on either the AHB or the USB. Do not make changes - * to this register after the initial programming. - */ -union cvmx_usbcx_gusbcfg { - uint32_t u32; - /** - * struct cvmx_usbcx_gusbcfg_s - * @otgi2csel: UTMIFS or I2C Interface Select (OtgI2CSel) - * This bit is always 0x0. - * @phylpwrclksel: PHY Low-Power Clock Select (PhyLPwrClkSel) - * Software should set this bit to 0x0. - * Selects either 480-MHz or 48-MHz (low-power) PHY mode. In - * FS and LS modes, the PHY can usually operate on a 48-MHz - * clock to save power. - * * 1'b0: 480-MHz Internal PLL clock - * * 1'b1: 48-MHz External Clock - * In 480 MHz mode, the UTMI interface operates at either 60 or - * 30-MHz, depending upon whether 8- or 16-bit data width is - * selected. In 48-MHz mode, the UTMI interface operates at 48 - * MHz in FS mode and at either 48 or 6 MHz in LS mode - * (depending on the PHY vendor). - * This bit drives the utmi_fsls_low_power core output signal, and - * is valid only for UTMI+ PHYs. - * @usbtrdtim: USB Turnaround Time (USBTrdTim) - * Sets the turnaround time in PHY clocks. - * Specifies the response time for a MAC request to the Packet - * FIFO Controller (PFC) to fetch data from the DFIFO (SPRAM). - * This must be programmed to 0x5. - * @hnpcap: HNP-Capable (HNPCap) - * This bit is always 0x0. - * @srpcap: SRP-Capable (SRPCap) - * This bit is always 0x0. - * @ddrsel: ULPI DDR Select (DDRSel) - * Software should set this bit to 0x0. - * @physel: USB 2.0 High-Speed PHY or USB 1.1 Full-Speed Serial - * Software should set this bit to 0x0. - * @fsintf: Full-Speed Serial Interface Select (FSIntf) - * Software should set this bit to 0x0. - * @ulpi_utmi_sel: ULPI or UTMI+ Select (ULPI_UTMI_Sel) - * This bit is always 0x0. - * @phyif: PHY Interface (PHYIf) - * This bit is always 0x1. - * @toutcal: HS/FS Timeout Calibration (TOutCal) - * The number of PHY clocks that the application programs in this - * field is added to the high-speed/full-speed interpacket timeout - * duration in the core to account for any additional delays - * introduced by the PHY. This may be required, since the delay - * introduced by the PHY in generating the linestate condition may - * vary from one PHY to another. - * The USB standard timeout value for high-speed operation is - * 736 to 816 (inclusive) bit times. The USB standard timeout - * value for full-speed operation is 16 to 18 (inclusive) bit - * times. The application must program this field based on the - * speed of enumeration. The number of bit times added per PHY - * clock are: - * High-speed operation: - * * One 30-MHz PHY clock = 16 bit times - * * One 60-MHz PHY clock = 8 bit times - * Full-speed operation: - * * One 30-MHz PHY clock = 0.4 bit times - * * One 60-MHz PHY clock = 0.2 bit times - * * One 48-MHz PHY clock = 0.25 bit times - */ - struct cvmx_usbcx_gusbcfg_s { - uint32_t reserved_17_31 : 15; - uint32_t otgi2csel : 1; - uint32_t phylpwrclksel : 1; - uint32_t reserved_14_14 : 1; - uint32_t usbtrdtim : 4; - uint32_t hnpcap : 1; - uint32_t srpcap : 1; - uint32_t ddrsel : 1; - uint32_t physel : 1; - uint32_t fsintf : 1; - uint32_t ulpi_utmi_sel : 1; - uint32_t phyif : 1; - uint32_t toutcal : 3; - } s; -}; -typedef union cvmx_usbcx_gusbcfg cvmx_usbcx_gusbcfg_t; - -/** - * cvmx_usbc#_haint - * - * Host All Channels Interrupt Register (HAINT) - * - * When a significant event occurs on a channel, the Host All Channels Interrupt - * register interrupts the application using the Host Channels Interrupt bit of - * the Core Interrupt register (GINTSTS.HChInt). This is shown in Interrupt. - * There is one interrupt bit per channel, up to a maximum of 16 bits. Bits in - * this register are set and cleared when the application sets and clears bits - * in the corresponding Host Channel-n Interrupt register. - */ -union cvmx_usbcx_haint { - uint32_t u32; - /** - * struct cvmx_usbcx_haint_s - * @haint: Channel Interrupts (HAINT) - * One bit per channel: Bit 0 for Channel 0, bit 15 for Channel 15 - */ - struct cvmx_usbcx_haint_s { - uint32_t reserved_16_31 : 16; - uint32_t haint : 16; - } s; -}; -typedef union cvmx_usbcx_haint cvmx_usbcx_haint_t; - -/** - * cvmx_usbc#_haintmsk - * - * Host All Channels Interrupt Mask Register (HAINTMSK) - * - * The Host All Channel Interrupt Mask register works with the Host All Channel - * Interrupt register to interrupt the application when an event occurs on a - * channel. There is one interrupt mask bit per channel, up to a maximum of 16 - * bits. - * Mask interrupt: 1'b0 Unmask interrupt: 1'b1 - */ -union cvmx_usbcx_haintmsk { - uint32_t u32; - /** - * struct cvmx_usbcx_haintmsk_s - * @haintmsk: Channel Interrupt Mask (HAINTMsk) - * One bit per channel: Bit 0 for channel 0, bit 15 for channel 15 - */ - struct cvmx_usbcx_haintmsk_s { - uint32_t reserved_16_31 : 16; - uint32_t haintmsk : 16; - } s; -}; -typedef union cvmx_usbcx_haintmsk cvmx_usbcx_haintmsk_t; - -/** - * cvmx_usbc#_hcchar# - * - * Host Channel-n Characteristics Register (HCCHAR) - * - */ -union cvmx_usbcx_hccharx { - uint32_t u32; - /** - * struct cvmx_usbcx_hccharx_s - * @chena: Channel Enable (ChEna) - * This field is set by the application and cleared by the OTG - * host. - * * 1'b0: Channel disabled - * * 1'b1: Channel enabled - * @chdis: Channel Disable (ChDis) - * The application sets this bit to stop transmitting/receiving - * data on a channel, even before the transfer for that channel is - * complete. The application must wait for the Channel Disabled - * interrupt before treating the channel as disabled. - * @oddfrm: Odd Frame (OddFrm) - * This field is set (reset) by the application to indicate that - * the OTG host must perform a transfer in an odd (micro)frame. - * This field is applicable for only periodic (isochronous and - * interrupt) transactions. - * * 1'b0: Even (micro)frame - * * 1'b1: Odd (micro)frame - * @devaddr: Device Address (DevAddr) - * This field selects the specific device serving as the data - * source or sink. - * @ec: Multi Count (MC) / Error Count (EC) - * When the Split Enable bit of the Host Channel-n Split Control - * register (HCSPLTn.SpltEna) is reset (1'b0), this field indicates - * to the host the number of transactions that should be executed - * per microframe for this endpoint. - * * 2'b00: Reserved. This field yields undefined results. - * * 2'b01: 1 transaction - * * 2'b10: 2 transactions to be issued for this endpoint per - * microframe - * * 2'b11: 3 transactions to be issued for this endpoint per - * microframe - * When HCSPLTn.SpltEna is set (1'b1), this field indicates the - * number of immediate retries to be performed for a periodic split - * transactions on transaction errors. This field must be set to at - * least 2'b01. - * @eptype: Endpoint Type (EPType) - * Indicates the transfer type selected. - * * 2'b00: Control - * * 2'b01: Isochronous - * * 2'b10: Bulk - * * 2'b11: Interrupt - * @lspddev: Low-Speed Device (LSpdDev) - * This field is set by the application to indicate that this - * channel is communicating to a low-speed device. - * @epdir: Endpoint Direction (EPDir) - * Indicates whether the transaction is IN or OUT. - * * 1'b0: OUT - * * 1'b1: IN - * @epnum: Endpoint Number (EPNum) - * Indicates the endpoint number on the device serving as the - * data source or sink. - * @mps: Maximum Packet Size (MPS) - * Indicates the maximum packet size of the associated endpoint. - */ - struct cvmx_usbcx_hccharx_s { - uint32_t chena : 1; - uint32_t chdis : 1; - uint32_t oddfrm : 1; - uint32_t devaddr : 7; - uint32_t ec : 2; - uint32_t eptype : 2; - uint32_t lspddev : 1; - uint32_t reserved_16_16 : 1; - uint32_t epdir : 1; - uint32_t epnum : 4; - uint32_t mps : 11; - } s; -}; -typedef union cvmx_usbcx_hccharx cvmx_usbcx_hccharx_t; - -/** - * cvmx_usbc#_hcfg - * - * Host Configuration Register (HCFG) - * - * This register configures the core after power-on. Do not make changes to this - * register after initializing the host. - */ -union cvmx_usbcx_hcfg { - uint32_t u32; - /** - * struct cvmx_usbcx_hcfg_s - * @fslssupp: FS- and LS-Only Support (FSLSSupp) - * The application uses this bit to control the core's enumeration - * speed. Using this bit, the application can make the core - * enumerate as a FS host, even if the connected device supports - * HS traffic. Do not make changes to this field after initial - * programming. - * * 1'b0: HS/FS/LS, based on the maximum speed supported by - * the connected device - * * 1'b1: FS/LS-only, even if the connected device can support HS - * @fslspclksel: FS/LS PHY Clock Select (FSLSPclkSel) - * When the core is in FS Host mode - * * 2'b00: PHY clock is running at 30/60 MHz - * * 2'b01: PHY clock is running at 48 MHz - * * Others: Reserved - * When the core is in LS Host mode - * * 2'b00: PHY clock is running at 30/60 MHz. When the - * UTMI+/ULPI PHY Low Power mode is not selected, use - * 30/60 MHz. - * * 2'b01: PHY clock is running at 48 MHz. When the UTMI+ - * PHY Low Power mode is selected, use 48MHz if the PHY - * supplies a 48 MHz clock during LS mode. - * * 2'b10: PHY clock is running at 6 MHz. In USB 1.1 FS mode, - * use 6 MHz when the UTMI+ PHY Low Power mode is - * selected and the PHY supplies a 6 MHz clock during LS - * mode. If you select a 6 MHz clock during LS mode, you must - * do a soft reset. - * * 2'b11: Reserved - */ - struct cvmx_usbcx_hcfg_s { - uint32_t reserved_3_31 : 29; - uint32_t fslssupp : 1; - uint32_t fslspclksel : 2; - } s; -}; -typedef union cvmx_usbcx_hcfg cvmx_usbcx_hcfg_t; - -/** - * cvmx_usbc#_hcint# - * - * Host Channel-n Interrupt Register (HCINT) - * - * This register indicates the status of a channel with respect to USB- and - * AHB-related events. The application must read this register when the Host - * Channels Interrupt bit of the Core Interrupt register (GINTSTS.HChInt) is - * set. Before the application can read this register, it must first read - * the Host All Channels Interrupt (HAINT) register to get the exact channel - * number for the Host Channel-n Interrupt register. The application must clear - * the appropriate bit in this register to clear the corresponding bits in the - * HAINT and GINTSTS registers. - */ -union cvmx_usbcx_hcintx { - uint32_t u32; - /** - * struct cvmx_usbcx_hcintx_s - * @datatglerr: Data Toggle Error (DataTglErr) - * @frmovrun: Frame Overrun (FrmOvrun) - * @bblerr: Babble Error (BblErr) - * @xacterr: Transaction Error (XactErr) - * @nyet: NYET Response Received Interrupt (NYET) - * @ack: ACK Response Received Interrupt (ACK) - * @nak: NAK Response Received Interrupt (NAK) - * @stall: STALL Response Received Interrupt (STALL) - * @ahberr: This bit is always 0x0. - * @chhltd: Channel Halted (ChHltd) - * Indicates the transfer completed abnormally either because of - * any USB transaction error or in response to disable request by - * the application. - * @xfercompl: Transfer Completed (XferCompl) - * Transfer completed normally without any errors. - */ - struct cvmx_usbcx_hcintx_s { - uint32_t reserved_11_31 : 21; - uint32_t datatglerr : 1; - uint32_t frmovrun : 1; - uint32_t bblerr : 1; - uint32_t xacterr : 1; - uint32_t nyet : 1; - uint32_t ack : 1; - uint32_t nak : 1; - uint32_t stall : 1; - uint32_t ahberr : 1; - uint32_t chhltd : 1; - uint32_t xfercompl : 1; - } s; -}; -typedef union cvmx_usbcx_hcintx cvmx_usbcx_hcintx_t; - -/** - * cvmx_usbc#_hcintmsk# - * - * Host Channel-n Interrupt Mask Register (HCINTMSKn) - * - * This register reflects the mask for each channel status described in the - * previous section. - * Mask interrupt: 1'b0 Unmask interrupt: 1'b1 - */ -union cvmx_usbcx_hcintmskx { - uint32_t u32; - /** - * struct cvmx_usbcx_hcintmskx_s - * @datatglerrmsk: Data Toggle Error Mask (DataTglErrMsk) - * @frmovrunmsk: Frame Overrun Mask (FrmOvrunMsk) - * @bblerrmsk: Babble Error Mask (BblErrMsk) - * @xacterrmsk: Transaction Error Mask (XactErrMsk) - * @nyetmsk: NYET Response Received Interrupt Mask (NyetMsk) - * @ackmsk: ACK Response Received Interrupt Mask (AckMsk) - * @nakmsk: NAK Response Received Interrupt Mask (NakMsk) - * @stallmsk: STALL Response Received Interrupt Mask (StallMsk) - * @ahberrmsk: AHB Error Mask (AHBErrMsk) - * @chhltdmsk: Channel Halted Mask (ChHltdMsk) - * @xfercomplmsk: Transfer Completed Mask (XferComplMsk) - */ - struct cvmx_usbcx_hcintmskx_s { - uint32_t reserved_11_31 : 21; - uint32_t datatglerrmsk : 1; - uint32_t frmovrunmsk : 1; - uint32_t bblerrmsk : 1; - uint32_t xacterrmsk : 1; - uint32_t nyetmsk : 1; - uint32_t ackmsk : 1; - uint32_t nakmsk : 1; - uint32_t stallmsk : 1; - uint32_t ahberrmsk : 1; - uint32_t chhltdmsk : 1; - uint32_t xfercomplmsk : 1; - } s; -}; -typedef union cvmx_usbcx_hcintmskx cvmx_usbcx_hcintmskx_t; - -/** - * cvmx_usbc#_hcsplt# - * - * Host Channel-n Split Control Register (HCSPLT) - * - */ -union cvmx_usbcx_hcspltx { - uint32_t u32; - /** - * struct cvmx_usbcx_hcspltx_s - * @spltena: Split Enable (SpltEna) - * The application sets this field to indicate that this channel is - * enabled to perform split transactions. - * @compsplt: Do Complete Split (CompSplt) - * The application sets this field to request the OTG host to - * perform a complete split transaction. - * @xactpos: Transaction Position (XactPos) - * This field is used to determine whether to send all, first, - * middle, or last payloads with each OUT transaction. - * * 2'b11: All. This is the entire data payload is of this - * transaction (which is less than or equal to 188 bytes). - * * 2'b10: Begin. This is the first data payload of this - * transaction (which is larger than 188 bytes). - * * 2'b00: Mid. This is the middle payload of this transaction - * (which is larger than 188 bytes). - * * 2'b01: End. This is the last payload of this transaction - * (which is larger than 188 bytes). - * @hubaddr: Hub Address (HubAddr) - * This field holds the device address of the transaction - * translator's hub. - * @prtaddr: Port Address (PrtAddr) - * This field is the port number of the recipient transaction - * translator. - */ - struct cvmx_usbcx_hcspltx_s { - uint32_t spltena : 1; - uint32_t reserved_17_30 : 14; - uint32_t compsplt : 1; - uint32_t xactpos : 2; - uint32_t hubaddr : 7; - uint32_t prtaddr : 7; - } s; -}; -typedef union cvmx_usbcx_hcspltx cvmx_usbcx_hcspltx_t; - -/** - * cvmx_usbc#_hctsiz# - * - * Host Channel-n Transfer Size Register (HCTSIZ) - * - */ -union cvmx_usbcx_hctsizx { - uint32_t u32; - /** - * struct cvmx_usbcx_hctsizx_s - * @dopng: Do Ping (DoPng) - * Setting this field to 1 directs the host to do PING protocol. - * @pid: PID (Pid) - * The application programs this field with the type of PID to use - * for the initial transaction. The host will maintain this field - * for the rest of the transfer. - * * 2'b00: DATA0 - * * 2'b01: DATA2 - * * 2'b10: DATA1 - * * 2'b11: MDATA (non-control)/SETUP (control) - * @pktcnt: Packet Count (PktCnt) - * This field is programmed by the application with the expected - * number of packets to be transmitted (OUT) or received (IN). - * The host decrements this count on every successful - * transmission or reception of an OUT/IN packet. Once this count - * reaches zero, the application is interrupted to indicate normal - * completion. - * @xfersize: Transfer Size (XferSize) - * For an OUT, this field is the number of data bytes the host will - * send during the transfer. - * For an IN, this field is the buffer size that the application - * has reserved for the transfer. The application is expected to - * program this field as an integer multiple of the maximum packet - * size for IN transactions (periodic and non-periodic). - */ - struct cvmx_usbcx_hctsizx_s { - uint32_t dopng : 1; - uint32_t pid : 2; - uint32_t pktcnt : 10; - uint32_t xfersize : 19; - } s; -}; -typedef union cvmx_usbcx_hctsizx cvmx_usbcx_hctsizx_t; - -/** - * cvmx_usbc#_hfir - * - * Host Frame Interval Register (HFIR) - * - * This register stores the frame interval information for the current speed to - * which the O2P USB core has enumerated. - */ -union cvmx_usbcx_hfir { - uint32_t u32; - /** - * struct cvmx_usbcx_hfir_s - * @frint: Frame Interval (FrInt) - * The value that the application programs to this field specifies - * the interval between two consecutive SOFs (FS) or micro- - * SOFs (HS) or Keep-Alive tokens (HS). This field contains the - * number of PHY clocks that constitute the required frame - * interval. The default value set in this field for a FS operation - * when the PHY clock frequency is 60 MHz. The application can - * write a value to this register only after the Port Enable bit of - * the Host Port Control and Status register (HPRT.PrtEnaPort) - * has been set. If no value is programmed, the core calculates - * the value based on the PHY clock specified in the FS/LS PHY - * Clock Select field of the Host Configuration register - * (HCFG.FSLSPclkSel). Do not change the value of this field - * after the initial configuration. - * * 125 us (PHY clock frequency for HS) - * * 1 ms (PHY clock frequency for FS/LS) - */ - struct cvmx_usbcx_hfir_s { - uint32_t reserved_16_31 : 16; - uint32_t frint : 16; - } s; -}; -typedef union cvmx_usbcx_hfir cvmx_usbcx_hfir_t; - -/** - * cvmx_usbc#_hfnum - * - * Host Frame Number/Frame Time Remaining Register (HFNUM) - * - * This register indicates the current frame number. - * It also indicates the time remaining (in terms of the number of PHY clocks) - * in the current (micro)frame. - */ -union cvmx_usbcx_hfnum { - uint32_t u32; - /** - * struct cvmx_usbcx_hfnum_s - * @frrem: Frame Time Remaining (FrRem) - * Indicates the amount of time remaining in the current - * microframe (HS) or frame (FS/LS), in terms of PHY clocks. - * This field decrements on each PHY clock. When it reaches - * zero, this field is reloaded with the value in the Frame - * Interval register and a new SOF is transmitted on the USB. - * @frnum: Frame Number (FrNum) - * This field increments when a new SOF is transmitted on the - * USB, and is reset to 0 when it reaches 16'h3FFF. - */ - struct cvmx_usbcx_hfnum_s { - uint32_t frrem : 16; - uint32_t frnum : 16; - } s; -}; -typedef union cvmx_usbcx_hfnum cvmx_usbcx_hfnum_t; - -/** - * cvmx_usbc#_hprt - * - * Host Port Control and Status Register (HPRT) - * - * This register is available in both Host and Device modes. - * Currently, the OTG Host supports only one port. - * A single register holds USB port-related information such as USB reset, - * enable, suspend, resume, connect status, and test mode for each port. The - * R_SS_WC bits in this register can trigger an interrupt to the application - * through the Host Port Interrupt bit of the Core Interrupt register - * (GINTSTS.PrtInt). On a Port Interrupt, the application must read this - * register and clear the bit that caused the interrupt. For the R_SS_WC bits, - * the application must write a 1 to the bit to clear the interrupt. - */ -union cvmx_usbcx_hprt { - uint32_t u32; - /** - * struct cvmx_usbcx_hprt_s - * @prtspd: Port Speed (PrtSpd) - * Indicates the speed of the device attached to this port. - * * 2'b00: High speed - * * 2'b01: Full speed - * * 2'b10: Low speed - * * 2'b11: Reserved - * @prttstctl: Port Test Control (PrtTstCtl) - * The application writes a nonzero value to this field to put - * the port into a Test mode, and the corresponding pattern is - * signaled on the port. - * * 4'b0000: Test mode disabled - * * 4'b0001: Test_J mode - * * 4'b0010: Test_K mode - * * 4'b0011: Test_SE0_NAK mode - * * 4'b0100: Test_Packet mode - * * 4'b0101: Test_Force_Enable - * * Others: Reserved - * PrtSpd must be zero (i.e. the interface must be in high-speed - * mode) to use the PrtTstCtl test modes. - * @prtpwr: Port Power (PrtPwr) - * The application uses this field to control power to this port, - * and the core clears this bit on an overcurrent condition. - * * 1'b0: Power off - * * 1'b1: Power on - * @prtlnsts: Port Line Status (PrtLnSts) - * Indicates the current logic level USB data lines - * * Bit [10]: Logic level of D- - * * Bit [11]: Logic level of D+ - * @prtrst: Port Reset (PrtRst) - * When the application sets this bit, a reset sequence is - * started on this port. The application must time the reset - * period and clear this bit after the reset sequence is - * complete. - * * 1'b0: Port not in reset - * * 1'b1: Port in reset - * The application must leave this bit set for at least a - * minimum duration mentioned below to start a reset on the - * port. The application can leave it set for another 10 ms in - * addition to the required minimum duration, before clearing - * the bit, even though there is no maximum limit set by the - * USB standard. - * * High speed: 50 ms - * * Full speed/Low speed: 10 ms - * @prtsusp: Port Suspend (PrtSusp) - * The application sets this bit to put this port in Suspend - * mode. The core only stops sending SOFs when this is set. - * To stop the PHY clock, the application must set the Port - * Clock Stop bit, which will assert the suspend input pin of - * the PHY. - * The read value of this bit reflects the current suspend - * status of the port. This bit is cleared by the core after a - * remote wakeup signal is detected or the application sets - * the Port Reset bit or Port Resume bit in this register or the - * Resume/Remote Wakeup Detected Interrupt bit or - * Disconnect Detected Interrupt bit in the Core Interrupt - * register (GINTSTS.WkUpInt or GINTSTS.DisconnInt, - * respectively). - * * 1'b0: Port not in Suspend mode - * * 1'b1: Port in Suspend mode - * @prtres: Port Resume (PrtRes) - * The application sets this bit to drive resume signaling on - * the port. The core continues to drive the resume signal - * until the application clears this bit. - * If the core detects a USB remote wakeup sequence, as - * indicated by the Port Resume/Remote Wakeup Detected - * Interrupt bit of the Core Interrupt register - * (GINTSTS.WkUpInt), the core starts driving resume - * signaling without application intervention and clears this bit - * when it detects a disconnect condition. The read value of - * this bit indicates whether the core is currently driving - * resume signaling. - * * 1'b0: No resume driven - * * 1'b1: Resume driven - * @prtovrcurrchng: Port Overcurrent Change (PrtOvrCurrChng) - * The core sets this bit when the status of the Port - * Overcurrent Active bit (bit 4) in this register changes. - * @prtovrcurract: Port Overcurrent Active (PrtOvrCurrAct) - * Indicates the overcurrent condition of the port. - * * 1'b0: No overcurrent condition - * * 1'b1: Overcurrent condition - * @prtenchng: Port Enable/Disable Change (PrtEnChng) - * The core sets this bit when the status of the Port Enable bit - * [2] of this register changes. - * @prtena: Port Enable (PrtEna) - * A port is enabled only by the core after a reset sequence, - * and is disabled by an overcurrent condition, a disconnect - * condition, or by the application clearing this bit. The - * application cannot set this bit by a register write. It can only - * clear it to disable the port. This bit does not trigger any - * interrupt to the application. - * * 1'b0: Port disabled - * * 1'b1: Port enabled - * @prtconndet: Port Connect Detected (PrtConnDet) - * The core sets this bit when a device connection is detected - * to trigger an interrupt to the application using the Host Port - * Interrupt bit of the Core Interrupt register (GINTSTS.PrtInt). - * The application must write a 1 to this bit to clear the - * interrupt. - * @prtconnsts: Port Connect Status (PrtConnSts) - * * 0: No device is attached to the port. - * * 1: A device is attached to the port. - */ - struct cvmx_usbcx_hprt_s { - uint32_t reserved_19_31 : 13; - uint32_t prtspd : 2; - uint32_t prttstctl : 4; - uint32_t prtpwr : 1; - uint32_t prtlnsts : 2; - uint32_t reserved_9_9 : 1; - uint32_t prtrst : 1; - uint32_t prtsusp : 1; - uint32_t prtres : 1; - uint32_t prtovrcurrchng : 1; - uint32_t prtovrcurract : 1; - uint32_t prtenchng : 1; - uint32_t prtena : 1; - uint32_t prtconndet : 1; - uint32_t prtconnsts : 1; - } s; -}; -typedef union cvmx_usbcx_hprt cvmx_usbcx_hprt_t; - -/** - * cvmx_usbc#_hptxfsiz - * - * Host Periodic Transmit FIFO Size Register (HPTXFSIZ) - * - * This register holds the size and the memory start address of the Periodic - * TxFIFO, as shown in Figures 310 and 311. - */ -union cvmx_usbcx_hptxfsiz { - uint32_t u32; - /** - * struct cvmx_usbcx_hptxfsiz_s - * @ptxfsize: Host Periodic TxFIFO Depth (PTxFSize) - * This value is in terms of 32-bit words. - * * Minimum value is 16 - * * Maximum value is 32768 - * @ptxfstaddr: Host Periodic TxFIFO Start Address (PTxFStAddr) - */ - struct cvmx_usbcx_hptxfsiz_s { - uint32_t ptxfsize : 16; - uint32_t ptxfstaddr : 16; - } s; -}; -typedef union cvmx_usbcx_hptxfsiz cvmx_usbcx_hptxfsiz_t; - -/** - * cvmx_usbc#_hptxsts - * - * Host Periodic Transmit FIFO/Queue Status Register (HPTXSTS) - * - * This read-only register contains the free space information for the Periodic - * TxFIFO and the Periodic Transmit Request Queue - */ -union cvmx_usbcx_hptxsts { - uint32_t u32; - /** - * struct cvmx_usbcx_hptxsts_s - * @ptxqtop: Top of the Periodic Transmit Request Queue (PTxQTop) - * This indicates the entry in the Periodic Tx Request Queue that - * is currently being processes by the MAC. - * This register is used for debugging. - * * Bit [31]: Odd/Even (micro)frame - * - 1'b0: send in even (micro)frame - * - 1'b1: send in odd (micro)frame - * * Bits [30:27]: Channel/endpoint number - * * Bits [26:25]: Type - * - 2'b00: IN/OUT - * - 2'b01: Zero-length packet - * - 2'b10: CSPLIT - * - 2'b11: Disable channel command - * * Bit [24]: Terminate (last entry for the selected - * channel/endpoint) - * @ptxqspcavail: Periodic Transmit Request Queue Space Available - * (PTxQSpcAvail) - * Indicates the number of free locations available to be written - * in the Periodic Transmit Request Queue. This queue holds both - * IN and OUT requests. - * * 8'h0: Periodic Transmit Request Queue is full - * * 8'h1: 1 location available - * * 8'h2: 2 locations available - * * n: n locations available (0..8) - * * Others: Reserved - * @ptxfspcavail: Periodic Transmit Data FIFO Space Available - * (PTxFSpcAvail) - * Indicates the number of free locations available to be written - * to in the Periodic TxFIFO. - * Values are in terms of 32-bit words - * * 16'h0: Periodic TxFIFO is full - * * 16'h1: 1 word available - * * 16'h2: 2 words available - * * 16'hn: n words available (where 0..32768) - * * 16'h8000: 32768 words available - * * Others: Reserved - */ - struct cvmx_usbcx_hptxsts_s { - uint32_t ptxqtop : 8; - uint32_t ptxqspcavail : 8; - uint32_t ptxfspcavail : 16; - } s; -}; -typedef union cvmx_usbcx_hptxsts cvmx_usbcx_hptxsts_t; - -#endif diff --git a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/cvmx-usbnx-defs.h b/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/cvmx-usbnx-defs.h deleted file mode 100644 index 96d706770f..0000000000 --- a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/cvmx-usbnx-defs.h +++ /dev/null @@ -1,887 +0,0 @@ -/***********************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**************************************/ - - -/** - * cvmx-usbnx-defs.h - * - * Configuration and status register (CSR) type definitions for - * Octeon usbnx. - * - */ -#ifndef __CVMX_USBNX_TYPEDEFS_H__ -#define __CVMX_USBNX_TYPEDEFS_H__ - -#define CVMX_USBNXBID1(bid) (((bid) & 1) * 0x10000000ull) -#define CVMX_USBNXBID2(bid) (((bid) & 1) * 0x100000000000ull) - -#define CVMX_USBNXREG1(reg, bid) \ - (CVMX_ADD_IO_SEG(0x0001180068000000ull | reg) + CVMX_USBNXBID1(bid)) -#define CVMX_USBNXREG2(reg, bid) \ - (CVMX_ADD_IO_SEG(0x00016F0000000000ull | reg) + CVMX_USBNXBID2(bid)) - -#define CVMX_USBNX_CLK_CTL(bid) CVMX_USBNXREG1(0x10, bid) -#define CVMX_USBNX_DMA0_INB_CHN0(bid) CVMX_USBNXREG2(0x818, bid) -#define CVMX_USBNX_DMA0_OUTB_CHN0(bid) CVMX_USBNXREG2(0x858, bid) -#define CVMX_USBNX_USBP_CTL_STATUS(bid) CVMX_USBNXREG1(0x18, bid) - -/** - * cvmx_usbn#_clk_ctl - * - * USBN_CLK_CTL = USBN's Clock Control - * - * This register is used to control the frequency of the hclk and the - * hreset and phy_rst signals. - */ -union cvmx_usbnx_clk_ctl { - uint64_t u64; - /** - * struct cvmx_usbnx_clk_ctl_s - * @divide2: The 'hclk' used by the USB subsystem is derived - * from the eclk. - * Also see the field DIVIDE. DIVIDE2<1> must currently - * be zero because it is not implemented, so the maximum - * ratio of eclk/hclk is currently 16. - * The actual divide number for hclk is: - * (DIVIDE2 + 1) * (DIVIDE + 1) - * @hclk_rst: When this field is '0' the HCLK-DIVIDER used to - * generate the hclk in the USB Subsystem is held - * in reset. This bit must be set to '0' before - * changing the value os DIVIDE in this register. - * The reset to the HCLK_DIVIDERis also asserted - * when core reset is asserted. - * @p_x_on: Force USB-PHY on during suspend. - * '1' USB-PHY XO block is powered-down during - * suspend. - * '0' USB-PHY XO block is powered-up during - * suspend. - * The value of this field must be set while POR is - * active. - * @p_com_on: '0' Force USB-PHY XO Bias, Bandgap and PLL to - * remain powered in Suspend Mode. - * '1' The USB-PHY XO Bias, Bandgap and PLL are - * powered down in suspend mode. - * The value of this field must be set while POR is - * active. - * @p_c_sel: Phy clock speed select. - * Selects the reference clock / crystal frequency. - * '11': Reserved - * '10': 48 MHz (reserved when a crystal is used) - * '01': 24 MHz (reserved when a crystal is used) - * '00': 12 MHz - * The value of this field must be set while POR is - * active. - * NOTE: if a crystal is used as a reference clock, - * this field must be set to 12 MHz. - * @cdiv_byp: Used to enable the bypass input to the USB_CLK_DIV. - * @sd_mode: Scaledown mode for the USBC. Control timing events - * in the USBC, for normal operation this must be '0'. - * @s_bist: Starts bist on the hclk memories, during the '0' - * to '1' transition. - * @por: Power On Reset for the PHY. - * Resets all the PHYS registers and state machines. - * @enable: When '1' allows the generation of the hclk. When - * '0' the hclk will not be generated. SEE DIVIDE - * field of this register. - * @prst: When this field is '0' the reset associated with - * the phy_clk functionality in the USB Subsystem is - * help in reset. This bit should not be set to '1' - * until the time it takes 6 clocks (hclk or phy_clk, - * whichever is slower) has passed. Under normal - * operation once this bit is set to '1' it should not - * be set to '0'. - * @hrst: When this field is '0' the reset associated with - * the hclk functioanlity in the USB Subsystem is - * held in reset.This bit should not be set to '1' - * until 12ms after phy_clk is stable. Under normal - * operation, once this bit is set to '1' it should - * not be set to '0'. - * @divide: The frequency of 'hclk' used by the USB subsystem - * is the eclk frequency divided by the value of - * (DIVIDE2 + 1) * (DIVIDE + 1), also see the field - * DIVIDE2 of this register. - * The hclk