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Release 4.11 drivers/net/ethernet/freescale/fman/fman_dtsec.c

/*
 * Copyright 2008-2015 Freescale Semiconductor Inc.
 *
 * 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 Freescale Semiconductor nor the
 *       names of its contributors may be used to endorse or promote products
 *       derived from this software without specific prior written permission.
 *
 *
 * ALTERNATIVELY, this software may be distributed under the terms of the
 * GNU General Public License ("GPL") as published by the Free Software
 * Foundation, either version 2 of that License or (at your option) any
 * later version.
 *
 * THIS SOFTWARE IS PROVIDED BY Freescale Semiconductor ``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 Freescale Semiconductor 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.
 */


#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt

#include "fman_dtsec.h"
#include "fman.h"

#include <linux/slab.h>
#include <linux/bitrev.h>
#include <linux/io.h>
#include <linux/delay.h>
#include <linux/phy.h>
#include <linux/crc32.h>
#include <linux/of_mdio.h>
#include <linux/mii.h>

/* TBI register addresses */

#define MII_TBICON		0x11

/* TBICON register bit fields */

#define TBICON_SOFT_RESET	0x8000	
/* Soft reset */

#define TBICON_DISABLE_RX_DIS	0x2000	
/* Disable receive disparity */

#define TBICON_DISABLE_TX_DIS	0x1000	
/* Disable transmit disparity */

#define TBICON_AN_SENSE		0x0100	
/* Auto-negotiation sense enable */

#define TBICON_CLK_SELECT	0x0020	
/* Clock select */

#define TBICON_MI_MODE		0x0010	
/* GMII mode (TBI if not set) */


#define TBIANA_SGMII		0x4001

#define TBIANA_1000X		0x01a0

/* Interrupt Mask Register (IMASK) */

#define DTSEC_IMASK_BREN	0x80000000

#define DTSEC_IMASK_RXCEN	0x40000000

#define DTSEC_IMASK_MSROEN	0x04000000

#define DTSEC_IMASK_GTSCEN	0x02000000

#define DTSEC_IMASK_BTEN	0x01000000

#define DTSEC_IMASK_TXCEN	0x00800000

#define DTSEC_IMASK_TXEEN	0x00400000

#define DTSEC_IMASK_LCEN	0x00040000

#define DTSEC_IMASK_CRLEN	0x00020000

#define DTSEC_IMASK_XFUNEN	0x00010000

#define DTSEC_IMASK_ABRTEN	0x00008000

#define DTSEC_IMASK_IFERREN	0x00004000

#define DTSEC_IMASK_MAGEN	0x00000800

#define DTSEC_IMASK_MMRDEN	0x00000400

#define DTSEC_IMASK_MMWREN	0x00000200

#define DTSEC_IMASK_GRSCEN	0x00000100

#define DTSEC_IMASK_TDPEEN	0x00000002

#define DTSEC_IMASK_RDPEEN	0x00000001


#define DTSEC_EVENTS_MASK		\
	 ((u32)(DTSEC_IMASK_BREN    |    \
                DTSEC_IMASK_RXCEN   |   \
                DTSEC_IMASK_BTEN    |   \
                DTSEC_IMASK_TXCEN   |   \
                DTSEC_IMASK_TXEEN   |   \
                DTSEC_IMASK_ABRTEN  |   \
                DTSEC_IMASK_LCEN    |   \
                DTSEC_IMASK_CRLEN   |   \
                DTSEC_IMASK_XFUNEN  |   \
                DTSEC_IMASK_IFERREN |   \
                DTSEC_IMASK_MAGEN   |   \
                DTSEC_IMASK_TDPEEN  |   \
                DTSEC_IMASK_RDPEEN))

/* dtsec timestamp event bits */

#define TMR_PEMASK_TSREEN	0x00010000

#define TMR_PEVENT_TSRE		0x00010000

/* Group address bit indication */

#define MAC_GROUP_ADDRESS	0x0000010000000000ULL

/* Defaults */

#define DEFAULT_HALFDUP_RETRANSMIT		0xf

#define DEFAULT_HALFDUP_COLL_WINDOW		0x37

#define DEFAULT_TX_PAUSE_TIME			0xf000

#define DEFAULT_RX_PREPEND			0

#define DEFAULT_PREAMBLE_LEN			7

#define DEFAULT_TX_PAUSE_TIME_EXTD		0

#define DEFAULT_NON_BACK_TO_BACK_IPG1		0x40

#define DEFAULT_NON_BACK_TO_BACK_IPG2		0x60

#define DEFAULT_MIN_IFG_ENFORCEMENT		0x50

#define DEFAULT_BACK_TO_BACK_IPG		0x60

#define DEFAULT_MAXIMUM_FRAME			0x600

/* register related defines (bits, field offsets..) */

#define DTSEC_ID2_INT_REDUCED_OFF	0x00010000


#define DTSEC_ECNTRL_GMIIM		0x00000040

#define DTSEC_ECNTRL_TBIM		0x00000020

#define DTSEC_ECNTRL_SGMIIM		0x00000002

#define DTSEC_ECNTRL_RPM		0x00000010

#define DTSEC_ECNTRL_R100M		0x00000008

#define DTSEC_ECNTRL_QSGMIIM		0x00000001


#define DTSEC_TCTRL_GTS			0x00000020


#define RCTRL_PAL_MASK			0x001f0000

#define RCTRL_PAL_SHIFT			16

#define RCTRL_GHTX			0x00000400

#define RCTRL_GRS			0x00000020

#define RCTRL_MPROM			0x00000008

#define RCTRL_RSF			0x00000004

#define RCTRL_UPROM			0x00000001


#define MACCFG1_SOFT_RESET		0x80000000

#define MACCFG1_RX_FLOW			0x00000020

#define MACCFG1_TX_FLOW			0x00000010

#define MACCFG1_TX_EN			0x00000001

#define MACCFG1_RX_EN			0x00000004


#define MACCFG2_NIBBLE_MODE		0x00000100

#define MACCFG2_BYTE_MODE		0x00000200

#define MACCFG2_PAD_CRC_EN		0x00000004

#define MACCFG2_FULL_DUPLEX		0x00000001

#define MACCFG2_PREAMBLE_LENGTH_MASK	0x0000f000

#define MACCFG2_PREAMBLE_LENGTH_SHIFT	12


#define IPGIFG_NON_BACK_TO_BACK_IPG_1_SHIFT	24

#define IPGIFG_NON_BACK_TO_BACK_IPG_2_SHIFT	16

#define IPGIFG_MIN_IFG_ENFORCEMENT_SHIFT	8


#define IPGIFG_NON_BACK_TO_BACK_IPG_1	0x7F000000

#define IPGIFG_NON_BACK_TO_BACK_IPG_2	0x007F0000

#define IPGIFG_MIN_IFG_ENFORCEMENT	0x0000FF00

#define IPGIFG_BACK_TO_BACK_IPG	0x0000007F


#define HAFDUP_EXCESS_DEFER			0x00010000

#define HAFDUP_COLLISION_WINDOW		0x000003ff

#define HAFDUP_RETRANSMISSION_MAX_SHIFT	12

#define HAFDUP_RETRANSMISSION_MAX		0x0000f000


#define NUM_OF_HASH_REGS	8	
/* Number of hash table registers */


#define PTV_PTE_MASK		0xffff0000

#define PTV_PT_MASK		0x0000ffff

#define PTV_PTE_SHIFT		16


#define MAX_PACKET_ALIGNMENT		31

#define MAX_INTER_PACKET_GAP		0x7f

#define MAX_RETRANSMISSION		0x0f

#define MAX_COLLISION_WINDOW		0x03ff

/* Hash table size (32 bits*8 regs) */

#define DTSEC_HASH_TABLE_SIZE		256
/* Extended Hash table size (32 bits*16 regs) */

