u-boot/arch/powerpc/cpu/mpc85xx/t4240_serdes.c

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powerpc/mpc85xx: Add T4240 SoC Add support for Freescale T4240 SoC. Feature of T4240 are (incomplete list): 12 dual-threaded e6500 cores built on Power Architecture® technology Arranged as clusters of four cores sharing a 2 MB L2 cache. Up to 1.8 GHz at 1.0 V with 64-bit ISA support (Power Architecture v2.06-compliant) Three levels of instruction: user, supervisor, and hypervisor 1.5 MB CoreNet Platform Cache (CPC) Hierarchical interconnect fabric CoreNet fabric supporting coherent and non-coherent transactions with prioritization and bandwidth allocation amongst CoreNet end-points 1.6 Tbps coherent read bandwidth Queue Manager (QMan) fabric supporting packet-level queue management and quality of service scheduling Three 64-bit DDR3/3L SDRAM memory controllers with ECC and interleaving support Memory prefetch engine (PMan) Data Path Acceleration Architecture (DPAA) incorporating acceleration for the following functions: Packet parsing, classification, and distribution (Frame Manager 1.1) Queue management for scheduling, packet sequencing, and congestion management (Queue Manager 1.1) Hardware buffer management for buffer allocation and de-allocation (BMan 1.1) Cryptography acceleration (SEC 5.0) at up to 40 Gbps RegEx Pattern Matching Acceleration (PME 2.1) at up to 10 Gbps Decompression/Compression Acceleration (DCE 1.0) at up to 20 Gbps DPAA chip-to-chip interconnect via RapidIO Message Manager (RMAN 1.0) 32 SerDes lanes at up to 10.3125 GHz Ethernet interfaces Up to four 10 Gbps Ethernet MACs Up to sixteen 1 Gbps Ethernet MACs Maximum configuration of 4 x 10 GE + 8 x 1 GE High-speed peripheral interfaces Four PCI Express 2.0/3.0 controllers Two Serial RapidIO 2.0 controllers/ports running at up to 5 GHz with Type 11 messaging and Type 9 data streaming support Interlaken look-aside interface for serial TCAM connection Additional peripheral interfaces Two serial ATA (SATA 2.0) controllers Two high-speed USB 2.0 controllers with integrated PHY Enhanced secure digital host controller (SD/MMC/eMMC) Enhanced serial peripheral interface (eSPI) Four I2C controllers Four 2-pin or two 4-pin UARTs Integrated Flash controller supporting NAND and NOR flash Two eight-channel DMA engines Support for hardware virtualization and partitioning enforcement QorIQ Platform's Trust Architecture 1.1 Signed-off-by: York Sun <yorksun@freescale.com> Signed-off-by: Kumar Gala <galak@kernel.crashing.org> Signed-off-by: Andy Fleming <afleming@freescale.com> Signed-off-by: Roy Zang <tie-fei.zang@freescale.com> Signed-off-by: Prabhakar Kushwaha <prabhakar@freescale.com> Signed-off-by: Shengzhou Liu <Shengzhou.Liu@freescale.com> Signed-off-by: Andy Fleming <afleming@freescale.com>
2012-10-08 07:44:19 +00:00
/*
* Copyright 2012 Freescale Semiconductor, Inc.
*
* See file CREDITS for list of people who contributed to this
* project.