frequency should be less than 125Mhz. - * After writing a value to this field the SW should - * read the field for the value written. - * The ENABLE field of this register should not be set - * until AFTER this field is set and then read. - */ - struct cvmx_usbnx_clk_ctl_s { - uint64_t reserved_20_63 : 44; - uint64_t divide2 : 2; - uint64_t hclk_rst : 1; - uint64_t p_x_on : 1; - uint64_t reserved_14_15 : 2; - uint64_t p_com_on : 1; - uint64_t p_c_sel : 2; - uint64_t cdiv_byp : 1; - uint64_t sd_mode : 2; - uint64_t s_bist : 1; - uint64_t por : 1; - uint64_t enable : 1; - uint64_t prst : 1; - uint64_t hrst : 1; - uint64_t divide : 3; - } s; - /** - * struct cvmx_usbnx_clk_ctl_cn30xx - * @hclk_rst: When this field is '0' the HCLK-DIVIDER used to - * generate the hclk in the USB Subsystem is held - * in reset. This bit must be set to '0' before - * changing the value os DIVIDE in this register. - * The reset to the HCLK_DIVIDERis also asserted - * when core reset is asserted. - * @p_x_on: Force USB-PHY on during suspend. - * '1' USB-PHY XO block is powered-down during - * suspend. - * '0' USB-PHY XO block is powered-up during - * suspend. - * The value of this field must be set while POR is - * active. - * @p_rclk: Phy refrence clock enable. - * '1' The PHY PLL uses the XO block output as a - * reference. - * '0' Reserved. - * @p_xenbn: Phy external clock enable. - * '1' The XO block uses the clock from a crystal. - * '0' The XO block uses an external clock supplied - * on the XO pin. USB_XI should be tied to - * ground for this usage. - * @p_com_on: '0' Force USB-PHY XO Bias, Bandgap and PLL to - * remain powered in Suspend Mode. - * '1' The USB-PHY XO Bias, Bandgap and PLL are - * powered down in suspend mode. - * The value of this field must be set while POR is - * active. - * @p_c_sel: Phy clock speed select. - * Selects the reference clock / crystal frequency. - * '11': Reserved - * '10': 48 MHz - * '01': 24 MHz - * '00': 12 MHz - * The value of this field must be set while POR is - * active. - * @cdiv_byp: Used to enable the bypass input to the USB_CLK_DIV. - * @sd_mode: Scaledown mode for the USBC. Control timing events - * in the USBC, for normal operation this must be '0'. - * @s_bist: Starts bist on the hclk memories, during the '0' - * to '1' transition. - * @por: Power On Reset for the PHY. - * Resets all the PHYS registers and state machines. - * @enable: When '1' allows the generation of the hclk. When - * '0' the hclk will not be generated. - * @prst: When this field is '0' the reset associated with - * the phy_clk functionality in the USB Subsystem is - * help in reset. This bit should not be set to '1' - * until the time it takes 6 clocks (hclk or phy_clk, - * whichever is slower) has passed. Under normal - * operation once this bit is set to '1' it should not - * be set to '0'. - * @hrst: When this field is '0' the reset associated with - * the hclk functioanlity in the USB Subsystem is - * held in reset.This bit should not be set to '1' - * until 12ms after phy_clk is stable. Under normal - * operation, once this bit is set to '1' it should - * not be set to '0'. - * @divide: The 'hclk' used by the USB subsystem is derived - * from the eclk. The eclk will be divided by the - * value of this field +1 to determine the hclk - * frequency. (Also see HRST of this register). - * The hclk frequency must be less than 125 MHz. - */ - struct cvmx_usbnx_clk_ctl_cn30xx { - uint64_t reserved_18_63 : 46; - uint64_t hclk_rst : 1; - uint64_t p_x_on : 1; - uint64_t p_rclk : 1; - uint64_t p_xenbn : 1; - uint64_t p_com_on : 1; - uint64_t p_c_sel : 2; - uint64_t cdiv_byp : 1; - uint64_t sd_mode : 2; - uint64_t s_bist : 1; - uint64_t por : 1; - uint64_t enable : 1; - uint64_t prst : 1; - uint64_t hrst : 1; - uint64_t divide : 3; - } cn30xx; - struct cvmx_usbnx_clk_ctl_cn30xx cn31xx; - /** - * struct cvmx_usbnx_clk_ctl_cn50xx - * @divide2: The 'hclk' used by the USB subsystem is derived - * from the eclk. - * Also see the field DIVIDE. DIVIDE2<1> must currently - * be zero because it is not implemented, so the maximum - * ratio of eclk/hclk is currently 16. - * The actual divide number for hclk is: - * (DIVIDE2 + 1) * (DIVIDE + 1) - * @hclk_rst: When this field is '0' the HCLK-DIVIDER used to - * generate the hclk in the USB Subsystem is held - * in reset. This bit must be set to '0' before - * changing the value os DIVIDE in this register. - * The reset to the HCLK_DIVIDERis also asserted - * when core reset is asserted. - * @p_rtype: PHY reference clock type - * '0' The USB-PHY uses a 12MHz crystal as a clock - * source at the USB_XO and USB_XI pins - * '1' Reserved - * '2' The USB_PHY uses 12/24/48MHz 2.5V board clock - * at the USB_XO pin. USB_XI should be tied to - * ground in this case. - * '3' Reserved - * (bit 14 was P_XENBN on 3xxx) - * (bit 15 was P_RCLK on 3xxx) - * @p_com_on: '0' Force USB-PHY XO Bias, Bandgap and PLL to - * remain powered in Suspend Mode. - * '1' The USB-PHY XO Bias, Bandgap and PLL are - * powered down in suspend mode. - * The value of this field must be set while POR is - * active. - * @p_c_sel: Phy clock speed select. - * Selects the reference clock / crystal frequency. - * '11': Reserved - * '10': 48 MHz (reserved when a crystal is used) - * '01': 24 MHz (reserved when a crystal is used) - * '00': 12 MHz - * The value of this field must be set while POR is - * active. - * NOTE: if a crystal is used as a reference clock, - * this field must be set to 12 MHz. - * @cdiv_byp: Used to enable the bypass input to the USB_CLK_DIV. - * @sd_mode: Scaledown mode for the USBC. Control timing events - * in the USBC, for normal operation this must be '0'. - * @s_bist: Starts bist on the hclk memories, during the '0' - * to '1' transition. - * @por: Power On Reset for the PHY. - * Resets all the PHYS registers and state machines. - * @enable: When '1' allows the generation of the hclk. When - * '0' the hclk will not be generated. SEE DIVIDE - * field of this register. - * @prst: When this field is '0' the reset associated with - * the phy_clk functionality in the USB Subsystem is - * help in reset. This bit should not be set to '1' - * until the time it takes 6 clocks (hclk or phy_clk, - * whichever is slower) has passed. Under normal - * operation once this bit is set to '1' it should not - * be set to '0'. - * @hrst: When this field is '0' the reset associated with - * the hclk functioanlity in the USB Subsystem is - * held in reset.This bit should not be set to '1' - * until 12ms after phy_clk is stable. Under normal - * operation, once this bit is set to '1' it should - * not be set to '0'. - * @divide: The frequency of 'hclk' used by the USB subsystem - * is the eclk frequency divided by the value of - * (DIVIDE2 + 1) * (DIVIDE + 1), also see the field - * DIVIDE2 of this register. - * The hclk frequency should be less than 125Mhz. - * After writing a value to this field the SW should - * read the field for the value written. - * The ENABLE field of this register should not be set - * until AFTER this field is set and then read. - */ - struct cvmx_usbnx_clk_ctl_cn50xx { - uint64_t reserved_20_63 : 44; - uint64_t divide2 : 2; - uint64_t hclk_rst : 1; - uint64_t reserved_16_16 : 1; - uint64_t p_rtype : 2; - uint64_t p_com_on : 1; - uint64_t p_c_sel : 2; - uint64_t cdiv_byp : 1; - uint64_t sd_mode : 2; - uint64_t s_bist : 1; - uint64_t por : 1; - uint64_t enable : 1; - uint64_t prst : 1; - uint64_t hrst : 1; - uint64_t divide : 3; - } cn50xx; - struct cvmx_usbnx_clk_ctl_cn50xx cn52xx; - struct cvmx_usbnx_clk_ctl_cn50xx cn56xx; -}; -typedef union cvmx_usbnx_clk_ctl cvmx_usbnx_clk_ctl_t; - -/** - * cvmx_usbn#_usbp_ctl_status - * - * USBN_USBP_CTL_STATUS = USBP Control And Status Register - * - * Contains general control and status information for the USBN block. - */ -union cvmx_usbnx_usbp_ctl_status { - uint64_t u64; - /** - * struct cvmx_usbnx_usbp_ctl_status_s - * @txrisetune: HS Transmitter Rise/Fall Time Adjustment - * @txvreftune: HS DC Voltage Level Adjustment - * @txfslstune: FS/LS Source Impedence Adjustment - * @txhsxvtune: Transmitter High-Speed Crossover Adjustment - * @sqrxtune: Squelch Threshold Adjustment - * @compdistune: Disconnect Threshold Adjustment - * @otgtune: VBUS Valid Threshold Adjustment - * @otgdisable: OTG Block Disable - * @portreset: Per_Port Reset - * @drvvbus: Drive VBUS - * @lsbist: Low-Speed BIST Enable. - * @fsbist: Full-Speed BIST Enable. - * @hsbist: High-Speed BIST Enable. - * @bist_done: PHY Bist Done. - * Asserted at the end of the PHY BIST sequence. - * @bist_err: PHY Bist Error. - * Indicates an internal error was detected during - * the BIST sequence. - * @tdata_out: PHY Test Data Out. - * Presents either internaly generated signals or - * test register contents, based upon the value of - * test_data_out_sel. - * @siddq: Drives the USBP (USB-PHY) SIDDQ input. - * Normally should be set to zero. - * When customers have no intent to use USB PHY - * interface, they should: - * - still provide 3.3V to USB_VDD33, and - * - tie USB_REXT to 3.3V supply, and - * - set USBN*_USBP_CTL_STATUS[SIDDQ]=1 - * @txpreemphasistune: HS Transmitter Pre-Emphasis Enable - * @dma_bmode: When set to 1 the L2C DMA address will be updated - * with byte-counts between packets. When set to 0 - * the L2C DMA address is incremented to the next - * 4-byte aligned address after adding byte-count. - * @usbc_end: Bigendian input to the USB Core. This should be - * set to '0' for operation. - * @usbp_bist: PHY, This is cleared '0' to run BIST on the USBP. - * @tclk: PHY Test Clock, used to load TDATA_IN to the USBP. - * @dp_pulld: PHY DP_PULLDOWN input to the USB-PHY. - * This signal enables the pull-down resistance on - * the D+ line. '1' pull down-resistance is connected - * to D+/ '0' pull down resistance is not connected - * to D+. When an A/B device is acting as a host - * (downstream-facing port), dp_pulldown and - * dm_pulldown are enabled. This must not toggle - * during normal opeartion. - * @dm_pulld: PHY DM_PULLDOWN input to the USB-PHY. - * This signal enables the pull-down resistance on - * the D- line. '1' pull down-resistance is connected - * to D-. '0' pull down resistance is not connected - * to D-. When an A/B device is acting as a host - * (downstream-facing port), dp_pulldown and - * dm_pulldown are