Commit e9b4ece7 authored by MD Danish Anwar's avatar MD Danish Anwar Committed by David S. Miller

net: ti: icssg-prueth: Add Firmware config and classification APIs.

Add icssg_config.h / .c and icssg_classifier.c files. These are firmware
configuration and classification related files. These will be used by
ICSSG ethernet driver.
Reviewed-by: default avatarAndrew Lunn <andrew@lunn.ch>
Signed-off-by: default avatarMD Danish Anwar <danishanwar@ti.com>
Signed-off-by: default avatarDavid S. Miller <davem@davemloft.net>
parent b6ba7752
// SPDX-License-Identifier: GPL-2.0
/* Texas Instruments ICSSG Ethernet Driver
*
* Copyright (C) 2018-2022 Texas Instruments Incorporated - https://www.ti.com/
*
*/
#include <linux/etherdevice.h>
#include <linux/types.h>
#include <linux/regmap.h>
#include "icssg_prueth.h"
#define ICSSG_NUM_CLASSIFIERS 16
#define ICSSG_NUM_FT1_SLOTS 8
#define ICSSG_NUM_FT3_SLOTS 16
#define ICSSG_NUM_CLASSIFIERS_IN_USE 5
/* Filter 1 - FT1 */
#define FT1_NUM_SLOTS 8
#define FT1_SLOT_SIZE 0x10 /* bytes */
/* offsets from FT1 slot base i.e. slot 1 start */
#define FT1_DA0 0x0
#define FT1_DA1 0x4
#define FT1_DA0_MASK 0x8
#define FT1_DA1_MASK 0xc
#define FT1_N_REG(slize, n, reg) \
(offs[slice].ft1_slot_base + FT1_SLOT_SIZE * (n) + (reg))
#define FT1_LEN_MASK GENMASK(19, 16)
#define FT1_LEN_SHIFT 16
#define FT1_LEN(len) (((len) << FT1_LEN_SHIFT) & FT1_LEN_MASK)
#define FT1_START_MASK GENMASK(14, 0)
#define FT1_START(start) ((start) & FT1_START_MASK)
#define FT1_MATCH_SLOT(n) (GENMASK(23, 16) & (BIT(n) << 16))
/* FT1 config type */
enum ft1_cfg_type {
FT1_CFG_TYPE_DISABLED = 0,
FT1_CFG_TYPE_EQ,
FT1_CFG_TYPE_GT,
FT1_CFG_TYPE_LT,
};
#define FT1_CFG_SHIFT(n) (2 * (n))
#define FT1_CFG_MASK(n) (0x3 << FT1_CFG_SHIFT((n)))
/* Filter 3 - FT3 */
#define FT3_NUM_SLOTS 16
#define FT3_SLOT_SIZE 0x20 /* bytes */
/* offsets from FT3 slot n's base */
#define FT3_START 0
#define FT3_START_AUTO 0x4
#define FT3_START_OFFSET 0x8
#define FT3_JUMP_OFFSET 0xc
#define FT3_LEN 0x10
#define FT3_CFG 0x14
#define FT3_T 0x18
#define FT3_T_MASK 0x1c
#define FT3_N_REG(slize, n, reg) \
(offs[slice].ft3_slot_base + FT3_SLOT_SIZE * (n) + (reg))
/* offsets from rx_class n's base */
#define RX_CLASS_AND_EN 0
#define RX_CLASS_OR_EN 0x4
#define RX_CLASS_NUM_SLOTS 16
#define RX_CLASS_EN_SIZE 0x8 /* bytes */
#define RX_CLASS_N_REG(slice, n, reg) \
(offs[slice].rx_class_base + RX_CLASS_EN_SIZE * (n) + (reg))
/* RX Class Gates */
#define RX_CLASS_GATES_SIZE 0x4 /* bytes */
#define RX_CLASS_GATES_N_REG(slice, n) \
