/*- * Copyright (c) 2015-2018 Mellanox Technologies. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. 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. * * THIS SOFTWARE IS PROVIDED BY AUTHOR 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 AUTHOR 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. * * $FreeBSD$ */ #include "opt_kern_tls.h" #include "en.h" #include #include #include #include #ifndef ETH_DRIVER_VERSION #define ETH_DRIVER_VERSION "3.5.2" #endif #define DRIVER_RELDATE "September 2019" static const char mlx5e_version[] = "mlx5en: Mellanox Ethernet driver " ETH_DRIVER_VERSION " (" DRIVER_RELDATE ")\n"; static int mlx5e_get_wqe_sz(struct mlx5e_priv *priv, u32 *wqe_sz, u32 *nsegs); struct mlx5e_channel_param { struct mlx5e_rq_param rq; struct mlx5e_sq_param sq; struct mlx5e_cq_param rx_cq; struct mlx5e_cq_param tx_cq; }; struct media { u32 subtype; u64 baudrate; }; static const struct media mlx5e_mode_table[MLX5E_LINK_SPEEDS_NUMBER][MLX5E_LINK_MODES_NUMBER] = { [MLX5E_1000BASE_CX_SGMII][MLX5E_SGMII] = { .subtype = IFM_1000_CX_SGMII, .baudrate = IF_Mbps(1000ULL), }, [MLX5E_1000BASE_KX][MLX5E_KX] = { .subtype = IFM_1000_KX, .baudrate = IF_Mbps(1000ULL), }, [MLX5E_10GBASE_CX4][MLX5E_CX4] = { .subtype = IFM_10G_CX4, .baudrate = IF_Gbps(10ULL), }, [MLX5E_10GBASE_KX4][MLX5E_KX4] = { .subtype = IFM_10G_KX4, .baudrate = IF_Gbps(10ULL), }, [MLX5E_10GBASE_KR][MLX5E_KR] = { .subtype = IFM_10G_KR, .baudrate = IF_Gbps(10ULL), }, [MLX5E_20GBASE_KR2][MLX5E_KR2] = { .subtype = IFM_20G_KR2, .baudrate = IF_Gbps(20ULL), }, [MLX5E_40GBASE_CR4][MLX5E_CR4] = { .subtype = IFM_40G_CR4, .baudrate = IF_Gbps(40ULL), }, [MLX5E_40GBASE_KR4][MLX5E_KR4] = { .subtype = IFM_40G_KR4, .baudrate = IF_Gbps(40ULL), }, [MLX5E_56GBASE_R4][MLX5E_R] = { .subtype = IFM_56G_R4, .baudrate = IF_Gbps(56ULL), }, [MLX5E_10GBASE_CR][MLX5E_CR1] = { .subtype = IFM_10G_CR1, .baudrate = IF_Gbps(10ULL), }, [MLX5E_10GBASE_SR][MLX5E_SR] = { .subtype = IFM_10G_SR, .baudrate = IF_Gbps(10ULL), }, [MLX5E_10GBASE_ER_LR][MLX5E_ER] = { .subtype = IFM_10G_ER, .baudrate = IF_Gbps(10ULL), }, [MLX5E_10GBASE_ER_LR][MLX5E_LR] = { .subtype = IFM_10G_LR, .baudrate = IF_Gbps(10ULL), }, [MLX5E_40GBASE_SR4][MLX5E_SR4] = { .subtype = IFM_40G_SR4, .baudrate = IF_Gbps(40ULL), }, [MLX5E_40GBASE_LR4_ER4][MLX5E_LR4] = { .subtype = IFM_40G_LR4, .baudrate = IF_Gbps(40ULL), }, [MLX5E_40GBASE_LR4_ER4][MLX5E_ER4] = { .subtype = IFM_40G_ER4, .baudrate = IF_Gbps(40ULL), }, [MLX5E_100GBASE_CR4][MLX5E_CR4] = { .subtype = IFM_100G_CR4, .baudrate = IF_Gbps(100ULL), }, [MLX5E_100GBASE_SR4][MLX5E_SR4] = { .subtype = IFM_100G_SR4, .baudrate = IF_Gbps(100ULL), }, [MLX5E_100GBASE_KR4][MLX5E_KR4] = { .subtype = IFM_100G_KR4, .baudrate = IF_Gbps(100ULL), }, [MLX5E_100GBASE_LR4][MLX5E_LR4] = { .subtype = IFM_100G_LR4, .baudrate = IF_Gbps(100ULL), }, [MLX5E_100BASE_TX][MLX5E_TX] = { .subtype = IFM_100_TX, .baudrate = IF_Mbps(100ULL), }, [MLX5E_1000BASE_T][MLX5E_T] = { .subtype = IFM_1000_T, .baudrate = IF_Mbps(1000ULL), }, [MLX5E_10GBASE_T][MLX5E_T] = { .subtype = IFM_10G_T, .baudrate = IF_Gbps(10ULL), }, [MLX5E_25GBASE_CR][MLX5E_CR] = { .subtype = IFM_25G_CR, .baudrate = IF_Gbps(25ULL), }, [MLX5E_25GBASE_KR][MLX5E_KR] = { .subtype = IFM_25G_KR, .baudrate = IF_Gbps(25ULL), }, [MLX5E_25GBASE_SR][MLX5E_SR] = { .subtype = IFM_25G_SR, .baudrate = IF_Gbps(25ULL), }, [MLX5E_50GBASE_CR2][MLX5E_CR2] = { .subtype = IFM_50G_CR2, .baudrate = IF_Gbps(50ULL), }, [MLX5E_50GBASE_KR2][MLX5E_KR2] = { .subtype = IFM_50G_KR2, .baudrate = IF_Gbps(50ULL), }, [MLX5E_50GBASE_KR4][MLX5E_KR4] = { .subtype = IFM_50G_KR4, .baudrate = IF_Gbps(50ULL), }, }; static const struct media mlx5e_ext_mode_table[MLX5E_EXT_LINK_SPEEDS_NUMBER][MLX5E_LINK_MODES_NUMBER] = { [MLX5E_SGMII_100M][MLX5E_SGMII] = { .subtype = IFM_100_SGMII, .baudrate = IF_Mbps(100), }, [MLX5E_1000BASE_X_SGMII][MLX5E_KX] = { .subtype = IFM_1000_KX, .baudrate = IF_Mbps(1000), }, [MLX5E_1000BASE_X_SGMII][MLX5E_CX_SGMII] = { .subtype = IFM_1000_CX_SGMII, .baudrate = IF_Mbps(1000), }, [MLX5E_1000BASE_X_SGMII][MLX5E_CX] = { .subtype = IFM_1000_CX, .baudrate = IF_Mbps(1000), }, [MLX5E_1000BASE_X_SGMII][MLX5E_LX] = { .subtype = IFM_1000_LX, .baudrate = IF_Mbps(1000), }, [MLX5E_1000BASE_X_SGMII][MLX5E_SX] = { .subtype = IFM_1000_SX, .baudrate = IF_Mbps(1000), }, [MLX5E_1000BASE_X_SGMII][MLX5E_T] = { .subtype = IFM_1000_T, .baudrate = IF_Mbps(1000), }, [MLX5E_5GBASE_R][MLX5E_T] = { .subtype = IFM_5000_T, .baudrate = IF_Mbps(5000), }, [MLX5E_5GBASE_R][MLX5E_KR] = { .subtype = IFM_5000_KR, .baudrate = IF_Mbps(5000), }, [MLX5E_5GBASE_R][MLX5E_KR1] = { .subtype = IFM_5000_KR1, .baudrate = IF_Mbps(5000), }, [MLX5E_5GBASE_R][MLX5E_KR_S] = { .subtype = IFM_5000_KR_S, .baudrate = IF_Mbps(5000), }, [MLX5E_10GBASE_XFI_XAUI_1][MLX5E_ER] = { .subtype = IFM_10G_ER, .baudrate = IF_Gbps(10ULL), }, [MLX5E_10GBASE_XFI_XAUI_1][MLX5E_KR] = { .subtype = IFM_10G_KR, .baudrate = IF_Gbps(10ULL), }, [MLX5E_10GBASE_XFI_XAUI_1][MLX5E_LR] = { .subtype = IFM_10G_LR, .baudrate = IF_Gbps(10ULL), }, [MLX5E_10GBASE_XFI_XAUI_1][MLX5E_SR] = { .subtype = IFM_10G_SR, .baudrate = IF_Gbps(10ULL), }, [MLX5E_10GBASE_XFI_XAUI_1][MLX5E_T] = { .subtype = IFM_10G_T, .baudrate = IF_Gbps(10ULL), }, [MLX5E_10GBASE_XFI_XAUI_1][MLX5E_AOC] = { .subtype = IFM_10G_AOC, .baudrate = IF_Gbps(10ULL), }, [MLX5E_10GBASE_XFI_XAUI_1][MLX5E_CR1] = { .subtype = IFM_10G_CR1, .baudrate = IF_Gbps(10ULL), }, [MLX5E_40GBASE_XLAUI_4_XLPPI_4][MLX5E_CR4] = { .subtype = IFM_40G_CR4, .baudrate = IF_Gbps(40ULL), }, [MLX5E_40GBASE_XLAUI_4_XLPPI_4][MLX5E_KR4] = { .subtype = IFM_40G_KR4, .baudrate = IF_Gbps(40ULL), }, [MLX5E_40GBASE_XLAUI_4_XLPPI_4][MLX5E_LR4] = { .subtype = IFM_40G_LR4, .baudrate = IF_Gbps(40ULL), }, [MLX5E_40GBASE_XLAUI_4_XLPPI_4][MLX5E_SR4] = { .subtype = IFM_40G_SR4, .baudrate = IF_Gbps(40ULL), }, [MLX5E_40GBASE_XLAUI_4_XLPPI_4][MLX5E_ER4] = { .subtype = IFM_40G_ER4, .baudrate = IF_Gbps(40ULL), }, [MLX5E_25GAUI_1_25GBASE_CR_KR][MLX5E_CR] = { .subtype = IFM_25G_CR, .baudrate = IF_Gbps(25ULL), }, [MLX5E_25GAUI_1_25GBASE_CR_KR][MLX5E_KR] = { .subtype = IFM_25G_KR, .baudrate = IF_Gbps(25ULL), }, [MLX5E_25GAUI_1_25GBASE_CR_KR][MLX5E_SR] = { .subtype = IFM_25G_SR, .baudrate = IF_Gbps(25ULL), }, [MLX5E_25GAUI_1_25GBASE_CR_KR][MLX5E_ACC] = { .subtype = IFM_25G_ACC, .baudrate = IF_Gbps(25ULL), }, [MLX5E_25GAUI_1_25GBASE_CR_KR][MLX5E_AOC] = { .subtype = IFM_25G_AOC, .baudrate = IF_Gbps(25ULL), }, [MLX5E_25GAUI_1_25GBASE_CR_KR][MLX5E_CR1] = { .subtype = IFM_25G_CR1, .baudrate = IF_Gbps(25ULL), }, [MLX5E_25GAUI_1_25GBASE_CR_KR][MLX5E_CR_S] = { .subtype = IFM_25G_CR_S, .baudrate = IF_Gbps(25ULL), }, [MLX5E_25GAUI_1_25GBASE_CR_KR][MLX5E_KR1] = { .subtype = IFM_5000_KR1, .baudrate = IF_Gbps(25ULL), }, [MLX5E_25GAUI_1_25GBASE_CR_KR][MLX5E_KR_S] = { .subtype = IFM_25G_KR_S, .baudrate = IF_Gbps(25ULL), }, [MLX5E_25GAUI_1_25GBASE_CR_KR][MLX5E_LR] = { .subtype = IFM_25G_LR, .baudrate = IF_Gbps(25ULL), }, [MLX5E_25GAUI_1_25GBASE_CR_KR][MLX5E_T] = { .subtype = IFM_25G_T, .baudrate = IF_Gbps(25ULL), }, [MLX5E_50GAUI_2_LAUI_2_50GBASE_CR2_KR2][MLX5E_CR2] = { .subtype = IFM_50G_CR2, .baudrate = IF_Gbps(50ULL), }, [MLX5E_50GAUI_2_LAUI_2_50GBASE_CR2_KR2][MLX5E_KR2] = { .subtype = IFM_50G_KR2, .baudrate = IF_Gbps(50ULL), }, [MLX5E_50GAUI_2_LAUI_2_50GBASE_CR2_KR2][MLX5E_KR4] = { .subtype = IFM_50G_KR4, .baudrate = IF_Gbps(50ULL), }, [MLX5E_50GAUI_2_LAUI_2_50GBASE_CR2_KR2][MLX5E_SR2] = { .subtype = IFM_50G_SR2, .baudrate = IF_Gbps(50ULL), }, [MLX5E_50GAUI_2_LAUI_2_50GBASE_CR2_KR2][MLX5E_LR2] = { .subtype = IFM_50G_LR2, .baudrate = IF_Gbps(50ULL), }, [MLX5E_50GAUI_1_LAUI_1_50GBASE_CR_KR][MLX5E_LR] = { .subtype = IFM_50G_LR, .baudrate = IF_Gbps(50ULL), }, [MLX5E_50GAUI_1_LAUI_1_50GBASE_CR_KR][MLX5E_SR] = { .subtype = IFM_50G_SR, .baudrate = IF_Gbps(50ULL), }, [MLX5E_50GAUI_1_LAUI_1_50GBASE_CR_KR][MLX5E_CP] = { .subtype = IFM_50G_CP, .baudrate = IF_Gbps(50ULL), }, [MLX5E_50GAUI_1_LAUI_1_50GBASE_CR_KR][MLX5E_FR] = { .subtype = IFM_50G_FR, .baudrate = IF_Gbps(50ULL), }, [MLX5E_50GAUI_1_LAUI_1_50GBASE_CR_KR][MLX5E_KR_PAM4] = { .subtype = IFM_50G_KR_PAM4, .baudrate = IF_Gbps(50ULL), }, [MLX5E_CAUI_4_100GBASE_CR4_KR4][MLX5E_CR4] = { .subtype = IFM_100G_CR4, .baudrate = IF_Gbps(100ULL), }, [MLX5E_CAUI_4_100GBASE_CR4_KR4][MLX5E_KR4] = { .subtype = IFM_100G_KR4, .baudrate = IF_Gbps(100ULL), }, [MLX5E_CAUI_4_100GBASE_CR4_KR4][MLX5E_LR4] = { .subtype = IFM_100G_LR4, .baudrate = IF_Gbps(100ULL), }, [MLX5E_CAUI_4_100GBASE_CR4_KR4][MLX5E_SR4] = { .subtype = IFM_100G_SR4, .baudrate = IF_Gbps(100ULL), }, [MLX5E_100GAUI_2_100GBASE_CR2_KR2][MLX5E_SR2] = { .subtype = IFM_100G_SR2, .baudrate = IF_Gbps(100ULL), }, [MLX5E_100GAUI_2_100GBASE_CR2_KR2][MLX5E_CP2] = { .subtype = IFM_100G_CP2, .baudrate = IF_Gbps(100ULL), }, [MLX5E_100GAUI_2_100GBASE_CR2_KR2][MLX5E_KR2_PAM4] = { .subtype = IFM_100G_KR2_PAM4, .baudrate = IF_Gbps(100ULL), }, [MLX5E_200GAUI_4_200GBASE_CR4_KR4][MLX5E_DR4] = { .subtype = IFM_200G_DR4, .baudrate = IF_Gbps(200ULL), }, [MLX5E_200GAUI_4_200GBASE_CR4_KR4][MLX5E_LR4] = { .subtype = IFM_200G_LR4, .baudrate = IF_Gbps(200ULL), }, [MLX5E_200GAUI_4_200GBASE_CR4_KR4][MLX5E_SR4] = { .subtype = IFM_200G_SR4, .baudrate = IF_Gbps(200ULL), }, [MLX5E_200GAUI_4_200GBASE_CR4_KR4][MLX5E_FR4] = { .subtype = IFM_200G_FR4, .baudrate = IF_Gbps(200ULL), }, [MLX5E_200GAUI_4_200GBASE_CR4_KR4][MLX5E_CR4_PAM4] = { .subtype = IFM_200G_CR4_PAM4, .baudrate = IF_Gbps(200ULL), }, [MLX5E_200GAUI_4_200GBASE_CR4_KR4][MLX5E_KR4_PAM4] = { .subtype = IFM_200G_KR4_PAM4, .baudrate = IF_Gbps(200ULL), }, }; DEBUGNET_DEFINE(mlx5_en); MALLOC_DEFINE(M_MLX5EN, "MLX5EN", "MLX5 Ethernet"); static void mlx5e_update_carrier(struct mlx5e_priv *priv) { struct mlx5_core_dev *mdev = priv->mdev; u32 out[MLX5_ST_SZ_DW(ptys_reg)]; u32 eth_proto_oper; int error; u8 port_state; u8 is_er_type; u8 i, j; bool ext; struct media media_entry = {}; port_state = mlx5_query_vport_state(mdev, MLX5_QUERY_VPORT_STATE_IN_OP_MOD_VNIC_VPORT, 0); if (port_state == VPORT_STATE_UP) { priv->media_status_last |= IFM_ACTIVE; } else { priv->media_status_last &= ~IFM_ACTIVE; priv->media_active_last = IFM_ETHER; if_link_state_change(priv->ifp, LINK_STATE_DOWN); return; } error = mlx5_query_port_ptys(mdev, out, sizeof(out), MLX5_PTYS_EN, 1); if (error) { priv->media_active_last = IFM_ETHER; priv->ifp->if_baudrate = 1; mlx5_en_err(priv->ifp, "query port ptys failed: 0x%x\n", error); return; } ext = MLX5_CAP_PCAM_FEATURE(mdev, ptys_extended_ethernet); eth_proto_oper = MLX5_GET_ETH_PROTO(ptys_reg, out, ext, eth_proto_oper); i = ilog2(eth_proto_oper); for (j = 0; j != MLX5E_LINK_MODES_NUMBER; j++) { media_entry = ext ? mlx5e_ext_mode_table[i][j] : mlx5e_mode_table[i][j]; if (media_entry.baudrate != 0) break; } if (media_entry.subtype == 0) { mlx5_en_err(priv->ifp, "Could not find operational media subtype\n"); return; } switch (media_entry.subtype) { case IFM_10G_ER: error = mlx5_query_pddr_range_info(mdev, 1, &is_er_type); if (error != 0) { mlx5_en_err(priv->ifp, "query port pddr failed: %d\n", error); } if (error != 0 || is_er_type == 0) media_entry.subtype = IFM_10G_LR; break; case IFM_40G_LR4: error = mlx5_query_pddr_range_info(mdev, 1, &is_er_type); if (error != 0) { mlx5_en_err(priv->ifp, "query port pddr failed: %d\n", error); } if (error == 0 && is_er_type != 0) media_entry.subtype = IFM_40G_ER4; break; } priv->media_active_last = media_entry.subtype | IFM_ETHER | IFM_FDX; priv->ifp->if_baudrate = media_entry.baudrate; if_link_state_change(priv->ifp, LINK_STATE_UP); } static void mlx5e_media_status(struct ifnet *dev, struct ifmediareq *ifmr) { struct mlx5e_priv *priv = dev->if_softc; ifmr->ifm_status = priv->media_status_last; ifmr->ifm_active = priv->media_active_last | (priv->params.rx_pauseframe_control ? IFM_ETH_RXPAUSE : 0) | (priv->params.tx_pauseframe_control ? IFM_ETH_TXPAUSE : 0); } static u32 mlx5e_find_link_mode(u32 subtype, bool ext) { u32 i; u32 j; u32 link_mode = 0; u32 speeds_num = 0; struct media media_entry = {}; switch (subtype) { case IFM_10G_LR: subtype = IFM_10G_ER; break; case IFM_40G_ER4: subtype = IFM_40G_LR4; break; } speeds_num = ext ? MLX5E_EXT_LINK_SPEEDS_NUMBER : MLX5E_LINK_SPEEDS_NUMBER; for (i = 0; i != speeds_num; i++) { for (j = 0; j < MLX5E_LINK_MODES_NUMBER ; ++j) { media_entry = ext ? mlx5e_ext_mode_table[i][j] : mlx5e_mode_table[i][j]; if (media_entry.baudrate == 0) continue; if (media_entry.subtype == subtype) { link_mode |= MLX5E_PROT_MASK(i); } } } return (link_mode); } static int mlx5e_set_port_pause_and_pfc(struct mlx5e_priv *priv) { return (mlx5_set_port_pause_and_pfc(priv->mdev, 1, priv->params.rx_pauseframe_control, priv->params.tx_pauseframe_control, priv->params.rx_priority_flow_control, priv->params.tx_priority_flow_control)); } static int mlx5e_set_port_pfc(struct mlx5e_priv *priv) { int error; if (priv->gone != 0) { error = -ENXIO; } else if (priv->params.rx_pauseframe_control || priv->params.tx_pauseframe_control) { mlx5_en_err(priv->ifp, "Global pauseframes must be disabled before enabling PFC.\n"); error = -EINVAL; } else { error = mlx5e_set_port_pause_and_pfc(priv); } return (error); } static int mlx5e_media_change(struct ifnet *dev) { struct mlx5e_priv *priv = dev->if_softc; struct mlx5_core_dev *mdev = priv->mdev; u32 eth_proto_cap; u32 link_mode; u32 out[MLX5_ST_SZ_DW(ptys_reg)]; int was_opened; int locked; int error; bool ext; locked = PRIV_LOCKED(priv); if (!locked) PRIV_LOCK(priv); if (IFM_TYPE(priv->media.ifm_media) != IFM_ETHER) { error = EINVAL; goto done; } error = mlx5_query_port_ptys(mdev, out, sizeof(out), MLX5_PTYS_EN, 1); if (error != 0) { mlx5_en_err(dev, "Query port media capability failed\n"); goto done; } ext = MLX5_CAP_PCAM_FEATURE(mdev, ptys_extended_ethernet); link_mode = mlx5e_find_link_mode(IFM_SUBTYPE(priv->media.ifm_media), ext); /* query supported capabilities */ eth_proto_cap = MLX5_GET_ETH_PROTO(ptys_reg, out, ext, eth_proto_capability); /* check for autoselect */ if (IFM_SUBTYPE(priv->media.ifm_media) == IFM_AUTO) { link_mode = eth_proto_cap; if (link_mode == 0) { mlx5_en_err(dev, "Port media capability is zero\n"); error = EINVAL; goto done; } } else { link_mode = link_mode & eth_proto_cap; if (link_mode == 0) { mlx5_en_err(dev, "Not supported link mode requested\n"); error = EINVAL; goto done; } } if (priv->media.ifm_media & (IFM_ETH_RXPAUSE | IFM_ETH_TXPAUSE)) { /* check if PFC is enabled */ if (priv->params.rx_priority_flow_control || priv->params.tx_priority_flow_control) { mlx5_en_err(dev, "PFC must be disabled before enabling global pauseframes.