mirror of
https://github.com/nxp-imx/mwifiex.git
synced 2024-11-15 03:25:35 +00:00
592bc0fa92
changes: 1. WCSWREL-126: Fixed PCIE9098 suspend fail on imx8mq. 2. WCSWREL-87: Hostsleep fails as DUT doesnot wake up on traffic/pattern. Signed-off-by: Sherry Sun <sherry.sun@nxp.com> Approved-by: Tian Yang <yang.tian@nxp.com>
1458 lines
63 KiB
Text
1458 lines
63 KiB
Text
===============================================================================
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U S E R M A N U A L
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Copyright 2008-2021 NXP
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1) FOR DRIVER BUILD
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Goto source code directory wlan_src/.
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make [clean] build
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The driver and utility binaries can be found in ../bin_xxxx directory.
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The driver code supports Linux kernel from 2.6.32 to 5.8.0.
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2) FOR DRIVER INSTALL
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a) Copy firmware image to /lib/firmware/nxp/, copy wifi_mod_para.conf to /lib/firmware/nxp/.
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b) Install WLAN driver
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There are drv_mode, max_sta_bss, max_uap_bss etc. module parameters.
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The bit settings of drv_mode are,
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Bit 0 : STA
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Bit 1 : uAP
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Bit 2 : WIFIDIRECT
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max_sta_bss: Maximum number of STA BSS (default 1, max 1)
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sta_name: Name of the STA interface (default: "mlan")
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max_uap_bss: Maximum number of uAP BSS (default 1, max 1)
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uap_name: Name of the uAP interface (default: "uap")
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max_wfd_bss: Maximum number of WIFIDIRECT BSS (default 1, max 1)
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wfd_name: Name of the WIFIDIRECT interface (default: "wfd")
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max_vir_bss: Number of Virtual interfaces (default 0)
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uap_oper_ctrl: uAP operation control when in-STA disconnect with ext-AP
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0: default do nothing, 2: uAP stops and restarts automatically
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For example, to install multi-chip driver,
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insmod mlan.ko
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insmod moal.ko mod_para=nxp/wifi_mod_para.conf [drvdbg=0x7]
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wifi_mod_para.conf is used to support multi-chips which has different load module parameters. It contains
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the module parameters for different chips.
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c) Uninstall WLAN driver,
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ifconfig mlanX down
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ifconfig uapX down
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rmmod moal
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rmmod mlan
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To load driver with MFG firmware file, use mfg_mode=1 when insmod WLAN driver and
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specify MFG firmware name if needed.
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There are some other parameters for debugging purpose etc. Use modinfo to check details.
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drvdbg=<bit mask of driver debug message control>
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dev_cap_mask=<Bit mask of the device capability>
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mac_addr=xx:xx:xx:xx:xx:xx <override the MAC address (in hex)>
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auto_ds=0|1|2 <use MLAN default | enable auto deepsleep | disable auto deepsleep>
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ps_mode=0|1|2 <use MLAN default | enable IEEE PS mode | disable IEEE PS mode>
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max_tx_buf=2048|4096|8192 <maximum AMSDU Tx buffer size>
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pm_keep_power=1|0 <PM keep power in suspend (default) | PM no power in suspend>
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shutdown_hs=1|0 <Enable HS when shutdown | No HS when shutdown (default)>
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cfg_11d=0|1|2 <use MLAN default | enable 11d | disable 11d>
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dts_enable=0|1 <Disable DTS | Enable DTS (default)>
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fw_name = <FW file name>
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e.g. copy pcieuart9098_combo_v1.bin to firmware directory, fw_name=nxp/pcieuart9098_combo_v1.bin
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hw_test=0|1 <Disable hardware test (default) | Enable hardware test>
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fw_serial=0|1 <support parallel download FW | support serial download FW (default)>
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req_fw_nowait=0|1 <use request_firmware API (default) | use request_firmware_nowait API>
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dfs53cfg=0|1|2 <use Fw Default | New W53 | Old W53>
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SD8887: antcfg=0|1|2|0xffff <default | Tx/Rx antenna 1 | Tx/Rx antenna 2 | enable antenna diversity>
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SD8897/SD8997: antcfg=0x11|0x13|0x33 <Bit0:Rx Path A, Bit1:Rx Path B, Bit 4:Tx Path A, Bit 5:Tx Path B>
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slew_rate: Slew Rate Control value = 0|1|2|3 (0 is the slowest slew rate and 03 has the highest slew rate (default))
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init_cfg=<init config (MAC addresses, registers etc.) file name>
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e.g. copy init_cfg.conf to firmware directory, init_cfg=nxp/init_cfg.conf
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cal_data_cfg=<CAL data config file name>
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e.g. copy cal_data.conf to firmware directory, cal_data_cfg=nxp/cal_data.conf
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Note: Loading driver with 8887 must include correct cal_data_cfg parameter.
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dpd_data_cfg=<DPD data config file name>
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e.g. copy dpd_data.conf to firmware directory, dpd_data_cfg=nxp/dpd_data.conf
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txpwrlimit_cfg=<Tx power limit config file name>
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e.g. copy txpwrlimit_cfg_set.conf to firmware directory, txpwrlimit_cfg=nxp/txpwrlimit_cfg_set.conf
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cntry_txpwr=0|1|2
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0: Disable setting tx power table of country (default)
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1: Enable setting tx power table of country
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2: Enable setting rgpower table of country
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init_hostcmd_cfg=<init hostcmd config file name>
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e.g. copy init_hostcmd_cfg.conf to firmware directory, init_hostcmd_cfg=nxp/init_hostcmd_cfg.conf
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band_steer_cfg=<band steer config file name>
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e.g. generate bscfg.conf by band_steer_cfg.conf, then copy bscfg.conf to firmware directory, band_steer_cfg=nxp/bscfg.conf
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sdio_rx_aggr=1|0 <Enable SDIO rx aggr (default) | Disable SDIO rx aggr>
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cfg80211_wext=<bit mask of CFG80211 and WEXT control>
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Bit 0: STA WEXT
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Bit 1: uAP WEXT
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Bit 2: STA CFG80211
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Bit 3: uAP CFG80211
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reg_alpha2=<Regulatory alpha2 (default NULL)>
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skip_fwdnld=0|1 <enable FW download support (default) | disable FW download support>
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wq_sched_prio: Priority for work queue
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wq_sched_policy: Scheduling policy for work queue
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(0: SCHED_NORMAL, 1: SCHED_FIFO, 2: SCHED_RR, 3: SCHED_BATCH, 5: SCHED_IDLE)
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Please note that, both wq_sched_prio and wq_sched_policy should be provided
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as module parameters. If wq_sched_policy is (0, 3 or 5), then wq_sched_prio
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must be 0. wq_sched_prio should be 1 to 99 otherwise.
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rx_work=0|1|2 <default | Enable rx_work_queue | Disable rx_work_queue>
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pcie_int_mode=0|1|2 <Legacy mode, MSI mode (default), MSI-X mode>
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pcie_int_mode=0|1 <Legacy mode, MSI mode (default)>
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ring_size=32|64|128|256|512 <adma ring size for 9097/9098>
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aggrctrl=1|0 <enable Tx aggr | disable Tx aggr>
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usb_aggr=0|1|2 <use MLAN default (disabled) | enable USB aggr | disable USB aggr>
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low_power_mode_enable=0|1 <disable low power mode (default)| enable low power mode>
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When low power mode is enabled, the output power will be clipped at ~+10dBm and the
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expected PA current is expected to be in the 80-90 mA range for b/g/n modes
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wakelock_timeout=<set wakelock_timeout value (ms)>
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pmic=0|1 <No pmic configure cmd sent to firmware | Send pmic configure cmd to firmware>
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indication_gpio=0xXY <GPIO to indicate wakeup source and its level; high four bits X:
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level(0/1) for normal wakeup; low four bits Y: GPIO pin number. This parameter
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only works with specific board and firmware.>
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hs_wake_interval=<Host sleep wakeup interval,it will round to nearest multiple dtim*beacon_period in fw>
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disconnect_on_suspend=0|1 <Disable disconnect wifi on suspend (default) | Enable disconnect wifi on suspend>
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hs_mimo_switch=0|1 <Disable dynamic MIMO-SISO switch during host sleep (default) | Enable dynamic MIMO-SISO switch during host sleep>
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gtk_rekey_offload=0|1|2 <disable gtk_rekey_offload|enable gtk_rekey_offload (default) | enable gtk_rekey_offload in suspend mode only>
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napi=0|1 <disable napi | enable napi>
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fixed_beacon_buffer=0|1 <allocate default buffer size (default) | allocate max buffer size>
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GoAgeoutTime=0|x <use default ageout time (default) | set Go age out time xTU(TU 100ms)>
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multi_dtim=0|x <use default DTIM interval(default) | set x*beacon_period as DTIM interval>
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inact_tmo=0|x <use default IEEE ps inactivity timout value (default) | use IEEE ps inactivity timeout value x ms>
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uap_max_sta: Maximum number of STA for UAP/GO (default 0, max 64)
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host_mlme=0|1 <Operate in non-host_mlme mode (default)| Operate in host_mlme mode>
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for supplicant/authenticator running on host side, WPA3 support is available only in host_mlme mode
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country_ie_ignore=0|1 <Follow countryIE from AP and beacon hint enable (default) | Ignore countryIE from AP and beacon hint disable>
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beacon_hints=0|1 <enable beacon hints(default) | disable beacon hints>
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Note: On some platforms (e.g. PXA910/920) double quotation marks ("") need to used
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for module parameters.
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insmod sdxxx.ko "<para1> <para2> ..."
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3) FOR DRIVER PROC & DEBUG
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The following info are provided in /proc/net/mwlan/adapterX/mlanY|uapY|wfdY/info,
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on kernel 2.6.24 or later, the entry is /proc/mwlan/adapterX/mlanY|uapY|wfdY/info.