*
* 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.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
* MA 02111-1307 USA
*/
#include <common.h>
#include <asm/fsl_serdes.h>
#include <asm/processor.h>
#include <asm/io.h>
#include "fsl_corenet2_serdes.h"
struct serdes_config {
u32 protocol;
u8 lanes[SRDS_MAX_LANES];
};
static struct serdes_config serdes1_cfg_tbl[] = {
/* SerDes 1 */
{1, {XAUI_FM1_MAC9, XAUI_FM1_MAC9,
XAUI_FM1_MAC9, XAUI_FM1_MAC9,
XAUI_FM1_MAC10, XAUI_FM1_MAC10,
XAUI_FM1_MAC10, XAUI_FM1_MAC10}},
{2, {HIGIG_FM1_MAC9, HIGIG_FM1_MAC9,
HIGIG_FM1_MAC9, HIGIG_FM1_MAC9,
HIGIG_FM1_MAC10, HIGIG_FM1_MAC10,
HIGIG_FM1_MAC10, HIGIG_FM1_MAC10}},
{4, {HIGIG_FM1_MAC9, HIGIG_FM1_MAC9,
HIGIG_FM1_MAC9, HIGIG_FM1_MAC9,
HIGIG_FM1_MAC10, HIGIG_FM1_MAC10,
HIGIG_FM1_MAC10, HIGIG_FM1_MAC10}},
{28, {SGMII_FM1_DTSEC5, SGMII_FM1_DTSEC6,
SGMII_FM1_DTSEC10, SGMII_FM1_DTSEC9,
SGMII_FM1_DTSEC1, SGMII_FM1_DTSEC2,
SGMII_FM1_DTSEC3, SGMII_FM1_DTSEC4}},
{36, {SGMII_FM1_DTSEC5, SGMII_FM1_DTSEC6,
SGMII_FM1_DTSEC10, SGMII_FM1_DTSEC9,
SGMII_FM1_DTSEC1, SGMII_FM1_DTSEC2,
SGMII_FM1_DTSEC3, SGMII_FM1_DTSEC4}},
{38, {NONE, NONE, QSGMII_FM1_B, NONE,
NONE, NONE, QSGMII_FM1_A, NONE}},
{40, {SGMII_FM1_DTSEC5, SGMII_FM1_DTSEC6,
SGMII_FM1_DTSEC10, SGMII_FM1_DTSEC9,
NONE, NONE, QSGMII_FM1_A, NONE}},
{46, {SGMII_FM1_DTSEC5, SGMII_FM1_DTSEC6,
SGMII_FM1_DTSEC10, SGMII_FM1_DTSEC9,
NONE, NONE, QSGMII_FM1_A, NONE}},
{48, {SGMII_FM1_DTSEC5, SGMII_FM1_DTSEC6,
SGMII_FM1_DTSEC10, SGMII_FM1_DTSEC9,
NONE, NONE, QSGMII_FM1_A, NONE}},
{}
};
static struct serdes_config serdes2_cfg_tbl[] = {
/* SerDes 2 */
{1, {XAUI_FM2_MAC9, XAUI_FM2_MAC9,
XAUI_FM2_MAC9, XAUI_FM2_MAC9,
XAUI_FM2_MAC10, XAUI_FM2_MAC10,
XAUI_FM2_MAC10, XAUI_FM2_MAC10}},
{2, {HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
HIGIG_FM2_MAC10, HIGIG_FM2_MAC10,
HIGIG_FM2_MAC10, HIGIG_FM2_MAC10}},
{4, {HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
HIGIG_FM2_MAC10, HIGIG_FM2_MAC10,
HIGIG_FM2_MAC10, HIGIG_FM2_MAC10}},
{7, {XAUI_FM2_MAC9, XAUI_FM2_MAC9,
XAUI_FM2_MAC9, XAUI_FM2_MAC9,
SGMII_FM2_DTSEC1, SGMII_FM2_DTSEC2,
SGMII_FM2_DTSEC3, SGMII_FM2_DTSEC4}},
{13, {XAUI_FM2_MAC9, XAUI_FM2_MAC9,
XAUI_FM2_MAC9, XAUI_FM2_MAC9,
SGMII_FM2_DTSEC1, SGMII_FM2_DTSEC2,
SGMII_FM2_DTSEC3, SGMII_FM2_DTSEC4}},