\n"); error = EINVAL; goto done; } } /* update pauseframe control bits */ priv->params.rx_pauseframe_control = (priv->media.ifm_media & IFM_ETH_RXPAUSE) ? 1 : 0; priv->params.tx_pauseframe_control = (priv->media.ifm_media & IFM_ETH_TXPAUSE) ? 1 : 0; /* check if device is opened */ was_opened = test_bit(MLX5E_STATE_OPENED, &priv->state); /* reconfigure the hardware */ mlx5_set_port_status(mdev, MLX5_PORT_DOWN); mlx5_set_port_proto(mdev, link_mode, MLX5_PTYS_EN, ext); error = -mlx5e_set_port_pause_and_pfc(priv); if (was_opened) mlx5_set_port_status(mdev, MLX5_PORT_UP); done: if (!locked) PRIV_UNLOCK(priv); return (error); } static void mlx5e_update_carrier_work(struct work_struct *work) { struct mlx5e_priv *priv = container_of(work, struct mlx5e_priv, update_carrier_work); PRIV_LOCK(priv); if (test_bit(MLX5E_STATE_OPENED, &priv->state)) mlx5e_update_carrier(priv); PRIV_UNLOCK(priv); } #define MLX5E_PCIE_PERF_GET_64(a,b,c,d,e,f) \ s_debug->c = MLX5_GET64(mpcnt_reg, out, counter_set.f.c); #define MLX5E_PCIE_PERF_GET_32(a,b,c,d,e,f) \ s_debug->c = MLX5_GET(mpcnt_reg, out, counter_set.f.c); static void mlx5e_update_pcie_counters(struct mlx5e_priv *priv) { struct mlx5_core_dev *mdev = priv->mdev; struct mlx5e_port_stats_debug *s_debug = &priv->stats.port_stats_debug; const unsigned sz = MLX5_ST_SZ_BYTES(mpcnt_reg); void *out; void *in; int err; /* allocate firmware request structures */ in = mlx5_vzalloc(sz); out = mlx5_vzalloc(sz); if (in == NULL || out == NULL) goto free_out; MLX5_SET(mpcnt_reg, in, grp, MLX5_PCIE_PERFORMANCE_COUNTERS_GROUP); err = mlx5_core_access_reg(mdev, in, sz, out, sz, MLX5_REG_MPCNT, 0, 0); if (err != 0) goto free_out; MLX5E_PCIE_PERFORMANCE_COUNTERS_64(MLX5E_PCIE_PERF_GET_64) MLX5E_PCIE_PERFORMANCE_COUNTERS_32(MLX5E_PCIE_PERF_GET_32) MLX5_SET(mpcnt_reg, in, grp, MLX5_PCIE_TIMERS_AND_STATES_COUNTERS_GROUP); err = mlx5_core_access_reg(mdev, in, sz, out, sz, MLX5_REG_MPCNT, 0, 0); if (err != 0) goto free_out; MLX5E_PCIE_TIMERS_AND_STATES_COUNTERS_32(MLX5E_PCIE_PERF_GET_32) MLX5_SET(mpcnt_reg, in, grp, MLX5_PCIE_LANE_COUNTERS_GROUP); err = mlx5_core_access_reg(mdev, in, sz, out, sz, MLX5_REG_MPCNT, 0, 0); if (err != 0) goto free_out; MLX5E_PCIE_LANE_COUNTERS_32(MLX5E_PCIE_PERF_GET_32) free_out: /* free firmware request structures */ kvfree(in); kvfree(out); } /* * This function reads the physical port counters from the firmware * using a pre-defined layout defined by various MLX5E_PPORT_XXX() * macros. The output is converted from big-endian 64-bit values into * host endian ones and stored in the "priv->stats.pport" structure. */ static void mlx5e_update_pport_counters(struct mlx5e_priv *priv) { struct mlx5_core_dev *mdev = priv->mdev; struct mlx5e_pport_stats *s = &priv->stats.pport; struct mlx5e_port_stats_debug *s_debug = &priv->stats.port_stats_debug; u32 *in; u32 *out; const u64 *ptr; unsigned sz = MLX5_ST_SZ_BYTES(ppcnt_reg); unsigned x; unsigned y; unsigned z; /* allocate firmware request structures */ in = mlx5_vzalloc(sz); out = mlx5_vzalloc(sz); if (in == NULL || out == NULL) goto free_out; /* * Get pointer to the 64-bit counter set which is located at a * fixed offset in the output firmware request structure: */ ptr = (const uint64_t *)MLX5_ADDR_OF(ppcnt_reg, out, counter_set); MLX5_SET(ppcnt_reg, in, local_port, 1); /* read IEEE802_3 counter group using predefined counter layout */ MLX5_SET(ppcnt_reg, in, grp, MLX5_IEEE_802_3_COUNTERS_GROUP); mlx5_core_access_reg(mdev, in, sz, out, sz, MLX5_REG_PPCNT, 0, 0); for (x = 0, y = MLX5E_PPORT_PER_PRIO_STATS_NUM; x != MLX5E_PPORT_IEEE802_3_STATS_NUM; x++, y++) s->arg[y] = be64toh(ptr[x]); /* read RFC2819 counter group using predefined counter layout */ MLX5_SET(ppcnt_reg, in, grp, MLX5_RFC_2819_COUNTERS_GROUP); mlx5_core_access_reg(mdev, in, sz, out, sz, MLX5_REG_PPCNT, 0, 0); for (x = 0; x != MLX5E_PPORT_RFC2819_STATS_NUM; x++, y++) s->arg[y] = be64toh(ptr[x]); for (y = 0; x != MLX5E_PPORT_RFC2819_STATS_NUM + MLX5E_PPORT_RFC2819_STATS_DEBUG_NUM; x++, y++) s_debug->arg[y] = be64toh(ptr[x]); /* read RFC2863 counter group using predefined counter layout */ MLX5_SET(ppcnt_reg, in, grp, MLX5_RFC_2863_COUNTERS_GROUP); mlx5_core_access_reg(mdev, in, sz, out, sz, MLX5_REG_PPCNT, 0, 0); for (x = 0; x != MLX5E_PPORT_RFC2863_STATS_DEBUG_NUM; x++, y++) s_debug->arg[y] = be64toh(ptr[x]); /* read physical layer stats counter group using predefined counter layout */ MLX5_SET(ppcnt_reg, in, grp, MLX5_PHYSICAL_LAYER_COUNTERS_GROUP); mlx5_core_access_reg(mdev, in, sz, out, sz, MLX5_REG_PPCNT, 0, 0); for (x = 0; x != MLX5E_PPORT_PHYSICAL_LAYER_STATS_DEBUG_NUM; x++, y++) s_debug->arg[y] = be64toh(ptr[x]); /* read Extended Ethernet counter group using predefined counter layout */ MLX5_SET(ppcnt_reg, in, grp, MLX5_ETHERNET_EXTENDED_COUNTERS_GROUP); mlx5_core_access_reg(mdev, in, sz, out, sz, MLX5_REG_PPCNT, 0, 0); for (x = 0; x != MLX5E_PPORT_ETHERNET_EXTENDED_STATS_DEBUG_NUM; x++, y++) s_debug->arg[y] = be64toh(ptr[x]); /* read Extended Statistical Group */ if (MLX5_CAP_GEN(mdev, pcam_reg) && MLX5_CAP_PCAM_FEATURE(mdev, ppcnt_statistical_group) && MLX5_CAP_PCAM_FEATURE(mdev, per_lane_error_counters)) { /* read Extended Statistical counter group using predefined counter layout */ MLX5_SET(ppcnt_reg, in, grp, MLX5_PHYSICAL_LAYER_STATISTICAL_GROUP); mlx5_core_access_reg(mdev, in, sz, out, sz, MLX5_REG_PPCNT, 0, 0); for (x = 0; x != MLX5E_PPORT_STATISTICAL_DEBUG_NUM; x++, y++) s_debug->arg[y] = be64toh(ptr[x]); } /* read PCIE counters */ mlx5e_update_pcie_counters(priv); /* read per-priority counters */ MLX5_SET(ppcnt_reg, in, grp, MLX5_PER_PRIORITY_COUNTERS_GROUP); /* iterate all the priorities */ for (y = z = 0; z != MLX5E_PPORT_PER_PRIO_STATS_NUM_PRIO; z++) { MLX5_SET(ppcnt_reg, in, prio_tc, z); mlx5_core_access_reg(mdev, in, sz, out, sz, MLX5_REG_PPCNT, 0, 0); /* read per priority stats counter group using predefined counter layout */ for (x = 0; x != (MLX5E_PPORT_PER_PRIO_STATS_NUM / MLX5E_PPORT_PER_PRIO_STATS_NUM_PRIO); x++, y++) s->arg[y] = be64toh(ptr[x]); } free_out: /* free firmware request structures */ kvfree(in); kvfree(out); } static void mlx5e_grp_vnic_env_update_stats(struct mlx5e_priv *priv) { u32 out[MLX5_ST_SZ_DW(query_vnic_env_out)] = {}; u32 in[MLX5_ST_SZ_DW(query_vnic_env_in)] = {}; if (!MLX5_CAP_GEN(priv->mdev, nic_receive_steering_discard)) return; MLX5_SET(query_vnic_env_in, in, opcode, MLX5_CMD_OP_QUERY_VNIC_ENV); MLX5_SET(query_vnic_env_in, in, op_mod, 0); MLX5_SET(query_vnic_env_in, in, other_vport, 0); if (mlx5_cmd_exec(priv->mdev, in, sizeof(in), out, sizeof(out)) != 0) return; priv->stats.vport.rx_steer_missed_packets = MLX5_GET64(query_vnic_env_out, out, vport_env.nic_receive_steering_discard); } /* * This function is called regularly to collect all statistics * counters from the firmware. The values can be viewed through the * sysctl interface. Execution is serialized using the priv's global * configuration lock. */ static void mlx5e_update_stats_locked(struct mlx5e_priv *priv) { struct mlx5_core_dev *mdev = priv->mdev; struct mlx5e_vport_stats *s = &priv->stats.vport; struct mlx5e_sq_stats *sq_stats; #if (__FreeBSD_version < 1100000) struct ifnet *ifp = priv->ifp; #endif u32 in[MLX5_ST_SZ_DW(query_vport_counter_in)]; u32 *out; int outlen = MLX5_ST_SZ_BYTES(query_vport_counter_out); u64 tso_packets = 0; u64 tso_bytes = 0; u64 tx_queue_dropped = 0; u64 tx_defragged = 0; u64 tx_offload_none = 0; u64 lro_packets = 0; u64 lro_bytes = 0; u64 sw_lro_queued = 0; u64 sw_lro_flushed = 0; u64 rx_csum_none = 0; u64 rx_wqe_err = 0; u64 rx_packets = 0; u64 rx_bytes = 0; u32 rx_out_of_buffer = 0; int error; int i; int j; out = mlx5_vzalloc(outlen); if (out == NULL) goto free_out; /* Collect firts the SW counters and then HW for consistency */ for (i = 0; i < priv->params.num_channels; i++) { struct mlx5e_channel *pch = priv->channel + i; struct mlx5e_rq *rq = &pch->rq; struct mlx5e_rq_stats *rq_stats = &pch->rq.stats; /* collect stats from LRO */ rq_stats->sw_lro_queued = rq->lro.lro_queued; rq_stats->sw_lro_flushed = rq->lro.lro_flushed; sw_lro_queued += rq_stats->sw_lro_queued; sw_lro_flushed += rq_stats->sw_lro_flushed; lro_packets += rq_stats->lro_packets; lro_bytes += rq_stats->lro_bytes; rx_csum_none += rq_stats->csum_none; rx_wqe_err += rq_stats->wqe_err; rx_packets += rq_stats->packets; rx_bytes += rq_stats->bytes; for (j = 0; j < priv->num_tc; j++) { sq_stats = &pch->sq[j].stats; tso_packets += sq_stats->tso_packets; tso_bytes += sq_stats->tso_bytes; tx_queue_dropped += sq_stats->dropped; tx_queue_dropped += sq_stats->enobuf; tx_defragged += sq_stats->defragged; tx_offload_none += sq_stats->csum_offload_none; } } /* update counters */ s->tso_packets = tso_packets; s->tso_bytes = tso_bytes; s->tx_queue_dropped = tx_queue_dropped; s->tx_defragged = tx_defragged; s->lro_packets = lro_packets; s->lro_bytes = lro_bytes; s->sw_lro_queued = sw_lro_queued; s->sw_lro_flushed = sw_lro_flushed; s->rx_csum_none = rx_csum_none; s->rx_wqe_err = rx_wqe_err; s->rx_packets = rx_packets; s->rx_bytes = rx_bytes; mlx5e_grp_vnic_env_update_stats(priv); /* HW counters */ memset(in, 0, sizeof(in)); MLX5_SET(query_vport_counter_in, in, opcode, MLX5_CMD_OP_QUERY_VPORT_COUNTER); MLX5_SET(query_vport_counter_in, in, op_mod, 0); MLX5_SET(query_vport_counter_in, in, other_vport, 0); memset(out, 0, outlen); /* get number of out-of-buffer drops first */ if (test_bit(MLX5E_STATE_OPENED, &priv->state) != 0 && mlx5_vport_query_out_of_rx_buffer(mdev, priv->counter_set_id, &rx_out_of_buffer) == 0) { s->rx_out_of_buffer = rx_out_of_buffer; } /* get port statistics */ if (mlx5_cmd_exec(mdev, in, sizeof(in), out, outlen) == 0) { #define MLX5_GET_CTR(out, x) \ MLX5_GET64(query_vport_counter_out, out, x) s->rx_error_packets = MLX5_GET_CTR(out, received_errors.packets); s->rx_error_bytes = MLX5_GET_CTR(out, received_errors.octets); s->tx_error_packets = MLX5_GET_CTR(out, transmit_errors.packets); s->tx_error_bytes = MLX5_GET_CTR(out, transmit_errors.octets); s->rx_unicast_packets = MLX5_GET_CTR(out, received_eth_unicast.packets); s->rx_unicast_bytes = MLX5_GET_CTR(out, received_eth_unicast.octets); s->tx_unicast_packets = MLX5_GET_CTR(out, transmitted_eth_unicast.packets); s->tx_unicast_bytes = MLX5_GET_CTR(out, transmitted_eth_unicast.octets); s->rx_multicast_packets = MLX5_GET_CTR(out, received_eth_multicast.packets); s->rx_multicast_bytes = MLX5_GET_CTR(out, received_eth_multicast.octets); s->tx_multicast_packets = MLX5_GET_CTR(out, transmitted_eth_multicast.packets); s->tx_multicast_bytes = MLX5_GET_CTR(out, transmitted_eth_multicast.octets); s->rx_broadcast_packets = MLX5_GET_CTR(out, received_eth_broadcast.packets); s->rx_broadcast_bytes = MLX5_GET_CTR(out, received_eth_broadcast.octets); s->tx_broadcast_packets = MLX5_GET_CTR(out, transmitted_eth_broadcast.packets); s->tx_broadcast_bytes = MLX5_GET_CTR(out, transmitted_eth_broadcast.octets); s->tx_packets = s->tx_unicast_packets + s->tx_multicast_packets + s->tx_broadcast_packets; s->tx_bytes = s->tx_unicast_bytes + s->tx_multicast_bytes + s->tx_broadcast_bytes; /* Update calculated offload counters */ s->tx_csum_offload = s->tx_packets - tx_offload_none; s->rx_csum_good = s->rx_packets - s->rx_csum_none; } /* Get physical port counters */ mlx5e_update_pport_counters(priv); s->tx_jumbo_packets = priv->stats.port_stats_debug.tx_stat_p1519to2047octets + priv->stats.port_stats_debug.tx_stat_p2048to4095octets + priv->stats.port_stats_debug.tx_stat_p4096to8191octets + priv->stats.port_stats_debug.tx_stat_p8192to10239octets; #if (__FreeBSD_version < 1100000) /* no get_counters interface in fbsd 10 */ ifp->if_ipackets = s->rx_packets; ifp->if_ierrors = priv->stats.pport.in_range_len_errors + priv->stats.pport.out_of_range_len + priv->stats.pport.too_long_errors + priv->stats.pport.check_seq_err + priv->stats.pport.alignment_err; ifp->if_iqdrops = s->rx_out_of_buffer; ifp->if_opackets = s->tx_packets; ifp->if_oerrors = priv->stats.port_stats_debug.out_discards; ifp->if_snd.ifq_drops = s->tx_queue_dropped; ifp->if_ibytes = s->rx_bytes; ifp->if_obytes = s->tx_bytes; ifp->if_collisions = priv->stats.pport.collisions; #endif free_out: kvfree(out); /* Update diagnostics, if any */ if (priv->params_ethtool.diag_pci_enable || priv->params_ethtool.diag_general_enable) { error = mlx5_core_get_diagnostics_full(mdev, priv->params_ethtool.diag_pci_enable ? &priv->params_pci : NULL, priv->params_ethtool.diag_general_enable ? &priv->params_general : NULL); if (error != 0) mlx5_en_err(priv->ifp, "Failed reading diagnostics: %d\n", error); } /* Update FEC, if any */ error = mlx5e_fec_update(priv); if (error != 0 && error != EOPNOTSUPP) { mlx5_en_err(priv->ifp, "Updating FEC failed: %d\n", error); } /* Update temperature, if any */ if (priv->params_ethtool.hw_num_temp != 0) { error = mlx5e_hw_temperature_update(priv); if (error != 0 && error != EOPNOTSUPP) { mlx5_en_err(priv->ifp, "Updating temperature failed: %d\n", error); } } } static void mlx5e_update_stats_work(struct work_struct *work) { struct mlx5e_priv *priv; priv = container_of(work, struct mlx5e_priv, update_stats_work); PRIV_LOCK(priv); if (test_bit(MLX5E_STATE_OPENED, &priv->state) != 0 && !test_bit(MLX5_INTERFACE_STATE_TEARDOWN, &priv->mdev->intf_state)) mlx5e_update_stats_locked(priv); PRIV_UNLOCK(priv); } static void mlx5e_update_stats(void *arg) { struct mlx5e_priv *priv = arg; queue_work(priv->wq, &priv->update_stats_work); callout_reset(&priv->watchdog, hz / 4, &mlx5e_update_stats, priv); } static void mlx5e_async_event_sub(struct mlx5e_priv *priv, enum mlx5_dev_event event) { switch (event) { case MLX5_DEV_EVENT_PORT_UP: case MLX5_DEV_EVENT_PORT_DOWN: queue_work(priv->wq, &priv->update_carrier_work); break; default: break; } } static void mlx5e_async_event(struct mlx5_core_dev *mdev, void *vpriv, enum mlx5_dev_event event, unsigned long param) { struct mlx5e_priv *priv = vpriv; mtx_lock(&priv->async_events_mtx); if (test_bit(MLX5E_STATE_ASYNC_EVENTS_ENABLE, &priv->state)) mlx5e_async_event_sub(priv, event); mtx_unlock(&priv->async_events_mtx); } static void mlx5e_enable_async_events(struct mlx5e_priv *priv) { set_bit(MLX5E_STATE_ASYNC_EVENTS_ENABLE, &priv->state); } static void mlx5e_disable_async_events(struct mlx5e_priv *priv) { mtx_lock(&priv->async_events_mtx); clear_bit(MLX5E_STATE_ASYNC_EVENTS_ENABLE, &priv->state); mtx_unlock(&priv->async_events_mtx); } static void mlx5e_calibration_callout(void *arg); static int mlx5e_calibration_duration = 20; static int mlx5e_fast_calibration = 1; static int mlx5e_normal_calibration = 30; static SYSCTL_NODE(_hw_mlx5, OID_AUTO, calibr, CTLFLAG_RW | CTLFLAG_MPSAFE, 0, "MLX5 timestamp calibration parameteres"); SYSCTL_INT(_hw_mlx5_calibr, OID_AUTO, duration, CTLFLAG_RWTUN, &mlx5e_calibration_duration, 0, "Duration of initial calibration"); SYSCTL_INT(_hw_mlx5_calibr, OID_AUTO, fast, CTLFLAG_RWTUN, &mlx5e_fast_calibration, 0, "Recalibration interval during initial calibration"); SYSCTL_INT(_hw_mlx5_calibr, OID_AUTO, normal, CTLFLAG_RWTUN, &mlx5e_normal_calibration, 0, "Recalibration interval during normal operations"); /* * Ignites the calibration process. */ static void mlx5e_reset_calibration_callout(struct mlx5e_priv *priv) { if (priv->clbr_done == 0) mlx5e_calibration_callout(priv); else callout_reset_curcpu(&priv->tstmp_clbr, (priv->clbr_done < mlx5e_calibration_duration ? mlx5e_fast_calibration : mlx5e_normal_calibration) * hz, mlx5e_calibration_callout, priv); } static uint64_t mlx5e_timespec2usec(const struct timespec *ts) { return ((uint64_t)ts->tv_sec * 1000000000 + ts->tv_nsec); } static uint64_t mlx5e_hw_clock(struct mlx5e_priv *priv) { struct mlx5_init_seg *iseg; uint32_t hw_h, hw_h1, hw_l; iseg = priv->mdev->iseg; do { hw_h = ioread32be(&iseg->internal_timer_h); hw_l = ioread32be(&iseg->internal_timer_l); hw_h1 = ioread32be(&iseg->internal_timer_h); } while (hw_h1 != hw_h); return (((uint64_t)hw_h << 32) | hw_l); } /* * The calibration callout, it runs either in the context of the * thread which enables calibration, or in callout. It takes the * snapshot of system and adapter clocks, then advances the pointers to * the calibration point to allow rx path to read the consistent data * lockless. */ static void mlx5e_calibration_callout(void *arg) { struct mlx5e_priv *priv; struct mlx5e_clbr_point *next, *curr; struct timespec ts; int clbr_curr_next; priv = arg; curr = &priv->clbr_points[priv->clbr_curr]; clbr_curr_next = priv->clbr_curr + 1; if (clbr_curr_next >= nitems(priv->clbr_points)) clbr_curr_next = 0; next = &priv->clbr_points[clbr_curr_next]; next->base_prev = curr->base_curr; next->clbr_hw_prev = curr->clbr_hw_curr; next->clbr_hw_curr = mlx5e_hw_clock(priv); if (((next->clbr_hw_curr - curr->clbr_hw_curr) >> MLX5E_TSTMP_PREC) == 0) { if (priv->clbr_done != 0) { mlx5_en_err(priv->ifp, "HW failed tstmp frozen %#jx %#jx, disabling\n", next->clbr_hw_curr, curr->clbr_hw_prev); priv->clbr_done = 0; } atomic_store_rel_int(&curr->clbr_gen, 0); return; } nanouptime(&ts); next->base_curr = mlx5e_timespec2usec(&ts); curr->clbr_gen = 0; atomic_thread_fence_rel(); priv->clbr_curr = clbr_curr_next; atomic_store_rel_int(&next->clbr_gen, ++(priv->clbr_gen)); if (priv->clbr_done < mlx5e_calibration_duration) priv->clbr_done++; mlx5e_reset_calibration_callout(priv); } static const char *mlx5e_rq_stats_desc[] = { MLX5E_RQ_STATS(MLX5E_STATS_DESC) }; static int mlx5e_create_rq(struct mlx5e_channel *c, struct mlx5e_rq_param *param, struct mlx5e_rq *rq) { struct mlx5e_priv *priv = c->priv; struct mlx5_core_dev *mdev = priv->mdev; char buffer[16]; void *rqc = param->rqc; void *rqc_wq = MLX5_ADDR_OF(rqc, rqc, wq); int wq_sz; int err; int i; u32 nsegs, wqe_sz; err = mlx5e_get_wqe_sz(priv, &wqe_sz, &nsegs); if (err != 0) goto done; /* Create DMA descriptor TAG */ if ((err = -bus_dma_tag_create( bus_get_dma_tag(mdev->pdev->dev.bsddev), 1, /* any alignment */ 0, /* no boundary */ BUS_SPACE_MAXADDR, /* lowaddr */ BUS_SPACE_MAXADDR, /* highaddr */ NULL, NULL, /* filter, filterarg */ nsegs * MLX5E_MAX_RX_BYTES, /* maxsize */ nsegs, /* nsegments */ nsegs * MLX5E_MAX_RX_BYTES, /* maxsegsize */ 0, /* flags */ NULL, NULL, /* lockfunc, lockfuncarg */ &rq->dma_tag))) goto done; err = mlx5_wq_ll_create(mdev, ¶m->wq, rqc_wq, &rq->wq, &rq->wq_ctrl); if (err) goto err_free_dma_tag; rq->wq.db = &rq->wq.db[MLX5_RCV_DBR]; err = mlx5e_get_wqe_sz(priv, &rq->wqe_sz, &rq->nsegs); if (err != 0) goto err_rq_wq_destroy; wq_sz = mlx5_wq_ll_get_size(&rq->wq); err = -tcp_lro_init_args(&rq->lro, priv->ifp, TCP_LRO_ENTRIES, wq_sz); if (err) goto err_rq_wq_destroy; rq->mbuf = malloc(wq_sz * sizeof(rq->mbuf[0]), M_MLX5EN, M_WAITOK | M_ZERO); for (i = 0; i != wq_sz; i++) { struct mlx5e_rx_wqe *wqe = mlx5_wq_ll_get_wqe(&rq->wq, i); int j; err = -bus_dmamap_create(rq->dma_tag, 0, &rq->mbuf[i].dma_map); if (err != 0) { while (i--) bus_dmamap_destroy(rq->dma_tag, rq->mbuf[i].dma_map); goto err_rq_mbuf_free; } /* set value for constant fields */ for (j = 0; j < rq->nsegs; j++) wqe->data[j].lkey = cpu_to_be32(priv->mr.key); } INIT_WORK(&rq->dim.work, mlx5e_dim_work); if (priv->params.rx_cq_moderation_mode < 2) { rq->dim.mode = NET_DIM_CQ_PERIOD_MODE_DISABLED; } else { void *cqc = container_of(param, struct mlx5e_channel_param, rq)->rx_cq.cqc; switch (MLX5_GET(cqc, cqc, cq_period_mode)) { case MLX5_CQ_PERIOD_MODE_START_FROM_EQE: rq->dim.mode = NET_DIM_CQ_PERIOD_MODE_START_FROM_EQE; break; case MLX5_CQ_PERIOD_MODE_START_FROM_CQE: rq->dim.mode = NET_DIM_CQ_PERIOD_MODE_START_FROM_CQE; break; default: rq->dim.mode = NET_DIM_CQ_PERIOD_MODE_DISABLED; break; } } rq->ifp = priv->ifp; rq->channel = c; rq->ix = c->ix; snprintf(buffer, sizeof(buffer), "rxstat%d", c->ix); mlx5e_create_stats(&rq->stats.ctx, SYSCTL_CHILDREN(priv->sysctl_ifnet), buffer, mlx5e_rq_stats_desc, MLX5E_RQ_STATS_NUM, rq->stats.arg); return (0); err_rq_mbuf_free: free(rq->mbuf, M_MLX5EN); tcp_lro_free(&rq->lro); err_rq_wq_destroy: mlx5_wq_destroy(&rq->wq_ctrl); err_free_dma_tag: bus_dma_tag_destroy(rq->dma_tag); done: return (err); } static void mlx5e_destroy_rq(struct mlx5e_rq *rq) { int wq_sz; int i; /* destroy all sysctl nodes */ sysctl_ctx_free(&rq->stats.ctx); /* free leftover LRO packets, if any */ tcp_lro_free(&rq->lro); wq_sz = mlx5_wq_ll_get_size(&rq->wq); for (i = 0; i != wq_sz; i++) { if (rq->mbuf[i].mbuf != NULL) { bus_dmamap_unload(rq->dma_tag, rq->mbuf[i].dma_map); m_freem(rq->mbuf[i].mbuf); } bus_dmamap_destroy(rq->dma_tag, rq->mbuf[i].dma_map); } free(rq->mbuf, M_MLX5EN); mlx5_wq_destroy(&rq->wq_ctrl); bus_dma_tag_destroy(rq->dma_tag); } static int mlx5e_enable_rq(struct mlx5e_rq *rq, struct mlx5e_rq_param *param) { struct mlx5e_channel *c = rq->channel; struct mlx5e_priv *priv = c->priv; struct mlx5_core_dev *mdev = priv->mdev; void *in; void *rqc; void *wq; int inlen; int err; inlen = MLX5_ST_SZ_BYTES(create_rq_in) + sizeof(u64) * rq->wq_ctrl.buf.npages; in = mlx5_vzalloc(inlen); if (in == NULL) return (-ENOMEM); rqc = MLX5_ADDR_OF(create_rq_in, in, ctx); wq = MLX5_ADDR_OF(rqc, rqc, wq); memcpy(rqc, param->rqc, sizeof(param->rqc)); MLX5_SET(rqc, rqc, cqn, c->rq.cq.mcq.cqn); MLX5_SET(rqc, rqc, state, MLX5_RQC_STATE_RST); MLX5_SET(rqc, rqc, flush_in_error_en, 1); if (priv->counter_set_id >= 0) MLX5_SET(rqc, rqc, counter_set_id, priv->counter_set_id); MLX5_SET(wq, wq, log_wq_pg_sz, rq->wq_ctrl.buf.page_shift - PAGE_SHIFT); MLX5_SET64(wq, wq, dbr_addr, rq->wq_ctrl.db.dma); mlx5_fill_page_array(&rq->wq_ctrl.buf, (__be64 *) MLX5_ADDR_OF(wq, wq, pas)); err = mlx5_core_create_rq(mdev, in, inlen, &rq->rqn); kvfree(in); return (err); } static int mlx5e_modify_rq(struct mlx5e_rq *rq, int curr_state, int next_state) { struct mlx5e_channel *c = rq->channel; struct mlx5e_priv *priv = c->priv; struct mlx5_core_dev *mdev = priv->mdev; void *in; void *rqc; int inlen; int err; inlen = MLX5_ST_SZ_BYTES(modify_rq_in); in = mlx5_vzalloc(inlen); if (in == NULL) return (-ENOMEM); rqc = MLX5_ADDR_OF(modify_rq_in, in, ctx); MLX5_SET(modify_rq_in, in, rqn, rq->rqn); MLX5_SET(modify_rq_in, in, rq_state, curr_state); MLX5_SET(rqc, rqc, state, next_state); err = mlx5_core_modify_rq(mdev, in, inlen); kvfree(in); return (err); } static void mlx5e_disable_rq(struct mlx5e_rq *rq) { struct mlx5e_channel *c = rq->channel; struct mlx5e_priv *priv = c->priv; struct mlx5_core_dev *mdev = priv->mdev; mlx5_core_destroy_rq(mdev, rq->rqn); } static int mlx5e_wait_for_min_rx_wqes(struct mlx5e_rq *rq) { struct mlx5e_channel *c = rq->channel; struct mlx5e_priv *priv = c->priv; struct mlx5_wq_ll *wq = &rq->wq; int i; for (i = 0; i < 1000; i++) { if (wq->cur_sz >= priv->params.min_rx_wqes) return (0); msleep(4); } return (-ETIMEDOUT); } static int mlx5e_open_rq(struct mlx5e_channel *c, struct mlx5e_rq_param *param, struct mlx5e_rq *rq) { int err; err = mlx5e_create_rq(c, param, rq); if (err) return (err); err = mlx5e_enable_rq(rq, param); if (err) goto err_destroy_rq; err = mlx5e_modify_rq(rq, MLX5_RQC_STATE_RST, MLX5_RQC_STATE_RDY); if (err) goto err_disable_rq; c->rq.enabled = 1; return (0); err_disable_rq: mlx5e_disable_rq(rq); err_destroy_rq: mlx5e_destroy_rq(rq); return (err); } static void mlx5e_close_rq(struct mlx5e_rq *rq) { mtx_lock(&rq->mtx); rq->enabled = 0; callout_stop(&rq->watchdog); mtx_unlock(&rq->mtx); mlx5e_modify_rq(rq, MLX5_RQC_STATE_RDY, MLX5_RQC_STATE_ERR); } static void mlx5e_close_rq_wait(struct mlx5e_rq *rq) { mlx5e_disable_rq(rq); mlx5e_close_cq(&rq->cq); cancel_work_sync(&rq->dim.work); mlx5e_destroy_rq(rq); } void mlx5e_free_sq_db(struct mlx5e_sq *sq) { int wq_sz = mlx5_wq_cyc_get_size(&sq->wq); int x; for (x = 0; x != wq_sz; x++) { if (unlikely(sq->mbuf[x].p_refcount != NULL)) { atomic_add_int(sq->mbuf[x].p_refcount, -1); sq->mbuf[x].p_refcount = NULL; } if (sq->mbuf[x].mbuf != NULL) { bus_dmamap_unload(sq->dma_tag, sq->mbuf[x].dma_map); m_freem(sq->mbuf[x].mbuf); } bus_dmamap_destroy(sq->dma_tag, sq->mbuf[x].dma_map); } free(sq->mbuf, M_MLX5EN); } int mlx5e_alloc_sq_db(struct mlx5e_sq *sq) { int wq_sz = mlx5_wq_cyc_get_size(&sq->wq); int err; int x; sq->mbuf = malloc(wq_sz * sizeof(sq->mbuf[0]), M_MLX5EN, M_WAITOK | M_ZERO); /* Create DMA descriptor MAPs */ for (x = 0; x != wq_sz; x++) { err = -bus_dmamap_create(sq->dma_tag, 0, &sq->mbuf[x].dma_map); if (err != 0) { while (x--) bus_dmamap_destroy(sq->dma_tag, sq->mbuf[x].dma_map); free(sq->mbuf, M_MLX5EN); return (err); } } return (0); } static const char *mlx5e_sq_stats_desc[] = { MLX5E_SQ_STATS(MLX5E_STATS_DESC) }; void mlx5e_update_sq_inline(struct mlx5e_sq *sq) { sq->max_inline = sq->priv->params.tx_max_inline; sq->min_inline_mode = sq->priv->params.tx_min_inline_mode; /* * Check if trust state is DSCP or if inline mode is NONE which * indicates CX-5 or newer hardware. */ if (sq->priv->params_ethtool.trust_state != MLX5_QPTS_TRUST_PCP || sq->min_inline_mode == MLX5_INLINE_MODE_NONE) { if (MLX5_CAP_ETH(sq->priv->mdev, wqe_vlan_insert)) sq->min_insert_caps = MLX5E_INSERT_VLAN | MLX5E_INSERT_NON_VLAN; else sq->min_insert_caps = MLX5E_INSERT_NON_VLAN; } else { sq->min_insert_caps = 0; } } static void mlx5e_refresh_sq_inline_sub(struct mlx5e_priv *priv, struct mlx5e_channel *c) { int i; for (i = 0; i != priv->num_tc; i++) { mtx_lock(&c->sq[i].lock); mlx5e_update_sq_inline(&c->sq[i]); mtx_unlock(&c->sq[i].lock); } } void mlx5e_refresh_sq_inline(struct mlx5e_priv *priv) { int i; /* check if channels are closed */ if (test_bit(MLX5E_STATE_OPENED, &priv->state) == 0) return; for (i = 0; i < priv->params.num_channels; i++) mlx5e_refresh_sq_inline_sub(priv, &priv->channel[i]); } static int mlx5e_create_sq(struct mlx5e_channel *c, int tc, struct mlx5e_sq_param *param, struct mlx5e_sq *sq) { struct mlx5e_priv *priv = c->priv; struct mlx5_core_dev *mdev = priv->mdev; char buffer[16]; void *sqc = param->sqc; void *sqc_wq = MLX5_ADDR_OF(sqc, sqc, wq); int err; /* Create DMA descriptor TAG */ if ((err = -bus_dma_tag_create( bus_get_dma_tag(mdev->pdev->dev.bsddev), 1, /* any alignment */ 0, /* no boundary */ BUS_SPACE_MAXADDR, /* lowaddr */ BUS_SPACE_MAXADDR, /* highaddr */ NULL, NULL, /* filter, filterarg */ MLX5E_MAX_TX_PAYLOAD_SIZE, /* maxsize */ MLX5E_MAX_TX_MBUF_FRAGS, /* nsegments */ MLX5E_MAX_TX_MBUF_SIZE, /* maxsegsize */ 0, /* flags */ NULL, NULL, /* lockfunc, lockfuncarg */ &sq->dma_tag))) goto done; err = mlx5_alloc_map_uar(mdev, &sq->uar); if (err) goto err_free_dma_tag; err = mlx5_wq_cyc_create(mdev, ¶m->wq, sqc_wq, &sq->wq, &sq->wq_ctrl); if (err) goto err_unmap_free_uar; sq->wq.db = &sq->wq.db[MLX5_SND_DBR]; sq->bf_buf_size = (1 << MLX5_CAP_GEN(mdev, log_bf_reg_size)) / 2; err = mlx5e_alloc_sq_db(sq); if (err) goto err_sq_wq_destroy; sq->mkey_be = cpu_to_be32(priv->mr.key); sq->ifp = priv->ifp; sq->priv = priv; sq->tc = tc; mlx5e_update_sq_inline(sq); snprintf(buffer, sizeof(buffer), "txstat%dtc%d", c->ix, tc); mlx5e_create_stats(&sq->stats.ctx, SYSCTL_CHILDREN(priv->sysctl_ifnet), buffer, mlx5e_sq_stats_desc, MLX5E_SQ_STATS_NUM, sq->stats.arg); return (0); err_sq_wq_destroy: mlx5_wq_destroy(&sq->wq_ctrl); err_unmap_free_uar: mlx5_unmap_free_uar(mdev, &sq->uar); err_free_dma_tag: bus_dma_tag_destroy(sq->dma_tag); done: return (err); } static void mlx5e_destroy_sq(struct mlx5e_sq *sq) { /* destroy all sysctl nodes */ sysctl_ctx_free(&sq->stats.ctx); mlx5e_free_sq_db(sq); mlx5_wq_destroy(&sq->wq_ctrl); mlx5_unmap_free_uar(sq->priv->mdev, &sq->uar); bus_dma_tag_destroy(sq->dma_tag); } int mlx5e_enable_sq(struct mlx5e_sq *sq, struct mlx5e_sq_param *param, int tis_num) { void *in; void *sqc; void *wq; int inlen; int err; inlen = MLX5_ST_SZ_BYTES(create_sq_in) + sizeof(u64) * sq->wq_ctrl.buf.npages; in = mlx5_vzalloc(inlen); if (in == NULL) return (-ENOMEM); sqc = MLX5_ADDR_OF(create_sq_in, in, ctx); wq = MLX5_ADDR_OF(sqc, sqc, wq); memcpy(sqc, param->sqc, sizeof(param->sqc)); MLX5_SET(sqc, sqc, tis_num_0, tis_num); MLX5_SET(sqc, sqc, cqn, sq->cq.mcq.cqn); MLX5_SET(sqc, sqc, state, MLX5_SQC_STATE_RST); MLX5_SET(sqc, sqc, tis_lst_sz, 