#define EXTENDED_HASH_TABLE_SIZE	512

/* dTSEC Memory Map registers */

struct dtsec_regs {
	/* dTSEC General Control and Status Registers */
	
u32 tsec_id;		/* 0x000 ETSEC_ID register */
	
u32 tsec_id2;		/* 0x004 ETSEC_ID2 register */
	
u32 ievent;		/* 0x008 Interrupt event register */
	
u32 imask;		/* 0x00C Interrupt mask register */
	
u32 reserved0010[1];
	
u32 ecntrl;		/* 0x014 E control register */
	
u32 ptv;		/* 0x018 Pause time value register */
	
u32 tbipa;		/* 0x01C TBI PHY address register */
	
u32 tmr_ctrl;		/* 0x020 Time-stamp Control register */
	
u32 tmr_pevent;		/* 0x024 Time-stamp event register */
	
u32 tmr_pemask;		/* 0x028 Timer event mask register */
	
u32 reserved002c[5];
	
u32 tctrl;		/* 0x040 Transmit control register */
	
u32 reserved0044[3];
	
u32 rctrl;		/* 0x050 Receive control register */
	
u32 reserved0054[11];
	
u32 igaddr[8];		/* 0x080-0x09C Individual/group address */
	
u32 gaddr[8];		/* 0x0A0-0x0BC Group address registers 0-7 */
	
u32 reserved00c0[16];
	
u32 maccfg1;		/* 0x100 MAC configuration #1 */
	
u32 maccfg2;		/* 0x104 MAC configuration #2 */
	
u32 ipgifg;		/* 0x108 IPG/IFG */
	
u32 hafdup;		/* 0x10C Half-duplex */
	
u32 maxfrm;		/* 0x110 Maximum frame */
	
u32 reserved0114[10];
	
u32 ifstat;		/* 0x13C Interface status */
	
u32 macstnaddr1;	/* 0x140 Station Address,part 1 */
	
u32 macstnaddr2;	/* 0x144 Station Address,part 2 */
	struct {
		
u32 exact_match1;	/* octets 1-4 */
		
u32 exact_match2;	/* octets 5-6 */
	} 
macaddr[15];		/* 0x148-0x1BC mac exact match addresses 1-15 */
	
u32 reserved01c0[16];
	
u32 tr64;	/* 0x200 Tx and Rx 64 byte frame counter */
	
u32 tr127;	/* 0x204 Tx and Rx 65 to 127 byte frame counter */
	
u32 tr255;	/* 0x208 Tx and Rx 128 to 255 byte frame counter */
	
u32 tr511;	/* 0x20C Tx and Rx 256 to 511 byte frame counter */
	
u32 tr1k;	/* 0x210 Tx and Rx 512 to 1023 byte frame counter */
	
u32 trmax;	/* 0x214 Tx and Rx 1024 to 1518 byte frame counter */
	
u32 trmgv;
	/* 0x218 Tx and Rx 1519 to 1522 byte good VLAN frame count */
	
u32 rbyt;	/* 0x21C receive byte counter */
	
u32 rpkt;	/* 0x220 receive packet counter */
	
u32 rfcs;	/* 0x224 receive FCS error counter */
	
u32 rmca;	/* 0x228 RMCA Rx multicast packet counter */
	
u32 rbca;	/* 0x22C Rx broadcast packet counter */
	
u32 rxcf;	/* 0x230 Rx control frame packet counter */
	
u32 rxpf;	/* 0x234 Rx pause frame packet counter */
	
u32 rxuo;	/* 0x238 Rx unknown OP code counter */
	
u32 raln;	/* 0x23C Rx alignment error counter */
	
u32 rflr;	/* 0x240 Rx frame length error counter */
	
u32 rcde;	/* 0x244 Rx code error counter */
	
u32 rcse;	/* 0x248 Rx carrier sense error counter */
	
u32 rund;	/* 0x24C Rx undersize packet counter */
	
u32 rovr;	/* 0x250 Rx oversize packet counter */
	
u32 rfrg;	/* 0x254 Rx fragments counter */
	
u32 rjbr;	/* 0x258 Rx jabber counter */
	
u32 rdrp;	/* 0x25C Rx drop */
	
u32 tbyt;	/* 0x260 Tx byte counter */
	
u32 tpkt;	/* 0x264 Tx packet counter */
	
u32 tmca;	/* 0x268 Tx multicast packet counter */
	
u32 tbca;	/* 0x26C Tx broadcast packet counter */
	
u32 txpf;	/* 0x270 Tx pause control frame counter */
	
u32 tdfr;	/* 0x274 Tx deferral packet counter */
	
u32 tedf;	/* 0x278 Tx excessive deferral packet counter */
	
u32 tscl;	/* 0x27C Tx single collision packet counter */
	
u32 tmcl;	/* 0x280 Tx multiple collision packet counter */
	
u32 tlcl;	/* 0x284 Tx late collision packet counter */
	
u32 txcl;	/* 0x288 Tx excessive collision packet counter */
	
u32 tncl;	/* 0x28C Tx total collision counter */
	
u32 reserved0290[1];
	
u32 tdrp;	/* 0x294 Tx drop frame counter */
	
u32 tjbr;	/* 0x298 Tx jabber frame counter */
	
u32 tfcs;	/* 0x29C Tx FCS error counter */
	
u32 txcf;	/* 0x2A0 Tx control frame counter */
	
u32 tovr;	/* 0x2A4 Tx oversize frame counter */
	
u32 tund;	/* 0x2A8 Tx undersize frame counter */
	
u32 tfrg;	/* 0x2AC Tx fragments frame counter */
	
u32 car1;	/* 0x2B0 carry register one register* */
	
u32 car2;	/* 0x2B4 carry register two register* */
	
u32 cam1;	/* 0x2B8 carry register one mask register */
	
u32 cam2;	/* 0x2BC carry register two mask register */
	
u32 reserved02c0[848];
};