enabled. This must not toggle - * during normal opeartion. - * @hst_mode: When '0' the USB is acting as HOST, when '1' - * USB is acting as device. This field needs to be - * set while the USB is in reset. - * @tuning: Transmitter Tuning for High-Speed Operation. - * Tunes the current supply and rise/fall output - * times for high-speed operation. - * [20:19] == 11: Current supply increased - * approximately 9% - * [20:19] == 10: Current supply increased - * approximately 4.5% - * [20:19] == 01: Design default. - * [20:19] == 00: Current supply decreased - * approximately 4.5% - * [22:21] == 11: Rise and fall times are increased. - * [22:21] == 10: Design default. - * [22:21] == 01: Rise and fall times are decreased. - * [22:21] == 00: Rise and fall times are decreased - * further as compared to the 01 setting. - * @tx_bs_enh: Transmit Bit Stuffing on [15:8]. - * Enables or disables bit stuffing on data[15:8] - * when bit-stuffing is enabled. - * @tx_bs_en: Transmit Bit Stuffing on [7:0]. - * Enables or disables bit stuffing on data[7:0] - * when bit-stuffing is enabled. - * @loop_enb: PHY Loopback Test Enable. - * '1': During data transmission the receive is - * enabled. - * '0': During data transmission the receive is - * disabled. - * Must be '0' for normal operation. - * @vtest_enb: Analog Test Pin Enable. - * '1' The PHY's analog_test pin is enabled for the - * input and output of applicable analog test signals. - * '0' THe analog_test pin is disabled. - * @bist_enb: Built-In Self Test Enable. - * Used to activate BIST in the PHY. - * @tdata_sel: Test Data Out Select. - * '1' test_data_out[3:0] (PHY) register contents - * are output. '0' internaly generated signals are - * output. - * @taddr_in: Mode Address for Test Interface. - * Specifies the register address for writing to or - * reading from the PHY test interface register. - * @tdata_in: Internal Testing Register Input Data and Select - * This is a test bus. Data is present on [3:0], - * and its corresponding select (enable) is present - * on bits [7:4]. - * @ate_reset: Reset input from automatic test equipment. - * This is a test signal. When the USB Core is - * powered up (not in Susned Mode), an automatic - * tester can use this to disable phy_clock and - * free_clk, then re-eanable them with an aligned - * phase. - * '1': The phy_clk and free_clk outputs are - * disabled. "0": The phy_clock and free_clk outputs - * are available within a specific period after the - * de-assertion. - */ - struct cvmx_usbnx_usbp_ctl_status_s { - uint64_t txrisetune : 1; - uint64_t txvreftune : 4; - uint64_t txfslstune : 4; - uint64_t txhsxvtune : 2; - uint64_t sqrxtune : 3; - uint64_t compdistune : 3; - uint64_t otgtune : 3; - uint64_t otgdisable : 1; - uint64_t portreset : 1; - uint64_t drvvbus : 1; - uint64_t lsbist : 1; - uint64_t fsbist : 1; - uint64_t hsbist : 1; - uint64_t bist_done : 1; - uint64_t bist_err : 1; - uint64_t tdata_out : 4; - uint64_t siddq : 1; - uint64_t txpreemphasistune : 1; - uint64_t dma_bmode : 1; - uint64_t usbc_end : 1; - uint64_t usbp_bist : 1; - uint64_t tclk : 1; - uint64_t dp_pulld : 1; - uint64_t dm_pulld : 1; - uint64_t hst_mode : 1; - uint64_t tuning : 4; - uint64_t tx_bs_enh : 1; - uint64_t tx_bs_en : 1; - uint64_t loop_enb : 1; - uint64_t vtest_enb : 1; - uint64_t bist_enb : 1; - uint64_t tdata_sel : 1; - uint64_t taddr_in : 4; - uint64_t tdata_in : 8; - uint64_t ate_reset : 1; - } s; - /** - * struct cvmx_usbnx_usbp_ctl_status_cn30xx - * @bist_done: PHY Bist Done. - * Asserted at the end of the PHY BIST sequence. - * @bist_err: PHY Bist Error. - * Indicates an internal error was detected during - * the BIST sequence. - * @tdata_out: PHY Test Data Out. - * Presents either internaly generated signals or - * test register contents, based upon the value of - * test_data_out_sel. - * @dma_bmode: When set to 1 the L2C DMA address will be updated - * with byte-counts between packets. When set to 0 - * the L2C DMA address is incremented to the next - * 4-byte aligned address after adding byte-count. - * @usbc_end: Bigendian input to the USB Core. This should be - * set to '0' for operation. - * @usbp_bist: PHY, This is cleared '0' to run BIST on the USBP. - * @tclk: PHY Test Clock, used to load TDATA_IN to the USBP. - * @dp_pulld: PHY DP_PULLDOWN input to the USB-PHY. - * This signal enables the pull-down resistance on - * the D+ line. '1' pull down-resistance is connected - * to D+/ '0' pull down resistance is not connected - * to D+. When an A/B device is acting as a host - * (downstream-facing port), dp_pulldown and - * dm_pulldown are enabled. This must not toggle - * during normal opeartion. - * @dm_pulld: PHY DM_PULLDOWN input to the USB-PHY. - * This signal enables the pull-down resistance on - * the D- line. '1' pull down-resistance is connected - * to D-. '0' pull down resistance is not connected - * to D-. When an A/B device is acting as a host - * (downstream-facing port), dp_pulldown and - * dm_pulldown are enabled. This must not toggle - * during normal opeartion. - * @hst_mode: When '0' the USB is acting as HOST, when '1' - * USB is acting as device. This field needs to be - * set while the USB is in reset. - * @tuning: Transmitter Tuning for High-Speed Operation. - * Tunes the current supply and rise/fall output - * times for high-speed operation. - * [20:19] == 11: Current supply increased - * approximately 9% - * [20:19] == 10: Current supply increased - * approximately 4.5% - * [20:19] == 01: Design default. - * [20:19] == 00: Current supply decreased - * approximately 4.5% - * [22:21] == 11: Rise and fall times are increased. - * [22:21] == 10: Design default. - * [22:21] == 01: Rise and fall times are decreased. - * [22:21] == 00: Rise and fall times are decreased - * further as compared to the 01 setting. - * @tx_bs_enh: Transmit Bit Stuffing on [15:8]. - * Enables or disables bit stuffing on data[15:8] - * when bit-stuffing is enabled. - * @tx_bs_en: Transmit Bit Stuffing on [7:0]. - * Enables or disables bit stuffing on data[7:0] - * when bit-stuffing is enabled. - * @loop_enb: PHY Loopback Test Enable. - * '1': During data transmission the receive is - * enabled. - * '0': During data transmission the receive is - * disabled. - * Must be '0' for normal operation. - * @vtest_enb: Analog Test Pin Enable. - * '1' The PHY's analog_test pin is enabled for the - * input and output of applicable analog test signals. - * '0' THe analog_test pin is disabled. - * @bist_enb: Built-In Self Test Enable. - * Used to activate BIST in the PHY. - * @tdata_sel: Test Data Out Select. - * '1' test_data_out[3:0] (PHY) register contents - * are output. '0' internaly generated signals are - * output. - * @taddr_in: Mode Address for Test Interface. - * Specifies the register address for writing to or - * reading from the PHY test interface register. - * @tdata_in: Internal Testing Register Input Data and Select - * This is a test bus. Data is present on [3:0], - * and its corresponding select (enable) is present - * on bits [7:4]. - * @ate_reset: Reset input from automatic test equipment. - * This is a test signal. When the USB Core is - * powered up (not in Susned Mode), an automatic - * tester can use this to disable phy_clock and - * free_clk, then re-eanable them with an aligned - * phase. - * '1': The phy_clk and free_clk outputs are - * disabled. "0": The phy_clock and free_clk outputs - * are available within a specific period after the - * de-assertion. - */ - struct cvmx_usbnx_usbp_ctl_status_cn30xx { - uint64_t reserved_38_63 : 26; - uint64_t bist_done : 1; - uint64_t bist_err : 1; - uint64_t tdata_out : 4; - uint64_t reserved_30_31 : 2; - uint64_t dma_bmode : 1; - uint64_t usbc_end : 1; - uint64_t usbp_bist : 1; - uint64_t tclk : 1; - uint64_t dp_pulld : 1; - uint64_t dm_pulld : 1; - uint64_t hst_mode : 1; - uint64_t tuning : 4; - uint64_t tx_bs_enh : 1; - uint64_t tx_bs_en : 1; - uint64_t loop_enb : 1; - uint64_t vtest_enb : 1; - uint64_t bist_enb : 1; - uint64_t tdata_sel : 1; - uint64_t taddr_in : 4; - uint64_t tdata_in : 8; - uint64_t ate_reset : 1; - } cn30xx; - /** - * struct cvmx_usbnx_usbp_ctl_status_cn50xx - * @txrisetune: HS Transmitter Rise/Fall Time Adjustment - * @txvreftune: HS DC Voltage Level Adjustment - * @txfslstune: FS/LS Source Impedence Adjustment - * @txhsxvtune: Transmitter High-Speed Crossover Adjustment - * @sqrxtune: Squelch Threshold Adjustment - * @compdistune: Disconnect Threshold Adjustment - * @otgtune: VBUS Valid Threshold Adjustment - * @otgdisable: OTG Block Disable - * @portreset: Per_Port Reset - * @drvvbus: Drive VBUS - * @lsbist: Low-Speed BIST Enable. - * @fsbist: Full-Speed BIST Enable. - * @hsbist: High-Speed BIST Enable. - * @bist_done: PHY Bist Done. - * Asserted at the end of the PHY BIST sequence. - * @bist_err: PHY Bist Error. - * Indicates an internal error was detected during - * the BIST sequence. - * @tdata_out: PHY Test Data Out. - * Presents either internaly generated signals or - * test register contents, based upon the value of - * test_data_out_sel. - * @txpreemphasistune: HS Transmitter Pre-Emphasis Enable - * @dma_bmode: When set to 1 the L2C DMA address will be updated - * with byte-counts between packets. When set to 0 - * the L2C DMA address is incremented to the next - * 4-byte aligned address after adding byte-count. - * @usbc_end: Bigendian input to the USB Core. This should be - * set to '0' for operation. - * @usbp_bist: PHY, This is cleared '0' to run BIST on the USBP. - * @tclk: PHY Test Clock, used to load TDATA_IN to the USBP. - * @dp_pulld: PHY DP_PULLDOWN input to the USB-PHY. - * This signal enables the pull-down resistance on - * the D+ line. '1' pull down-resistance is connected - * to D+/ '0' pull down resistance is not connected - * to D+. When an A/B device is acting as a host - * (downstream-facing port), dp_pulldown and - * dm_pulldown are enabled. This must not toggle - * during normal opeartion. - * @dm_pulld: PHY DM_PULLDOWN input to the USB-PHY. - * This signal enables the pull-down resistance on - * the D- line. '1' pull down-resistance is connected - * to D-. '0' pull down resistance is not connected - * to D-. When an A/B device is acting as a host - * (downstream-facing port), dp_pulldown and - * dm_pulldown are enabled. This must not toggle - * during normal opeartion. - * @hst_mode: When '0' the USB is acting as HOST, when '1' - * USB is acting as device. This field needs to be - * set while the USB is in reset. - * @tx_bs_enh: Transmit Bit Stuffing on [15:8]. - * Enables or disables bit stuffing on data[15:8] - * when bit-stuffing is enabled. - * @tx_bs_en: Transmit Bit Stuffing on [7:0]. - * Enables or disables bit stuffing on data[7:0] - * when bit-stuffing is enabled. - * @loop_enb: PHY Loopback Test Enable. - * '1': During data transmission the receive is - * enabled. - * '0': During data transmission the receive is - * disabled. - * Must be '0' for normal operation. - * @vtest_enb: Analog Test Pin Enable. - * '1' The PHY's analog_test pin is enabled for the - * input and output of applicable analog test signals. - * '0' THe analog_test pin is disabled. - * @bist_enb: Built-In Self Test Enable. - * Used to activate BIST in the PHY. - * @tdata_sel: Test Data Out Select. - * '1' test_data_out[3:0] (PHY) register contents - * are output. '0' internaly generated signals are - * output. - * @taddr_in: Mode Address for Test Interface. - * Specifies the register address for writing to or - * reading from the PHY test interface register. - * @tdata_in: Internal Testing Register Input Data and Select - * This is a test bus. Data is present on [3:0], - * and its corresponding select (enable) is present - * on bits [7:4]. - * @ate_reset: Reset input from automatic test equipment. - * This is a test signal. When the USB Core is - * powered up (not in Susned Mode), an automatic - * tester can use this to disable phy_clock and - * free_clk, then re-eanable them with an aligned - * phase. - * '1': The phy_clk and free_clk outputs are - * disabled. "0": The phy_clock and free_clk outputs - * are available within a specific period after the - * de-assertion. - */ - struct cvmx_usbnx_usbp_ctl_status_cn50xx { - uint64_t txrisetune : 1; - uint64_t txvreftune : 4; - uint64_t txfslstune : 4; - uint64_t txhsxvtune : 2; - uint64_t sqrxtune : 3; - uint64_t compdistune : 3; - uint64_t otgtune : 3; - uint64_t otgdisable : 1; - uint64_t portreset : 1; - uint64_t drvvbus : 1; - uint64_t lsbist : 1; - uint64_t fsbist : 1; - uint64_t hsbist : 1; - uint64_t bist_done : 1; - uint64_t bist_err : 1; - uint64_t tdata_out : 4; - uint64_t reserved_31_31 : 1; - uint64_t txpreemphasistune : 1; - uint64_t dma_bmode : 1; - uint64_t usbc_end : 1; - uint64_t usbp_bist : 1; - uint64_t tclk : 1; - uint64_t dp_pulld : 1; - uint64_t dm_pulld : 1; - uint64_t hst_mode : 1; - uint64_t reserved_19_22 : 4; - uint64_t tx_bs_enh : 1; - uint64_t tx_bs_en : 1; - uint64_t loop_enb : 1; - uint64_t vtest_enb : 1; - uint64_t bist_enb : 1; - uint64_t tdata_sel : 1; - uint64_t taddr_in : 4; - uint64_t tdata_in : 8; - uint64_t ate_reset : 1; - } cn50xx; - /** - * struct cvmx_usbnx_usbp_ctl_status_cn52xx - * @txrisetune: HS Transmitter Rise/Fall Time Adjustment - * @txvreftune: HS DC Voltage Level Adjustment - * @txfslstune: FS/LS Source Impedence Adjustment - * @txhsxvtune: Transmitter High-Speed Crossover Adjustment - * @sqrxtune: Squelch Threshold Adjustment - * @compdistune: Disconnect Threshold Adjustment - * @otgtune: VBUS Valid Threshold Adjustment - * @otgdisable: OTG Block Disable - * @portreset: Per_Port Reset - * @drvvbus: Drive VBUS - * @lsbist: Low-Speed BIST Enable. - * @fsbist: Full-Speed BIST Enable. - * @hsbist: High-Speed BIST Enable. - * @bist_done: PHY Bist Done. - * Asserted at the end of the PHY BIST sequence. - * @bist_err: PHY Bist Error. - * Indicates an internal error was detected during - * the BIST sequence. - * @tdata_out: PHY Test Data Out. - * Presents either internaly generated signals or - * test register contents, based upon the value of - * test_data_out_sel. - * @siddq: Drives the USBP (USB-PHY) SIDDQ input. - * Normally should be set to zero. - * When customers have no intent to use USB PHY - * interface, they should: - * - still provide 3.3V to USB_VDD33, and - * - tie USB_REXT to 3.3V supply, and - * - set USBN*_USBP_CTL_STATUS[SIDDQ]=1 - * @txpreemphasistune: HS Transmitter Pre-Emphasis Enable - * @dma_bmode: When set to 1 the L2C DMA address will be updated - * with byte-counts between packets. When set to 0 - * the L2C DMA address is incremented to the next - * 4-byte aligned address after adding byte-count. - * @usbc_end: Bigendian input to the USB Core. This should be - * set to '0' for operation. - * @usbp_bist: PHY, This is cleared '0' to run BIST on the USBP. - * @tclk: PHY Test Clock, used to load TDATA_IN to the USBP. - * @dp_pulld: PHY DP_PULLDOWN input to the USB-PHY. - * This signal enables the pull-down resistance on - * the D+ line. '1' pull down-resistance is connected - * to D+/ '0' pull down resistance is not connected - * to D+. When an A/B device is acting as a host - * (downstream-facing port), dp_pulldown and - * dm_pulldown are enabled. This must not toggle - * during normal opeartion. - * @dm_pulld: PHY DM_PULLDOWN input to the USB-PHY. - * This signal enables the pull-down resistance on - * the D- line. '1' pull down-resistance is connected - * to D-. '0' pull down resistance is not connected - * to D-. When an A/B device is acting as a host - * (downstream-facing port), dp_pulldown and - * dm_pulldown are enabled. This must not toggle - * during normal opeartion. - * @hst_mode: When '0' the USB is acting as HOST, when '1' - * USB is acting as device. This field needs to be - * set while the USB is in reset. - * @tx_bs_enh: Transmit Bit Stuffing on [15:8]. - * Enables or disables bit stuffing on data[15:8] - * when bit-stuffing is enabled. - * @tx_bs_en: Transmit Bit Stuffing on [7:0]. - * Enables or disables bit stuffing on data[7:0] - * when bit-stuffing is enabled. - * @loop_enb: PHY Loopback Test Enable. - * '1': During data transmission the receive is - * enabled. - * '0': During data transmission the receive is - * disabled. - * Must be '0' for normal operation. - * @vtest_enb: Analog Test Pin Enable. - * '1' The PHY's analog_test pin is enabled for the - * input and output of applicable analog test signals. - * '0' THe analog_test pin is disabled. - * @bist_enb: Built-In Self Test Enable. - * Used to activate BIST in the PHY. - * @tdata_sel: Test Data Out Select. - * '1' test_data_out[3:0] (PHY) register contents - * are output. '0' internaly generated signals are - * output. - * @taddr_in: Mode Address for Test Interface. - * Specifies the register address for writing to or - * reading from the PHY test interface register. - * @tdata_in: Internal Testing Register Input Data and Select - * This is a test bus. Data is present on [3:0], - * and its corresponding select (enable) is present - * on bits [7:4]. - * @ate_reset: Reset input from automatic test equipment. - * This is a test signal. When the USB Core is - * powered up (not in Susned Mode), an automatic - * tester can use this to disable phy_clock and - * free_clk, then re-eanable them with an aligned - * phase. - * '1': The phy_clk and free_clk outputs are - * disabled. "0": The phy_clock and free_clk outputs - * are available within a specific period after the - * de-assertion. - */ - struct cvmx_usbnx_usbp_ctl_status_cn52xx { - uint64_t txrisetune : 1; - uint64_t txvreftune : 4; - uint64_t txfslstune : 4; - uint64_t txhsxvtune : 2; - uint64_t sqrxtune : 3; - uint64_t compdistune : 3; - uint64_t otgtune : 3; - uint64_t otgdisable : 1; - uint64_t portreset : 1; - uint64_t drvvbus : 1; - uint64_t lsbist : 1; - uint64_t fsbist : 1; - uint64_t hsbist : 1; - uint64_t bist_done : 1; - uint64_t bist_err : 1; - uint64_t tdata_out : 4; - uint64_t siddq : 1; - uint64_t txpreemphasistune : 1; - uint64_t dma_bmode : 1; - uint64_t usbc_end : 1; - uint64_t usbp_bist : 1; - uint64_t tclk : 1; - uint64_t dp_pulld : 1; - uint64_t dm_pulld : 1; - uint64_t hst_mode : 1; - uint64_t reserved_19_22 : 4; - uint64_t tx_bs_enh : 1; - uint64_t tx_bs_en : 1; - uint64_t loop_enb : 1; - uint64_t vtest_enb : 1; - uint64_t bist_enb : 1; - uint64_t tdata_sel : 1; - uint64_t taddr_in : 4; - uint64_t tdata_in : 8; - uint64_t ate_reset : 1; - } cn52xx; -}; -typedef union cvmx_usbnx_usbp_ctl_status cvmx_usbnx_usbp_ctl_status_t; - -#endif diff --git a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/octeon-hcd.c b/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/octeon-hcd.c deleted file mode 100644 index d156b603ae..0000000000 --- a/target/linux/octeon/files-3.10/drivers/staging/octeon-usb/octeon-hcd.c +++ /dev/null @@ -1,832 +0,0 @@ -/* - * This file is subject to the terms and conditions of the GNU General Public - * License. See the file "COPYING" in the main directory of this archive - * for more details. - * - * Copyright (C) 2008 Cavium Networks - */ -#include <linux/kernel.h> -#include <linux/module.h> -#include <linux/init.h> -#include <linux/pci.h> -#include <linux/interrupt.h> -#include <linux/platform_device.h> -#include <linux/usb.h> - -#include <linux/time.h> -#include <linux/delay.h> - -#include <asm/octeon/cvmx.h> -#include "cvmx-usb.h" -#include <asm/octeon/cvmx-iob-defs.h> - -#include <linux/usb/hcd.h> - -#include <linux/err.h> - -struct octeon_hcd { - spinlock_t lock; - cvmx_usb_state_t usb; - struct tasklet_struct dequeue_tasklet; - struct list_head dequeue_list; -}; - -/* convert between an HCD pointer and the corresponding struct octeon_hcd */ -static inline struct octeon_hcd *hcd_to_octeon(struct usb_hcd *hcd) -{ - return (struct octeon_hcd *)(hcd->hcd_priv); -} - -static inline struct usb_hcd *octeon_to_hcd(struct octeon_hcd *p) -{ - return container_of((void *)p, struct usb_hcd, hcd_priv); -} - -static inline struct octeon_hcd *cvmx_usb_to_octeon(cvmx_usb_state_t *p) -{ - return container_of(p, struct octeon_hcd, usb); -} - -static irqreturn_t octeon_usb_irq(struct usb_hcd *hcd) -{ - struct octeon_hcd *priv = hcd_to_octeon(hcd); - unsigned long flags; - - spin_lock_irqsave(&priv->lock, flags); - cvmx_usb_poll(&priv->usb); - spin_unlock_irqrestore(&priv->lock, flags); - return IRQ_HANDLED; -} - -static void octeon_usb_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) -{ - struct octeon_hcd *priv = cvmx_usb_to_octeon(usb); - - spin_unlock(&priv->lock); - usb_hcd_poll_rh_status(octeon_to_hcd(priv)); - spin_lock(&priv->lock); -} - -static int octeon_usb_start(struct usb_hcd *hcd) -{ - struct octeon_hcd *priv = hcd_to_octeon(hcd); - unsigned