1); MLX5_SET(sqc, sqc, flush_in_error_en, 1); MLX5_SET(wq, wq, wq_type, MLX5_WQ_TYPE_CYCLIC); MLX5_SET(wq, wq, uar_page, sq->uar.index); MLX5_SET(wq, wq, log_wq_pg_sz, sq->wq_ctrl.buf.page_shift - PAGE_SHIFT); MLX5_SET64(wq, wq, dbr_addr, sq->wq_ctrl.db.dma); mlx5_fill_page_array(&sq->wq_ctrl.buf, (__be64 *) MLX5_ADDR_OF(wq, wq, pas)); err = mlx5_core_create_sq(sq->priv->mdev, in, inlen, &sq->sqn); kvfree(in); return (err); } int mlx5e_modify_sq(struct mlx5e_sq *sq, int curr_state, int next_state) { void *in; void *sqc; int inlen; int err; inlen = MLX5_ST_SZ_BYTES(modify_sq_in); in = mlx5_vzalloc(inlen); if (in == NULL) return (-ENOMEM); sqc = MLX5_ADDR_OF(modify_sq_in, in, ctx); MLX5_SET(modify_sq_in, in, sqn, sq->sqn); MLX5_SET(modify_sq_in, in, sq_state, curr_state); MLX5_SET(sqc, sqc, state, next_state); err = mlx5_core_modify_sq(sq->priv->mdev, in, inlen); kvfree(in); return (err); } void mlx5e_disable_sq(struct mlx5e_sq *sq) { mlx5_core_destroy_sq(sq->priv->mdev, sq->sqn); } static int mlx5e_open_sq(struct mlx5e_channel *c, int tc, struct mlx5e_sq_param *param, struct mlx5e_sq *sq) { int err; sq->cev_factor = c->priv->params_ethtool.tx_completion_fact; /* ensure the TX completion event factor is not zero */ if (sq->cev_factor == 0) sq->cev_factor = 1; err = mlx5e_create_sq(c, tc, param, sq); if (err) return (err); err = mlx5e_enable_sq(sq, param, c->priv->tisn[tc]); if (err) goto err_destroy_sq; err = mlx5e_modify_sq(sq, MLX5_SQC_STATE_RST, MLX5_SQC_STATE_RDY); if (err) goto err_disable_sq; WRITE_ONCE(sq->running, 1); return (0); err_disable_sq: mlx5e_disable_sq(sq); err_destroy_sq: mlx5e_destroy_sq(sq); return (err); } static void mlx5e_sq_send_nops_locked(struct mlx5e_sq *sq, int can_sleep) { /* fill up remainder with NOPs */ while (sq->cev_counter != 0) { while (!mlx5e_sq_has_room_for(sq, 1)) { if (can_sleep != 0) { mtx_unlock(&sq->lock); msleep(4); mtx_lock(&sq->lock); } else { goto done; } } /* send a single NOP */ mlx5e_send_nop(sq, 1); atomic_thread_fence_rel(); } done: /* Check if we need to write the doorbell */ if (likely(sq->doorbell.d64 != 0)) { mlx5e_tx_notify_hw(sq, sq->doorbell.d32, 0); sq->doorbell.d64 = 0; } } void mlx5e_sq_cev_timeout(void *arg) { struct mlx5e_sq *sq = arg; mtx_assert(&sq->lock, MA_OWNED); /* check next state */ switch (sq->cev_next_state) { case MLX5E_CEV_STATE_SEND_NOPS: /* fill TX ring with NOPs, if any */ mlx5e_sq_send_nops_locked(sq, 0); /* check if completed */ if (sq->cev_counter == 0) { sq->cev_next_state = MLX5E_CEV_STATE_INITIAL; return; } break; default: /* send NOPs on next timeout */ sq->cev_next_state = MLX5E_CEV_STATE_SEND_NOPS; break; } /* restart timer */ callout_reset_curcpu(&sq->cev_callout, hz, mlx5e_sq_cev_timeout, sq); } void mlx5e_drain_sq(struct mlx5e_sq *sq) { int error; struct mlx5_core_dev *mdev= sq->priv->mdev; /* * Check if already stopped. * * NOTE: Serialization of this function is managed by the * caller ensuring the priv's state lock is locked or in case * of rate limit support, a single thread manages drain and * resume of SQs. The "running" variable can therefore safely * be read without any locks. */ if (READ_ONCE(sq->running) == 0) return; /* don't put more packets into the SQ */ WRITE_ONCE(sq->running, 0); /* serialize access to DMA rings */ mtx_lock(&sq->lock); /* teardown event factor timer, if any */ sq->cev_next_state = MLX5E_CEV_STATE_HOLD_NOPS; callout_stop(&sq->cev_callout); /* send dummy NOPs in order to flush the transmit ring */ mlx5e_sq_send_nops_locked(sq, 1); mtx_unlock(&sq->lock); /* wait till SQ is empty or link is down */ mtx_lock(&sq->lock); while (sq->cc != sq->pc && (sq->priv->media_status_last & IFM_ACTIVE) != 0 && mdev->state != MLX5_DEVICE_STATE_INTERNAL_ERROR) { mtx_unlock(&sq->lock); msleep(1); sq->cq.mcq.comp(&sq->cq.mcq); mtx_lock(&sq->lock); } mtx_unlock(&sq->lock); /* error out remaining requests */ error = mlx5e_modify_sq(sq, MLX5_SQC_STATE_RDY, MLX5_SQC_STATE_ERR); if (error != 0) { mlx5_en_err(sq->ifp, "mlx5e_modify_sq() from RDY to ERR failed: %d\n", error); } /* wait till SQ is empty */ mtx_lock(&sq->lock); while (sq->cc != sq->pc && mdev->state != MLX5_DEVICE_STATE_INTERNAL_ERROR) { mtx_unlock(&sq->lock); msleep(1); sq->cq.mcq.comp(&sq->cq.mcq); mtx_lock(&sq->lock); } mtx_unlock(&sq->lock); } static void mlx5e_close_sq_wait(struct mlx5e_sq *sq) { mlx5e_drain_sq(sq); mlx5e_disable_sq(sq); mlx5e_destroy_sq(sq); } static int mlx5e_create_cq(struct mlx5e_priv *priv, struct mlx5e_cq_param *param, struct mlx5e_cq *cq, mlx5e_cq_comp_t *comp, int eq_ix) { struct mlx5_core_dev *mdev = priv->mdev; struct mlx5_core_cq *mcq = &cq->mcq; int eqn_not_used; int irqn; int err; u32 i; param->wq.buf_numa_node = 0; param->wq.db_numa_node = 0; err = mlx5_vector2eqn(mdev, eq_ix, &eqn_not_used, &irqn); if (err) return (err); err = mlx5_cqwq_create(mdev, ¶m->wq, param->cqc, &cq->wq, &cq->wq_ctrl); if (err) return (err); mcq->cqe_sz = 64; mcq->set_ci_db = cq->wq_ctrl.db.db; mcq->arm_db = cq->wq_ctrl.db.db + 1; *mcq->set_ci_db = 0; *mcq->arm_db = 0; mcq->vector = eq_ix; mcq->comp = comp; mcq->event = mlx5e_cq_error_event; mcq->irqn = irqn; mcq->uar = &priv->cq_uar; for (i = 0; i < mlx5_cqwq_get_size(&cq->wq); i++) { struct mlx5_cqe64 *cqe = mlx5_cqwq_get_wqe(&cq->wq, i); cqe->op_own = 0xf1; } cq->priv = priv; return (0); } static void mlx5e_destroy_cq(struct mlx5e_cq *cq) { mlx5_wq_destroy(&cq->wq_ctrl); } static int mlx5e_enable_cq(struct mlx5e_cq *cq, struct mlx5e_cq_param *param, int eq_ix) { struct mlx5_core_cq *mcq = &cq->mcq; void *in; void *cqc; int inlen; int irqn_not_used; int eqn; int err; inlen = MLX5_ST_SZ_BYTES(create_cq_in) + sizeof(u64) * cq->wq_ctrl.buf.npages; in = mlx5_vzalloc(inlen); if (in == NULL) return (-ENOMEM); cqc = MLX5_ADDR_OF(create_cq_in, in, cq_context); memcpy(cqc, param->cqc, sizeof(param->cqc)); mlx5_fill_page_array(&cq->wq_ctrl.buf, (__be64 *) MLX5_ADDR_OF(create_cq_in, in, pas)); mlx5_vector2eqn(cq->priv->mdev, eq_ix, &eqn, &irqn_not_used); MLX5_SET(cqc, cqc, c_eqn, eqn); MLX5_SET(cqc, cqc, uar_page, mcq->uar->index); MLX5_SET(cqc, cqc, log_page_size, cq->wq_ctrl.buf.page_shift - PAGE_SHIFT); MLX5_SET64(cqc, cqc, dbr_addr, cq->wq_ctrl.db.dma); err = mlx5_core_create_cq(cq->priv->mdev, mcq, in, inlen); kvfree(in); if (err) return (err); mlx5e_cq_arm(cq, MLX5_GET_DOORBELL_LOCK(&cq->priv->doorbell_lock)); return (0); } static void mlx5e_disable_cq(struct mlx5e_cq *cq) { mlx5_core_destroy_cq(cq->priv->mdev, &cq->mcq); } int mlx5e_open_cq(struct mlx5e_priv *priv, struct mlx5e_cq_param *param, struct mlx5e_cq *cq, mlx5e_cq_comp_t *comp, int eq_ix) { int err; err = mlx5e_create_cq(priv, param, cq, comp, eq_ix); if (err) return (err); err = mlx5e_enable_cq(cq, param, eq_ix); if (err) goto err_destroy_cq; return (0); err_destroy_cq: mlx5e_destroy_cq(cq); return (err); } void mlx5e_close_cq(struct mlx5e_cq *cq) { mlx5e_disable_cq(cq); mlx5e_destroy_cq(cq); } static int mlx5e_open_tx_cqs(struct mlx5e_channel *c, struct mlx5e_channel_param *cparam) { int err; int tc; for (tc = 0; tc < c->priv->num_tc; tc++) { /* open completion queue */ err = mlx5e_open_cq(c->priv, &cparam->tx_cq, &c->sq[tc].cq, &mlx5e_tx_cq_comp, c->ix); if (err) goto err_close_tx_cqs; } return (0); err_close_tx_cqs: for (tc--; tc >= 0; tc--) mlx5e_close_cq(&c->sq[tc].cq); return (err); } static void mlx5e_close_tx_cqs(struct mlx5e_channel *c) { int tc; for (tc = 0; tc < c->priv->num_tc; tc++) mlx5e_close_cq(&c->sq[tc].cq); } static int mlx5e_open_sqs(struct mlx5e_channel *c, struct mlx5e_channel_param *cparam) { int err; int tc; for (tc = 0; tc < c->priv->num_tc; tc++) { err = mlx5e_open_sq(c, tc, &cparam->sq, &c->sq[tc]); if (err) goto err_close_sqs; } return (0); err_close_sqs: for (tc--; tc >= 0; tc--) mlx5e_close_sq_wait(&c->sq[tc]); return (err); } static void mlx5e_close_sqs_wait(struct mlx5e_channel *c) { int tc; for (tc = 0; tc < c->priv->num_tc; tc++) mlx5e_close_sq_wait(&c->sq[tc]); } static void mlx5e_chan_static_init(struct mlx5e_priv *priv, struct mlx5e_channel *c, int ix) { int tc; /* setup priv and channel number */ c->priv = priv; c->ix = ix; /* setup send tag */ m_snd_tag_init(&c->tag, c->priv->ifp, IF_SND_TAG_TYPE_UNLIMITED); init_completion(&c->completion); mtx_init(&c->rq.mtx, "mlx5rx", MTX_NETWORK_LOCK, MTX_DEF); callout_init_mtx(&c->rq.watchdog, &c->rq.mtx, 0); for (tc = 0; tc != MLX5E_MAX_TX_NUM_TC; tc++) { struct mlx5e_sq *sq = c->sq + tc; mtx_init(&sq->lock, "mlx5tx", MTX_NETWORK_LOCK " TX", MTX_DEF); mtx_init(&sq->comp_lock, "mlx5comp", MTX_NETWORK_LOCK " TX", MTX_DEF); callout_init_mtx(&sq->cev_callout, &sq->lock, 0); } } static void mlx5e_chan_wait_for_completion(struct mlx5e_channel *c) { m_snd_tag_rele(&c->tag); wait_for_completion(&c->completion); } static void mlx5e_priv_wait_for_completion(struct mlx5e_priv *priv, const uint32_t channels) { uint32_t x; for (x = 0; x != channels; x++) mlx5e_chan_wait_for_completion(&priv->channel[x]); } static void mlx5e_chan_static_destroy(struct mlx5e_channel *c) { int tc; callout_drain(&c->rq.watchdog); mtx_destroy(&c->rq.mtx); for (tc = 0; tc != MLX5E_MAX_TX_NUM_TC; tc++) { callout_drain(&c->sq[tc].cev_callout); mtx_destroy(&c->sq[tc].lock); mtx_destroy(&c->sq[tc].comp_lock); } } static int mlx5e_open_channel(struct mlx5e_priv *priv, struct mlx5e_channel_param *cparam, struct mlx5e_channel *c) { struct epoch_tracker et; int i, err; /* zero non-persistant data */ MLX5E_ZERO(&c->rq, mlx5e_rq_zero_start); for (i = 0; i != priv->num_tc; i++) MLX5E_ZERO(&c->sq[i], mlx5e_sq_zero_start); /* open transmit completion queue */ err = mlx5e_open_tx_cqs(c, cparam); if (err) goto err_free; /* open receive completion queue */ err = mlx5e_open_cq(c->priv, &cparam->rx_cq, &c->rq.cq, &mlx5e_rx_cq_comp, c->ix); if (err) goto err_close_tx_cqs; err = mlx5e_open_sqs(c, cparam); if (err) goto err_close_rx_cq; err = mlx5e_open_rq(c, &cparam->rq, &c->rq); if (err) goto err_close_sqs; /* poll receive queue initially */ NET_EPOCH_ENTER(et); c->rq.cq.mcq.comp(&c->rq.cq.mcq); NET_EPOCH_EXIT(et); return (0); err_close_sqs: mlx5e_close_sqs_wait(c); err_close_rx_cq: mlx5e_close_cq(&c->rq.cq); err_close_tx_cqs: mlx5e_close_tx_cqs(c); err_free: return (err); } static void mlx5e_close_channel(struct mlx5e_channel *c) { mlx5e_close_rq(&c->rq); } static void mlx5e_close_channel_wait(struct mlx5e_channel *c) { mlx5e_close_rq_wait(&c->rq); mlx5e_close_sqs_wait(c); mlx5e_close_tx_cqs(c); } static int mlx5e_get_wqe_sz(struct mlx5e_priv *priv, u32 *wqe_sz, u32 *nsegs) { u32 r, n; r = priv->params.hw_lro_en ? priv->params.lro_wqe_sz : MLX5E_SW2MB_MTU(priv->ifp->if_mtu); if (r > MJUM16BYTES) return (-ENOMEM); if (r > MJUM9BYTES) r = MJUM16BYTES; else if (r > MJUMPAGESIZE) r = MJUM9BYTES; else if (r > MCLBYTES) r = MJUMPAGESIZE; else r = MCLBYTES; /* * n + 1 must be a power of two, because stride size must be. * Stride size is 16 * (n + 1), as the first segment is * control. */ for (n = howmany(r, MLX5E_MAX_RX_BYTES); !powerof2(n + 1); n++) ; if (n > MLX5E_MAX_BUSDMA_RX_SEGS) return (-ENOMEM); *wqe_sz = r; *nsegs = n; return (0); } static void mlx5e_build_rq_param(struct mlx5e_priv *priv, struct mlx5e_rq_param *param) { void *rqc = param->rqc; void *wq = MLX5_ADDR_OF(rqc, rqc, wq); u32 wqe_sz, nsegs; mlx5e_get_wqe_sz(priv, &wqe_sz, &nsegs); MLX5_SET(wq, wq, wq_type, MLX5_WQ_TYPE_LINKED_LIST); MLX5_SET(wq, wq, end_padding_mode, MLX5_WQ_END_PAD_MODE_ALIGN); MLX5_SET(wq, wq, log_wq_stride, ilog2(sizeof(struct mlx5e_rx_wqe) + nsegs * sizeof(struct mlx5_wqe_data_seg))); MLX5_SET(wq, wq, log_wq_sz, priv->params.log_rq_size); MLX5_SET(wq, wq, pd, priv->pdn); param->wq.buf_numa_node = 0; param->wq.db_numa_node = 0; param->wq.linear = 1; } static void mlx5e_build_sq_param(struct mlx5e_priv *priv, struct mlx5e_sq_param *param) { void *sqc = param->sqc; void *wq = MLX5_ADDR_OF(sqc, sqc, wq); MLX5_SET(wq, wq, log_wq_sz, priv->params.log_sq_size); MLX5_SET(wq, wq, log_wq_stride, ilog2(MLX5_SEND_WQE_BB)); MLX5_SET(wq, wq, pd, priv->pdn); param->wq.buf_numa_node = 0; param->wq.db_numa_node = 0; param->wq.linear = 1; } static void mlx5e_build_common_cq_param(struct mlx5e_priv *priv, struct mlx5e_cq_param *param) { void *cqc = param->cqc; MLX5_SET(cqc, cqc, uar_page, priv->cq_uar.index); } static void mlx5e_get_default_profile(struct mlx5e_priv *priv, int mode, struct net_dim_cq_moder *ptr) { *ptr = net_dim_get_profile(mode, MLX5E_DIM_DEFAULT_PROFILE); /* apply LRO restrictions */ if (priv->params.hw_lro_en && ptr->pkts > MLX5E_DIM_MAX_RX_CQ_MODERATION_PKTS_WITH_LRO) { ptr->pkts = MLX5E_DIM_MAX_RX_CQ_MODERATION_PKTS_WITH_LRO; } } static void mlx5e_build_rx_cq_param(struct mlx5e_priv *priv, struct mlx5e_cq_param *param) { struct net_dim_cq_moder curr; void *cqc = param->cqc; /* * We use MLX5_CQE_FORMAT_HASH because the RX hash mini CQE * format is more beneficial for FreeBSD use case. * * Adding support for MLX5_CQE_FORMAT_CSUM will require changes * in mlx5e_decompress_cqe. */ if (priv->params.cqe_zipping_en) { MLX5_SET(cqc, cqc, mini_cqe_res_format, MLX5_CQE_FORMAT_HASH); MLX5_SET(cqc, cqc, cqe_compression_en, 1); } MLX5_SET(cqc, cqc, log_cq_size, priv->params.log_rq_size); switch (priv->params.rx_cq_moderation_mode) { case 0: MLX5_SET(cqc, cqc, cq_period, priv->params.rx_cq_moderation_usec); MLX5_SET(cqc, cqc, cq_max_count, priv->params.rx_cq_moderation_pkts); MLX5_SET(cqc, cqc, cq_period_mode, MLX5_CQ_PERIOD_MODE_START_FROM_EQE); break; case 1: MLX5_SET(cqc, cqc, cq_period, priv->params.rx_cq_moderation_usec); MLX5_SET(cqc, cqc, cq_max_count, priv->params.rx_cq_moderation_pkts); if (MLX5_CAP_GEN(priv->mdev, cq_period_start_from_cqe)) MLX5_SET(cqc, cqc, cq_period_mode, MLX5_CQ_PERIOD_MODE_START_FROM_CQE); else MLX5_SET(cqc, cqc, cq_period_mode, MLX5_CQ_PERIOD_MODE_START_FROM_EQE); break; case 2: mlx5e_get_default_profile(priv, NET_DIM_CQ_PERIOD_MODE_START_FROM_EQE, &curr); MLX5_SET(cqc, cqc, cq_period, curr.usec); MLX5_SET(cqc, cqc, cq_max_count, curr.pkts); MLX5_SET(cqc, cqc, cq_period_mode, MLX5_CQ_PERIOD_MODE_START_FROM_EQE); break; case 