Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Iyappan Subramanian | 2912 | 97.00% | 13 | 61.90% |
Quan Nguyen | 28 | 0.93% | 1 | 4.76% |
Suman Tripathi | 18 | 0.60% | 1 | 4.76% |
Geert Uytterhoeven | 16 | 0.53% | 1 | 4.76% |
Keyur Chudgar | 15 | 0.50% | 1 | 4.76% |
Kelsey Skunberg | 6 | 0.20% | 1 | 4.76% |
Nathan Chancellor | 3 | 0.10% | 1 | 4.76% |
Thomas Gleixner | 2 | 0.07% | 1 | 4.76% |
Julia Lawall | 2 | 0.07% | 1 | 4.76% |
Total | 3002 | 21 |
// SPDX-License-Identifier: GPL-2.0-or-later /* Applied Micro X-Gene SoC Ethernet Driver * * Copyright (c) 2014, Applied Micro Circuits Corporation * Authors: Iyappan Subramanian <isubramanian@apm.com> * Keyur Chudgar <kchudgar@apm.com> */ #include "xgene_enet_main.h" #include "xgene_enet_hw.h" #include "xgene_enet_sgmac.h" #include "xgene_enet_xgmac.h" static void xgene_enet_wr_csr(struct xgene_enet_pdata *p, u32 offset, u32 val) { iowrite32(val, p->eth_csr_addr + offset); } static void xgene_enet_wr_clkrst_csr(struct xgene_enet_pdata *p, u32 offset, u32 val) { iowrite32(val, p->base_addr + offset); } static void xgene_enet_wr_ring_if(struct xgene_enet_pdata *p, u32 offset, u32 val) { iowrite32(val, p->eth_ring_if_addr + offset); } static void xgene_enet_wr_diag_csr(struct xgene_enet_pdata *p, u32 offset, u32 val) { iowrite32(val, p->eth_diag_csr_addr + offset); } static void xgene_enet_wr_mcx_csr(struct xgene_enet_pdata *pdata, u32 offset, u32 val) { void __iomem *addr = pdata->mcx_mac_csr_addr + offset; iowrite32(val, addr); } static u32 xgene_enet_rd_csr(struct xgene_enet_pdata *p, u32 offset) { return ioread32(p->eth_csr_addr + offset); } static u32 xgene_enet_rd_diag_csr(struct xgene_enet_pdata *p, u32 offset) { return ioread32(p->eth_diag_csr_addr + offset); } static u32 xgene_enet_rd_mcx_csr(struct xgene_enet_pdata *p, u32 offset) { return ioread32(p->mcx_mac_csr_addr + offset); } static int xgene_enet_ecc_init(struct xgene_enet_pdata *p) { struct net_device *ndev = p->ndev; u32 data, shutdown; int i = 0; shutdown = xgene_enet_rd_diag_csr(p, ENET_CFG_MEM_RAM_SHUTDOWN_ADDR); data = xgene_enet_rd_diag_csr(p, ENET_BLOCK_MEM_RDY_ADDR); if (!shutdown && data == ~0U) { netdev_dbg(ndev, "+ ecc_init done, skipping\n"); return 0; } xgene_enet_wr_diag_csr(p, ENET_CFG_MEM_RAM_SHUTDOWN_ADDR, 0); do { usleep_range(100, 110); data = xgene_enet_rd_diag_csr(p, ENET_BLOCK_MEM_RDY_ADDR); if (data == ~0U) return 0; } while (++i < 10); netdev_err(ndev, "Failed to release memory from shutdown\n"); return -ENODEV; } static void xgene_sgmac_get_drop_cnt(struct xgene_enet_pdata *pdata, u32 *rx, u32 *tx) { u32 addr, count; addr = (pdata->enet_id != XGENE_ENET1) ? XG_MCX_ICM_ECM_DROP_COUNT_REG0_ADDR : ICM_ECM_DROP_COUNT_REG0_ADDR + pdata->port_id * OFFSET_4; count = xgene_enet_rd_mcx_csr(pdata, addr); *rx = ICM_DROP_COUNT(count); *tx = ECM_DROP_COUNT(count); /* Errata: 10GE_4 - ICM_ECM_DROP_COUNT not clear-on-read */ addr = (pdata->enet_id != XGENE_ENET1) ? XG_MCX_ECM_CONFIG0_REG_0_ADDR : ECM_CONFIG0_REG_0_ADDR + pdata->port_id * OFFSET_4; xgene_enet_rd_mcx_csr(pdata, addr); } static void xgene_enet_config_ring_if_assoc(struct xgene_enet_pdata *p) { u32 val; val = (p->enet_id == XGENE_ENET1) ? 0xffffffff : 0; xgene_enet_wr_ring_if(p, ENET_CFGSSQMIWQASSOC_ADDR, val); xgene_enet_wr_ring_if(p, ENET_CFGSSQMIFPQASSOC_ADDR, val); } static void xgene_mii_phy_write(struct xgene_enet_pdata *p, u8 phy_id, u32 reg, u16 data) { u32 addr, wr_data, done; int i; addr = PHY_ADDR(phy_id) | REG_ADDR(reg); xgene_enet_wr_mac(p, MII_MGMT_ADDRESS_ADDR, addr); wr_data = PHY_CONTROL(data); xgene_enet_wr_mac(p, MII_MGMT_CONTROL_ADDR, wr_data); for (i = 0; i < 10; i++) { done = xgene_enet_rd_mac(p, MII_MGMT_INDICATORS_ADDR); if (!(done & BUSY_MASK)) return; usleep_range(10, 20); } netdev_err(p->ndev, "MII_MGMT write failed\n"); } static u32 xgene_mii_phy_read(struct xgene_enet_pdata *p, u8 phy_id, u32 reg) { u32 addr, data, done; int i; addr = PHY_ADDR(phy_id) | REG_ADDR(reg); xgene_enet_wr_mac(p, MII_MGMT_ADDRESS_ADDR, addr); xgene_enet_wr_mac(p, MII_MGMT_COMMAND_ADDR, READ_CYCLE_MASK); for (i = 0; i < 10; i++) { done = xgene_enet_rd_mac(p, MII_MGMT_INDICATORS_ADDR); if (!(done & BUSY_MASK)) { data = xgene_enet_rd_mac(p, MII_MGMT_STATUS_ADDR); xgene_enet_wr_mac(p, MII_MGMT_COMMAND_ADDR, 0); return data; } usleep_range(10, 20); } netdev_err(p->ndev, "MII_MGMT read failed\n"); return 0; } static void xgene_sgmac_reset(struct xgene_enet_pdata *p) { xgene_enet_wr_mac(p, MAC_CONFIG_1_ADDR, SOFT_RESET1); xgene_enet_wr_mac(p, MAC_CONFIG_1_ADDR, 0); } static void xgene_sgmac_set_mac_addr(struct xgene_enet_pdata *p) { u32 addr0, addr1; u8 *dev_addr = p->ndev->dev_addr; addr0 = (dev_addr[3] << 24) | (dev_addr[2] << 16) | (dev_addr[1] << 8) | dev_addr[0]; xgene_enet_wr_mac(p, STATION_ADDR0_ADDR, addr0); addr1 = xgene_enet_rd_mac(p, STATION_ADDR1_ADDR); addr1 |= (dev_addr[5] << 24) | (dev_addr[4] << 16); xgene_enet_wr_mac(p, STATION_ADDR1_ADDR, addr1); } static u32 xgene_enet_link_status(struct xgene_enet_pdata *p) { u32 data; data = xgene_mii_phy_read(p, INT_PHY_ADDR, SGMII_BASE_PAGE_ABILITY_ADDR >> 2); if (LINK_SPEED(data) == PHY_SPEED_1000) p->phy_speed = SPEED_1000; else if (LINK_SPEED(data) == PHY_SPEED_100) p->phy_speed = SPEED_100; else p->phy_speed = SPEED_10; return data & LINK_UP; } static void xgene_sgmii_configure(struct