diff options
Diffstat (limited to 'arch/arm/mach-mvebu/serdes/a38x/high_speed_env_spec.c')
-rw-r--r-- | arch/arm/mach-mvebu/serdes/a38x/high_speed_env_spec.c | 2228 |
1 files changed, 2228 insertions, 0 deletions
diff --git a/arch/arm/mach-mvebu/serdes/a38x/high_speed_env_spec.c b/arch/arm/mach-mvebu/serdes/a38x/high_speed_env_spec.c new file mode 100644 index 0000000..23af769 --- /dev/null +++ b/arch/arm/mach-mvebu/serdes/a38x/high_speed_env_spec.c @@ -0,0 +1,2228 @@ +/* + * Copyright (C) Marvell International Ltd. and its affiliates + * + * SPDX-License-Identifier: GPL-2.0 + */ + +#include <common.h> +#include <i2c.h> +#include <spl.h> +#include <asm/io.h> +#include <asm/arch/cpu.h> +#include <asm/arch/soc.h> + +#include "high_speed_env_spec.h" +#include "high_speed_topology_spec.h" +#include "sys_env_lib.h" +#include "ctrl_pex.h" + +#if defined(CONFIG_ARMADA_38X) +#elif defined(CONFIG_ARMADA_39X) +#else +#error "No device is defined" +#endif + +/* + * The board topology map, initialized in the beginning of + * ctrl_high_speed_serdes_phy_config + */ +struct serdes_map serdes_configuration_map[MAX_SERDES_LANES]; + +/* + * serdes_seq_db - holds all serdes sequences, their size and the + * relevant index in the data array initialized in serdes_seq_init + */ +struct cfg_seq serdes_seq_db[SERDES_LAST_SEQ]; + +#define SERDES_VERION "2.0" +#define ENDED_OK "High speed PHY - Ended Successfully\n" + +#define LINK_WAIT_CNTR 100 +#define LINK_WAIT_SLEEP 100 + +#define MAX_UNIT_NUMB 4 +#define TOPOLOGY_TEST_OK 0 +#define WRONG_NUMBER_OF_UNITS 1 +#define SERDES_ALREADY_IN_USE 2 +#define UNIT_NUMBER_VIOLATION 3 + +/* + * serdes_lane_in_use_count contains the exact amount of serdes lanes + * needed per type + */ +u8 serdes_lane_in_use_count[MAX_UNITS_ID][MAX_UNIT_NUMB] = { + /* 0 1 2 3 */ + { 1, 1, 1, 1 }, /* PEX */ + { 1, 1, 1, 1 }, /* ETH_GIG */ + { 1, 1, 0, 0 }, /* USB3H */ + { 1, 1, 1, 0 }, /* USB3D */ + { 1, 1, 1, 1 }, /* SATA */ + { 1, 0, 0, 0 }, /* QSGMII */ + { 4, 0, 0, 0 }, /* XAUI */ + { 2, 0, 0, 0 } /* RXAUI */ +}; + +/* + * serdes_unit_count count unit number. + * (i.e a single XAUI is counted as 1 unit) + */ +u8 serdes_unit_count[MAX_UNITS_ID] = { 0 }; + +/* Selector mapping for A380-A0 and A390-Z1 */ +u8 selectors_serdes_rev2_map[LAST_SERDES_TYPE][MAX_SERDES_LANES] = { + /* 0 1 2 3 4 5 6 */ + { 0x1, 0x1, NA, NA, NA, NA, NA }, /* PEX0 */ + { NA, NA, 0x1, NA, 0x1, NA, 0x1 }, /* PEX1 */ + { NA, NA, NA, NA, 0x7, 0x1, NA }, /* PEX2 */ + { NA, NA, NA, 0x1, NA, NA, NA }, /* PEX3 */ + { 0x2, 0x3, NA, NA, NA, NA, NA }, /* SATA0 */ + { NA, NA, 0x3, NA, NA, NA, NA }, /* SATA1 */ + { NA, NA, NA, NA, 0x6, 0x2, NA }, /* SATA2 */ + { NA, NA, NA, 0x3, NA, NA, NA }, /* SATA3 */ + { 0x3, 0x4, NA, NA, NA, NA, NA }, /* SGMII0 */ + { NA, 0x5, 0x4, NA, 0x3, NA, NA }, /* SGMII1 */ + { NA, NA, NA, 0x4, NA, 0x3, NA }, /* SGMII2 */ + { NA, 0x7, NA, NA, NA, NA, NA }, /* QSGMII */ + { NA, 0x6, NA, NA, 0x4, NA, NA }, /* USB3_HOST0 */ + { NA, NA, NA, 0x5, NA, 0x4, NA }, /* USB3_HOST1 */ + { NA, NA, NA, 0x6, 0x5, 0x5, NA }, /* USB3_DEVICE */ +#ifdef CONFIG_ARMADA_39X + { NA, NA, 0x5, NA, 0x8, NA, 0x2 }, /* SGMII3 */ + { NA, NA, NA, 0x8, 0x9, 0x8, 0x4 }, /* XAUI */ + { NA, NA, NA, NA, NA, 0x8, 0x4 }, /* RXAUI */ +#endif + { 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, NA } /* DEFAULT_SERDES */ +}; + +/* Selector mapping for PEX by 4 confiuration */ +u8 common_phys_selectors_pex_by4_lanes[] = { 0x1, 0x2, 0x2, 0x2 }; + +static const char *const serdes_type_to_string[] = { + "PCIe0", + "PCIe1", + "PCIe2", + "PCIe3", + "SATA0", + "SATA1", + "SATA2", + "SATA3", + "SGMII0", + "SGMII1", + "SGMII2", + "QSGMII", + "USB3 HOST0", + "USB3 HOST1", + "USB3 DEVICE", + "SGMII3", + "XAUI", + "RXAUI", + "DEFAULT SERDES", + "LAST_SERDES_TYPE" +}; + +struct serdes_unit_data { + u8 serdes_unit_id; + u8 serdes_unit_num; +}; + +static struct serdes_unit_data serdes_type_to_unit_info[] = { + {PEX_UNIT_ID, 0,}, + {PEX_UNIT_ID, 1,}, + {PEX_UNIT_ID, 2,}, + {PEX_UNIT_ID, 3,}, + {SATA_UNIT_ID, 0,}, + {SATA_UNIT_ID, 1,}, + {SATA_UNIT_ID, 2,}, + {SATA_UNIT_ID, 3,}, + {ETH_GIG_UNIT_ID, 0,}, + {ETH_GIG_UNIT_ID, 1,}, + {ETH_GIG_UNIT_ID, 2,}, + {QSGMII_UNIT_ID, 0,}, + {USB3H_UNIT_ID, 0,}, + {USB3H_UNIT_ID, 1,}, + {USB3D_UNIT_ID, 0,}, + {ETH_GIG_UNIT_ID, 3,}, + {XAUI_UNIT_ID, 0,}, + {RXAUI_UNIT_ID, 0,}, +}; + +/* Sequences DB */ + +/* + * SATA and SGMII + */ + +struct op_params sata_port0_power_up_params[] = { + /* + * unit_base_reg, unit_offset, mask, SATA data, wait_time, + * num_of_loops + */ + /* Access to reg 0x48(OOB param 1) */ + {SATA_VENDOR_PORT_0_REG_ADDR, 0x38000, 0xffffffff, {0x48,}, 0, 0}, + /* OOB Com_wake and Com_reset spacing upper limit data */ + {SATA_VENDOR_PORT_0_REG_DATA, 0x38000, 0xf03f, {0x6018,}, 0, 0}, + /* Access to reg 0xa(PHY Control) */ + {SATA_VENDOR_PORT_0_REG_ADDR, 0x38000, 0xffffffff, {0xa,}, 0, 0}, + /* Rx clk and Tx clk select non-inverted mode */ + {SATA_VENDOR_PORT_0_REG_DATA, 0x38000, 0x3000, {0x0,}, 0, 0}, + /* Power Down Sata addr */ + {SATA_CTRL_REG_IND_ADDR, 0x38000, 0xffffffff, {0x0,}, 0, 0}, + /* Power Down Sata Port 0 */ + {SATA_CTRL_REG_IND_DATA, 0x38000, 0xffff00ff, {0xc40040,}, 0, 0}, +}; + +struct op_params sata_port1_power_up_params[] = { + /* + * unit_base_reg, unit_offset, mask, SATA data, wait_time, + * num_of_loops + */ + /* Access to reg 0x48(OOB param 1) */ + {SATA_VENDOR_PORT_1_REG_ADDR, 0x38000, 0xffffffff, {0x48,}, 0, 0}, + /* OOB Com_wake and Com_reset spacing upper limit data */ + {SATA_VENDOR_PORT_1_REG_DATA, 0x38000, 0xf03f, {0x6018,}, 0, 0}, + /* Access to reg 0xa(PHY Control) */ + {SATA_VENDOR_PORT_1_REG_ADDR, 0x38000, 0xffffffff, {0xa,}, 0, 0}, + /* Rx clk and Tx clk select non-inverted mode */ + {SATA_VENDOR_PORT_1_REG_DATA, 0x38000, 0x3000, {0x0,}, 0, 0}, + /* Power Down Sata addr */ + {SATA_CTRL_REG_IND_ADDR, 0x38000, 0xffffffff, {0x0,}, 0, 0}, + /* Power Down Sata Port 1 */ + {SATA_CTRL_REG_IND_DATA, 0x38000, 0xffffff00, {0xc44000,}, 0, 0}, +}; + +/* SATA and SGMII - power up seq */ +struct op_params sata_and_sgmii_power_up_params[] = { + /* + * unit_base_reg, unit_offset, mask, SATA data, SGMII data, + * wait_time, num_of_loops + */ + /* Power Up */ + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0x90006, {0x80002, 0x80002}, + 0, 0}, + /* Unreset */ + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0x7800, {0x6000, 0x6000}, 0, 0}, + /* Phy Selector */ + {POWER_AND_PLL_CTRL_REG, 0x800, 0x0e0, {0x0, 0x80}, 0, 0}, + /* Ref clock source select */ + {MISC_REG, 0x800, 0x440, {0x440, 0x400}, 0, 0} +}; + +/* SATA and SGMII - speed config seq */ +struct op_params sata_and_sgmii_speed_config_params[] = { + /* + * unit_base_reg, unit_offset, mask, SATA data, + * SGMII (1.25G), SGMII (3.125G), wait_time, num_of_loops + */ + /* Baud Rate */ + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0x3fc00000, + {0x8800000, 0x19800000, 0x22000000}, 0, 0}, + /* Select Baud Rate for SATA only */ + {INTERFACE_REG, 0x800, 0xc00, {0x800, NO_DATA, NO_DATA}, 0, 0}, + /* Phy Gen RX and TX */ + {ISOLATE_REG, 0x800, 0xff, {NO_DATA, 0x66, 0x66}, 0, 0}, + /* Bus Width */ + {LOOPBACK_REG, 0x800, 0xe, {0x4, 0x2, 0x2}, 0, 0} +}; + +/* SATA and SGMII - TX config seq */ +struct op_params sata_and_sgmii_tx_config_params1[] = { + /* + * unitunit_base_reg, unit_offset, mask, SATA data, SGMII data, + * wait_time, num_of_loops + */ + {GLUE_REG, 0x800, 0x1800, {NO_DATA, 0x800}, 0, 0}, + /* Sft Reset pulse */ + {RESET_DFE_REG, 0x800, 0x401, {0x401, 0x401}, 0, 0}, + /* Sft Reset pulse */ + {RESET_DFE_REG, 0x800, 0x401, {0x0, 0x0}, 0, 0}, + /* Power up PLL, RX and TX */ + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0xf0000, {0x70000, 0x70000}, + 0, 0} +}; + +struct op_params sata_port0_tx_config_params[] = { + /* + * unit_base_reg, unit_offset, mask, SATA data, wait_time, + * num_of_loops + */ + /* Power Down Sata addr */ + {SATA_CTRL_REG_IND_ADDR, 0x38000, 0xffffffff, {0x0}, 0, 0}, + /* Power Down Sata Port 0 */ + {SATA_CTRL_REG_IND_DATA, 0x38000, 0xffff00ff, {0xc40000}, 0, 0}, + /* Regret bit addr */ + {SATA_CTRL_REG_IND_ADDR, 0x38000, 0xffffffff, {0x4}, 0, 0}, + /* Regret bit data */ + {SATA_CTRL_REG_IND_DATA, 0x38000, 0xffffffff, {0x80}, 0, 0} +}; + +struct op_params sata_port1_tx_config_params[] = { + /* + * unit_base_reg, unit_offset, mask, SATA data, wait_time, + * num_of_loops + */ + /* Power Down Sata addr */ + {SATA_CTRL_REG_IND_ADDR, 0x38000, 0xffffffff, {0x0}, 0, 0}, + /* Power Down Sata Port 1 */ + {SATA_CTRL_REG_IND_DATA, 0x38000, 0xffffff00, {0xc40000}, 0, 0}, + /* Regret bit addr */ + {SATA_CTRL_REG_IND_ADDR, 0x38000, 0xffffffff, {0x4}, 0, 0}, + /* Regret bit data */ + {SATA_CTRL_REG_IND_DATA, 0x38000, 0xffffffff, {0x80}, 0, 0} +}; + +struct op_params sata_and_sgmii_tx_config_serdes_rev1_params2[] = { + /* + * unit_base_reg, unit_offset, mask, SATA data, SGMII data, + * wait_time, num_of_loops + */ + /* Wait for PHY power up sequence to finish */ + {COMMON_PHY_STATUS1_REG, 0x28, 0xc, {0xc, 0xc}, 10, 1000}, + /* Wait for PHY power up sequence to finish */ + {COMMON_PHY_STATUS1_REG, 0x28, 0x1, {0x1, 0x1}, 1, 1000} +}; + +struct op_params