/* struct dtsec_cfg - dTSEC configuration
 * Transmit half-duplex flow control, under software control for 10/100-Mbps
 * half-duplex media. If set, back pressure is applied to media by raising
 * carrier.
 * halfdup_retransmit:
 * Number of retransmission attempts following a collision.
 * If this is exceeded dTSEC aborts transmission due to excessive collisions.
 * The standard specifies the attempt limit to be 15.
 * halfdup_coll_window:
 * The number of bytes of the frame during which collisions may occur.
 * The default value of 55 corresponds to the frame byte at the end of the
 * standard 512-bit slot time window. If collisions are detected after this
 * byte, the late collision event is asserted and transmission of current
 * frame is aborted.
 * tx_pad_crc:
 * Pad and append CRC. If set, the MAC pads all ransmitted short frames and
 * appends a CRC to every frame regardless of padding requirement.
 * tx_pause_time:
 * Transmit pause time value. This pause value is used as part of the pause
 * frame to be sent when a transmit pause frame is initiated.
 * If set to 0 this disables transmission of pause frames.
 * preamble_len:
 * Length, in bytes, of the preamble field preceding each Ethernet
 * start-of-frame delimiter byte. The default value of 0x7 should be used in
 * order to guarantee reliable operation with IEEE 802.3 compliant hardware.
 * rx_prepend:
 * Packet alignment padding length. The specified number of bytes (1-31)
 * of zero padding are inserted before the start of each received frame.
 * For Ethernet, where optional preamble extraction is enabled, the padding
 * appears before the preamble, otherwise the padding precedes the
 * layer 2 header.
 *
 * This structure contains basic dTSEC configuration and must be passed to
 * init() function. A default set of configuration values can be
 * obtained by calling set_dflts().
 */

struct dtsec_cfg {
	
u16 halfdup_retransmit;
	
u16 halfdup_coll_window;
	
bool tx_pad_crc;
	
u16 tx_pause_time;
	
bool ptp_tsu_en;
	
bool ptp_exception_en;
	
u32 preamble_len;
	
u32 rx_prepend;
	
u16 tx_pause_time_extd;
	
u16 maximum_frame;
	
u32 non_back_to_back_ipg1;
	
u32 non_back_to_back_ipg2;
	
u32 min_ifg_enforcement;
	
u32 back_to_back_ipg;
};


struct fman_mac {
	/* pointer to dTSEC memory mapped registers */
	
struct dtsec_regs __iomem *regs;
	/* MAC address of device */
	
u64 addr;
	/* Ethernet physical interface */
	
phy_interface_t phy_if;
	
u16 max_speed;
	
void *dev_id; /* device cookie used by the exception cbs */
	
fman_mac_exception_cb *exception_cb;
	
fman_mac_exception_cb *event_cb;
	/* Number of individual addresses in registers for this station */
	
u8 num_of_ind_addr_in_regs;
	/* pointer to driver's global address hash table */
	
struct eth_hash_t *multicast_addr_hash;
	/* pointer to driver's individual address hash table */
	
struct eth_hash_t *unicast_addr_hash;
	
u8 mac_id;
	
u32 exceptions;
	
bool ptp_tsu_enabled;
	
bool en_tsu_err_exception;
	
struct dtsec_cfg *dtsec_drv_param;
	
void *fm;
	
struct fman_rev_info fm_rev_info;
	
bool basex_if;
	
struct phy_device *tbiphy;
};


static void set_dflts(struct dtsec_cfg *cfg) { cfg->halfdup_retransmit = DEFAULT_HALFDUP_RETRANSMIT; cfg->halfdup_coll_window = DEFAULT_HALFDUP_COLL_WINDOW; cfg->tx_pad_crc = true; cfg->tx_pause_time = DEFAULT_TX_PAUSE_TIME; /* PHY address 0 is reserved (DPAA RM) */ cfg->rx_prepend = DEFAULT_RX_PREPEND; cfg->ptp_tsu_en = true; cfg->ptp_exception_en = true; cfg->preamble_len = DEFAULT_PREAMBLE_LEN; cfg->tx_pause_time_extd = DEFAULT_TX_PAUSE_TIME_EXTD; cfg->non_back_to_back_ipg1 = DEFAULT_NON_BACK_TO_BACK_IPG1; cfg->non_back_to_back_ipg2 = DEFAULT_NON_BACK_TO_BACK_IPG2; cfg->min_ifg_enforcement = DEFAULT_MIN_IFG_ENFORCEMENT; cfg->back_to_back_ipg = DEFAULT_BACK_TO_BACK_IPG; cfg->maximum_frame = DEFAULT_MAXIMUM_FRAME; }

