// SPDX-License-Identifier: GPL-2.0+ /* Microchip Sparx5 Switch driver * * Copyright (c) 2021 Microchip Technology Inc. and its subsidiaries. * * The Sparx5 Chip Register Model can be browsed at this location: * https://github.com/microchip-ung/sparx-5_reginfo */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "sparx5_main_regs.h" #include "sparx5_main.h" #include "sparx5_port.h" #define QLIM_WM(fraction) \ ((SPX5_BUFFER_MEMORY / SPX5_BUFFER_CELL_SZ - 100) * (fraction) / 100) #define IO_RANGES 3 struct initial_port_config { u32 portno; struct device_node *node; struct sparx5_port_config conf; struct phy *serdes; }; struct sparx5_ram_config { void __iomem *init_reg; u32 init_val; }; struct sparx5_main_io_resource { enum sparx5_target id; phys_addr_t offset; int range; }; static const struct sparx5_main_io_resource sparx5_main_iomap[] = { { TARGET_CPU, 0, 0 }, /* 0x600000000 */ { TARGET_FDMA, 0x80000, 0 }, /* 0x600080000 */ { TARGET_PCEP, 0x400000, 0 }, /* 0x600400000 */ { TARGET_DEV2G5, 0x10004000, 1 }, /* 0x610004000 */ { TARGET_DEV5G, 0x10008000, 1 }, /* 0x610008000 */ { TARGET_PCS5G_BR, 0x1000c000, 1 }, /* 0x61000c000 */ { TARGET_DEV2G5 + 1, 0x10010000, 1 }, /* 0x610010000 */ { TARGET_DEV5G + 1, 0x10014000, 1 }, /* 0x610014000 */ { TARGET_PCS5G_BR + 1, 0x10018000, 1 }, /* 0x610018000 */ { TARGET_DEV2G5 + 2, 0x1001c000, 1 }, /* 0x61001c000 */ { TARGET_DEV5G + 2, 0x10020000, 1 }, /* 0x610020000 */ { TARGET_PCS5G_BR + 2, 0x10024000, 1 }, /* 0x610024000 */ { TARGET_DEV2G5 + 6, 0x10028000, 1 }, /* 0x610028000 */ { TARGET_DEV5G + 6, 0x1002c000, 1 }, /* 0x61002c000 */ { TARGET_PCS5G_BR + 6, 0x10030000, 1 }, /* 0x610030000 */ { TARGET_DEV2G5 + 7, 0x10034000, 1 }, /* 0x610034000 */ { TARGET_DEV5G + 7, 0x10038000, 1 }, /* 0x610038000 */ { TARGET_PCS5G_BR + 7, 0x1003c000, 1 }, /* 0x61003c000 */ { TARGET_DEV2G5 + 8, 0x10040000, 1 }, /* 0x610040000 */ { TARGET_DEV5G + 8, 0x10044000, 1 }, /* 0x610044000 */ { TARGET_PCS5G_BR + 8, 0x10048000, 1 }, /* 0x610048000 */ { TARGET_DEV2G5 + 9, 0x1004c000, 1 }, /* 0x61004c000 */ { TARGET_DEV5G + 9, 0x10050000, 1 }, /* 0x610050000 */ { TARGET_PCS5G_BR + 9, 0x10054000, 1 }, /* 0x610054000 */ { TARGET_DEV2G5 + 10, 0x10058000, 1 }, /* 0x610058000 */ { TARGET_DEV5G + 10, 0x1005c000, 1 }, /* 0x61005c000 */ { TARGET_PCS5G_BR + 10, 0x10060000, 1 }, /* 0x610060000 */ { TARGET_DEV2G5 + 11, 0x10064000, 1 }, /* 0x610064000 */ { TARGET_DEV5G + 11, 0x10068000, 1 }, /* 0x610068000 */ { TARGET_PCS5G_BR + 11, 0x1006c000, 1 }, /* 0x61006c000 */ { TARGET_DEV2G5 + 12, 0x10070000, 1 }, /* 0x610070000 */ { TARGET_DEV10G, 0x10074000, 1 }, /* 0x610074000 */ { TARGET_PCS10G_BR, 0x10078000, 1 }, /* 0x610078000 */ { TARGET_DEV2G5 + 14, 0x1007c000, 1 }, /* 0x61007c000 */ { TARGET_DEV10G + 2, 0x10080000, 1 }, /* 0x610080000 */ { TARGET_PCS10G_BR + 2, 0x10084000, 1 }, /* 0x610084000 */ { TARGET_DEV2G5 + 15, 0x10088000, 1 }, /* 0x610088000 */ { TARGET_DEV10G + 3, 0x1008c000, 1 }, /* 0x61008c000 */ { TARGET_PCS10G_BR + 3, 0x10090000, 1 }, /* 0x610090000 */ { TARGET_DEV2G5 + 16, 0x10094000, 1 }, /* 0x610094000 */ { TARGET_DEV2G5 + 17, 0x10098000, 1 }, /* 0x610098000 */ { TARGET_DEV2G5 + 18, 0x1009c000, 1 }, /* 0x61009c000 */ { TARGET_DEV2G5 + 19, 0x100a0000, 1 }, /* 0x6100a0000 */ { TARGET_DEV2G5 + 20, 0x100a4000, 1 }, /* 0x6100a4000 */ { TARGET_DEV2G5 + 21, 0x100a8000, 1 }, /* 0x6100a8000 */ { TARGET_DEV2G5 + 22, 0x100ac000, 1 }, /* 0x6100ac000 */ { TARGET_DEV2G5 + 23, 0x100b0000, 1 }, /* 0x6100b0000 */ { TARGET_DEV2G5 + 32, 0x100b4000, 1 }, /* 0x6100b4000 */ { TARGET_DEV2G5 + 33, 0x100b8000, 1 }, /* 0x6100b8000 */ { TARGET_DEV2G5 + 34, 0x100bc000, 1 }, /* 0x6100bc000 */ { TARGET_DEV2G5 + 35, 0x100c0000, 1 }, /* 0x6100c0000 */ { TARGET_DEV2G5 + 36, 0x100c4000, 1 }, /* 0x6100c4000 */ { TARGET_DEV2G5 + 37, 0x100c8000, 1 }, /* 0x6100c8000 */ { TARGET_DEV2G5 + 38, 0x100cc000, 1 }, /* 0x6100cc000 */ { TARGET_DEV2G5 + 39, 0x100d0000, 1 }, /* 0x6100d0000 */ { TARGET_DEV2G5 + 40, 0x100d4000, 1 }, /* 0x6100d4000 */ { TARGET_DEV2G5 + 41, 0x100d8000, 1 }, /* 0x6100d8000 */ { TARGET_DEV2G5 + 42, 0x100dc000, 1 }, /* 0x6100dc000 */ { TARGET_DEV2G5 + 43, 0x100e0000, 1 }, /* 0x6100e0000 */ { TARGET_DEV2G5 + 44, 0x100e4000, 1 }, /* 0x6100e4000 */ { TARGET_DEV2G5 + 45, 0x100e8000, 1 }, /* 0x6100e8000 */ { TARGET_DEV2G5 + 46, 0x100ec000, 1 }, /* 0x6100ec000 */ { TARGET_DEV2G5 + 47, 0x100f0000, 1 }, /* 0x6100f0000 */ { TARGET_DEV2G5 + 57, 0x100f4000, 1 }, /* 0x6100f4000 */ { TARGET_DEV25G + 1, 0x100f8000, 1 }, /* 0x6100f8000 */ { TARGET_PCS25G_BR + 1, 0x100fc000, 1 }, /* 0x6100fc000 */ { TARGET_DEV2G5 + 59, 0x10104000, 1 }, /* 0x610104000 */ { TARGET_DEV25G + 3, 0x10108000, 1 }, /* 0x610108000 */ { TARGET_PCS25G_BR + 3, 0x1010c000, 1 }, /* 0x61010c000 */ { TARGET_DEV2G5 + 60, 0x10114000, 1 }, /* 0x610114000 */ { TARGET_DEV25G + 4, 0x10118000, 1 }, /* 0x610118000 */ { TARGET_PCS25G_BR + 4, 0x1011c000, 1 }, /* 0x61011c000 */ { TARGET_DEV2G5 + 64, 0x10124000, 1 }, /* 0x610124000 */ { TARGET_DEV5G + 12, 0x10128000, 1 }, /* 0x610128000 */ { TARGET_PCS5G_BR + 12, 0x1012c000, 1 }, /* 0x61012c000 */ { TARGET_PORT_CONF, 0x10130000, 1 }, /* 0x610130000 */ { TARGET_DEV2G5 + 3, 0x10404000, 1 }, /* 0x610404000 */ { TARGET_DEV5G + 3, 0x10408000, 1 }, /* 0x610408000 */ { TARGET_PCS5G_BR + 3, 0x1040c000, 1 }, /* 0x61040c000 */ { TARGET_DEV2G5 + 4, 0x10410000, 1 }, /* 0x610410000 */ { TARGET_DEV5G + 4, 0x10414000, 1 }, /* 0x610414000 */ { TARGET_PCS5G_BR + 4, 0x10418000, 1 }, /* 0x610418000 */ { TARGET_DEV2G5 + 5, 0x1041c000, 1 }, /* 0x61041c000 */ { TARGET_DEV5G + 5, 0x10420000, 1 }, /* 0x610420000 */ { TARGET_PCS5G_BR + 5, 0x10424000, 1 }, /* 0x610424000 */ { TARGET_DEV2G5 + 13, 0x10428000, 1 }, /* 0x610428000 */ { TARGET_DEV10G + 1, 0x1042c000, 1 }, /* 0x61042c000 */ { TARGET_PCS10G_BR + 1, 0x10430000, 1 }, /* 0x610430000 */ { TARGET_DEV2G5 + 24, 0x10434000, 1 }, /* 0x610434000 */ { TARGET_DEV2G5 + 25, 0x10438000, 1 }, /* 0x610438000 */ { TARGET_DEV2G5 + 26, 0x1043c000, 1 }, /* 0x61043c000 */ { TARGET_DEV2G5 + 27, 0x10440000, 1 }, /* 0x610440000 */ { TARGET_DEV2G5 + 28, 0x10444000, 1 }, /* 0x610444000 */ { TARGET_DEV2G5 + 29, 0x10448000, 1 }, /* 0x610448000 */ { TARGET_DEV2G5 + 30, 0x1044c000, 1 }, /* 0x61044c000 */ { TARGET_DEV2G5 + 31, 0x10450000, 1 }, /* 0x610450000 */ { TARGET_DEV2G5 + 48, 0x10454000, 1 }, /* 0x610454000 */ { TARGET_DEV10G + 4, 0x10458000, 1 }, /* 0x610458000 */ { TARGET_PCS10G_BR + 4, 0x1045c000, 1 }, /* 0x61045c000 */ { TARGET_DEV2G5 + 49, 0x10460000, 1 }, /* 0x610460000 */ { TARGET_DEV10G + 5, 0x10464000, 1 }, /* 0x610464000 */ { TARGET_PCS10G_BR + 5, 0x10468000, 1 }, /* 0x610468000 */ { TARGET_DEV2G5 + 50, 0x1046c000, 1 }, /* 0x61046c000 */ { TARGET_DEV10G + 6, 0x10470000, 1 }, /* 0x610470000 */ { TARGET_PCS10G_BR + 6, 