sata_and_sgmii_tx_config_serdes_rev2_params2[] = { + /* + * unit_base_reg, unit_offset, mask, SATA data, SGMII data, + * wait_time, num_of_loops + */ + /* Wait for PHY power up sequence to finish */ + {COMMON_PHY_STATUS1_REG, 0x28, 0xc, {0xc, 0xc}, 10, 1000}, + /* Assert Rx Init for SGMII */ + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0x40000000, {NA, 0x40000000}, + 0, 0}, + /* Assert Rx Init for SATA */ + {ISOLATE_REG, 0x800, 0x400, {0x400, NA}, 0, 0}, + /* Wait for PHY power up sequence to finish */ + {COMMON_PHY_STATUS1_REG, 0x28, 0x1, {0x1, 0x1}, 1, 1000}, + /* De-assert Rx Init for SGMII */ + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0x40000000, {NA, 0x0}, 0, 0}, + /* De-assert Rx Init for SATA */ + {ISOLATE_REG, 0x800, 0x400, {0x0, NA}, 0, 0}, + /* os_ph_offset_force (align 90) */ + {RX_REG3, 0x800, 0xff, {0xde, NO_DATA}, 0, 0}, + /* Set os_ph_valid */ + {RX_REG3, 0x800, 0x100, {0x100, NO_DATA}, 0, 0}, + /* Unset os_ph_valid */ + {RX_REG3, 0x800, 0x100, {0x0, NO_DATA}, 0, 0}, +}; + +struct op_params sata_electrical_config_serdes_rev1_params[] = { + /* + * unit_base_reg, unit_offset, mask, SATA data, wait_time, + * num_of_loops + */ + /* enable SSC and DFE update enable */ + {COMMON_PHY_CONFIGURATION4_REG, 0x28, 0x400008, {0x400000,}, 0, 0}, + /* tximpcal_th and rximpcal_th */ + {VTHIMPCAL_CTRL_REG, 0x800, 0xff00, {0x4000,}, 0, 0}, + /* SQ_THRESH and FFE Setting */ + {SQUELCH_FFE_SETTING_REG, 0x800, 0xfff, {0x6cf,}, 0, 0}, + /* G1_TX SLEW, EMPH1 and AMP */ + {G1_SETTINGS_0_REG, 0x800, 0xffff, {0x8a32,}, 0, 0}, + /* G1_RX SELMUFF, SELMUFI, SELMUPF and SELMUPI */ + {G1_SETTINGS_1_REG, 0x800, 0x3ff, {0x3c9,}, 0, 0}, + /* G2_TX SLEW, EMPH1 and AMP */ + {G2_SETTINGS_0_REG, 0x800, 0xffff, {0x8b5c,}, 0, 0}, + /* G2_RX SELMUFF, SELMUFI, SELMUPF and SELMUPI */ + {G2_SETTINGS_1_REG, 0x800, 0x3ff, {0x3d2,}, 0, 0}, + /* G3_TX SLEW, EMPH1 and AMP */ + {G3_SETTINGS_0_REG, 0x800, 0xffff, {0xe6e,}, 0, 0}, + /* G3_RX SELMUFF, SELMUFI, SELMUPF and SELMUPI */ + {G3_SETTINGS_1_REG, 0x800, 0x3ff, {0x3d2,}, 0, 0}, + /* Cal rxclkalign90 ext enable and Cal os ph ext */ + {CAL_REG6, 0x800, 0xff00, {0xdd00,}, 0, 0}, + /* Dtl Clamping disable and Dtl clamping Sel(6000ppm) */ + {RX_REG2, 0x800, 0xf0, {0x70,}, 0, 0}, +}; + +struct op_params sata_electrical_config_serdes_rev2_params[] = { + /* + * unit_base_reg, unit_offset, mask, SATA data, wait_time, + * num_of_loops + */ + /* SQ_THRESH and FFE Setting */ + {SQUELCH_FFE_SETTING_REG, 0x800, 0xf00, {0x600}, 0, 0}, + /* enable SSC and DFE update enable */ + {COMMON_PHY_CONFIGURATION4_REG, 0x28, 0x400008, {0x400000}, 0, 0}, + /* G1_TX SLEW, EMPH1 and AMP */ + {G1_SETTINGS_0_REG, 0x800, 0xffff, {0x8a32}, 0, 0}, + /* G1_RX SELMUFF, SELMUFI, SELMUPF and SELMUPI */ + {G1_SETTINGS_1_REG, 0x800, 0x3ff, {0x3c9}, 0, 0}, + /* G2_TX SLEW, EMPH1 and AMP */ + {G2_SETTINGS_0_REG, 0x800, 0xffff, {0x8b5c}, 0, 0}, + /* G2_RX SELMUFF, SELMUFI, SELMUPF and SELMUPI */ + {G2_SETTINGS_1_REG, 0x800, 0x3ff, {0x3d2}, 0, 0}, + /* G3_TX SLEW, EMPH1 and AMP */ + {G3_SETTINGS_0_REG, 0x800, 0xffff, {0xe6e}, 0, 0}, + /* + * G3_RX SELMUFF, SELMUFI, SELMUPF and SELMUPI & DFE_En Gen3, + * DC wander calibration dis + */ + {G3_SETTINGS_1_REG, 0x800, 0x47ff, {0x7d2}, 0, 0}, + /* Bit[12]=0x0 idle_sync_en */ + {PCIE_REG0, 0x800, 0x1000, {0x0}, 0, 0}, + /* Dtl Clamping disable and Dtl clamping Sel(6000ppm) */ + {RX_REG2, 0x800, 0xf0, {0x70,}, 0, 0}, + /* tximpcal_th and rximpcal_th */ + {VTHIMPCAL_CTRL_REG, 0x800, 0xff00, {0x3000}, 0, 0}, + /* DFE_STEP_FINE_FX[3:0] =0xa */ + {DFE_REG0, 0x800, 0xa00f, {0x800a}, 0, 0}, + /* DFE_EN and Dis Update control from pin disable */ + {DFE_REG3, 0x800, 0xc000, {0x0}, 0, 0}, + /* FFE Force FFE_REs and cap settings for Gen1 */ + {G1_SETTINGS_3_REG, 0x800, 0xff, {0xcf}, 0, 0}, + /* FFE Force FFE_REs and cap settings for Gen2 */ + {G2_SETTINGS_3_REG, 0x800, 0xff, {0xbf}, 0, 0}, + /* FE Force FFE_REs=4 and cap settings for Gen3n */ + {G3_SETTINGS_3_REG, 0x800, 0xff, {0xcf}, 0, 0}, + /* Set DFE Gen 3 Resolution to 3 */ + {G3_SETTINGS_4_REG, 0x800, 0x300, {0x300}, 0, 0}, +}; + +struct op_params sgmii_electrical_config_serdes_rev1_params[] = { + /* + * unit_base_reg, unit_offset, mask, SGMII (1.25G), SGMII (3.125G), + * wait_time, num_of_loops + */ + /* G1_RX SELMUFF, SELMUFI, SELMUPF and SELMUPI */ + {G1_SETTINGS_1_REG, 0x800, 0x3ff, {0x3c9, 0x3c9}, 0, 0}, + /* SQ_THRESH and FFE Setting */ + {SQUELCH_FFE_SETTING_REG, 0x800, 0xfff, {0x8f, 0xbf}, 0, 0}, + /* tximpcal_th and rximpcal_th */ + {VTHIMPCAL_CTRL_REG, 0x800, 0xff00, {0x4000, 0x4000}, 0, 0}, +}; + +struct op_params sgmii_electrical_config_serdes_rev2_params[] = { + /* + * unit_base_reg, unit_offset, mask, SGMII (1.25G), SGMII (3.125G), + * wait_time, num_of_loops + */ + /* Set Slew_rate, Emph and Amp */ + {G1_SETTINGS_0_REG, 0x800, 0xffff, {0x8fa, 0x8fa}, 0, 0}, + /* G1_RX SELMUFF, SELMUFI, SELMUPF and SELMUPI */ + {G1_SETTINGS_1_REG, 0x800, 0x3ff, {0x3c9, 0x3c9}, 0, 0}, + /* DTL_FLOOP_EN */ + {RX_REG2, 0x800, 0x4, {0x0, 0x0}, 0, 0}, + /* G1 FFE Setting Force, RES and CAP */ + {G1_SETTINGS_3_REG, 0x800, 0xff, {0x8f, 0xbf}, 0, 0}, + /* tximpcal_th and rximpcal_th */ + {VTHIMPCAL_CTRL_REG, 0x800, 0xff00, {0x3000, 0x3000}, 0, 0}, +}; + +/* + * PEX and USB3 + */ + +/* PEX and USB3 - power up seq for Serdes Rev 1.2 */ +struct op_params pex_and_usb3_power_up_serdes_rev1_params[] = { + /* + * unit_base_reg, unit_offset, mask, PEX data, USB3 data, + * wait_time, num_of_loops + */ + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0x3fc7f806, + {0x4471804, 0x4479804}, 0, 0}, + {COMMON_PHY_CONFIGURATION2_REG, 0x28, 0x5c, {0x58, 0x58}, 0, 0}, + {COMMON_PHY_CONFIGURATION4_REG, 0x28, 0x3, {0x1, 0x1}, 0, 0}, + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0x7800, {0x6000, 0xe000}, 0, 0}, + {GLOBAL_CLK_CTRL, 0x800, 0xd, {0x5, 0x1}, 0, 0}, + /* Ref clock source select */ + {MISC_REG, 0x800, 0x4c0, {0x80, 0x4c0}, 0, 0} +}; + +/* PEX and USB3 - power up seq for Serdes Rev 2.1 */ +struct op_params pex_and_usb3_power_up_serdes_rev2_params[] = { + /* + * unit_base_reg, unit_offset, mask, PEX data, USB3 data, + * wait_time, num_of_loops + */ + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0x3fc7f806, + {0x4471804, 0x4479804}, 0, 0}, + {COMMON_PHY_CONFIGURATION2_REG, 0x28, 0x5c, {0x58, 0x58}, 0, 0}, + {COMMON_PHY_CONFIGURATION4_REG, 0x28, 0x3, {0x1, 0x1}, 0, 0}, + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0x7800, {0x6000, 0xe000}, 0, 0}, + {GLOBAL_CLK_CTRL, 0x800, 0xd, {0x5, 0x1}, 0, 0}, + {GLOBAL_MISC_CTRL, 0x800, 0xc0, {0x0, NO_DATA}, 0, 0}, + /* Ref clock source select */ + {MISC_REG, 0x800, 0x4c0, {0x80, 0x4c0}, 0, 0} +}; + +/* PEX and USB3 - speed config seq */ +struct op_params pex_and_usb3_speed_config_params[] = { + /* + * unit_base_reg, unit_offset, mask, PEX data, USB3 data, + * wait_time, num_of_loops + */ + /* Maximal PHY Generation Setting */ + {INTERFACE_REG, 0x800, 0xc00, {0x400, 0x400, 0x400, 0x400, 0x400}, + 0, 0}, +}; + +struct op_params usb3_electrical_config_serdes_rev1_params[] = { + /* Spread Spectrum Clock Enable */ + {LANE_CFG4_REG, 0x800, 0x80, {0x80}, 0, 0}, + /* G2_TX_SSC_AMP[6:0]=4.5k_p_pM and TX emphasis mode=m_v */ + {G2_SETTINGS_2_REG, 0x800, 0xfe40, {0x4440}, 0, 0}, + /* tximpcal_th and rximpcal_th */ + {VTHIMPCAL_CTRL_REG, 0x800, 0xff00, {0x4000}, 0, 0}, + /* G2_RX SELMUFF, SELMUFI, SELMUPF and SELMUPI */ + {G2_SETTINGS_1_REG, 0x800, 0x3ff, {0x3d2}, 0, 0}, + /* FFE Setting Force, RES and CAP */ + {SQUELCH_FFE_SETTING_REG, 0x800, 0xff, {0xef}, 0, 0}, + /* Dtl Clamping disable and Dtl-clamping-Sel(6000ppm) */ + {RX_REG2, 0x800, 0xf0, {0x70}, 0, 0}, + /* cal_rxclkalign90_ext_en and cal_os_ph_ext */ + {CAL_REG6, 0x800, 0xff00, {0xd500}, 0, 0}, + /* vco_cal_vth_sel */ + {REF_REG0, 0x800, 0x38, {0x20}, 0, 0}, +}; + +struct op_params usb3_electrical_config_serdes_rev2_params[] = { + /* Spread Spectrum Clock Enable */ + {LANE_CFG4_REG, 0x800, 0x80, {0x80}, 0, 0}, + /* G2_TX_SSC_AMP[6:0]=4.5k_p_pM and TX emphasis mode=m_v */ + {G2_SETTINGS_2_REG, 0x800, 0xfe40, {0x4440}, 0, 0}, + /* G2_RX SELMUFF, SELMUFI, SELMUPF and SELMUPI */ + {G2_SETTINGS_1_REG, 0x800, 0x3ff, {0x3d2}, 0, 0}, + /* Dtl Clamping disable and Dtl-clamping-Sel(6000ppm) */ + {RX_REG2, 0x800, 0xf0, {0x70}, 0, 0}, + /* vco_cal_vth_sel */ + {REF_REG0, 0x800, 0x38, {0x20}, 0, 0}, + /* Spread Spectrum Clock Enable */ + {LANE_CFG5_REG, 0x800, 0x4, {0x4}, 0, 0}, +}; + +/* PEX and USB3 - TX config seq */ + +/* + * For PEXx1: the pex_and_usb3_tx_config_params1/2/3 configurations should run + * one by one on the lane. + * For PEXx4: the pex_and_usb3_tx_config_params1/2/3 configurations should run + * by setting each sequence for all 4 lanes. + */ +struct op_params pex_and_usb3_tx_config_params1[] = { + /* + * unit_base_reg, unit_offset, mask, PEX data, USB3 data, + * wait_time, num_of_loops + */ + {GLOBAL_CLK_CTRL, 0x800, 0x1, {0x0, 0x0}, 0, 0}, + /* 10ms delay */ + {0x0, 0x0, 0x0, {0x0, 0x0}, 10, 0}, + /* os_ph_offset_force (align 90) */ + {RX_REG3, 0x800, 0xff, {0xdc, NO_DATA}, 0, 0}, + /* Set os_ph_valid */ + {RX_REG3, 0x800, 0x100, {0x100, NO_DATA}, 0, 0}, + /* Unset os_ph_valid */ + {RX_REG3, 