(offs[slice].rx_class_gates_base + RX_CLASS_GATES_SIZE * (n))
#define RX_CLASS_GATES_ALLOW_MASK BIT(6)
#define RX_CLASS_GATES_RAW_MASK BIT(5)
#define RX_CLASS_GATES_PHASE_MASK BIT(4)
/* RX Class traffic data matching bits */
#define RX_CLASS_FT_UC BIT(31)
#define RX_CLASS_FT_MC BIT(30)
#define RX_CLASS_FT_BC BIT(29)
#define RX_CLASS_FT_FW BIT(28)
#define RX_CLASS_FT_RCV BIT(27)
#define RX_CLASS_FT_VLAN BIT(26)
#define RX_CLASS_FT_DA_P BIT(25)
#define RX_CLASS_FT_DA_I BIT(24)
#define RX_CLASS_FT_FT1_MATCH_MASK GENMASK(23, 16)
#define RX_CLASS_FT_FT1_MATCH_SHIFT 16
#define RX_CLASS_FT_FT3_MATCH_MASK GENMASK(15, 0)
#define RX_CLASS_FT_FT3_MATCH_SHIFT 0
#define RX_CLASS_FT_FT1_MATCH(slot) \
((BIT(slot) << RX_CLASS_FT_FT1_MATCH_SHIFT) & \
RX_CLASS_FT_FT1_MATCH_MASK)
/* RX class type */
enum rx_class_sel_type {
RX_CLASS_SEL_TYPE_OR = 0,
RX_CLASS_SEL_TYPE_AND = 1,
RX_CLASS_SEL_TYPE_OR_AND_AND = 2,
RX_CLASS_SEL_TYPE_OR_OR_AND = 3,
};
#define FT1_CFG_SHIFT(n) (2 * (n))
#define FT1_CFG_MASK(n) (0x3 << FT1_CFG_SHIFT((n)))
#define RX_CLASS_SEL_SHIFT(n) (2 * (n))
#define RX_CLASS_SEL_MASK(n) (0x3 << RX_CLASS_SEL_SHIFT((n)))
#define ICSSG_CFG_OFFSET 0
#define MAC_INTERFACE_0 0x18
#define MAC_INTERFACE_1 0x1c
#define ICSSG_CFG_RX_L2_G_EN BIT(2)
/* These are register offsets per PRU */
struct miig_rt_offsets {
u32 mac0;
u32 mac1;
u32 ft1_start_len;
u32 ft1_cfg;
u32 ft1_slot_base;
u32 ft3_slot_base;
u32 ft3_p_base;
u32 ft_rx_ptr;
u32 rx_class_base;
u32 rx_class_cfg1;
u32 rx_class_cfg2;
u32 rx_class_gates_base;
u32 rx_green;
u32 rx_rate_cfg_base;
u32 rx_rate_src_sel0;
u32 rx_rate_src_sel1;
u32 tx_rate_cfg_base;
u32 stat_base;
u32 tx_hsr_tag;
u32 tx_hsr_seq;
u32 tx_vlan_type;
u32 tx_vlan_ins;
};
/* These are the offset values for miig_rt_offsets registers */
static const struct miig_rt_offsets offs[] = {
/* PRU0 */
{
0x8,
0xc,
0x80,
0x84,
0x88,
0x108,
0x308,
0x408,
0x40c,
0x48c,
0x490,
0x494,
0x4d4,
0x4e4,
0x504,
0x508,
0x50c,
0x54c,
0x63c,
0x640,
0x644,
0x648,
},
/* PRU1 */
{
0x10,
0x14,
0x64c,
0x650,
0x654,
0x6d4,
0x8d4,
0x9d4,
0x9d8,
0xa58,
0xa5c,
0xa60,
0xaa0,
0xab0,
0xad0,
0xad4,
0xad8,
0xb18,
0xc08,
0xc0c,
0xc10,
0xc14,
},
};
static void rx_class_ft1_set_start_len(struct regmap *miig_rt, int slice,
u16 start, u8 len)
{
u32 offset, val;
offset = offs[slice].ft1_start_len;
val = FT1_LEN(len) | FT1_START(start);
regmap_write(miig_rt, offset, val);
}
static void rx_class_ft1_set_da(struct regmap *miig_rt, int slice,
int n, const u8 *addr)
{
u32 offset;
offset = FT1_N_REG(slice, n, FT1_DA0);