0x10474000, 1 }, /* 0x610474000 */ { TARGET_DEV2G5 + 51, 0x10478000, 1 }, /* 0x610478000 */ { TARGET_DEV10G + 7, 0x1047c000, 1 }, /* 0x61047c000 */ { TARGET_PCS10G_BR + 7, 0x10480000, 1 }, /* 0x610480000 */ { TARGET_DEV2G5 + 52, 0x10484000, 1 }, /* 0x610484000 */ { TARGET_DEV10G + 8, 0x10488000, 1 }, /* 0x610488000 */ { TARGET_PCS10G_BR + 8, 0x1048c000, 1 }, /* 0x61048c000 */ { TARGET_DEV2G5 + 53, 0x10490000, 1 }, /* 0x610490000 */ { TARGET_DEV10G + 9, 0x10494000, 1 }, /* 0x610494000 */ { TARGET_PCS10G_BR + 9, 0x10498000, 1 }, /* 0x610498000 */ { TARGET_DEV2G5 + 54, 0x1049c000, 1 }, /* 0x61049c000 */ { TARGET_DEV10G + 10, 0x104a0000, 1 }, /* 0x6104a0000 */ { TARGET_PCS10G_BR + 10, 0x104a4000, 1 }, /* 0x6104a4000 */ { TARGET_DEV2G5 + 55, 0x104a8000, 1 }, /* 0x6104a8000 */ { TARGET_DEV10G + 11, 0x104ac000, 1 }, /* 0x6104ac000 */ { TARGET_PCS10G_BR + 11, 0x104b0000, 1 }, /* 0x6104b0000 */ { TARGET_DEV2G5 + 56, 0x104b4000, 1 }, /* 0x6104b4000 */ { TARGET_DEV25G, 0x104b8000, 1 }, /* 0x6104b8000 */ { TARGET_PCS25G_BR, 0x104bc000, 1 }, /* 0x6104bc000 */ { TARGET_DEV2G5 + 58, 0x104c4000, 1 }, /* 0x6104c4000 */ { TARGET_DEV25G + 2, 0x104c8000, 1 }, /* 0x6104c8000 */ { TARGET_PCS25G_BR + 2, 0x104cc000, 1 }, /* 0x6104cc000 */ { TARGET_DEV2G5 + 61, 0x104d4000, 1 }, /* 0x6104d4000 */ { TARGET_DEV25G + 5, 0x104d8000, 1 }, /* 0x6104d8000 */ { TARGET_PCS25G_BR + 5, 0x104dc000, 1 }, /* 0x6104dc000 */ { TARGET_DEV2G5 + 62, 0x104e4000, 1 }, /* 0x6104e4000 */ { TARGET_DEV25G + 6, 0x104e8000, 1 }, /* 0x6104e8000 */ { TARGET_PCS25G_BR + 6, 0x104ec000, 1 }, /* 0x6104ec000 */ { TARGET_DEV2G5 + 63, 0x104f4000, 1 }, /* 0x6104f4000 */ { TARGET_DEV25G + 7, 0x104f8000, 1 }, /* 0x6104f8000 */ { TARGET_PCS25G_BR + 7, 0x104fc000, 1 }, /* 0x6104fc000 */ { TARGET_DSM, 0x10504000, 1 }, /* 0x610504000 */ { TARGET_ASM, 0x10600000, 1 }, /* 0x610600000 */ { TARGET_GCB, 0x11010000, 2 }, /* 0x611010000 */ { TARGET_QS, 0x11030000, 2 }, /* 0x611030000 */ { TARGET_ANA_ACL, 0x11050000, 2 }, /* 0x611050000 */ { TARGET_LRN, 0x11060000, 2 }, /* 0x611060000 */ { TARGET_VCAP_SUPER, 0x11080000, 2 }, /* 0x611080000 */ { TARGET_QSYS, 0x110a0000, 2 }, /* 0x6110a0000 */ { TARGET_QFWD, 0x110b0000, 2 }, /* 0x6110b0000 */ { TARGET_XQS, 0x110c0000, 2 }, /* 0x6110c0000 */ { TARGET_CLKGEN, 0x11100000, 2 }, /* 0x611100000 */ { TARGET_ANA_AC_POL, 0x11200000, 2 }, /* 0x611200000 */ { TARGET_QRES, 0x11280000, 2 }, /* 0x611280000 */ { TARGET_EACL, 0x112c0000, 2 }, /* 0x6112c0000 */ { TARGET_ANA_CL, 0x11400000, 2 }, /* 0x611400000 */ { TARGET_ANA_L3, 0x11480000, 2 }, /* 0x611480000 */ { TARGET_HSCH, 0x11580000, 2 }, /* 0x611580000 */ { TARGET_REW, 0x11600000, 2 }, /* 0x611600000 */ { TARGET_ANA_L2, 0x11800000, 2 }, /* 0x611800000 */ { TARGET_ANA_AC, 0x11900000, 2 }, /* 0x611900000 */ { TARGET_VOP, 0x11a00000, 2 }, /* 0x611a00000 */ }; static int sparx5_create_targets(struct sparx5 *sparx5) { struct resource *iores[IO_RANGES]; void __iomem *iomem[IO_RANGES]; void __iomem *begin[IO_RANGES]; int range_id[IO_RANGES]; int idx, jdx; for (idx = 0, jdx = 0; jdx < ARRAY_SIZE(sparx5_main_iomap); jdx++) { const struct sparx5_main_io_resource *iomap = &sparx5_main_iomap[jdx]; if (idx == iomap->range) { range_id[idx] = jdx; idx++; } } for (idx = 0; idx < IO_RANGES; idx++) { iores[idx] = platform_get_resource(sparx5->pdev, IORESOURCE_MEM, idx); if (!iores[idx]) { dev_err(sparx5->dev, "Invalid