WLAN overview
本文介绍了WLAN框架的组成方式,配置方法以及使用方法。
目录
Purpose
无线局域网(WLAN)是一种无线计算机网络,它使用无线通信链接两个或多个设备以在有限的区域内形成局域网(LAN),例如家庭,学校,计算机实验室,校园,办公楼等。 这使用户能够在该区域内四处移动,但仍可以连接到网络。通过网关,WLAN还可以提供与更广泛的Internet的连接。
Linux® 无线子系统包含两个主要模块:cfg80211和mac80211,它们帮助WiFi驱动程序与内核的其余部分和用户空间建立接口。
特别是,cfg80211在内核中提供配置管理服务。它还通过nl80211在内核和用户空间之间提供管理接口。
软MAC(soft MAC)设备和完整MAC设备都需要与cfg80211一起使用。 Mac80211是仅支持软件MAC设备的驱动程序API
WLAN可以在许多不同的用例中使用,如How to use WLAN部分所述:
- 如何在客户端模式下配置无线接口: How to configure a wlan interface on client mode
- 如何在热点模式下配置无线接口:如何将无线网卡配置为热点模式
System overview
Description of the components
从用户空间到硬件
- 应用 (用户空间)
有许多使用WLAN的应用程序:例如Internet浏览器, 流应用程序,FTP应用程序。
- WLAN工具 (用户空间)
有一组实用程序可以管理WLAN网络: Network tools
- CFG80211 API (内核空间)
cfg80211[1] 是Linux中的IEEE 802.11[2] 设备的配置API。
- 它桥接了用户空间和驱动程序,并提供了与IEEE 802.11相关的某些实用程序功能。
-Linux中的所有现代无线驱动程序都必须通过mac80211直接或间接地使用它,以便它们通过nl80211提供一致的API[3].
- 它与 Netlink[4] socket 连接。
- MAC80211框架 (内核空间)
MAC80211是Linux内核的一个子系统,它实现了软MAC/半MAC无线共享代码[5]
- WLAN配套驱动程序 (内核空间)
WLAN配套驱动程序注册和控制WLAN设备。
- MMC框架:MMC核心 (内核空间)
MMC内核”'确保与MultiMediaCard(MMC)嵌入式[6] / [7] / 安全数字规范安全数字输入/输出(SDIO )[8].
MP1和WLAN设备之间的通信链接是SDIO总线。
- SDMMC驱动程序 (内核空间)
有关更多信息,请参阅 MMC overview
- STM32: SDMMC (硬件)
有关更多信息,请参阅 MMC overview
- 外部设备 (硬件)
WLAN配套芯片
Configuration
默认情况下,在ST传送中不会激活WLAN API。 要激活它,可以使用Linux Menuconfig工具: Menuconfig or how to configure kernel 然后选择:
对于网络功能:
[*] Networking support ---> [*] Networking options ---> [*] Packet socket [*] TCP/IP networking [*] IP: kernel level autoconfiguration [*] IP: DHCP support [*] IP: BOOTP support [*] IP: RARP support [*] INET: socket monitoring interface [*] The IPv6 protocol [*] DNS Resolver support [*] Wireless ---> [*] cfg80211 - wireless configuration API [*] cfg80211 wireless extensions compatibility [*] Generic IEEE 802.11 Networking Stack (mac80211)
例如,如果配套芯片是Murata芯片1DX[12]
[*] Device Drivers ---> [*] Network device support ---> [*] Wireless LAN ---> [*] Broadcom devices [*] Broadcom FullMAC WLAN driver
对于STM32 SDMMC: 请参阅 SDMMC configuration
How to use WLAN
How to use the WLAN user space interface
请根据以下用例查看示例:
- 如何设置wifi连接: 如何设置WiFi连接
- 如何在客户端模式下配置无线接口: How to configure a wlan interface on client mode
- 如何在热点模式下配置无线接口: 如何将无线网卡配置为热点模式
How to trace and debug the framework
How to monitor
请给出说明以帮助开发人员/用户在Linux文件系统中获取有关此框架的信息。
How to watch link quality
Proc文件系统提供有关Quality链接的信息:
Board $> cat /proc/net/wireless Inter-| sta-| Quality | Discarded packets | Missed | WE face | tus | link level noise | nwid crypt frag retry misc | beacon | 22 wlan0: 0000 0 0 0 0 0 0 0 0 0
STAT示例:
Board $> watch -d -n 3 "iw dev wlan0 station dump; iwconfig wlan0; cat /proc/net/wireless"
