/* * swconfig-ip175c.c: Swconfig configuration for IC+ IP175C switch * * Copyright (C) 2008 Patrick Horn * Copyright (C) 2008 Martin Mares * Copyright (C) 2009 Felix Fietkau * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. */ #include #include #include #include #include #include #include #include #include #define MAX_VLANS 16 #define MAX_PORTS 9 #undef DUMP_MII_IO typedef struct ip175c_reg { u16 p; // phy u16 m; // mii } reg; typedef char bitnum; #define NOTSUPPORTED {-1,-1} #define REG_SUPP(x) (((x).m != ((u16)-1)) && ((x).p != (u16)-1)) /*********** CONSTANTS ***********/ struct register_mappings { char *NAME; u16 MODEL_NO; // Compare to bits 4-9 of MII register 0,3. bitnum NUM_PORTS; bitnum CPU_PORT; /* The default VLAN for each port. Default: 0x0001 for Ports 0,1,2,3 0x0002 for Ports 4,5 */ reg VLAN_DEFAULT_TAG_REG[MAX_PORTS]; /* These ports are tagged. Default: 0x00 */ reg ADD_TAG_REG; reg REMOVE_TAG_REG; bitnum ADD_TAG_BIT[MAX_PORTS]; /* These ports are untagged. Default: 0x00 (i.e. do not alter any VLAN tags...) Maybe set to 0 if user disables VLANs. */ bitnum REMOVE_TAG_BIT[MAX_PORTS]; /* Port M and Port N are on the same VLAN. Default: All ports on all VLANs. */ // Use register {29, 19+N/2} reg VLAN_LOOKUP_REG; // Port 5 uses register {30, 18} but same as odd bits. reg VLAN_LOOKUP_REG_5; // in a different register on IP175C. bitnum VLAN_LOOKUP_EVEN_BIT[MAX_PORTS]; bitnum VLAN_LOOKUP_ODD_BIT[MAX_PORTS]; /* This VLAN corresponds to which ports. Default: 0x2f,0x30,0x3f,0x3f... */ reg TAG_VLAN_MASK_REG; bitnum TAG_VLAN_MASK_EVEN_BIT[MAX_PORTS]; bitnum TAG_VLAN_MASK_ODD_BIT[MAX_PORTS]; int RESET_VAL; reg RESET_REG; reg MODE_REG; int MODE_VAL; /* General flags */ reg ROUTER_CONTROL_REG; reg VLAN_CONTROL_REG; bitnum TAG_VLAN_BIT; bitnum ROUTER_EN_BIT; bitnum NUMLAN_GROUPS_MAX; bitnum NUMLAN_GROUPS_BIT; reg MII_REGISTER_EN; bitnum MII_REGISTER_EN_BIT; // set to 1 for 178C, 0 for 175C. bitnum SIMPLE_VLAN_REGISTERS; // 175C has two vlans per register but 178C has only one. }; static const struct register_mappings IP178C = { .NAME = "IP178C", .MODEL_NO = 0x18, .VLAN_DEFAULT_TAG_REG = { {30,3},{30,4},{30,5},{30,6},{30,7},{30,8}, {30,9},{30,10},{30,11}, }, .ADD_TAG_REG = {30,12}, .ADD_TAG_BIT = {0,1,2,3,4,5,6,7,8}, .REMOVE_TAG_REG = {30,13}, .REMOVE_TAG_BIT = {4,5,6,7,8,9,10,11,12}, .SIMPLE_VLAN_REGISTERS = 1, .VLAN_LOOKUP_REG = {31,0},// +N .VLAN_LOOKUP_REG_5 = NOTSUPPORTED, // not used with SIMPLE_VLAN_REGISTERS .VLAN_LOOKUP_EVEN_BIT = {0,1,2,3,4,5,6,7,8}, .VLAN_LOOKUP_ODD_BIT = {0,1,2,3,4,5,6,7,8}, .TAG_VLAN_MASK_REG = {30,14}, // +N .TAG_VLAN_MASK_EVEN_BIT = {0,1,2,3,4,5,6,7,8}, .TAG_VLAN_MASK_ODD_BIT = {0,1,2,3,4,5,6,7,8}, .RESET_VAL = 0x55AA, .RESET_REG = {30,0}, .MODE_VAL = 0, .MODE_REG = NOTSUPPORTED, .ROUTER_CONTROL_REG = {30,30}, .ROUTER_EN_BIT = 11, .NUMLAN_GROUPS_MAX = 8, .NUMLAN_GROUPS_BIT = 8, // {0-2} .VLAN_CONTROL_REG = {30,13}, .TAG_VLAN_BIT = 3, .CPU_PORT = 8, .NUM_PORTS = 9, .MII_REGISTER_EN = NOTSUPPORTED, }; static const struct register_mappings IP175C = { .NAME = "IP175C", .MODEL_NO = 0x18, .VLAN_DEFAULT_TAG_REG = { {29,24},{29,25},{29,26},{29,27},{29,28},{29,30}, NOTSUPPORTED,NOTSUPPORTED,NOTSUPPORTED }, .ADD_TAG_REG = {29,23}, .REMOVE_TAG_REG = {29,23}, .ADD_TAG_BIT = {11,12,13,14,15,1,-1,-1,-1}, .REMOVE_TAG_BIT = {6,7,8,9,10,0,-1,-1,-1}, .SIMPLE_VLAN_REGISTERS = 0, .VLAN_LOOKUP_REG = {29,19},// +N/2 .VLAN_LOOKUP_REG_5 = {30,18}, .VLAN_LOOKUP_EVEN_BIT = {8,9,10,11,12,15,-1,-1,-1}, .VLAN_LOOKUP_ODD_BIT = {0,1,2,3,4,7,-1,-1,-1}, .TAG_VLAN_MASK_REG = {30,1}, // +N/2 .TAG_VLAN_MASK_EVEN_BIT = {0,1,2,3,4,5,-1,-1,-1}, .TAG_VLAN_MASK_ODD_BIT = {8,9,10,11,12,13,-1,-1,-1}, .RESET_VAL = 0x175C, .RESET_REG = {30,0}, .MODE_VAL = 0x175C, .MODE_REG = {29,31}, .ROUTER_CONTROL_REG = {30,9}, .ROUTER_EN_BIT = 3, .NUMLAN_GROUPS_MAX = 8, .NUMLAN_GROUPS_BIT = 0, // {0-2} .VLAN_CONTROL_REG = {30,9}, .TAG_VLAN_BIT = 7, .NUM_PORTS = 6, .CPU_PORT = 5, .MII_REGISTER_EN = NOTSUPPORTED, }; static const struct register_mappings IP175A = { .NAME = "IP175A", .MODEL_NO = 0x05, .VLAN_DEFAULT_TAG_REG = { {0,24},{0,25},{0,26},{0,27},{0,28},NOTSUPPORTED, NOTSUPPORTED,NOTSUPPORTED,NOTSUPPORTED }, .ADD_TAG_REG = {0,23}, .REMOVE_TAG_REG = {0,23}, .ADD_TAG_BIT = {11,12,13,14,15,-1,-1,-1,-1}, .REMOVE_TAG_BIT = {6,7,8,9,10,-1,-1,-1,-1}, .SIMPLE_VLAN_REGISTERS = 0, // Only programmable via EEPROM .VLAN_LOOKUP_REG = NOTSUPPORTED,// +N/2 .VLAN_LOOKUP_REG_5 = NOTSUPPORTED, .VLAN_LOOKUP_EVEN_BIT = {8,9,10,11,12,-1,-1,-1,-1}, .VLAN_LOOKUP_ODD_BIT = {0,1,2,3,4,-1,-1,-1,-1}, .TAG_VLAN_MASK_REG = NOTSUPPORTED, // +N/2, .TAG_VLAN_MASK_EVEN_BIT = {-1,-1,-1,-1,-1,-1,-1,-1,-1}, .TAG_VLAN_MASK_ODD_BIT = {-1,-1,-1,-1,-1,-1,-1,-1,-1}, .RESET_VAL = -1, .RESET_REG = NOTSUPPORTED, .MODE_VAL = 0, .MODE_REG = NOTSUPPORTED, .ROUTER_CONTROL_REG = NOTSUPPORTED, .VLAN_CONTROL_REG = NOTSUPPORTED, .TAG_VLAN_BIT = -1, .ROUTER_EN_BIT = -1, .NUMLAN_GROUPS_MAX = -1, .NUMLAN_GROUPS_BIT = -1, // {0-2} .NUM_PORTS = 5, .CPU_PORT = 4, .MII_REGISTER_EN = {0, 18}, .MII_REGISTER_EN_BIT = 7, }; struct ip175c_state { struct switch_dev dev; struct mii_bus *mii_bus; bool registered; int router_mode; // ROUTER_EN int vlan_enabled; // TAG_VLAN_EN struct port_state { u16 pvid; unsigned int shareports; } ports[MAX_PORTS]; unsigned int add_tag; unsigned int remove_tag; int num_vlans; unsigned int vlan_ports[MAX_VLANS]; const struct register_mappings *regs; reg proc_mii; // phy/reg for the low level register access via swconfig char buf[80]; }; static int ip_phy_read(struct ip175c_state *state, int port, int reg) { int val = mdiobus_read(state->mii_bus, port, reg); if (val < 0) pr_warning("IP175C: Unable to get MII register %d,%d: error %d\n", port, reg, -val); #ifdef DUMP_MII_IO else pr_debug("IP175C: Read MII(%d,%d) -> %04x\n", port, reg, val); #endif return val; } static int ip_phy_write(struct ip175c_state *state, int port, int reg, u16 val) { int err; #ifdef DUMP_MII_IO pr_debug("IP175C: Write MII(%d,%d) <- %04x\n", port, reg, val); #endif err = mdiobus_write(state->mii_bus, port, reg, val); if (err < 0) pr_warning("IP175C: Unable to write MII register %d,%d: error %d\n", port, reg, -err); return err; } static int ip_phy_write_masked(struct ip175c_state *state, int port, int reg, unsigned int mask, unsigned int data) { int val = ip_phy_read(state, port, reg); if (val < 0) return 0; return ip_phy_write(state, port, reg, (val & ~mask) | data); } static int getPhy(struct ip175c_state *state, reg mii) { if (!REG_SUPP(mii)) return -EFAULT; return ip_phy_read(state, mii.p, mii.m); } static int setPhy(struct ip175c_state *state, reg mii, u16 value) { int err; if (!REG_SUPP(mii)) return -EFAULT; err = ip_phy_write(state, mii.p, mii.m, value); if (err < 0) return err; getPhy(state, mii); return 0; } /** * These two macros are to simplify the mapping of logical bits to the bits in hardware. * NOTE: these macros will return if there is an error! */ #define GET_PORT_BITS(state, bits, addr, bit_lookup) \ do { \ int i, val = getPhy((state), (addr)); \ if (val < 0) \ return val; \ (bits) = 0; \ for (i = 0; i < MAX_PORTS; i++) { \ if ((bit_lookup)[i] == -1) continue; \ if (val & (1<<(bit_lookup)[i])) \ (bits) |= (1<>i)<<(bit_lookup)[i]); \ } \ val = setPhy((state), (addr), val); \ if (val < 0) \ return val; \ } while (0) static int get_model(struct ip175c_state *state) { reg oui_id_reg = {0, 2}; int oui_id; reg model_no_reg = {0, 3}; int model_no, model_no_orig; // 175 and 178 have the same oui ID. reg oui_id_reg_178c = {5, 2}; // returns error on IP175C. int is_178c = 0; oui_id = getPhy(state, oui_id_reg); if (oui_id != 0x0243) { // non return -ENODEV; // Not a IC+ chip. } oui_id = getPhy(state, oui_id_reg_178c); if (oui_id == 0x0243) { is_178c = 1; } model_no_orig = getPhy(state, model_no_reg); if (model_no_orig < 0) { return -ENODEV; } model_no = model_no_orig >> 4; // shift out revision number. model_no &= 0x3f; // only take the model number (low 6 bits). if (model_no == IP175A.MODEL_NO) { state->regs = &IP175A; } else if (model_no == IP175C.MODEL_NO) { if (is_178c) { state->regs = &IP178C; } else { state->regs = &IP175C; } } else { printk(KERN_WARNING "ip175c: Found an unknown IC+ switch with model number %02Xh.\n", model_no_orig); return -EPERM; } return 0; } /** Get only the vlan and router flags on the router **/ static int get_flags(struct ip175c_state *state) { int val; state->router_mode = 0; state->vlan_enabled = -1; // hack state->num_vlans = 0; if (!REG_SUPP(state->regs->ROUTER_CONTROL_REG)) { return 0; // not an error if it doesn't support enable vlan. } val = getPhy(state, state->regs->ROUTER_CONTROL_REG); if (val < 0) { return val; } if (state->regs->ROUTER_EN_BIT >= 0) state->router_mode = ((val>>state->regs->ROUTER_EN_BIT) & 1); if (state->regs->NUMLAN_GROUPS_BIT >= 0) { state->num_vlans = (val >> state->regs->NUMLAN_GROUPS_BIT); state->num_vlans &= (state->regs->NUMLAN_GROUPS_MAX-1); state->num_vlans+=1; // does not include WAN. } val = getPhy(state, state->regs->VLAN_CONTROL_REG); if (val < 0) { return 0; } if (state->regs->TAG_VLAN_BIT >= 0) state->vlan_enabled = ((val>>state->regs->TAG_VLAN_BIT) & 1); return 0; } /** Get all state variables for VLAN mappings and port-based tagging **/ static int get_state(struct ip175c_state *state) { int i, j; int ret; ret = get_flags(state); if (ret < 0) { return ret; } GET_PORT_BITS(state, state->remove_tag, state->regs->REMOVE_TAG_REG, state->regs->REMOVE_TAG_BIT); GET_PORT_BITS(state, state->add_tag, state->regs->ADD_TAG_REG, state->regs->ADD_TAG_BIT); if (state->vlan_enabled == -1) { // not sure how to get this... state->vlan_enabled = (state->remove_tag || state->add_tag); } if (REG_SUPP(state->regs->VLAN_LOOKUP_REG)) { for (j=0; jports[j].shareports = 0; // initialize them in case. } for (j=0; jregs->NUM_PORTS; j++) { reg addr; const bitnum *bit_lookup = (j%2==0)? state->regs->VLAN_LOOKUP_EVEN_BIT: state->regs->VLAN_LOOKUP_ODD_BIT; addr = state->regs->VLAN_LOOKUP_REG; if (state->regs->SIMPLE_VLAN_REGISTERS) { addr.m += j; } else { switch (j) { case 0: case 1: break; case 2: case 3: addr.m+=1; break; case 4: addr.m+=2; break; case 5: addr = state->regs->VLAN_LOOKUP_REG_5; break; } } if (REG_SUPP(addr)) { GET_PORT_BITS(state, state->ports[j].shareports, addr, bit_lookup); } } } else { for (j=0; jports[j].shareports = 0xff; } } for (i=0; iregs->VLAN_DEFAULT_TAG_REG[i])) { int val = getPhy(state, state->regs->VLAN_DEFAULT_TAG_REG[i]); if (val < 0) { return val; } state->ports[i].pvid = val; } else { state->ports[i].pvid = 0; } } if (REG_SUPP(state->regs->TAG_VLAN_MASK_REG)) { for (j=0; jregs->TAG_VLAN_MASK_REG; const bitnum *bit_lookup = (j%2==0)? state->regs->TAG_VLAN_MASK_EVEN_BIT: state->regs->TAG_VLAN_MASK_ODD_BIT; if (state->regs->SIMPLE_VLAN_REGISTERS) { addr.m += j; } else { addr.m += j/2; } GET_PORT_BITS(state, state->vlan_ports[j], addr, bit_lookup); } } else { for (j=0; jvlan_ports[j] = 0; for (i=0; iregs->NUM_PORTS; i++) { if ((state->ports[i].pvid == j) || (state->ports[i].pvid == 0)) { state->vlan_ports[j] |= (1<regs->ROUTER_CONTROL_REG)) { return 0; } val = getPhy(state, state->regs->ROUTER_CONTROL_REG); if (val < 0) { return val; } if (state->regs->ROUTER_EN_BIT >= 0) { if (state->router_mode) { val |= (1<regs->ROUTER_EN_BIT); } else { val &= (~(1<regs->ROUTER_EN_BIT)); } } if (state->regs->TAG_VLAN_BIT >= 0) { if (state->vlan_enabled) { val |= (1<regs->TAG_VLAN_BIT); } else { val &= (~(1<regs->TAG_VLAN_BIT)); } } if (state->regs->NUMLAN_GROUPS_BIT >= 0) { val &= (~((state->regs->NUMLAN_GROUPS_MAX-1)<regs->NUMLAN_GROUPS_BIT)); if (state->num_vlans > state->regs->NUMLAN_GROUPS_MAX) { val |= state->regs->NUMLAN_GROUPS_MAX << state->regs->NUMLAN_GROUPS_BIT; } else if (state->num_vlans >= 1) { val |= (state->num_vlans-1) << state->regs->NUMLAN_GROUPS_BIT; } } return setPhy(state, state->regs->ROUTER_CONTROL_REG, val); } /** Update all VLAN and port state. Usually you should call "correct_vlan_state" first. **/ static int update_state(struct ip175c_state *state) { int j; int i; SET_PORT_BITS(state, state->add_tag, state->regs->ADD_TAG_REG, state->regs->ADD_TAG_BIT); SET_PORT_BITS(state, state->remove_tag, state->regs->REMOVE_TAG_REG, state->regs->REMOVE_TAG_BIT); if (REG_SUPP(state->regs->VLAN_LOOKUP_REG)) { for (j=0; jregs->NUM_PORTS; j++) { reg addr; const bitnum *bit_lookup = (j%2==0)? state->regs->VLAN_LOOKUP_EVEN_BIT: state->regs->VLAN_LOOKUP_ODD_BIT; // duplicate code -- sorry addr = state->regs->VLAN_LOOKUP_REG; if (state->regs->SIMPLE_VLAN_REGISTERS) { addr.m += j; } else { switch (j) { case 0: case 1: break; case 2: case 3: addr.m+=1; break; case 4: addr.m+=2; break; case 5: addr = state->regs->VLAN_LOOKUP_REG_5; break; default: addr.m = -1; // shouldn't get here, but... break; } } //printf("shareports for %d is %02X\n",j,state->ports[j].shareports); if (REG_SUPP(addr)) { SET_PORT_BITS(state, state->ports[j].shareports, addr, bit_lookup); } } } if (REG_SUPP(state->regs->TAG_VLAN_MASK_REG)) { for (j=0; jregs->TAG_VLAN_MASK_REG; const bitnum *bit_lookup = (j%2==0)? state->regs->TAG_VLAN_MASK_EVEN_BIT: state->regs->TAG_VLAN_MASK_ODD_BIT; unsigned int vlan_mask; if (state->regs->SIMPLE_VLAN_REGISTERS) { addr.m += j; } else { addr.m += j/2; } vlan_mask = state->vlan_ports[j]; SET_PORT_BITS(state, vlan_mask, addr, bit_lookup); } } for (i=0; iregs->VLAN_DEFAULT_TAG_REG[i])) { int err = setPhy(state, state->regs->VLAN_DEFAULT_TAG_REG[i], state->ports[i].pvid); if (err < 0) { return err; } } } return update_flags(state); } /** * Uses only the VLAN port mask and the add tag mask to generate the other fields: * which ports are part of the same VLAN, removing vlan tags, and VLAN tag ids. */ static void correct_vlan_state(struct ip175c_state *state) { int i, j; state->num_vlans = 0; for (i=0; ivlan_ports[i] != 0) { state->num_vlans = i+1; // Hack -- we need to store the "set" vlans somewhere... } } for (i=0; iregs->NUM_PORTS; i++) { unsigned int portmask = (1<vlan_enabled) { // Share with everybody! state->ports[i].shareports = (1<regs->NUM_PORTS)-1; continue; } state->ports[i].shareports = portmask; for (j=0; jvlan_ports[j] & portmask) state->ports[i].shareports |= state->vlan_ports[j]; } } state->remove_tag = ((~state->add_tag) & ((1<regs->NUM_PORTS)-1)); } static int ip175c_get_enable_vlan(struct switch_dev *dev, const struct switch_attr *attr, struct switch_val *val) { struct