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driver_name = "wlan" or "uap"
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driver_version = <chip id, firmware version and driver version>
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interface_name = "mlanX", "uapX" or "wfdX"
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bss_mode = "Ad-hoc" | "Managed" | "Auto" | "Unknown"
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media_state = "Disconnected" | "Connected"
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mac_address = <6-byte adapter MAC address>
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multicase_count = <multicast address count> // Only for STA
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essid = <current SSID> // Only for STA
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bssid = <current BSSID> // Only for STA
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channel = <current channel> // Only for STA
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region_code = <current region code> // Only for STA
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multicast_address[n] = <multicast address> // Only for STA
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num_tx_bytes = <number of bytes sent to device>
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num_rx_bytes = <number of bytes received from device and sent to kernel>
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num_tx_pkts = <number of packets sent to device>
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num_rx_pkts = <number of packets received from device and sent to kernel>
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num_tx_pkts_dropped = <number of Tx packets dropped by driver>
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num_rx_pkts_dropped = <number of Rx packets dropped by driver>
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num_tx_pkts_err = <number of Tx packets failed to send to device>
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num_rx_pkts_err = <number of Rx packets failed to receive from device>
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carrier "on" | "off"
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tx queue "stopped" | "started"
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tkip_mic_failures = 0 // Only for uAP
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ccmp_decrypt_errors = 0 // Only for uAP
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wep_undecryptable_count = 0 // Only for uAP
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wep_icv_error_count = 0 // Only for uAP
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decrypt_failure_count = 0 // Only for uAP
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mcast_tx_count = 0 // Only for uAP
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failed_count = 0 // Only for uAP
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retry_count = 0 // Only for uAP
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multiple_retry_count = 0 // Only for uAP
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frame_duplicate_count = 0 // Only for uAP
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rts_success_count = 0 // Only for uAP
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rts_failure_count = 0 // Only for uAP
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ack_failure_count = 0 // Only for uAP
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rx_fragment_count = 0 // Only for uAP
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mcast_rx_frame_count = 0 // Only for uAP
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fcs_error_count = 0 // Only for uAP
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tx_frame_count = 0 // Only for uAP
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rsna_tkip_cm_invoked = 0 // Only for uAP
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rsna_4way_hshk_failures = 0 // Only for uAP
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The following debug info are provided in /proc/net/mwlan/adapterX/mlanY|uapY|wfdY/debug,
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on kernel 2.6.24 or later, the entry is /proc/mwlan/adapterX/mlanY|uapY|wfdY/debug.
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drvdbg = <bit mask of driver debug message control>
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wmm_ac_vo = <number of packets sent to device from WMM AcVo queue>
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wmm_ac_vi = <number of packets sent to device from WMM AcVi queue>
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wmm_ac_be = <number of packets sent to device from WMM AcBE queue>
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wmm_ac_bk = <number of packets sent to device from WMM AcBK queue>
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max_tx_buf_size = <maximum Tx buffer size>
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tx_buf_size = <current Tx buffer size>
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curr_tx_buf_size = <current Tx buffer size in FW>
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ps_mode = <0/1, CAM mode/PS mode>
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ps_state = <0/1/2/3, awake state/pre-sleep state/sleep-confirm state/sleep state>
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is_deep_sleep = <0/1, not deep sleep state/deep sleep state> // Only for STA
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wakeup_dev_req = <0/1, wakeup device not required/required>
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wakeup_tries = <wakeup device count, cleared when device awake>
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hs_configured = <0/1, host sleep not configured/configured>
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hs_activated = <0/1, extended host sleep not activated/activated>
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tx_pkts_queued = <number of Tx packets queued>
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pps_uapsd_mode = <0/1, PPS/UAPSD mode disabled/enabled> // Only for STA
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sleep_pd = <sleep period in milliseconds> // Only for STA
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qos_cfg = <WMM QoS info> // Only for STA
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tx_lock_flag = <0/1, Tx lock flag> // Only for STA
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port_open = <0/1, port open flag> // Only for STA
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scan_processing = <0/1, scan processing flag> // Only for STA
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num_bridge_pkts = <number of bridged packets> // Only for uAP
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num_drop_pkts = <number of dropped packets> // Only for uAP
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num_tx_timeout = <number of Tx timeout>
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num_cmd_timeout = <number of timeout commands>
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timeout_cmd_id = <command id of the last timeout command>
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timeout_cmd_act = <command action of the last timeout command>
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last_cmd_id = <command id of the last several commands sent to device>
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last_cmd_act = <command action of the last several commands sent to device>
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last_cmd_index = <0 based last command index>
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last_cmd_resp_id = <command id of the last several command responses received from device>
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last_cmd_resp_index = <0 based last command response index>
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last_event = <event id of the last several events received from device>
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last_event_index = <0 based last event index>
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num_cmd_h2c_fail = <number of commands failed to send to device>
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num_cmd_sleep_cfm_fail = <number of sleep confirm failed to send to device>
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num_tx_h2c_fail = <number of data packets failed to send to device>
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num_cmdevt_c2h_fail = <number of commands/events failed to receive from device>
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num_rx_c2h_fail = <number of data packets failed to receive from device>
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num_int_read_fail = <number of interrupt read failures>
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last_int_status = <last interrupt status>
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num_evt_deauth = <number of deauthenticated events received from device> // Only for STA
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num_evt_disassoc = <number of disassociated events received from device> // Only for STA
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num_evt_link_lost = <number of link lost events received from device> // Only for STA
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num_cmd_deauth = <number of deauthenticate commands sent to device> // Only for STA
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num_cmd_assoc_ok = <number of associate commands with success return> // Only for STA
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num_cmd_assoc_fail = <number of associate commands with failure return> // Only for STA
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cmd_sent = <0/1, send command resources available/sending command to device>
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data_sent = <0/1, send data resources available/sending data to device>
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mp_rd_bitmap = <SDIO multi-port read bitmap>
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curr_rd_port = <SDIO multi-port current read port>
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mp_wr_bitmap = <SDIO multi-port write bitmap>
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curr_wr_port = <SDIO multi-port current write port>
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txbd_rdptr = <PCIE transmit read pointer>
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txbd_wrptr = <PCIE transmit write pointer>
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rxbd_rdptr = <PCIE recieve read pointer>
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rxbd_wrptr = <PCIE recieve write pointer>
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eventbd_rdptr = <PCIE event read pointer>
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eventbd_wrptr = <PCIE event write pointer>
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cmd_resp_received = <0/1, no cmd response to process/response received and yet to process>
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event_received = <0/1, no event to process/event received and yet to process>
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tx_cmd_urb_pending = <number of URB pending for cmd transmit>
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tx_data_urb_pending = <number of URB pending for data transmit>
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rx_cmd_urb_pending = <number of URB pending for cmd receive>
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rx_data_urb_pending = <number of URB pending for data receive>
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ioctl_pending = <number of ioctl pending>
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tx_pending = <number of Tx packet pending>
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rx_pending = <number of Rx packet pending>
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lock_count = <number of lock used>
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malloc_count = <number of malloc done>
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mbufalloc_count = <number of mlan_buffer allocated>
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malloc_cons_count = <number of consistent malloc done>
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main_state = <current state of the main process>
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sdiocmd53w = <SDIO Cmd53 write status>
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sdiocmd53r = <SDIO Cmd52 read status>
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hs_skip_count = <number of skipped suspends>
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hs_force_count = <number of forced suspends>
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Issue SDIO cmd52 read/write through proc.
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Usage:
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echo "sdcmd52rw=<func> <reg> [data]" > /proc/mwlan/adapterX/config
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where the parameters:
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func: The function number to use (0-7)
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reg: The address of the register
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data: The value to write, read if the value is absent
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For SDIO MMC driver, only function 0 and WLAN function access is allowed.
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And there is a limitation for function 0 write, only vendor specific CCCR
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registers (0xf0 -0xff) are permiited.
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Examples:
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echo "sdcmd52rw= 0 4" > /proc/mwlan/adapterX/config # read func 0 address 4
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cat /proc/mwlan/adapterX/config # display the register value
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echo "sdcmd52rw= 1 3 0xf" > /proc/mwlan/adapterX/config # write 0xf to func 1 address 3
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Issue debug_dump command through proc.
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Usage:
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echo "debug_dump" > /proc/mwlan/adapterX/config
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Examples:
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echo "debug_dump" > /proc/mwlan/adapterX/config # dump driver internal debug status.
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Use dmesg or cat /var/log/debug to check driver debug messages.
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Update /proc/sys/kernel/printk to change message log levels.
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For example,
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echo 6 > /proc/sys/kernel/printk (messages with a higher priority than 6
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will be printed to the console)
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echo 15 > /proc/sys/kernel/printk (all messages will be printed to console)
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4) FOR FW RELOAD
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a) Enable parallel firmware download in driver parameter
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insmod sdxxx.ko fw_serial=0
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b) default fw name for parallel firmware download
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sd8887_wlan_a2.bin
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c) Trigger FW reload
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echo "fw_reload=1" > /proc/mwlan/adapterX/config trigger inband firmware reset and reload firmware
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echo "fw_reload=2" > /proc/mwlan/adapterX/config trigger firmware reload
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echo "fw_reload=3" > /proc/mwlan/adapterX/config set firmware reload flag in driver.
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echo "fw_reload=4" > /proc/mwlan/config trigger pcie FLR and reload firmware.
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(Note: This feature will be supported on Robin3 and KF2.
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For CAC-A2, it only work with the board which supports parallel fw download)
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5) FOR RF test mode commands:
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Following commands are used to perform RF testing of the wifi chipset.
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Please not that these test mode commands can only be issued while the
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device is in disconnected state and the uAP BSS is inactive.
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Normal wifi operations cannot be used on entering RF Test Mode.