{14, {XAUI_FM2_MAC9, XAUI_FM2_MAC9,
XAUI_FM2_MAC9, XAUI_FM2_MAC9,
SGMII_FM2_DTSEC1, SGMII_FM2_DTSEC2,
SGMII_FM2_DTSEC3, SGMII_FM2_DTSEC4}},
{16, {HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
SGMII_FM2_DTSEC1, SGMII_FM2_DTSEC2,
SGMII_FM2_DTSEC3, SGMII_FM2_DTSEC4}},
{22, {HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
SGMII_FM2_DTSEC1, SGMII_FM2_DTSEC2,
SGMII_FM2_DTSEC3, SGMII_FM2_DTSEC4}},
{23, {HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
SGMII_FM2_DTSEC1, SGMII_FM2_DTSEC2,
SGMII_FM2_DTSEC3, SGMII_FM2_DTSEC4}},
{25, {HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
SGMII_FM2_DTSEC1, SGMII_FM2_DTSEC2,
SGMII_FM2_DTSEC3, SGMII_FM2_DTSEC4}},
{26, {HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
SGMII_FM2_DTSEC1, SGMII_FM2_DTSEC2,
SGMII_FM2_DTSEC3, SGMII_FM2_DTSEC4}},
{28, {SGMII_FM2_DTSEC5, SGMII_FM2_DTSEC6,
SGMII_FM2_DTSEC10, SGMII_FM2_DTSEC9,
SGMII_FM2_DTSEC1, SGMII_FM2_DTSEC2,
SGMII_FM2_DTSEC3, SGMII_FM2_DTSEC4}},
{36, {SGMII_FM2_DTSEC5, SGMII_FM2_DTSEC6,
SGMII_FM2_DTSEC10, SGMII_FM2_DTSEC9,
SGMII_FM2_DTSEC1, SGMII_FM2_DTSEC2,
SGMII_FM2_DTSEC3, SGMII_FM2_DTSEC4}},
{38, {NONE, NONE, QSGMII_FM2_B, NONE,
NONE, NONE, QSGMII_FM1_A, NONE}},
{40, {SGMII_FM2_DTSEC5, SGMII_FM2_DTSEC6,
SGMII_FM2_DTSEC10, SGMII_FM2_DTSEC9,
NONE, NONE, QSGMII_FM1_A, NONE}},
{46, {SGMII_FM2_DTSEC5, SGMII_FM2_DTSEC6,
SGMII_FM2_DTSEC10, SGMII_FM2_DTSEC9,
NONE, NONE, QSGMII_FM1_A, NONE}},
{48, {SGMII_FM2_DTSEC5, SGMII_FM2_DTSEC6,
SGMII_FM2_DTSEC10, SGMII_FM2_DTSEC9,
NONE, NONE, QSGMII_FM1_A, NONE}},
{50, {XAUI_FM2_MAC9, XAUI_FM2_MAC9,
XAUI_FM2_MAC9, XAUI_FM2_MAC9,
NONE, NONE, QSGMII_FM1_A, NONE}},
{52, {HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
NONE, NONE, QSGMII_FM1_A, NONE}},
{54, {HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
HIGIG_FM2_MAC9, HIGIG_FM2_MAC9,
NONE, NONE, QSGMII_FM1_A, NONE}},
{56, {XFI_FM1_MAC9, XFI_FM1_MAC10,
XFI_FM2_MAC10, XFI_FM2_MAC9,
SGMII_FM2_DTSEC1, SGMII_FM2_DTSEC2,
SGMII_FM2_DTSEC3, SGMII_FM2_DTSEC4}},
{57, {XFI_FM1_MAC9, XFI_FM1_MAC10,
XFI_FM2_MAC10, XFI_FM2_MAC9,
SGMII_FM2_DTSEC1, SGMII_FM2_DTSEC2,
SGMII_FM2_DTSEC3, SGMII_FM2_DTSEC4}},
{}
};
static struct serdes_config serdes3_cfg_tbl[] = {
/* SerDes 3 */
{2, {PCIE1, PCIE1, PCIE1, PCIE1, PCIE1, PCIE1, PCIE1, PCIE1}},