ip175c_state *state = dev->priv; int err; err = get_state(state); // May be set in get_state. if (err < 0) return err; val->value.i = state->vlan_enabled; return 0; } static int ip175c_set_enable_vlan(struct switch_dev *dev, const struct switch_attr *attr, struct switch_val *val) { struct ip175c_state *state = dev->priv; int err; int enable; int i; err = get_state(state); if (err < 0) return err; enable = val->value.i; if (state->vlan_enabled == enable) { // Do not change any state. return 0; } state->vlan_enabled = enable; // Otherwise, if we are switching state, set fields to a known default. state->remove_tag = 0x0000; state->add_tag = 0x0000; for (i = 0; i < MAX_PORTS; i++) state->ports[i].shareports = 0xffff; for (i = 0; i < MAX_VLANS; i++) state->vlan_ports[i] = 0x0; if (state->vlan_enabled) { // Updates other fields only based off vlan_ports and add_tag fields. // Note that by default, no ports are in any vlans. correct_vlan_state(state); } // Ensure sane defaults? return update_state(state); } static int ip175c_get_ports(struct switch_dev *dev, struct switch_val *val) { struct ip175c_state *state = dev->priv; int err; int b; int ind; unsigned int ports; if (val->port_vlan >= dev->vlans || val->port_vlan < 0) return -EINVAL; err = get_state(state); if (err<0) return err; ports = state->vlan_ports[val->port_vlan]; b = 0; ind = 0; while (b < MAX_PORTS) { if (ports&1) { int istagged = ((state->add_tag >> b) & 1); val->value.ports[ind].id = b; val->value.ports[ind].flags = (istagged << SWITCH_PORT_FLAG_TAGGED); ind++; } b++; ports >>= 1; } val->len = ind; return 0; } static int ip175c_set_ports(struct switch_dev *dev, struct switch_val *val) { struct ip175c_state *state = dev->priv; int i; int err; if (val->port_vlan >= dev->vlans || val->port_vlan < 0) return -EINVAL; err = get_state(state); if (err < 0) return err; state->vlan_ports[val->port_vlan] = 0; for (i = 0; i < val->len; i++) { int bitmask = (1<value.ports[i].id); state->vlan_ports[val->port_vlan] |= bitmask; if (val->value.ports[i].flags & (1<add_tag |= bitmask; } else { state->add_tag &= (~bitmask); } } correct_vlan_state(state); err = update_state(state); return err; } static int ip175c_apply(struct switch_dev *dev) { struct ip175c_state *state = dev->priv; int err; err = get_flags(state); if (err < 0) return err; if (REG_SUPP(state->regs->MII_REGISTER_EN)) { int val = getPhy(state, state->regs->MII_REGISTER_EN); if (val < 0) { return val; } val |= (1<regs->MII_REGISTER_EN_BIT); return setPhy(state, state->regs->MII_REGISTER_EN, val); } return 0; } static int ip175c_reset(struct switch_dev *dev) { struct ip175c_state *state = dev->priv; int i, err; err = get_flags(state); if (err < 0) return err; if (REG_SUPP(state->regs->RESET_REG)) { err = setPhy(state, state->regs->RESET_REG, state->regs->RESET_VAL); if (err < 0) return err; err = getPhy(state, state->regs->RESET_REG); /* * Data sheet specifies reset period to be 2 msec. * (I don't see any mention of the 2ms delay in the IP178C spec, only * in IP175C, but it can't hurt.) */ mdelay(2); } if (REG_SUPP(state->regs->MODE_REG)) { err = setPhy(state, state->regs->MODE_REG, state->regs->RESET_VAL); if (err < 0) return err; err = getPhy(state, state->regs->MODE_REG); } /* reset switch ports */ for (i = 0; i < state->regs->NUM_PORTS-1; i++) { err = ip_phy_write(state, i, MII_BMCR, BMCR_RESET); if (err < 0) return err; } return 0; } static int ip175c_get_tagged(struct switch_dev *dev, const struct switch_attr *attr, struct switch_val *val) { struct ip175c_state *state = dev->priv; int err; err = get_state(state); if (err < 0) return err; if (state->add_tag & (1<port_vlan)) { if (state->remove_tag & (1<port_vlan)) val->value.i = 3; // shouldn't ever happen. else val->value.i = 1; } else { if (state->remove_tag & (1<port_vlan)) val->value.i = 0; else val->value.i = 2; } return 0; } static int ip175c_set_tagged(struct switch_dev *dev, const struct switch_attr *attr, struct switch_val *val) { struct ip175c_state *state = dev->priv; int err; err = get_state(state); if (err < 0) return err; state->add_tag &= ~(1<port_vlan); state->remove_tag &= ~(1<port_vlan); if (val->value.i == 0) state->remove_tag |= (1<port_vlan); if (val->value.i == 1) state->add_tag |= (1<port_vlan); SET_PORT_BITS(state, state->add_tag, state->regs->ADD_TAG_REG, state->regs->ADD_TAG_BIT); SET_PORT_BITS(state, state->remove_tag, state->regs->REMOVE_TAG_REG, state->regs->REMOVE_TAG_BIT); return err; } /** Get the current phy address */ static int ip175c_get_phy(struct switch_dev *dev, const struct switch_attr *attr, struct switch_val *val) { struct ip175c_state *state = dev->priv; val->value.i = state->proc_mii.p; return 0; } /** Set a new phy address for low level access to registers */ static int ip175c_set_phy(struct switch_dev *dev, const struct switch_attr *attr, struct switch_val *val) { struct ip175c_state *state = dev->priv; int new_reg = val->value.i; if (new_reg < 0 || new_reg > 31) state->proc_mii.p = (u16)-1; else state->proc_mii.p = (u16)new_reg; return 0; } /** Get the current register number */ static int ip175c_get_reg(struct switch_dev *dev, const struct switch_attr *attr, struct switch_val *val) { struct ip175c_state *state = dev->priv; val->value.i = state->proc_mii.m; return 0; } /** Set a new register address for low level access to registers */ static int ip175c_set_reg(struct switch_dev *dev, const struct switch_attr *attr, struct switch_val *val) { struct ip175c_state *state = dev->priv; int new_reg = val->value.i; if (new_reg < 0 || new_reg > 31) state->proc_mii.m = (u16)-1; else state->proc_mii.m = (u16)new_reg; return 0; } /** Get the register content of state->proc_mii */ static int ip175c_get_val(struct switch_dev *dev, const struct switch_attr *attr, struct switch_val *val) { struct ip175c_state *state = dev->priv; int retval = -EINVAL; if (REG_SUPP(state->proc_mii)) retval = getPhy(state, state->proc_mii); if (retval < 0) { return retval; } else { val->value.i = retval; return 0; } } /** Write a value to the register defined by phy/reg above */ static int ip175c_set_val(struct switch_dev *dev, const struct switch_attr *attr, struct switch_val *val) { struct ip175c_state *state = dev->priv; int myval, err = 0; myval = val->value.i; if (myval <= 0xffff && myval >= 0 && REG_SUPP(state->proc_mii)) { err = setPhy(state, state->proc_mii, (u16)myval); } return err; } static int ip175c_read_name(struct switch_dev *dev, const struct switch_attr *attr, struct switch_val *val) { struct ip175c_state *state = dev->priv; val->value.s = state->regs->NAME; // Just a const pointer, won't be freed by swconfig. return 0; } static int ip175c_set_port_speed(struct switch_dev *dev, const struct switch_attr *attr, struct switch_val *val) { struct ip175c_state *state = dev->priv; int nr = val->port_vlan; int ctrl; int autoneg; int speed; if (val->value.i == 100) { speed = 1; autoneg = 0; } else if (val->value.i == 10) { speed = 0; autoneg = 0; } else { autoneg = 1; speed = 1; } /* Can't set speed for cpu port */ if (nr == state->regs->CPU_PORT) return -EINVAL; if (nr >= dev->ports || nr < 0) return -EINVAL; ctrl = ip_phy_read(state, nr, 0); if (ctrl < 0) return -EIO; ctrl &= (~(1<<12)); ctrl &= (~(1<<13)); ctrl |= (autoneg<<12); ctrl |= (speed<<13); return ip_phy_write(state, nr, 0, ctrl); } static int ip175c_get_port_speed(struct switch_dev *dev, const struct switch_attr *attr, struct switch_val *val) { struct ip175c_state *state = dev->priv; int nr = val->port_vlan; int speed, status; if (nr == state->regs->CPU_PORT) { val->value.i = 100; return 0; } if (nr >= dev->ports || nr < 0) return -EINVAL; status = ip_phy_read(state, nr, 1); speed = ip_phy_read(state, nr, 18); if (status < 0 || speed < 0) return -EIO; if (status & 4) val->value.i = ((speed & (1<<11)) ? 100 : 10); else val->value.i = 0; return 0; } static int ip175c_get_port_status(struct switch_dev *dev, const struct switch_attr *attr, struct switch_val *val) { struct ip175c_state *state = dev->priv; int ctrl, speed, status; int nr = val->port_vlan; int len; char *buf = state->buf; // fixed-length at 80. if (nr == state->regs->CPU_PORT) { sprintf(buf, "up, 100 Mbps, cpu port"); val->value.s = buf; return 0; } if (nr >= dev->ports || nr < 0) return -EINVAL; ctrl = ip_phy_read(state, nr, 0); status = ip_phy_read(state, nr, 1); speed = ip_phy_read(state, nr, 18); if (ctrl < 0 || status < 0 || speed < 0) return -EIO; if (status & 4) len = sprintf(buf, "up, %d Mbps, %s duplex", ((speed & (1<<11)) ? 100 : 10), ((speed & (1<<10)) ? "full" : "half")); else len = sprintf(buf, "down"); if (ctrl & (1<<12)) { len += sprintf(buf+len, ", auto-negotiate"); if (!(status & (1<<5))) len += sprintf(buf+len, " (in progress)"); } else { len += sprintf(buf+len, ", fixed speed (%d)", ((ctrl & (1<<13)) ? 100 : 10)); } buf[len] = '\0'; val->value.s = buf; return 0; } static int ip175c_get_pvid(struct switch_dev *dev, int port, int *val) { struct ip175c_state *state = dev->priv; *val = state->ports[port].pvid; return 0; } static int ip175c_set_pvid(struct switch_dev *dev, int port, int val) { struct ip175c_state *state = dev->priv; state->ports[port].pvid = val; if (!REG_SUPP(state->regs->VLAN_DEFAULT_TAG_REG[port])) return 0; return setPhy(state, state->regs->VLAN_DEFAULT_TAG_REG[port], val); } enum Ports { IP175C_PORT_STATUS, IP175C_PORT_LINK, IP175C_PORT_TAGGED, IP175C_PORT_PVID, }; enum Globals { IP175C_ENABLE_VLAN, IP175C_GET_NAME, IP175C_REGISTER_PHY, IP175C_REGISTER_MII, IP175C_REGISTER_VALUE, IP175C_REGISTER_ERRNO, }; static const struct switch_attr ip175c_global[] = { [IP175C_ENABLE_VLAN] = { .id = IP175C_ENABLE_VLAN, .type = SWITCH_TYPE_INT, .name = "enable_vlan", .description = "Flag to enable or disable VLANs and tagging", .get = ip175c_get_enable_vlan, .set = ip175c_set_enable_vlan, }, [IP175C_GET_NAME] = { .id = IP175C_GET_NAME, .type = SWITCH_TYPE_STRING, .description = "Returns the type of IC+ chip.", .name = "name", .get = ip175c_read_name, .set = NULL, }, /* jal: added for low level debugging etc. */ [IP175C_REGISTER_PHY] = { .id = IP175C_REGISTER_PHY, .type = SWITCH_TYPE_INT, .description = "Direct register access: set PHY (0-4, or 29,30,31)", .name = "phy", .get = ip175c_get_phy, .set = ip175c_set_phy, }, [IP175C_REGISTER_MII] = { .id = IP175C_REGISTER_MII, .type = SWITCH_TYPE_INT, .description = "Direct register access: set MII register number (0-31)", .name = "reg", .get = ip175c_get_reg, .set = ip175c_set_reg, }, [IP175C_REGISTER_VALUE] = { .id = IP175C_REGISTER_VALUE, .type = SWITCH_TYPE_INT, .description = "Direct register access: read/write to register (0-65535)", .name = "val", .get = ip175c_get_val, .set = ip175c_set_val, }, }; static const struct switch_attr ip175c_vlan[] = { }; static const struct switch_attr