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Enter RF Test Mode:
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echo "rf_test_mode=1" > /proc/mwlan/adapterX/config
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Exit RF Test Mode:
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echo "rf_test_mode=0" > /proc/mwlan/adapterX/config
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Please note that after exiting the RF Test Mode, the FW needs to be
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reset in order to use normal wifi connectivity.
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To get the set of available RF Test Mode commands, currently set
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parameters values for each command and the output,
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cat /proc/mwlan/adapterX/config
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Set Tx Antenna
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For 1x1 chipsets, 1:Main, 2:Aux when antenna diversity is supported
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For 2x2 chipsets, 1:Path A, 2: Path B, 3: Path A+B
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Both Tx and Rx must be set to same antenna path
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echo "tx_antenna=1" > /proc/mwlan/adapterX/config
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Set Rx Antenna
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For 1x1 chipsets, 1:Main, 2:Aux when antenna diversity is supported
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For 2x2 chipsets, 1:Path A, 2:Path B, 3:Path A+B
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Both Tx and Rx must be set to same antenna path
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echo "rx_antenna=1" > /proc/mwlan/adapterX/config
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Set RF band (0:2G, 1:5G)
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For 2G, channel will be reset to 6, while for 5G, to channel 36
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echo "band=0" > /proc/mwlan/adapterX/config
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|
|
|
Set RF bandwidth (0:20MHz, 1:40MHz, 4:80MHz)
|
|
echo "bw=0" > /proc/mwlan/adapterX/config
|
|
|
|
Set RF channel
|
|
echo "channel=6" > /proc/mwlan/adapterX/config
|
|
|
|
Set Radio Mode
|
|
echo "radio_mode=14 4" > /proc/mwlan/adapterX/config
|
|
|
|
Get and reset packet error rate
|
|
echo "get_and_reset_per" > /proc/mwlan/adapterX/config
|
|
|
|
Set Tx Power
|
|
This command will set power only if caldata is already loaded in the FW.
|
|
Power (0 to 24 dBm)
|
|
Modulation (0: CCK, 1:OFDM, 2:MCS)
|
|
Path ID (0: PathA, 1:PathB, 2:PathA+B)
|
|
echo "tx_power=16 2 0" > /proc/mwlan/adapterX/config
|
|
|
|
Set Tx Continuous Mode
|
|
Start (0:disable, 1:enable)
|
|
Continuous Wave Mode (0:disable, 1:enable)
|
|
Payload Pattern (0 to 0xFFFFFFFF)
|
|
CS Mode (Applicable only when continuous wave is disabled)
|
|
(0:disable, 1:enable)
|
|
Active SubChannel (0:low, 1:upper, 3:both)
|
|
Tx Data Rate (Rate Index corresponding to legacy/HT/VHT rates)
|
|
|
|
Example: To start continuous wave (tone) mode, first stop any ongoing
|
|
Tx and then start wave mode:
|
|
step1: echo "tx_continuous=0" > /proc/mwlan/adapterX/config
|
|
step2: echo "tx_continuous=1 1 0xAAA 0 3 7" > /proc/mwlan/adapterX/config
|
|
|
|
Example: To start continuous packet mode, first stop any ongoing Tx and
|
|
then start pkt mode:
|
|
step1: echo "tx_continuous=0" > /proc/mwlan/adapterX/config
|
|
step2: echo "tx_continuous=1 0 0xAAA 0 3 7" > /proc/mwlan/adapterX/config
|
|
|
|
stop:
|
|
echo "tx_continuous=0" > /proc/mwlan/adapterX/config
|
|
|
|
Set Tx Frame
|
|
Start (0:disable, 1:enable)
|
|
Tx Data Rate (Rate Index corresponding to legacy/HT/VHT rates)
|
|
Payload Pattern (0 to 0xFFFFFFFF)
|
|
Payload Length (1 to 0x400)
|
|
Adjust Burst SIFS Gap (0:disable, 1:enable)
|
|
Burst SIFS in us (0 to 255us)
|
|
Short Preamble (0:disable, 1:enable)
|
|
Active SubChannel (0:low, 1:upper, 3:both)
|
|
Short GI (0:disable, 1:enable)
|
|
Adv Coding (0:disable, 1:enable)
|
|
Beamforming (0:disable, 1:enable)
|
|
GreenField Mode (0:disable, 1:enable)
|
|
STBC (0:disable, 1:enable)
|
|
BSSID (xx:xx:xx:xx:xx:xx)
|
|
|
|
Example: To start Tx frame with duty cycle, first stop any ongoing Tx
|
|
and then start Tx frame:
|
|
echo "tx_frame=0" > /proc/mwlan/adapterX/config
|
|
echo "tx_frame=1 7 0xAAA 0x100 1 20 0 0 0 0 0 0 0 05:43:3f:c4:51" > /proc/mwlan/adapterX/config
|
|
|
|
|
|
===============================================================================
|
|
U S E R M A N U A L F O R MLANUTL
|
|
|
|
NAME
|
|
mlanutl - configure the additional parameters available for NXP mdriver.
|
|
|
|
SYNOPSIS
|
|
mlanutl -v
|
|
mlanutl <mlanX|uapX|wfdx> <command> [parameters] ...
|
|
|
|
mlanutl mlanX verext
|
|
mlanutl mlanX version
|
|
mlanutl mlanX hostcmd <conf> generate_raw <raw_data_file>
|
|
mlanutl mlanX hostcmd <send_om.conf> send_om_set
|
|
mlanutl mlanX getdatarate
|
|
mlanutl uapX getdatarate
|
|
mlanutl mlanX drvdbg [n]
|
|
mlanutl mlanX getlog
|
|
mlanutl mlanX getsignal [m] [n]
|
|
mlanutl mlanX signalextcfg [m]
|
|
mlanutl mlanX getsignalextv2 [m]
|
|
mlanutl mlanX getsignalext [m]
|
|
mlanutl mlanX get_txpwrlimit <n> [raw_data_file]
|
|
mlanutl mlanX aggrpriotbl [<m0> <n0> <m1> <n1> ... <m7> <n7>]
|
|
mlanutl uapX aggrpriotbl [<m0> <n0> <m1> <n1> ... <m7> <n7>]
|
|
mlanutl mlanX addbapara [<m> <n> <o> <p> <q>]
|
|
mlanutl uapX addbapara [<m> <n> <o> <p> <q>]
|
|
mlanutl mlanX addbareject [<m0> <m1> ... <m7>]
|
|
mlanutl uapX addbareject [<m0> <m1> ... <m7>]
|
|
mlanutl mlanX dyn_bw [n]
|
|
mlanutl mlanX vhtcfg <j> <k> [l] [m] [n] [o]
|
|
mlanutl uapX vhtcfg <j> <k> [l] [m] [n] [o]
|
|
mlanutl mlanX httxcfg [<m>] [<n>]
|
|
mlanutl mlanX htcapinfo [<m>] [<n>]
|
|
mlanutl mlanX 11axcfg [config/11axcfg.conf]
|
|
mlanutl mlanX 11axcmd <subcmd> <value>
|
|
mlanutl mlanX txratecfg [l] [m] [n] [o]
|
|
mlanutl uapX txratecfg [l] [m] [n] [o]
|
|
mlanutl mlanX hssetpara condition [GPIO# [gap]] [ind_GPIO# [level]]
|
|
mlanutl mlanX mefcfg <mef.conf>
|
|
mlanutl mlanX cloud_keep_alive <keep_alive.conf> <start/stop/reset>
|
|
|
|
DESCRIPTION
|
|
Those commands are used to send additional commands to the NXP MLAN
|
|
card via the Linux device driver.
|
|
|
|
The mlanX parameter specifies the network device that is to be used to
|
|
perform this command on. It could be mlan0, mlan1 etc.
|
|
|
|
verext
|
|
Retrieve and display an extended version string from the firmware
|
|
|
|
Usage:
|
|
mlanutl mlanX verext [#]
|
|
|
|
where [#] is an optional argument to retrieve a specific version string,
|
|
omission of the argument retrieves the 0 indexed string.
|
|
|
|
version
|
|
This is used to get the current version of the driver and the firmware.
|
|
|
|
drvdbg
|
|
This command is used to set/get the bit masks of driver debug message control.
|
|
|
|
Usage:
|
|
mlanutl mlanX drvdbg [n]
|
|
|
|
Where the parameter <n> is the generic debug message control bit mask.
|
|
The following types of driver debug messages can be dynamically enabled or
|
|
disabled by setting or clearing the corresponding bits,
|
|
bit 0: MMSG PRINTM(MMSG,...)
|
|
bit 1: MFATAL PRINTM(MFATAL,...)
|
|
bit 2: MERROR PRINTM(MERROR,...)
|
|
bit 3: MDATA PRINTM(MDATA,...)
|
|
bit 4: MCMND PRINTM(MCMND,...)
|
|
bit 5: MEVENT PRINTM(MEVENT,...)
|
|
bit 6: MINTR PRINTM(MINTR,...)
|
|
bit 7: MIOCTL PRINTM(MIOCTL,...)
|
|
...
|
|
bit 16: MDAT_D PRINTM(MDAT_D,...), DBG_HEXDUMP(MDAT_D,...)
|
|
bit 17: MCMD_D PRINTM(MCMD_D,...), DBG_HEXDUMP(MCMD_D,...)
|
|
bit 18: MEVT_D PRINTM(MEVT_D,...), DBG_HEXDUMP(MEVT_D,...)
|
|
bit 19: MFW_D PRINTM(MFW_D,...), DBG_HEXDUMP(MFW_D,...)
|
|
bit 20: MIF_D PRINTM(MIF_D,...), DBG_HEXDUMP(MIF_D,...)
|
|
...
|
|
bit 28: MENTRY PRINTM(MENTRY,...), ENTER(), LEAVE()
|
|
bit 29: MWARN PRINTM(MWARN,...)