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static int init(struct dtsec_regs __iomem *regs, struct dtsec_cfg *cfg, phy_interface_t iface, u16 iface_speed, u8 *macaddr, u32 exception_mask, u8 tbi_addr) { bool is_rgmii, is_sgmii, is_qsgmii; int i; u32 tmp; /* Soft reset */ iowrite32be(MACCFG1_SOFT_RESET, &regs->maccfg1); iowrite32be(0, &regs->maccfg1); /* dtsec_id2 */ tmp = ioread32be(&regs->tsec_id2); /* check RGMII support */ if (iface == PHY_INTERFACE_MODE_RGMII || iface == PHY_INTERFACE_MODE_RMII) if (tmp & DTSEC_ID2_INT_REDUCED_OFF) return -EINVAL; if (iface == PHY_INTERFACE_MODE_SGMII || iface == PHY_INTERFACE_MODE_MII) if (tmp & DTSEC_ID2_INT_REDUCED_OFF) return -EINVAL; is_rgmii = iface == PHY_INTERFACE_MODE_RGMII; is_sgmii = iface == PHY_INTERFACE_MODE_SGMII; is_qsgmii = iface == PHY_INTERFACE_MODE_QSGMII; tmp = 0; if (is_rgmii || iface == PHY_INTERFACE_MODE_GMII) tmp |= DTSEC_ECNTRL_GMIIM; if (is_sgmii) tmp |= (DTSEC_ECNTRL_SGMIIM | DTSEC_ECNTRL_TBIM); if (is_qsgmii) tmp |= (DTSEC_ECNTRL_SGMIIM | DTSEC_ECNTRL_TBIM | DTSEC_ECNTRL_QSGMIIM); if (is_rgmii) tmp |= DTSEC_ECNTRL_RPM; if (iface_speed == SPEED_100) tmp |= DTSEC_ECNTRL_R100M; iowrite32be(tmp, &regs->ecntrl); tmp = 0; if (cfg->tx_pause_time) tmp |= cfg->tx_pause_time; if (cfg->tx_pause_time_extd) tmp |= cfg->tx_pause_time_extd << PTV_PTE_SHIFT; iowrite32be(tmp, &regs->ptv); tmp = 0; tmp |= (cfg->rx_prepend << RCTRL_PAL_SHIFT) & RCTRL_PAL_MASK; /* Accept short frames */ tmp |= RCTRL_RSF; iowrite32be(tmp, &regs->rctrl); /* Assign a Phy Address to the TBI (TBIPA). * Done also in cases where TBI is not selected to avoid conflict with * the external PHY's Physical address */ iowrite32be(tbi_addr, &regs->tbipa); iowrite32be(0, &regs->tmr_ctrl); if (cfg->ptp_tsu_en) { tmp = 0; tmp |= TMR_PEVENT_TSRE; iowrite32be(tmp, &regs->tmr_pevent); if (cfg->ptp_exception_en) { tmp = 0; tmp |= TMR_PEMASK_TSREEN; iowrite32be(tmp, &regs->tmr_pemask); } } tmp = 0; tmp |= MACCFG1_RX_FLOW; tmp |= MACCFG1_TX_FLOW; iowrite32be(tmp, &regs->maccfg1); tmp = 0; if (iface_speed < SPEED_1000) tmp |= MACCFG2_NIBBLE_MODE; else if (iface_speed == SPEED_1000) tmp |= MACCFG2_BYTE_MODE; tmp |= (cfg->preamble_len << MACCFG2_PREAMBLE_LENGTH_SHIFT) & MACCFG2_PREAMBLE_LENGTH_MASK; if (cfg->tx_pad_crc) tmp |= MACCFG2_PAD_CRC_EN; /* Full Duplex */ tmp |= MACCFG2_FULL_DUPLEX; iowrite32be(tmp, &regs->maccfg2); tmp = (((cfg->non_back_to_back_ipg1 << IPGIFG_NON_BACK_TO_BACK_IPG_1_SHIFT) & IPGIFG_NON_BACK_TO_BACK_IPG_1) | ((cfg->non_back_to_back_ipg2 << IPGIFG_NON_BACK_TO_BACK_IPG_2_SHIFT) & IPGIFG_NON_BACK_TO_BACK_IPG_2) | ((cfg->min_ifg_enforcement << IPGIFG_MIN_IFG_ENFORCEMENT_SHIFT) & IPGIFG_MIN_IFG_ENFORCEMENT) | (cfg->back_to_back_ipg & IPGIFG_BACK_TO_BACK_IPG)); iowrite32be(tmp, &regs->ipgifg); tmp = 0; tmp |= HAFDUP_EXCESS_DEFER; tmp |= ((cfg->halfdup_retransmit << HAFDUP_RETRANSMISSION_MAX_SHIFT) & HAFDUP_RETRANSMISSION_MAX); tmp |= (cfg->halfdup_coll_window & HAFDUP_COLLISION_WINDOW); iowrite32be(tmp, &regs->hafdup); /* Initialize Maximum frame length */ iowrite32be(cfg->maximum_frame, &regs->maxfrm); iowrite32be(0xffffffff, &regs->cam1); iowrite32be(0xffffffff, &regs->cam2); iowrite32be(exception_mask, &regs->imask); iowrite32be(0xffffffff, &regs->ievent); tmp = (u32)((macaddr[5] << 24) | (macaddr[4] << 16) | (macaddr[3] << 8) | macaddr[2]); iowrite32be(tmp, &regs->macstnaddr1); tmp = (u32)((macaddr[1] << 24) | (macaddr[0] << 16)); iowrite32be(tmp, &regs->macstnaddr2); /* HASH */ for (i = 0; i < NUM_OF_HASH_REGS; i++) { /* Initialize IADDRx */ iowrite32be(0, &regs->igaddr[i]); /* Initialize GADDRx */ iowrite32be(0, &regs->gaddr[i]); } return 0; }

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static void set_mac_address(struct dtsec_regs __iomem *regs, u8 *adr) { u32 tmp; tmp = (u32)((adr[5] << 24) | (adr[4] << 16) | (adr[3] << 8) | adr[2]); iowrite32be(tmp, &regs->macstnaddr1); tmp = (u32)((adr[1] << 24) | (adr[0] << 16)); iowrite32be(tmp, &regs->macstnaddr2); }

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static void set_bucket(struct dtsec_regs __iomem *regs, int bucket, bool enable) { int reg_idx = (bucket >> 5) & 0xf; int bit_idx = bucket & 0x1f; u32 bit_mask = 0x80000000 >> bit_idx; u32 __iomem *reg; if (reg_idx > 7) reg = &regs->gaddr[reg_idx - 8]; else reg = &regs->igaddr[reg_idx]; if (enable) iowrite32be(ioread32be(reg) | bit_mask, reg); else iowrite32be(ioread32be(reg) & (~bit_mask), reg); }

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static int check_init_parameters(struct fman_mac *dtsec) { if (dtsec->max_speed >= SPEED_10000) { pr_err("1G MAC driver supports 1G or lower speeds\n"); return -EINVAL; } if (dtsec->addr == 0) { pr_err("Ethernet MAC Must have a valid MAC Address\n"); return -EINVAL; } if ((dtsec->dtsec_drv_param)->rx_prepend > MAX_PACKET_ALIGNMENT) { pr_err("packetAlignmentPadding can't be > than %d\n", MAX_PACKET_ALIGNMENT); return -EINVAL; } if (((dtsec->dtsec_drv_param)->non_back_to_back_ipg1 > MAX_INTER_PACKET_GAP) || ((dtsec->dtsec_drv_param)->non_back_to_back_ipg2 > MAX_INTER_PACKET_GAP) || ((dtsec->dtsec_drv_param)->back_to_back_ipg > MAX_INTER_PACKET_GAP)) { pr_err("Inter packet gap can't be greater than %d\n", MAX_INTER_PACKET_GAP); return -EINVAL; } if ((dtsec->dtsec_drv_param)->halfdup_retransmit > MAX_RETRANSMISSION) { pr_err("maxRetransmission can't be greater than %d\n", MAX_RETRANSMISSION); return -EINVAL; } if ((dtsec->dtsec_drv_param)->halfdup_coll_window > MAX_COLLISION_WINDOW) { pr_err("collisionWindow can't be greater than %d\n", MAX_COLLISION_WINDOW); return -EINVAL; /* If Auto negotiation process is disabled, need to set up the PHY * using the MII Management Interface */ } if (!dtsec->exception_cb) { pr_err("uninitialized exception_cb\n"); return -EINVAL; } if (!dtsec->event_cb) { pr_err("uninitialized event_cb\n"); return -EINVAL; } return 0; }

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static int get_exception_flag(enum fman_mac_exceptions exception) { u32 bit_mask; switch (exception) { case FM_MAC_EX_1G_BAB_RX: bit_mask = DTSEC_IMASK_BREN; break; case FM_MAC_EX_1G_RX_CTL: bit_mask = DTSEC_IMASK_RXCEN; break; case FM_MAC_EX_1G_GRATEFUL_TX_STP_COMPLET: bit_mask = DTSEC_IMASK_GTSCEN; break; case FM_MAC_EX_1G_BAB_TX: bit_mask = DTSEC_IMASK_BTEN; break; case FM_MAC_EX_1G_TX_CTL: bit_mask = DTSEC_IMASK_TXCEN; break; case FM_MAC_EX_1G_TX_ERR: bit_mask = DTSEC_IMASK_TXEEN; break; case FM_MAC_EX_1G_LATE_COL: bit_mask = DTSEC_IMASK_LCEN; break; case FM_MAC_EX_1G_COL_RET_LMT: bit_mask = DTSEC_IMASK_CRLEN; break; case FM_MAC_EX_1G_TX_FIFO_UNDRN: bit_mask = DTSEC_IMASK_XFUNEN; break; case FM_MAC_EX_1G_MAG_PCKT: bit_mask = DTSEC_IMASK_MAGEN; break; case FM_MAC_EX_1G_MII_MNG_RD_COMPLET: bit_mask = DTSEC_IMASK_MMRDEN; break; case FM_MAC_EX_1G_MII_MNG_WR_COMPLET: bit_mask = DTSEC_IMASK_MMWREN; break; case FM_MAC_EX_1G_GRATEFUL_RX_STP_COMPLET: bit_mask = DTSEC_IMASK_GRSCEN; break; case FM_MAC_EX_1G_DATA_ERR: bit_mask = DTSEC_IMASK_TDPEEN; break; case FM_MAC_EX_1G_RX_MIB_CNT_OVFL: bit_mask = DTSEC_IMASK_MSROEN; break; default: bit_mask = 0; break; } return bit_mask; }

