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- /*
- * Copyright 2010 Tilera Corporation. All Rights Reserved.
- *
- * This program is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License
- * as published by the Free Software Foundation, version 2.
- *
- * This program is distributed in the hope that it will be useful, but
- * WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, GOOD TITLE or
- * NON INFRINGEMENT. See the GNU General Public License for
- * more details.
- */
- /**
- * @file drv_xgbe_intf.h
- * Interface to the hypervisor XGBE driver.
- */
- #ifndef __DRV_XGBE_INTF_H__
- #define __DRV_XGBE_INTF_H__
- /**
- * An object for forwarding VAs and PAs to the hypervisor.
- * @ingroup types
- *
- * This allows the supervisor to specify a number of areas of memory to
- * store packet buffers.
- */
- typedef struct
- {
- /** The physical address of the memory. */
- HV_PhysAddr pa;
- /** Page table entry for the memory. This is only used to derive the
- * memory's caching mode; the PA bits are ignored. */
- HV_PTE pte;
- /** The virtual address of the memory. */
- HV_VirtAddr va;
- /** Size (in bytes) of the memory area. */
- int size;
- }
- netio_ipp_address_t;
- /** The various pread/pwrite offsets into the hypervisor-level driver.
- * @ingroup types
- */
- typedef enum
- {
- /** Inform the Linux driver of the address of the NetIO arena memory.
- * This offset is actually only used to convey information from netio
- * to the Linux driver; it never makes it from there to the hypervisor.
- * Write-only; takes a uint32_t specifying the VA address. */
- NETIO_FIXED_ADDR = 0x5000000000000000ULL,
- /** Inform the Linux driver of the size of the NetIO arena memory.
- * This offset is actually only used to convey information from netio
- * to the Linux driver; it never makes it from there to the hypervisor.
- * Write-only; takes a uint32_t specifying the VA size. */
- NETIO_FIXED_SIZE = 0x5100000000000000ULL,
- /** Register current tile with IPP. Write then read: write, takes a
- * netio_input_config_t, read returns a pointer to a netio_queue_impl_t. */
- NETIO_IPP_INPUT_REGISTER_OFF = 0x6000000000000000ULL,
- /** Unregister current tile from IPP. Write-only, takes a dummy argument. */
- NETIO_IPP_INPUT_UNREGISTER_OFF = 0x6100000000000000ULL,
- /** Start packets flowing. Write-only, takes a dummy argument. */
- NETIO_IPP_INPUT_INIT_OFF = 0x6200000000000000ULL,
- /** Stop packets flowing. Write-only, takes a dummy argument. */
- NETIO_IPP_INPUT_UNINIT_OFF = 0x6300000000000000ULL,
- /** Configure group (typically we group on VLAN). Write-only: takes an
- * array of netio_group_t's, low 24 bits of the offset is the base group
- * number times the size of a netio_group_t. */
- NETIO_IPP_INPUT_GROUP_CFG_OFF = 0x6400000000000000ULL,
- /** Configure bucket. Write-only: takes an array of netio_bucket_t's, low
- * 24 bits of the offset is the base bucket number times the size of a
- * netio_bucket_t. */
- NETIO_IPP_INPUT_BUCKET_CFG_OFF = 0x6500000000000000ULL,
- /** Get/set a parameter. Read or write: read or write data is the parameter
- * value, low 32 bits of the offset is a __netio_getset_offset_t. */
- NETIO_IPP_PARAM_OFF = 0x6600000000000000ULL,
- /** Get fast I/O index. Read-only; returns a 4-byte base index value. */
- NETIO_IPP_GET_FASTIO_OFF = 0x6700000000000000ULL,
- /** Configure hijack IP address. Packets with this IPv4 dest address
- * go to bucket NETIO_NUM_BUCKETS - 1. Write-only: takes an IP address
- * in some standard form. FIXME: Define the form! */
- NETIO_IPP_INPUT_HIJACK_CFG_OFF = 0x6800000000000000ULL,
- /**
- * Offsets beyond this point are reserved for the supervisor (although that
- * enforcement must be done by the supervisor driver itself).