|
|
bit 30: MINFO PRINTM(MINFO,...)
|
|
|
|
If CONFIG_DEBUG=2, all kinds of debug messages can be configured.
|
|
|
|
If CONFIG_DEBUG=1, all kinds of debug messages can be configured except
|
|
for MENTRY, MWARN and MINFO. By default MMSG, MFATAL and MERROR are enabled.
|
|
|
|
Some special debug messages,
|
|
'*' // MLAN driver ISR is called (bit 6 MINTR enabled)
|
|
'|' // PS awake event is received (bit 5 MEVENT enabled)
|
|
'_' // PS sleep event is received (bit 5 MEVENT enabled)
|
|
'+' // PS sleep confirm is sent (bit 5 MEVENT enabled)
|
|
|
|
Examples:
|
|
mlanutl mlan0 drvdbg : Get the current driver debug masks
|
|
mlanutl mlan0 drvdbg 0 : Disable all the debug messages
|
|
mlanutl mlan0 drvdbg 7 : Enable MMSG, MFATAL and MERROR messages
|
|
mlanutl mlan0 drvdbg 0x20037 : Enable MMSG, MFATAL, MEEROR,
|
|
MCMND, MEVENT and MCMD_D messages
|
|
mlanutl mlan0 drvdbg -1 : Enable all the debug messages
|
|
|
|
hostcmd generate_raw
|
|
This command is used to generate the raw data(hostcommand block) for
|
|
hostcommand in <conf_file> and write that to file <raw_data_file>
|
|
|
|
Usage:
|
|
mlanutl mlanX hostcmd <conf_file> generate_raw <raw_data_file>
|
|
|
|
hostcmd send_om_set
|
|
This command is used to configure the STAUT to include OM control subfield
|
|
|
|
Usage:
|
|
mlanutl mlanX hostcmd <send_om.conf> send_om_set
|
|
|
|
getdatarate
|
|
This command is used to get the data rate being used in last Tx
|
|
packet and last Rx packet.
|
|
|
|
getlog
|
|
This command is used to get the statistics available in the station.
|
|
Following stats are displayed:-
|
|
dot11MulticastTransmittedFrameCount Increments when the multicast bit is set in the destination
|
|
MAC address of a successfully transmitted MSDU
|
|
|
|
dot11FailedCount Increments when an MSDU is not transmitted successfully
|
|
|
|
dot11RetryCount Increments when an MSDU is successfully transmitted after one
|
|
or more retransmissions
|
|
|
|
dot11MultipleRetryCount Increments when an MSDU is successfully transmitted after more
|
|
than one retransmission
|
|
|
|
dot11FrameDuplicateCount Increments when a frame is received that the Sequence Control
|
|
field is indicating a duplicate count
|
|
|
|
dot11RTSSuccessCount Increments when a CTS is received in response to an RTS
|
|
|
|
dot11RTSFailureCount Increments when a CTS is not received in response to an RTS
|
|
|
|
dot11ACKFaliureCount Increments when an ACK is not received when expected
|
|
|
|
dot11ReceivedFragmentCount Increments for each successfully received MPDU of type Data or Management
|
|
|
|
dot11MulticastReceivedFrameCount Increments when a MSDU is received with the multicast bit set in the destination MAC address
|
|
|
|
dot11FCSErrorCount Increments when an FCS error is detected in a received MPDU
|
|
|
|
dot11TransmittedFrameCount Increments for each successfully transmitted MSDU
|
|
|
|
dot11WeplcvErrCnt Increment when WEP decryption error for key index 0.3
|
|
|
|
beaconReceivedCnt Increments when received beacon
|
|
|
|
beaconMissedCnt Increments when beacon missed
|
|
|
|
dot11TransmittedFrameCount Increments for each successfully transmitted MSDU
|
|
|
|
dot11QosTransmittedFragmentCount Increments when a corresponding UP's MPDU transmitted successfully
|
|
|
|
dot11QosFailedCount Increments when a corresponding UP's MSDU not transmitted successfully
|
|
|
|
dot11QosRetryCount Increment when a corresponding UP's MSDU transmitted successfully after one or more retransmission
|
|
|
|
dot11QosMultipleRetryCount Increments when a corresponding UP's MSDU is successfully transmitted after more than one retransmission
|
|
|
|
dot11QosFrameDuplicateCount Increments when a corresponding UP's frame is received that the Sequence
|
|
Control field is indicating a duplicate frame
|
|
|
|
dot11QosRTSSuccessCount Increments when a CTS is received in response to an RTS, which is sent for a corresponding UP's Qos frame
|
|
|
|
dot11QosRTSFailureCount Increments when a CTS is not received in response to an RTS, which is sent for a corresponding UP's
|
|
Qos frame
|
|
|
|
dot11QosACKFailureCount Increments when an ACK is not received when expected for a corresponding UP's Qos frame
|
|
|
|
dot11QosReceivedFragmentCount Increments when a corresponding UP's MPDU received
|
|
|
|
dot11QosTransmittedFrameCount Increments when a corresponding UP's MSDU transmitted
|
|
|
|
dot11QosDiscardedFrameCount Increments when a corresponding UP's MSDU not transmitted successfully
|
|
|
|
dot11QosMPDUsReceivedCount Increments when a corresponding UP's MDPU received
|
|
|
|
|
|
dot11QosRetriesReceivedCount Increments when a corresponding UP's MDPU received which retry bit is set
|
|
|
|
dot11RSNAStatsCMACICVErrors Increment when a MPDU discard by CMAC integrity check
|
|
|
|
dot11RSNAStatsCMACReplays Increments when a MPDU discarded by the CMAC replay error
|
|
|
|
dot11RSNAStatsRobustMgmtCCMPReplays Increments when a robust management frame discarded by CCMP replay error
|
|
|
|
dot11RSNAStatsTKIPICVErrors Increments when a MPDU discarded by TKIP ICV error
|
|
|
|
dot11RSNAStatsTKIPReplays Increments when a MPDU discarded by TKIP replay error
|
|
|
|
dot11RSNAStatsCCMPDecryptErrors Increments when a MPDU discarded by CCMP decryption error
|
|
|
|
dot11RSNAStatsCCMPReplays Increments when a MPDU discarded by CCMP replay error
|
|
|
|
dot11TransmittedAMSDUCount Increments when a A-MSDU transmitted successfully
|
|
|
|
dot11FailedAMSDUCount Increments when a A-MSDU not transmitted successfully
|
|
|
|
dot11RetryAMSDUCount Increments when a A-MSDU is successfully transmitted after one or more retransmissions
|
|
|
|
dot11MultipleRetryAMSDUCount Increments when a A-MSDU is successfully transmitted after more than one retransmissions
|
|
|
|
dot11TransmittedOctetsInAMSDUCount Increments by the number of octets in the frame body
|
|
of an A-MSDU frame when an A-MSDU frame is successfully transmitted
|
|
|
|
dot11AMSDUAckFailureCount Increments when an acknowledgment to an A-MSDU is not received when expected.
|
|
|
|
dot11ReceivedAMSDUCount Increments when a A-MSDU frame received
|
|
|
|
dot11ReceivedOctetsInAMSDUCount Increments by the number of octets in the frame body
|
|
of an A-MSDU frame when an A-MSDU frame is received
|
|
|
|
dot11TransmittedAMPDUCount Increments when an A-MPDU is transmitted
|
|
|
|
dot11TransmittedMPDUsInAMPDUCount Increments by the number of MPDUs in the A-MPDU when an A-MPDU is transmitted
|
|
|
|
dot11TransmittedOctetsInAMPDUCount Increments by the number of octets in the A-MPDU frame when an A-MPDU frame is transmitted
|
|
|
|
dot11AMPDUReceivedCount Increments when the MAC receives an A-MPDU from the PHY
|
|
|
|
dot11MPDUInReceivedAMPDUCount Increments by the number of MPDUs received in the
|
|
A-MPDU when an A-MPDU is received
|
|
|
|
dot11ReceivedOctetsInAMPDUCount Increments by the number of octets in the A-MPDU
|
|
frame when an A-MPDU frame is received
|
|
|
|
dot11AMPDUDelimiterCRCErrorCount Increments when an MPDU delimiter has a CRC error when this is the first
|
|
CRC error in the received A-MPDU or when the previous delimiter has been decoded correctly
|
|
|
|
Cmd Usage: mlanutl mlanX getlog ext
|
|
The above command is used with the argument "ext" to display the following error statistics:-
|
|
|
|
rxStuckIssueCount-1
|
|
rxStuckIssueCount-2
|
|
rxStuckRecoveryCount
|
|
rxStuckTsf-1
|
|
rxStuckTsf-2
|
|
txWatchdogRecoveryCount
|
|
txWatchdogTsf-1
|
|
txWatchdogTsf-2
|
|
channelSwitchAnnouncementSent
|
|
channelSwitchState
|
|
registerClass
|
|
channelNumber
|
|
channelSwitchMode
|
|
RxResetRecoveryCount
|
|
RxIsr2NotDoneCnt
|
|
gdmaAbortCnt
|
|
gResetRxMacCnt
|
|
gOwnrshpCtlErrCnt
|
|
gOwnrshpBcnErrCnt
|
|
gOwnrshpMgtErrCnt
|
|
gOwnrshpDatErrCnt
|
|
|
|
getsignal
|
|
This command gets the last and average value of RSSI, SNR and NF of
|
|
Beacon and Data.
|
|
Note: This command is available only when STA is connected.