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static bool is_init_done(struct dtsec_cfg *dtsec_drv_params) { /* Checks if dTSEC driver parameters were initialized */ if (!dtsec_drv_params) return true; return false; }

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static u16 dtsec_get_max_frame_length(struct fman_mac *dtsec) { struct dtsec_regs __iomem *regs = dtsec->regs; if (is_init_done(dtsec->dtsec_drv_param)) return 0; return (u16)ioread32be(&regs->maxfrm); }

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static void dtsec_isr(void *handle) { struct fman_mac *dtsec = (struct fman_mac *)handle; struct dtsec_regs __iomem *regs = dtsec->regs; u32 event; /* do not handle MDIO events */ event = ioread32be(&regs->ievent) & (u32)(~(DTSEC_IMASK_MMRDEN | DTSEC_IMASK_MMWREN)); event &= ioread32be(&regs->imask); iowrite32be(event, &regs->ievent); if (event & DTSEC_IMASK_BREN) dtsec->exception_cb(dtsec->dev_id, FM_MAC_EX_1G_BAB_RX); if (event & DTSEC_IMASK_RXCEN) dtsec->exception_cb(dtsec->dev_id, FM_MAC_EX_1G_RX_CTL); if (event & DTSEC_IMASK_GTSCEN) dtsec->exception_cb(dtsec->dev_id, FM_MAC_EX_1G_GRATEFUL_TX_STP_COMPLET); if (event & DTSEC_IMASK_BTEN) dtsec->exception_cb(dtsec->dev_id, FM_MAC_EX_1G_BAB_TX); if (event & DTSEC_IMASK_TXCEN) dtsec->exception_cb(dtsec->dev_id, FM_MAC_EX_1G_TX_CTL); if (event & DTSEC_IMASK_TXEEN) dtsec->exception_cb(dtsec->dev_id, FM_MAC_EX_1G_TX_ERR); if (event & DTSEC_IMASK_LCEN) dtsec->exception_cb(dtsec->dev_id, FM_MAC_EX_1G_LATE_COL); if (event & DTSEC_IMASK_CRLEN) dtsec->exception_cb(dtsec->dev_id, FM_MAC_EX_1G_COL_RET_LMT); if (event & DTSEC_IMASK_XFUNEN) { /* FM_TX_LOCKUP_ERRATA_DTSEC6 Errata workaround */ if (dtsec->fm_rev_info.major == 2) { u32 tpkt1, tmp_reg1, tpkt2, tmp_reg2, i; /* a. Write 0x00E0_0C00 to DTSEC_ID * This is a read only register * b. Read and save the value of TPKT */ tpkt1 = ioread32be(&regs->tpkt); /* c. Read the register at dTSEC address offset 0x32C */ tmp_reg1 = ioread32be(&regs->reserved02c0[27]); /* d. Compare bits [9:15] to bits [25:31] of the * register at address offset 0x32C. */ if ((tmp_reg1 & 0x007F0000) != (tmp_reg1 & 0x0000007F)) { /* If they are not equal, save the value of * this register and wait for at least * MAXFRM*16 ns */ usleep_range((u32)(min (dtsec_get_max_frame_length(dtsec) * 16 / 1000, 1)), (u32) (min(dtsec_get_max_frame_length (dtsec) * 16 / 1000, 1) + 1)); } /* e. Read and save TPKT again and read the register * at dTSEC address offset 0x32C again */ tpkt2 = ioread32be(&regs->tpkt); tmp_reg2 = ioread32be(&regs->reserved02c0[27]); /* f. Compare the value of TPKT saved in step b to * value read in step e. Also compare bits [9:15] of * the register at offset 0x32C saved in step d to the * value of bits [9:15] saved in step e. If the two * registers values are unchanged, then the transmit * portion of the dTSEC controller is locked up and * the user should proceed to the recover sequence. */ if ((tpkt1 == tpkt2) && ((tmp_reg1 & 0x007F0000) == (tmp_reg2 & 0x007F0000))) { /* recover sequence */ /* a.Write a 1 to RCTRL[GRS] */ iowrite32be(ioread32be(&regs->rctrl) | RCTRL_GRS, &regs->rctrl); /* b.Wait until IEVENT[GRSC]=1, or at least * 100 us has elapsed. */ for (i = 0; i < 100; i++) { if (ioread32be(&regs->ievent) & DTSEC_IMASK_GRSCEN) break; udelay(1); } if (ioread32be(&regs->ievent) & DTSEC_IMASK_GRSCEN) iowrite32be(DTSEC_IMASK_GRSCEN, &regs->ievent); else pr_debug("Rx lockup due to Tx lockup\n"); /* c.Write a 1 to bit n of FM_RSTC * (offset 0x0CC of FPM) */ fman_reset_mac(dtsec->fm, dtsec->mac_id); /* d.Wait 4 Tx clocks (32 ns) */ udelay(1); /* e.Write a 0 to bit n of FM_RSTC. */ /* cleared by FMAN */ } } dtsec->exception_cb(dtsec->dev_id, FM_MAC_EX_1G_TX_FIFO_UNDRN); } if (event & DTSEC_IMASK_MAGEN) dtsec->exception_cb(dtsec->dev_id, FM_MAC_EX_1G_MAG_PCKT); if (event & DTSEC_IMASK_GRSCEN) dtsec->exception_cb(dtsec->dev_id, FM_MAC_EX_1G_GRATEFUL_RX_STP_COMPLET); if (event & DTSEC_IMASK_TDPEEN) dtsec->exception_cb(dtsec->dev_id, FM_MAC_EX_1G_DATA_ERR); if (event & DTSEC_IMASK_RDPEEN) dtsec->exception_cb(dtsec->dev_id, FM_MAC_1G_RX_DATA_ERR); /* masked interrupts */ WARN_ON(event & DTSEC_IMASK_ABRTEN); WARN_ON(event & DTSEC_IMASK_IFERREN); }