xgene_enet_pdata *p) { xgene_mii_phy_write(p, INT_PHY_ADDR, SGMII_TBI_CONTROL_ADDR >> 2, 0x8000); xgene_mii_phy_write(p, INT_PHY_ADDR, SGMII_CONTROL_ADDR >> 2, 0x9000); xgene_mii_phy_write(p, INT_PHY_ADDR, SGMII_TBI_CONTROL_ADDR >> 2, 0); } static void xgene_sgmii_tbi_control_reset(struct xgene_enet_pdata *p) { xgene_mii_phy_write(p, INT_PHY_ADDR, SGMII_TBI_CONTROL_ADDR >> 2, 0x8000); xgene_mii_phy_write(p, INT_PHY_ADDR, SGMII_TBI_CONTROL_ADDR >> 2, 0); } static void xgene_sgmii_reset(struct xgene_enet_pdata *p) { u32 value; if (p->phy_speed == SPEED_UNKNOWN) return; value = xgene_mii_phy_read(p, INT_PHY_ADDR, SGMII_BASE_PAGE_ABILITY_ADDR >> 2); if (!(value & LINK_UP)) xgene_sgmii_tbi_control_reset(p); } static void xgene_sgmac_set_speed(struct xgene_enet_pdata *p) { u32 icm0_addr, icm2_addr, debug_addr; u32 icm0, icm2, intf_ctl; u32 mc2, value; xgene_sgmii_reset(p); if (p->enet_id == XGENE_ENET1) { icm0_addr = ICM_CONFIG0_REG_0_ADDR + p->port_id * OFFSET_8; icm2_addr = ICM_CONFIG2_REG_0_ADDR + p->port_id * OFFSET_4; debug_addr = DEBUG_REG_ADDR; } else { icm0_addr = XG_MCX_ICM_CONFIG0_REG_0_ADDR; icm2_addr = XG_MCX_ICM_CONFIG2_REG_0_ADDR; debug_addr = XG_DEBUG_REG_ADDR; } icm0 = xgene_enet_rd_mcx_csr(p, icm0_addr); icm2 = xgene_enet_rd_mcx_csr(p, icm2_addr); mc2 = xgene_enet_rd_mac(p, MAC_CONFIG_2_ADDR); intf_ctl = xgene_enet_rd_mac(p, INTERFACE_CONTROL_ADDR); switch (p->phy_speed) { case SPEED_10: ENET_INTERFACE_MODE2_SET(&mc2, 1); intf_ctl &= ~(ENET_LHD_MODE | ENET_GHD_MODE); CFG_MACMODE_SET(&icm0, 0); CFG_WAITASYNCRD_SET(&icm2, 500); break; case SPEED_100: ENET_INTERFACE_MODE2_SET(&mc2, 1); intf_ctl &= ~ENET_GHD_MODE; intf_ctl |= ENET_LHD_MODE; CFG_MACMODE_SET(&icm0, 1); CFG_WAITASYNCRD_SET(&icm2, 80); break; default: ENET_INTERFACE_MODE2_SET(&mc2, 2); intf_ctl &= ~ENET_LHD_MODE; intf_ctl |= ENET_GHD_MODE; CFG_MACMODE_SET(&icm0, 2); CFG_WAITASYNCRD_SET(&icm2, 16); value = xgene_enet_rd_csr(p, debug_addr); value |= CFG_BYPASS_UNISEC_TX | CFG_BYPASS_UNISEC_RX; xgene_enet_wr_csr(p, debug_addr, value); break; } mc2 |= FULL_DUPLEX2 | PAD_CRC; xgene_enet_wr_mac(p, MAC_CONFIG_2_ADDR, mc2); xgene_enet_wr_mac(p, INTERFACE_CONTROL_ADDR, intf_ctl); xgene_enet_wr_mcx_csr(p, icm0_addr, icm0); xgene_enet_wr_mcx_csr(p, icm2_addr, icm2); } static void xgene_sgmac_set_frame_size(struct xgene_enet_pdata *pdata, int size) { xgene_enet_wr_mac(pdata, MAX_FRAME_LEN_ADDR, size); } static void xgene_sgmii_enable_autoneg(struct xgene_enet_pdata *p) { u32 data, loop = 10; xgene_sgmii_configure(p); while (loop--) { data = xgene_mii_phy_read(p, INT_PHY_ADDR, SGMII_STATUS_ADDR >> 2); if ((data & AUTO_NEG_COMPLETE) && (data & LINK_STATUS)) break; usleep_range(1000, 2000); } if (!