|
|
|
|
where value of m is:
|
|
1 -- RSSI (Receive Signal Strength Indication)
|
|
2 -- SNR (Signal to Noise Ratio)
|
|
3 -- NF (Noise Floor)
|
|
where value of n is:
|
|
1 -- Beacon last
|
|
2 -- Beacon average
|
|
3 -- Data last
|
|
4 -- Data average
|
|
|
|
Examples:
|
|
mlanutl mlan0 getsignal 1 : Get the RSSI info (beacon last, beacon
|
|
average, data last and data average)
|
|
mlanutl mlan0 getsignal 3 4 : Get the NF of data average
|
|
mlanutl mlan0 getsignal 2 1 : Get the SNR of beacon last
|
|
mlanutl mlan0 getsignal : Get all of the signal info
|
|
mlan0 getsignal:-32 -33 -35 -36 67 59 63 56 -99 -92 -98 -92
|
|
RSSI info: beacon last -32, beacon average -33, data last -35, data average -36
|
|
SNR info: beacon last 67, beacon average 59, data last 63, data average 56
|
|
NF info: beacon last -99, beacon average -92, data last -98, data average -92
|
|
|
|
getsignalext
|
|
This command gets the last and average value of RSSI, SNR and NF of
|
|
Beacon and Data of spectific antenna path.
|
|
Note: This command is available only when STA is connected.
|
|
Driver will enable signalext and collect signal information for one second
|
|
|
|
where value of m is:
|
|
1 -- PATH A
|
|
2 -- PATH B
|
|
3 -- PATH A+B
|
|
|
|
Examples:
|
|
mlanutl mlan0 getsignalext :Get All path's signal.
|
|
mlanutl maln0 getsignalext 3 :Get path A+B signal
|
|
mlanutl maln0 getsignalext 1 :Get path A signal
|
|
mlanutl mlan0 getsignalext 2 :Get path B signal
|
|
|
|
PATH A: -46 -46 -49 -49 65 45 39 42 -111 -91 -88 -91
|
|
|
|
PATH A: RSSI info: beacon last -46, beacon average -46, data last -49, data average -49
|
|
SNR info: beacon last 65, beacon average 45, data last 39, data average 42
|
|
NF info: beacon last -111, beacon average -91, data last -88, data average -91
|
|
|
|
signalextcfg
|
|
This command is used to enable/disable signalext
|
|
Usage:
|
|
mlanutl mlanX signalextcfg [m]
|
|
where the value of [m] is:
|
|
1 -- enable signalext in firmware
|
|
0 -- disable signalext in firmware
|
|
Examples:
|
|
mlanutl mlan0 signalextcfg 1 : Enable signalext in firmware
|
|
mlanutl mlan0 signalextcfg 0 : Disable signalext in firmware
|
|
|
|
getsignalextv2
|
|
This command gets the last and average value of RSSI, SNR and NF of
|
|
Beacon and Data of spectific antenna path.
|
|
Note: This command is available only when STA is connected.
|
|
"mlanutl mlanX signalextcfg 1" command needs to be issued before issuing this command
|
|
|
|
where value of m is:
|
|
1 -- PATH A
|
|
2 -- PATH B
|
|
3 -- PATH A+B
|
|
|
|
Examples:
|
|
mlanutl mlan0 getsignalextv2 :Get All path's signal.
|
|
mlanutl maln0 getsignalextv2 3 :Get path A+B signal
|
|
mlanutl maln0 getsignalextv2 1 :Get path A signal
|
|
mlanutl mlan0 getsignalextv2 2 :Get path B signal
|
|
|
|
PATH A: -46 -46 -49 -49 65 45 39 42 -111 -91 -88 -91
|
|
|
|
PATH A: RSSI info: beacon last -46, beacon average -46, data last -49, data average -49
|
|
SNR info: beacon last 65, beacon average 45, data last 39, data average 42
|
|
NF info: beacon last -111, beacon average -91, data last -88, data average -91
|
|
|
|
get_txpwrlimit
|
|
This command is used to get the txpwrlimit table in FW
|
|
Usage:
|
|
mlanutl mlanX get_txpwrlimit <n> [raw_data_file]
|
|
where <n>
|
|
0: Get 2.4G txpwrlimit table
|
|
0x10: Get 5G sub0 txpwrlimit table
|
|
0x11: Get 5G sub1 txpwrlimit table
|
|
0x12: Get 5G sub2 txpwrlimit table
|
|
0x13: Get 5G sub3 txpwrlimit table
|
|
0x1f: Get all 5G txpwrlimit table
|
|
0xff: Get both 2G and 5G txpwrlimit table
|
|
<raw_data_file> driver will save fw raw data to this file.
|
|
|
|
Examples:
|
|
mlanutl mlan0 get_txpwrlimit 0 : Get 2G txpwrlimit table.
|
|
mlanutl mlan0 get_txpwrlimit 0x10 : Get 5G sub band0 txpwrlimit table
|
|
mlanutl mlan0 get_txpwrlimit 0xff txpwrlimit.bin : Get both 2G/5G txpwrlimit table and save to txpwrlimit.bin
|
|
|
|
aggrpriotbl
|
|
This command is used set/get the priority table for AMPDU/AMSDU traffic per tid.
|
|
This command can also be used to disable AMPDU/AMSDU for a given tid.
|
|
In case of AMPDU this priority table will be used to setup block ack (to make
|
|
sure the highest priority tid always uses AMPDU as we have limited AMPDU streams)
|
|
|
|
where <m0> <n0> <m1> <n1> ... <m7> <n7>
|
|
|
|
<mx> - This is priority for Tid0 for AMPDU packet. A priority could be any
|
|
values between 0 - 7, 0xff to disable aggregation.
|
|
<nx> - This is priority for Tid0 for AMSDU packet. A priority could be any
|
|
values between 0 - 7, 0xff to disable aggregation.
|
|
|
|
eg:
|
|
mlanutl mlanX aggrpriotbl - This command will get the current Priority table for AMPDU and AMSDU.
|
|
<2 2 0 0 1 1 3 3 4 4 5 5 255 255 255 255>. This is read as
|
|
<"Prio for AMPDU for Tid0" "Prio for AMSDU for Tid0"
|
|
"Prio for AMPDU for Tid1" "Prio for AMSDU for Tid1" and so on
|
|
mlanutl mlanX aggrpriotbl 2 2 0 0 1 1 3 3 4 4 5 5 255 255 255 255 -
|
|
This will set the priority table for AMPDU and AMSDU
|
|
Priority for Tid0/AMPDU = 2, Tid0/AMSDU = 2, Tid1/AMPDU = 0, Tid1/AMSDU = 0
|
|
and so on. Aggregation for Tid6 and Tid7 are disabled.
|
|
Here higher the priority number, higher the priority (i.e. 7
|
|
has higher priority than 6). Similarly for AMSDU.
|
|
mlanutl mlanX aggrpriotbl 0xff 2 0xff 0 0xff 1 0xff 3 0xff 4 0xff 5 0xff 0xff 0xff 0xff - This will disable
|
|
AMPDU for all the TIDs but will still keep AMSDU enabled to Tid0 to Tid5
|
|
|
|
The default setting is 2 255 0 255 1 255 3 255 4 255 5 255 255 255 255 255.
|
|
|
|
A delBA should be seen in case a disable happens on a TID for which AMPDU stream
|
|
is currently setup.
|
|
|
|
Note:- This command should only be issue in disconnected state.
|
|
|
|
addbapara
|
|
This command can be used to update the default ADDBA parameters.
|
|
|
|
where <m> is <timeout>
|
|
<timeout> - This is the block ack timeout for ADDBA request.
|
|
0 : Disable (recommended for throughput test)
|
|
1 - 65535 : Block Ack Timeout in TU
|
|
|
|
where <n> is <txwinsize>
|
|
<txwinsize> - Window size for ADDBA request. (16 is recommended and default value)
|
|
|
|
where <o> is <rxwinsize>
|
|
<rxwinsize> - Window size for ADDBA response. (48 is recommended and 32 is default value)
|
|
(16 is recommended for IWNCOMM AP in WAPI throughput test)
|
|
|
|
Current window size limit for Tx as well as Rx is 1023.
|
|
|
|
where <p> is <txamsdu>
|
|
<txamsdu> - amsdu support for ADDBA request. (1 is default value)
|
|
0: disable amsdu in ADDBA request
|
|
1: enable amsdu in ADDBA request
|
|
|
|
where <q> is <rxamsdu>
|
|
<rxamsdu> - amsdu support for ADDBA response. (1 is default value)
|
|
0: disable amsdu in ADDBA response
|
|
1: enable amsdu in ADDBA response
|
|
|
|
eg:
|
|
mlanutl mlanX addbapara - This command will get the current addba params
|
|
mlanutl mlanX addbapara 1000 64 8 0 0 - This will change the ADDBA timeout to (1000 * 1024) us,
|
|
txwinsize to 64 and rxwinsize to 8 and disable amdsu in ADDBA request/response.
|
|
|
|
The default setting is 65535 16 32 1 1.
|
|
|
|
In case the ADDBA timeout value is updated then a ADDBA is sent for all streams
|
|
to update the timeout value.
|
|
|
|
In case txwinsize and/or rxwinsize is updated, the effect could only be seen on
|
|
next ADDBA request/response. The current streams will not be affected with this
|
|
change.
|
|
|
|
In case of txamsdu/rxamsdu is updated, the effect could only be seen on
|
|
next ADDBA request/response. The current streams will not be affected with this
|
|
change. AMSDU in AMPDU stream will be enabled when AP support this feature
|
|
and AMSDU is enabled in aggrpriotbl.
|
|
|
|
addbareject
|
|
This command is used set/get the addbareject table for all the TIDs.
|
|
This command can also be used to enable rejection of ADDBA requests for a given tid.
|
|
|
|
where <m0> <m1> ... <m7>
|
|
|
|
<mX> - This can be 0/1 for TidX. 1 enables rejection of ADDBA request for TidX and
|
|
0 would accept any ADDBAs for TidX.
|
|
|
|
eg:
|
|
mlanutl mlanX addbareject - This command will get the current table.