3: mlx5e_get_default_profile(priv, NET_DIM_CQ_PERIOD_MODE_START_FROM_CQE, &curr); MLX5_SET(cqc, cqc, cq_period, curr.usec); MLX5_SET(cqc, cqc, cq_max_count, curr.pkts); if (MLX5_CAP_GEN(priv->mdev, cq_period_start_from_cqe)) MLX5_SET(cqc, cqc, cq_period_mode, MLX5_CQ_PERIOD_MODE_START_FROM_CQE); else MLX5_SET(cqc, cqc, cq_period_mode, MLX5_CQ_PERIOD_MODE_START_FROM_EQE); break; default: break; } mlx5e_dim_build_cq_param(priv, param); mlx5e_build_common_cq_param(priv, param); } static void mlx5e_build_tx_cq_param(struct mlx5e_priv *priv, struct mlx5e_cq_param *param) { void *cqc = param->cqc; MLX5_SET(cqc, cqc, log_cq_size, priv->params.log_sq_size); MLX5_SET(cqc, cqc, cq_period, priv->params.tx_cq_moderation_usec); MLX5_SET(cqc, cqc, cq_max_count, priv->params.tx_cq_moderation_pkts); switch (priv->params.tx_cq_moderation_mode) { case 0: MLX5_SET(cqc, cqc, cq_period_mode, MLX5_CQ_PERIOD_MODE_START_FROM_EQE); break; default: if (MLX5_CAP_GEN(priv->mdev, cq_period_start_from_cqe)) MLX5_SET(cqc, cqc, cq_period_mode, MLX5_CQ_PERIOD_MODE_START_FROM_CQE); else MLX5_SET(cqc, cqc, cq_period_mode, MLX5_CQ_PERIOD_MODE_START_FROM_EQE); break; } mlx5e_build_common_cq_param(priv, param); } static void mlx5e_build_channel_param(struct mlx5e_priv *priv, struct mlx5e_channel_param *cparam) { memset(cparam, 0, sizeof(*cparam)); mlx5e_build_rq_param(priv, &cparam->rq); mlx5e_build_sq_param(priv, &cparam->sq); mlx5e_build_rx_cq_param(priv, &cparam->rx_cq); mlx5e_build_tx_cq_param(priv, &cparam->tx_cq); } static int mlx5e_open_channels(struct mlx5e_priv *priv) { struct mlx5e_channel_param *cparam; int err; int i; int j; cparam = malloc(sizeof(*cparam), M_MLX5EN, M_WAITOK); mlx5e_build_channel_param(priv, cparam); for (i = 0; i < priv->params.num_channels; i++) { err = mlx5e_open_channel(priv, cparam, &priv->channel[i]); if (err) goto err_close_channels; } for (j = 0; j < priv->params.num_channels; j++) { err = mlx5e_wait_for_min_rx_wqes(&priv->channel[j].rq); if (err) goto err_close_channels; } free(cparam, M_MLX5EN); return (0); err_close_channels: while (i--) { mlx5e_close_channel(&priv->channel[i]); mlx5e_close_channel_wait(&priv->channel[i]); } free(cparam, M_MLX5EN); return (err); } static void mlx5e_close_channels(struct mlx5e_priv *priv) { int i; for (i = 0; i < priv->params.num_channels; i++) mlx5e_close_channel(&priv->channel[i]); for (i = 0; i < priv->params.num_channels; i++) mlx5e_close_channel_wait(&priv->channel[i]); } static int mlx5e_refresh_sq_params(struct mlx5e_priv *priv, struct mlx5e_sq *sq) { if (MLX5_CAP_GEN(priv->mdev, cq_period_mode_modify)) { uint8_t cq_mode; switch (priv->params.tx_cq_moderation_mode) { case 0: case 2: cq_mode = MLX5_CQ_PERIOD_MODE_START_FROM_EQE; break; default: cq_mode = MLX5_CQ_PERIOD_MODE_START_FROM_CQE; break; } return (mlx5_core_modify_cq_moderation_mode(priv->mdev, &sq->cq.mcq, priv->params.tx_cq_moderation_usec, priv->params.tx_cq_moderation_pkts, cq_mode)); } return (mlx5_core_modify_cq_moderation(priv->mdev, &sq->cq.mcq, priv->params.tx_cq_moderation_usec, priv->params.tx_cq_moderation_pkts)); } static int mlx5e_refresh_rq_params(struct mlx5e_priv *priv, struct mlx5e_rq *rq) { if (MLX5_CAP_GEN(priv->mdev, cq_period_mode_modify)) { uint8_t cq_mode; uint8_t dim_mode; int retval; switch (priv->params.rx_cq_moderation_mode) { case 0: case 2: cq_mode = MLX5_CQ_PERIOD_MODE_START_FROM_EQE; dim_mode = NET_DIM_CQ_PERIOD_MODE_START_FROM_EQE; break; default: cq_mode = MLX5_CQ_PERIOD_MODE_START_FROM_CQE; dim_mode = NET_DIM_CQ_PERIOD_MODE_START_FROM_CQE; break; } /* tear down dynamic interrupt moderation */ mtx_lock(&rq->mtx); rq->dim.mode = NET_DIM_CQ_PERIOD_MODE_DISABLED; mtx_unlock(&rq->mtx); /* wait for dynamic interrupt moderation work task, if any */ cancel_work_sync(&rq->dim.work); if (priv->params.rx_cq_moderation_mode >= 2) { struct net_dim_cq_moder curr; mlx5e_get_default_profile(priv, dim_mode, &curr); retval = mlx5_core_modify_cq_moderation_mode(priv->mdev, &rq->cq.mcq, curr.usec, curr.pkts, cq_mode); /* set dynamic interrupt moderation mode and zero defaults */ mtx_lock(&rq->mtx); rq->dim.mode = dim_mode; rq->dim.state = 0; rq->dim.profile_ix = MLX5E_DIM_DEFAULT_PROFILE; mtx_unlock(&rq->mtx); } else { retval = mlx5_core_modify_cq_moderation_mode(priv->mdev, &rq->cq.mcq, priv->params.rx_cq_moderation_usec, priv->params.rx_cq_moderation_pkts, cq_mode); } return (retval); } return (mlx5_core_modify_cq_moderation(priv->mdev, &rq->cq.mcq, priv->params.rx_cq_moderation_usec, priv->params.rx_cq_moderation_pkts)); } static int mlx5e_refresh_channel_params_sub(struct mlx5e_priv *priv, struct mlx5e_channel *c) { int err; int i; err = mlx5e_refresh_rq_params(priv, &c->rq); if (err) goto done; for (i = 0; i != priv->num_tc; i++) { err = mlx5e_refresh_sq_params(priv, &c->sq[i]); if (err) goto done; } done: return (err); } int mlx5e_refresh_channel_params(struct mlx5e_priv *priv) { int i; /* check if channels are closed */ if (test_bit(MLX5E_STATE_OPENED, &priv->state) == 0) return (EINVAL); for (i = 0; i < priv->params.num_channels; i++) { int err; err = mlx5e_refresh_channel_params_sub(priv, &priv->channel[i]); if (err) return (err); } return (0); } static int mlx5e_open_tis(struct mlx5e_priv *priv, int tc) { struct mlx5_core_dev *mdev = priv->mdev; u32 in[MLX5_ST_SZ_DW(create_tis_in)]; void *tisc = MLX5_ADDR_OF(create_tis_in, in, ctx); memset(in, 0, sizeof(in)); MLX5_SET(tisc, tisc, prio, tc); MLX5_SET(tisc, tisc, transport_domain, priv->tdn); return (mlx5_core_create_tis(mdev, in, sizeof(in), &priv->tisn[tc])); } static void mlx5e_close_tis(struct mlx5e_priv *priv, int tc) { mlx5_core_destroy_tis(priv->mdev, priv->tisn[tc]); } static int mlx5e_open_tises(struct mlx5e_priv *priv) { int num_tc = priv->num_tc; int err; int tc; for (tc = 0; tc < num_tc; tc++) { err = mlx5e_open_tis(priv, tc); if (err) goto err_close_tises; } return (0); err_close_tises: for (tc--; tc >= 0; tc--) mlx5e_close_tis(priv, tc); return (err); } static void mlx5e_close_tises(struct mlx5e_priv *priv) { int num_tc = priv->num_tc; int tc; for (tc = 0; tc < num_tc; tc++) mlx5e_close_tis(priv, tc); } static int mlx5e_open_rqt(struct mlx5e_priv *priv) { struct mlx5_core_dev *mdev = priv->mdev; u32 *in; u32 out[MLX5_ST_SZ_DW(create_rqt_out)] = {0}; void *rqtc; int inlen; int err; int sz; int i; sz = 1 << priv->params.rx_hash_log_tbl_sz; inlen = MLX5_ST_SZ_BYTES(create_rqt_in) + sizeof(u32) * sz; in = mlx5_vzalloc(inlen); if (in == NULL) return (-ENOMEM); rqtc = MLX5_ADDR_OF(create_rqt_in, in, rqt_context); MLX5_SET(rqtc, rqtc, rqt_actual_size, sz); MLX5_SET(rqtc, rqtc, rqt_max_size, sz); for (i = 0; i < sz; i++) { int ix = i; #ifdef RSS ix = rss_get_indirection_to_bucket(ix); #endif /* ensure we don't overflow */ ix %= priv->params.num_channels; /* apply receive side scaling stride, if any */ ix -= ix % (int)priv->params.channels_rsss; MLX5_SET(rqtc, rqtc, rq_num[i], priv->channel[ix].rq.rqn); } MLX5_SET(create_rqt_in, in, opcode, MLX5_CMD_OP_CREATE_RQT); err = mlx5_cmd_exec(mdev, in, inlen, out, sizeof(out)); if (!err) priv->rqtn = MLX5_GET(create_rqt_out, out, rqtn); kvfree(in); return (err); } static void mlx5e_close_rqt(struct mlx5e_priv *priv) { u32 in[MLX5_ST_SZ_DW(destroy_rqt_in)] = {0}; u32 out[MLX5_ST_SZ_DW(destroy_rqt_out)] = {0}; MLX5_SET(destroy_rqt_in, in, opcode, MLX5_CMD_OP_DESTROY_RQT); MLX5_SET(destroy_rqt_in, in, rqtn, priv->rqtn); mlx5_cmd_exec(priv->mdev, in, sizeof(in), out, sizeof(out)); } static void mlx5e_build_tir_ctx(struct mlx5e_priv *priv, u32 * tirc, int tt) { void *hfso = MLX5_ADDR_OF(tirc, tirc, rx_hash_field_selector_outer); __be32 *hkey; MLX5_SET(tirc, tirc, transport_domain, priv->tdn); #define ROUGH_MAX_L2_L3_HDR_SZ 256 #define MLX5_HASH_IP (MLX5_HASH_FIELD_SEL_SRC_IP |\ MLX5_HASH_FIELD_SEL_DST_IP) #define MLX5_HASH_ALL (MLX5_HASH_FIELD_SEL_SRC_IP |\ MLX5_HASH_FIELD_SEL_DST_IP |\ MLX5_HASH_FIELD_SEL_L4_SPORT |\ MLX5_HASH_FIELD_SEL_L4_DPORT) #define MLX5_HASH_IP_IPSEC_SPI (MLX5_HASH_FIELD_SEL_SRC_IP |\ MLX5_HASH_FIELD_SEL_DST_IP |\ MLX5_HASH_FIELD_SEL_IPSEC_SPI) if (priv->params.hw_lro_en) { MLX5_SET(tirc, tirc, lro_enable_mask, MLX5_TIRC_LRO_ENABLE_MASK_IPV4_LRO | MLX5_TIRC_LRO_ENABLE_MASK_IPV6_LRO); MLX5_SET(tirc, tirc, lro_max_msg_sz, (priv->params.lro_wqe_sz - ROUGH_MAX_L2_L3_HDR_SZ) >> 8); /* TODO: add the option to choose timer value dynamically */ MLX5_SET(tirc, tirc, lro_timeout_period_usecs, MLX5_CAP_ETH(priv->mdev, lro_timer_supported_periods[2])); } /* setup parameters for hashing TIR type, if any */ switch (tt) { case MLX5E_TT_ANY: MLX5_SET(tirc, tirc, disp_type, MLX5_TIRC_DISP_TYPE_DIRECT); MLX5_SET(tirc, tirc, inline_rqn, priv->channel[0].rq.rqn); break; default: MLX5_SET(tirc, tirc, disp_type, MLX5_TIRC_DISP_TYPE_INDIRECT); MLX5_SET(tirc, tirc, indirect_table, priv->rqtn); MLX5_SET(tirc, tirc, rx_hash_fn, MLX5_TIRC_RX_HASH_FN_HASH_TOEPLITZ); hkey = (__be32 *) MLX5_ADDR_OF(tirc, tirc, rx_hash_toeplitz_key); #ifdef RSS /* * The FreeBSD RSS implementation does currently not * support symmetric Toeplitz hashes: */ MLX5_SET(tirc, tirc, rx_hash_symmetric, 0); rss_getkey((uint8_t *)hkey); #else MLX5_SET(tirc, tirc, rx_hash_symmetric, 1); hkey[0] = cpu_to_be32(0xD181C62C); hkey[1] = cpu_to_be32(0xF7F4DB5B); hkey[2] = cpu_to_be32(0x1983A2FC); hkey[3] = cpu_to_be32(0x943E1ADB); hkey[4] = cpu_to_be32(0xD9389E6B); hkey[5] = cpu_to_be32(0xD1039C2C); hkey[6] = cpu_to_be32(0xA74499AD); hkey[7] = cpu_to_be32(0x593D56D9); hkey[8] = cpu_to_be32(0xF3253C06); hkey[9] = cpu_to_be32(0x2ADC1FFC); #endif break; } switch (tt) { case MLX5E_TT_IPV4_TCP: MLX5_SET(rx_hash_field_select, hfso, l3_prot_type, MLX5_L3_PROT_TYPE_IPV4); MLX5_SET(rx_hash_field_select, hfso, l4_prot_type, MLX5_L4_PROT_TYPE_TCP); #ifdef RSS if (!(rss_gethashconfig() & RSS_HASHTYPE_RSS_TCP_IPV4)) { MLX5_SET(rx_hash_field_select, hfso, selected_fields, MLX5_HASH_IP); } else #endif MLX5_SET(rx_hash_field_select, hfso, selected_fields, MLX5_HASH_ALL); break; case MLX5E_TT_IPV6_TCP: MLX5_SET(rx_hash_field_select, hfso, l3_prot_type, MLX5_L3_PROT_TYPE_IPV6); MLX5_SET(rx_hash_field_select, hfso, l4_prot_type, MLX5_L4_PROT_TYPE_TCP); #ifdef RSS if (!(rss_gethashconfig() & RSS_HASHTYPE_RSS_TCP_IPV6)) { MLX5_SET(rx_hash_field_select, hfso, selected_fields, MLX5_HASH_IP); } else #endif MLX5_SET(rx_hash_field_select, hfso, selected_fields, MLX5_HASH_ALL); break; case MLX5E_TT_IPV4_UDP: MLX5_SET(rx_hash_field_select, hfso, l3_prot_type, MLX5_L3_PROT_TYPE_IPV4); MLX5_SET(rx_hash_field_select, hfso, l4_prot_type, MLX5_L4_PROT_TYPE_UDP); #ifdef RSS if (!(rss_gethashconfig() & RSS_HASHTYPE_RSS_UDP_IPV4)) { MLX5_SET(rx_hash_field_select, hfso, selected_fields, MLX5_HASH_IP); } else #endif MLX5_SET(rx_hash_field_select, hfso, selected_fields, MLX5_HASH_ALL); break; case MLX5E_TT_IPV6_UDP: MLX5_SET(rx_hash_field_select, hfso, l3_prot_type, MLX5_L3_PROT_TYPE_IPV6); MLX5_SET(rx_hash_field_select, hfso, l4_prot_type, MLX5_L4_PROT_TYPE_UDP); #ifdef RSS if (!(rss_gethashconfig() & RSS_HASHTYPE_RSS_UDP_IPV6)) { MLX5_SET(rx_hash_field_select, hfso, selected_fields, MLX5_HASH_IP); } else #endif MLX5_SET(rx_hash_field_select, hfso, selected_fields, MLX5_HASH_ALL); break; case MLX5E_TT_IPV4_IPSEC_AH: MLX5_SET(rx_hash_field_select, hfso, l3_prot_type, MLX5_L3_PROT_TYPE_IPV4); MLX5_SET(rx_hash_field_select, hfso, selected_fields, MLX5_HASH_IP_IPSEC_SPI); break; case MLX5E_TT_IPV6_IPSEC_AH: MLX5_SET(rx_hash_field_select, hfso, l3_prot_type, MLX5_L3_PROT_TYPE_IPV6); MLX5_SET(rx_hash_field_select, hfso, selected_fields, MLX5_HASH_IP_IPSEC_SPI); break; case MLX5E_TT_IPV4_IPSEC_ESP: MLX5_SET(rx_hash_field_select, hfso, l3_prot_type, MLX5_L3_PROT_TYPE_IPV4); MLX5_SET(rx_hash_field_select, hfso, selected_fields, MLX5_HASH_IP_IPSEC_SPI); break; case MLX5E_TT_IPV6_IPSEC_ESP: MLX5_SET(rx_hash_field_select, hfso, l3_prot_type, MLX5_L3_PROT_TYPE_IPV6); MLX5_SET(rx_hash_field_select, hfso, selected_fields, MLX5_HASH_IP_IPSEC_SPI); break; case MLX5E_TT_IPV4: MLX5_SET(rx_hash_field_select, hfso, l3_prot_type, MLX5_L3_PROT_TYPE_IPV4); MLX5_SET(rx_hash_field_select, hfso, selected_fields, MLX5_HASH_IP); break; case MLX5E_TT_IPV6: MLX5_SET(rx_hash_field_select, hfso, l3_prot_type, MLX5_L3_PROT_TYPE_IPV6); MLX5_SET(rx_hash_field_select, hfso, selected_fields, MLX5_HASH_IP); break; default: break; } } static int mlx5e_open_tir(struct mlx5e_priv *priv, int tt) { struct mlx5_core_dev *mdev = priv->mdev; u32 *in; void *tirc; int inlen; int err; inlen = MLX5_ST_SZ_BYTES(create_tir_in); in = mlx5_vzalloc(inlen); if (in == NULL) return (-ENOMEM); tirc = MLX5_ADDR_OF(create_tir_in, in, tir_context); mlx5e_build_tir_ctx(priv, tirc, tt); err = mlx5_core_create_tir(mdev, in, inlen, &priv->tirn[tt]); kvfree(in); return (err); } static void mlx5e_close_tir(struct mlx5e_priv *priv, int tt) { mlx5_core_destroy_tir(priv->mdev, priv->tirn[tt]); } static int mlx5e_open_tirs(struct mlx5e_priv *priv) { int err; int i; for (i = 0; i < MLX5E_NUM_TT; i++) { err = mlx5e_open_tir(priv, i); if (err) goto err_close_tirs; } return (0); err_close_tirs: for (i--; i >= 0; i--) mlx5e_close_tir(priv, i); return (err); } static void mlx5e_close_tirs(struct mlx5e_priv *priv) { int i; for (i = 0; i < MLX5E_NUM_TT; i++) mlx5e_close_tir(priv, i); } /* * SW MTU does not include headers, * HW MTU includes all headers and checksums. */ static int mlx5e_set_dev_port_mtu(struct ifnet *ifp, int sw_mtu) { struct mlx5e_priv *priv = ifp->if_softc; struct mlx5_core_dev *mdev = priv->mdev; int hw_mtu; int err; hw_mtu = MLX5E_SW2HW_MTU(sw_mtu); err = mlx5_set_port_mtu(mdev, hw_mtu); if (err) { mlx5_en_err(ifp, "mlx5_set_port_mtu failed setting %d, err=%d\n", sw_mtu, err); return (err); } /* Update vport context MTU */ err = mlx5_set_vport_mtu(mdev, hw_mtu); if (err) { mlx5_en_err(ifp, "Failed updating vport context with MTU size, err=%d\n", err); } ifp->if_mtu = sw_mtu; err = mlx5_query_vport_mtu(mdev, &hw_mtu); if (err || !hw_mtu) { /* fallback to port oper mtu */ err = mlx5_query_port_oper_mtu(mdev, &hw_mtu); } if (err) { mlx5_en_err(ifp, "Query port MTU, after setting new MTU value, failed\n"); return (err); } else if (MLX5E_HW2SW_MTU(hw_mtu) < sw_mtu) { err = -E2BIG, mlx5_en_err(ifp, "Port MTU %d is smaller than ifp mtu %d\n", hw_mtu, sw_mtu); } else if (MLX5E_HW2SW_MTU(hw_mtu) > sw_mtu) { err = -EINVAL; mlx5_en_err(ifp, "Port MTU %d is bigger than ifp mtu %d\n", hw_mtu, sw_mtu); } priv->params_ethtool.hw_mtu = hw_mtu; /* compute MSB */ while (hw_mtu & (hw_mtu - 1)) hw_mtu &= (hw_mtu - 1); priv->params_ethtool.hw_mtu_msb = hw_mtu; return (err); } int mlx5e_open_locked(struct ifnet *ifp) { struct mlx5e_priv *priv = ifp->if_softc; int err; u16 set_id; /* check if already opened */ if (test_bit(MLX5E_STATE_OPENED, &priv->state) != 0) return (0); #ifdef RSS if (rss_getnumbuckets() > priv->params.num_channels) { mlx5_en_info(ifp, "NOTE: There are more RSS buckets(%u) than channels(%u) available\n", rss_getnumbuckets(), priv->params.num_channels); } #endif err = mlx5e_open_tises(priv); if (err) { mlx5_en_err(ifp, "mlx5e_open_tises failed, %d\n", err); return (err); } err = mlx5_vport_alloc_q_counter(priv->mdev, MLX5_INTERFACE_PROTOCOL_ETH, &set_id); if (err) { mlx5_en_err(priv->ifp, "mlx5_vport_alloc_q_counter failed: %d\n", err); goto err_close_tises; } /* store counter set ID */ priv->counter_set_id = set_id; err = mlx5e_open_channels(priv); if (err) { mlx5_en_err(ifp, "mlx5e_open_channels failed, %d\n", err); goto err_dalloc_q_counter; } err = mlx5e_open_rqt(priv); if (err) { mlx5_en_err(ifp, "mlx5e_open_rqt failed, %d\n", err); goto err_close_channels; } err = mlx5e_open_tirs(priv); if (err) { mlx5_en_err(ifp, "mlx5e_open_tir failed, %d\n", err); goto err_close_rqls; } err = mlx5e_open_flow_table(priv); if (err) { mlx5_en_err(ifp, "mlx5e_open_flow_table failed, %d\n", err); goto err_close_tirs; } err = mlx5e_add_all_vlan_rules(priv); if (err) { mlx5_en_err(ifp, "mlx5e_add_all_vlan_rules failed, %d\n", err); goto err_close_flow_table; } set_bit(MLX5E_STATE_OPENED, &priv->state); mlx5e_update_carrier(priv); mlx5e_set_rx_mode_core(priv); return (0); err_close_flow_table: mlx5e_close_flow_table(priv); err_close_tirs: mlx5e_close_tirs(priv); err_close_rqls: mlx5e_close_rqt(priv); err_close_channels: mlx5e_close_channels(priv); err_dalloc_q_counter: mlx5_vport_dealloc_q_counter(priv->mdev, MLX5_INTERFACE_PROTOCOL_ETH, priv->counter_set_id); err_close_tises: mlx5e_close_tises(priv); return (err); } static void mlx5e_open(void *arg) { struct mlx5e_priv *priv = arg; PRIV_LOCK(priv); if (mlx5_set_port_status(priv->mdev, MLX5_PORT_UP)) mlx5_en_err(priv->ifp, "Setting port status to up failed\n"); mlx5e_open_locked(priv->ifp); priv->ifp->if_drv_flags |= IFF_DRV_RUNNING; PRIV_UNLOCK(priv); } int mlx5e_close_locked(struct ifnet *ifp) { struct mlx5e_priv *priv = ifp->if_softc; /* check if already closed */ if (test_bit(MLX5E_STATE_OPENED, &priv->state) == 0) return (0); clear_bit(MLX5E_STATE_OPENED, &priv->state); mlx5e_set_rx_mode_core(priv); mlx5e_del_all_vlan_rules(priv); if_link_state_change(priv->ifp, LINK_STATE_DOWN); mlx5e_close_flow_table(priv); mlx5e_close_tirs(priv); mlx5e_close_rqt(priv); mlx5e_close_channels(priv); mlx5_vport_dealloc_q_counter(priv->mdev, MLX5_INTERFACE_PROTOCOL_ETH, priv->counter_set_id); mlx5e_close_tises(priv); return (0); } #if (__FreeBSD_version >= 1100000) static uint64_t mlx5e_get_counter(struct ifnet *ifp, ift_counter cnt) { struct mlx5e_priv *priv = ifp->if_softc; u64 retval; /* PRIV_LOCK(priv); XXX not allowed */ switch (cnt) { case IFCOUNTER_IPACKETS: retval = priv->stats.vport.rx_packets; break; case IFCOUNTER_IERRORS: retval = priv->stats.pport.in_range_len_errors + priv->stats.pport.out_of_range_len + priv->stats.pport.too_long_errors + priv->stats.pport.check_seq_err + priv->stats.pport.alignment_err; break; case IFCOUNTER_IQDROPS: retval = priv->stats.vport.rx_out_of_buffer; break; case IFCOUNTER_OPACKETS: retval = priv->stats.vport.tx_packets; break; case IFCOUNTER_OERRORS: retval = priv->stats.port_stats_debug.out_discards; break; case IFCOUNTER_IBYTES: retval = priv->stats.vport.rx_bytes; break; case IFCOUNTER_OBYTES: retval = priv->stats.vport.tx_bytes; break; case IFCOUNTER_IMCASTS: retval = priv->stats.vport.rx_multicast_packets; break; case IFCOUNTER_OMCASTS: retval = priv->stats.vport.tx_multicast_packets; break; case IFCOUNTER_OQDROPS: retval = priv->stats.vport.tx_queue_dropped; break; case IFCOUNTER_COLLISIONS: retval = priv->stats.pport.collisions; break; default: retval = if_get_counter_default(ifp, cnt); break; } /* PRIV_UNLOCK(priv); XXX not allowed */ return (retval); } #endif static void mlx5e_set_rx_mode(struct ifnet *ifp) { struct mlx5e_priv *priv = ifp->if_softc; queue_work(priv->wq, &priv->set_rx_mode_work); } static int mlx5e_ioctl(struct ifnet *ifp, u_long command, caddr_t data) { struct mlx5e_priv *priv; struct ifreq *ifr; struct ifdownreason *ifdr; struct ifi2creq i2c; int error = 0; int mask = 0; int size_read = 0; int module_status; int module_num; int max_mtu; uint8_t read_addr; priv = ifp->if_softc; /* check if detaching */ if (priv == NULL || priv->gone != 0) return (ENXIO); switch (command) { case SIOCSIFMTU: ifr = (struct ifreq *)data; PRIV_LOCK(priv); mlx5_query_port_max_mtu(priv->mdev, &max_mtu); if (ifr->ifr_mtu >= MLX5E_MTU_MIN && ifr->ifr_mtu <= MIN(MLX5E_MTU_MAX, max_mtu)) { int was_opened; was_opened = test_bit(MLX5E_STATE_OPENED, &priv->state); if (was_opened) mlx5e_close_locked(ifp); /* set new MTU */ mlx5e_set_dev_port_mtu(ifp, ifr->ifr_mtu); if (was_opened) mlx5e_open_locked(ifp); } else { error = EINVAL; mlx5_en_err(ifp, "Invalid MTU value. Min val: %d, Max val: %d\n", MLX5E_MTU_MIN, MIN(MLX5E_MTU_MAX, max_mtu)); } PRIV_UNLOCK(priv); break; case SIOCSIFFLAGS: if ((ifp->if_flags & IFF_UP) && (ifp->if_drv_flags & IFF_DRV_RUNNING)) { mlx5e_set_rx_mode(ifp); break; } PRIV_LOCK(priv); if (ifp->if_flags & IFF_UP) { if ((ifp->if_drv_flags & IFF_DRV_RUNNING) == 0) { if (test_bit(MLX5E_STATE_OPENED, &priv->state) == 0) mlx5e_open_locked(ifp); ifp->if_drv_flags |= IFF_DRV_RUNNING; mlx5_set_port_status(priv->mdev, MLX5_PORT_UP); } } else { if (ifp->if_drv_flags & IFF_DRV_RUNNING) { mlx5_set_port_status(priv->mdev, MLX5_PORT_DOWN); if (test_bit(MLX5E_STATE_OPENED, &priv->state) != 0) mlx5e_close_locked(ifp); mlx5e_update_carrier(priv); ifp->if_drv_flags &= ~IFF_DRV_RUNNING; } } PRIV_UNLOCK(priv); break; case SIOCADDMULTI: case SIOCDELMULTI: mlx5e_set_rx_mode(ifp); break; case SIOCSIFMEDIA: case SIOCGIFMEDIA: case SIOCGIFXMEDIA: ifr = (struct ifreq *)data; error = ifmedia_ioctl(ifp, ifr, &priv->media, command); break; case SIOCSIFCAP: ifr = (struct ifreq *)data; PRIV_LOCK(priv); mask = ifr->ifr_reqcap ^ ifp->if_capenable; if (mask & IFCAP_TXCSUM) { ifp->if_capenable ^= IFCAP_TXCSUM; ifp->if_hwassist ^= (CSUM_TCP | CSUM_UDP | CSUM_IP); if (IFCAP_TSO4 & ifp->if_capenable && !(IFCAP_TXCSUM & ifp->if_capenable)) { mask &= ~IFCAP_TSO4; ifp->if_capenable &= ~IFCAP_TSO4; ifp->if_hwassist &= ~CSUM_IP_TSO; mlx5_en_err(ifp, "tso4 disabled due to -txcsum.\n"); } } if (mask & IFCAP_TXCSUM_IPV6) { ifp->if_capenable ^= IFCAP_TXCSUM_IPV6; ifp->if_hwassist ^= (CSUM_UDP_IPV6 | CSUM_TCP_IPV6); if (IFCAP_TSO6 & ifp->if_capenable && !(IFCAP_TXCSUM_IPV6 & ifp->if_capenable)) { mask &= ~IFCAP_TSO6; ifp->if_capenable &= ~IFCAP_TSO6; ifp->if_hwassist &= ~CSUM_IP6_TSO; mlx5_en_err(ifp, "tso6 disabled due to -txcsum6.\n"); } } if (mask & IFCAP_NOMAP) ifp->if_capenable ^= IFCAP_NOMAP; if (mask & IFCAP_TXTLS4) ifp->if_capenable ^= IFCAP_TXTLS4; if (mask & IFCAP_TXTLS6) ifp->if_capenable ^= IFCAP_TXTLS6; #ifdef RATELIMIT if (mask & IFCAP_TXTLS_RTLMT) ifp->if_capenable ^= IFCAP_TXTLS_RTLMT; #endif if (mask & IFCAP_RXCSUM) ifp->if_capenable ^= IFCAP_RXCSUM; if (mask & IFCAP_RXCSUM_IPV6) ifp->if_capenable ^= IFCAP_RXCSUM_IPV6; if (mask & IFCAP_TSO4) { if (!(IFCAP_TSO4 & ifp->if_capenable) && !(IFCAP_TXCSUM & ifp->if_capenable)) { mlx5_en_err(ifp, "enable txcsum first.\n"); error = EAGAIN; goto out; } ifp->if_capenable ^= IFCAP_TSO4; ifp->if_hwassist ^= CSUM_IP_TSO; } if (mask & IFCAP_TSO6) { if (!(IFCAP_TSO6 & ifp->if_capenable) && !(IFCAP_TXCSUM_IPV6 & ifp->if_capenable)) { mlx5_en_err(ifp, "enable txcsum6 first.\n"); error = EAGAIN; goto out; } ifp->if_capenable ^= IFCAP_TSO6; ifp->if_hwassist ^= CSUM_IP6_TSO; } if (mask & IFCAP_VLAN_HWFILTER) { if (ifp->if_capenable & IFCAP_VLAN_HWFILTER) mlx5e_disable_vlan_filter(priv); else mlx5e_enable_vlan_filter(priv); ifp->if_capenable ^= IFCAP_VLAN_HWFILTER; } if (mask & IFCAP_VLAN_HWTAGGING) ifp->if_capenable ^= IFCAP_VLAN_HWTAGGING; if (mask & IFCAP_WOL_MAGIC) ifp->if_capenable ^= IFCAP_WOL_MAGIC; VLAN_CAPABILITIES(ifp); /* turn off LRO means also turn of HW LRO - if it's on */ if (mask & IFCAP_LRO) { int was_opened = test_bit(MLX5E_STATE_OPENED, &priv->state); bool need_restart = false; ifp->if_capenable ^= IFCAP_LRO; /* figure out if updating HW LRO is needed */ if (!(ifp->if_capenable & IFCAP_LRO)) { if (priv->params.hw_lro_en) { priv->params.hw_lro_en = false; need_restart = true; } } else { if (priv->params.hw_lro_en == false && priv->params_ethtool.hw_lro != 0) { priv->params.hw_lro_en = true; need_restart = true; } } if (was_opened && need_restart) { mlx5e_close_locked(ifp); mlx5e_open_locked(ifp); } } if (mask & IFCAP_HWRXTSTMP) { ifp->if_capenable ^= IFCAP_HWRXTSTMP; if (ifp->if_capenable & IFCAP_HWRXTSTMP) { if (priv->clbr_done == 0) mlx5e_reset_calibration_callout(priv); } else { callout_drain(&priv->tstmp_clbr); priv->clbr_done = 0; } } out: PRIV_UNLOCK(priv); break; case SIOCGI2C: ifr = (struct ifreq *)data; /* * Copy from the user-space address ifr_data to the * kernel-space address i2c */ error = copyin(ifr_data_get_ptr(ifr), &i2c, sizeof(i2c)); if (error) break; if (i2c.len > sizeof(i2c.data)) { error = EINVAL; break; } PRIV_LOCK(priv); /* Get module_num which is required for the query_eeprom */ error = mlx5_query_module_num(priv->mdev, &module_num); if (error) { mlx5_en_err(ifp, "Query module num failed, eeprom reading is not supported\n"); error = EINVAL; goto err_i2c; } /* Check if module is present before doing an access */ module_status = mlx5_query_module_status(priv->mdev, module_num); if (module_status != MLX5_MODULE_STATUS_PLUGGED_ENABLED) { error = EINVAL; goto err_i2c; } /* * Currently 0XA0 and 0xA2 are the only addresses permitted. * The internal conversion is as follows: */ if (i2c.dev_addr == 0xA0) read_addr = MLX5_I2C_ADDR_LOW; else if (i2c.dev_addr == 0xA2) read_addr = MLX5_I2C_ADDR_HIGH; else { mlx5_en_err(ifp, "Query eeprom failed, Invalid Address: %X\n", i2c.dev_addr); error = EINVAL; goto err_i2c; } error = mlx5_query_eeprom(priv->mdev, read_addr, MLX5_EEPROM_LOW_PAGE, (uint32_t)i2c.offset, (uint32_t)i2c.len, module_num, (uint32_t *)i2c.data, &size_read); if (error) { mlx5_en_err(ifp, "Query eeprom failed, eeprom reading is not supported\n"); error = EINVAL; goto err_i2c; } if (i2c.len > MLX5_EEPROM_MAX_BYTES) { error = mlx5_query_eeprom(priv->mdev, read_addr, MLX5_EEPROM_LOW_PAGE, (uint32_t)(i2c.offset + size_read), (uint32_t)(i2c.len - size_read), module_num, (uint32_t *)(i2c.data + size_read), &size_read); } if (error) { mlx5_en_err(ifp, "Query eeprom failed, eeprom reading is not supported\n"); error = EINVAL; goto err_i2c; } error = copyout(&i2c, ifr_data_get_ptr(ifr), sizeof(i2c)); err_i2c: PRIV_UNLOCK(priv); break; case SIOCGIFDOWNREASON: ifdr = (struct ifdownreason *)data; bzero(ifdr->ifdr_msg, sizeof(ifdr->ifdr_msg)); PRIV_LOCK(priv); error = -mlx5_query_pddr_troubleshooting_info(priv->mdev, NULL, ifdr->ifdr_msg, sizeof(ifdr->ifdr_msg)); PRIV_UNLOCK(priv); if (error == 0) ifdr->ifdr_reason = IFDR_REASON_MSG; break; default: error = ether_ioctl(ifp, command, data); break; } return (error); } static int mlx5e_check_required_hca_cap(struct mlx5_core_dev *mdev) { /* * TODO: uncoment once FW really sets all these bits if * (!mdev->caps.eth.rss_ind_tbl_cap || !mdev->caps.eth.csum_cap || * !mdev->caps.eth.max_lso_cap || !mdev->caps.eth.vlan_cap || * !(mdev->caps.gen.flags & MLX5_DEV_CAP_FLAG_SCQE_BRK_MOD)) return * -ENOTSUPP; */ /* TODO: add more must-to-have features */ if (MLX5_CAP_GEN(mdev, port_type) != MLX5_CAP_PORT_TYPE_ETH) return (-ENODEV); return (0); } static u16 mlx5e_get_max_inline_cap(struct mlx5_core_dev *mdev) { const int min_size = ETHER_VLAN_ENCAP_LEN + ETHER_HDR_LEN; const int max_size = MLX5E_MAX_TX_INLINE; const int bf_buf_size = ((1U << MLX5_CAP_GEN(mdev, log_bf_reg_size)) / 2U) - (sizeof(struct mlx5e_tx_wqe) - 2); /* verify against driver limits */ if (bf_buf_size > max_size) return (max_size); else if (bf_buf_size < min_size) return (min_size); else return (bf_buf_size); } static int mlx5e_build_ifp_priv(struct mlx5_core_dev *mdev, struct mlx5e_priv *priv, int num_comp_vectors) { int err; /* * TODO: Consider link speed for setting "log_sq_size", * "log_rq_size" and "cq_moderation_xxx": */ priv->params.log_sq_size = MLX5E_PARAMS_DEFAULT_LOG_SQ_SIZE; priv->params.log_rq_size = MLX5E_PARAMS_DEFAULT_LOG_RQ_SIZE; priv->params.rx_cq_moderation_usec = MLX5_CAP_GEN(mdev, cq_period_start_from_cqe) ? MLX5E_PARAMS_DEFAULT_RX_CQ_MODERATION_USEC_FROM_CQE : MLX5E_PARAMS_DEFAULT_RX_CQ_MODERATION_USEC; priv->params.rx_cq_moderation_mode = MLX5_CAP_GEN(mdev, cq_period_start_from_cqe) ? 