0x800, 0x100, {0x0, NO_DATA}, 0, 0}, +}; + +struct op_params pex_and_usb3_tx_config_params2[] = { + /* + * unit_base_reg, unit_offset, mask, PEX data, USB3 data, + * wait_time, num_of_loops + */ + /* Sft Reset pulse */ + {RESET_DFE_REG, 0x800, 0x401, {0x401, 0x401}, 0, 0}, +}; + +struct op_params pex_and_usb3_tx_config_params3[] = { + /* + * unit_base_reg, unit_offset, mask, PEX data, USB3 data, + * wait_time, num_of_loops + */ + /* Sft Reset pulse */ + {RESET_DFE_REG, 0x800, 0x401, {0x0, 0x0}, 0, 0}, + /* 10ms delay */ + {0x0, 0x0, 0x0, {0x0, 0x0}, 10, 0} +}; + +/* PEX by 4 config seq */ +struct op_params pex_by4_config_params[] = { + /* unit_base_reg, unit_offset, mask, data, wait_time, num_of_loops */ + {GLOBAL_CLK_SRC_HI, 0x800, 0x7, {0x5, 0x0, 0x0, 0x2}, 0, 0}, + /* Lane Alignement enable */ + {LANE_ALIGN_REG0, 0x800, 0x1000, {0x0, 0x0, 0x0, 0x0}, 0, 0}, + /* Max PLL phy config */ + {CALIBRATION_CTRL_REG, 0x800, 0x1000, {0x1000, 0x1000, 0x1000, 0x1000}, + 0, 0}, + /* Max PLL pipe config */ + {LANE_CFG1_REG, 0x800, 0x600, {0x600, 0x600, 0x600, 0x600}, 0, 0}, +}; + +/* USB3 device donfig seq */ +struct op_params usb3_device_config_params[] = { + /* unit_base_reg, unit_offset, mask, data, wait_time, num_of_loops */ + {LANE_CFG4_REG, 0x800, 0x200, {0x200}, 0, 0} +}; + +/* PEX - electrical configuration seq Rev 1.2 */ +struct op_params pex_electrical_config_serdes_rev1_params[] = { + /* + * unit_base_reg, unit_offset, mask, PEX data, wait_time, + * num_of_loops + */ + /* G1_TX_SLEW_CTRL_EN and G1_TX_SLEW_RATE */ + {G1_SETTINGS_0_REG, 0x800, 0xf000, {0xb000}, 0, 0}, + /* G1_RX SELMUFF, SELMUFI, SELMUPF and SELMUPI */ + {G1_SETTINGS_1_REG, 0x800, 0x3ff, {0x3c9}, 0, 0}, + /* G2_RX SELMUFF, SELMUFI, SELMUPF and SELMUPI */ + {G2_SETTINGS_1_REG, 0x800, 0x3ff, {0x3c9}, 0, 0}, + /* CFG_DFE_EN_SEL */ + {LANE_CFG4_REG, 0x800, 0x8, {0x8}, 0, 0}, + /* FFE Setting Force, RES and CAP */ + {SQUELCH_FFE_SETTING_REG, 0x800, 0xff, {0xaf}, 0, 0}, + /* tximpcal_th and rximpcal_th */ + {VTHIMPCAL_CTRL_REG, 0x800, 0xff00, {0x3000}, 0, 0}, + /* cal_rxclkalign90_ext_en and cal_os_ph_ext */ + {CAL_REG6, 0x800, 0xff00, {0xdc00}, 0, 0}, +}; + +/* PEX - electrical configuration seq Rev 2.1 */ +struct op_params pex_electrical_config_serdes_rev2_params[] = { + /* + * unit_base_reg, unit_offset, mask, PEX data, wait_time, + * num_of_loops + */ + /* G1_TX_SLEW_CTRL_EN and G1_TX_SLEW_RATE */ + {G1_SETTINGS_0_REG, 0x800, 0xf000, {0xb000}, 0, 0}, + /* G1_RX SELMUFF, SELMUFI, SELMUPF and SELMUPI */ + {G1_SETTINGS_1_REG, 0x800, 0x3ff, {0x3c9}, 0, 0}, + /* G1 FFE Setting Force, RES and CAP */ + {G1_SETTINGS_3_REG, 0x800, 0xff, {0xcf}, 0, 0}, + /* G2_RX SELMUFF, SELMUFI, SELMUPF and SELMUPI */ + {G2_SETTINGS_1_REG, 0x800, 0x3ff, {0x3c9}, 0, 0}, + /* G2 FFE Setting Force, RES and CAP */ + {G2_SETTINGS_3_REG, 0x800, 0xff, {0xaf}, 0, 0}, + /* G2 DFE resolution value */ + {G2_SETTINGS_4_REG, 0x800, 0x300, {0x300}, 0, 0}, + /* DFE resolution force */ + {DFE_REG0, 0x800, 0x8000, {0x8000}, 0, 0}, + /* Tx amplitude for Tx Margin 0 */ + {PCIE_REG1, 0x800, 0xf80, {0xd00}, 0, 0}, + /* Tx_Emph value for -3.5d_b and -6d_b */ + {PCIE_REG3, 0x800, 0xff00, {0xaf00}, 0, 0}, + /* CFG_DFE_EN_SEL */ + {LANE_CFG4_REG, 0x800, 0x8, {0x8}, 0, 0}, + /* tximpcal_th and rximpcal_th */ + {VTHIMPCAL_CTRL_REG, 0x800, 0xff00, {0x3000}, 0, 0}, +}; + +/* PEX - configuration seq for REF_CLOCK_25MHz */ +struct op_params pex_config_ref_clock25_m_hz[] = { + /* + * unit_base_reg, unit_offset, mask, PEX data, wait_time, + * num_of_loops + */ + /* Bits[4:0]=0x2 - REF_FREF_SEL */ + {POWER_AND_PLL_CTRL_REG, 0x800, 0x1f, {0x2}, 0, 0}, + /* Bit[10]=0x1 - REFCLK_SEL */ + {MISC_REG, 0x800, 0x400, {0x400}, 0, 0}, + /* Bits[7:0]=0x7 - CFG_PM_RXDLOZ_WAIT */ + {GLOBAL_PM_CTRL, 0x800, 0xff, {0x7}, 0, 0}, +}; + +/* PEX - configuration seq for REF_CLOCK_40MHz */ +struct op_params pex_config_ref_clock40_m_hz[] = { + /* + * unit_base_reg, unit_offset, mask, PEX data, wait_time, + * num_of_loops + */ + /* Bits[4:0]=0x3 - REF_FREF_SEL */ + {POWER_AND_PLL_CTRL_REG, 0x800, 0x1f, {0x3}, 0, 0}, + /* Bits[10]=0x1 - REFCLK_SEL */ + {MISC_REG, 0x800, 0x400, {0x400}, 0, 0}, + /* Bits[7:0]=0xc - CFG_PM_RXDLOZ_WAIT */ + {GLOBAL_PM_CTRL, 0x800, 0xff, {0xc}, 0, 0}, +}; + +/* PEX - configuration seq for REF_CLOCK_100MHz */ +struct op_params pex_config_ref_clock100_m_hz[] = { + /* + * unit_base_reg, unit_offset, mask, PEX data, wait_time, + * num_of_loops + */ + /* Bits[4:0]=0x0 - REF_FREF_SEL */ + {POWER_AND_PLL_CTRL_REG, 0x800, 0x1f, {0x0}, 0, 0}, + /* Bit[10]=0x0 - REFCLK_SEL */ + {MISC_REG, 0x800, 0x400, {0x0}, 0, 0}, + /* Bits[7:0]=0x1e - CFG_PM_RXDLOZ_WAIT */ + {GLOBAL_PM_CTRL, 0x800, 0xff, {0x1e}, 0, 0}, +}; + +/* + * USB2 + */ + +struct op_params usb2_power_up_params[] = { + /* + * unit_base_reg, unit_offset, mask, USB2 data, wait_time, + * num_of_loops + */ + /* Init phy 0 */ + {0x18440, 0x0 /*NA*/, 0xffffffff, {0x62}, 0, 0}, + /* Init phy 1 */ + {0x18444, 0x0 /*NA*/, 0xffffffff, {0x62}, 0, 0}, + /* Init phy 2 */ + {0x18448, 0x0 /*NA*/, 0xffffffff, {0x62}, 0, 0}, + /* Phy offset 0x0 - PLL_CONTROL0 */ + {0xc0000, 0x0 /*NA*/, 0xffffffff, {0x40605205}, 0, 0}, + {0xc001c, 0x0 /*NA*/, 0xffffffff, {0x39f16ce}, 0, 0}, + {0xc201c, 0x0 /*NA*/, 0xffffffff, {0x39f16ce}, 0, 0}, + {0xc401c, 0x0 /*NA*/, 0xffffffff, {0x39f16ce}, 0, 0}, + /* Phy offset 0x1 - PLL_CONTROL1 */ + {0xc0004, 0x0 /*NA*/, 0x1, {0x1}, 0, 0}, + /* Phy0 register 3 - TX Channel control 0 */ + {0xc000c, 0x0 /*NA*/, 0x1000000, {0x1000000}, 0, 0}, + /* Phy0 register 3 - TX Channel control 0 */ + {0xc200c, 0x0 /*NA*/, 0x1000000, {0x1000000}, 0, 0}, + /* Phy0 register 3 - TX Channel control 0 */ + {0xc400c, 0x0 /*NA*/, 0x1000000, {0x1000000}, 0, 0}, + /* check PLLCAL_DONE is set and IMPCAL_DONE is set */ + {0xc0008, 0x0 /*NA*/, 0x80800000, {0x80800000}, 1, 1000}, + /* check REG_SQCAL_DONE is set */ + {0xc0018, 0x0 /*NA*/, 0x80000000, {0x80000000}, 1, 1000}, + /* check PLL_READY is set */ + {0xc0000, 0x0 /*NA*/, 0x80000000, {0x80000000}, 1, 1000} +}; + +/* + * QSGMII + */ + +/* QSGMII - power up seq */ +struct op_params qsgmii_port_power_up_params[] = { + /* + * unit_base_reg, unit_offset, mask, QSGMII data, wait_time, + * num_of_loops + */ + /* Connect the QSGMII to Gigabit Ethernet units */ + {QSGMII_CONTROL_REG1, 0x0, 0x40000000, {0x40000000}, 0, 0}, + /* Power Up */ + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0xf0006, {0x80002}, 0, 0}, + /* Unreset */ + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0x7800, {0x6000}, 0, 0}, + /* Phy Selector */ + {POWER_AND_PLL_CTRL_REG, 0x800, 0xff, {0xfc81}, 0, 0}, + /* Ref clock source select */ + {MISC_REG, 0x800, 0x4c0, {0x480}, 0, 0} +}; + +/* QSGMII - speed config seq */ +struct op_params qsgmii_port_speed_config_params[] = { + /* + * unit_base_reg, unit_offset, mask, QSGMII data, wait_time, + * num_of_loops + */ + /* Baud Rate */ + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0x3fc00000, {0xcc00000}, 0, 0}, + /* Phy Gen RX and TX */ + {ISOLATE_REG, 0x800, 0xff, {0x33}, 0, 0}, + /* Bus Width */ + {LOOPBACK_REG, 0x800, 0xe, {0x2}, 0, 0} +}; + +/* QSGMII - Select electrical param seq */ +struct op_params qsgmii_port_electrical_config_params[] = { + /* + * unit_base_reg, unit_offset, mask, QSGMII data, wait_time, + * num_of_loops + */ + /* Slew rate and emphasis */ + {G1_SETTINGS_0_REG, 0x800, 0x8000, {0x0}, 0, 0} +}; + +/* QSGMII - TX config seq */ +struct op_params qsgmii_port_tx_config_params1[] = { + /* + * unit_base_reg, unit_offset, mask, QSGMII data, wait_time, + * num_of_loops + */ + {GLUE_REG, 0x800, 0x1800, {0x800}, 0, 0}, + /* Sft Reset pulse */ + {RESET_DFE_REG, 0x800, 0x401, {0x401}, 0, 0}, + /* Sft Reset pulse */ + {RESET_DFE_REG, 0x800, 0x401, {0x0}, 0, 0}, + /* Lane align */ + {LANE_ALIGN_REG0, 0x800, 0x1000, {0x1000}, 0, 0}, + /* Power up PLL, RX and TX */ + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0x70000, {0x70000}, 0, 0}, + /* Tx driver output idle */ + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0x80000, {0x80000}, 0, 0} +}; + +struct op_params qsgmii_port_tx_config_params2[] = { + /* + * unit_base_reg, unit_offset, mask, QSGMII data, wait_time, + * num_of_loops + */ + /* Wait for PHY power up sequence to finish */ + {COMMON_PHY_STATUS1_REG, 0x28, 0xc, {0xc}, 10, 1000}, + /* Assert Rx Init and Tx driver output valid */ + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0x40080000, {0x40000000}, 0, 0}, + /* Wait for PHY power up sequence to finish */ + {COMMON_PHY_STATUS1_REG, 0x28, 0x1, {0x1}, 1, 1000}, + /* De-assert Rx Init */ + {COMMON_PHY_CONFIGURATION1_REG, 0x28, 0x40000000, {0x0}, 0, 0} +}; + +/* SERDES_POWER_DOWN */ +struct op_params serdes_power_down_params[] = { + {COMMON_PHY_CONFIGURATION1_REG, 0x28, (0xf << 11), {(0x3 << 11)}, + 0, 0}, + {COMMON_PHY_CONFIGURATION1_REG, 0x28, (0x7 << 16), {0}, 0, 0} +}; + +/* + * hws_ctrl_serdes_rev_get + * + * DESCRIPTION: Get the Serdes revision number + * + * INPUT: config_field - Field description enum + * + * OUTPUT: None + * + * RETURN: + * 8bit Serdes revision number + */ +u8 hws_ctrl_serdes_rev_get(void) +{ +#ifdef CONFIG_ARMADA_38X + /* for A38x-Z1 */ + if (sys_env_device_rev_get() == MV_88F68XX_Z1_ID) + return MV_SERDES_REV_1_2; +#endif + + /* for A39x-Z1, A38x-A0 */ + return MV_SERDES_REV_2_1; +} + +u32 hws_serdes_topology_verify(enum serdes_type serdes_type, u32 serdes_id, + enum serdes_mode serdes_mode) +{ + u32 test_result = 0; + u8 serd_max_num, unit_numb; + enum unit_id unit_id; + + if (serdes_type > RXAUI) { + printf("%s: Warning: Wrong serdes type %s serdes#%d\n", + __func__, serdes_type_to_string[serdes_type], serdes_id); + return MV_FAIL; + } + + unit_id = serdes_type_to_unit_info[serdes_type].serdes_unit_id; + unit_numb = serdes_type_to_unit_info[serdes_type].serdes_unit_num; + serd_max_num = sys_env_unit_max_num_get(unit_id); + + /* if didn't exceed amount of required Serdes lanes for current type */ + if (serdes_lane_in_use_count[unit_id][unit_numb] != 0) { + /* update amount of required Serdes lanes for current type */ + serdes_lane_in_use_count[unit_id][unit_numb]--; + + /* + * If reached the exact amount of required Serdes lanes for + * current type + */ + if (serdes_lane_in_use_count[unit_id][unit_numb] == 0) { + if (((serdes_type <= PEX3)) && + ((serdes_mode == PEX_END_POINT_X4) || + (serdes_mode == PEX_ROOT_COMPLEX_X4))) { + /* PCiex4 uses 2 SerDes */ + serdes_unit_count[PEX_UNIT_ID] += 2; + } else { + serdes_unit_count[unit_id]++; + } + + /* test SoC unit count limitation */ + if (serdes_unit_count[unit_id] > serd_max_num) { + test_result = WRONG_NUMBER_OF_UNITS; + } else if (unit_numb >= serd_max_num) { + /* test SoC unit number limitation */ + test_result = UNIT_NUMBER_VIOLATION; + } + } + } else { + test_result = SERDES_ALREADY_IN_USE; + if (test_result == SERDES_ALREADY_IN_USE) { + printf("%s: Error: serdes lane %d is configured to type %s: type already in use\n", + __func__, serdes_id, + serdes_type_to_string[serdes_type]); + return MV_FAIL; + } else if (test_result == WRONG_NUMBER_OF_UNITS) { + printf("%s: Warning: serdes lane %d is set to type %s.\n", + __func__, serdes_id, + serdes_type_to_string[serdes_type]); + printf("%s: Maximum supported lanes are already set to this type (limit = %d)\n", + __func__, serd_max_num); + return MV_FAIL; + } else if (test_result == UNIT_NUMBER_VIOLATION) { + printf("%s: Warning: serdes lane %d type is %s: current device support only %d units of this type.\n", + __func__, serdes_id, + serdes_type_to_string[serdes_type], + serd_max_num); + return MV_FAIL; + } + } + + return MV_OK; +} + +void hws_serdes_xaui_topology_verify(void) +{ + /* + * If XAUI is in use - serdes_lane_in_use_count has to be = 0; + * if it is not in use hast be = 4 + */ + if ((serdes_lane_in_use_count[XAUI_UNIT_ID][0] != 0) && + (serdes_lane_in_use_count[XAUI_UNIT_ID][0] != 4)) { + printf("%s: Warning: wrong number of lanes is set to XAUI - %d\n", + __func__, serdes_lane_in_use_count[XAUI_UNIT_ID][0]); + printf("%s: XAUI has to be defined on 4 lanes\n", __func__); + } + + /* + * If RXAUI is in use - serdes_lane_in_use_count has to be = 0; + * if it is not in use hast be = 2 + */ + if ((serdes_lane_in_use_count[RXAUI_UNIT_ID][0] != 0) && + (serdes_lane_in_use_count[RXAUI_UNIT_ID][0] != 2)) { + printf("%s: Warning: wrong number of lanes is set to RXAUI - %d\n", + __func__, serdes_lane_in_use_count[RXAUI_UNIT_ID][0]); + printf("%s: RXAUI has to be defined on 2 lanes\n", __func__); + } +} + +int hws_serdes_seq_db_init(void) +{ + u8 serdes_rev = hws_ctrl_serdes_rev_get(); + + DEBUG_INIT_FULL_S("\n### serdes_seq38x_init ###\n"); + + if (serdes_rev == MV_SERDES_REV_NA) { + printf("hws_serdes_seq_db_init: serdes revision number is not supported\n"); + return MV_NOT_SUPPORTED; + } + + /* SATA_PORT_0_ONLY_POWER_UP_SEQ sequence init */ + serdes_seq_db[SATA_PORT_0_ONLY_POWER_UP_SEQ].op_params_ptr = + sata_port0_power_up_params; + serdes_seq_db[SATA_PORT_0_ONLY_POWER_UP_SEQ].cfg_seq_size = + sizeof(sata_port0_power_up_params) / sizeof(struct op_params); + serdes_seq_db[SATA_PORT_0_ONLY_POWER_UP_SEQ].data_arr_idx = SATA; + + /* SATA_PORT_1_ONLY_POWER_UP_SEQ sequence init */ + serdes_seq_db[SATA_PORT_1_ONLY_POWER_UP_SEQ].op_params_ptr = + sata_port1_power_up_params; + serdes_seq_db[SATA_PORT_1_ONLY_POWER_UP_SEQ].cfg_seq_size = + sizeof(sata_port1_power_up_params) / sizeof(struct op_params); + serdes_seq_db[SATA_PORT_1_ONLY_POWER_UP_SEQ].data_arr_idx = SATA; + + /* SATA_POWER_UP_SEQ sequence init */ + serdes_seq_db[SATA_POWER_UP_SEQ].op_params_ptr = + sata_and_sgmii_power_up_params; + serdes_seq_db[SATA_POWER_UP_SEQ].cfg_seq_size = + sizeof(sata_and_sgmii_power_up_params) / sizeof(struct op_params); + serdes_seq_db[SATA_POWER_UP_SEQ].data_arr_idx = SATA; + + /* SATA_1_5_SPEED_CONFIG_SEQ sequence init */ + serdes_seq_db[SATA_1_5_SPEED_CONFIG_SEQ].op_params_ptr = + sata_and_sgmii_speed_config_params; + serdes_seq_db[SATA_1_5_SPEED_CONFIG_SEQ].cfg_seq_size = + sizeof(sata_and_sgmii_speed_config_params) / + sizeof(struct op_params); + serdes_seq_db[SATA_1_5_SPEED_CONFIG_SEQ].data_arr_idx = SATA; + + /* SATA_3_SPEED_CONFIG_SEQ sequence init */ + serdes_seq_db[SATA_3_SPEED_CONFIG_SEQ].op_params_ptr = + sata_and_sgmii_speed_config_params; + serdes_seq_db[SATA_3_SPEED_CONFIG_SEQ].cfg_seq_size = + sizeof(sata_and_sgmii_speed_config_params) / + sizeof(struct op_params); + serdes_seq_db[SATA_3_SPEED_CONFIG_SEQ].data_arr_idx = SATA; + + /* SATA_6_SPEED_CONFIG_SEQ sequence init */ + serdes_seq_db[SATA_6_SPEED_CONFIG_SEQ].op_params_ptr = + sata_and_sgmii_speed_config_params; + serdes_seq_db[SATA_6_SPEED_CONFIG_SEQ].cfg_seq_size = + sizeof(sata_and_sgmii_speed_config_params) / + sizeof(struct op_params); + serdes_seq_db[SATA_6_SPEED_CONFIG_SEQ].data_arr_idx = SATA; + + /* SATA_ELECTRICAL_CONFIG_SEQ seq sequence init */ + if (serdes_rev == MV_SERDES_REV_1_2) { + serdes_seq_db[SATA_ELECTRICAL_CONFIG_SEQ].op_params_ptr = + sata_electrical_config_serdes_rev1_params; + serdes_seq_db[SATA_ELECTRICAL_CONFIG_SEQ].cfg_seq_size = + sizeof(sata_electrical_config_serdes_rev1_params) / + sizeof(struct op_params); + } else { + serdes_seq_db[SATA_ELECTRICAL_CONFIG_SEQ].op_params_ptr = + sata_electrical_config_serdes_rev2_params; + serdes_seq_db[SATA_ELECTRICAL_CONFIG_SEQ].cfg_seq_size = + sizeof(sata_electrical_config_serdes_rev2_params) / + sizeof(struct op_params); + } + serdes_seq_db[SATA_ELECTRICAL_CONFIG_SEQ].data_arr_idx = SATA; + + /* SATA_TX_CONFIG_SEQ sequence init */ + serdes_seq_db[SATA_TX_CONFIG_SEQ1].op_params_ptr = + sata_and_sgmii_tx_config_params1; + serdes_seq_db[SATA_TX_CONFIG_SEQ1].cfg_seq_size = + sizeof(sata_and_sgmii_tx_config_params1) / sizeof(struct op_params); + serdes_seq_db[SATA_TX_CONFIG_SEQ1].data_arr_idx = SATA; + + /* SATA_PORT_0_ONLY_TX_CONFIG_SEQ sequence init */ + serdes_seq_db[SATA_PORT_0_ONLY_TX_CONFIG_SEQ].op_params_ptr = + sata_port0_tx_config_params; + serdes_seq_db[SATA_PORT_0_ONLY_TX_CONFIG_SEQ].cfg_seq_size = + sizeof(sata_port0_tx_config_params) / sizeof(struct op_params); + serdes_seq_db[SATA_PORT_0_ONLY_TX_CONFIG_SEQ].data_arr_idx = SATA; + + /* SATA_PORT_1_ONLY_TX_CONFIG_SEQ sequence init */ + serdes_seq_db[SATA_PORT_1_ONLY_TX_CONFIG_SEQ].op_params_ptr = + sata_port1_tx_config_params; + serdes_seq_db[SATA_PORT_1_ONLY_TX_CONFIG_SEQ].cfg_seq_size = + sizeof(sata_port1_tx_config_params) / sizeof(struct op_params); + serdes_seq_db[SATA_PORT_1_ONLY_TX_CONFIG_SEQ].data_arr_idx = SATA; + + /* SATA_TX_CONFIG_SEQ2 sequence init */ + if (serdes_rev == MV_SERDES_REV_1_2) { + serdes_seq_db[SATA_TX_CONFIG_SEQ2].op_params_ptr = + sata_and_sgmii_tx_config_serdes_rev1_params2; + serdes_seq_db[SATA_TX_CONFIG_SEQ2].cfg_seq_size = + sizeof(sata_and_sgmii_tx_config_serdes_rev1_params2) / + sizeof(struct op_params); + } else { + serdes_seq_db[SATA_TX_CONFIG_SEQ2].op_params_ptr = + sata_and_sgmii_tx_config_serdes_rev2_params2; + serdes_seq_db[SATA_TX_CONFIG_SEQ2].cfg_seq_size = + sizeof(sata_and_sgmii_tx_config_serdes_rev2_params2) / + sizeof(struct op_params); + } + serdes_seq_db[SATA_TX_CONFIG_SEQ2].data_arr_idx = SATA; + + /* SGMII_POWER_UP_SEQ sequence init */ + serdes_seq_db[SGMII_POWER_UP_SEQ].op_params_ptr = + sata_and_sgmii_power_up_params; + serdes_seq_db[SGMII_POWER_UP_SEQ].cfg_seq_size = + sizeof(sata_and_sgmii_power_up_params) / sizeof(struct op_params); + serdes_seq_db[SGMII_POWER_UP_SEQ].data_arr_idx = SGMII; + + /* SGMII_1_25_SPEED_CONFIG_SEQ sequence init */ + serdes_seq_db[SGMII_1_25_SPEED_CONFIG_SEQ].op_params_ptr = + sata_and_sgmii_speed_config_params; + serdes_seq_db[SGMII_1_25_SPEED_CONFIG_SEQ].cfg_seq_size = + sizeof(sata_and_sgmii_speed_config_params) / + sizeof(struct op_params); + serdes_seq_db[SGMII_1_25_SPEED_CONFIG_SEQ].data_arr_idx = SGMII; + + /* SGMII_3_125_SPEED_CONFIG_SEQ sequence init */ + serdes_seq_db[SGMII_3_125_SPEED_CONFIG_SEQ].op_params_ptr = + sata_and_sgmii_speed_config_params; + serdes_seq_db[SGMII_3_125_SPEED_CONFIG_SEQ].cfg_seq_size = + sizeof(sata_and_sgmii_speed_config_params) / + sizeof(struct op_params); + serdes_seq_db[SGMII_3_125_SPEED_CONFIG_SEQ].data_arr_idx = SGMII_3_125; + + /* SGMII_ELECTRICAL_CONFIG_SEQ seq sequence init */ + if (serdes_rev == MV_SERDES_REV_1_2) { + serdes_seq_db[SGMII_ELECTRICAL_CONFIG_SEQ].op_params_ptr = + sgmii_electrical_config_serdes_rev1_params; + serdes_seq_db[SGMII_ELECTRICAL_CONFIG_SEQ].cfg_seq_size = + sizeof(sgmii_electrical_config_serdes_rev1_params) / + sizeof(struct op_params); + } else { + serdes_seq_db[SGMII_ELECTRICAL_CONFIG_SEQ].op_params_ptr = + sgmii_electrical_config_serdes_rev2_params; + serdes_seq_db[SGMII_ELECTRICAL_CONFIG_SEQ].cfg_seq_size = + sizeof(sgmii_electrical_config_serdes_rev2_params) / + sizeof(struct op_params); + } + serdes_seq_db[SGMII_ELECTRICAL_CONFIG_SEQ].data_arr_idx = SGMII; + + /* SGMII_TX_CONFIG_SEQ sequence init */ + serdes_seq_db[SGMII_TX_CONFIG_SEQ1].op_params_ptr = + sata_and_sgmii_tx_config_params1; + serdes_seq_db[SGMII_TX_CONFIG_SEQ1].cfg_seq_size = + sizeof(sata_and_sgmii_tx_config_params1) / sizeof(struct op_params); + serdes_seq_db[SGMII_TX_CONFIG_SEQ1].data_arr_idx = SGMII; + + /* SGMII_TX_CONFIG_SEQ sequence init */ + if (serdes_rev == MV_SERDES_REV_1_2) { + serdes_seq_db[SGMII_TX_CONFIG_SEQ2].op_params_ptr = + sata_and_sgmii_tx_config_serdes_rev1_params2; + serdes_seq_db[SGMII_TX_CONFIG_SEQ2].cfg_seq_size = + sizeof(sata_and_sgmii_tx_config_serdes_rev1_params2) / + sizeof(struct op_params); + } else { + serdes_seq_db[SGMII_TX_CONFIG_SEQ2].op_params_ptr = + sata_and_sgmii_tx_config_serdes_rev2_params2; + serdes_seq_db[SGMII_TX_CONFIG_SEQ2].cfg_seq_size = + sizeof(sata_and_sgmii_tx_config_serdes_rev2_params2) / + sizeof(struct op_params); + } + serdes_seq_db[SGMII_TX_CONFIG_SEQ2].data_arr_idx = SGMII; + + /* PEX_POWER_UP_SEQ sequence init */ + if (serdes_rev == MV_SERDES_REV_1_2) { + serdes_seq_db[PEX_POWER_UP_SEQ].op_params_ptr = + pex_and_usb3_power_up_serdes_rev1_params; + serdes_seq_db[PEX_POWER_UP_SEQ].cfg_seq_size = + sizeof(pex_and_usb3_power_up_serdes_rev1_params) / + sizeof(struct op_params); + } else { + serdes_seq_db[PEX_POWER_UP_SEQ].op_params_ptr = + pex_and_usb3_power_up_serdes_rev2_params; + serdes_seq_db[PEX_POWER_UP_SEQ].cfg_seq_size = + sizeof(pex_and_usb3_power_up_serdes_rev2_params) / + sizeof(struct op_params); + } + serdes_seq_db[PEX_POWER_UP_SEQ].data_arr_idx = PEX; + + /* PEX_2_5_SPEED_CONFIG_SEQ sequence init */ + serdes_seq_db[PEX_2_5_SPEED_CONFIG_SEQ].op_params_ptr = + pex_and_usb3_speed_config_params; + serdes_seq_db[PEX_2_5_SPEED_CONFIG_SEQ].cfg_seq_size = + sizeof(pex_and_usb3_speed_config_params) / sizeof(struct op_params); + serdes_seq_db[PEX_2_5_SPEED_CONFIG_SEQ].data_arr_idx = + PEXSERDES_SPEED_2_5_GBPS; + + /* PEX_5_SPEED_CONFIG_SEQ sequence init */ + serdes_seq_db[PEX_5_SPEED_CONFIG_SEQ].op_params_ptr = + pex_and_usb3_speed_config_params; + serdes_seq_db[PEX_5_SPEED_CONFIG_SEQ].cfg_seq_size = + sizeof(pex_and_usb3_speed_config_params) / sizeof(struct op_params); + serdes_seq_db[PEX_5_SPEED_CONFIG_SEQ].data_arr_idx = + PEXSERDES_SPEED_5_GBPS; + + /* PEX_ELECTRICAL_CONFIG_SEQ seq sequence init */ + if (serdes_rev == MV_SERDES_REV_1_2) { + serdes_seq_db[PEX_ELECTRICAL_CONFIG_SEQ].op_params_ptr = + pex_electrical_config_serdes_rev1_params; + serdes_seq_db[PEX_ELECTRICAL_CONFIG_SEQ].cfg_seq_size = + sizeof(pex_electrical_config_serdes_rev1_params) / + sizeof(struct op_params); + } else { + serdes_seq_db[PEX_ELECTRICAL_CONFIG_SEQ].op_params_ptr = + pex_electrical_config_serdes_rev2_params; + serdes_seq_db[PEX_ELECTRICAL_CONFIG_SEQ].cfg_seq_size = + sizeof(pex_electrical_config_serdes_rev2_params) / + sizeof(struct op_params); + } + serdes_seq_db[PEX_ELECTRICAL_CONFIG_SEQ].data_arr_idx = PEX; + + /* PEX_TX_CONFIG_SEQ1 sequence init */ + serdes_seq_db[PEX_TX_CONFIG_SEQ1].op_params_ptr = + pex_and_usb3_tx_config_params1; + serdes_seq_db[PEX_TX_CONFIG_SEQ1].cfg_seq_size = + sizeof(pex_and_usb3_tx_config_params1) / sizeof(struct op_params); + serdes_seq_db[PEX_TX_CONFIG_SEQ1].data_arr_idx = PEX; + + /* PEX_TX_CONFIG_SEQ2 sequence init */ + serdes_seq_db[PEX_TX_CONFIG_SEQ2].op_params_ptr = + pex_and_usb3_tx_config_params2; + serdes_seq_db[PEX_TX_CONFIG_SEQ2].cfg_seq_size = + sizeof(pex_and_usb3_tx_config_params2) / sizeof(struct op_params); + serdes_seq_db[PEX_TX_CONFIG_SEQ2].data_arr_idx = PEX; + + /* PEX_TX_CONFIG_SEQ3 sequence init */ + serdes_seq_db[PEX_TX_CONFIG_SEQ3].op_params_ptr = + pex_and_usb3_tx_config_params3; + serdes_seq_db[PEX_TX_CONFIG_SEQ3].cfg_seq_size = + sizeof(pex_and_usb3_tx_config_params3) / sizeof(struct op_params); + serdes_seq_db[PEX_TX_CONFIG_SEQ3].data_arr_idx = PEX; + + /* PEX_BY_4_CONFIG_SEQ sequence init */ + serdes_seq_db[PEX_BY_4_CONFIG_SEQ].op_params_ptr = + pex_by4_config_params; + serdes_seq_db[PEX_BY_4_CONFIG_SEQ].cfg_seq_size = + sizeof(pex_by4_config_params) / sizeof(struct op_params); + serdes_seq_db[PEX_BY_4_CONFIG_SEQ].data_arr_idx = PEX; + + /* PEX_CONFIG_REF_CLOCK_25MHZ_SEQ sequence init */ + serdes_seq_db[PEX_CONFIG_REF_CLOCK_25MHZ_SEQ].op_params_ptr = + pex_config_ref_clock25_m_hz; + serdes_seq_db[PEX_CONFIG_REF_CLOCK_25MHZ_SEQ].cfg_seq_size = + sizeof(pex_config_ref_clock25_m_hz) / sizeof(struct op_params); + serdes_seq_db[PEX_CONFIG_REF_CLOCK_25MHZ_SEQ].data_arr_idx = PEX; + + /* PEX_ELECTRICAL_CONFIG_REF_CLOCK_40MHZ_SEQ sequence init */ + serdes_seq_db[PEX_CONFIG_REF_CLOCK_40MHZ_SEQ].op_params_ptr = + pex_config_ref_clock40_m_hz; + serdes_seq_db[PEX_CONFIG_REF_CLOCK_40MHZ_SEQ].cfg_seq_size = + sizeof(pex_config_ref_clock40_m_hz) / sizeof(struct op_params); + serdes_seq_db[PEX_CONFIG_REF_CLOCK_40MHZ_SEQ].data_arr_idx = PEX; + + /* PEX_CONFIG_REF_CLOCK_100MHZ_SEQ sequence init */ + serdes_seq_db[PEX_CONFIG_REF_CLOCK_100MHZ_SEQ].op_params_ptr = + pex_config_ref_clock100_m_hz; + serdes_seq_db[PEX_CONFIG_REF_CLOCK_100MHZ_SEQ].cfg_seq_size = + sizeof(pex_config_ref_clock100_m_hz) / sizeof(struct op_params); + serdes_seq_db[PEX_CONFIG_REF_CLOCK_100MHZ_SEQ].data_arr_idx = PEX; + + /* USB3_POWER_UP_SEQ sequence init */ + if (serdes_rev == MV_SERDES_REV_1_2) { + serdes_seq_db[USB3_POWER_UP_SEQ].op_params_ptr = + pex_and_usb3_power_up_serdes_rev1_params; + serdes_seq_db[USB3_POWER_UP_SEQ].cfg_seq_size = + sizeof(pex_and_usb3_power_up_serdes_rev1_params) / + sizeof(struct op_params); + } else { + serdes_seq_db[USB3_POWER_UP_SEQ].op_params_ptr = + pex_and_usb3_power_up_serdes_rev2_params; + serdes_seq_db[USB3_POWER_UP_SEQ].cfg_seq_size = + sizeof(pex_and_usb3_power_up_serdes_rev2_params) / + sizeof(struct op_params); + } + serdes_seq_db[USB3_POWER_UP_SEQ].data_arr_idx = USB3; + + /* USB3_HOST_SPEED_CONFIG_SEQ sequence init */ + serdes_seq_db[USB3_HOST_SPEED_CONFIG_SEQ].op_params_ptr = + pex_and_usb3_speed_config_params; + serdes_seq_db[USB3_HOST_SPEED_CONFIG_SEQ].cfg_seq_size = + sizeof(pex_and_usb3_speed_config_params) / sizeof(struct op_params); + serdes_seq_db[USB3_HOST_SPEED_CONFIG_SEQ].data_arr_idx = + USB3SERDES_SPEED_5_GBPS_HOST; + + /* USB3_DEVICE_SPEED_CONFIG_SEQ sequence init */ + serdes_seq_db[USB3_DEVICE_SPEED_CONFIG_SEQ].op_params_ptr = + pex_and_usb3_speed_config_params; + serdes_seq_db[USB3_DEVICE_SPEED_CONFIG_SEQ].cfg_seq_size = + sizeof(pex_and_usb3_speed_config_params) / sizeof(struct op_params); + serdes_seq_db[USB3_DEVICE_SPEED_CONFIG_SEQ].data_arr_idx = + USB3SERDES_SPEED_5_GBPS_DEVICE; + + /* USB3_ELECTRICAL_CONFIG_SEQ seq sequence init */ + if (serdes_rev == MV_SERDES_REV_1_2) { + serdes_seq_db[USB3_ELECTRICAL_CONFIG_SEQ].op_params_ptr = + usb3_electrical_config_serdes_rev1_params; + serdes_seq_db[USB3_ELECTRICAL_CONFIG_SEQ].cfg_seq_size = + sizeof(usb3_electrical_config_serdes_rev1_params) / + sizeof(struct op_params); + } else { + serdes_seq_db[USB3_ELECTRICAL_CONFIG_SEQ].op_params_ptr = + usb3_electrical_config_serdes_rev2_params; + serdes_seq_db[USB3_ELECTRICAL_CONFIG_SEQ].cfg_seq_size = + sizeof(usb3_electrical_config_serdes_rev2_params) / + sizeof(struct op_params); + } + serdes_seq_db[USB3_ELECTRICAL_CONFIG_SEQ].data_arr_idx = USB3; + + /* USB3_TX_CONFIG_SEQ sequence init */ + serdes_seq_db[USB3_TX_CONFIG_SEQ1].op_params_ptr = + pex_and_usb3_tx_config_params1; + serdes_seq_db[USB3_TX_CONFIG_SEQ1].cfg_seq_size = + sizeof(pex_and_usb3_tx_config_params1) / sizeof(struct op_params); + serdes_seq_db[USB3_TX_CONFIG_SEQ1].data_arr_idx = USB3; + + /* USB3_TX_CONFIG_SEQ sequence init */ + serdes_seq_db[USB3_TX_CONFIG_SEQ2].op_params_ptr = + pex_and_usb3_tx_config_params2; + serdes_seq_db[USB3_TX_CONFIG_SEQ2].cfg_seq_size = + sizeof(pex_and_usb3_tx_config_params2) / sizeof(struct op_params); + serdes_seq_db[USB3_TX_CONFIG_SEQ2].data_arr_idx = USB3; + + /* USB3_TX_CONFIG_SEQ sequence init */ + serdes_seq_db[USB3_TX_CONFIG_SEQ3].op_params_ptr = + pex_and_usb3_tx_config_params3; + serdes_seq_db[USB3_TX_CONFIG_SEQ3].cfg_seq_size = + sizeof(pex_and_usb3_tx_config_params3) / sizeof(struct op_params); + serdes_seq_db[USB3_TX_CONFIG_SEQ3].data_arr_idx = USB3; + + /* USB2_POWER_UP_SEQ sequence init */ + serdes_seq_db[USB2_POWER_UP_SEQ].op_params_ptr = usb2_power_up_params; + serdes_seq_db[USB2_POWER_UP_SEQ].cfg_seq_size = + sizeof(usb2_power_up_params) / sizeof(struct op_params); + serdes_seq_db[USB2_POWER_UP_SEQ].data_arr_idx = 0; + + /* USB3_DEVICE_CONFIG_SEQ sequence init */ + serdes_seq_db[USB3_DEVICE_CONFIG_SEQ].op_params_ptr = + usb3_device_config_params; + serdes_seq_db[USB3_DEVICE_CONFIG_SEQ].cfg_seq_size = + sizeof(usb3_device_config_params) / sizeof(struct