|
|
[0 0 0 0 0 0 0 0]. ADDBA would be accepted for all TIDs. This is the default state.
|
|
|
|
mlanutl mlanX addbareject 0 0 1 1 0 0 0 0 - This command will accept ADDBA requests for
|
|
Tid [0,1,4,5,6,7] and reject ADDBA requests for Tid [2,3]
|
|
|
|
mlanutl mlanX addbareject 1 1 1 1 1 1 1 1 - This will enable rejection of ADDBA requests for
|
|
all Tids.
|
|
|
|
Note:- This command should only be issue in disconnected state.
|
|
|
|
vhtcfg
|
|
This command is used to set and get various 11ac specific configuration
|
|
for transmission and reception. For the SET operation, all paramaters
|
|
may be applied. For the GET operation, only the first two parameters are applied.
|
|
The 6th argument "rx_mcs_set" can be used to disbale/enable 802.11ac.
|
|
|
|
where <j> is <band>
|
|
<band> - This is the band setting for the vhtcfg
|
|
0: Settings for both 2.4G and 5G bands (for SET operation, 11N BW only)
|
|
1: Settings for 2.4G band (for 11N BW only)
|
|
2: Settings for 5G band
|
|
|
|
where <k> is <txrx>
|
|
<txrx> - This parameter specifies the configuration of VHT operation for TX or/and VHT capabilities
|
|
0: Unspecified
|
|
1: configuration of VHT capabilities for Tx operations (STA only)
|
|
2: configuration of VHT capabilities for association (STA only)
|
|
3: configuration of VHT capabilities (uAP only)
|
|
Note: For the STA, the VHT capabilities configuration is applied in association,
|
|
whereas the VHT operations configuration is actually used in Tx.
|
|
|
|
where [l] is <bwcfg>
|
|
<bwcfg> - This parameter specifies the bandwidth (BW) configuration
|
|
applied to the vhtcfg.
|
|
If <txrx> is 1/3 (Tx operations),
|
|
0: Tx BW follows the BW (20/40 MHz) from 11N CFG
|
|
1: Tx BW follows the BW (80/160/80+80 MHz) from VHT Capabilities
|
|
defined in <vhtcap> below for 5G band.
|
|
If <txrx> is 2 (association),
|
|
0: Rx BW follows the BW (20/40 MHz) from 11N CFG
|
|
1: Rx BW follows the BW (80/160/80+80 MHz) from VHT Capabilities
|
|
defined in <vhtcap> below for 5G band.
|
|
|
|
where [m] is <vhtcap>
|
|
<vhtcap> - This parameter specifies the VHT capabilities info if <txrx> is 2 (association)
|
|
or the VHT Tx operations if <txrx> is 1 (Tx operations).
|
|
The VHT Tx operation should be a subset of VHT capabilities for association.
|
|
It is a bitmap and should be used as follows:
|
|
|
|
Bit 31-30: Reserved and set to 0
|
|
Bit 29: TX antenna pattern consistency
|
|
1: antenna pattern does not change
|
|
0: antenna pattern might change
|
|
Bit 28: RX antenna pattern consistency
|
|
1: antenna pattern does not change
|
|
0: antenna pattern might change
|
|
Bit 27-26: VHT link adaptation capable
|
|
0: no feedback of VHT MFB from the STA
|
|
1: unsolicted feedback of VHT MFB from the STA
|
|
2: both response and unsolicted feedback of VHT MFB
|
|
from the STA
|
|
3: reserved and set to 0
|
|
Bit 25-23: Maximum A-MPDU length exponent
|
|
Bit 22: +HTC-VHT capable (1: enable. 0 disable)
|
|
Bit 21: VHT TXOP PS
|
|
Bit 20: MU beamformee capable (1: enable. 0 disable)
|
|
Bit 19: MU beamformer capable (1: enable. 0 disable)
|
|
Bit 18-16: Number of sounding dimensions (set to maximum-1
|
|
if Bit 11 is 1. Otherwise, reserved and set to 0)
|
|
Bit 15-13: Compressed steering number of beamformer
|
|
antennas supported (set to maximum-1 if Bit 12 is 1.
|
|
Otherwise, reserved and set to 0)
|
|
Bit 12: SU beamformee capable (1: enable. 0 disable)
|
|
Bit 11: SU beamformer capable (1: enable. 0 disable)
|
|
Bit 10-8: Rx STBC
|
|
0: no support
|
|
1: support of 1 spatial stream
|
|
2: support of 1-2 streams
|
|
3: support of 1-3 spatial streams
|
|
4: support of 1-4 spatial streams
|
|
5-7: reserved and set to 0
|
|
Bit 7: TX STBC (1: enable. 0 disable)
|
|
Bit 6: Short GI for 160 and 80+80 MHz (1: enable. 0 disable)
|
|
Bit 5: Short GI for 80 MHz (1: enable. 0 disable)
|
|
Bit 4: Rx LDPC (1: enable. 0 disable)
|
|
Bit 3-2: Supported channel width set.
|
|
0: no support of either 160 or 80+80 MHz.
|
|
1: support of 160 MHz
|
|
2: support of both 160 and 80+80 MHz.
|
|
3: reserved and set to 0.
|
|
Bit 1-0: Maximum MPDU length
|
|
0: 3895 octets.
|
|
1: 7991 octets.
|
|
2: 11454 octets.
|
|
3: reserved and set to 0.
|
|
|
|
Note: for the STA, if <txrx> is 1 (Tx operations), the bitmap for <vhtcap> may be simplied as follows:
|
|
Bit 31-8: Reserved and set to 0
|
|
Bit 7: Tx STBC (1: enable. 0 disable)
|
|
Bit 6: Reserved and set to 0
|
|
Bit 5: Short GI for 80 Mhz (1: enable. 0 disable)
|
|
Bit 4: LDPC (1: enable. 0 disable)
|
|
Bit 3-0: Reserved and set to 0
|
|
|
|
where [n] is <tx_mcs_map>,
|
|
<tx_mcs_map> - This parameter specifies the TX MCS map. It may not be used for the STA if <txrx> is 1 (Tx operations).
|
|
It is a bitmap and should be used as following
|
|
Bit 15-0: MCS map, which is defined as folows:
|
|
Bit 15-14: Max MCS for 8 SS
|
|
Bit 13-12: Max MCS for 7 SS
|
|
Bit 11-10: Max MCS for 6 SS
|
|
Bit 9-8: Max MCS for 5 SS
|
|
Bit 7-6: Max MCS for 4 SS
|
|
Bit 5-4: Max MCS for 3 SS
|
|
Bit 3-2: Max MCS for 2 SS
|
|
Bit 1-0: Max MCS for 1 SS
|
|
|
|
where [o] is <rx_mcs_map>.
|
|
<rx_mcs_map> - This parameter specifies the RX MCS map. It may not be used for the STA if <txrx> is 1 (Tx operations).
|
|
It is a bitmap with the same sructure as for <tx_mcs_map>
|
|
rx_mcs_map = 0xffff : FW will disable 802.11ac
|
|
rx_mcs_map = others : FW will enable 802.11ac
|
|
|
|
Note: The user setting of vhtcap may be overwritten by the driver
|
|
if the setting of those fields is beyond the hardware capabilities.
|
|
|
|
Examples:
|
|
mlanutl mlan0 vhtcfg 2 1 : Get current VHT configuration in 5GHz for the STA.
|
|
mlanutl mlan0 vhtcfg 2 2 : Get maximum VHT configuration in 5GHz for the STA.
|
|
mlanutl mlan0 vhtcfg 2 1 1 0x000001f0
|
|
: Set the Tx operations configuration in 5GHz for the STA,
|
|
Tx BW follows the VHT Capabilities.
|
|
mlanutl mlan0 vhtcfg 2 2 0 0x000001f0 0xfff5 0xfffa
|
|
: Set the VHT capabilities configuration in 5GHz for the STA,
|
|
the Tx supports MCS 0-8 for both 1 and 2 spatial streams,
|
|
while the Rx supports MCS 0-9 for both 1 and 2 spatial streams.
|
|
mlanutl uap0 vhtcfg 2 3 0 0x000001f0 0xfffa 0xfffa
|
|
: Set the current/maximum VHT configuration in 5GHz for the uAP.
|
|
Both Tx and Rx supports MCS 0-9 for both 1 and 2 spatial streams.
|
|
mlanutl uap0 vhtcfg 2 3 0 0x000001b0
|
|
: Set the VHT capability information in 5GHz for the uAP, and keep the Tx/Rx MCS Map same as before.
|
|
|
|
dyn_bw
|
|
This command is used to set/get dynamic bandwidth.
|
|
|
|
Usage:
|
|
mlanutl mlanX dyn_bw [n]
|
|
|
|
where <n>
|
|
[BIT0]
|
|
0 = TxInfo Indicated BW Disable
|
|
1 = TxInfo Indicated BW Enable
|
|
[BIT1]
|
|
0 = TxInfo Dynamatic BW Disable
|
|
1 = TxInfo Dynamatic BW Enable
|
|
[BIT2]
|
|
0 = TxInfo Force send RTS Disable
|
|
1 = TxInfo Force send RTS Enable
|
|
[BIT3]
|
|
0 = Mac Dynamic BW Operation Mode Disable (Static BW Operation Mode)
|
|
1 = Mac Dynamic BW Operation Mode Enable
|
|
other bits reserved.
|
|
|
|
If no parameter provided, get is performed.