long flags; - - hcd->state = HC_STATE_RUNNING; - spin_lock_irqsave(&priv->lock, flags); - cvmx_usb_register_callback(&priv->usb, CVMX_USB_CALLBACK_PORT_CHANGED, - octeon_usb_port_callback, NULL); - spin_unlock_irqrestore(&priv->lock, flags); - return 0; -} - -static void octeon_usb_stop(struct usb_hcd *hcd) -{ - struct octeon_hcd *priv = hcd_to_octeon(hcd); - unsigned long flags; - - spin_lock_irqsave(&priv->lock, flags); - cvmx_usb_register_callback(&priv->usb, CVMX_USB_CALLBACK_PORT_CHANGED, - NULL, NULL); - spin_unlock_irqrestore(&priv->lock, flags); - hcd->state = HC_STATE_HALT; -} - -static int octeon_usb_get_frame_number(struct usb_hcd *hcd) -{ - struct octeon_hcd *priv = hcd_to_octeon(hcd); - - return cvmx_usb_get_frame_number(&priv->usb); -} - -static void octeon_usb_urb_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) -{ - struct octeon_hcd *priv = cvmx_usb_to_octeon(usb); - struct usb_hcd *hcd = octeon_to_hcd(priv); - struct device *dev = hcd->self.controller; - struct urb *urb = user_data; - - urb->actual_length = bytes_transferred; - urb->hcpriv = NULL; - - if (!list_empty(&urb->urb_list)) { - /* - * It is on the dequeue_list, but we are going to call - * usb_hcd_giveback_urb(), so we must clear it from - * the list. We got to it before the - * octeon_usb_urb_dequeue_work() tasklet did. - */ - list_del(&urb->urb_list); - /* No longer on the dequeue_list. */ - INIT_LIST_HEAD(&urb->urb_list); - } - - /* For Isochronous transactions we need to update the URB packet status - list from data in our private copy */ - if (usb_pipetype(urb->pipe) == PIPE_ISOCHRONOUS) { - int i; - /* - * The pointer to the private list is stored in the setup_packet - * field. - */ - cvmx_usb_iso_packet_t *iso_packet = (cvmx_usb_iso_packet_t *) urb->setup_packet; - /* Recalculate the transfer size by adding up each packet */ - urb->actual_length = 0; - for (i = 0; i < urb->number_of_packets; i++) { - if (iso_packet[i].status == CVMX_USB_COMPLETE_SUCCESS) { - urb->iso_frame_desc[i].status = 0; - urb->iso_frame_desc[i].actual_length = iso_packet[i].length; - urb->actual_length += urb->iso_frame_desc[i].actual_length; - } else { - dev_dbg(dev, "ISOCHRONOUS packet=%d of %d status=%d pipe=%d submit=%d size=%d\n", - i, urb->number_of_packets, - iso_packet[i].status, pipe_handle, - submit_handle, iso_packet[i].length); - urb->iso_frame_desc[i].status = -EREMOTEIO; - } - } - /* Free the private list now that we don't need it anymore */ - kfree(iso_packet); - urb->setup_packet = NULL; - } - - switch (status) { - case CVMX_USB_COMPLETE_SUCCESS: - urb->status = 0; - break; - case CVMX_USB_COMPLETE_CANCEL: - if (urb->status == 0) - urb->status = -ENOENT; - break; - case CVMX_USB_COMPLETE_STALL: - dev_dbg(dev, "status=stall pipe=%d submit=%d size=%d\n", - pipe_handle, submit_handle, bytes_transferred); - urb->status = -EPIPE; - break; - case CVMX_USB_COMPLETE_BABBLEERR: - dev_dbg(dev, "status=babble pipe=%d submit=%d size=%d\n", - pipe_handle, submit_handle, bytes_transferred); - urb->status = -EPIPE; - break; - case CVMX_USB_COMPLETE_SHORT: - dev_dbg(dev, "status=short pipe=%d submit=%d size=%d\n", - pipe_handle, submit_handle, bytes_transferred); - urb->status = -EREMOTEIO; - break; - case CVMX_USB_COMPLETE_ERROR: - case CVMX_USB_COMPLETE_XACTERR: - case CVMX_USB_COMPLETE_DATATGLERR: - case CVMX_USB_COMPLETE_FRAMEERR: - dev_dbg(dev, "status=%d pipe=%d submit=%d size=%d\n", - status, pipe_handle, submit_handle, bytes_transferred); - urb->status = -EPROTO; - break; - } - spin_unlock(&priv->lock); - usb_hcd_giveback_urb(octeon_to_hcd(priv), urb, urb->status); - spin_lock(&priv->lock); -} - -static int octeon_usb_urb_enqueue(struct usb_hcd *hcd, - struct urb *urb, - gfp_t mem_flags) -{ - struct octeon_hcd *priv = hcd_to_octeon(hcd); - struct device *dev = hcd->self.controller; - int submit_handle = -1; - int pipe_handle; - unsigned long flags; - cvmx_usb_iso_packet_t *iso_packet; - struct usb_host_endpoint *ep = urb->ep; - - urb->status = 0; - INIT_LIST_HEAD(&urb->urb_list); /* not enqueued on dequeue_list */ - spin_lock_irqsave(&priv->lock, flags); - - if (!ep->hcpriv) { - cvmx_usb_transfer_t transfer_type; - cvmx_usb_speed_t speed; - int split_device = 0; - int split_port = 0; - switch (usb_pipetype(urb->pipe)) { - case PIPE_ISOCHRONOUS: - transfer_type = CVMX_USB_TRANSFER_ISOCHRONOUS; - break; - case PIPE_INTERRUPT: - transfer_type = CVMX_USB_TRANSFER_INTERRUPT; - break; - case PIPE_CONTROL: - transfer_type = CVMX_USB_TRANSFER_CONTROL; - break; - default: - transfer_type = CVMX_USB_TRANSFER_BULK; - break; - } - switch (urb->dev->speed) { - case USB_SPEED_LOW: - speed = CVMX_USB_SPEED_LOW; - break; - case USB_SPEED_FULL: - speed = CVMX_USB_SPEED_FULL; - break; - default: - speed = CVMX_USB_SPEED_HIGH; - break; - } - /* - * For slow devices on high speed ports we need to find the hub - * that does the speed translation so we know where to send the - * split transactions. - */ - if (speed != CVMX_USB_SPEED_HIGH) { - /* - * Start at this device and work our way up the usb - * tree. - */ - struct usb_device *dev = urb->dev; - while (dev->parent) { - /* - * If our parent is high speed then he'll - * receive the splits. - */ - if (dev->parent->speed == USB_SPEED_HIGH) { - split_device = dev->parent->devnum; - split_port = dev->portnum; - break; - } - /* - * Move up the tree one level. If we make it all - * the way up the tree, then the port must not - * be in high speed mode and we don't need a - * split. - */ - dev = dev->parent; - } - } - pipe_handle = cvmx_usb_open_pipe(&priv->usb, - 0, - usb_pipedevice(urb->pipe), - usb_pipeendpoint(urb->pipe), - speed, - le16_to_cpu(ep->desc.wMaxPacketSize) & 0x7ff, - transfer_type, - usb_pipein(urb->pipe) ? CVMX_USB_DIRECTION_IN : CVMX_USB_DIRECTION_OUT, - urb->interval, - (le16_to_cpu(ep->desc.wMaxPacketSize) >> 11) & 0x3, - split_device, - split_port); - if (pipe_handle < 0) { - spin_unlock_irqrestore(&priv->lock, flags); - dev_dbg(dev, "Failed to create pipe\n"); - return -ENOMEM; - } - ep->hcpriv = (void *)(0x10000L + pipe_handle); - } else { - pipe_handle = 0xffff & (long)ep->hcpriv; - } - - switch (usb_pipetype(urb->pipe)) { - case PIPE_ISOCHRONOUS: - dev_dbg(dev, "Submit isochronous to %d.%d\n", - usb_pipedevice(urb->pipe), usb_pipeendpoint(urb->pipe)); - /* - * Allocate a structure to use for our private list of - * isochronous packets. - */ - iso_packet = kmalloc(urb->number_of_packets * sizeof(cvmx_usb_iso_packet_t), GFP_ATOMIC); - if (iso_packet) { - int i; - /* Fill the list with the data from the URB */ - for (i = 0; i < urb->number_of_packets; i++) { - iso_packet[i].offset = urb->iso_frame_desc[i].offset; - iso_packet[i].length = urb->iso_frame_desc[i].length; - iso_packet[i].status = CVMX_USB_COMPLETE_ERROR; - } - /* - * Store a pointer to the list in the URB setup_packet - * field. We know this currently isn't being used and - * this saves us a bunch of logic. - */ - urb->setup_packet = (char *)iso_packet; - submit_handle = cvmx_usb_submit_isochronous(&priv->usb, pipe_handle, - urb->start_frame, - 0 /* flags */ , - urb->number_of_packets, - iso_packet, - urb->transfer_dma, - urb->transfer_buffer_length, - octeon_usb_urb_complete_callback, - urb); - /* - * If submit failed we need to free our private packet - * list. - */ - if (submit_handle < 0) { - urb->setup_packet = NULL; - kfree(iso_packet); - } - } - break; - case PIPE_INTERRUPT: - dev_dbg(dev, "Submit interrupt to %d.%d\n", - usb_pipedevice(urb->pipe), usb_pipeendpoint(urb->pipe)); - submit_handle = cvmx_usb_submit_interrupt(&priv->usb, pipe_handle, - urb->transfer_dma, - urb->transfer_buffer_length, - octeon_usb_urb_complete_callback, - urb); - break; - case PIPE_CONTROL: - dev_dbg(dev, "Submit control to %d.%d\n", - usb_pipedevice(urb->pipe), usb_pipeendpoint(urb->pipe)); - submit_handle = cvmx_usb_submit_control(&priv->usb, pipe_handle, - urb->setup_dma, - urb->transfer_dma, - urb->transfer_buffer_length, - octeon_usb_urb_complete_callback, - urb); - break; - case PIPE_BULK: - dev_dbg(dev, "Submit bulk to %d.%d\n", - usb_pipedevice(urb->pipe), usb_pipeendpoint(urb->pipe)); - submit_handle = cvmx_usb_submit_bulk(&priv->usb, pipe_handle, - urb->transfer_dma, - urb->transfer_buffer_length, - octeon_usb_urb_complete_callback, - urb); - break; - } - if (submit_handle < 0) { - spin_unlock_irqrestore(&priv->lock, flags); - dev_dbg(dev, "Failed to submit\n"); - return -ENOMEM; - } - urb->hcpriv = (void *)(long)(((submit_handle & 0xffff) << 16) | pipe_handle); - spin_unlock_irqrestore(&priv->lock, flags); - return 0; -} - -static void octeon_usb_urb_dequeue_work(unsigned long arg) -{ - unsigned long flags; - struct octeon_hcd *priv = (struct octeon_hcd *)arg; - - spin_lock_irqsave(&priv->lock, flags); - - while (!list_empty(&priv->dequeue_list)) { - int pipe_handle; - int submit_handle; - struct urb *urb = container_of(priv->dequeue_list.next, struct urb, urb_list); - list_del(&urb->urb_list); - /* not enqueued on dequeue_list */ - INIT_LIST_HEAD(&urb->urb_list); - pipe_handle = 0xffff & (long)urb->hcpriv; - submit_handle = ((long)urb->hcpriv) >> 16; - cvmx_usb_cancel(&priv->usb, pipe_handle, submit_handle); - } - - spin_unlock_irqrestore(&priv->lock, flags); -} - -static int octeon_usb_urb_dequeue(struct usb_hcd *hcd, struct urb *urb, int status) -{ - struct octeon_hcd *priv = hcd_to_octeon(hcd); - unsigned long flags; - - if (!urb->dev) - return -EINVAL; - - spin_lock_irqsave(&priv->lock, flags); - - urb->status = status; - list_add_tail(&urb->urb_list, &priv->dequeue_list); - - spin_unlock_irqrestore(&priv->lock, flags); - - tasklet_schedule(&priv->dequeue_tasklet); - - return 0; -} - -static void octeon_usb_endpoint_disable(struct usb_hcd *hcd, struct usb_host_endpoint *ep) -{ - struct device *dev = hcd->self.controller; - - if (ep->hcpriv) { - struct octeon_hcd *priv = hcd_to_octeon(hcd); - int pipe_handle = 0xffff & (long)ep->hcpriv; - unsigned long flags; - spin_lock_irqsave(&priv->lock, flags); - cvmx_usb_cancel_all(&priv->usb, pipe_handle); - if (cvmx_usb_close_pipe(&priv->usb, pipe_handle)) - dev_dbg(dev, "Closing pipe %d failed\n", pipe_handle); - spin_unlock_irqrestore(&priv->lock, flags); - ep->hcpriv = NULL; - } -} - -static int octeon_usb_hub_status_data(struct usb_hcd *hcd, char *buf) -{ - struct octeon_hcd *priv = hcd_to_octeon(hcd); - cvmx_usb_port_status_t