- */
- NETIO_IPP_USER_MAX_OFF = 0x6FFFFFFFFFFFFFFFULL,
- /** Register I/O memory. Write-only, takes a netio_ipp_address_t. */
- NETIO_IPP_IOMEM_REGISTER_OFF = 0x7000000000000000ULL,
- /** Unregister I/O memory. Write-only, takes a netio_ipp_address_t. */
- NETIO_IPP_IOMEM_UNREGISTER_OFF = 0x7100000000000000ULL,
- /* Offsets greater than 0x7FFFFFFF can't be used directly from Linux
- * userspace code due to limitations in the pread/pwrite syscalls. */
- /** Drain LIPP buffers. */
- NETIO_IPP_DRAIN_OFF = 0xFA00000000000000ULL,
- /** Supply a netio_ipp_address_t to be used as shared memory for the
- * LEPP command queue. */
- NETIO_EPP_SHM_OFF = 0xFB00000000000000ULL,
- /* 0xFC... is currently unused. */
- /** Stop IPP/EPP tiles. Write-only, takes a dummy argument. */
- NETIO_IPP_STOP_SHIM_OFF = 0xFD00000000000000ULL,
- /** Start IPP/EPP tiles. Write-only, takes a dummy argument. */
- NETIO_IPP_START_SHIM_OFF = 0xFE00000000000000ULL,
- /** Supply packet arena. Write-only, takes an array of
- * netio_ipp_address_t values. */
- NETIO_IPP_ADDRESS_OFF = 0xFF00000000000000ULL,
- } netio_hv_offset_t;
- /** Extract the base offset from an offset */
- #define NETIO_BASE_OFFSET(off) ((off) & 0xFF00000000000000ULL)
- /** Extract the local offset from an offset */
- #define NETIO_LOCAL_OFFSET(off) ((off) & 0x00FFFFFFFFFFFFFFULL)
- /**
- * Get/set offset.
- */
- typedef union
- {
- struct
- {
- uint64_t addr:48; /**< Class-specific address */
- unsigned int class:8; /**< Class (e.g., NETIO_PARAM) */
- unsigned int opcode:8; /**< High 8 bits of NETIO_IPP_PARAM_OFF */
- }
- bits; /**< Bitfields */
- uint64_t word; /**< Aggregated value to use as the offset */
- }
- __netio_getset_offset_t;
- /**
- * Fast I/O index offsets (must be contiguous).
- */
- typedef enum
- {
- NETIO_FASTIO_ALLOCATE = 0, /**< Get empty packet buffer */
- NETIO_FASTIO_FREE_BUFFER = 1, /**< Give buffer back to IPP */
- NETIO_FASTIO_RETURN_CREDITS = 2, /**< Give credits to IPP */
- NETIO_FASTIO_SEND_PKT_NOCK = 3, /**< Send a packet, no checksum */
- NETIO_FASTIO_SEND_PKT_CK = 4, /**< Send a packet, with checksum */
- NETIO_FASTIO_SEND_PKT_VEC = 5, /**< Send a vector of packets */
- NETIO_FASTIO_SENDV_PKT = 6, /**< Sendv one packet */
- NETIO_FASTIO_NUM_INDEX = 7, /**< Total number of fast I/O indices */
- } netio_fastio_index_t;
- /** 3-word return type for Fast I/O call. */
- typedef struct
- {
- int err; /**< Error code. */
- uint32_t val0; /**< Value. Meaning depends upon the specific call. */
- uint32_t val1; /**< Value. Meaning depends upon the specific call. */
- } netio_fastio_rv3_t;
- /** 0-argument fast I/O call */
- int __netio_fastio0(uint32_t fastio_index);
- /** 1-argument fast I/O call */
- int __netio_fastio1(uint32_t fastio_index, uint32_t arg0);
- /** 3-argument fast I/O call, 2-word return value */
- netio_fastio_rv3_t __netio_fastio3_rv3(uint32_t fastio_index, uint32_t arg0,
- uint32_t arg1, uint32_t arg2);
- /** 4-argument fast I/O call */
- int __netio_fastio4(uint32_t fastio_index, uint32_t arg0, uint32_t arg1,
- uint32_t arg2, uint32_t arg3);
- /** 6-argument fast I/O call */
- int __netio_fastio6(uint32_t fastio_index, uint32_t arg0, uint32_t arg1,
- uint32_t arg2, uint32_t arg3, uint32_t arg4, uint32_t arg5);
- /** 9-argument fast I/O call */
- int __netio_fastio9(uint32_t fastio_index, uint32_t arg0, uint32_t arg1,
- uint32_t arg2, uint32_t arg3, uint32_t arg4, uint32_t arg5,
- uint32_t arg6, uint32_t arg7, uint32_t arg8);
- /** Allocate an empty packet.