(data & AUTO_NEG_COMPLETE) || !(data & LINK_STATUS)) netdev_err(p->ndev, "Auto-negotiation failed\n"); } static void xgene_sgmac_rxtx(struct xgene_enet_pdata *p, u32 bits, bool set) { u32 data; data = xgene_enet_rd_mac(p, MAC_CONFIG_1_ADDR); if (set) data |= bits; else data &= ~bits; xgene_enet_wr_mac(p, MAC_CONFIG_1_ADDR, data); } static void xgene_sgmac_flowctl_tx(struct xgene_enet_pdata *p, bool enable) { xgene_sgmac_rxtx(p, TX_FLOW_EN, enable); p->mac_ops->enable_tx_pause(p, enable); } static void xgene_sgmac_flowctl_rx(struct xgene_enet_pdata *pdata, bool enable) { xgene_sgmac_rxtx(pdata, RX_FLOW_EN, enable); } static void xgene_sgmac_init(struct xgene_enet_pdata *p) { u32 pause_thres_reg, pause_off_thres_reg; u32 enet_spare_cfg_reg, rsif_config_reg; u32 cfg_bypass_reg, rx_dv_gate_reg; u32 data, data1, data2, offset; u32 multi_dpf_reg; if (!(p->enet_id == XGENE_ENET2 && p->mdio_driver)) xgene_sgmac_reset(p); xgene_sgmii_enable_autoneg(p); xgene_sgmac_set_speed(p); xgene_sgmac_set_mac_addr(p); if (p->enet_id == XGENE_ENET1) { enet_spare_cfg_reg = ENET_SPARE_CFG_REG_ADDR; rsif_config_reg = RSIF_CONFIG_REG_ADDR; cfg_bypass_reg = CFG_BYPASS_ADDR; offset = p->port_id * OFFSET_4; rx_dv_gate_reg = SG_RX_DV_GATE_REG_0_ADDR + offset; } else { enet_spare_cfg_reg = XG_ENET_SPARE_CFG_REG_ADDR; rsif_config_reg = XG_RSIF_CONFIG_REG_ADDR; cfg_bypass_reg = XG_CFG_BYPASS_ADDR; rx_dv_gate_reg = XG_MCX_RX_DV_GATE_REG_0_ADDR; } data = xgene_enet_rd_csr(p, enet_spare_cfg_reg); data |= MPA_IDLE_WITH_QMI_EMPTY; xgene_enet_wr_csr(p, enet_spare_cfg_reg, data); /* Adjust MDC clock frequency */ data = xgene_enet_rd_mac(p, MII_MGMT_CONFIG_ADDR); MGMT_CLOCK_SEL_SET(&data, 7); xgene_enet_wr_mac(p, MII_MGMT_CONFIG_ADDR, data); /* Enable drop if bufpool not available */ data = xgene_enet_rd_csr(p, rsif_config_reg); data |= CFG_RSIF_FPBUFF_TIMEOUT_EN; xgene_enet_wr_csr(p, rsif_config_reg, data); /* Configure HW pause frame generation */ multi_dpf_reg = (p->enet_id == XGENE_ENET1) ? CSR_MULTI_DPF0_ADDR : XG_MCX_MULTI_DPF0_ADDR; data = xgene_enet_rd_mcx_csr(p, multi_dpf_reg); data = (DEF_QUANTA << 16) | (data & 0xffff); xgene_enet_wr_mcx_csr(p, multi_dpf_reg, data); if (p->enet_id != XGENE_ENET1) { data = xgene_enet_rd_mcx_csr(p, XG_MCX_MULTI_DPF1_ADDR); data = (NORM_PAUSE_OPCODE << 16) | (data & 0xFFFF); xgene_enet_wr_mcx_csr(p, XG_MCX_MULTI_DPF1_ADDR, data); } pause_thres_reg = (p->enet_id == XGENE_ENET1) ? RXBUF_PAUSE_THRESH : XG_RXBUF_PAUSE_THRESH; pause_off_thres_reg = (p->enet_id == XGENE_ENET1) ? RXBUF_PAUSE_OFF_THRESH : 0; if (p->enet_id == XGENE_ENET1) { data1 = xgene_enet_rd_csr(p, pause_thres_reg); data2 = xgene_enet_rd_csr(p, pause_off_thres_reg); if (!