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Release 4.11 drivers/net/ethernet/sfc/io.h

/****************************************************************************
 * Driver for Solarflare network controllers and boards
 * Copyright 2005-2006 Fen Systems Ltd.
 * Copyright 2006-2013 Solarflare Communications Inc.
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 as published
 * by the Free Software Foundation, incorporated herein by reference.
 */

#ifndef EFX_IO_H

#define EFX_IO_H

#include <linux/io.h>
#include <linux/spinlock.h>

/**************************************************************************
 *
 * NIC register I/O
 *
 **************************************************************************
 *
 * Notes on locking strategy for the Falcon architecture:
 *
 * Many CSRs are very wide and cannot be read or written atomically.
 * Writes from the host are buffered by the Bus Interface Unit (BIU)
 * up to 128 bits.  Whenever the host writes part of such a register,
 * the BIU collects the written value and does not write to the
 * underlying register until all 4 dwords have been written.  A
 * similar buffering scheme applies to host access to the NIC's 64-bit
 * SRAM.
 *
 * Writes to different CSRs and 64-bit SRAM words must be serialised,
 * since interleaved access can result in lost writes.  We use
 * efx_nic::biu_lock for this.
 *
 * We also serialise reads from 128-bit CSRs and SRAM with the same
 * spinlock.  This may not be necessary, but it doesn't really matter
 * as there are no such reads on the fast path.
 *
 * The DMA descriptor pointers (RX_DESC_UPD and TX_DESC_UPD) are
 * 128-bit but are special-cased in the BIU to avoid the need for
 * locking in the host:
 *
 * - They are write-only.
 * - The semantics of writing to these registers are such that
 *   replacing the low 96 bits with zero does not affect functionality.
 * - If the host writes to the last dword address of such a register
 *   (i.e. the high 32 bits) the underlying register will always be
 *   written.  If the collector and the current write together do not
 *   provide values for all 128 bits of the register, the low 96 bits
 *   will be written as zero.
 * - If the host writes to the address of any other part of such a
 *   register while the collector already holds values for some other
 *   register, the write is discarded and the collector maintains its
 *   current state.
 *
 * The EF10 architecture exposes very few registers to the host and
 * most of them are only 32 bits wide.  The only exceptions are the MC
 * doorbell register pair, which has its own latching, and
 * TX_DESC_UPD, which works in a similar way to the Falcon
 * architecture.
 */

#if BITS_PER_LONG == 64

#define EFX_USE_QWORD_IO 1
#endif

/* Hardware issue requires that only 64-bit naturally aligned writes
 * are seen by hardware. Its not strictly necessary to restrict to
 * x86_64 arch, but done for safety since unusual write combining behaviour
 * can break PIO.
 */
#ifdef CONFIG_X86_64
/* PIO is a win only if write-combining is possible */
#ifdef ARCH_HAS_IOREMAP_WC

#define EFX_USE_PIO 1
#endif
#endif

#ifdef EFX_USE_QWORD_IO

static inline void _efx_writeq(struct efx_nic *efx, __le64 value, unsigned int reg) { __raw_writeq((__force u64)value, efx->membase + reg); }

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static inline __le64 _efx_readq(struct efx_nic *efx, unsigned int reg) { return (__force __le64)__raw_readq(efx->membase + reg); }

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#endif
static inline void _efx_writed(struct efx_nic *efx, __le32 value, unsigned int reg) { __raw_writel((__force u32)value, efx->membase + reg); }

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static inline __le32 _efx_readd(struct efx_nic *efx, unsigned int reg) { return (__force __le32)__raw_readl(efx->membase + reg); }

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/* Write a normal 128-bit CSR, locking as appropriate. */
static inline void efx_writeo(struct efx_nic *efx, const efx_oword_t *value, unsigned int reg) { unsigned long flags __attribute__ ((unused)); netif_vdbg(efx, hw, efx->net_dev, "writing register %x with " EFX_OWORD_FMT "\n", reg, EFX_OWORD_VAL(*value)); spin_lock_irqsave(&efx->biu_lock, flags); #ifdef EFX_USE_QWORD_IO _efx_writeq(efx, value->u64[0], reg + 0); _efx_writeq(efx, value->u64[1], reg + 8); #else _efx_writed(efx, value->u32[0], reg + 0); _efx_writed(efx, value->u32[1], reg + 4); _efx_writed(efx, value->u32[2], reg + 8); _efx_writed(efx, value->u32[3], reg + 12); #endif mmiowb(); spin_unlock_irqrestore(&efx->biu_lock, flags); }

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/* Write 64-bit SRAM through the supplied mapping, locking as appropriate. */
static inline void efx_sram_writeq(struct efx_nic *efx, void __iomem *membase, const efx_qword_t *value, unsigned int index) { unsigned int addr = index * sizeof(*value); unsigned long flags __attribute__ ((unused)); netif_vdbg(efx, hw, efx->net_dev, "writing SRAM address %x with " EFX_QWORD_FMT "\n", addr, EFX_QWORD_VAL(*value)); spin_lock_irqsave(&efx->biu_lock, flags); #ifdef EFX_USE_QWORD_IO __raw_writeq((__force u64)value->u64[0], membase + addr); #else __raw_writel((__force u32)value->u32[0], membase + addr); __raw_writel((__force u32)value->u32[1], membase + addr + 4); #endif mmiowb(); spin_unlock_irqrestore(&efx->biu_lock, flags); }

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/* Write a 32-bit CSR or the last dword of a special 128-bit CSR */
static inline void efx_writed(struct efx_nic *efx, const efx_dword_t *value, unsigned int reg) { netif_vdbg(efx, hw, efx->net_dev, "writing register %x with "EFX_DWORD_FMT"\n", reg, EFX_DWORD_VAL(*value)); /* No lock required */ _efx_writed(efx, value->u32[0], reg); }