- * @param fastio_index Fast I/O index.
- * @param size Size of the packet to allocate.
- */
- #define __netio_fastio_allocate(fastio_index, size) \
- __netio_fastio1((fastio_index) + NETIO_FASTIO_ALLOCATE, size)
- /** Free a buffer.
- * @param fastio_index Fast I/O index.
- * @param handle Handle for the packet to free.
- */
- #define __netio_fastio_free_buffer(fastio_index, handle) \
- __netio_fastio1((fastio_index) + NETIO_FASTIO_FREE_BUFFER, handle)
- /** Increment our receive credits.
- * @param fastio_index Fast I/O index.
- * @param credits Number of credits to add.
- */
- #define __netio_fastio_return_credits(fastio_index, credits) \
- __netio_fastio1((fastio_index) + NETIO_FASTIO_RETURN_CREDITS, credits)
- /** Send packet, no checksum.
- * @param fastio_index Fast I/O index.
- * @param ackflag Nonzero if we want an ack.
- * @param size Size of the packet.
- * @param va Virtual address of start of packet.
- * @param handle Packet handle.
- */
- #define __netio_fastio_send_pkt_nock(fastio_index, ackflag, size, va, handle) \
- __netio_fastio4((fastio_index) + NETIO_FASTIO_SEND_PKT_NOCK, ackflag, \
- size, va, handle)
- /** Send packet, calculate checksum.
- * @param fastio_index Fast I/O index.
- * @param ackflag Nonzero if we want an ack.
- * @param size Size of the packet.
- * @param va Virtual address of start of packet.
- * @param handle Packet handle.
- * @param csum0 Shim checksum header.
- * @param csum1 Checksum seed.
- */
- #define __netio_fastio_send_pkt_ck(fastio_index, ackflag, size, va, handle, \
- csum0, csum1) \
- __netio_fastio6((fastio_index) + NETIO_FASTIO_SEND_PKT_CK, ackflag, \
- size, va, handle, csum0, csum1)
- /** Format for the "csum0" argument to the __netio_fastio_send routines
- * and LEPP. Note that this is currently exactly identical to the
- * ShimProtocolOffloadHeader.
- */
- typedef union
- {
- struct
- {
- unsigned int start_byte:7; /**< The first byte to be checksummed */
- unsigned int count:14; /**< Number of bytes to be checksummed. */
- unsigned int destination_byte:7; /**< The byte to write the checksum to. */
- unsigned int reserved:4; /**< Reserved. */
- } bits; /**< Decomposed method of access. */
- unsigned int word; /**< To send out the IDN. */
- } __netio_checksum_header_t;
- /** Sendv packet with 1 or 2 segments.
- * @param fastio_index Fast I/O index.
- * @param flags Ack/csum/notify flags in low 3 bits; number of segments minus
- * 1 in next 2 bits; expected checksum in high 16 bits.
- * @param confno Confirmation number to request, if notify flag set.
- * @param csum0 Checksum descriptor; if zero, no checksum.
- * @param va_F Virtual address of first segment.
- * @param va_L Virtual address of last segment, if 2 segments.
- * @param len_F_L Length of first segment in low 16 bits; length of last
- * segment, if 2 segments, in high 16 bits.
- */
- #define __netio_fastio_sendv_pkt_1_2(fastio_index, flags, confno, csum0, \
- va_F, va_L, len_F_L) \
- __netio_fastio6((fastio_index) + NETIO_FASTIO_SENDV_PKT, flags, confno, \
- csum0, va_F, va_L, len_F_L)
- /** Send packet on PCIe interface.
- * @param fastio_index Fast I/O index.
- * @param flags Ack/csum/notify flags in low 3 bits.
- * @param confno Confirmation number to request, if notify flag set.
- * @param csum0 Checksum descriptor; Hard wired 0, not needed for PCIe.
- * @param va_F Virtual address of the packet buffer.