resource\n"); return -EINVAL; } iomem[idx] = devm_ioremap(sparx5->dev, iores[idx]->start, iores[idx]->end - iores[idx]->start + 1); if (!iomem[idx]) { dev_err(sparx5->dev, "Unable to get switch registers: %s\n", iores[idx]->name); return -ENOMEM; } begin[idx] = iomem[idx] - sparx5_main_iomap[range_id[idx]].offset; } for (jdx = 0; jdx < ARRAY_SIZE(sparx5_main_iomap); jdx++) { const struct sparx5_main_io_resource *iomap = &sparx5_main_iomap[jdx]; sparx5->regs[iomap->id] = begin[iomap->range] + iomap->offset; } return 0; } static int sparx5_create_port(struct sparx5 *sparx5, struct initial_port_config *config) { struct sparx5_port *spx5_port; struct net_device *ndev; struct phylink *phylink; int err; ndev = sparx5_create_netdev(sparx5, config->portno); if (IS_ERR(ndev)) { dev_err(sparx5->dev, "Could not create net device: %02u\n", config->portno); return PTR_ERR(ndev); } spx5_port = netdev_priv(ndev); spx5_port->of_node = config->node; spx5_port->serdes = config->serdes; spx5_port->pvid = NULL_VID; spx5_port->signd_internal = true; spx5_port->signd_active_high = true; spx5_port->signd_enable = true; spx5_port->max_vlan_tags = SPX5_PORT_MAX_TAGS_NONE; spx5_port->vlan_type = SPX5_VLAN_PORT_TYPE_UNAWARE; spx5_port->custom_etype = 0x8880; /* Vitesse */ spx5_port->phylink_pcs.poll = true; spx5_port->phylink_pcs.ops = &sparx5_phylink_pcs_ops; sparx5->ports[config->portno] = spx5_port; err = sparx5_port_init(sparx5, spx5_port, &config->conf); if (err) { dev_err(sparx5->dev, "port init failed\n"); return err; } spx5_port->conf = config->conf; /* Setup VLAN */ sparx5_vlan_port_setup(sparx5, spx5_port->portno); /* Create a phylink for PHY management. Also handles SFPs */ spx5_port->phylink_config.dev = &spx5_port->ndev->dev; spx5_port->phylink_config.type = PHYLINK_NETDEV; spx5_port->phylink_config.pcs_poll = true; phylink = phylink_create(&spx5_port->phylink_config, of_fwnode_handle(config->node), config->conf.phy_mode, &sparx5_phylink_mac_ops); if (IS_ERR(phylink)) return PTR_ERR(phylink); spx5_port->phylink = phylink; phylink_set_pcs(phylink, &spx5_port->phylink_pcs); return 0; } static int sparx5_init_ram(struct sparx5 *s5) { const struct sparx5_ram_config spx5_ram_cfg[] = { {spx5_reg_get(s5, ANA_AC_STAT_RESET), ANA_AC_STAT_RESET_RESET}, {spx5_reg_get(s5, ASM_STAT_CFG), ASM_STAT_CFG_STAT_CNT_CLR_SHOT}, {spx5_reg_get(s5, QSYS_RAM_INIT), QSYS_RAM_INIT_RAM_INIT}, {spx5_reg_get(s5, REW_RAM_INIT), QSYS_RAM_INIT_RAM_INIT}, {spx5_reg_get(s5, VOP_RAM_INIT), QSYS_RAM_INIT_RAM_INIT}, {spx5_reg_get(s5, ANA_AC_RAM_INIT), QSYS_RAM_INIT_RAM_INIT}, {spx5_reg_get(s5, ASM_RAM_INIT), QSYS_RAM_INIT_RAM_INIT}, {spx5_reg_get(s5, EACL_RAM_INIT), QSYS_RAM_INIT_RAM_INIT}, {spx5_reg_get(s5, VCAP_SUPER_RAM_INIT), QSYS_RAM_INIT_RAM_INIT}, {spx5_reg_get(s5, DSM_RAM_INIT), QSYS_RAM_INIT_RAM_INIT} }; const struct sparx5_ram_config *cfg; u32 value, pending, jdx, idx; for (jdx = 0; jdx < 10; jdx++) { pending = ARRAY_SIZE(spx5_ram_cfg); for (idx = 0; idx < ARRAY_SIZE(spx5_ram_cfg); idx++) { cfg = &spx5_ram_cfg[idx]; if (jdx == 0) { writel(cfg->init_val, cfg->init_reg); } else { value = readl(cfg->init_reg); if ((value & cfg->init_val) != cfg->init_val) pending--; } } if (!pending) break; usleep_range(USEC_PER_MSEC, 2 * USEC_PER_MSEC); } if (pending > 0) { /* Still initializing, should be complete in * less than 1ms */ dev_err(s5->dev, "Memory initialization error\n"); return -EINVAL; } return 0; } static int sparx5_init_switchcore(struct sparx5 *sparx5) { u32 value; int err = 0; spx5_rmw(EACL_POL_EACL_CFG_EACL_FORCE_INIT_SET(1), EACL_POL_EACL_CFG_EACL_FORCE_INIT, sparx5, EACL_POL_EACL_CFG); spx5_rmw(EACL_POL_EACL_CFG_EACL_FORCE_INIT_SET(0), EACL_POL_EACL_CFG_EACL_FORCE_INIT, sparx5, EACL_POL_EACL_CFG); /* Initialize memories, if not done already */ value = spx5_rd(sparx5, HSCH_RESET_CFG); if (!