regmap_write(miig_rt, offset, (u32)(addr[0] | addr[1] << 8 |
addr[2] << 16 | addr[3] << 24));
offset = FT1_N_REG(slice, n, FT1_DA1);
regmap_write(miig_rt, offset, (u32)(addr[4] | addr[5] << 8));
}
static void rx_class_ft1_set_da_mask(struct regmap *miig_rt, int slice,
int n, const u8 *addr)
{
u32 offset;
offset = FT1_N_REG(slice, n, FT1_DA0_MASK);
regmap_write(miig_rt, offset, (u32)(addr[0] | addr[1] << 8 |
addr[2] << 16 | addr[3] << 24));
offset = FT1_N_REG(slice, n, FT1_DA1_MASK);
regmap_write(miig_rt, offset, (u32)(addr[4] | addr[5] << 8));
}
static void rx_class_ft1_cfg_set_type(struct regmap *miig_rt, int slice, int n,
enum ft1_cfg_type type)
{
u32 offset;
offset = offs[slice].ft1_cfg;
regmap_update_bits(miig_rt, offset, FT1_CFG_MASK(n),
type << FT1_CFG_SHIFT(n));
}
static void rx_class_sel_set_type(struct regmap *miig_rt, int slice, int n,
enum rx_class_sel_type type)
{
u32 offset;
offset = offs[slice].rx_class_cfg1;
regmap_update_bits(miig_rt, offset, RX_CLASS_SEL_MASK(n),
type << RX_CLASS_SEL_SHIFT(n));
}
static void rx_class_set_and(struct regmap *miig_rt, int slice, int n,
u32 data)
{
u32 offset;
offset = RX_CLASS_N_REG(slice, n, RX_CLASS_AND_EN);
regmap_write(miig_rt, offset, data);
}
static void rx_class_set_or(struct regmap *miig_rt, int slice, int n,
u32 data)
{
u32 offset;
offset = RX_CLASS_N_REG(slice, n, RX_CLASS_OR_EN);
regmap_write(miig_rt, offset, data);
}
void icssg_class_set_host_mac_addr(struct regmap *miig_rt, const u8 *mac)
{
regmap_write(miig_rt, MAC_INTERFACE_0, (u32)(mac[0] | mac[1] << 8 |
mac[2] << 16 | mac[3] << 24));
regmap_write(miig_rt, MAC_INTERFACE_1, (u32)(mac[4] | mac[5] << 8));
}
void icssg_class_set_mac_addr(struct regmap *miig_rt, int slice, u8 *mac)
{
regmap_write(miig_rt, offs[slice].mac0, (u32)(mac[0] | mac[1] << 8 |
mac[2] << 16 | mac[3] << 24));
regmap_write(miig_rt, offs[slice].mac1, (u32)(mac[4] | mac[5] << 8));
}
/* disable all RX traffic */
void icssg_class_disable(struct regmap *miig_rt, int slice)
{
u32 data, offset;
int n;
/* Enable RX_L2_G */
regmap_update_bits(miig_rt, ICSSG_CFG_OFFSET, ICSSG_CFG_RX_L2_G_EN,
ICSSG_CFG_RX_L2_G_EN);
for (n = 0; n < ICSSG_NUM_CLASSIFIERS; n++) {
/* AND_EN = 0 */
rx_class_set_and(miig_rt, slice, n, 0);
/* OR_EN = 0 */
rx_class_set_or(miig_rt, slice, n, 0);
/* set CFG1 to OR */
rx_class_sel_set_type(miig_rt, slice, n, RX_CLASS_SEL_TYPE_OR);
/* configure gate */
offset = RX_CLASS_GATES_N_REG(slice, n);
regmap_read(miig_rt, offset, &data);
/* clear class_raw so we go through filters */