ip175c_port[] = { [IP175C_PORT_STATUS] = { .id = IP175C_PORT_STATUS, .type = SWITCH_TYPE_STRING, .description = "Returns Detailed port status", .name = "status", .get = ip175c_get_port_status, .set = NULL, }, [IP175C_PORT_LINK] = { .id = IP175C_PORT_LINK, .type = SWITCH_TYPE_INT, .description = "Link speed. Can write 0 for auto-negotiate, or 10 or 100", .name = "link", .get = ip175c_get_port_speed, .set = ip175c_set_port_speed, }, [IP175C_PORT_TAGGED] = { .id = IP175C_PORT_LINK, .type = SWITCH_TYPE_INT, .description = "0 = untag, 1 = add tags, 2 = do not alter (This value is reset if vlans are altered)", .name = "tagged", .get = ip175c_get_tagged, .set = ip175c_set_tagged, }, }; static int ip175c_probe(struct phy_device *pdev) { struct ip175c_state *state; struct switch_dev *dev; int err; /* We only attach to PHY 0, but use all available PHYs */ if (pdev->addr != 0) return -ENODEV; state = kzalloc(sizeof(*state), GFP_KERNEL); if (!state) return -ENOMEM; dev = &state->dev; dev->attr_global.attr = ip175c_global; dev->attr_global.n_attr = ARRAY_SIZE(ip175c_global); dev->attr_port.attr = ip175c_port; dev->attr_port.n_attr = ARRAY_SIZE(ip175c_port); dev->attr_vlan.attr = ip175c_vlan; dev->attr_vlan.n_attr = ARRAY_SIZE(ip175c_vlan); dev->get_port_pvid = ip175c_get_pvid; dev->set_port_pvid = ip175c_set_pvid; dev->get_vlan_ports = ip175c_get_ports; dev->set_vlan_ports = ip175c_set_ports; dev->apply_config = ip175c_apply; dev->reset_switch = ip175c_reset; dev->priv = state; pdev->priv = state; state->mii_bus = pdev->bus; err = get_model(state); if (err < 0) goto error; dev->vlans = MAX_VLANS; dev->cpu_port = state->regs->CPU_PORT; dev->ports = state->regs->NUM_PORTS; dev->name = state->regs->NAME; return 0; error: kfree(state); return err; } static int ip175c_config_init(struct phy_device *pdev) { struct ip175c_state *state = pdev->priv; struct net_device *dev = pdev->attached_dev; int err; pdev->irq = PHY_IGNORE_INTERRUPT; err = register_switch(&state->dev, dev); if (err < 0) return err; ip175c_reset(&state->dev); state->registered = true; netif_carrier_on(pdev->attached_dev); return 0; } static void ip175c_remove(struct phy_device *pdev) { struct ip175c_state *state = pdev->priv; if (state->registered) unregister_switch(&state->dev); kfree(state); } static int ip175c_config_aneg(struct phy_device *pdev) { return 0; } static int ip175c_read_status(struct phy_device *pdev) { pdev->speed = SPEED_100; pdev->duplex = DUPLEX_FULL; pdev->pause = pdev->asym_pause = 0; return 0; } static struct phy_driver ip175c_driver = { .name = "IC+ IP175C", .phy_id = 0x02430d80, .phy_id_mask = 0x0ffffff0, .features = PHY_BASIC_FEATURES, .probe = ip175c_probe, .remove = ip175c_remove, .config_init = ip175c_config_init, .config_aneg = ip175c_config_aneg, .read_status = ip175c_read_status, .driver = { .owner = THIS_MODULE }, }; static struct phy_driver ip175a_driver = { .name = "IC+ IP175A", .phy_id = 0x02430c50, .phy_id_mask = 0x0ffffff0, .features = PHY_BASIC_FEATURES, .probe = ip175c_probe, .remove = ip175c_remove, .config_init = ip175c_config_init, .config_aneg = ip175c_config_aneg, .read_status = ip175c_read_status, .driver = { .owner = THIS_MODULE }, }; int __init ip175c_init(void) { int ret; ret = phy_driver_register(&ip175a_driver); if (ret < 0) return ret; return phy_driver_register(&ip175c_driver); } void __exit ip175c_exit(void) { phy_driver_unregister(&ip175c_driver); phy_driver_unregister(&ip175a_driver); } MODULE_AUTHOR("Patrick Horn "); MODULE_AUTHOR("Felix Fietkau "); MODULE_LICENSE("GPL"); module_init(ip175c_init); module_exit(ip175c_exit);