(value & HSCH_RESET_CFG_CORE_ENA)) { err = sparx5_init_ram(sparx5); if (err) return err; } /* Reset counters */ spx5_wr(ANA_AC_STAT_RESET_RESET_SET(1), sparx5, ANA_AC_STAT_RESET); spx5_wr(ASM_STAT_CFG_STAT_CNT_CLR_SHOT_SET(1), sparx5, ASM_STAT_CFG); /* Enable switch-core and queue system */ spx5_wr(HSCH_RESET_CFG_CORE_ENA_SET(1), sparx5, HSCH_RESET_CFG); return 0; } static int sparx5_init_coreclock(struct sparx5 *sparx5) { enum sparx5_core_clockfreq freq = sparx5->coreclock; u32 clk_div, clk_period, pol_upd_int, idx; /* Verify if core clock frequency is supported on target. * If 'VTSS_CORE_CLOCK_DEFAULT' then the highest supported * freq. is used */ switch (sparx5->target_ct) { case SPX5_TARGET_CT_7546: if (sparx5->coreclock == SPX5_CORE_CLOCK_DEFAULT) freq = SPX5_CORE_CLOCK_250MHZ; else if (sparx5->coreclock != SPX5_CORE_CLOCK_250MHZ) freq = 0; /* Not supported */ break; case SPX5_TARGET_CT_7549: case SPX5_TARGET_CT_7552: case SPX5_TARGET_CT_7556: if (sparx5->coreclock == SPX5_CORE_CLOCK_DEFAULT) freq = SPX5_CORE_CLOCK_500MHZ; else if (sparx5->coreclock != SPX5_CORE_CLOCK_500MHZ) freq = 0; /* Not supported */ break; case SPX5_TARGET_CT_7558: case SPX5_TARGET_CT_7558TSN: if (sparx5->coreclock == SPX5_CORE_CLOCK_DEFAULT) freq = SPX5_CORE_CLOCK_625MHZ; else if (sparx5->coreclock != SPX5_CORE_CLOCK_625MHZ) freq = 0; /* Not supported */ break; case SPX5_TARGET_CT_7546TSN: if (sparx5->coreclock == SPX5_CORE_CLOCK_DEFAULT) freq = SPX5_CORE_CLOCK_625MHZ; break; case SPX5_TARGET_CT_7549TSN: case SPX5_TARGET_CT_7552TSN: case SPX5_TARGET_CT_7556TSN: if (sparx5->coreclock == SPX5_CORE_CLOCK_DEFAULT) freq = SPX5_CORE_CLOCK_625MHZ; else if (sparx5->coreclock == SPX5_CORE_CLOCK_250MHZ) freq = 0; /* Not supported */ break; default: dev_err(sparx5->dev, "Target (%#04x) not supported\n", sparx5->target_ct); return -ENODEV; } switch (freq) { case SPX5_CORE_CLOCK_250MHZ: clk_div = 10; pol_upd_int = 312; break; case SPX5_CORE_CLOCK_500MHZ: clk_div = 5; pol_upd_int = 624; break; case SPX5_CORE_CLOCK_625MHZ: clk_div = 4; pol_upd_int = 780; break; default: dev_err(sparx5->dev, "%d coreclock not supported on (%#04x)\n", sparx5->coreclock, sparx5->target_ct); return -EINVAL; } /* Update state with chosen frequency */ sparx5->coreclock = freq; /* Configure the LCPLL */ spx5_rmw(CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_CLK_DIV_SET(clk_div) | CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_PRE_DIV_SET(0) | CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_ROT_DIR_SET(0) | CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_ROT_SEL_SET(0) | CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_ROT_ENA_SET(0) | CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_CLK_ENA_SET(1), CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_CLK_DIV | CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_PRE_DIV | CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_ROT_DIR | CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_ROT_SEL | CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_ROT_ENA | CLKGEN_LCPLL1_CORE_CLK_CFG_CORE_CLK_ENA, sparx5, CLKGEN_LCPLL1_CORE_CLK_CFG); clk_period = sparx5_clk_period(freq); spx5_rmw(HSCH_SYS_CLK_PER_SYS_CLK_PER_100PS_SET(clk_period / 100), HSCH_SYS_CLK_PER_SYS_CLK_PER_100PS, sparx5, HSCH_SYS_CLK_PER); spx5_rmw(ANA_AC_POL_BDLB_DLB_CTRL_CLK_PERIOD_01NS_SET(clk_period / 100), ANA_AC_POL_BDLB_DLB_CTRL_CLK_PERIOD_01NS, sparx5, ANA_AC_POL_BDLB_DLB_CTRL); spx5_rmw(ANA_AC_POL_SLB_DLB_CTRL_CLK_PERIOD_01NS_SET(clk_period / 100), ANA_AC_POL_SLB_DLB_CTRL_CLK_PERIOD_01NS, sparx5, ANA_AC_POL_SLB_DLB_CTRL); spx5_rmw(LRN_AUTOAGE_CFG_1_CLK_PERIOD_01NS_SET(clk_period / 100), LRN_AUTOAGE_CFG_1_CLK_PERIOD_01NS, sparx5, LRN_AUTOAGE_CFG_1); for (idx = 0; idx < 3; idx++) spx5_rmw(GCB_SIO_CLOCK_SYS_CLK_PERIOD_SET(clk_period / 100), GCB_SIO_CLOCK_SYS_CLK_PERIOD, sparx5, GCB_SIO_CLOCK(idx)); spx5_rmw(HSCH_TAS_STATEMACHINE_CFG_REVISIT_DLY_SET ((256 * 1000) / clk_period), HSCH_TAS_STATEMACHINE_CFG_REVISIT_DLY, sparx5, HSCH_TAS_STATEMACHINE_CFG); spx5_rmw(ANA_AC_POL_POL_UPD_INT_CFG_POL_UPD_INT_SET(pol_upd_int), ANA_AC_POL_POL_UPD_INT_CFG_POL_UPD_INT, sparx5, ANA_AC_POL_POL_UPD_INT_CFG); return 0; } static int sparx5_qlim_set(struct sparx5 *sparx5) { u32 res, dp, prio; for (res = 0; res < 2; res++) { for (prio = 0; prio < 8; prio++) spx5_wr(0xFFF, sparx5, QRES_RES_CFG(prio + 630 + res * 1024)); for (dp = 0; dp < 4; dp++) spx5_wr(0xFFF, sparx5, QRES_RES_CFG(dp + 638 + res * 1024)); } /* Set 80,90,95,100% of memory size for top watermarks */ spx5_wr(QLIM_WM(80), sparx5, XQS_QLIMIT_SHR_QLIM_CFG(0)); spx5_wr(QLIM_WM(90), sparx5, XQS_QLIMIT_SHR_CTOP_CFG(0)); spx5_wr(QLIM_WM(95), sparx5, XQS_QLIMIT_SHR_ATOP_CFG(0)); spx5_wr(QLIM_WM(100), sparx5, XQS_QLIMIT_SHR_TOP_CFG(0)); return 0; } /* Some boards needs to map the SGPIO for signal detect explicitly to the * port module */ static void sparx5_board_init(struct sparx5 *sparx5) { int idx; if (!sparx5->sd_sgpio_remapping) return; /* Enable SGPIO Signal Detect remapping */ spx5_rmw(GCB_HW_SGPIO_SD_CFG_SD_MAP_SEL, GCB_HW_SGPIO_SD_CFG_SD_MAP_SEL, sparx5, GCB_HW_SGPIO_SD_CFG); /* Refer to LOS SGPIO */ for (idx = 0; idx < SPX5_PORTS; idx++) if (sparx5->ports[idx]) if (sparx5->ports[idx]->conf.sd_sgpio != ~0) spx5_wr(sparx5->ports[idx]->conf.sd_sgpio, sparx5, GCB_HW_SGPIO_TO_SD_MAP_CFG(idx)); } static int sparx5_start(struct sparx5 *sparx5) { u8 broadcast[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff}; char queue_name[32]; u32 idx; int err; /* Setup own UPSIDs */ for (idx = 0; idx < 3; idx++) { spx5_wr(idx, sparx5, ANA_AC_OWN_UPSID(idx)); spx5_wr(idx, sparx5, ANA_CL_OWN_UPSID(idx)); spx5_wr(idx, sparx5, ANA_L2_OWN_UPSID(idx)); spx5_wr(idx, sparx5, REW_OWN_UPSID(idx)); } /* Enable CPU ports */ for (idx = SPX5_PORTS; idx < SPX5_PORTS_ALL; idx++) spx5_rmw(QFWD_SWITCH_PORT_MODE_PORT_ENA_SET(1), QFWD_SWITCH_PORT_MODE_PORT_ENA, sparx5, QFWD_SWITCH_PORT_MODE(idx)); /* Init masks */ sparx5_update_fwd(sparx5); /* CPU copy CPU pgids */ spx5_wr(ANA_AC_PGID_MISC_CFG_PGID_CPU_COPY_ENA_SET(1), sparx5, ANA_AC_PGID_MISC_CFG(PGID_CPU)); spx5_wr(ANA_AC_PGID_MISC_CFG_PGID_CPU_COPY_ENA_SET(1), sparx5, ANA_AC_PGID_MISC_CFG(PGID_BCAST)); /* Recalc injected frame FCS */ for (idx = SPX5_PORT_CPU_0; idx <= SPX5_PORT_CPU_1; idx++) spx5_rmw(ANA_CL_FILTER_CTRL_FORCE_FCS_UPDATE_ENA_SET(1), ANA_CL_FILTER_CTRL_FORCE_FCS_UPDATE_ENA, sparx5, ANA_CL_FILTER_CTRL(idx)); /* Init MAC table, ageing */ sparx5_mact_init(sparx5); /* Setup VLANs */ sparx5_vlan_init(sparx5); /* Add host mode BC address (points only to CPU) */ sparx5_mact_learn(sparx5, PGID_CPU, broadcast, NULL_VID); /* Enable queue limitation watermarks */ sparx5_qlim_set(sparx5); err = sparx5_config_auto_calendar(sparx5); if (err) return err; err = sparx5_config_dsm_calendar(sparx5); if (err) return err; /* Init stats */ err = sparx_stats_init(sparx5); if (err) return err; /* Init mact_sw struct */ mutex_init(&sparx5->mact_lock); INIT_LIST_HEAD(&sparx5->mact_entries); snprintf(queue_name, sizeof(queue_name), "%s-mact", dev_name(sparx5->dev)); sparx5->mact_queue = create_singlethread_workqueue(queue_name); if (!sparx5->mact_queue) return -ENOMEM; INIT_DELAYED_WORK(&sparx5->mact_work, sparx5_mact_pull_work); queue_delayed_work(sparx5->mact_queue, &sparx5->mact_work, SPX5_MACT_PULL_DELAY); err = sparx5_register_netdevs(sparx5); if (err) return err; sparx5_board_init(sparx5); err = sparx5_register_notifier_blocks(sparx5); /* Start Frame DMA with fallback to register based INJ/XTR */ err = -ENXIO; if (sparx5->fdma_irq >= 0) { if (GCB_CHIP_ID_REV_ID_GET(sparx5->chip_id) > 0) err = devm_request_threaded_irq(sparx5->dev, sparx5->fdma_irq, NULL, sparx5_fdma_handler, IRQF_ONESHOT, "sparx5-fdma", sparx5); if (!err) err = sparx5_fdma_start(sparx5); if (err) sparx5->fdma_irq = -ENXIO; } else { sparx5->fdma_irq = -ENXIO; } if (err && sparx5->xtr_irq >= 0) { err = devm_request_irq(sparx5->dev, sparx5->xtr_irq, sparx5_xtr_handler, IRQF_SHARED, "sparx5-xtr", sparx5); if (!err) err = sparx5_manual_injection_mode(sparx5); if (err) sparx5->xtr_irq = -ENXIO; } else { sparx5->xtr_irq = -ENXIO; } return err; } static void sparx5_cleanup_ports(struct sparx5 *sparx5) { sparx5_unregister_netdevs(sparx5); sparx5_destroy_netdevs(sparx5); } static int mchp_sparx5_probe(struct platform_device *pdev) { struct initial_port_config *configs, *config; struct device_node *np = pdev->dev.of_node; struct device_node *ports, *portnp; struct reset_control *reset; struct sparx5 *sparx5; int idx = 0, err = 0; if (!np && !pdev->dev.platform_data) return -ENODEV; sparx5 = devm_kzalloc(&pdev->dev, sizeof(*sparx5), GFP_KERNEL); if (!sparx5) return -ENOMEM; platform_set_drvdata(pdev, sparx5); sparx5->pdev = pdev; sparx5->dev = &pdev->dev; /* Do switch core reset if available */ reset = devm_reset_control_get_optional_shared(&pdev->dev, "switch"); if (IS_ERR(reset)) return dev_err_probe(&pdev->dev, PTR_ERR(reset), "Failed to get switch reset controller.\n"); reset_control_reset(reset); /* Default values, some from DT */ sparx5->coreclock = SPX5_CORE_CLOCK_DEFAULT; ports = of_get_child_by_name(np, "ethernet-ports"); if (!ports) { dev_err(sparx5->dev, "no ethernet-ports child node found\n"); return -ENODEV; } sparx5->port_count = of_get_child_count(ports); configs = kcalloc(sparx5->port_count, sizeof(struct initial_port_config), GFP_KERNEL); if (!configs) { err = -ENOMEM; goto cleanup_pnode; } for_each_available_child_of_node(ports, portnp) { struct sparx5_port_config *conf; struct phy *serdes; u32 portno; err = of_property_read_u32(portnp, "reg", &portno); if (err) { dev_err(sparx5->dev, "port reg property error\n"); continue; } config = &configs[idx]; conf = &config->conf; conf->speed = SPEED_UNKNOWN; conf->bandwidth = SPEED_UNKNOWN; err = of_get_phy_mode(portnp, &conf->phy_mode); if (err) { dev_err(sparx5->dev, "port %u: missing phy-mode\n", portno); continue; } err = of_property_read_u32(portnp, "microchip,bandwidth", &conf->bandwidth); if (err) { dev_err(sparx5->dev, "port %u: missing bandwidth\n", portno); continue; } err = of_property_read_u32(portnp, "microchip,sd-sgpio", &conf->sd_sgpio); if (err) conf->sd_sgpio = ~0; else sparx5->sd_sgpio_remapping = true; serdes = devm_of_phy_get(sparx5->dev, portnp, NULL); if (IS_ERR(serdes)) { err = dev_err_probe(sparx5->dev, PTR_ERR(serdes), "port %u: missing serdes\n", portno); of_node_put(portnp); goto cleanup_config; } config->portno = portno; config->node = portnp; config->serdes = serdes; conf->media = PHY_MEDIA_DAC; conf->serdes_reset = true; conf->portmode = conf->phy_mode; conf->power_down = true; idx++; } err = sparx5_create_targets(sparx5); if (err) goto cleanup_config; if (of_get_mac_address(np, sparx5->base_mac)) { dev_info(sparx5->dev, "MAC addr was not set, use random MAC\n"); eth_random_addr(sparx5->base_mac); sparx5->base_mac[5] = 0; } sparx5->fdma_irq = platform_get_irq_byname(sparx5->pdev, "fdma"); sparx5->xtr_irq = platform_get_irq_byname(sparx5->pdev, "xtr"); /* Read chip ID to check CPU interface */ sparx5->chip_id = spx5_rd(sparx5, GCB_CHIP_ID); sparx5->target_ct = (enum spx5_target_chiptype) GCB_CHIP_ID_PART_ID_GET(sparx5->chip_id); /* Initialize Switchcore and internal RAMs */ err = sparx5_init_switchcore(sparx5); if (err) { dev_err(sparx5->dev, "Switchcore initialization error\n"); goto cleanup_config; } /* Initialize the LC-PLL (core clock) and set affected registers */ err = sparx5_init_coreclock(sparx5); if (err) { dev_err(sparx5->dev, "LC-PLL initialization error\n"); goto cleanup_config; } for (idx = 0; idx < sparx5->port_count; ++idx) { config = &configs[idx]; if (!config->node) continue; err = sparx5_create_port(sparx5, config); if (err) { dev_err(sparx5->dev, "port create error\n"); goto cleanup_ports; } } err = sparx5_start(sparx5); if (err) { dev_err(sparx5->dev, "Start failed\n"); goto cleanup_ports; } goto cleanup_config; cleanup_ports: sparx5_cleanup_ports(sparx5); if (sparx5->mact_queue) destroy_workqueue(sparx5->mact_queue); cleanup_config: kfree(configs); cleanup_pnode: of_node_put(ports); return err; } static int mchp_sparx5_remove(struct platform_device *pdev) { struct sparx5 *sparx5 = platform_get_drvdata(pdev); if (sparx5->xtr_irq) { disable_irq(sparx5->xtr_irq); sparx5->xtr_irq = -ENXIO; } if (sparx5->fdma_irq) { disable_irq(sparx5->fdma_irq); sparx5->fdma_irq = -ENXIO; } sparx5_fdma_stop(sparx5); sparx5_cleanup_ports(sparx5); /* Unregister netdevs */ sparx5_unregister_notifier_blocks(sparx5); destroy_workqueue(sparx5->mact_queue); return 0; } static const struct of_device_id mchp_sparx5_match[] = { { .compatible = "microchip,sparx5-switch" }, { } }; MODULE_DEVICE_TABLE(of, mchp_sparx5_match); static struct platform_driver mchp_sparx5_driver = { .probe = mchp_sparx5_probe, .remove = mchp_sparx5_remove, .driver = { .name = "sparx5-switch", .of_match_table = mchp_sparx5_match, }, }; module_platform_driver(mchp_sparx5_driver); MODULE_DESCRIPTION("Microchip Sparx5 switch driver"); MODULE_AUTHOR("Steen Hegelund "); MODULE_LICENSE("Dual MIT/GPL");