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static void dtsec_1588_isr(void *handle) { struct fman_mac *dtsec = (struct fman_mac *)handle; struct dtsec_regs __iomem *regs = dtsec->regs; u32 event; if (dtsec->ptp_tsu_enabled) { event = ioread32be(&regs->tmr_pevent); event &= ioread32be(&regs->tmr_pemask); if (event) { iowrite32be(event, &regs->tmr_pevent); WARN_ON(event & TMR_PEVENT_TSRE); dtsec->exception_cb(dtsec->dev_id, FM_MAC_EX_1G_1588_TS_RX_ERR); } } }

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static void free_init_resources(struct fman_mac *dtsec) { fman_unregister_intr(dtsec->fm, FMAN_MOD_MAC, dtsec->mac_id, FMAN_INTR_TYPE_ERR); fman_unregister_intr(dtsec->fm, FMAN_MOD_MAC, dtsec->mac_id, FMAN_INTR_TYPE_NORMAL); /* release the driver's group hash table */ free_hash_table(dtsec->multicast_addr_hash); dtsec->multicast_addr_hash = NULL; /* release the driver's individual hash table */ free_hash_table(dtsec->unicast_addr_hash); dtsec->unicast_addr_hash = NULL; }

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int dtsec_cfg_max_frame_len(struct fman_mac *dtsec, u16 new_val) { if (is_init_done(dtsec->dtsec_drv_param)) return -EINVAL; dtsec->dtsec_drv_param->maximum_frame = new_val; return 0; }

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int dtsec_cfg_pad_and_crc(struct fman_mac *dtsec, bool new_val) { if (is_init_done(dtsec->dtsec_drv_param)) return -EINVAL; dtsec->dtsec_drv_param->tx_pad_crc = new_val; return 0; }

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int dtsec_enable(struct fman_mac *dtsec, enum comm_mode mode) { struct dtsec_regs __iomem *regs = dtsec->regs; u32 tmp; if (!is_init_done(dtsec->dtsec_drv_param)) return -EINVAL; /* Enable */ tmp = ioread32be(&regs->maccfg1); if (mode & COMM_MODE_RX) tmp |= MACCFG1_RX_EN; if (mode & COMM_MODE_TX) tmp |= MACCFG1_TX_EN; iowrite32be(tmp, &regs->maccfg1); /* Graceful start - clear the graceful receive stop bit */ if (mode & COMM_MODE_TX) iowrite32be(ioread32be(&regs->tctrl) & ~DTSEC_TCTRL_GTS, &regs->tctrl); if (mode & COMM_MODE_RX) iowrite32be(ioread32be(&regs->rctrl) & ~RCTRL_GRS, &regs->rctrl); return 0; }

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int dtsec_disable(struct fman_mac *dtsec, enum comm_mode mode) { struct dtsec_regs __iomem *regs = dtsec->regs; u32 tmp; if (!is_init_done(dtsec->dtsec_drv_param)) return -EINVAL; /* Gracefull stop - Assert the graceful transmit stop bit */ if (mode & COMM_MODE_RX) { tmp = ioread32be(&regs->rctrl) | RCTRL_GRS; iowrite32be(tmp, &regs->rctrl); if (dtsec->fm_rev_info.major == 2) usleep_range(100, 200); else udelay(10); } if (mode & COMM_MODE_TX) { if (dtsec->fm_rev_info.major == 2) pr_debug("GTS not supported due to DTSEC_A004 errata.\n"); else pr_debug("GTS not supported due to DTSEC_A0014 errata.\n"); } tmp = ioread32be(&regs->maccfg1); if (mode & COMM_MODE_RX) tmp &= ~MACCFG1_RX_EN; if (mode & COMM_MODE_TX) tmp &= ~MACCFG1_TX_EN; iowrite32be(tmp, &regs->maccfg1); return 0; }

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int dtsec_set_tx_pause_frames(struct fman_mac *dtsec, u8 __maybe_unused priority, u16 pause_time, u16 __maybe_unused thresh_time) { struct dtsec_regs __iomem *regs = dtsec->regs; u32 ptv = 0; if (!is_init_done(dtsec->dtsec_drv_param)) return -EINVAL; if (pause_time) { /* FM_BAD_TX_TS_IN_B_2_B_ERRATA_DTSEC_A003 Errata workaround */ if (dtsec->fm_rev_info.major == 2 && pause_time <= 320) { pr_warn("pause-time: %d illegal.Should be > 320\n", pause_time); return -EINVAL; } ptv = ioread32be(&regs->ptv); ptv &= PTV_PTE_MASK; ptv |= pause_time & PTV_PT_MASK; iowrite32be(ptv, &regs->ptv); /* trigger the transmission of a flow-control pause frame */ iowrite32be(ioread32be(&regs->maccfg1) | MACCFG1_TX_FLOW, &regs->maccfg1); } else iowrite32be(ioread32be(&regs->maccfg1) & ~MACCFG1_TX_FLOW, &regs->maccfg1); return 0; }

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int dtsec_accept_rx_pause_frames(struct fman_mac *dtsec, bool en) { struct dtsec_regs __iomem *regs = dtsec->regs; u32 tmp; if (!is_init_done(dtsec->dtsec_drv_param)) return -EINVAL; tmp = ioread32be(&regs->maccfg1); if (en) tmp |= MACCFG1_RX_FLOW; else tmp &= ~MACCFG1_RX_FLOW; iowrite32be(tmp, &regs->maccfg1); return 0; }

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int dtsec_modify_mac_address(struct fman_mac *dtsec, enet_addr_t *enet_addr) { if (!is_init_done(dtsec->dtsec_drv_param)) return -EINVAL; /* Initialize MAC Station Address registers (1 & 2) * Station address have to be swapped (big endian to little endian */ dtsec->addr = ENET_ADDR_TO_UINT64(*enet_addr); set_mac_address(dtsec->regs, (u8 *)(*enet_addr)); return 0; }

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int dtsec_add_hash_mac_address(struct fman_mac *dtsec, enet_addr_t *eth_addr) { struct dtsec_regs __iomem *regs = dtsec->regs; struct eth_hash_entry *hash_entry; u64 addr; s32 bucket; u32 crc = 0xFFFFFFFF; bool mcast, ghtx; if (!is_init_done(dtsec->dtsec_drv_param)) return -EINVAL; addr = ENET_ADDR_TO_UINT64(*eth_addr); ghtx = (bool)((ioread32be(&regs->rctrl) & RCTRL_GHTX) ? true : false); mcast = (bool)((addr & MAC_GROUP_ADDRESS) ? true : false); /* Cannot handle unicast mac addr when GHTX is on */ if (ghtx && !mcast) { pr_err("Could not compute hash bucket\n"); return -EINVAL; } crc = crc32_le(crc, (u8 *)eth_addr, ETH_ALEN); crc = bitrev32(crc); /* considering the 9 highest order bits in crc H[8:0]: *if ghtx = 0 H[8:6] (highest order 3 bits) identify the hash register *and H[5:1] (next 5 bits) identify the hash bit *if ghts = 1 H[8:5] (highest order 4 bits) identify the hash register *and H[4:0] (next 5 bits) identify the hash bit. * *In bucket index output the low 5 bits identify the hash register *bit, while the higher 4 bits identify the hash register */ if (ghtx) { bucket = (s32)((crc >> 23) & 0x1ff); } else { bucket = (s32)((crc >> 24) & 0xff); /* if !ghtx and mcast the bit must be set in gaddr instead of *igaddr. */ if (mcast) bucket += 0x100; } set_bucket(dtsec->regs, bucket, true); /* Create element to be added to the driver hash table */ hash_entry = kmalloc(sizeof(*hash_entry), GFP_KERNEL); if (!hash_entry) return -ENOMEM; hash_entry->addr = addr; INIT_LIST_HEAD(&hash_entry->node); if (addr & MAC_GROUP_ADDRESS) /* Group Address */ list_add_tail(&hash_entry->node, &dtsec->multicast_addr_hash->lsts[bucket]); else list_add_tail(&hash_entry->node, &dtsec->unicast_addr_hash->lsts[bucket]); return 0; }