op_params); + serdes_seq_db[USB3_DEVICE_CONFIG_SEQ].data_arr_idx = 0; /* Not relevant */ + + /* SERDES_POWER_DOWN_SEQ sequence init */ + serdes_seq_db[SERDES_POWER_DOWN_SEQ].op_params_ptr = + serdes_power_down_params; + serdes_seq_db[SERDES_POWER_DOWN_SEQ].cfg_seq_size = + sizeof(serdes_power_down_params) / + sizeof(struct op_params); + serdes_seq_db[SERDES_POWER_DOWN_SEQ].data_arr_idx = FIRST_CELL; + + if (serdes_rev == MV_SERDES_REV_2_1) { + /* QSGMII_POWER_UP_SEQ sequence init */ + serdes_seq_db[QSGMII_POWER_UP_SEQ].op_params_ptr = + qsgmii_port_power_up_params; + serdes_seq_db[QSGMII_POWER_UP_SEQ].cfg_seq_size = + sizeof(qsgmii_port_power_up_params) / + sizeof(struct op_params); + serdes_seq_db[QSGMII_POWER_UP_SEQ].data_arr_idx = + QSGMII_SEQ_IDX; + + /* QSGMII_5_SPEED_CONFIG_SEQ sequence init */ + serdes_seq_db[QSGMII_5_SPEED_CONFIG_SEQ].op_params_ptr = + qsgmii_port_speed_config_params; + serdes_seq_db[QSGMII_5_SPEED_CONFIG_SEQ].cfg_seq_size = + sizeof(qsgmii_port_speed_config_params) / + sizeof(struct op_params); + serdes_seq_db[QSGMII_5_SPEED_CONFIG_SEQ].data_arr_idx = + QSGMII_SEQ_IDX; + + /* QSGMII_ELECTRICAL_CONFIG_SEQ seq sequence init */ + serdes_seq_db[QSGMII_ELECTRICAL_CONFIG_SEQ].op_params_ptr = + qsgmii_port_electrical_config_params; + serdes_seq_db[QSGMII_ELECTRICAL_CONFIG_SEQ].cfg_seq_size = + sizeof(qsgmii_port_electrical_config_params) / + sizeof(struct op_params); + serdes_seq_db[QSGMII_ELECTRICAL_CONFIG_SEQ].data_arr_idx = + QSGMII_SEQ_IDX; + + /* QSGMII_TX_CONFIG_SEQ sequence init */ + serdes_seq_db[QSGMII_TX_CONFIG_SEQ1].op_params_ptr = + qsgmii_port_tx_config_params1; + serdes_seq_db[QSGMII_TX_CONFIG_SEQ1].cfg_seq_size = + sizeof(qsgmii_port_tx_config_params1) / + sizeof(struct op_params); + serdes_seq_db[QSGMII_TX_CONFIG_SEQ1].data_arr_idx = + QSGMII_SEQ_IDX; + + /* QSGMII_TX_CONFIG_SEQ sequence init */ + serdes_seq_db[QSGMII_TX_CONFIG_SEQ2].op_params_ptr = + qsgmii_port_tx_config_params2; + serdes_seq_db[QSGMII_TX_CONFIG_SEQ2].cfg_seq_size = + sizeof(qsgmii_port_tx_config_params2) / + sizeof(struct op_params); + serdes_seq_db[QSGMII_TX_CONFIG_SEQ2].data_arr_idx = + QSGMII_SEQ_IDX; + } + + return MV_OK; +} + +enum serdes_seq serdes_type_and_speed_to_speed_seq(enum serdes_type serdes_type, + enum serdes_speed baud_rate) +{ + enum serdes_seq seq_id = SERDES_LAST_SEQ; + + DEBUG_INIT_FULL_S("\n### serdes_type_and_speed_to_speed_seq ###\n"); + switch (serdes_type) { + case PEX0: + case PEX1: + case PEX2: + case PEX3: + if (baud_rate == SERDES_SPEED_2_5_GBPS) + seq_id = PEX_2_5_SPEED_CONFIG_SEQ; + else if (baud_rate == SERDES_SPEED_5_GBPS) + seq_id = PEX_5_SPEED_CONFIG_SEQ; + break; + case USB3_HOST0: + case USB3_HOST1: + if (baud_rate == SERDES_SPEED_5_GBPS) + seq_id = USB3_HOST_SPEED_CONFIG_SEQ; + break; + case USB3_DEVICE: + if (baud_rate == SERDES_SPEED_5_GBPS) + seq_id = USB3_DEVICE_SPEED_CONFIG_SEQ; + break; + case SATA0: + case SATA1: + case SATA2: + case SATA3: + if (baud_rate == SERDES_SPEED_1_5_GBPS) + seq_id = SATA_1_5_SPEED_CONFIG_SEQ; + else if (baud_rate == SERDES_SPEED_3_GBPS) + seq_id = SATA_3_SPEED_CONFIG_SEQ; + else if (baud_rate == SERDES_SPEED_6_GBPS) + seq_id = SATA_6_SPEED_CONFIG_SEQ; + break; + case SGMII0: + case SGMII1: + case SGMII2: +#ifdef CONFIG_ARMADA_39X + case SGMII3: +#endif + if (baud_rate == SERDES_SPEED_1_25_GBPS) + seq_id = SGMII_1_25_SPEED_CONFIG_SEQ; + else if (baud_rate == SERDES_SPEED_3_125_GBPS) + seq_id = SGMII_3_125_SPEED_CONFIG_SEQ; + break; + case QSGMII: + seq_id = QSGMII_5_SPEED_CONFIG_SEQ; + break; +#ifdef CONFIG_ARMADA_39X + case XAUI: + seq_id = XAUI_3_125_SPEED_CONFIG_SEQ; + break; + case RXAUI: + seq_id = RXAUI_6_25_SPEED_CONFIG_SEQ; + break; +#endif + default: + return SERDES_LAST_SEQ; + } + + return seq_id; +} + +/* + * This is the weak default function for the Marvell evaluation or + * development boarrds. Like the DB-88F6820-GP and others. + * Custom boards should define this function in their board + * code (board directory). And overwrite this default function + * with this custom specific code. + */ +__weak int hws_board_topology_load(struct serdes_map *serdes_map_array) +{ + u32 board_id = mv_board_id_get(); + u32 board_id_index = mv_board_id_index_get(board_id); + + DEBUG_INIT_FULL_S("\n### hws_board_topology_load ###\n"); + /* getting board topology according to the board id */ + DEBUG_INIT_FULL_S("Getting board topology according to the board id\n"); + + CHECK_STATUS(load_topology_func_arr[board_id_index] (serdes_map_array)); + + return MV_OK; +} + +void print_topology_details(struct serdes_map *serdes_map_array) +{ + u32 lane_num; + + DEBUG_INIT_S("board SerDes lanes topology details:\n"); + + DEBUG_INIT_S(" | Lane # | Speed | Type |\n"); + DEBUG_INIT_S(" --------------------------------\n"); + for (lane_num = 0; lane_num < hws_serdes_get_max_lane(); lane_num++) { + if (serdes_map_array[lane_num].serdes_type == DEFAULT_SERDES) + continue; + DEBUG_INIT_S(" | "); + DEBUG_INIT_D(hws_get_physical_serdes_num(lane_num), 1); + DEBUG_INIT_S(" | "); + DEBUG_INIT_D(serdes_map_array[lane_num].serdes_speed, 2); + DEBUG_INIT_S(" | "); + DEBUG_INIT_S((char *) + serdes_type_to_string[serdes_map_array[lane_num]. + serdes_type]); + DEBUG_INIT_S("\t|\n"); + } + DEBUG_INIT_S(" --------------------------------\n"); +} + +int hws_pre_serdes_init_config(void) +{ + u32 data; + + /* + * Configure Core PLL + */ + /* + * set PLL parameters + * bits[2:0] =0x3 (Core-PLL Kdiv) + * bits[20:12]=0x9f (Core-PLL Ndiv) + * bits[24:21]=0x7(Core-PLL VCO Band) + * bits[28:25]=0x1(Core-PLL Rlf) + * bits[31:29]=0x2(Core-PLL charge-pump adjust) + */ + reg_write(CORE_PLL_PARAMETERS_REG, 0x42e9f003); + + /* Enable PLL Configuration */ + data = reg_read(CORE_PLL_CONFIG_REG); + data = SET_BIT(data, 9); + reg_write(CORE_PLL_CONFIG_REG, data); + + return MV_OK; +} + +int serdes_phy_config(void) +{ + DEBUG_INIT_FULL_S("\n### ctrl_high_speed_serdes_phy_config ###\n"); + + DEBUG_INIT_S("High speed PHY - Version: "); + DEBUG_INIT_S(SERDES_VERION); + DEBUG_INIT_S("\n"); + + /* Init serdes sequences DB */ + if (hws_serdes_seq_init() != MV_OK) { + printf("hws_ctrl_high_speed_serdes_phy_config: Error: Serdes initialization fail\n"); + return MV_FAIL; + } + + /* I2C init */ + i2c_init(CONFIG_SYS_I2C_SPEED, CONFIG_SYS_I2C_SLAVE); + + /* Board topology load */ + DEBUG_INIT_FULL_S + ("ctrl_high_speed_serdes_phy_config: Loading board topology..\n"); + CHECK_STATUS(hws_board_topology_load(serdes_configuration_map)); + + /* print topology */ + print_topology_details(serdes_configuration_map); + CHECK_STATUS(hws_pre_serdes_init_config()); + + /* Power-Up sequence */ + DEBUG_INIT_FULL_S + ("ctrl_high_speed_serdes_phy_config: Starting serdes power up sequence\n"); + + CHECK_STATUS(hws_power_up_serdes_lanes(serdes_configuration_map)); + + DEBUG_INIT_FULL_S + ("\n### ctrl_high_speed_serdes_phy_config ended successfully ###\n"); + + DEBUG_INIT_S(ENDED_OK); + + return MV_OK; +} + +int serdes_polarity_config(u32 serdes_num, int is_rx) +{ + u32 data; + u32 reg_addr; + u8 bit_off = (is_rx) ? 11 : 10; + + reg_addr = SERDES_REGS_LANE_BASE_OFFSET(serdes_num) + SYNC_PATTERN_REG; + data = reg_read(reg_addr); + data = SET_BIT(data, bit_off); + reg_write(reg_addr, data); + + return MV_OK; +} + +int hws_power_up_serdes_lanes(struct serdes_map *serdes_config_map) +{ + u32 serdes_id, serdes_lane_num; + enum ref_clock ref_clock; + enum serdes_type serdes_type; + enum serdes_speed serdes_speed; + enum serdes_mode serdes_mode; + int serdes_rx_polarity_swap; + int serdes_tx_polarity_swap; + int is_pex_enabled = 0; + + /* + * is_pex_enabled: + * Flag which indicates that one of the Serdes is of PEX. + * In this case, PEX unit will be initialized after Serdes power-up + */ + + DEBUG_INIT_FULL_S("\n### hws_power_up_serdes_lanes ###\n"); + + /* COMMON PHYS SELECTORS register configuration */ + DEBUG_INIT_FULL_S + ("hws_power_up_serdes_lanes: Updating COMMON PHYS SELECTORS reg\n"); + CHECK_STATUS(hws_update_serdes_phy_selectors(serdes_configuration_map)); + + /* per Serdes Power Up */ + for (serdes_id = 0; serdes_id < hws_serdes_get_max_lane(); + serdes_id++) { + DEBUG_INIT_FULL_S + ("calling serdes_power_up_ctrl: serdes lane number "); + DEBUG_INIT_FULL_D_10(serdes_lane_num, 1); + DEBUG_INIT_FULL_S("\n"); + + serdes_lane_num = hws_get_physical_serdes_num(serdes_id); + serdes_type = serdes_config_map[serdes_id].serdes_type; + serdes_speed = serdes_config_map[serdes_id].serdes_speed; + serdes_mode = serdes_config_map[serdes_id].serdes_mode; + serdes_rx_polarity_swap = serdes_config_map[serdes_id].swap_rx; + serdes_tx_polarity_swap = serdes_config_map[serdes_id].swap_tx; + + /* serdes lane is not in use */ + if (serdes_type == DEFAULT_SERDES) + continue; + else if (serdes_type <= PEX3) /* PEX type */ + is_pex_enabled = 1; + + ref_clock = hws_serdes_get_ref_clock_val(serdes_type); + if (ref_clock == REF_CLOCK_UNSUPPORTED) { + DEBUG_INIT_S + ("hws_power_up_serdes_lanes: unsupported ref clock\n"); + return MV_NOT_SUPPORTED; + } + CHECK_STATUS(serdes_power_up_ctrl(serdes_lane_num, + 1, + serdes_type, + serdes_speed, + serdes_mode, ref_clock)); + + /* RX