|
|
|
|
Examples:
|
|
mlanutl mlan0 dyn_bw 0x1 : Enable TxInfo Indicated BW
|
|
mlanutl mlan0 dyn_bw : get current setting
|
|
|
|
httxcfg
|
|
This command is used to configure various 11n specific configuration
|
|
for transmit (such as Short GI, Channel BW and Green field support)
|
|
|
|
where <m> is <txcfg>
|
|
This is a bitmap and should be used as following
|
|
Bit 15-8: Reserved set to 0
|
|
Bit 7: STBC enable/disable
|
|
Bit 6: Short GI in 40 Mhz enable/disable
|
|
Bit 5: Short GI in 20 Mhz enable/disable
|
|
Bit 4: Green field enable/disable
|
|
Bit 3-2: Reserved set to 1
|
|
Bit 1: 20/40 Mhz enable disable.
|
|
Bit 0: LDPC enable/disable
|
|
|
|
When Bit 1 is set then firmware could transmit in 20Mhz or 40Mhz based
|
|
on rate adaptation. When this bit is reset then firmware will only
|
|
transmit in 20Mhz.
|
|
|
|
where <n> is <band>
|
|
<band> - This is the band info for <txcfg> settings.
|
|
0: Settings for both 2.4G and 5G bands
|
|
1: Settings for 2.4G band
|
|
2: Settings for 5G band
|
|
|
|
Example:
|
|
mlanutl mlanX httxcfg
|
|
This will display HT Tx configuration for 2.4G and 5G band.
|
|
|
|
mlanutl mlanX httxcfg 0x62
|
|
This will enable 20/40 and Short GI but will disable Green field for 2.4G and 5G band.
|
|
|
|
mlanutl mlanX httxcfg 0x30 1
|
|
This will enable Short GI 20 Mhz and Green field for 2.4G band.
|
|
|
|
The default value is 0x20 for 2.4G and 0x62 for 5G.
|
|
|
|
Note:- If 20/40 MHz support is disabled in htcapinfo, device will not transmit
|
|
in 40 MHz even 20/40 MHz is enabled in httxcfg.
|
|
|
|
htcapinfo
|
|
This command is used to configure some of parameters in HTCapInfo IE
|
|
(such as Short GI, Channel BW, and Green field support)
|
|
|
|
where <m> is <capinfo>
|
|
<capinfo> - This is a bitmap and should be used as following
|
|
Bit 29: Green field enable/disable
|
|
Bit 26: Rx STBC Support enable/disable. (As we support
|
|
single spatial stream only 1 bit is used for Rx STBC)
|
|
Bit 25: Tx STBC support enable/disable.
|
|
Bit 24: Short GI in 40 Mhz enable/disable
|
|
Bit 23: Short GI in 20 Mhz enable/disable
|
|
Bit 22: Rx LDPC enable/disable
|
|
Bit 17: 20/40 Mhz enable disable.
|
|
Bit 8: Enable/disable 40Mhz Intolarent bit in ht capinfo.
|
|
0 will reset this bit and 1 will set this bit in
|
|
htcapinfo attached in assoc request.
|
|
All others are reserved and should be set to 0.
|
|
|
|
Setting of any other bits will return error.
|
|
|
|
where <n> is <band>
|
|
<band> - This is the band info for <capinfo> settings.
|
|
0: Settings for both 2.4G and 5G bands
|
|
1: Settings for 2.4G band
|
|
2: Settings for 5G band
|
|
|
|
Example:
|
|
mlanutl mlanX htcapinfo
|
|
This will display HT capabilties information.
|
|
If the information for 2.4G and 5G is different,
|
|
the first value is for 2.4G and the second value is for 5G.
|
|
Otherwise, it will display a single value for both bands.
|
|
|
|
mlanutl mlanX htcapinfo 0x1820000
|
|
This will enable Short GI, Channel BW to 20/40 and disable Green field support for 2.4G and 5G band.
|
|
|
|
mlanutl mlanX htcapinfo 0x800000 2
|
|
This will enable Short GI, Channel BW to 20 only, No Rx STBC support and disable Green field support for 5G band.
|
|
|
|
The default value is 0x4800000 for 2.4G and 0x5820000 for 5G.
|
|
|
|
Note:- This command can be issued any time but it will only come to effect from
|
|
next association. (as HTCapInfo is sent only during Association).
|
|
|
|
11axcfg
|
|
This command is used to config 11ax HE capability using conf file.
|
|
|
|
Usage:
|
|
mlanutl mlanX 11axcfg [conf file]
|
|
|
|
Example:
|
|
mlanutl mlan0 11axcfg config/11axcfg.conf
|
|
mlanutl uap0 11axcfg config/11axcfg.conf
|
|
|
|
11axcmd
|
|
This command is used to config 11ax HE capability using command.
|
|
|
|
Usage:
|
|
mlanutl <mlanX|uapX> 11axcmd <subcmd> [value_1] [value_2]
|
|
<subcmd = tx_omi > : set/get omi value
|
|
used for OMI transmission in MAC header HTC+ field, please see 11ax spec for OMI definition
|
|
set OMI when [value_1 = <omi>], where <omi> is defined as:
|
|
Bit 0-2: Rx NSS
|
|
Bit 3-4: Channel Width
|
|
Bit 6 : Tx NSTS (applies to client mode only)
|
|
All other bits are not supported currently.
|
|
get OMI without value_1 and value_2
|
|
|
|
<subcmd = obssnbru_toltime> : set/get OBSS narrow band RU tolerance time value in seconds
|
|
set tolerance time when [value_1 = <time>], where <time> indicates:
|
|
the minimum time that needs to pass since the reception of the last beacon frame from an OBSS AP that
|
|
did not indicate tolerance to narrow bandwidth RU in OFDMA before the STA transmits an HE TB PPDU in a
|
|
26-tine RU allocated by a trigger frame from the HE AP.
|
|
valid value range [1..3600] in seconds. Any value more than 3600 will disable this feature.
|
|
By default this feature is currently disabled.
|
|
Example :
|
|
mlanutl mlan0 11axcmd tx_omi 0x41 : set omi value to 0x41
|
|
mlanutl mlan0 11axcmd tx_omi : get omi value
|
|
mlanutl mlan0 11axcmd obssnbru_toltime 1800 : set OBSSNBRU tolerance time to 1800 seconds
|
|
mlanutl mlan0 11axcmd obssnbru_toltime 3601 : disable OBSSNBRU tolerance time
|
|
mlanutl mlan0 11axcmd obssnbru_toltime : get OBSSNBRU tolerance time
|
|
|
|
txratecfg
|
|
This command is used to set/get the transmit data rate.
|
|
|
|
Note:
|
|
1) The data rate can be set only after association.
|
|
|
|
2) If the reassoc is OFF driver reset the data rate to auto if the connection state is disconnected.
|
|
Please note that user has to re-issue the set data rate command if the driver is disconnected.
|
|
|
|
3) If the reassoc is ON driver remembers the data rate set by the user, if the driver is
|
|
disconnected user does not have to re-issue the set data rate again.
|
|
|
|
4) Parameter [o] is optional. If [o] is not given, it will be set as 0xffff.
|
|
|
|
Where
|
|
[l] is <format>
|
|
<format> - This parameter specifies the data rate format used in this command
|
|
0: LG
|
|
1: HT
|
|
2: VHT
|
|
3: HE
|
|
0xff: Auto
|
|
|
|
[m] is <index>
|
|
<index> - This parameter specifies the rate or MCS index
|
|
If <format> is 0 (LG),
|
|
0 1 Mbps
|
|
1 2 Mbps
|
|
2 5.5 Mbps
|
|
3 11 Mbps
|
|
4 6 Mbps
|
|
5 9 Mbps
|
|
6 12 Mbps
|
|
7 18 Mbps
|
|
8 24 Mbps
|
|
9 36 Mbps
|
|
10 48 Mbps
|
|
11 54 Mbps
|
|
If <format> is 1 (HT),
|
|
0 MCS0
|
|
1 MCS1
|
|
2 MCS2
|
|
3 MCS3
|
|
4 MCS4
|
|
5 MCS5
|
|
6 MCS6
|
|
7 MCS7
|
|
8 MCS8
|
|
9 MCS9
|
|
10 MCS10
|
|
11 MCS11
|
|
12 MCS12
|
|
13 MCS13
|
|
14 MCS14
|
|
15 MCS15
|
|
If <format> is 2 (VHT),
|
|
0 MCS0
|
|
1 MCS1
|
|
2 MCS2
|
|
3 MCS3
|
|
4 MCS4
|
|
5 MCS5
|
|
6 MCS6
|
|
7 MCS7
|
|
8 MCS8
|
|
9 MCS9
|
|
If <format> is 3 (HE),
|
|
0 MCS0
|
|
1 MCS1
|
|
2 MCS2
|
|
3 MCS3
|
|
4 MCS4
|
|
5 MCS5
|
|
6 MCS6
|
|
7 MCS7
|
|
8 MCS8
|
|
9 MCS9
|
|
10 MCS10
|
|
11 MCS11
|
|
[n] is <nss>
|
|
<nss> - This parameter specifies the NSS. It is valid for VHT
|
|
If <format> is 2 (VHT),
|
|
1 NSS1
|
|
2 NSS2
|
|
[n] is <nss>
|
|
<nss> - This parameter specifies the NSS. It is valid for HE
|
|
If <format> is 3 (HE),
|
|
1 NSS1
|
|
2 NSS2
|
|
[o] is <rate setting, only support 9098/9097/9xxx chips>
|
|
Bit0 - 1: indicate preambleType
|
|
For legacy 11b: preemble type
|
|
00 = long
|
|
01 = short
|
|
10/11 = reserved
|
|
For legacy 11g: reserved
|
|
For 11n: Green field PPDU indicator
|
|
00 = HT-mix
|
|
01 = HT-GF
|
|
10/11 = reserved.
|
|
For 11ac: reserved.