- * @param va_L Virtual address of last segment, if 2 segments. Hard wired 0.
- * @param len_F_L Length of the packet buffer in low 16 bits.
- */
- #define __netio_fastio_send_pcie_pkt(fastio_index, flags, confno, csum0, \
- va_F, va_L, len_F_L) \
- __netio_fastio6((fastio_index) + PCIE_FASTIO_SENDV_PKT, flags, confno, \
- csum0, va_F, va_L, len_F_L)
- /** Sendv packet with 3 or 4 segments.
- * @param fastio_index Fast I/O index.
- * @param flags Ack/csum/notify flags in low 3 bits; number of segments minus
- * 1 in next 2 bits; expected checksum in high 16 bits.
- * @param confno Confirmation number to request, if notify flag set.
- * @param csum0 Checksum descriptor; if zero, no checksum.
- * @param va_F Virtual address of first segment.
- * @param va_L Virtual address of last segment (third segment if 3 segments,
- * fourth segment if 4 segments).
- * @param len_F_L Length of first segment in low 16 bits; length of last
- * segment in high 16 bits.
- * @param va_M0 Virtual address of "middle 0" segment; this segment is sent
- * second when there are three segments, and third if there are four.
- * @param va_M1 Virtual address of "middle 1" segment; this segment is sent
- * second when there are four segments.
- * @param len_M0_M1 Length of middle 0 segment in low 16 bits; length of middle
- * 1 segment, if 4 segments, in high 16 bits.
- */
- #define __netio_fastio_sendv_pkt_3_4(fastio_index, flags, confno, csum0, va_F, \
- va_L, len_F_L, va_M0, va_M1, len_M0_M1) \
- __netio_fastio9((fastio_index) + NETIO_FASTIO_SENDV_PKT, flags, confno, \
- csum0, va_F, va_L, len_F_L, va_M0, va_M1, len_M0_M1)
- /** Send vector of packets.
- * @param fastio_index Fast I/O index.
- * @param seqno Number of packets transmitted so far on this interface;
- * used to decide which packets should be acknowledged.
- * @param nentries Number of entries in vector.
- * @param va Virtual address of start of vector entry array.
- * @return 3-word netio_fastio_rv3_t structure. The structure's err member
- * is an error code, or zero if no error. The val0 member is the
- * updated value of seqno; it has been incremented by 1 for each
- * packet sent. That increment may be less than nentries if an
- * error occurred, or if some of the entries in the vector contain
- * handles equal to NETIO_PKT_HANDLE_NONE. The val1 member is the
- * updated value of nentries; it has been decremented by 1 for each
- * vector entry processed. Again, that decrement may be less than
- * nentries (leaving the returned value positive) if an error
- * occurred.
- */
- #define __netio_fastio_send_pkt_vec(fastio_index, seqno, nentries, va) \
- __netio_fastio3_rv3((fastio_index) + NETIO_FASTIO_SEND_PKT_VEC, seqno, \
- nentries, va)
- /** An egress DMA command for LEPP. */
- typedef struct
- {
- /** Is this a TSO transfer?
- *
- * NOTE: This field is always 0, to distinguish it from
- * lepp_tso_cmd_t. It must come first!
- */
- uint8_t tso : 1;
- /** Unused padding bits. */
- uint8_t _unused : 3;
- /** Should this packet be sent directly from caches instead of DRAM,
- * using hash-for-home to locate the packet data?
- */
- uint8_t hash_for_home : 1;
- /** Should we compute a checksum? */
- uint8_t compute_checksum : 1;
- /** Is this the final buffer for this packet?
- *
- * A single packet can be split over several input buffers (a "gather"
- * operation). This flag indicates that this is the last buffer
- * in a packet.
- */
- uint8_t end_of_packet : 1;
- /** Should LEPP advance 'comp_busy' when this DMA is fully finished? */
- uint8_t send_completion : 1;
- /** High bits of Client Physical Address of the start of the buffer
- * to be egressed.
- *
- * NOTE: Only 6 bits are actually needed here, as CPAs are
- * currently 38 bits. So two bits could be scavenged from this.
- */
- uint8_t cpa_hi;
- /** The number of bytes to be egressed. */
- uint16_t length;
- /** Low 32 bits of Client Physical Address of the start of the buffer
- * to be egressed.
