/* * Thunderbolt Cactus Ridge driver - Port/Switch config area registers * * Every thunderbolt device consists (logically) of a switch with multiple * ports. Every port contains up to four config regions (HOPS, PORT, SWITCH, * COUNTERS) which are used to configure the device. * * Copyright (c) 2014 Andreas Noever */ #ifndef _TB_REGS #define _TB_REGS #include #define TB_ROUTE_SHIFT 8 /* number of bits in a port entry of a route */ /* * TODO: should be 63? But we do not know how to receive frames larger than 256 * bytes at the frame level. (header + checksum = 16, 60*4 = 240) */ #define TB_MAX_CONFIG_RW_LENGTH 60 enum tb_cap { TB_CAP_PHY = 0x0001, TB_CAP_TIME1 = 0x0003, TB_CAP_PCIE = 0x0004, TB_CAP_I2C = 0x0005, TB_CAP_PLUG_EVENTS = 0x0105, /* also EEPROM */ TB_CAP_TIME2 = 0x0305, TB_CAP_IECS = 0x0405, TB_CAP_LINK_CONTROLLER = 0x0605, /* also IECS */ }; enum tb_port_state { TB_PORT_DISABLED = 0, /* tb_cap_phy.disable == 1 */ TB_PORT_CONNECTING = 1, /* retry */ TB_PORT_UP = 2, TB_PORT_UNPLUGGED = 7, }; /* capability headers */ struct tb_cap_basic { u8 next; /* enum tb_cap cap:8; prevent "narrower than values of its type" */ u8 cap; /* if cap == 0x05 then we have a extended capability */ } __packed; struct tb_cap_extended_short { u8 next; /* if next and length are zero then we have a long cap */ enum tb_cap cap:16; u8 length; } __packed; struct tb_cap_extended_long { u8 zero1; enum tb_cap cap:16; u8 zero2; u16 next; u16 length; } __packed; /* capabilities */ struct tb_cap_link_controller { struct tb_cap_extended_long cap_header; u32 count:4; /* number of link controllers */ u32 unknown1:4; u32 base_offset:8; /* * offset (into this capability) of the configuration * area of the first link controller */ u32 length:12; /* link controller configuration area length */ u32 unknown2:4; /* TODO check that length is correct */ } __packed; struct tb_cap_phy { struct tb_cap_basic cap_header; u32 unknown1:16; u32 unknown2:14; bool disable:1; u32 unknown3:11; enum tb_port_state state:4; u32 unknown4:2; } __packed; struct tb_eeprom_ctl { bool clock:1; /* send pulse to transfer one bit */ bool access_low:1; /* set to 0 before access */ bool data_out:1; /* to eeprom */ bool data_in:1; /* from eeprom */ bool access_high:1; /* set to 1 before access */ bool not_present:1; /* should be 0 */ bool unknown1:1; bool present:1; /* should be 1 */ u32 unknown2:24; } __packed; struct tb_cap_plug_events { struct tb_cap_extended_short cap_header; u32 __unknown1:2; u32 plug_events:5; u32 __unknown2:25; u32 __unknown3; u32 __unknown4; struct tb_eeprom_ctl eeprom_ctl; u32 __unknown5[7]; u32 drom_offset; /* 32 bit register, but eeprom addresses are 16 bit */ } __packed; /* device headers */ /* Present on port 0 in TB_CFG_SWITCH at address zero. */ struct tb_regs_switch_header { /* DWORD 0 */ u16 vendor_id; u16 device_id; /* DWORD 1 */ u32 first_cap_offset:8; u32 upstream_port_number:6; u32 max_port_number:6; u32 depth:3; u32 __unknown1:1; u32 revision:8; /* DWORD 2 */ u32 route_lo; /* DWORD 3 */ u32 route_hi:31; bool enabled:1; /* DWORD 4 */ u32 plug_events_delay:8; /* * RW, pause between plug events in * milliseconds. Writing 0x00 is interpreted * as 255ms. */ u32 __unknown4:16; u32 thunderbolt_version:8; } __packed; enum tb_port_type { TB_TYPE_INACTIVE = 0x000000, TB_TYPE_PORT = 0x000001, TB_TYPE_NHI = 0x000002, /* TB_TYPE_ETHERNET = 0x020000, lower order bits are not known */ /* TB_TYPE_SATA = 0x080000, lower order bits are not known */ TB_TYPE_DP_HDMI_IN = 0x0e0101, TB_TYPE_DP_HDMI_OUT = 0x0e0102, TB_TYPE_PCIE_DOWN = 0x100101, TB_TYPE_PCIE_UP = 0x100102, /* TB_TYPE_USB = 0x200000, lower order bits are not known */ }; /* Present on every port in TB_CF_PORT at address zero. */ struct tb_regs_port_header { /* DWORD 0 */ u16 vendor_id; u16 device_id; /* DWORD 1 */ u32 first_cap_offset:8; u32 max_counters:11; u32 __unknown1:5; u32 revision:8; /* DWORD 2 */ enum tb_port_type type:24; u32 thunderbolt_version:8; /* DWORD 3 */ u32 __unknown2:20; u32 port_number:6; u32 __unknown3:6; /* DWORD 4 */ u32 nfc_credits; /* DWORD 5 */ u32 max_in_hop_id:11; u32 max_out_hop_id:11; u32 __unkown4:10; /* DWORD 6 */ u32 __unknown5; /* DWORD 7 */ u32 __unknown6; } __packed; /* Hop register from TB_CFG_HOPS. 8 byte per entry. */ struct tb_regs_hop { /* DWORD 0 */ u32 next_hop:11; /* * hop to take after sending the packet through * out_port (on the incoming port of the next switch) */ u32 out_port:6; /* next port of the path (on the same switch) */ u32 initial_credits:8; u32 unknown1:6; /* set to zero */ bool enable:1; /* DWORD 1 */ u32 weight:4; u32 unknown2:4; /* set to zero */ u32 priority:3; bool drop_packages:1; u32 counter:11; /* index into TB_CFG_COUNTERS on this port */ bool counter_enable:1; bool ingress_fc:1; bool egress_fc:1; bool ingress_shared_buffer:1; bool egress_shared_buffer:1; u32 unknown3:4; /* set to zero */ } __packed; #endif tr> commit6e978b22efa1db9f6e71b24440b5f1d93e968ee3 (patch) treec666f7a26b860674848949e39a610222b0723f89 /net/sctp/socket.c parent3c223c19aea85d3dda1416c187915f4a30b04b1f (diff)
cpufreq: intel_pstate: Disable energy efficiency optimization
Some Kabylake desktop processors may not reach max turbo when running in HWP mode, even if running under sustained 100% utilization. This occurs when the HWP.EPP (Energy Performance Preference) is set to "balance_power" (0x80) -- the default on most systems. It occurs because the platform BIOS may erroneously enable an energy-efficiency setting -- MSR_IA32_POWER_CTL BIT-EE, which is not recommended to be enabled on this SKU. On the failing systems, this BIOS issue was not discovered when the desktop motherboard was tested with Windows, because the BIOS also neglects to provide the ACPI/CPPC table, that Windows requires to enable HWP, and so Windows runs in legacy P-state mode, where this setting has no effect. Linux' intel_pstate driver does not require ACPI/CPPC to enable HWP, and so it runs in HWP mode, exposing this incorrect BIOS configuration. There are several ways to address this problem. First, Linux can also run in legacy P-state mode on this system. As intel_pstate is how Linux enables HWP, booting with "intel_pstate=disable" will run in acpi-cpufreq/ondemand legacy p-state mode. Or second, the "performance" governor can be used with intel_pstate, which will modify HWP.EPP to 0. Or third, starting in 4.10, the /sys/devices/system/cpu/cpufreq/policy*/energy_performance_preference attribute in can be updated from "balance_power" to "performance". Or fourth, apply this patch, which fixes the erroneous setting of MSR_IA32_POWER_CTL BIT_EE on this model, allowing the default configuration to function as designed. Signed-off-by: Srinivas Pandruvada <srinivas.pandruvada@linux.intel.com> Reviewed-by: Len Brown <len.brown@intel.com> Cc: 4.6+ <stable@vger.kernel.org> # 4.6+ Signed-off-by: Rafael J. Wysocki <rafael.j.wysocki@intel.com>
Diffstat (limited to 'net/sctp/socket.c')