Every 3.0s: iw dev wlan0 station dump; iwconfig wlan0; cat /proc/net/wir... stm32mp1: Sun Nov 4 16:32:52 2018 Station 00:16:b6:2c:47:36 (on wlan0) inactive time: 0 ms rx bytes: 11001 rx packets: 37 tx bytes: 13077 tx packets: 83 tx failed: 0 signal: -72 [-72] dBm tx bitrate: 12.0 MBit/s rx bitrate: 1.0 MBit/s authorized: yes authenticated: yes associated: yes WMM/WME: no TDLS peer: yes DTIM period: 1 beacon interval:100 short preamble: yes short slot time:yes connected time: 55 seconds wlan0 IEEE 802.11 ESSID:"NETWORK1" Mode:Managed Frequency:2.462 GHz Access Point: 00:16:B6:2C:47:36 Bit Rate=12 Mb/s Tx-Power=31 dBm Retry short limit:7 RTS thr:off Fragment thr:off Encryption key:off Power Management:on Link Quality=38/70 Signal level=-72 dBm Rx invalid nwid:0 Rx invalid crypt:0 Rx invalid frag:0 Tx excessive retries:0 Invalid misc:0 Missed beacon:0 Inter-| sta-| Quality | Discarded packets | Missed | WE face | tus | link level noise | nwid crypt frag retry misc | beacon | 22 wlan0: 0000 38. -72. -256 0 0 0 0 0 0
How to trace
本部分以村田芯片(Murata chip)为配套芯片为例
How to verify than the WLAN driver is well probed
- 在dmesg日志中,检查“ brcmfmac”日志 :
[ 67.306154] brcmfmac: brcmf_c_preinit_dcmds: Firmware version = wl0: Aug 6 2017 23:19:25 version 7.45.98.30 (r666241 CY) FWID 01-f0b000 [ 67.326146] brcmfmac: brcmf_c_preinit_dcmds: CLM version = API: 12.2 Data: 7.11.15 Compiler: 1.24.2 ClmImport: 1.24.1 Creation: 2014-05 [ 67.676323] brcmfmac: brcmf_cfg80211_reg_notifier: not a ISO3166 code (0x30 0x30)
How to debug the WLAN driver
Add dynamic debug firmware traces
需要在内核配置中激活:CONFIG_DYNAMIC_DEBUG,有关动态调试的更多信息请参阅 How_to_use_the_kernel_dynamic_debug
# cd /sys/kernel/debug/dynamic_debug/
检查用于管理固件的所有功能:
# cat control | grep firmware drivers/base/firmware_class.c:339 [firmware_class]__fw_free_buf =_ "%s: fw-%s buf=%p data=%p size=%u\012" drivers/base/firmware_class.c:462 [firmware_class]fw_set_page_data =_ "%s: fw-%s buf=%p data=%p size=%u\012" drivers/base/firmware_class.c:1102 [firmware_class]_request_firmware_prepare =_ "using built-in %s\012" drivers/base/firmware_class.c:290 [firmware_class]__allocate_fw_buf =_ "%s: fw-%s buf=%p\012" drivers/base/firmware_class.c:1194 [firmware_class]_request_firmware =_ "firmware: %s loading timed out\012" drivers/base/firmware_class.c:423 [firmware_class]fw_get_filesystem_firmware =_ "loading %s failed with error %d\012" drivers/base/firmware_class.c:429 [firmware_class]fw_get_filesystem_firmware =_ "direct-loading %s\012"
在所有固件功能中添加打印信息“ + p”(p:导致将printk()消息发送到dmesg)