|
|
For 11ax:
|
|
00 = HE-SU
|
|
01 = HE-EXT-SU
|
|
others are reserved
|
|
|
|
Bit 2 - 4 : indicate BW:
|
|
For HE ER:
|
|
0 = 242-tone RU
|
|
1 = upper frequency 106-tone RU within the primary 20 MHz
|
|
Otherwise:
|
|
0 = 20 MHz
|
|
1 = 40 MHz
|
|
2 = 80 MHz
|
|
3 = 160 MHz
|
|
|
|
Bit 5 -6: indicate LTF + GI size
|
|
For HT:
|
|
0 = normal
|
|
1 = Short GI
|
|
For VHT:
|
|
01 = Short GI
|
|
11 = Short GI and Nsym mod 10=9
|
|
00 = otherwise
|
|
For HE:
|
|
0 = 1xHELTF + GI0.8us
|
|
1 = 2xHELTF + GI0.8us
|
|
2 = 2xHELTF + GI1.6us
|
|
3 = 4xHELTF + GI0.8us if DCM = 1 and STBC = 1
|
|
4xHELTF + GI3.2us, otherwise.
|
|
|
|
Bit 7: Indicate STBC:
|
|
0 = no STBC
|
|
1 = STBC
|
|
|
|
Bit 8: indicate DCM:
|
|
0 = no DCM
|
|
1 = DCM
|
|
|
|
Bit 9: indicate coding:
|
|
0 = BCC
|
|
1 = LDPC
|
|
|
|
Bit 10 - 11: reserved.
|
|
|
|
Bit 12 - 13: Indicate maxPE
|
|
Max packet extension
|
|
0 - 0 usec
|
|
1 - 8 usec
|
|
2 - 16 usec.
|
|
|
|
Bit 14 - 15: reserved.
|
|
|
|
0xffff: Auto
|
|
|
|
Examples:
|
|
mlanutl mlan0 txratecfg : Read the current data rate setting
|
|
mlanutl mlan0 txratecfg 0 3 : Set fixed Tx rate to 11 Mbps
|
|
mlanutl mlan0 txratecfg 0 11 : Set fixed Tx rate to 54 Mbps
|
|
mlanutl mlan0 txratecfg 1 3 : Set fixed Tx rate to MCS3
|
|
mlanutl mlan0 txratecfg 2 3 2 : Set fixed Tx rate to MCS3 for NSS2
|
|
mlanutl mlan0 txratecfg 3 3 2 : Set 11AX fixed Tx rate to MCS3 for NSS2
|
|
mlanutl mlan0 txratecfg 3 5 2 0x2282 : Set 11AX fixed Tx rate to MCS5 for NSS2, and Preamble type is 2, BW is 0, LTF + GI size 0
|
|
STBC is 1, DMC is 0, Coding is 1, maxPE is 2.
|
|
mlanutl mlan0 txratecfg 0xff : Disable fixed rate and uses auto rate
|
|
|
|
hssetpara
|
|
This command is used to set host sleep parameters.
|
|
|
|
Usage:
|
|
mlanutl mlanX hssetpara condition [GPIO# [gap]] (optional)[type ind_GPIO# [level]] (optional)[type event_force_ignore event_use_ext_gap ext_gap [gpio_wave]] (optional)[type hs_wakeup_interval]
|
|
|
|
This command takes one (condition), two (condition and GPIO#) or three
|
|
(condition, GPIO# and gap).If more than three parameters, it can set different or multiple features indicating by type and
|
|
the detailed usage is the same as hscfg above.
|
|
|
|
where Condition is:
|
|
bit 0 = 1 -- broadcast data
|
|
bit 1 = 1 -- unicast data
|
|
bit 2 = 1 -- mac event
|
|
bit 3 = 1 -- multicast data
|
|
bit 6 = 1 -- Wakeup when mgmt frame received.
|
|
Bit 31 = 1 -- Don't wakeup when IPV6 packet received.
|
|
|
|
The host sleep mode will be canceled if condition is set to -1. The default is 0x7.
|
|
|
|
where GPIO is the pin number of GPIO used to wakeup the host. It could be any valid
|
|
GPIO pin# (e.g. 0-7) or 0xff (interface, e.g. SDIO will be used instead).
|
|
The default is 0xff.
|
|
|
|
where Gap is the gap in milliseconds between wakeup signal and wakeup event or 0xff
|
|
for special setting (host acknowledge required) when GPIO is used to wakeup host.
|
|
The default is 200.
|
|
|
|
The host sleep set except for cancellation will be blocked if host sleep is
|
|
already activated.
|
|
|
|
where ind_GPIO# is the pin number of GPIO used to indicate wakeup source. The level on
|
|
this GPIO will indicate normal wakeup source or abnormal wakeup source.
|
|
|
|
where level is used to set level(0/1) on ind_GPIO# pin for indication normal wakeup source.
|
|
The opposite level will indicate abnormal wakeup source. The default value is 0.
|
|
|
|
where event_force_ignore is a bitmap,each bit represent one wakeup reason event. Set the bit means this
|
|
wakeup reason should be force ignored in firmware. Reset the bit means do not handle this reason.
|
|
|
|
where event_use_ext_gap is a bitmap, each bit represent one wakeup reason event. Set the bit means this
|
|
wakeup reason should use ext_gap to indicate host. Reset the bit means do not handle this reason.
|
|
|
|
where event_force_ignore and event_use_ext_gap have the same wakeup reason event definition of each bit:
|
|
bit 0 = 1 --Disconnect
|
|
bit 1 = 1 --GTK/iGTK rekey failure
|
|
bit 2 = 1 --Eapol
|
|
other bits --Reserved
|
|
They should not set both for one same wakeup reason.
|
|
|
|
where ext_gap is the extend gap based on third parameter Gap. Only valid when use_ext_gap is used.
|
|
The total gap is (Gap + (x+1)*ext_gap). x means the bit number(start from 0) of this reason in use_ext_gap.
|
|
|
|
where gpio_wave is used to set GPIO wave level for hscfg extend. 0 means falling edge, 1 means rising edge.
|
|
This parameter is optional and default value is 0.
|
|
|
|
where hs_wakeup_interval is used to set host sleep wakeup interval and the type must set to 3 to indicate
|
|
this feature. And the value will round to the nearest multiple dtim*beacon_interval in fw. The unit is milliseconds.
|
|
|
|
Examples:
|
|
mlanutl mlan0 hssetpara -1 : Cancel host sleep mode
|
|
mlanutl mlan0 hssetpara 3 : Broadcast and unicast data
|
|
Use GPIO and gap set previously
|
|
mlanutl mlan0 hssetpara 2 3 : Unicast data
|
|
Use GPIO 3 and gap set previously
|
|
mlanutl mlan0 hssetpara 2 1 0xa0 : Unicast data
|
|
Use GPIO 1 and gap 160 ms
|
|
mlanutl mlan0 hssetpara 2 0xff : Unicast data
|
|
Use interface (e.g. SDIO)
|
|
Use gap set previously
|
|
mlanutl mlan0 hssetpara 4 3 0xff : MAC event
|
|
Use GPIO 3
|
|
Special host sleep mode
|
|
mlanutl mlan0 hssetpara 1 0xff 0xff : Broadcast data
|
|
|
|
mlanutl mlan0 hssetpara 2 1 0xa0 1 5 1 : Unicast data
|
|
Use GPIO 1
|
|
Gap 160 ms
|
|
type=1 to set indication GPIO feature
|
|
Use GPIO 5 to indicate wakeup source
|
|
High level on GPIO 5 means this is a normal wakeup
|
|
mlanutl mlan0 hssetpara 2 1 0xa0 1 5 : Unicast data
|
|
Use GPIO 1
|
|
Gap 160 ms
|
|
type=1 to set indication GPIO feature
|
|
Use GPIO 5 to indicate wakeup source
|
|
Use level set previously.
|
|
|
|
mlanutl mlan0 hssetpara 2 1 0xa0 2 0 0x1 10 1: Unicast data
|
|
Use GPIO 1
|
|
Gap 160 ms
|
|
type=2 to set extend hscfg feature
|
|
Force_ignore not used
|
|
Disconnect will use extend gap to indicate host
|
|
Use gap 170.
|
|
Rising edge
|
|
mlanutl mlan0 hssetpara 2 1 0xa0 2 0x1 0 0 0: Unicast data
|
|
Use GPIO 1
|
|
Gap 160 ms
|
|
type=2 to set extend hscfg feature
|
|
Falling edge
|
|
Force ignore Disconnect
|
|
Extend gap not used
|
|
Not used.
|
|
Falling edge
|
|
mlanutl mlan0 hssetpara 2 1 0xa0 3 400: Unicast data
|
|
Use GPIO 1
|
|
Gap 160 ms
|
|
type=3 to set hs_wakeup_interval feature
|
|
hs_wakeup_interval set to 400ms
|
|
|
|
Note: The parameters will be saved in the driver and be used when host suspends.
|
|
The ind_GPIO# and level parameters only work with specific board and firmware.
|
|
mefcfg
|
|
This command is used to set MEF settings.
|
|
|
|
Usage:
|
|
mlanutl mlanX mefcfg <mef.conf>
|
|
|
|
Where the parameter is:
|
|
mef.conf : The configuration file specifying the MEF settings.
|
|
|
|
Example:
|
|
mlanutl mlan0 mefcfg config/mef.conf
|
|
cloud_keep_alive
|
|
This command is used to start/stop send keep alive packet which set from host.And reset TCP connection.
|
|
|
|
Usage:
|
|
mlanutl mlanX cloud_keep_alive <keep_alive.conf> <start/stop/reset>
|
|
|
|
where <start/stop/reset>
|
|
start means set cloud keep alive packet and paramters to firmware. stop means stop firmware from sending keep alive packet.reset will stop and reset TCP connection when host resume.
|
|
|
|
Examples:
|
|
mlanutl mlan0 cloud_keep_alive keep_alive.conf start
|
|
mlanutl mlan0 cloud_keep_alive keep_alive.conf stop
|
|
mlanutl mlan0 cloud_keep_alive keep_alive.conf reset
|