/* * Copyright(c) 2015, 2016 Intel Corporation. * * This file is provided under a dual BSD/GPLv2 license. When using or * redistributing this file, you may do so under either license. * * GPL LICENSE SUMMARY * * This program is free software; you can redistribute it and/or modify * it under the terms of version 2 of the GNU General Public License as * published by the Free Software Foundation. * * 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. See the GNU * General Public License for more details. * * BSD LICENSE * * 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 Intel Corporation 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 IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ #include "hfi.h" /* additive distance between non-SOP and SOP space */ #define SOP_DISTANCE (TXE_PIO_SIZE / 2) #define PIO_BLOCK_MASK (PIO_BLOCK_SIZE - 1) /* number of QUADWORDs in a block */ #define PIO_BLOCK_QWS (PIO_BLOCK_SIZE / sizeof(u64)) /** * pio_copy - copy data block to MMIO space * @pbuf: a number of blocks allocated within a PIO send context * @pbc: PBC to send * @from: source, must be 8 byte aligned * @count: number of DWORD (32-bit) quantities to copy from source * * Copy data from source to PIO Send Buffer memory, 8 bytes at a time. * Must always write full BLOCK_SIZE bytes blocks. The first block must * be written to the corresponding SOP=1 address. * * Known: * o pbuf->start always starts on a block boundary * o pbuf can wrap only at a block boundary */ void pio_copy(struct hfi1_devdata *dd, struct pio_buf *pbuf, u64 pbc, const void *from, size_t count) { void __iomem *dest = pbuf->start + SOP_DISTANCE; void __iomem *send = dest + PIO_BLOCK_SIZE; void __iomem *dend; /* 8-byte data end */ /* write the PBC */ writeq(pbc, dest); dest += sizeof(u64); /* calculate where the QWORD data ends - in SOP=1 space */ dend = dest + ((count >> 1) * sizeof(u64)); if (dend < send) { /* * all QWORD data is within the SOP block, does *not* * reach the end of the SOP block */ while (dest < dend) { writeq(*(u64 *)from, dest); from += sizeof(u64); dest += sizeof(u64); } /* * No boundary checks are needed here: * 0. We're not on the SOP block boundary * 1. The possible DWORD dangle will still be within * the SOP block * 2. We cannot wrap except on a block boundary. */ } else { /* QWORD data extends _to_ or beyond the SOP block */ /* write 8-byte SOP chunk data */ while (dest < send) { writeq(*(u64 *)from, dest); from += sizeof(u64); dest += sizeof(u64); } /* drop out of the SOP range */ dest -= SOP_DISTANCE; dend -= SOP_DISTANCE; /* * If the wrap comes before or matches the data end, * copy until until the wrap, then wrap. * * If the data ends at the end of the SOP above and * the buffer wraps, then pbuf->end == dend == dest * and nothing will get written, but we will wrap in * case there is a dangling DWORD. */ if (pbuf->end <= dend) { while (dest < pbuf->end) { writeq(*(u64 *)from, dest); from += sizeof(u64); dest += sizeof(u64); } dest -= pbuf->sc->size; dend -= pbuf->sc->size; } /* write 8-byte non-SOP, non-wrap chunk data */ while (dest < dend) { writeq(*(u64 *)from, dest); from += sizeof(u64); dest += sizeof(u64); } } /* at this point we have wrapped if we are going to wrap */ /* write dangling u32, if any */ if (count & 1) { union mix val; val.val64 = 0; val.val32[0] = *(u32 *)from; writeq(val.val64, dest); dest += sizeof(u64); } /* * fill in rest of block, no need to check pbuf->end * as we only wrap on a block boundary */ while (((unsigned long)dest & PIO_BLOCK_MASK) != 0) { writeq(0, dest); dest += sizeof(u64); } /* finished with this buffer */ this_cpu_dec(*pbuf->sc->buffers_allocated); preempt_enable(); } /* * Handle carry bytes using shifts and masks. * * NOTE: the value the unused portion of carry is expected to always be zero. */ /* * "zero" shift - bit shift used to zero out upper bytes. Input is * the count of LSB bytes to preserve. */ #define zshift(x) (8 * (8 - (x))) /* * "merge" shift - bit shift used to merge with carry bytes. Input is * the LSB byte count to move beyond. */ #define mshift(x) (8 * (x)) /* * Jump copy - no-loop copy for < 8 bytes. */ static inline void jcopy(u8 *dest, const u8 *src, u32 n) { switch (n) { case 7: *dest++ = *src++; /* fall through */ case 6: *dest++ = *src++; /* fall through */ case 5: *dest++ = *src++; /* fall through */ case 4: *dest++ = *src++; /* fall through */ case 3: *dest++ = *src++; /* fall through */ case 2: *dest++ = *src++; /* fall through */ case 1: *dest++ = *src++; /* fall through */ } } /* * Read nbytes from "from" and and place them in the low bytes * of pbuf->carry. Other bytes are left as-is. Any previous * value in pbuf->carry is lost. * * NOTES: * o do not read from from if nbytes is zero * o from may _not_ be u64 aligned. */ static inline void read_low_bytes(struct pio_buf *pbuf, const void *from, unsigned int nbytes) { pbuf->carry.val64 = 0; jcopy(&pbuf->carry.val8[0], from, nbytes); pbuf->carry_bytes = nbytes; } /* * Read nbytes bytes from "from" and put them at the end of pbuf->carry. * It is expected that the extra read does not overfill carry. * * NOTES: * o from may _not_ be u64 aligned * o nbytes may span a QW boundary */ static inline void read_extra_bytes(struct pio_buf *pbuf, const void *from, unsigned int nbytes) { jcopy(&pbuf->carry.val8[pbuf->carry_bytes], from, nbytes); pbuf->carry_bytes += nbytes; } /* * Write a quad word using parts of pbuf->carry and the next 8 bytes of src. * Put the unused part of the next 8 bytes of src into the LSB bytes of * pbuf->carry with the upper bytes zeroed.. * * NOTES: * o result must keep unused bytes zeroed * o src must be u64 aligned */ static inline void merge_write8( struct pio_buf *pbuf, void __iomem *dest, const void *src) { u64 new, temp; new = *(u64 *)src; temp = pbuf->carry.val64 | (new << mshift(pbuf->carry_bytes)); writeq(temp, dest); pbuf->carry.val64 = new >> zshift(pbuf->carry_bytes); } /* * Write a quad word using all bytes of carry. */ static inline void carry8_write8(union mix carry, void __iomem *dest) { writeq(carry.val64, dest); } /* * Write a quad word using all the valid bytes of carry. If carry * has zero valid bytes, nothing is written. * Returns 0 on nothing written, non-zero on quad word written. */ static inline int carry_write8(struct pio_buf *pbuf, void __iomem *dest) { if (pbuf->carry_bytes) { /* unused bytes are always kept zeroed, so just write */ writeq(pbuf->carry.val64, dest); return 1; } return 0; } /* * Segmented PIO Copy - start * * Start a PIO copy. * * @pbuf: destination buffer * @pbc: the PBC for the PIO buffer * @from: data source, QWORD aligned * @nbytes: bytes to copy */ void seg_pio_copy_start(struct pio_buf *pbuf, u64 pbc, const void *from, size_t nbytes) { void __iomem *dest = pbuf->start + SOP_DISTANCE; void __iomem *send = dest + PIO_BLOCK_SIZE; void __iomem *dend; /* 8-byte data end */ writeq(pbc, dest); dest += sizeof(u64); /* calculate where the QWORD data ends - in SOP=1 space */ dend = dest + ((nbytes >> 3) * sizeof(u64)); if (dend < send) { /* * all QWORD data is within the SOP block, does *not* * reach the end of the SOP block */ while (dest < dend) { writeq(*(u64 *)from, dest); from += sizeof(u64); dest += sizeof(u64); } /* * No boundary checks are needed here: * 0. We're not on the SOP block boundary * 1. The possible DWORD dangle will still be within * the SOP block * 2. We cannot wrap except on a block boundary. */ } else { /* QWORD data extends _to_ or beyond the SOP block */ /* write 8-byte SOP chunk data */ while (dest < send) { writeq(*(u64 *)from, dest); from += sizeof(u64); dest += sizeof(u64); } /* drop out of the SOP range */ dest -= SOP_DISTANCE; dend -= SOP_DISTANCE; /* * If the wrap comes before or matches the data end, * copy until until the wrap, then wrap. * * If the data ends at the end of the SOP above and * the buffer wraps, then pbuf->end == dend == dest * and nothing will get written, but we will wrap in * case there is a dangling DWORD. */ if (pbuf->end <= dend) { while (dest < pbuf->end) { writeq(*(u64 *)from, dest); from += sizeof(u64); dest += sizeof(u64); } dest -= pbuf->sc->size; dend -= pbuf->sc->size; } /* write 8-byte non-SOP, non-wrap chunk data */ while (dest < dend) { writeq(*(u64 *)from, dest); from += sizeof(u64); dest += sizeof(u64); } } /* at this point we have wrapped if we are going to wrap */ /* ...but it doesn't matter as we're done writing */ /* save dangling bytes, if any */ read_low_bytes(pbuf, from, nbytes & 0x7); pbuf->qw_written = 1 /*PBC*/ + (nbytes >> 3); } /* * Mid copy helper, "mixed case" - source is 64-bit aligned but carry * bytes are non-zero. * * Whole u64s must be written to the chip, so bytes must be manually merged. * * @pbuf: destination buffer * @from: data source, is QWORD aligned. * @nbytes: bytes to copy * * Must handle nbytes < 8. */ static void mid_copy_mix(struct pio_buf *pbuf, const void *from, size_t nbytes) { void __iomem *dest = pbuf->start + (pbuf->qw_written * sizeof(u64)); void __iomem *dend; /* 8-byte data end */ unsigned long qw_to_write = nbytes >> 3; unsigned long bytes_left = nbytes & 0x7; /* calculate 8-byte data end */ dend = dest + (qw_to_write * sizeof(u64)); if (pbuf->qw_written < PIO_BLOCK_QWS) { /* * Still within SOP block. We don't need to check for * wrap because we are still in the first block and * can only wrap on block boundaries. */ void __iomem *send; /* SOP end */ void __iomem *xend; /* * calculate the end of data or end of block, whichever * comes first */ send = pbuf->start + PIO_BLOCK_SIZE; xend = min(send, dend); /* shift up to SOP=1 space */ dest += SOP_DISTANCE; xend += SOP_DISTANCE; /* write 8-byte chunk data */ while (dest < xend) { merge_write8(pbuf, dest, from); from += sizeof(u64); dest += sizeof(u64); } /* shift down to SOP=0 space */ dest -= SOP_DISTANCE; } /* * At this point dest could be (either, both, or neither): * - at dend * - at the wrap */ /* * If the wrap comes before or matches the data end, * copy until until the wrap, then wrap. * * If dest is at the wrap, we will fall into the if, * not do the loop, when wrap. * * If the data ends at the end of the SOP above and * the buffer wraps, then pbuf->end == dend == dest * and nothing will get written. */ if (pbuf->end <= dend) { while (dest < pbuf->end) { merge_write8(pbuf, dest, from); from += sizeof(u64); dest += sizeof(u64); } dest -= pbuf->sc->size; dend -= pbuf->sc->size; } /* write 8-byte non-SOP, non-wrap chunk data */ while (dest < dend) { merge_write8(pbuf, dest, from); from += sizeof(u64); dest += sizeof(u64); } pbuf->qw_written += qw_to_write; /* handle carry and left-over bytes */ if (pbuf->carry_bytes + bytes_left >= 8) { unsigned long nread; /* there is enough to