Polarity config */ + if (serdes_rx_polarity_swap) + CHECK_STATUS(serdes_polarity_config + (serdes_lane_num, 1)); + + /* TX Polarity config */ + if (serdes_tx_polarity_swap) + CHECK_STATUS(serdes_polarity_config + (serdes_lane_num, 0)); + } + + if (is_pex_enabled) { + /* Set PEX_TX_CONFIG_SEQ sequence for PEXx4 mode. + After finish the Power_up sequence for all lanes, + the lanes should be released from reset state. */ + CHECK_STATUS(hws_pex_tx_config_seq(serdes_config_map)); + + /* PEX configuration */ + CHECK_STATUS(hws_pex_config(serdes_config_map)); + } + + /* USB2 configuration */ + DEBUG_INIT_FULL_S("hws_power_up_serdes_lanes: init USB2 Phys\n"); + CHECK_STATUS(mv_seq_exec(0 /* not relevant */ , USB2_POWER_UP_SEQ)); + + DEBUG_INIT_FULL_S + ("### hws_power_up_serdes_lanes ended successfully ###\n"); + + return MV_OK; +} + +int ctrl_high_speed_serdes_phy_config(void) +{ + return hws_ctrl_high_speed_serdes_phy_config(); +} + +static int serdes_pex_usb3_pipe_delay_w_a(u32 serdes_num, u8 serdes_type) +{ + u32 reg_data; + + /* WA for A380 Z1 relevant for lanes 3,4,5 only */ + if (serdes_num >= 3) { + reg_data = reg_read(GENERAL_PURPOSE_RESERVED0_REG); + /* set delay on pipe - + * When lane 3 is connected to a MAC of Pex -> set bit 7 to 1. + * When lane 3 is connected to a MAC of USB3 -> set bit 7 to 0. + * When lane 4 is connected to a MAC of Pex -> set bit 8 to 1. + * When lane 4 is connected to a MAC of USB3 -> set bit 8 to 0. + * When lane 5 is connected to a MAC of Pex -> set bit 8 to 1. + * When lane 5 is connected to a MAC of USB3 -> set bit 8 to 0. + */ + if (serdes_type == PEX) + reg_data |= 1 << (7 + (serdes_num - 3)); + if (serdes_type == USB3) { + /* USB3 */ + reg_data &= ~(1 << (7 + (serdes_num - 3))); + } + reg_write(GENERAL_PURPOSE_RESERVED0_REG, reg_data); + } + + return MV_OK; +} + +/* + * hws_serdes_pex_ref_clock_satr_get - + * + * DESCRIPTION: Get the reference clock value from DEVICE_SAMPLE_AT_RESET1_REG + * and check: + * bit[2] for PEX#0, bit[3] for PEX#1, bit[30] for PEX#2, bit[31] + * for PEX#3. + * If bit=0 --> REF_CLOCK_100MHz + * If bit=1 && DEVICE_SAMPLE_AT_RESET2_REG bit[0]=0 + * --> REF_CLOCK_25MHz + * If bit=1 && DEVICE_SAMPLE_AT_RESET2_REG bit[0]=1 + * --> REF_CLOCK_40MHz + * + * INPUT: serdes_type - Type of Serdes + * + * OUTPUT: pex_satr - Return the REF_CLOCK value: + * REF_CLOCK_25MHz, REF_CLOCK_40MHz or REF_CLOCK_100MHz + * + * RETURNS: MV_OK - for success + * MV_BAD_PARAM - for fail + */ +int hws_serdes_pex_ref_clock_satr_get(enum serdes_type serdes_type, u32 *pex_satr) +{ + u32 data, reg_satr1; + + reg_satr1 = reg_read(DEVICE_SAMPLE_AT_RESET1_REG); + + switch (serdes_type) { + case PEX0: + data = REF_CLK_SELECTOR_VAL_PEX0(reg_satr1); + break; + case PEX1: + data = REF_CLK_SELECTOR_VAL_PEX1(reg_satr1); + break; + case PEX2: + data = REF_CLK_SELECTOR_VAL_PEX2(reg_satr1); + break; + case PEX3: + data = REF_CLK_SELECTOR_VAL_PEX3(reg_satr1); + break; + default: + printf("%s: Error: SerDes type %d is not supported\n", + __func__, serdes_type); + return MV_BAD_PARAM; + } + + *pex_satr = data; + + return MV_OK; +} + +u32 hws_serdes_get_ref_clock_val(enum serdes_type serdes_type) +{ + u32 pex_satr; + enum ref_clock ref_clock; + + DEBUG_INIT_FULL_S("\n### hws_serdes_get_ref_clock_val ###\n"); + + if (serdes_type >= LAST_SERDES_TYPE) + return REF_CLOCK_UNSUPPORTED; + + /* read ref clock from S@R */ + ref_clock = hws_serdes_silicon_ref_clock_get(); + + if (serdes_type > PEX3) { + /* for all Serdes types but PCIe */ + return ref_clock; + } + + /* for PCIe, need also to check PCIe S@R */ + CHECK_STATUS(hws_serdes_pex_ref_clock_satr_get + (serdes_type, &pex_satr)); + + if (pex_satr == 0) { + return REF_CLOCK_100MHZ; + } else if (pex_satr == 1) { + /* value of 1 means we can use ref clock from SoC (as other Serdes types) */ + return ref_clock; + } else { + printf + ("%s: Error: REF_CLK_SELECTOR_VAL for SerDes type %d is wrong\n", + __func__, serdes_type); + return REF_CLOCK_UNSUPPORTED; + } +} + +int serdes_power_up_ctrl(u32 serdes_num, int serdes_power_up, + enum serdes_type serdes_type, + enum serdes_speed baud_rate, + enum serdes_mode serdes_mode, enum ref_clock ref_clock) +{ + u32 sata_idx, pex_idx, sata_port; + enum serdes_seq speed_seq_id; + u32 reg_data; + int is_pex_by1; + + DEBUG_INIT_FULL_S("\n### serdes_power_up_ctrl ###\n"); + + if (serdes_power_up == 1) { /* Serdes power up */ + DEBUG_INIT_FULL_S + ("serdes_power_up_ctrl: executing power up.. "); + DEBUG_INIT_FULL_C("serdes num = ", serdes_num, 2); + DEBUG_INIT_FULL_C("serdes type = ", serdes_type, 2); + + DEBUG_INIT_FULL_S("Going access 1"); + + /* Getting the Speed Select sequence id */ + speed_seq_id = + serdes_type_and_speed_to_speed_seq(serdes_type, + baud_rate); + if (speed_seq_id == SERDES_LAST_SEQ) { + printf + ("serdes_power_up_ctrl: serdes type %d and speed %d are not supported together\n", + serdes_type, baud_rate); + + return MV_BAD_PARAM; + } + + /* Executing power up, ref clock set, speed config and TX config */ + switch (serdes_type) { + case PEX0: + case PEX1: + case PEX2: + case PEX3: + if (hws_ctrl_serdes_rev_get() == MV_SERDES_REV_1_2) { + CHECK_STATUS(serdes_pex_usb3_pipe_delay_w_a + (serdes_num, PEX)); + } + + is_pex_by1 = (serdes_mode == PEX_ROOT_COMPLEX_X1) || + (serdes_mode == PEX_END_POINT_X1); + pex_idx = serdes_type - PEX0; + + if ((is_pex_by1 == 1) || (serdes_type == PEX0)) { + /* For PEX by 4, init only the PEX 0 */ + reg_data = reg_read(SOC_CONTROL_REG1); + if (is_pex_by1 == 1) + reg_data |= 0x4000; + else + reg_data &= ~0x4000; + reg_write(SOC_CONTROL_REG1, reg_data); + + reg_data = + reg_read(((PEX_IF_REGS_BASE(pex_idx)) + + 0x6c)); + reg_data &= ~0x3f0; + if (is_pex_by1 == 1) + reg_data |= 0x10; + else + reg_data |= 0x40; + reg_write(((PEX_IF_REGS_BASE(pex_idx)) + 0x6c), + reg_data); + + reg_data = + reg_read(((PEX_IF_REGS_BASE(pex_idx)) + + 0x6c)); + reg_data &= ~0xf; + reg_data |= 0x2; + reg_write(((PEX_IF_REGS_BASE(pex_idx)) + 0x6c), + reg_data); + + reg_data = + reg_read(((PEX_IF_REGS_BASE(pex_idx)) + + 0x70)); + reg_data &= ~0x40; + reg_data |= 0x40; + reg_write(((PEX_IF_REGS_BASE(pex_idx)) + 0x70), + reg_data); + } + + CHECK_STATUS(mv_seq_exec(serdes_num, PEX_POWER_UP_SEQ)); + if (is_pex_by1 == 0) { + /* + * for PEX by 4 - use the PEX index as the + * seq array index + */ + serdes_seq_db[PEX_BY_4_CONFIG_SEQ]. + data_arr_idx = pex_idx; + CHECK_STATUS(mv_seq_exec + (serdes_num, PEX_BY_4_CONFIG_SEQ)); + } + + CHECK_STATUS(hws_ref_clock_set + (serdes_num, serdes_type, ref_clock)); + CHECK_STATUS(mv_seq_exec(serdes_num, speed_seq_id)); + CHECK_STATUS(mv_seq_exec + (serdes_num, PEX_ELECTRICAL_CONFIG_SEQ)); + + if (is_pex_by1 == 1) { + CHECK_STATUS(mv_seq_exec + (serdes_num, PEX_TX_CONFIG_SEQ2)); + CHECK_STATUS(mv_seq_exec + (serdes_num, PEX_TX_CONFIG_SEQ3)); + CHECK_STATUS(mv_seq_exec + (serdes_num, PEX_TX_CONFIG_SEQ1)); + } + udelay(20); + + break; + case USB3_HOST0: + case USB3_HOST1: + case USB3_DEVICE: + if (hws_ctrl_serdes_rev_get() == MV_SERDES_REV_1_2) { + CHECK_STATUS(serdes_pex_usb3_pipe_delay_w_a + (serdes_num, USB3)); + } + CHECK_STATUS(mv_seq_exec + (serdes_num, USB3_POWER_UP_SEQ)); + CHECK_STATUS(hws_ref_clock_set + (serdes_num, serdes_type, ref_clock)); + CHECK_STATUS(mv_seq_exec(serdes_num, speed_seq_id)); + if (serdes_type == USB3_DEVICE) { + CHECK_STATUS(mv_seq_exec + (serdes_num, + USB3_DEVICE_CONFIG_SEQ)); + } + CHECK_STATUS(mv_seq_exec + (serdes_num, USB3_ELECTRICAL_CONFIG_SEQ)); + CHECK_STATUS(mv_seq_exec + (serdes_num, USB3_TX_CONFIG_SEQ1)); + CHECK_STATUS(mv_seq_exec + (serdes_num, USB3_TX_CONFIG_SEQ2)); + CHECK_STATUS(mv_seq_exec + (serdes_num, USB3_TX_CONFIG_SEQ3)); + + udelay(10000); + break; + case SATA0: + case SATA1: + case SATA2: + case SATA3: + sata_idx = ((serdes_type == SATA0) || + (serdes_type == SATA1)) ? 0 : 1; + sata_port = ((serdes_type == SATA0) || + (serdes_type == SATA2)) ? 