(p->port_id % 2)) { data1 = (data1 & 0xffff0000) | DEF_PAUSE_THRES; data2 = (data2 & 0xffff0000) | DEF_PAUSE_OFF_THRES; } else { data1 = (data1 & 0xffff) | (DEF_PAUSE_THRES << 16); data2 = (data2 & 0xffff) | (DEF_PAUSE_OFF_THRES << 16); } xgene_enet_wr_csr(p, pause_thres_reg, data1); xgene_enet_wr_csr(p, pause_off_thres_reg, data2); } else { data = (DEF_PAUSE_OFF_THRES << 16) | DEF_PAUSE_THRES; xgene_enet_wr_csr(p, pause_thres_reg, data); } xgene_sgmac_flowctl_tx(p, p->tx_pause); xgene_sgmac_flowctl_rx(p, p->rx_pause); /* Bypass traffic gating */ xgene_enet_wr_csr(p, XG_ENET_SPARE_CFG_REG_1_ADDR, 0x84); xgene_enet_wr_csr(p, cfg_bypass_reg, RESUME_TX); xgene_enet_wr_mcx_csr(p, rx_dv_gate_reg, RESUME_RX0); } static void xgene_sgmac_rx_enable(struct xgene_enet_pdata *p) { xgene_sgmac_rxtx(p, RX_EN, true); } static void xgene_sgmac_tx_enable(struct xgene_enet_pdata *p) { xgene_sgmac_rxtx(p, TX_EN, true); } static void xgene_sgmac_rx_disable(struct xgene_enet_pdata *p) { xgene_sgmac_rxtx(p, RX_EN, false); } static void xgene_sgmac_tx_disable(struct xgene_enet_pdata *p) { xgene_sgmac_rxtx(p, TX_EN, false); } static int xgene_enet_reset(struct xgene_enet_pdata *p) { struct device *dev = &p->pdev->dev; if (!xgene_ring_mgr_init(p)) return -ENODEV; if (p->mdio_driver && p->enet_id == XGENE_ENET2) { xgene_enet_config_ring_if_assoc(p); return 0; } if (p->enet_id == XGENE_ENET2) xgene_enet_wr_clkrst_csr(p, XGENET_CONFIG_REG_ADDR, SGMII_EN); if (dev->of_node) { if (!IS_ERR(p->clk)) { clk_prepare_enable(p->clk); udelay(5); clk_disable_unprepare(p->clk); udelay(5); clk_prepare_enable(p->clk); udelay(5); } } else { #ifdef CONFIG_ACPI acpi_status status; status = acpi_evaluate_object(ACPI_HANDLE(&p->pdev->dev), "_RST", NULL, NULL); if (ACPI_FAILURE(status)) { acpi_evaluate_object(ACPI_HANDLE(&p->pdev->dev), "_INI", NULL, NULL); } #endif } if (!p->port_id) { xgene_enet_ecc_init(p); xgene_enet_config_ring_if_assoc(p); } return 0; } static void xgene_enet_cle_bypass(struct xgene_enet_pdata *p, u32 dst_ring_num, u16 bufpool_id, u16 nxtbufpool_id) { u32 cle_bypass_reg0, cle_bypass_reg1; u32 offset = p->port_id * MAC_OFFSET; u32 data, fpsel, nxtfpsel; if (p->enet_id == XGENE_ENET1) { cle_bypass_reg0 = CLE_BYPASS_REG0_0_ADDR; cle_bypass_reg1 = CLE_BYPASS_REG1_0_ADDR; } else { cle_bypass_reg0 = XCLE_BYPASS_REG0_ADDR; cle_bypass_reg1 = XCLE_BYPASS_REG1_ADDR; } data = CFG_CLE_BYPASS_EN0; xgene_enet_wr_csr(p, cle_bypass_reg0 + offset, data); fpsel = xgene_enet_get_fpsel(bufpool_id); nxtfpsel = xgene_enet_get_fpsel(nxtbufpool_id); data = CFG_CLE_DSTQID0(dst_ring_num) | CFG_CLE_FPSEL0(fpsel) | CFG_CLE_NXTFPSEL0(nxtfpsel); xgene_enet_wr_csr(p, cle_bypass_reg1 + offset, data); } static void xgene_enet_clear(struct xgene_enet_pdata *pdata, struct xgene_enet_desc_ring *ring) { u32 addr, data; if (xgene_enet_is_bufpool(ring->id)) { addr = ENET_CFGSSQMIFPRESET_ADDR; data = BIT(xgene_enet_get_fpsel(ring->id)); } else { addr = ENET_CFGSSQMIWQRESET_ADDR; data = BIT(xgene_enet_ring_bufnum(ring->id)); } xgene_enet_wr_ring_if(pdata, addr, data); } static void xgene_enet_shutdown(struct xgene_enet_pdata *p) { struct device *dev = &p->pdev->dev; if (dev->of_node) { if (!IS_ERR(p->clk)) clk_disable_unprepare(p->clk); } } static void xgene_enet_link_state(struct work_struct *work) { struct xgene_enet_pdata *p = container_of(to_delayed_work(work), struct xgene_enet_pdata, link_work); struct net_device *ndev = p->ndev; u32 link, poll_interval; link = xgene_enet_link_status(p); if (link) { if (!netif_carrier_ok(ndev)) { netif_carrier_on(ndev); xgene_sgmac_set_speed(p); xgene_sgmac_rx_enable(p); xgene_sgmac_tx_enable(p); netdev_info(ndev, "Link is Up - %dMbps\n", p->phy_speed); } poll_interval = PHY_POLL_LINK_ON; } else { if (netif_carrier_ok(ndev)) { xgene_sgmac_rx_disable(p); xgene_sgmac_tx_disable(p); netif_carrier_off(ndev); netdev_info(ndev, "Link is Down\n"); } poll_interval = PHY_POLL_LINK_OFF; } schedule_delayed_work(&p->link_work, poll_interval); } static void xgene_sgmac_enable_tx_pause(struct xgene_enet_pdata *p, bool enable) { u32 data, ecm_cfg_addr; if (p->enet_id == XGENE_ENET1) { ecm_cfg_addr = (!(p->port_id % 2)) ? CSR_ECM_CFG_0_ADDR : CSR_ECM_CFG_1_ADDR; } else { ecm_cfg_addr = XG_MCX_ECM_CFG_0_ADDR; } data = xgene_enet_rd_mcx_csr(p, ecm_cfg_addr); if (enable) data |= MULTI_DPF_AUTOCTRL | PAUSE_XON_EN; else data &= ~(MULTI_DPF_AUTOCTRL | PAUSE_XON_EN); xgene_enet_wr_mcx_csr(p, ecm_cfg_addr, data); } const struct xgene_mac_ops xgene_sgmac_ops = { .init = xgene_sgmac_init, .reset = xgene_sgmac_reset, .rx_enable = xgene_sgmac_rx_enable, .tx_enable = xgene_sgmac_tx_enable, .rx_disable = xgene_sgmac_rx_disable, .tx_disable = xgene_sgmac_tx_disable, .get_drop_cnt = xgene_sgmac_get_drop_cnt, .set_speed = xgene_sgmac_set_speed, .set_mac_addr = xgene_sgmac_set_mac_addr, .set_framesize = xgene_sgmac_set_frame_size, .link_state = xgene_enet_link_state, .enable_tx_pause = xgene_sgmac_enable_tx_pause, .flowctl_tx = xgene_sgmac_flowctl_tx, .flowctl_rx = xgene_sgmac_flowctl_rx }; const struct xgene_port_ops xgene_sgport_ops = { .reset = xgene_enet_reset, .clear = xgene_enet_clear, .cle_bypass = xgene_enet_cle_bypass, .shutdown = xgene_enet_shutdown };
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