data &= ~RX_CLASS_GATES_RAW_MASK;
/* set allow and phase mask */
data |= RX_CLASS_GATES_ALLOW_MASK | RX_CLASS_GATES_PHASE_MASK;
regmap_write(miig_rt, offset, data);
}
/* FT1 Disabled */
for (n = 0; n < ICSSG_NUM_FT1_SLOTS; n++) {
const u8 addr[] = { 0, 0, 0, 0, 0, 0, };
rx_class_ft1_cfg_set_type(miig_rt, slice, n,
FT1_CFG_TYPE_DISABLED);
rx_class_ft1_set_da(miig_rt, slice, n, addr);
rx_class_ft1_set_da_mask(miig_rt, slice, n, addr);
}
/* clear CFG2 */
regmap_write(miig_rt, offs[slice].rx_class_cfg2, 0);
}
void icssg_class_default(struct regmap *miig_rt, int slice, bool allmulti)
{
u32 data;
/* defaults */
icssg_class_disable(miig_rt, slice);
/* Setup Classifier */
/* match on Broadcast or MAC_PRU address */
data = RX_CLASS_FT_BC | RX_CLASS_FT_DA_P;
/* multicast */
if (allmulti)
data |= RX_CLASS_FT_MC;
rx_class_set_or(miig_rt, slice, 0, data);
/* set CFG1 for OR_OR_AND for classifier */
rx_class_sel_set_type(miig_rt, slice, 0, RX_CLASS_SEL_TYPE_OR_OR_AND);
/* clear CFG2 */
regmap_write(miig_rt, offs[slice].rx_class_cfg2, 0);
}
/* required for SAV check */
void icssg_ft1_set_mac_addr(struct regmap *miig_rt, int slice, u8 *mac_addr)
{
const u8 mask_addr[] = { 0, 0, 0, 0, 0, 0, };
rx_class_ft1_set_start_len(miig_rt, slice, 0, 6);
rx_class_ft1_set_da(miig_rt, slice, 0, mac_addr);
rx_class_ft1_set_da_mask(miig_rt, slice, 0, mask_addr);
rx_class_ft1_cfg_set_type(miig_rt, slice, 0, FT1_CFG_TYPE_EQ);
}
This diff is collapsed.
/* SPDX-License-Identifier: GPL-2.0 */
/* Texas Instruments ICSSG Ethernet driver
*
* Copyright (C) 2022 Texas Instruments Incorporated - https://www.ti.com/
*
*/
#ifndef __NET_TI_ICSSG_CONFIG_H
#define __NET_TI_ICSSG_CONFIG_H
struct icssg_buffer_pool_cfg {
__le32 addr;
__le32 len;
} __packed;
struct icssg_flow_cfg {
__le16 rx_base_flow;
__le16 mgm_base_flow;
} __packed;
#define PRUETH_PKT_TYPE_CMD 0x10
#define PRUETH_NAV_PS_DATA_SIZE 16 /* Protocol specific data size */
#define PRUETH_NAV_SW_DATA_SIZE 16 /* SW related data size */
#define PRUETH_MAX_TX_DESC 512
#define PRUETH_MAX_RX_DESC 512
#define PRUETH_MAX_RX_FLOWS 1 /* excluding default flow */
#define PRUETH_RX_FLOW_DATA 0
#define PRUETH_EMAC_BUF_POOL_SIZE SZ_8K
#define PRUETH_EMAC_POOLS_PER_SLICE 24
#define PRUETH_EMAC_BUF_POOL_START 8
#define PRUETH_NUM_BUF_POOLS 8
#define PRUETH_EMAC_RX_CTX_BUF_SIZE SZ_16K /* per slice */
#define MSMC_RAM_SIZE \
(2 * (PRUETH_EMAC_BUF_POOL_SIZE * PRUETH_NUM_BUF_POOLS + \
PRUETH_EMAC_RX_CTX_BUF_SIZE * 2))
struct icssg_rxq_ctx {