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int dtsec_del_hash_mac_address(struct fman_mac *dtsec, enet_addr_t *eth_addr) { struct dtsec_regs __iomem *regs = dtsec->regs; struct list_head *pos; struct eth_hash_entry *hash_entry = NULL; u64 addr; s32 bucket; u32 crc = 0xFFFFFFFF; bool mcast, ghtx; if (!is_init_done(dtsec->dtsec_drv_param)) return -EINVAL; addr = ENET_ADDR_TO_UINT64(*eth_addr); ghtx = (bool)((ioread32be(&regs->rctrl) & RCTRL_GHTX) ? true : false); mcast = (bool)((addr & MAC_GROUP_ADDRESS) ? true : false); /* Cannot handle unicast mac addr when GHTX is on */ if (ghtx && !mcast) { pr_err("Could not compute hash bucket\n"); return -EINVAL; } crc = crc32_le(crc, (u8 *)eth_addr, ETH_ALEN); crc = bitrev32(crc); if (ghtx) { bucket = (s32)((crc >> 23) & 0x1ff); } else { bucket = (s32)((crc >> 24) & 0xff); /* if !ghtx and mcast the bit must be set * in gaddr instead of igaddr. */ if (mcast) bucket += 0x100; } if (addr & MAC_GROUP_ADDRESS) { /* Group Address */ list_for_each(pos, &dtsec->multicast_addr_hash->lsts[bucket]) { hash_entry = ETH_HASH_ENTRY_OBJ(pos); if (hash_entry->addr == addr) { list_del_init(&hash_entry->node); kfree(hash_entry); break; } } if (list_empty(&dtsec->multicast_addr_hash->lsts[bucket])) set_bucket(dtsec->regs, bucket, false); } else { /* Individual Address */ list_for_each(pos, &dtsec->unicast_addr_hash->lsts[bucket]) { hash_entry = ETH_HASH_ENTRY_OBJ(pos); if (hash_entry->addr == addr) { list_del_init(&hash_entry->node); kfree(hash_entry); break; } } if (list_empty(&dtsec->unicast_addr_hash->lsts[bucket])) set_bucket(dtsec->regs, bucket, false); } /* address does not exist */ WARN_ON(!hash_entry); return 0; }

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int dtsec_set_promiscuous(struct fman_mac *dtsec, bool new_val) { struct dtsec_regs __iomem *regs = dtsec->regs; u32 tmp; if (!is_init_done(dtsec->dtsec_drv_param)) return -EINVAL; /* Set unicast promiscuous */ tmp = ioread32be(&regs->rctrl); if (new_val) tmp |= RCTRL_UPROM; else tmp &= ~RCTRL_UPROM; iowrite32be(tmp, &regs->rctrl); /* Set multicast promiscuous */ tmp = ioread32be(&regs->rctrl); if (new_val) tmp |= RCTRL_MPROM; else tmp &= ~RCTRL_MPROM; iowrite32be(tmp, &regs->rctrl); return 0; }

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int dtsec_adjust_link(struct fman_mac *dtsec, u16 speed) { struct dtsec_regs __iomem *regs = dtsec->regs; u32 tmp; if (!is_init_done(dtsec->dtsec_drv_param)) return -EINVAL; tmp = ioread32be(&regs->maccfg2); /* Full Duplex */ tmp |= MACCFG2_FULL_DUPLEX; tmp &= ~(MACCFG2_NIBBLE_MODE | MACCFG2_BYTE_MODE); if (speed < SPEED_1000) tmp |= MACCFG2_NIBBLE_MODE; else if (speed == SPEED_1000) tmp |= MACCFG2_BYTE_MODE; iowrite32be(tmp, &regs->maccfg2); tmp = ioread32be(&regs->ecntrl); if (speed == SPEED_100) tmp |= DTSEC_ECNTRL_R100M; else tmp &= ~DTSEC_ECNTRL_R100M; iowrite32be(tmp, &regs->ecntrl); return 0; }

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int dtsec_restart_autoneg(struct fman_mac *dtsec) { u16 tmp_reg16; if (!is_init_done(dtsec->dtsec_drv_param)) return -EINVAL; tmp_reg16 = phy_read(dtsec->tbiphy, MII_BMCR); tmp_reg16 &= ~(BMCR_SPEED100 | BMCR_SPEED1000); tmp_reg16 |= (BMCR_ANENABLE | BMCR_ANRESTART | BMCR_FULLDPLX | BMCR_SPEED1000); phy_write(dtsec->tbiphy, MII_BMCR, tmp_reg16); return 0; }

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int dtsec_get_version(struct fman_mac *dtsec, u32 *mac_version) { struct dtsec_regs __iomem *regs = dtsec->regs; if (!is_init_done(dtsec->dtsec_drv_param)) return -EINVAL; *mac_version = ioread32be(&regs->tsec_id); return 0; }

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int dtsec_set_exception(struct fman_mac *dtsec, enum fman_mac_exceptions exception, bool enable) { struct dtsec_regs __iomem *regs = dtsec->regs; u32 bit_mask = 0; if (!is_init_done(dtsec->dtsec_drv_param)) return -EINVAL; if (exception != FM_MAC_EX_1G_1588_TS_RX_ERR) { bit_mask = get_exception_flag(exception); if (bit_mask) { if (enable) dtsec->exceptions |= bit_mask; else dtsec->exceptions &= ~bit_mask; } else { pr_err("Undefined exception\n"); return -EINVAL; } if (enable) iowrite32be(ioread32be(&regs->imask) | bit_mask, &regs->imask); else iowrite32be(ioread32be(&regs->imask) & ~bit_mask, &regs->imask); } else { if (!dtsec->ptp_tsu_enabled) { pr_err("Exception valid for 1588 only\n"); return -EINVAL; } switch (exception) { case FM_MAC_EX_1G_1588_TS_RX_ERR: if (enable) { dtsec->en_tsu_err_exception = true; iowrite32be(ioread32be(&regs->tmr_pemask) | TMR_PEMASK_TSREEN, &regs->tmr_pemask); } else { dtsec->en_tsu_err_exception = false; iowrite32be(ioread32be(&regs->tmr_pemask) & ~TMR_PEMASK_TSREEN, &regs->tmr_pemask); } break; default: pr_err("Undefined exception\n"); return -EINVAL; } } return 0; }