- */
- uint32_t cpa_lo;
- /** Checksum information (only used if 'compute_checksum'). */
- __netio_checksum_header_t checksum_data;
- } lepp_cmd_t;
- /** A chunk of physical memory for a TSO egress. */
- typedef struct
- {
- /** The low bits of the CPA. */
- uint32_t cpa_lo;
- /** The high bits of the CPA. */
- uint16_t cpa_hi : 15;
- /** Should this packet be sent directly from caches instead of DRAM,
- * using hash-for-home to locate the packet data?
- */
- uint16_t hash_for_home : 1;
- /** The length in bytes. */
- uint16_t length;
- } lepp_frag_t;
- /** An LEPP command that handles TSO. */
- typedef struct
- {
- /** Is this a TSO transfer?
- *
- * NOTE: This field is always 1, to distinguish it from
- * lepp_cmd_t. It must come first!
- */
- uint8_t tso : 1;
- /** Unused padding bits. */
- uint8_t _unused : 7;
- /** Size of the header[] array in bytes. It must be in the range
- * [40, 127], which are the smallest header for a TCP packet over
- * Ethernet and the maximum possible prepend size supported by
- * hardware, respectively. Note that the array storage must be
- * padded out to a multiple of four bytes so that the following
- * LEPP command is aligned properly.
- */
- uint8_t header_size;
- /** Byte offset of the IP header in header[]. */
- uint8_t ip_offset;
- /** Byte offset of the TCP header in header[]. */
- uint8_t tcp_offset;
- /** The number of bytes to use for the payload of each packet,
- * except of course the last one, which may not have enough bytes.
- * This means that each Ethernet packet except the last will have a
- * size of header_size + payload_size.
- */
- uint16_t payload_size;
- /** The length of the 'frags' array that follows this struct. */
- uint16_t num_frags;
- /** The actual frags. */
- lepp_frag_t frags[0 /* Variable-sized; num_frags entries. */];
- /*
- * The packet header template logically follows frags[],
- * but you can't declare that in C.
- *
- * uint32_t header[header_size_in_words_rounded_up];
- */
- } lepp_tso_cmd_t;
- /** An LEPP completion ring entry. */
- typedef void* lepp_comp_t;
- /** Maximum number of frags for one TSO command. This is adapted from
- * linux's "MAX_SKB_FRAGS", and presumably over-estimates by one, for
- * our page size of exactly 65536. We add one for a "body" fragment.
- */
- #define LEPP_MAX_FRAGS (65536 / HV_DEFAULT_PAGE_SIZE_SMALL + 2 + 1)
- /** Total number of bytes needed for an lepp_tso_cmd_t. */
- #define LEPP_TSO_CMD_SIZE(num_frags, header_size) \
- (sizeof(lepp_tso_cmd_t) + \
- (num_frags) * sizeof(lepp_frag_t) + \
- (((header_size) + 3) & -4))
- /** The size of the lepp "cmd" queue. */
- #define LEPP_CMD_QUEUE_BYTES \
- (((CHIP_L2_CACHE_SIZE() - 2 * CHIP_L2_LINE_SIZE()) / \
- (sizeof(lepp_cmd_t) + sizeof(lepp_comp_t))) * sizeof(lepp_cmd_t))
- /** The largest possible command that can go in lepp_queue_t::cmds[]. */
- #define LEPP_MAX_CMD_SIZE LEPP_TSO_CMD_SIZE(LEPP_MAX_FRAGS, 128)
- /** The largest possible value of lepp_queue_t::cmd_{head, tail} (inclusive).
- */
- #define LEPP_CMD_LIMIT \
- (LEPP_CMD_QUEUE_BYTES - LEPP_MAX_CMD_SIZE)
- /** The maximum number of completions in an LEPP queue. */
- #define LEPP_COMP_QUEUE_SIZE \
- ((LEPP_CMD_LIMIT + sizeof(lepp_cmd_t) - 1) / sizeof(lepp_cmd_t))
- /** Increment an index modulo the queue size. */
- #define LEPP_QINC(var) \
- (var = __insn_mnz(var - (LEPP_COMP_QUEUE_SIZE - 1), var + 1))
- /** A queue used to convey egress commands from the client to LEPP. */
- typedef struct
- {
- /** Index of first completion not yet processed by user code.