# echo "file drivers/base/firmware_class.c +p" > control
现在,在所有固件功能中都添加了“ p”选项。
# cat control | grep firmware drivers/base/firmware_class.c:339 [firmware_class]__fw_free_buf =p "%s: fw-%s buf=%p data=%p size=%u\012" drivers/base/firmware_class.c:462 [firmware_class]fw_set_page_data =p "%s: fw-%s buf=%p data=%p size=%u\012" drivers/base/firmware_class.c:1102 [firmware_class]_request_firmware_prepare =p "using built-in %s\012" drivers/base/firmware_class.c:290 [firmware_class]__allocate_fw_buf =p "%s: fw-%s buf=%p\012" drivers/base/firmware_class.c:1194 [firmware_class]_request_firmware =p "firmware: %s loading timed out\012" drivers/base/firmware_class.c:423 [firmware_class]fw_get_filesystem_firmware =p "loading %s failed with error %d\012" drivers/base/firmware_class.c:429 [firmware_class]fw_get_filesystem_firmware =p "direct-loading %s\012"
FMAC debug
Enable debug features in the defconfig file
- 启用CPTCFG_BRCMDBG和CONFIG_DEBUG_FS
- 重新构建内核
Enable brcmfmac debug log
- 消息级别在' drivers/net/wireless/broadcom/brcm80211/brcmfmac/debug.h中列出
/* message levels */ #define BRCMF_TRACE_VAL 0x00000002 #define BRCMF_INFO_VAL 0x00000004 #define BRCMF_DATA_VAL 0x00000008 #define BRCMF_CTL_VAL 0x00000010 #define BRCMF_TIMER_VAL 0x00000020 #define BRCMF_HDRS_VAL 0x00000040 #define BRCMF_BYTES_VAL 0x00000080 #define BRCMF_INTR_VAL 0x00000100 #define BRCMF_GLOM_VAL 0x00000200 #define BRCMF_EVENT_VAL 0x00000400 #define BRCMF_BTA_VAL 0x00000800 #define BRCMF_FIL_VAL 0x00001000 #define BRCMF_USB_VAL 0x00002000 #define BRCMF_SCAN_VAL 0x00004000 #define BRCMF_CONN_VAL 0x00008000 #define BRCMF_BCDC_VAL 0x00010000 #define BRCMF_SDIO_VAL 0x00020000 #define BRCMF_MSGBUF_VAL 0x00040000 #define BRCMF_PCIE_VAL 0x00080000 #define BRCMF_FWCON_VAL 0x00100000
$ modprobe brcmfmac debug=${BRCMF_Message_Level} $ dmesg -n 8
Examples
- 添加TRACE和INFO
$ modprobe brcmfmac debug=0x6
- 添加TRACE,INFO和SDIO
$ modprobe brcmfmac debug=0x20006
- 添加TRACE,INFO和WIFI_FW_LOG
$ modprobe brcmfmac debug=0x00100006
How to check wlreg_on status and voltage setting
$ cat /sys/kernel/debug/regulator/regulator_summary
Source code location
The source files are located inside the Linux kernel.
- Broadcom wlan driver: of.c[13]
References
- ↑ [1], cfg80211
- ↑ [2], IEEE_802.11
- ↑ [3], nl80211
- ↑ [4], Netlink
- ↑ [5], mac80211
- ↑ MultiMediaCard, MultiMediaCard规范安全数字(SD)
- ↑ Secure Digital,
- ↑ Secure Digital Input Output, 安全数字输入输出规范
- ↑ [6], mac80211
- ↑ [7], cfg80211
- ↑ [8], IEEE_802.11
- ↑ [9], 1DX
- ↑ [https://git.kernel.org/pub/scm/linux/kernel/git/stable/linux.git/tree/drivers/net/wireless/broadcom/brcm80211/brcmfmac/of.c ],of.c