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int dtsec_init(struct fman_mac *dtsec) { struct dtsec_regs __iomem *regs = dtsec->regs; struct dtsec_cfg *dtsec_drv_param; int err; u16 max_frm_ln; enet_addr_t eth_addr; if (is_init_done(dtsec->dtsec_drv_param)) return -EINVAL; if (DEFAULT_RESET_ON_INIT && (fman_reset_mac(dtsec->fm, dtsec->mac_id) != 0)) { pr_err("Can't reset MAC!\n"); return -EINVAL; } err = check_init_parameters(dtsec); if (err) return err; dtsec_drv_param = dtsec->dtsec_drv_param; MAKE_ENET_ADDR_FROM_UINT64(dtsec->addr, eth_addr); err = init(dtsec->regs, dtsec_drv_param, dtsec->phy_if, dtsec->max_speed, (u8 *)eth_addr, dtsec->exceptions, dtsec->tbiphy->mdio.addr); if (err) { free_init_resources(dtsec); pr_err("DTSEC version doesn't support this i/f mode\n"); return err; } if (dtsec->phy_if == PHY_INTERFACE_MODE_SGMII) { u16 tmp_reg16; /* Configure the TBI PHY Control Register */ tmp_reg16 = TBICON_CLK_SELECT | TBICON_SOFT_RESET; phy_write(dtsec->tbiphy, MII_TBICON, tmp_reg16); tmp_reg16 = TBICON_CLK_SELECT; phy_write(dtsec->tbiphy, MII_TBICON, tmp_reg16); tmp_reg16 = (BMCR_RESET | BMCR_ANENABLE | BMCR_FULLDPLX | BMCR_SPEED1000); phy_write(dtsec->tbiphy, MII_BMCR, tmp_reg16); if (dtsec->basex_if) tmp_reg16 = TBIANA_1000X; else tmp_reg16 = TBIANA_SGMII; phy_write(dtsec->tbiphy, MII_ADVERTISE, tmp_reg16); tmp_reg16 = (BMCR_ANENABLE | BMCR_ANRESTART | BMCR_FULLDPLX | BMCR_SPEED1000); phy_write(dtsec->tbiphy, MII_BMCR, tmp_reg16); } /* Max Frame Length */ max_frm_ln = (u16)ioread32be(&regs->maxfrm); err = fman_set_mac_max_frame(dtsec->fm, dtsec->mac_id, max_frm_ln); if (err) { pr_err("Setting max frame length failed\n"); free_init_resources(dtsec); return -EINVAL; } dtsec->multicast_addr_hash = alloc_hash_table(EXTENDED_HASH_TABLE_SIZE); if (!dtsec->multicast_addr_hash) { free_init_resources(dtsec); pr_err("MC hash table is failed\n"); return -ENOMEM; } dtsec->unicast_addr_hash = alloc_hash_table(DTSEC_HASH_TABLE_SIZE); if (!dtsec->unicast_addr_hash) { free_init_resources(dtsec); pr_err("UC hash table is failed\n"); return -ENOMEM; } /* register err intr handler for dtsec to FPM (err) */ fman_register_intr(dtsec->fm, FMAN_MOD_MAC, dtsec->mac_id, FMAN_INTR_TYPE_ERR, dtsec_isr, dtsec); /* register 1588 intr handler for TMR to FPM (normal) */ fman_register_intr(dtsec->fm, FMAN_MOD_MAC, dtsec->mac_id, FMAN_INTR_TYPE_NORMAL, dtsec_1588_isr, dtsec); kfree(dtsec_drv_param); dtsec->dtsec_drv_param = NULL; return 0; }

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int dtsec_free(struct fman_mac *dtsec) { free_init_resources(dtsec); kfree(dtsec->dtsec_drv_param); dtsec->dtsec_drv_param = NULL; kfree(dtsec); return 0; }

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Igal Liberman36100.00%1100.00%
Total36100.00%1100.00%


struct fman_mac *dtsec_config(struct fman_mac_params *params) { struct fman_mac *dtsec; struct dtsec_cfg *dtsec_drv_param; void __iomem *base_addr; base_addr = params->base_addr; /* allocate memory for the UCC GETH data structure. */ dtsec = kzalloc(sizeof(*dtsec), GFP_KERNEL); if (!dtsec) return NULL; /* allocate memory for the d_tsec driver parameters data structure. */ dtsec_drv_param = kzalloc(sizeof(*dtsec_drv_param), GFP_KERNEL); if (!dtsec_drv_param) goto err_dtsec; /* Plant parameter structure pointer */ dtsec->dtsec_drv_param = dtsec_drv_param; set_dflts(dtsec_drv_param); dtsec->regs = base_addr; dtsec->addr = ENET_ADDR_TO_UINT64(params->addr); dtsec->max_speed = params->max_speed; dtsec->phy_if = params->phy_if; dtsec->mac_id = params->mac_id; dtsec->exceptions = (DTSEC_IMASK_BREN | DTSEC_IMASK_RXCEN | DTSEC_IMASK_BTEN | DTSEC_IMASK_TXCEN | DTSEC_IMASK_TXEEN | DTSEC_IMASK_ABRTEN | DTSEC_IMASK_LCEN | DTSEC_IMASK_CRLEN | DTSEC_IMASK_XFUNEN | DTSEC_IMASK_IFERREN | DTSEC_IMASK_MAGEN | DTSEC_IMASK_TDPEEN | DTSEC_IMASK_RDPEEN); dtsec->exception_cb = params->exception_cb; dtsec->event_cb = params->event_cb; dtsec->dev_id = params->dev_id; dtsec->ptp_tsu_enabled = dtsec->dtsec_drv_param->ptp_tsu_en; dtsec->en_tsu_err_exception = dtsec->dtsec_drv_param->ptp_exception_en; dtsec->fm = params->fm; dtsec->basex_if = params->basex_if; if (!params->internal_phy_node) { pr_err("TBI PHY node is not available\n"); goto err_dtsec_drv_param; } dtsec->tbiphy = of_phy_find_device(params->internal_phy_node); if (!dtsec->tbiphy) { pr_err("of_phy_find_device (TBI PHY) failed\n"); goto err_dtsec_drv_param; } put_device(&dtsec->tbiphy->mdio.dev); /* Save FMan revision */ fman_get_revision(dtsec->fm, &dtsec->fm_rev_info); return dtsec; err_dtsec_drv_param: kfree(dtsec_drv_param); err_dtsec: kfree(dtsec); return NULL; }

Contributors

PersonTokensPropCommitsCommitProp
Igal Liberman30999.04%133.33%
Andrew Lunn20.64%133.33%
Colin Ian King10.32%133.33%
Total312100.00%3100.00%


Overall Contributors

PersonTokensPropCommitsCommitProp
Igal Liberman582399.86%250.00%
Andrew Lunn40.07%125.00%
Colin Ian King40.07%125.00%
Total5831100.00%4100.00%
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