- * If this is equal to comp_busy, there are no such completions.
- *
- * NOTE: This is only read/written by the user.
- */
- unsigned int comp_head;
- /** Index of first completion record not yet completed.
- * If this is equal to comp_tail, there are no such completions.
- * This index gets advanced (modulo LEPP_QUEUE_SIZE) whenever
- * a command with the 'completion' bit set is finished.
- *
- * NOTE: This is only written by LEPP, only read by the user.
- */
- volatile unsigned int comp_busy;
- /** Index of the first empty slot in the completion ring.
- * Entries from this up to but not including comp_head (in ring order)
- * can be filled in with completion data.
- *
- * NOTE: This is only read/written by the user.
- */
- unsigned int comp_tail;
- /** Byte index of first command enqueued for LEPP but not yet processed.
- *
- * This is always divisible by sizeof(void*) and always <= LEPP_CMD_LIMIT.
- *
- * NOTE: LEPP advances this counter as soon as it no longer needs
- * the cmds[] storage for this entry, but the transfer is not actually
- * complete (i.e. the buffer pointed to by the command is no longer
- * needed) until comp_busy advances.
- *
- * If this is equal to cmd_tail, the ring is empty.
- *
- * NOTE: This is only written by LEPP, only read by the user.
- */
- volatile unsigned int cmd_head;
- /** Byte index of first empty slot in the command ring. This field can
- * be incremented up to but not equal to cmd_head (because that would
- * mean the ring is empty).
- *
- * This is always divisible by sizeof(void*) and always <= LEPP_CMD_LIMIT.
- *
- * NOTE: This is read/written by the user, only read by LEPP.
- */
- volatile unsigned int cmd_tail;
- /** A ring of variable-sized egress DMA commands.
- *
- * NOTE: Only written by the user, only read by LEPP.
- */
- char cmds[LEPP_CMD_QUEUE_BYTES]
- __attribute__((aligned(CHIP_L2_LINE_SIZE())));
- /** A ring of user completion data.
- * NOTE: Only read/written by the user.
- */
- lepp_comp_t comps[LEPP_COMP_QUEUE_SIZE]
- __attribute__((aligned(CHIP_L2_LINE_SIZE())));
- } lepp_queue_t;
- /** An internal helper function for determining the number of entries
- * available in a ring buffer, given that there is one sentinel.
- */
- static inline unsigned int
- _lepp_num_free_slots(unsigned int head, unsigned int tail)
- {
- /*
- * One entry is reserved for use as a sentinel, to distinguish
- * "empty" from "full". So we compute
- * (head - tail - 1) % LEPP_QUEUE_SIZE, but without using a slow % operation.
- */
- return (head - tail - 1) + ((head <= tail) ? LEPP_COMP_QUEUE_SIZE : 0);
- }
- /** Returns how many new comp entries can be enqueued. */
- static inline unsigned int
- lepp_num_free_comp_slots(const lepp_queue_t* q)
- {
- return _lepp_num_free_slots(q->comp_head, q->comp_tail);
- }
- static inline int
- lepp_qsub(int v1, int v2)
- {
- int delta = v1 - v2;
- return delta + ((delta >> 31) & LEPP_COMP_QUEUE_SIZE);
- }
- /** FIXME: Check this from linux, via a new "pwrite()" call. */
- #define LIPP_VERSION 1
- /** We use exactly two bytes of alignment padding. */
- #define LIPP_PACKET_PADDING 2
- /** The minimum size of a "small" buffer (including the padding). */
- #define LIPP_SMALL_PACKET_SIZE 128
- /*
- * NOTE: The following two values should total to less than around
- * 13582, to keep the total size used for "lipp_state_t" below 64K.
- */
- /** The maximum number of "small" buffers.
- * This is enough for 53 network cpus with 128 credits. Note that
- * if these are exhausted, we will fall back to using large buffers.
- */
- #define LIPP_SMALL_BUFFERS 6785
- /** The maximum number of "large" buffers.
- * This is enough for 53 network cpus with 128 credits.
- */
- #define LIPP_LARGE_BUFFERS 6785
- #endif /* __DRV_XGBE_INTF_H__ */
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