fill another qw - fill carry */ nread = 8 - pbuf->carry_bytes; read_extra_bytes(pbuf, from, nread); /* * One more write - but need to make sure dest is correct. * Check for wrap and the possibility the write * should be in SOP space. * * The two checks immediately below cannot both be true, hence * the else. If we have wrapped, we cannot still be within the * first block. Conversely, if we are still in the first block, * we cannot have wrapped. We do the wrap check first as that * is more likely. */ /* adjust if we have wrapped */ if (dest >= pbuf->end) dest -= pbuf->sc->size; /* jump to the SOP range if within the first block */ else if (pbuf->qw_written < PIO_BLOCK_QWS) dest += SOP_DISTANCE; /* flush out full carry */ carry8_write8(pbuf->carry, dest); pbuf->qw_written++; /* now adjust and read the rest of the bytes into carry */ bytes_left -= nread; from += nread; /* from is now not aligned */ read_low_bytes(pbuf, from, bytes_left); } else { /* not enough to fill another qw, append the rest to carry */ read_extra_bytes(pbuf, from, bytes_left); } } /* * Mid copy helper, "straight case" - source pointer is 64-bit aligned * with no carry bytes. * * @pbuf: destination buffer * @from: data source, is QWORD aligned * @nbytes: bytes to copy * * Must handle nbytes < 8. */ static void mid_copy_straight(struct pio_buf *pbuf, const void *from, size_t nbytes) { void __iomem *dest = pbuf->start + (pbuf->qw_written * sizeof(u64)); void __iomem *dend; /* 8-byte data end */ /* calculate 8-byte data end */ dend = dest + ((nbytes >> 3) * sizeof(u64)); if (pbuf->qw_written < PIO_BLOCK_QWS) { /* * Still within SOP block. We don't need to check for * wrap because we are still in the first block and * can only wrap on block boundaries. */ void __iomem *send; /* SOP end */ void __iomem *xend; /* * calculate the end of data or end of block, whichever * comes first */ send = pbuf->start + PIO_BLOCK_SIZE; xend = min(send, dend); /* shift up to SOP=1 space */ dest += SOP_DISTANCE; xend += SOP_DISTANCE; /* write 8-byte chunk data */ while (dest < xend) { writeq(*(u64 *)from, dest); from += sizeof(u64); dest += sizeof(u64); } /* shift down to SOP=0 space */ dest -= SOP_DISTANCE; } /* * At this point dest could be (either, both, or neither): * - at dend * - at the wrap */ /* * If the wrap comes before or matches the data end, * copy until until the wrap, then wrap. * * If dest is at the wrap, we will fall into the if, * not do the loop, when wrap. * * If the data ends at the end of the SOP above and * the buffer wraps, then pbuf->end == dend == dest * and nothing will get written. */ if (pbuf->end <= dend) { while (dest < pbuf->end) { writeq(*(u64 *)from, dest); from += sizeof(u64); dest += sizeof(u64); } dest -= pbuf->sc->size; dend -= pbuf->sc->size; } /* write 8-byte non-SOP, non-wrap chunk data */ while (dest < dend) { writeq(*(u64 *)from, dest); from += sizeof(u64); dest += sizeof(u64); } /* we know carry_bytes was zero on entry to this routine */ read_low_bytes(pbuf, from, nbytes & 0x7); pbuf->qw_written += nbytes >> 3; } /* * Segmented PIO Copy - middle * * Must handle any aligned tail and any aligned source with any byte count. * * @pbuf: a number of blocks allocated within a PIO send context * @from: data source * @nbytes: number of bytes to copy */ void seg_pio_copy_mid(struct pio_buf *pbuf, const void *from, size_t nbytes) { unsigned long from_align = (unsigned long)from & 0x7; if (pbuf->carry_bytes + nbytes < 8) { /* not enough bytes to fill a QW */ read_extra_bytes(pbuf, from, nbytes); return; } if (from_align) { /* misaligned