__le32 start[3];
__le32 end;
} __packed;
/* Load time Fiwmware Configuration */
#define ICSSG_FW_MGMT_CMD_HEADER 0x81
#define ICSSG_FW_MGMT_FDB_CMD_TYPE 0x03
#define ICSSG_FW_MGMT_CMD_TYPE 0x04
#define ICSSG_FW_MGMT_PKT 0x80000000
struct icssg_r30_cmd {
u32 cmd[4];
} __packed;
enum icssg_port_state_cmd {
ICSSG_EMAC_PORT_DISABLE = 0,
ICSSG_EMAC_PORT_BLOCK,
ICSSG_EMAC_PORT_FORWARD,
ICSSG_EMAC_PORT_FORWARD_WO_LEARNING,
ICSSG_EMAC_PORT_ACCEPT_ALL,
ICSSG_EMAC_PORT_ACCEPT_TAGGED,
ICSSG_EMAC_PORT_ACCEPT_UNTAGGED_N_PRIO,
ICSSG_EMAC_PORT_TAS_TRIGGER,
ICSSG_EMAC_PORT_TAS_ENABLE,
ICSSG_EMAC_PORT_TAS_RESET,
ICSSG_EMAC_PORT_TAS_DISABLE,
ICSSG_EMAC_PORT_UC_FLOODING_ENABLE,
ICSSG_EMAC_PORT_UC_FLOODING_DISABLE,
ICSSG_EMAC_PORT_MC_FLOODING_ENABLE,
ICSSG_EMAC_PORT_MC_FLOODING_DISABLE,
ICSSG_EMAC_PORT_PREMPT_TX_ENABLE,
ICSSG_EMAC_PORT_PREMPT_TX_DISABLE,
ICSSG_EMAC_PORT_VLAN_AWARE_ENABLE,
ICSSG_EMAC_PORT_VLAN_AWARE_DISABLE,
ICSSG_EMAC_PORT_MAX_COMMANDS
};
#define EMAC_NONE 0xffff0000
#define EMAC_PRU0_P_DI 0xffff0004
#define EMAC_PRU1_P_DI 0xffff0040
#define EMAC_TX_P_DI 0xffff0100
#define EMAC_PRU0_P_EN 0xfffb0000
#define EMAC_PRU1_P_EN 0xffbf0000
#define EMAC_TX_P_EN 0xfeff0000
#define EMAC_P_BLOCK 0xffff0040
#define EMAC_TX_P_BLOCK 0xffff0200
#define EMAC_P_UNBLOCK 0xffbf0000
#define EMAC_TX_P_UNBLOCK 0xfdff0000
#define EMAC_LEAN_EN 0xfff70000
#define EMAC_LEAN_DI 0xffff0008
#define EMAC_ACCEPT_ALL 0xffff0001
#define EMAC_ACCEPT_TAG 0xfffe0002
#define EMAC_ACCEPT_PRIOR 0xfffc0000
/* Config area lies in DRAM */
#define ICSSG_CONFIG_OFFSET 0x0
/* Config area lies in shared RAM */
#define ICSSG_CONFIG_OFFSET_SLICE0 0
#define ICSSG_CONFIG_OFFSET_SLICE1 0x8000
#define ICSSG_NUM_NORMAL_PDS 64
#define ICSSG_NUM_SPECIAL_PDS 16
#define ICSSG_NORMAL_PD_SIZE 8
#define ICSSG_SPECIAL_PD_SIZE 20
#define ICSSG_FLAG_MASK 0xff00ffff
struct icssg_setclock_desc {
u8 request;
u8 restore;
u8 acknowledgment;
u8 cmp_status;
u32 margin;
u32 cyclecounter0_set;
u32 cyclecounter1_set;
u32 iepcount_set;
u32 rsvd1;
u32 rsvd2;
u32 CMP0_current;
u32 iepcount_current;
u32 difference;
u32 cyclecounter0_new;
u32 cyclecounter1_new;
u32 CMP0_new;
} __packed;
#define ICSSG_CMD_POP_SLICE0 56
#define ICSSG_CMD_POP_SLICE1 60
#define ICSSG_CMD_PUSH_SLICE0 57
#define ICSSG_CMD_PUSH_SLICE1 61
#define ICSSG_RSP_POP_SLICE0 58
#define ICSSG_RSP_POP_SLICE1 62
#define ICSSG_RSP_PUSH_SLICE0 56
#define ICSSG_RSP_PUSH_SLICE1 60
#define ICSSG_TS_POP_SLICE0 59
#define ICSSG_TS_POP_SLICE1 63
#define ICSSG_TS_PUSH_SLICE0 40
#define ICSSG_TS_PUSH_SLICE1 41