0 : 1; + + CHECK_STATUS(mv_seq_exec + (sata_idx, (sata_port == 0) ? + SATA_PORT_0_ONLY_POWER_UP_SEQ : + SATA_PORT_1_ONLY_POWER_UP_SEQ)); + CHECK_STATUS(mv_seq_exec + (serdes_num, SATA_POWER_UP_SEQ)); + CHECK_STATUS(hws_ref_clock_set + (serdes_num, serdes_type, ref_clock)); + CHECK_STATUS(mv_seq_exec(serdes_num, speed_seq_id)); + CHECK_STATUS(mv_seq_exec + (serdes_num, SATA_ELECTRICAL_CONFIG_SEQ)); + CHECK_STATUS(mv_seq_exec + (serdes_num, SATA_TX_CONFIG_SEQ1)); + CHECK_STATUS(mv_seq_exec + (sata_idx, (sata_port == 0) ? + SATA_PORT_0_ONLY_TX_CONFIG_SEQ : + SATA_PORT_1_ONLY_TX_CONFIG_SEQ)); + CHECK_STATUS(mv_seq_exec + (serdes_num, SATA_TX_CONFIG_SEQ2)); + + udelay(10000); + break; + case SGMII0: + case SGMII1: + case SGMII2: + CHECK_STATUS(mv_seq_exec + (serdes_num, SGMII_POWER_UP_SEQ)); + CHECK_STATUS(hws_ref_clock_set + (serdes_num, serdes_type, ref_clock)); + CHECK_STATUS(mv_seq_exec(serdes_num, speed_seq_id)); + CHECK_STATUS(mv_seq_exec + (serdes_num, SGMII_ELECTRICAL_CONFIG_SEQ)); + CHECK_STATUS(mv_seq_exec + (serdes_num, SGMII_TX_CONFIG_SEQ1)); + CHECK_STATUS(mv_seq_exec + (serdes_num, SGMII_TX_CONFIG_SEQ2)); + + /* GBE configuration */ + reg_data = reg_read(GBE_CONFIGURATION_REG); + /* write the SGMII index */ + reg_data |= 0x1 << (serdes_type - SGMII0); + reg_write(GBE_CONFIGURATION_REG, reg_data); + + break; + case QSGMII: + if (hws_ctrl_serdes_rev_get() < MV_SERDES_REV_2_1) + return MV_NOT_SUPPORTED; + + CHECK_STATUS(mv_seq_exec + (serdes_num, QSGMII_POWER_UP_SEQ)); + CHECK_STATUS(hws_ref_clock_set + (serdes_num, serdes_type, ref_clock)); + CHECK_STATUS(mv_seq_exec(serdes_num, speed_seq_id)); + CHECK_STATUS(mv_seq_exec + (serdes_num, + QSGMII_ELECTRICAL_CONFIG_SEQ)); + CHECK_STATUS(mv_seq_exec + (serdes_num, QSGMII_TX_CONFIG_SEQ1)); + CHECK_STATUS(mv_seq_exec + (serdes_num, QSGMII_TX_CONFIG_SEQ2)); + break; + case SGMII3: + case XAUI: + case RXAUI: + CHECK_STATUS(serdes_power_up_ctrl_ext + (serdes_num, serdes_power_up, serdes_type, + baud_rate, serdes_mode, ref_clock)); + break; + default: + DEBUG_INIT_S + ("serdes_power_up_ctrl: bad serdes_type parameter\n"); + return MV_BAD_PARAM; + } + } else { /* Serdes power down */ + DEBUG_INIT_FULL_S("serdes_power_up: executing power down.. "); + DEBUG_INIT_FULL_C("serdes num = ", serdes_num, 1); + + CHECK_STATUS(mv_seq_exec(serdes_num, SERDES_POWER_DOWN_SEQ)); + } + + DEBUG_INIT_FULL_C( + "serdes_power_up_ctrl ended successfully for serdes ", + serdes_num, 2); + + return MV_OK; +} + +int hws_update_serdes_phy_selectors(struct serdes_map *serdes_config_map) +{ + u32 lane_data, idx, serdes_lane_hw_num, reg_data = 0; + enum serdes_type serdes_type; + enum serdes_mode serdes_mode; + u8 select_bit_off; + int is_pex_x4 = 0; + int updated_topology_print = 0; + + DEBUG_INIT_FULL_S("\n### hws_update_serdes_phy_selectors ###\n"); + DEBUG_INIT_FULL_S + ("Updating the COMMON PHYS SELECTORS register with the serdes types\n"); + + if (hws_ctrl_serdes_rev_get() == MV_SERDES_REV_1_2) + select_bit_off = 3; + else + select_bit_off = 4; + + /* + * Updating bits 0-17 in the COMMON PHYS SELECTORS register + * according to the serdes types + */ + for (idx = 0; idx < hws_serdes_get_max_lane(); + idx++) { + serdes_type = serdes_config_map[idx].serdes_type; + serdes_mode = serdes_config_map[idx].serdes_mode; + serdes_lane_hw_num = hws_get_physical_serdes_num(idx); + + lane_data = + hws_serdes_get_phy_selector_val(serdes_lane_hw_num, + serdes_type); + + if (serdes_type == DEFAULT_SERDES) + continue; + + if (hws_serdes_topology_verify + (serdes_type, idx, serdes_mode) != MV_OK) { + serdes_config_map[idx].serdes_type = + DEFAULT_SERDES; + printf("%s: SerDes lane #%d is disabled\n", __func__, + serdes_lane_hw_num); + updated_topology_print = 1; + continue; + } + + /* + * Checking if the board topology configuration includes + * PEXx4 - for the next step + */ + if ((serdes_mode == PEX_END_POINT_X4) || + (serdes_mode == PEX_ROOT_COMPLEX_X4)) { + /* update lane data to the 3 next SERDES lanes */ + lane_data = + common_phys_selectors_pex_by4_lanes + [serdes_lane_hw_num]; + if (serdes_type == PEX0) + is_pex_x4 = 1; + } + + if (lane_data == NA) { + printf + ("%s: Warning: SerDes lane #%d and type %d are not supported together\n", + __func__, serdes_lane_hw_num, serdes_mode); + serdes_config_map[idx].serdes_type = + DEFAULT_SERDES; + printf("%s: SerDes lane #%d is disabled\n", __func__, + serdes_lane_hw_num); + continue; + } + + /* + * Updating the data that will be written to + * COMMON_PHYS_SELECTORS_REG + */ + reg_data |= (lane_data << + (select_bit_off * serdes_lane_hw_num)); + } + + /* + * Check that number of used lanes for XAUI and RXAUI + * (if used) is right + */ + hws_serdes_xaui_topology_verify(); + + /* Print topology */ + if (updated_topology_print) + print_topology_details(serdes_config_map); + + /* + * Updating the PEXx4 Enable bit in the COMMON PHYS SELECTORS + * register for PEXx4 mode + */ + reg_data |= (is_pex_x4 == 1) ? (0x1 << PEX_X4_ENABLE_OFFS) : 0; + + /* Updating the COMMON PHYS SELECTORS register */ + reg_write(COMMON_PHYS_SELECTORS_REG, reg_data); + + return MV_OK; +} + +int hws_ref_clock_set(u32 serdes_num, enum serdes_type serdes_type, + enum ref_clock ref_clock) +{ + u32 data1 = 0, data2 = 0, data3 = 0, reg_data; + + DEBUG_INIT_FULL_S("\n### hws_ref_clock_set ###\n"); + + if (hws_is_serdes_active(serdes_num) != 1) { + printf("%s: SerDes lane #%d is not Active\n", __func__, + serdes_num); + return MV_BAD_PARAM; + } + + switch (serdes_type) { + case PEX0: + case PEX1: + case PEX2: + case PEX3: + switch (ref_clock) { + case REF_CLOCK_25MHZ: + CHECK_STATUS(mv_seq_exec + (serdes_num, + PEX_CONFIG_REF_CLOCK_25MHZ_SEQ)); + return MV_OK; + case REF_CLOCK_100MHZ: + CHECK_STATUS(mv_seq_exec + (serdes_num, + PEX_CONFIG_REF_CLOCK_100MHZ_SEQ)); + return MV_OK; +#ifdef CONFIG_ARMADA_39X + case REF_CLOCK_40MHZ: + CHECK_STATUS(mv_seq_exec + (serdes_num, + PEX_CONFIG_REF_CLOCK_40MHZ_SEQ)); + return MV_OK; +#endif + default: + printf + ("%s: Error: ref_clock %d for SerDes lane #%d, type %d is not supported\n", + __func__, ref_clock, serdes_num, serdes_type); + return MV_BAD_PARAM; + } + case USB3_HOST0: + case USB3_HOST1: + case USB3_DEVICE: + if (ref_clock == REF_CLOCK_25MHZ) { + data1 = POWER_AND_PLL_CTRL_REG_25MHZ_VAL_2; + data2 = GLOBAL_PM_CTRL_REG_25MHZ_VAL; + data3 = LANE_CFG4_REG_25MHZ_VAL; + } else if (ref_clock == REF_CLOCK_40MHZ) { + data1 = POWER_AND_PLL_CTRL_REG_40MHZ_VAL; + data2 = GLOBAL_PM_CTRL_REG_40MHZ_VAL; + data3 = LANE_CFG4_REG_40MHZ_VAL; + } else { + printf + ("hws_ref_clock_set: ref clock is not valid for serdes type %d\n", + serdes_type); + return MV_BAD_PARAM; + } + break; + case SATA0: + case SATA1: + case SATA2: + case SATA3: + case SGMII0: + case SGMII1: + case SGMII2: + case QSGMII: + if (ref_clock == REF_CLOCK_25MHZ) { + data1 = POWER_AND_PLL_CTRL_REG_25MHZ_VAL_1; + } else if (ref_clock == REF_CLOCK_40MHZ) { + data1 = POWER_AND_PLL_CTRL_REG_40MHZ_VAL; + } else { + printf + ("hws_ref_clock_set: ref clock is not valid for serdes type %d\n", + serdes_type); + return MV_BAD_PARAM; + } + break; +#ifdef CONFIG_ARMADA_39X + case SGMII3: + case XAUI: + case RXAUI: + if (ref_clock == REF_CLOCK_25MHZ) { + data1 = POWER_AND_PLL_CTRL_REG_25MHZ_VAL_1; + } else if (ref_clock == REF_CLOCK_40MHZ) { + data1 = POWER_AND_PLL_CTRL_REG_40MHZ_VAL; + } else { + printf + ("hws_ref_clock_set: ref clock is not valid for serdes type %d\n", + serdes_type); + return MV_BAD_PARAM; + } + break; +#endif + default: + DEBUG_INIT_S("hws_ref_clock_set: not supported serdes type\n"); + return MV_BAD_PARAM; + } + + /* + * Write the ref_clock to relevant SELECT_REF_CLOCK_REG bits and + * offset + */ + reg_data = reg_read(POWER_AND_PLL_CTRL_REG + + SERDES_REGS_LANE_BASE_OFFSET(serdes_num)); + reg_data &= POWER_AND_PLL_CTRL_REG_MASK; + reg_data |= data1; + reg_write(POWER_AND_PLL_CTRL_REG + + SERDES_REGS_LANE_BASE_OFFSET(serdes_num), reg_data); + + if ((serdes_type == USB3_HOST0) || (serdes_type == USB3_HOST1) || + (serdes_type == USB3_DEVICE)) { + reg_data = reg_read(GLOBAL_PM_CTRL + + SERDES_REGS_LANE_BASE_OFFSET(serdes_num)); + reg_data &= GLOBAL_PM_CTRL_REG_MASK; + reg_data |= data2; + reg_write(GLOBAL_PM_CTRL + + SERDES_REGS_LANE_BASE_OFFSET(serdes_num), reg_data); + + reg_data = reg_read(LANE_CFG4_REG + + SERDES_REGS_LANE_BASE_OFFSET(serdes_num)); + reg_data &= LANE_CFG4_REG_MASK; + reg_data |= data3; + reg_write(LANE_CFG4_REG + + SERDES_REGS_LANE_BASE_OFFSET(serdes_num), reg_data); + } + + return MV_OK; +} + +/* + * hws_pex_tx_config_seq - + * + * DESCRIPTION: Set PEX_TX_CONFIG_SEQ sequence init for PEXx4 mode + * INPUT: serdes_map - The board topology map + * OUTPUT: None + * RETURNS: MV_OK - for success + * MV_BAD_PARAM - for fail + */ +int hws_pex_tx_config_seq(struct serdes_map *serdes_map) +{ + enum serdes_mode serdes_mode; + u32 serdes_lane_id, serdes_lane_hw_num; + + DEBUG_INIT_FULL_S("\n### hws_pex_tx_config_seq ###\n"); + + /* + * For PEXx4: the pex_and_usb3_tx_config_params1/2/3 + * configurations should run by setting each sequence for + * all 4 lanes. + */ + + /* relese pipe soft reset for all lanes */ + for (serdes_lane_id = 0; serdes_lane_id < hws_serdes_get_max_lane(); + serdes_lane_id++) { + serdes_mode = serdes_map[serdes_lane_id].serdes_mode; + serdes_lane_hw_num = + hws_get_physical_serdes_num(serdes_lane_id); + + if ((serdes_mode == PEX_ROOT_COMPLEX_X4) || + (serdes_mode == PEX_END_POINT_X4)) { + CHECK_STATUS(mv_seq_exec + (serdes_lane_hw_num, PEX_TX_CONFIG_SEQ1)); + } + } + + /* set phy soft reset for all lanes */ + for (serdes_lane_id = 0; serdes_lane_id < hws_serdes_get_max_lane(); + serdes_lane_id++) { + serdes_mode = serdes_map[serdes_lane_id].serdes_mode; + serdes_lane_hw_num = + hws_get_physical_serdes_num(serdes_lane_id); + if ((serdes_mode == PEX_ROOT_COMPLEX_X4) || + (serdes_mode == PEX_END_POINT_X4)) { + CHECK_STATUS(mv_seq_exec + (serdes_lane_hw_num, PEX_TX_CONFIG_SEQ2)); + } + } + + /* set phy soft reset for all lanes */ + for (serdes_lane_id = 0; serdes_lane_id < hws_serdes_get_max_lane(); + serdes_lane_id++) { + serdes_mode = serdes_map[serdes_lane_id].serdes_mode; + serdes_lane_hw_num = + hws_get_physical_serdes_num(serdes_lane_id); + if ((serdes_mode == PEX_ROOT_COMPLEX_X4) || + (serdes_mode == PEX_END_POINT_X4)) { + CHECK_STATUS(mv_seq_exec + (serdes_lane_hw_num, PEX_TX_CONFIG_SEQ3)); + } + } + + return MV_OK; +} |