port_status; - unsigned long flags; - - spin_lock_irqsave(&priv->lock, flags); - port_status = cvmx_usb_get_status(&priv->usb); - spin_unlock_irqrestore(&priv->lock, flags); - buf[0] = 0; - buf[0] = port_status.connect_change << 1; - - return (buf[0] != 0); -} - -static int octeon_usb_hub_control(struct usb_hcd *hcd, u16 typeReq, u16 wValue, u16 wIndex, char *buf, u16 wLength) -{ - struct octeon_hcd *priv = hcd_to_octeon(hcd); - struct device *dev = hcd->self.controller; - cvmx_usb_port_status_t usb_port_status; - int port_status; - struct usb_hub_descriptor *desc; - unsigned long flags; - - switch (typeReq) { - case ClearHubFeature: - dev_dbg(dev, "ClearHubFeature\n"); - switch (wValue) { - case C_HUB_LOCAL_POWER: - case C_HUB_OVER_CURRENT: - /* Nothing required here */ - break; - default: - return -EINVAL; - } - break; - case ClearPortFeature: - dev_dbg(dev, "ClearPortFeature\n"); - if (wIndex != 1) { - dev_dbg(dev, " INVALID\n"); - return -EINVAL; - } - - switch (wValue) { - case USB_PORT_FEAT_ENABLE: - dev_dbg(dev, " ENABLE\n"); - spin_lock_irqsave(&priv->lock, flags); - cvmx_usb_disable(&priv->usb); - spin_unlock_irqrestore(&priv->lock, flags); - break; - case USB_PORT_FEAT_SUSPEND: - dev_dbg(dev, " SUSPEND\n"); - /* Not supported on Octeon */ - break; - case USB_PORT_FEAT_POWER: - dev_dbg(dev, " POWER\n"); - /* Not supported on Octeon */ - break; - case USB_PORT_FEAT_INDICATOR: - dev_dbg(dev, " INDICATOR\n"); - /* Port inidicator not supported */ - break; - case USB_PORT_FEAT_C_CONNECTION: - dev_dbg(dev, " C_CONNECTION\n"); - /* Clears drivers internal connect status change flag */ - spin_lock_irqsave(&priv->lock, flags); - cvmx_usb_set_status(&priv->usb, cvmx_usb_get_status(&priv->usb)); - spin_unlock_irqrestore(&priv->lock, flags); - break; - case USB_PORT_FEAT_C_RESET: - dev_dbg(dev, " C_RESET\n"); - /* - * Clears the driver's internal Port Reset Change flag. - */ - spin_lock_irqsave(&priv->lock, flags); - cvmx_usb_set_status(&priv->usb, cvmx_usb_get_status(&priv->usb)); - spin_unlock_irqrestore(&priv->lock, flags); - break; - case USB_PORT_FEAT_C_ENABLE: - dev_dbg(dev, " C_ENABLE\n"); - /* - * Clears the driver's internal Port Enable/Disable - * Change flag. - */ - spin_lock_irqsave(&priv->lock, flags); - cvmx_usb_set_status(&priv->usb, cvmx_usb_get_status(&priv->usb)); - spin_unlock_irqrestore(&priv->lock, flags); - break; - case USB_PORT_FEAT_C_SUSPEND: - dev_dbg(dev, " C_SUSPEND\n"); - /* - * 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: - dev_dbg(dev, " C_OVER_CURRENT\n"); - /* Clears the driver's overcurrent Change flag */ - spin_lock_irqsave(&priv->lock, flags); - cvmx_usb_set_status(&priv->usb, cvmx_usb_get_status(&priv->usb)); - spin_unlock_irqrestore(&priv->lock, flags); - break; - default: - dev_dbg(dev, " UNKNOWN\n"); - return -EINVAL; - } - break; - case GetHubDescriptor: - dev_dbg(dev, "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->u.hs.DeviceRemovable[0] = 0; - desc->u.hs.DeviceRemovable[1] = 0xff; - break; - case GetHubStatus: - dev_dbg(dev, "GetHubStatus\n"); - *(__le32 *) buf = 0; - break; - case GetPortStatus: - dev_dbg(dev, "GetPortStatus\n"); - if (wIndex != 1) { - dev_dbg(dev, " INVALID\n"); - return -EINVAL; - } - - spin_lock_irqsave(&priv->lock, flags); - usb_port_status = cvmx_usb_get_status(&priv->usb); - spin_unlock_irqrestore(&priv->lock, flags); - port_status = 0; - - if (usb_port_status.connect_change) { - port_status |= (1 << USB_PORT_FEAT_C_CONNECTION); - dev_dbg(dev, " C_CONNECTION\n"); - } - - if (usb_port_status.port_enabled) { - port_status |= (1 << USB_PORT_FEAT_C_ENABLE); - dev_dbg(dev, " C_ENABLE\n"); - } - - if (usb_port_status.connected) { - port_status |= (1 << USB_PORT_FEAT_CONNECTION); - dev_dbg(dev, " CONNECTION\n"); - } - - if (usb_port_status.port_enabled) { - port_status |= (1 << USB_PORT_FEAT_ENABLE); - dev_dbg(dev, " ENABLE\n"); - } - - if (usb_port_status.port_over_current) { - port_status |= (1 << USB_PORT_FEAT_OVER_CURRENT); - dev_dbg(dev, " OVER_CURRENT\n"); - } - - if (usb_port_status.port_powered) { - port_status |= (1 << USB_PORT_FEAT_POWER); - dev_dbg(dev, " POWER\n"); - } - - if (usb_port_status.port_speed == CVMX_USB_SPEED_HIGH) { - port_status |= USB_PORT_STAT_HIGH_SPEED; - dev_dbg(dev, " HIGHSPEED\n"); - } else if (usb_port_status.port_speed == CVMX_USB_SPEED_LOW) { - port_status |= (1 << USB_PORT_FEAT_LOWSPEED); - dev_dbg(dev, " LOWSPEED\n"); - } - - *((__le32 *) buf) = cpu_to_le32(port_status); - break; - case SetHubFeature: - dev_dbg(dev, "SetHubFeature\n"); - /* No HUB features supported */ - break; - case SetPortFeature: - dev_dbg(dev, "SetPortFeature\n"); - if (wIndex != 1) { - dev_dbg(dev, " INVALID\n"); - return -EINVAL; - } - - switch (wValue) { - case USB_PORT_FEAT_SUSPEND: - dev_dbg(dev, " SUSPEND\n"); - return -EINVAL; - case USB_PORT_FEAT_POWER: - dev_dbg(dev, " POWER\n"); - return -EINVAL; - case USB_PORT_FEAT_RESET: - dev_dbg(dev, " RESET\n"); - spin_lock_irqsave(&priv->lock, flags); - cvmx_usb_disable(&priv->usb); - if (cvmx_usb_enable(&priv->usb)) - dev_dbg(dev, "Failed to enable the port\n"); - spin_unlock_irqrestore(&priv->lock, flags); - return 0; - case USB_PORT_FEAT_INDICATOR: - dev_dbg(dev, " INDICATOR\n"); - /* Not supported */ - break; - default: - dev_dbg(dev, " UNKNOWN\n"); - return -EINVAL; - } - break; - default: - dev_dbg(dev, "Unknown root hub request\n"); - return -EINVAL; - } - return 0; -} - - -static const struct hc_driver octeon_hc_driver = { - .description = "Octeon USB", - .product_desc = "Octeon Host Controller", - .hcd_priv_size = sizeof(struct octeon_hcd), - .irq = octeon_usb_irq, - .flags = HCD_MEMORY | HCD_USB2, - .start = octeon_usb_start, - .stop = octeon_usb_stop, - .urb_enqueue = octeon_usb_urb_enqueue, - .urb_dequeue = octeon_usb_urb_dequeue, - .endpoint_disable = octeon_usb_endpoint_disable, - .get_frame_number = octeon_usb_get_frame_number, - .hub_status_data = octeon_usb_hub_status_data, - .hub_control = octeon_usb_hub_control, -}; - - -static int octeon_usb_driver_probe(struct device *dev) -{ - int status; - int usb_num = to_platform_device(dev)->id; - int irq = platform_get_irq(to_platform_device(dev), 0); - struct octeon_hcd *priv; - struct usb_hcd *hcd; - unsigned long flags; - - /* - * Set the DMA mask to 64bits so we get buffers already translated for - * DMA. - */ - dev->coherent_dma_mask = ~0; - dev->dma_mask = &dev->coherent_dma_mask; - - hcd = usb_create_hcd(&octeon_hc_driver, dev, dev_name(dev)); - if (!hcd) { - dev_dbg(dev, "Failed to allocate memory for HCD\n"); - return -1; - } - hcd->uses_new_polling = 1; - priv = (struct octeon_hcd *)hcd->hcd_priv; - - spin_lock_init(&priv->lock); - - tasklet_init(&priv->dequeue_tasklet, octeon_usb_urb_dequeue_work, (unsigned long)priv); - INIT_LIST_HEAD(&priv->dequeue_list); - - status = cvmx_usb_initialize(&priv->usb, usb_num, CVMX_USB_INITIALIZE_FLAGS_CLOCK_AUTO); - if (status) { - dev_dbg(dev, "USB initialization failed with %d\n", status); - kfree(hcd); - return -1; - } - - /* This delay is needed for CN3010, but I don't know why... */ - mdelay(10); - - spin_lock_irqsave(&priv->lock, flags); - cvmx_usb_poll(&priv->usb); - spin_unlock_irqrestore(&priv->lock, flags); - - status = usb_add_hcd(hcd, irq, IRQF_SHARED); - if (status) { - dev_dbg(dev, "USB add HCD failed with %d\n", status); - kfree(hcd); - return -1; - } - - dev_dbg(dev, "Registered HCD for port %d on irq %d\n", usb_num, irq); - - return 0; -} - -static int octeon_usb_driver_remove(struct device *dev) -{ - int status; - struct usb_hcd *hcd = dev_get_drvdata(dev); - struct octeon_hcd *priv = hcd_to_octeon(hcd); - unsigned long flags; - - usb_remove_hcd(hcd); - tasklet_kill(&priv->dequeue_tasklet); - spin_lock_irqsave(&priv->lock, flags); - status = cvmx_usb_shutdown(&priv->usb); - spin_unlock_irqrestore(&priv->lock, flags); - if (status) - dev_dbg(dev, "USB shutdown failed with %d\n", status); - - kfree(hcd); - - return 0; -} - -static struct device_driver octeon_usb_driver = { - .name = "OcteonUSB", - .bus = &platform_bus_type, - .probe = octeon_usb_driver_probe, - .remove = octeon_usb_driver_remove, -}; - - -#define MAX_USB_PORTS 10 -static struct platform_device *pdev_glob[MAX_USB_PORTS]; -static int octeon_usb_registered; -static int __init octeon_usb_module_init(void) -{ - int num_devices = cvmx_usb_get_num_ports(); - int device; - - if (usb_disabled() || num_devices == 0) - return -ENODEV; - - if (driver_register(&octeon_usb_driver)) - return -ENOMEM; - - octeon_usb_registered = 1; - - /* - * Only cn52XX and cn56XX have DWC_OTG USB hardware and the - * IOB priority registers. Under heavy network load USB - * hardware can be starved by the IOB causing a crash. Give - * it a priority boost if it has been waiting more than 400 - * cycles to avoid this situation. - * - * Testing indicates that a cnt_val of 8192 is not sufficient, - * but no failures are seen with 4096. We choose a value of - * 400 to give a safety factor of 10. - */ - if (OCTEON_IS_MODEL(OCTEON_CN52XX) || OCTEON_IS_MODEL(OCTEON_CN56XX)) { - union cvmx_iob_n2c_l2c_pri_cnt pri_cnt; - - pri_cnt.u64 = 0; - pri_cnt.s.cnt_enb = 1; - pri_cnt.s.cnt_val = 400; - cvmx_write_csr(CVMX_IOB_N2C_L2C_PRI_CNT, pri_cnt.u64); - } - - for (device = 0; device < num_devices; device++) { - struct resource irq_resource; - struct platform_device *pdev; - memset(&irq_resource, 0, sizeof(irq_resource)); - irq_resource.start = (device == 0) ? OCTEON_IRQ_USB0 : OCTEON_IRQ_USB1; - irq_resource.end = irq_resource.start; - irq_resource.flags = IORESOURCE_IRQ; - pdev = platform_device_register_simple((char *)octeon_usb_driver. name, device, &irq_resource, 1); - if (IS_ERR(pdev)) { - driver_unregister(&octeon_usb_driver); - octeon_usb_registered = 0; - return PTR_ERR(pdev); - } - if (device < MAX_USB_PORTS) - pdev_glob[device] = pdev; - - } - return 0; -} - -static void __exit octeon_usb_module_cleanup(void) -{ - int i; - - for (i = 0; i < MAX_USB_PORTS; i++) - if (pdev_glob[i]) { - platform_device_unregister(pdev_glob[i]); - pdev_glob[i] = NULL; - } - if (octeon_usb_registered) - driver_unregister(&octeon_usb_driver); -} - -MODULE_LICENSE("GPL"); -MODULE_AUTHOR("Cavium Networks <support@caviumnetworks.com>"); -MODULE_DESCRIPTION("Cavium Networks Octeon USB Host driver."); -module_init(octeon_usb_module_init); -module_exit(octeon_usb_module_cleanup); |