/* FDB FID_C2 flag definitions */
/* Indicates host port membership.*/
#define ICSSG_FDB_ENTRY_P0_MEMBERSHIP BIT(0)
/* Indicates that MAC ID is connected to physical port 1 */
#define ICSSG_FDB_ENTRY_P1_MEMBERSHIP BIT(1)
/* Indicates that MAC ID is connected to physical port 2 */
#define ICSSG_FDB_ENTRY_P2_MEMBERSHIP BIT(2)
/* Ageable bit is set for learned entries and cleared for static entries */
#define ICSSG_FDB_ENTRY_AGEABLE BIT(3)
/* If set for DA then packet is determined to be a special packet */
#define ICSSG_FDB_ENTRY_BLOCK BIT(4)
/* If set for DA then the SA from the packet is not learned */
#define ICSSG_FDB_ENTRY_SECURE BIT(5)
/* If set, it means packet has been seen recently with source address + FID
* matching MAC address/FID of entry
*/
#define ICSSG_FDB_ENTRY_TOUCHED BIT(6)
/* Set if entry is valid */
#define ICSSG_FDB_ENTRY_VALID BIT(7)
/**
* struct prueth_vlan_tbl - VLAN table entries struct in ICSSG SMEM
* @fid_c1: membership and forwarding rules flag to this table. See
* above to defines for bit definitions
* @fid: FDB index for this VID (there is 1-1 mapping b/w VID and FID)
*/
struct prueth_vlan_tbl {
u8 fid_c1;
u8 fid;
} __packed;
/**
* struct prueth_fdb_slot - Result of FDB slot lookup
* @mac: MAC address
* @fid: fid to be associated with MAC
* @fid_c2: FID_C2 entry for this MAC
*/
struct prueth_fdb_slot {
u8 mac[ETH_ALEN];
u8 fid;
u8 fid_c2;
} __packed;
enum icssg_ietfpe_verify_states {
ICSSG_IETFPE_STATE_UNKNOWN = 0,
ICSSG_IETFPE_STATE_INITIAL,
ICSSG_IETFPE_STATE_VERIFYING,
ICSSG_IETFPE_STATE_SUCCEEDED,
ICSSG_IETFPE_STATE_FAILED,
ICSSG_IETFPE_STATE_DISABLED
};
#endif /* __NET_TI_ICSSG_CONFIG_H */
......@@ -194,4 +194,19 @@ static inline int prueth_emac_slice(struct prueth_emac *emac)
}
}
/* Classifier helpers */
void icssg_class_set_mac_addr(struct regmap *miig_rt, int slice, u8 *mac);
void icssg_class_set_host_mac_addr(struct regmap *miig_rt, const u8 *mac);
void icssg_class_disable(struct regmap *miig_rt, int slice);
void icssg_class_default(struct regmap *miig_rt, int slice, bool allmulti);
void icssg_ft1_set_mac_addr(struct regmap *miig_rt, int slice, u8 *mac_addr);
/* config helpers */
void icssg_config_ipg(struct prueth_emac *emac);
int icssg_config(struct prueth *prueth, struct prueth_emac *emac,
int slice);
int emac_set_port_state(struct prueth_emac *emac,
enum icssg_port_state_cmd state);
void icssg_config_set_speed(struct prueth_emac *emac);
#endif /* __NET_TI_ICSSG_PRUETH_H */
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