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/* Read a 128-bit CSR, locking as appropriate. */
static inline void efx_reado(struct efx_nic *efx, efx_oword_t *value, unsigned int reg) { unsigned long flags __attribute__ ((unused)); spin_lock_irqsave(&efx->biu_lock, flags); value->u32[0] = _efx_readd(efx, reg + 0); value->u32[1] = _efx_readd(efx, reg + 4); value->u32[2] = _efx_readd(efx, reg + 8); value->u32[3] = _efx_readd(efx, reg + 12); spin_unlock_irqrestore(&efx->biu_lock, flags); netif_vdbg(efx, hw, efx->net_dev, "read from register %x, got " EFX_OWORD_FMT "\n", reg, EFX_OWORD_VAL(*value)); }

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/* Read 64-bit SRAM through the supplied mapping, locking as appropriate. */
static inline void efx_sram_readq(struct efx_nic *efx, void __iomem *membase, efx_qword_t *value, unsigned int index) { unsigned int addr = index * sizeof(*value); unsigned long flags __attribute__ ((unused)); spin_lock_irqsave(&efx->biu_lock, flags); #ifdef EFX_USE_QWORD_IO value->u64[0] = (__force __le64)__raw_readq(membase + addr); #else value->u32[0] = (__force __le32)__raw_readl(membase + addr); value->u32[1] = (__force __le32)__raw_readl(membase + addr + 4); #endif spin_unlock_irqrestore(&efx->biu_lock, flags); netif_vdbg(efx, hw, efx->net_dev, "read from SRAM address %x, got "EFX_QWORD_FMT"\n", addr, EFX_QWORD_VAL(*value)); }

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/* Read a 32-bit CSR or SRAM */
static inline void efx_readd(struct efx_nic *efx, efx_dword_t *value, unsigned int reg) { value->u32[0] = _efx_readd(efx, reg); netif_vdbg(efx, hw, efx->net_dev, "read from register %x, got "EFX_DWORD_FMT"\n", reg, EFX_DWORD_VAL(*value)); }

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/* Write a 128-bit CSR forming part of a table */
static inline void efx_writeo_table(struct efx_nic *efx, const efx_oword_t *value, unsigned int reg, unsigned int index) { efx_writeo(efx, value, reg + index * sizeof(efx_oword_t)); }

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/* Read a 128-bit CSR forming part of a table */
static inline void efx_reado_table(struct efx_nic *efx, efx_oword_t *value, unsigned int reg, unsigned int index) { efx_reado(efx, value, reg + index * sizeof(efx_oword_t)); }

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/* Page size used as step between per-VI registers */ #define EFX_VI_PAGE_SIZE 0x2000 /* Calculate offset to page-mapped register */ #define EFX_PAGED_REG(page, reg) \ ((page) * EFX_VI_PAGE_SIZE + (reg)) /* Write the whole of RX_DESC_UPD or TX_DESC_UPD */
static inline void _efx_writeo_page(struct efx_nic *efx, efx_oword_t *value, unsigned int reg, unsigned int page) { reg = EFX_PAGED_REG(page, reg); netif_vdbg(efx, hw, efx->net_dev, "writing register %x with " EFX_OWORD_FMT "\n", reg, EFX_OWORD_VAL(*value)); #ifdef EFX_USE_QWORD_IO _efx_writeq(efx, value->u64[0], reg + 0); _efx_writeq(efx, value->u64[1], reg + 8); #else _efx_writed(efx, value->u32[0], reg + 0); _efx_writed(efx, value->u32[1], reg + 4); _efx_writed(efx, value->u32[2], reg + 8); _efx_writed(efx, value->u32[3], reg + 12); #endif }

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#define efx_writeo_page(efx, value, reg, page) \ _efx_writeo_page(efx, value, \ reg + \ BUILD_BUG_ON_ZERO((reg) != 0x830 && (reg) != 0xa10), \ page) /* Write a page-mapped 32-bit CSR (EVQ_RPTR, EVQ_TMR (EF10), or the * high bits of RX_DESC_UPD or TX_DESC_UPD) */
static inline void _efx_writed_page(struct efx_nic *efx, const efx_dword_t *value, unsigned int reg, unsigned int page) { efx_writed(efx, value, EFX_PAGED_REG(page, reg)); }

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#define efx_writed_page(efx, value, reg, page) \ _efx_writed_page(efx, value, \ reg + \ BUILD_BUG_ON_ZERO((reg) != 0x400 && \ (reg) != 0x420 && \ (reg) != 0x830 && \ (reg) != 0x83c && \ (reg) != 0xa18 && \ (reg) != 0xa1c), \ page) /* Write TIMER_COMMAND. This is a page-mapped 32-bit CSR, but a bug * in the BIU means that writes to TIMER_COMMAND[0] invalidate the * collector register. */
static inline void _efx_writed_page_locked(struct efx_nic *efx, const efx_dword_t *value, unsigned int reg, unsigned int page) { unsigned long flags __attribute__ ((unused)); if (page == 0) { spin_lock_irqsave(&efx->biu_lock, flags); efx_writed(efx, value, EFX_PAGED_REG(page, reg)); spin_unlock_irqrestore(&efx->biu_lock, flags); } else { efx_writed(efx, value, EFX_PAGED_REG(page, reg)); } }

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#define efx_writed_page_locked(efx, value, reg, page) \ _efx_writed_page_locked(efx, value, \ reg + BUILD_BUG_ON_ZERO((reg) != 0x420), \ page) #endif /* EFX_IO_H */

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