1 : 0; priv->params.rx_cq_moderation_pkts = MLX5E_PARAMS_DEFAULT_RX_CQ_MODERATION_PKTS; priv->params.tx_cq_moderation_usec = MLX5E_PARAMS_DEFAULT_TX_CQ_MODERATION_USEC; priv->params.tx_cq_moderation_pkts = MLX5E_PARAMS_DEFAULT_TX_CQ_MODERATION_PKTS; priv->params.min_rx_wqes = MLX5E_PARAMS_DEFAULT_MIN_RX_WQES; priv->params.rx_hash_log_tbl_sz = (order_base_2(num_comp_vectors) > MLX5E_PARAMS_DEFAULT_RX_HASH_LOG_TBL_SZ) ? order_base_2(num_comp_vectors) : MLX5E_PARAMS_DEFAULT_RX_HASH_LOG_TBL_SZ; priv->params.num_tc = 1; priv->params.default_vlan_prio = 0; priv->counter_set_id = -1; priv->params.tx_max_inline = mlx5e_get_max_inline_cap(mdev); err = mlx5_query_min_inline(mdev, &priv->params.tx_min_inline_mode); if (err) return (err); /* * hw lro is currently defaulted to off. when it won't anymore we * will consider the HW capability: "!!MLX5_CAP_ETH(mdev, lro_cap)" */ priv->params.hw_lro_en = false; priv->params.lro_wqe_sz = MLX5E_PARAMS_DEFAULT_LRO_WQE_SZ; /* * CQE zipping is currently defaulted to off. when it won't * anymore we will consider the HW capability: * "!!MLX5_CAP_GEN(mdev, cqe_compression)" */ priv->params.cqe_zipping_en = false; priv->mdev = mdev; priv->params.num_channels = num_comp_vectors; priv->params.channels_rsss = 1; priv->order_base_2_num_channels = order_base_2(num_comp_vectors); priv->queue_mapping_channel_mask = roundup_pow_of_two(num_comp_vectors) - 1; priv->num_tc = priv->params.num_tc; priv->default_vlan_prio = priv->params.default_vlan_prio; INIT_WORK(&priv->update_stats_work, mlx5e_update_stats_work); INIT_WORK(&priv->update_carrier_work, mlx5e_update_carrier_work); INIT_WORK(&priv->set_rx_mode_work, mlx5e_set_rx_mode_work); return (0); } static int mlx5e_create_mkey(struct mlx5e_priv *priv, u32 pdn, struct mlx5_core_mr *mkey) { struct ifnet *ifp = priv->ifp; struct mlx5_core_dev *mdev = priv->mdev; int inlen = MLX5_ST_SZ_BYTES(create_mkey_in); void *mkc; u32 *in; int err; in = mlx5_vzalloc(inlen); if (in == NULL) { mlx5_en_err(ifp, "failed to allocate inbox\n"); return (-ENOMEM); } mkc = MLX5_ADDR_OF(create_mkey_in, in, memory_key_mkey_entry); MLX5_SET(mkc, mkc, access_mode, MLX5_ACCESS_MODE_PA); MLX5_SET(mkc, mkc, umr_en, 1); /* used by HW TLS */ MLX5_SET(mkc, mkc, lw, 1); MLX5_SET(mkc, mkc, lr, 1); MLX5_SET(mkc, mkc, pd, pdn); MLX5_SET(mkc, mkc, length64, 1); MLX5_SET(mkc, mkc, qpn, 0xffffff); err = mlx5_core_create_mkey(mdev, mkey, in, inlen); if (err) mlx5_en_err(ifp, "mlx5_core_create_mkey failed, %d\n", err); kvfree(in); return (err); } static const char *mlx5e_vport_stats_desc[] = { MLX5E_VPORT_STATS(MLX5E_STATS_DESC) }; static const char *mlx5e_pport_stats_desc[] = { MLX5E_PPORT_STATS(MLX5E_STATS_DESC) }; static void mlx5e_priv_static_init(struct mlx5e_priv *priv, const uint32_t channels) { uint32_t x; mtx_init(&priv->async_events_mtx, "mlx5async", MTX_NETWORK_LOCK, MTX_DEF); sx_init(&priv->state_lock, "mlx5state"); callout_init_mtx(&priv->watchdog, &priv->async_events_mtx, 0); MLX5_INIT_DOORBELL_LOCK(&priv->doorbell_lock); for (x = 0; x != channels; x++) mlx5e_chan_static_init(priv, &priv->channel[x], x); } static void mlx5e_priv_static_destroy(struct mlx5e_priv *priv, const uint32_t channels) { uint32_t x; for (x = 0; x != channels; x++) mlx5e_chan_static_destroy(&priv->channel[x]); callout_drain(&priv->watchdog); mtx_destroy(&priv->async_events_mtx); sx_destroy(&priv->state_lock); } static int sysctl_firmware(SYSCTL_HANDLER_ARGS) { /* * %d.%d%.d the string format. * fw_rev_{maj,min,sub} return u16, 2^16 = 65536. * We need at most 5 chars to store that. * It also has: two "." and NULL at the end, which means we need 18 * (5*3 + 3) chars at most. */ char fw[18]; struct mlx5e_priv *priv = arg1; int error; snprintf(fw, sizeof(fw), "%d.%d.%d", fw_rev_maj(priv->mdev), fw_rev_min(priv->mdev), fw_rev_sub(priv->mdev)); error = sysctl_handle_string(oidp, fw, sizeof(fw), req); return (error); } static void mlx5e_disable_tx_dma(struct mlx5e_channel *ch) { int i; for (i = 0; i < ch->priv->num_tc; i++) mlx5e_drain_sq(&ch->sq[i]); } static void mlx5e_reset_sq_doorbell_record(struct mlx5e_sq *sq) { sq->doorbell.d32[0] = cpu_to_be32(MLX5_OPCODE_NOP); sq->doorbell.d32[1] = cpu_to_be32(sq->sqn << 8); mlx5e_tx_notify_hw(sq, sq->doorbell.d32, 0); sq->doorbell.d64 = 0; } void mlx5e_resume_sq(struct mlx5e_sq *sq) { int err; /* check if already enabled */ if (READ_ONCE(sq->running) != 0) return; err = mlx5e_modify_sq(sq, MLX5_SQC_STATE_ERR, MLX5_SQC_STATE_RST); if (err != 0) { mlx5_en_err(sq->ifp, "mlx5e_modify_sq() from ERR to RST failed: %d\n", err); } sq->cc = 0; sq->pc = 0; /* reset doorbell prior to moving from RST to RDY */ mlx5e_reset_sq_doorbell_record(sq); err = mlx5e_modify_sq(sq, MLX5_SQC_STATE_RST, MLX5_SQC_STATE_RDY); if (err != 0) { mlx5_en_err(sq->ifp, "mlx5e_modify_sq() from RST to RDY failed: %d\n", err); } sq->cev_next_state = MLX5E_CEV_STATE_INITIAL; WRITE_ONCE(sq->running, 1); } static void mlx5e_enable_tx_dma(struct mlx5e_channel *ch) { int i; for (i = 0; i < ch->priv->num_tc; i++) mlx5e_resume_sq(&ch->sq[i]); } static void mlx5e_disable_rx_dma(struct mlx5e_channel *ch) { struct mlx5e_rq *rq = &ch->rq; struct epoch_tracker et; int err; mtx_lock(&rq->mtx); rq->enabled = 0; callout_stop(&rq->watchdog); mtx_unlock(&rq->mtx); err = mlx5e_modify_rq(rq, MLX5_RQC_STATE_RDY, MLX5_RQC_STATE_ERR); if (err != 0) { mlx5_en_err(rq->ifp, "mlx5e_modify_rq() from RDY to RST failed: %d\n", err); } while (!mlx5_wq_ll_is_empty(&rq->wq)) { msleep(1); NET_EPOCH_ENTER(et); rq->cq.mcq.comp(&rq->cq.mcq); NET_EPOCH_EXIT(et); } /* * Transitioning into RST state will allow the FW to track less ERR state queues, * thus reducing the recv queue flushing time */ err = mlx5e_modify_rq(rq, MLX5_RQC_STATE_ERR, MLX5_RQC_STATE_RST); if (err != 0) { mlx5_en_err(rq->ifp, "mlx5e_modify_rq() from ERR to RST failed: %d\n", err); } } static void mlx5e_enable_rx_dma(struct mlx5e_channel *ch) { struct mlx5e_rq *rq = &ch->rq; struct epoch_tracker et; int err; rq->wq.wqe_ctr = 0; mlx5_wq_ll_update_db_record(&rq->wq); err = mlx5e_modify_rq(rq, MLX5_RQC_STATE_RST, MLX5_RQC_STATE_RDY); if (err != 0) { mlx5_en_err(rq->ifp, "mlx5e_modify_rq() from RST to RDY failed: %d\n", err); } rq->enabled = 1; NET_EPOCH_ENTER(et); rq->cq.mcq.comp(&rq->cq.mcq); NET_EPOCH_EXIT(et); } void mlx5e_modify_tx_dma(struct mlx5e_priv *priv, uint8_t value) { int i; if (test_bit(MLX5E_STATE_OPENED, &priv->state) == 0) return; for (i = 0; i < priv->params.num_channels; i++) { if (value) mlx5e_disable_tx_dma(&priv->channel[i]); else mlx5e_enable_tx_dma(&priv->channel[i]); } } void mlx5e_modify_rx_dma(struct mlx5e_priv *priv, uint8_t value) { int i; if (test_bit(MLX5E_STATE_OPENED, &priv->state) == 0) return; for (i = 0; i < priv->params.num_channels; i++) { if (value) mlx5e_disable_rx_dma(&priv->channel[i]); else mlx5e_enable_rx_dma(&priv->channel[i]); } } static void mlx5e_add_hw_stats(struct mlx5e_priv *priv) { SYSCTL_ADD_PROC(&priv->sysctl_ctx, SYSCTL_CHILDREN(priv->sysctl_hw), OID_AUTO, "fw_version", CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_MPSAFE, priv, 0, sysctl_firmware, "A", "HCA firmware version"); SYSCTL_ADD_STRING(&priv->sysctl_ctx, SYSCTL_CHILDREN(priv->sysctl_hw), OID_AUTO, "board_id", CTLFLAG_RD, priv->mdev->board_id, 0, "Board ID"); } static int mlx5e_sysctl_tx_priority_flow_control(SYSCTL_HANDLER_ARGS) { struct mlx5e_priv *priv = arg1; uint8_t temp[MLX5E_MAX_PRIORITY]; uint32_t tx_pfc; int err; int i; PRIV_LOCK(priv); tx_pfc = priv->params.tx_priority_flow_control; for (i = 0; i != MLX5E_MAX_PRIORITY; i++) temp[i] = (tx_pfc >> i) & 1; err = SYSCTL_OUT(req, temp, MLX5E_MAX_PRIORITY); if (err || !req->newptr) goto done; err = SYSCTL_IN(req, temp, MLX5E_MAX_PRIORITY); if (err) goto done; priv->params.tx_priority_flow_control = 0; /* range check input value */ for (i = 0; i != MLX5E_MAX_PRIORITY; i++) { if (temp[i] > 1) { err = ERANGE; goto done; } priv->params.tx_priority_flow_control |= (temp[i] << i); } /* check if update is required */ if (tx_pfc != priv->params.tx_priority_flow_control) err = -mlx5e_set_port_pfc(priv); done: if (err != 0) priv->params.tx_priority_flow_control= tx_pfc; PRIV_UNLOCK(priv); return (err); } static int mlx5e_sysctl_rx_priority_flow_control(SYSCTL_HANDLER_ARGS) { struct mlx5e_priv *priv = arg1; uint8_t temp[MLX5E_MAX_PRIORITY]; uint32_t rx_pfc; int err; int i; PRIV_LOCK(priv); rx_pfc = priv->params.rx_priority_flow_control; for (i = 0; i != MLX5E_MAX_PRIORITY; i++) temp[i] = (rx_pfc >> i) & 1; err = SYSCTL_OUT(req, temp, MLX5E_MAX_PRIORITY); if (err || !req->newptr) goto done; err = SYSCTL_IN(req, temp, MLX5E_MAX_PRIORITY); if (err) goto done; priv->params.rx_priority_flow_control = 0; /* range check input value */ for (i = 0; i != MLX5E_MAX_PRIORITY; i++) { if (temp[i] > 1) { err = ERANGE; goto done; } priv->params.rx_priority_flow_control |= (temp[i] << i); } /* check if update is required */ if (rx_pfc != priv->params.rx_priority_flow_control) { err = -mlx5e_set_port_pfc(priv); if (err == 0 && priv->sw_is_port_buf_owner) err = mlx5e_update_buf_lossy(priv); } done: if (err != 0) priv->params.rx_priority_flow_control= rx_pfc; PRIV_UNLOCK(priv); return (err); } static void mlx5e_setup_pauseframes(struct mlx5e_priv *priv) { #if (__FreeBSD_version < 1100000) char path[96]; #endif int error; /* enable pauseframes by default */ priv->params.tx_pauseframe_control = 1; priv->params.rx_pauseframe_control = 1; /* disable ports flow control, PFC, by default */ priv->params.tx_priority_flow_control = 0; priv->params.rx_priority_flow_control = 0; #if (__FreeBSD_version < 1100000) /* compute path for sysctl */ snprintf(path, sizeof(path), "dev.mce.%d.tx_pauseframe_control", device_get_unit(priv->mdev->pdev->dev.bsddev)); /* try to fetch tunable, if any */ TUNABLE_INT_FETCH(path, &priv->params.tx_pauseframe_control); /* compute path for sysctl */ snprintf(path, sizeof(path), "dev.mce.%d.rx_pauseframe_control", device_get_unit(priv->mdev->pdev->dev.bsddev)); /* try to fetch tunable, if any */ TUNABLE_INT_FETCH(path, &priv->params.rx_pauseframe_control); #endif /* register pauseframe SYSCTLs */ SYSCTL_ADD_INT(&priv->sysctl_ctx, SYSCTL_CHILDREN(priv->sysctl_ifnet), OID_AUTO, "tx_pauseframe_control", CTLFLAG_RDTUN, &priv->params.tx_pauseframe_control, 0, "Set to enable TX pause frames. Clear to disable."); SYSCTL_ADD_INT(&priv->sysctl_ctx, SYSCTL_CHILDREN(priv->sysctl_ifnet), OID_AUTO, "rx_pauseframe_control", CTLFLAG_RDTUN, &priv->params.rx_pauseframe_control, 0, "Set to enable RX pause frames. Clear to disable."); /* register priority flow control, PFC, SYSCTLs */ SYSCTL_ADD_PROC(&priv->sysctl_ctx, SYSCTL_CHILDREN(priv->sysctl_ifnet), OID_AUTO, "tx_priority_flow_control", CTLTYPE_U8 | CTLFLAG_RWTUN | CTLFLAG_MPSAFE, priv, 0, &mlx5e_sysctl_tx_priority_flow_control, "CU", "Set to enable TX ports flow control frames for priorities 0..7. Clear to disable."); SYSCTL_ADD_PROC(&priv->sysctl_ctx, SYSCTL_CHILDREN(priv->sysctl_ifnet), OID_AUTO, "rx_priority_flow_control", CTLTYPE_U8 | CTLFLAG_RWTUN | CTLFLAG_MPSAFE, priv, 0, &mlx5e_sysctl_rx_priority_flow_control, "CU", "Set to enable RX ports flow control frames for priorities 0..7. Clear to disable."); PRIV_LOCK(priv); /* range check */ priv->params.tx_pauseframe_control = priv->params.tx_pauseframe_control ? 1 : 0; priv->params.rx_pauseframe_control = priv->params.rx_pauseframe_control ? 1 : 0; /* update firmware */ error = mlx5e_set_port_pause_and_pfc(priv); if (error == -EINVAL) { mlx5_en_err(priv->ifp, "Global pauseframes must be disabled before enabling PFC.\n"); priv->params.rx_priority_flow_control = 0; priv->params.tx_priority_flow_control = 0; /* update firmware */ (void) mlx5e_set_port_pause_and_pfc(priv); } PRIV_UNLOCK(priv); } int mlx5e_ul_snd_tag_alloc(struct ifnet *ifp, union if_snd_tag_alloc_params *params, struct m_snd_tag **ppmt) { struct mlx5e_priv *priv; struct mlx5e_channel *pch; priv = ifp->if_softc; if (unlikely(priv->gone || params->hdr.flowtype == M_HASHTYPE_NONE)) { return (EOPNOTSUPP); } else { /* keep this code synced with mlx5e_select_queue() */ u32 ch = priv->params.num_channels; #ifdef RSS u32 temp; if (rss_hash2bucket(params->hdr.flowid, params->hdr.flowtype, &temp) == 0) ch = temp % ch; else #endif ch = (params->hdr.flowid % 128) % ch; /* * NOTE: The channels array is only freed at detach * and it safe to return a pointer to the send tag * inside the channels structure as long as we * reference the priv. */ pch = priv->channel + ch; /* check if send queue is not running */ if (unlikely(pch->sq[0].running == 0)) return (ENXIO); m_snd_tag_ref(&pch->tag); *ppmt = &pch->tag; return (0); } } int mlx5e_ul_snd_tag_query(struct m_snd_tag *pmt, union if_snd_tag_query_params *params) { struct mlx5e_channel *pch = container_of(pmt, struct mlx5e_channel, tag); params->unlimited.max_rate = -1ULL; params->unlimited.queue_level = mlx5e_sq_queue_level(&pch->sq[0]); return (0); } void mlx5e_ul_snd_tag_free(struct m_snd_tag *pmt) { struct mlx5e_channel *pch = container_of(pmt, struct mlx5e_channel, tag); complete(&pch->completion); } static int mlx5e_snd_tag_alloc(struct ifnet *ifp, union if_snd_tag_alloc_params *params, struct m_snd_tag **ppmt) { switch (params->hdr.type) { #ifdef RATELIMIT case IF_SND_TAG_TYPE_RATE_LIMIT: return (mlx5e_rl_snd_tag_alloc(ifp, params, ppmt)); #ifdef KERN_TLS case IF_SND_TAG_TYPE_TLS_RATE_LIMIT: return (mlx5e_tls_snd_tag_alloc(ifp, params, ppmt)); #endif #endif case IF_SND_TAG_TYPE_UNLIMITED: return (mlx5e_ul_snd_tag_alloc(ifp, params, ppmt)); #ifdef KERN_TLS case IF_SND_TAG_TYPE_TLS: return (mlx5e_tls_snd_tag_alloc(ifp, params, ppmt)); #endif default: return (EOPNOTSUPP); } } static int mlx5e_snd_tag_modify(struct m_snd_tag *pmt, union if_snd_tag_modify_params *params) { switch (pmt->type) { #ifdef RATELIMIT case IF_SND_TAG_TYPE_RATE_LIMIT: return (mlx5e_rl_snd_tag_modify(pmt, params)); #ifdef KERN_TLS case IF_SND_TAG_TYPE_TLS_RATE_LIMIT: return (mlx5e_tls_snd_tag_modify(pmt, params)); #endif #endif case IF_SND_TAG_TYPE_UNLIMITED: #ifdef KERN_TLS case IF_SND_TAG_TYPE_TLS: #endif default: return (EOPNOTSUPP); } } static int mlx5e_snd_tag_query(struct m_snd_tag *pmt, union if_snd_tag_query_params *params) { switch (pmt->type) { #ifdef RATELIMIT case IF_SND_TAG_TYPE_RATE_LIMIT: return (mlx5e_rl_snd_tag_query(pmt, params)); #ifdef KERN_TLS case IF_SND_TAG_TYPE_TLS_RATE_LIMIT: return (mlx5e_tls_snd_tag_query(pmt, params)); #endif #endif case IF_SND_TAG_TYPE_UNLIMITED: return (mlx5e_ul_snd_tag_query(pmt, params)); #ifdef KERN_TLS case IF_SND_TAG_TYPE_TLS: return (mlx5e_tls_snd_tag_query(pmt, params)); #endif default: return (EOPNOTSUPP); } } #ifdef RATELIMIT #define NUM_HDWR_RATES_MLX 13 static const uint64_t adapter_rates_mlx[NUM_HDWR_RATES_MLX] = { 135375, /* 1,083,000 */ 180500, /* 1,444,000 */ 270750, /* 2,166,000 */ 361000, /* 2,888,000 */ 541500, /* 4,332,000 */ 721875, /* 5,775,000 */ 1082875, /* 8,663,000 */ 1443875, /* 11,551,000 */ 2165750, /* 17,326,000 */ 2887750, /* 23,102,000 */ 4331625, /* 34,653,000 */ 5775500, /* 46,204,000 */ 8663125 /* 69,305,000 */ }; static void mlx5e_ratelimit_query(struct ifnet *ifp __unused, struct if_ratelimit_query_results *q) { /* * This function needs updating by the driver maintainer! * For the MLX card there are currently (ConectX-4?) 