{4, {PCIE1, PCIE1, PCIE1, PCIE1, PCIE2, PCIE2, PCIE2, PCIE2}},
{6, {PCIE1, PCIE1, PCIE1, PCIE1, SRIO1, SRIO1, SRIO1, SRIO1}},
{8, {PCIE1, PCIE1, PCIE1, PCIE1, SRIO1, NONE, NONE, NONE}},
{9, {INTERLAKEN, INTERLAKEN, INTERLAKEN, INTERLAKEN,
INTERLAKEN, INTERLAKEN, INTERLAKEN, INTERLAKEN}},
{10, {INTERLAKEN, INTERLAKEN, INTERLAKEN, INTERLAKEN,
INTERLAKEN, INTERLAKEN, INTERLAKEN, INTERLAKEN}},
{12, {INTERLAKEN, INTERLAKEN, INTERLAKEN, INTERLAKEN,
PCIE2, PCIE2, PCIE2, PCIE2}},
{14, {INTERLAKEN, INTERLAKEN, INTERLAKEN, INTERLAKEN,
PCIE2, PCIE2, PCIE2, PCIE2}},
{16, {INTERLAKEN, INTERLAKEN, INTERLAKEN, INTERLAKEN,
SRIO1, SRIO1, SRIO1, SRIO1}},
{17, {INTERLAKEN, INTERLAKEN, INTERLAKEN, INTERLAKEN,
SRIO1, SRIO1, SRIO1, SRIO1}},
{19, {INTERLAKEN, INTERLAKEN, INTERLAKEN, INTERLAKEN,
SRIO1, SRIO1, SRIO1, SRIO1}},
{20, {INTERLAKEN, INTERLAKEN, INTERLAKEN, INTERLAKEN,
SRIO1, SRIO1, SRIO1, SRIO1}},
{}
};
static struct serdes_config serdes4_cfg_tbl[] = {
/* SerDes 4 */
{2, {PCIE3, PCIE3, PCIE3, PCIE3, PCIE3, PCIE3, PCIE3, PCIE3}},
{4, {PCIE3, PCIE3, PCIE3, PCIE3, PCIE4, PCIE4, PCIE4, PCIE4}},
{6, {PCIE3, PCIE3, PCIE3, PCIE3, SRIO2, SRIO2, SRIO2, SRIO2}},
{8, {PCIE3, PCIE3, PCIE3, PCIE3, SRIO2, SRIO2, SRIO2, SRIO2}},
{10, {PCIE3, PCIE3, PCIE3, PCIE3, PCIE4, PCIE4, SATA1, SATA1}},
{12, {PCIE3, PCIE3, PCIE3, PCIE3, AURORA, AURORA, SATA1, SATA1}},
{14, {PCIE3, PCIE3, PCIE3, PCIE3, AURORA, AURORA, SRIO2, SRIO2}},
{16, {PCIE3, PCIE3, PCIE3, PCIE3, AURORA, AURORA, SRIO2, SRIO2}},
{18, {PCIE3, PCIE3, PCIE3, PCIE3, AURORA, AURORA, AURORA, AURORA}},
{}
};
static struct serdes_config *serdes_cfg_tbl[] = {
serdes1_cfg_tbl,
serdes2_cfg_tbl,
serdes3_cfg_tbl,
serdes4_cfg_tbl,
};
enum srds_prtcl serdes_get_prtcl(int serdes, int cfg, int lane)
{
struct serdes_config *ptr;
if (serdes >= ARRAY_SIZE(serdes_cfg_tbl))
return 0;
ptr = serdes_cfg_tbl[serdes];
while (ptr->protocol) {
if (ptr->protocol == cfg)
return ptr->lanes[lane];
ptr++;
}
return 0;
}
int is_serdes_prtcl_valid(int serdes, u32 prtcl)
{
int i;
struct serdes_config *ptr;
if (serdes >= ARRAY_SIZE(serdes_cfg_tbl))
return 0;
ptr = serdes_cfg_tbl[serdes];
while (ptr->protocol) {
if (ptr->protocol == prtcl)
break;
ptr++;
}
if (!ptr->protocol)
return 0;
for (i = 0; i < SRDS_MAX_LANES; i++) {
if (ptr->lanes[i] != NONE)
return 1;
}
return 0;
}