source pointer - align it */ unsigned long to_align; /* bytes to read to align "from" */ to_align = 8 - from_align; /* * In the advance-to-alignment logic below, we do not need * to check if we are using more than nbytes. This is because * if we are here, we already know that carry+nbytes will * fill at least one QW. */ if (pbuf->carry_bytes + to_align < 8) { /* not enough align bytes to fill a QW */ read_extra_bytes(pbuf, from, to_align); from += to_align; nbytes -= to_align; } else { /* bytes to fill carry */ unsigned long to_fill = 8 - pbuf->carry_bytes; /* bytes left over to be read */ unsigned long extra = to_align - to_fill; void __iomem *dest; /* fill carry... */ read_extra_bytes(pbuf, from, to_fill); from += to_fill; nbytes -= to_fill; /* may not be enough valid bytes left to align */ if (extra > nbytes) extra = nbytes; /* ...now write carry */ dest = pbuf->start + (pbuf->qw_written * sizeof(u64)); /* * The two checks immediately below cannot both be * true, hence the else. If we have wrapped, we * cannot still be within the first block. * Conversely, if we are still in the first block, we * cannot have wrapped. We do the wrap check first * as that is more likely. */ /* adjust if we've wrapped */ if (dest >= pbuf->end) dest -= pbuf->sc->size; /* jump to SOP range if within the first block */ else if (pbuf->qw_written < PIO_BLOCK_QWS) dest += SOP_DISTANCE; carry8_write8(pbuf->carry, dest); pbuf->qw_written++; /* read any extra bytes to do final alignment */ /* this will overwrite anything in pbuf->carry */ read_low_bytes(pbuf, from, extra); from += extra; nbytes -= extra; /* * If no bytes are left, return early - we are done. * NOTE: This short-circuit is *required* because * "extra" may have been reduced in size and "from" * is not aligned, as required when leaving this * if block. */ if (nbytes == 0) return; } /* at this point, from is QW aligned */ } if (pbuf->carry_bytes) mid_copy_mix(pbuf, from, nbytes); else mid_copy_straight(pbuf, from, nbytes); } /* * Segmented PIO Copy - end * * Write any remainder (in pbuf->carry) and finish writing the whole block. * * @pbuf: a number of blocks allocated within a PIO send context */ void seg_pio_copy_end(struct pio_buf *pbuf) { void __iomem *dest = pbuf->start + (pbuf->qw_written * sizeof(u64)); /* * The two checks immediately below cannot both be true, hence the * else. If we have wrapped, we cannot still be within the first * block. Conversely, if we are still in the first block, we * cannot have wrapped. We do the wrap check first as that is * more likely. */ /* adjust if we have wrapped */ if (dest >= pbuf->end) dest -= pbuf->sc->size; /* jump to the SOP range if within the first block */ else if (pbuf->qw_written < PIO_BLOCK_QWS) dest += SOP_DISTANCE; /* write final bytes, if any */ if (carry_write8(pbuf, dest)) { dest += sizeof(u64); /* * NOTE: We do not need to recalculate whether dest needs * SOP_DISTANCE or not. * * If we are in the first block and the dangle write * keeps us in the same block, dest will need * to retain SOP_DISTANCE in the loop below. * * If we are in the first block and the dangle write pushes * us to the next block, then loop below will not run * and dest is not used. Hence we do not need to update * it. * * If we are past the first block, then SOP_DISTANCE * was never added, so there is nothing to do. */ } /* fill in rest of block */ while (((unsigned long)dest & PIO_BLOCK_MASK) != 0) { writeq(0, dest); dest += sizeof(u64); } /* finished with this buffer */ this_cpu_dec(*pbuf->sc->buffers_allocated); preempt_enable(); }