13 * pre-set rates and others i.e. ConnectX-5, 6, 7?? * * This will change based on later adapters * and this code should be updated to look at ifp * and figure out the specific adapter type * settings i.e. how many rates as well * as if they are fixed (as is shown here) or * if they are dynamic (example chelsio t4). Also if there * is a maximum number of flows that the adapter * can handle that too needs to be updated in * the max_flows field. */ q->rate_table = adapter_rates_mlx; q->flags = RT_IS_FIXED_TABLE; q->max_flows = 0; /* mlx has no limit */ q->number_of_rates = NUM_HDWR_RATES_MLX; q->min_segment_burst = 1; } #endif static void mlx5e_snd_tag_free(struct m_snd_tag *pmt) { switch (pmt->type) { #ifdef RATELIMIT case IF_SND_TAG_TYPE_RATE_LIMIT: mlx5e_rl_snd_tag_free(pmt); break; #ifdef KERN_TLS case IF_SND_TAG_TYPE_TLS_RATE_LIMIT: mlx5e_tls_snd_tag_free(pmt); break; #endif #endif case IF_SND_TAG_TYPE_UNLIMITED: mlx5e_ul_snd_tag_free(pmt); break; #ifdef KERN_TLS case IF_SND_TAG_TYPE_TLS: mlx5e_tls_snd_tag_free(pmt); break; #endif default: break; } } static void * mlx5e_create_ifp(struct mlx5_core_dev *mdev) { struct ifnet *ifp; struct mlx5e_priv *priv; u8 dev_addr[ETHER_ADDR_LEN] __aligned(4); u8 connector_type; struct sysctl_oid_list *child; int ncv = mdev->priv.eq_table.num_comp_vectors; char unit[16]; struct pfil_head_args pa; int err; int i,j; u32 eth_proto_cap; u32 out[MLX5_ST_SZ_DW(ptys_reg)]; bool ext = 0; u32 speeds_num; struct media media_entry = {}; if (mlx5e_check_required_hca_cap(mdev)) { mlx5_core_dbg(mdev, "mlx5e_check_required_hca_cap() failed\n"); return (NULL); } /* * Try to allocate the priv and make room for worst-case * number of channel structures: */ priv = malloc(sizeof(*priv) + (sizeof(priv->channel[0]) * mdev->priv.eq_table.num_comp_vectors), M_MLX5EN, M_WAITOK | M_ZERO); ifp = priv->ifp = if_alloc_dev(IFT_ETHER, mdev->pdev->dev.bsddev); if (ifp == NULL) { mlx5_core_err(mdev, "if_alloc() failed\n"); goto err_free_priv; } /* setup all static fields */ mlx5e_priv_static_init(priv, mdev->priv.eq_table.num_comp_vectors); ifp->if_softc = priv; if_initname(ifp, "mce", device_get_unit(mdev->pdev->dev.bsddev)); ifp->if_mtu = ETHERMTU; ifp->if_init = mlx5e_open; ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST | IFF_KNOWSEPOCH; ifp->if_ioctl = mlx5e_ioctl; ifp->if_transmit = mlx5e_xmit; ifp->if_qflush = if_qflush; #if (__FreeBSD_version >= 1100000) ifp->if_get_counter = mlx5e_get_counter; #endif ifp->if_snd.ifq_maxlen = ifqmaxlen; /* * Set driver features */ ifp->if_capabilities |= IFCAP_HWCSUM | IFCAP_HWCSUM_IPV6; ifp->if_capabilities |= IFCAP_VLAN_MTU | IFCAP_VLAN_HWTAGGING; ifp->if_capabilities |= IFCAP_VLAN_HWCSUM | IFCAP_VLAN_HWFILTER; ifp->if_capabilities |= IFCAP_LINKSTATE | IFCAP_JUMBO_MTU; ifp->if_capabilities |= IFCAP_LRO; ifp->if_capabilities |= IFCAP_TSO | IFCAP_VLAN_HWTSO; ifp->if_capabilities |= IFCAP_HWSTATS | IFCAP_HWRXTSTMP; ifp->if_capabilities |= IFCAP_NOMAP; ifp->if_capabilities |= IFCAP_TXTLS4 | IFCAP_TXTLS6; #ifdef RATELIMIT ifp->if_capabilities |= IFCAP_TXRTLMT | IFCAP_TXTLS_RTLMT; #endif ifp->if_snd_tag_alloc = mlx5e_snd_tag_alloc; ifp->if_snd_tag_free = mlx5e_snd_tag_free; ifp->if_snd_tag_modify = mlx5e_snd_tag_modify; ifp->if_snd_tag_query = mlx5e_snd_tag_query; #ifdef RATELIMIT ifp->if_ratelimit_query = mlx5e_ratelimit_query; #endif /* set TSO limits so that we don't have to drop TX packets */ ifp->if_hw_tsomax = MLX5E_MAX_TX_PAYLOAD_SIZE - (ETHER_HDR_LEN + ETHER_VLAN_ENCAP_LEN); ifp->if_hw_tsomaxsegcount = MLX5E_MAX_TX_MBUF_FRAGS - 1 /* hdr */; ifp->if_hw_tsomaxsegsize = MLX5E_MAX_TX_MBUF_SIZE; ifp->if_capenable = ifp->if_capabilities; ifp->if_hwassist = 0; if (ifp->if_capenable & IFCAP_TSO) ifp->if_hwassist |= CSUM_TSO; if (ifp->if_capenable & IFCAP_TXCSUM) ifp->if_hwassist |= (CSUM_TCP | CSUM_UDP | CSUM_IP); if (ifp->if_capenable & IFCAP_TXCSUM_IPV6) ifp->if_hwassist |= (CSUM_UDP_IPV6 | CSUM_TCP_IPV6); /* ifnet sysctl tree */ sysctl_ctx_init(&priv->sysctl_ctx); priv->sysctl_ifnet = SYSCTL_ADD_NODE(&priv->sysctl_ctx, SYSCTL_STATIC_CHILDREN(_dev), OID_AUTO, ifp->if_dname, CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "MLX5 ethernet - interface name"); if (priv->sysctl_ifnet == NULL) { mlx5_core_err(mdev, "SYSCTL_ADD_NODE() failed\n"); goto err_free_sysctl; } snprintf(unit, sizeof(unit), "%d", ifp->if_dunit); priv->sysctl_ifnet = SYSCTL_ADD_NODE(&priv->sysctl_ctx, SYSCTL_CHILDREN(priv->sysctl_ifnet), OID_AUTO, unit, CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "MLX5 ethernet - interface unit"); if (priv->sysctl_ifnet == NULL) { mlx5_core_err(mdev, "SYSCTL_ADD_NODE() failed\n"); goto err_free_sysctl; } /* HW sysctl tree */ child = SYSCTL_CHILDREN(device_get_sysctl_tree(mdev->pdev->dev.bsddev)); priv->sysctl_hw = SYSCTL_ADD_NODE(&priv->sysctl_ctx, child, OID_AUTO, "hw", CTLFLAG_RD | CTLFLAG_MPSAFE, 0, "MLX5 ethernet dev hw"); if (priv->sysctl_hw == NULL) { mlx5_core_err(mdev, "SYSCTL_ADD_NODE() failed\n"); goto err_free_sysctl; } err = mlx5e_build_ifp_priv(mdev, priv, ncv); if (err) { mlx5_core_err(mdev, "mlx5e_build_ifp_priv() failed (%d)\n", err); goto err_free_sysctl; } /* reuse mlx5core's watchdog workqueue */ priv->wq = mdev->priv.health.wq_watchdog; err = mlx5_alloc_map_uar(mdev, &priv->cq_uar); if (err) { mlx5_en_err(ifp, "mlx5_alloc_map_uar failed, %d\n", err); goto err_free_wq; } err = mlx5_core_alloc_pd(mdev, &priv->pdn); if (err) { mlx5_en_err(ifp, "mlx5_core_alloc_pd failed, %d\n", err); goto err_unmap_free_uar; } err = mlx5_alloc_transport_domain(mdev, &priv->tdn); if (err) { mlx5_en_err(ifp, "mlx5_alloc_transport_domain failed, %d\n", err); goto err_dealloc_pd; } err = mlx5e_create_mkey(priv, priv->pdn, &priv->mr); if (err) { mlx5_en_err(ifp, "mlx5e_create_mkey failed, %d\n", err); goto err_dealloc_transport_domain; } mlx5_query_nic_vport_mac_address(priv->mdev, 0, dev_addr); /* check if we should generate a random MAC address */ if (MLX5_CAP_GEN(priv->mdev, vport_group_manager) == 0 && is_zero_ether_addr(dev_addr)) { random_ether_addr(dev_addr); mlx5_en_err(ifp, "Assigned random MAC address\n"); } err = mlx5e_rl_init(priv); if (err) { mlx5_en_err(ifp, "mlx5e_rl_init failed, %d\n", err); goto err_create_mkey; } err = mlx5e_tls_init(priv); if (err) { if_printf(ifp, "%s: mlx5e_tls_init failed\n", __func__); goto err_rl_init; } /* set default MTU */ mlx5e_set_dev_port_mtu(ifp, ifp->if_mtu); /* Set default media status */ priv->media_status_last = IFM_AVALID; priv->media_active_last = IFM_ETHER | IFM_AUTO | IFM_ETH_RXPAUSE | IFM_FDX; /* setup default pauseframes configuration */ mlx5e_setup_pauseframes(priv); /* Setup supported medias */ //TODO: If we failed to query ptys is it ok to proceed?? if (!mlx5_query_port_ptys(mdev, out, sizeof(out), MLX5_PTYS_EN, 1)) { ext = MLX5_CAP_PCAM_FEATURE(mdev, ptys_extended_ethernet); eth_proto_cap = MLX5_GET_ETH_PROTO(ptys_reg, out, ext, eth_proto_capability); if (MLX5_CAP_PCAM_FEATURE(mdev, ptys_connector_type)) connector_type = MLX5_GET(ptys_reg, out, connector_type); } else { eth_proto_cap = 0; mlx5_en_err(ifp, "Query port media capability failed, %d\n", err); } ifmedia_init(&priv->media, IFM_IMASK | IFM_ETH_FMASK, mlx5e_media_change, mlx5e_media_status); speeds_num = ext ? MLX5E_EXT_LINK_SPEEDS_NUMBER : MLX5E_LINK_SPEEDS_NUMBER; for (i = 0; i != speeds_num; i++) { for (j = 0; j < MLX5E_LINK_MODES_NUMBER ; ++j) { media_entry = ext ? mlx5e_ext_mode_table[i][j] : mlx5e_mode_table[i][j]; if (media_entry.baudrate == 0) continue; if (MLX5E_PROT_MASK(i) & eth_proto_cap) { ifmedia_add(&priv->media, media_entry.subtype | IFM_ETHER, 0, NULL); ifmedia_add(&priv->media, media_entry.subtype | IFM_ETHER | IFM_FDX | IFM_ETH_RXPAUSE | IFM_ETH_TXPAUSE, 0, NULL); } } } ifmedia_add(&priv->media, IFM_ETHER | IFM_AUTO, 0, NULL); ifmedia_add(&priv->media, IFM_ETHER | IFM_AUTO | IFM_FDX | IFM_ETH_RXPAUSE | IFM_ETH_TXPAUSE, 0, NULL); /* Set autoselect by default */ ifmedia_set(&priv->media, IFM_ETHER | IFM_AUTO | IFM_FDX | IFM_ETH_RXPAUSE | IFM_ETH_TXPAUSE); DEBUGNET_SET(ifp, mlx5_en); ether_ifattach(ifp, dev_addr); /* Register for VLAN events */ priv->vlan_attach = EVENTHANDLER_REGISTER(vlan_config, mlx5e_vlan_rx_add_vid, priv, EVENTHANDLER_PRI_FIRST); priv->vlan_detach = EVENTHANDLER_REGISTER(vlan_unconfig, mlx5e_vlan_rx_kill_vid, priv, EVENTHANDLER_PRI_FIRST); /* Link is down by default */ if_link_state_change(ifp, LINK_STATE_DOWN); mlx5e_enable_async_events(priv); mlx5e_add_hw_stats(priv); mlx5e_create_stats(&priv->stats.vport.ctx, SYSCTL_CHILDREN(priv->sysctl_ifnet), "vstats", mlx5e_vport_stats_desc, MLX5E_VPORT_STATS_NUM, priv->stats.vport.arg); mlx5e_create_stats(&priv->stats.pport.ctx, SYSCTL_CHILDREN(priv->sysctl_ifnet), "pstats", mlx5e_pport_stats_desc, MLX5E_PPORT_STATS_NUM, priv->stats.pport.arg); mlx5e_create_ethtool(priv); mtx_lock(&priv->async_events_mtx); mlx5e_update_stats(priv); mtx_unlock(&priv->async_events_mtx); SYSCTL_ADD_INT(&priv->sysctl_ctx, SYSCTL_CHILDREN(priv->sysctl_ifnet), OID_AUTO, "rx_clbr_done", CTLFLAG_RD, &priv->clbr_done, 0, "RX timestamps calibration state"); callout_init(&priv->tstmp_clbr, CALLOUT_DIRECT); mlx5e_reset_calibration_callout(priv); pa.pa_version = PFIL_VERSION; pa.pa_flags = PFIL_IN; pa.pa_type = PFIL_TYPE_ETHERNET; pa.pa_headname = ifp->if_xname; priv->pfil = pfil_head_register(&pa); return (priv); err_rl_init: mlx5e_rl_cleanup(priv); err_create_mkey: mlx5_core_destroy_mkey(priv->mdev, &priv->mr); err_dealloc_transport_domain: mlx5_dealloc_transport_domain(mdev, priv->tdn); err_dealloc_pd: mlx5_core_dealloc_pd(mdev, priv->pdn); err_unmap_free_uar: mlx5_unmap_free_uar(mdev, &priv->cq_uar); err_free_wq: flush_workqueue(priv->wq); err_free_sysctl: sysctl_ctx_free(&priv->sysctl_ctx); if (priv->sysctl_debug) sysctl_ctx_free(&priv->stats.port_stats_debug.ctx); mlx5e_priv_static_destroy(priv, mdev->priv.eq_table.num_comp_vectors); if_free(ifp); err_free_priv: free(priv, M_MLX5EN); return (NULL); } static void mlx5e_destroy_ifp(struct mlx5_core_dev *mdev, void *vpriv) { struct mlx5e_priv *priv = vpriv; struct ifnet *ifp = priv->ifp; /* don't allow more IOCTLs */ priv->gone = 1; /* XXX wait a bit to allow IOCTL handlers to complete */ pause("W", hz); #ifdef RATELIMIT /* * The kernel can have reference(s) via the m_snd_tag's into * the ratelimit channels, and these must go away before * detaching: */ while (READ_ONCE(priv->rl.stats.tx_active_connections) != 0) { mlx5_en_err(priv->ifp, "Waiting for all ratelimit connections to terminate\n"); pause("W", hz); } #endif /* wait for all unlimited send tags to complete */ mlx5e_priv_wait_for_completion(priv, mdev->priv.eq_table.num_comp_vectors); /* stop watchdog timer */ callout_drain(&priv->watchdog); callout_drain(&priv->tstmp_clbr); if (priv->vlan_attach != NULL) EVENTHANDLER_DEREGISTER(vlan_config, priv->vlan_attach); if (priv->vlan_detach != NULL) EVENTHANDLER_DEREGISTER(vlan_unconfig, priv->vlan_detach); /* make sure device gets closed */ PRIV_LOCK(priv); mlx5e_close_locked(ifp); PRIV_UNLOCK(priv); /* deregister pfil */ if (priv->pfil != NULL) { pfil_head_unregister(priv->pfil); priv->pfil = NULL; } /* unregister device */ ifmedia_removeall(&priv->media); ether_ifdetach(ifp); mlx5e_tls_cleanup(priv); mlx5e_rl_cleanup(priv); /* destroy all remaining sysctl nodes */ sysctl_ctx_free(&priv->stats.vport.ctx); sysctl_ctx_free(&priv->stats.pport.ctx); if (priv->sysctl_debug) sysctl_ctx_free(&priv->stats.port_stats_debug.ctx); sysctl_ctx_free(&priv->sysctl_ctx); mlx5_core_destroy_mkey(priv->mdev, &priv->mr); mlx5_dealloc_transport_domain(priv->mdev, priv->tdn); mlx5_core_dealloc_pd(priv->mdev, priv->pdn); mlx5_unmap_free_uar(priv->mdev, &priv->cq_uar); mlx5e_disable_async_events(priv); flush_workqueue(priv->wq); mlx5e_priv_static_destroy(priv, mdev->priv.eq_table.num_comp_vectors); if_free(ifp); free(priv, M_MLX5EN); } #ifdef DEBUGNET static void mlx5_en_debugnet_init(struct ifnet *dev, int *nrxr, int *ncl, int *clsize) { struct mlx5e_priv *priv = if_getsoftc(dev); PRIV_LOCK(priv); *nrxr = priv->params.num_channels; *ncl = DEBUGNET_MAX_IN_FLIGHT; *clsize = MLX5E_MAX_RX_BYTES; PRIV_UNLOCK(priv); } static void mlx5_en_debugnet_event(struct ifnet *dev, enum debugnet_ev event) { } static int mlx5_en_debugnet_transmit(struct ifnet *dev, struct mbuf *m) { struct mlx5e_priv *priv = if_getsoftc(dev); struct mlx5e_sq *sq; int err; if ((if_getdrvflags(dev) & (IFF_DRV_RUNNING | IFF_DRV_OACTIVE)) != IFF_DRV_RUNNING || (priv->media_status_last & IFM_ACTIVE) == 0) return (ENOENT); sq = &priv->channel[0].sq[0]; if (sq->running == 0) { m_freem(m); return (ENOENT); } if (mlx5e_sq_xmit(sq, &m) != 0) { m_freem(m); err = ENOBUFS; } else { err = 0; } if (likely(sq->doorbell.d64 != 0)) { mlx5e_tx_notify_hw(sq, sq->doorbell.d32, 0); sq->doorbell.d64 = 0; } return (err); } static int mlx5_en_debugnet_poll(struct ifnet *dev, int count) { struct mlx5e_priv *priv = if_getsoftc(dev); if ((if_getdrvflags(dev) & IFF_DRV_RUNNING) == 0 || (priv->media_status_last & IFM_ACTIVE) == 0) return (ENOENT); mlx5_poll_interrupts(priv->mdev); return (0); } #endif /* DEBUGNET */ static void * mlx5e_get_ifp(void *vpriv) { struct mlx5e_priv *priv = vpriv; return (priv->ifp); } static struct mlx5_interface mlx5e_interface = { .add = mlx5e_create_ifp, .remove = mlx5e_destroy_ifp, .event = mlx5e_async_event, .protocol = MLX5_INTERFACE_PROTOCOL_ETH, .get_dev = mlx5e_get_ifp, }; void mlx5e_init(void) { mlx5_register_interface(&mlx5e_interface); } void mlx5e_cleanup(void) { mlx5_unregister_interface(&mlx5e_interface); } static void mlx5e_show_version(void __unused *arg) { printf("%s", mlx5e_version); } SYSINIT(mlx5e_show_version, SI_SUB_DRIVERS, SI_ORDER_ANY, mlx5e_show_version, NULL); module_init_order(mlx5e_init, SI_ORDER_SIXTH); module_exit_order(mlx5e_cleanup, SI_ORDER_SIXTH); #if (__FreeBSD_version >= 1100000) MODULE_DEPEND(mlx5en, linuxkpi, 1, 1, 1); #endif MODULE_DEPEND(mlx5en, mlx5, 1, 1, 1); MODULE_VERSION(mlx5en, 1);