MStar Semiconductor, Inc. MStar Android TV
3 Steps to publish Your specification here:

1. Install SpecDevice
2. Run and decode your specs
3. Get your link (read more...)
General Specifications
ManufacturerMStar Semiconductor, Inc.
ModelMStar Android TV
Firmware5.1.1; ANMI-02.70.020.04.06.BIONIC.16; SDK22
CPU4 cores; rev 4 (v7l) curry; Max: 2000,0 MHz; Min: 700,0 MHz
Display1920 x 1080; DPI: 240; Evaluated Size: 9,2"
Touch screenNOT multitouch 1 point
GPUMali-450 MP; ARM; OpenGL ES-CM 1.1; OpenGL ES 2.0
RAM892 MB
Flash32 GB (28.922 GB actual); 4 GB (3.688 GB actual); 1863.017 GB (see memory map tab)
Communications
PhoneNone
WiFi8188eu; IEEE 802.11 b/g/n; Realtek RTL8188E; AP Mode
USB HostYes
Bluetoothno
GPSNo
Advanced Features
Front cameraFail to connect to camera service
Back cameraNo
VibratorNo
Supported languages172; Afrikaans; Aghem; Akan; Amharic; Arabic; Assamese; Asu; Azerbaijani; Basaa; Belarusian; Bemba; Bena; Bulgarian; Bambara; Bengali; Tibetan; Breton; Bodo; Bosnian; Catalan; Chiga; Cherokee; Czech; Welsh; Danish; Taita; German; Zarma; Duala; Jola-Fonyi; Dzongkha; Embu; Ewe; Greek; English; Esperanto; Spanish; Estonian; Basque; Ewondo; Persian; Fulah; Finnish; Filipino; Faroese; French; Irish; Galician; Swiss German; Gujarati; Gusii; Manx; Hausa; Hawaiian; Hebrew; Hindi; Croatian; Hungarian; Armenian; Indonesian; Igbo; Sichuan Yi; Icelandic; Italian; Japanese; Ngomba; Machame; Georgian; Kabyle; Kamba; Makonde; Kabuverdianu; Koyra Chiini; Kikuyu; Kazakh; Kako; Kalaallisut; Kalenjin; Khmer; Kannada; Korean; Konkani; Kashmiri; Shambala; Bafia; Cornish; Kyrgyz; Langi; Ganda; Lakota; Lingala; Lao; Lithuanian; Luba-Katanga; Luo; Luyia; Latvian; Masai; Meru; Morisyen; Malagasy; Makhuwa-Meetto; Meta'; Macedonian; Malayalam; Mongolian; Marathi; Malay; Maltese; Mundang; Burmese; Nama; Norwegian; North Ndebele; Nepali; Dutch; Kwasio; Norwegian; Ngiemboon; Nuer; Nyankole; Oromo; Oriya; Punjabi; Polish; Pashto; Portuguese; Romansh; Rundi; Romanian; Rombo; Russian; Kinyarwanda; Rwa; Samburu; Sangu; Sena; Koyraboro Senni; Sango; Tachelhit; Sinhala; Slovak; Slovenian; Shona; Somali; Albanian; Serbian; Swedish; Swahili; Congo Swahili; Tamil; Telugu; Teso; Thai; Tigrinya; Tongan; Turkish; Tasawaq; Central Atlas Tamazight; Uyghur; Ukrainian; Urdu; Uzbek; Vai; Vietnamese; Vunjo; Soga; Yangben; Yoruba; Standard Moroccan Tamazight; Chinese; Zulu
BatteryTechnology: ; Voltage: 0
SD Version:1.1 7

KERNEL: Linux version 3.10.40 (liuzhuangming@kitking) (gcc version 4.7.2 (Sourcery CodeBench Lite 2012.09-64) ) #19 SMP PREEMPT Fri Mar 24 18:16:23 CST 2017
CODENAME: REL
Mainboard: ponkan
BRAND: MStar
CPU_ABI: armeabi-v7a
CPU_ABI2: armeabi
DEVICE: ponkan
DISPLAY: aosp_ponkan32-userdebug 5.1.1 LMY47V ANMI-02.70.020.04.06.BIONIC.16 test-keys
FINGERPRINT: aosp_ponkan32:5.1.1/LMY47V/ANMI-02.70.020.04.06.BIONIC.16:userdebug
HARDWARE: curry
ID: LMY47V
TAGS: test-keys

processor : 0
model name : ARMv7 Processor rev 4 (v7l)
Features : swp half thumb fastmult vfp edsp neon vfpv3 tls vfpv4 idiva idivt
CPU implementer : 0x41
CPU architecture: 7
CPU variant : 0x0
CPU part : 0xd03
CPU revision : 4
processor : 1
model name : ARMv7 Processor rev 4 (v7l)
Features : swp half thumb fastmult vfp edsp neon vfpv3 tls vfpv4 idiva idivt
CPU implementer : 0x41
CPU architecture: 7
CPU variant : 0x0
CPU part : 0xd03
CPU revision : 4
processor : 2
model name : ARMv7 Processor rev 4 (v7l)
Features : swp half thumb fastmult vfp edsp neon vfpv3 tls vfpv4 idiva idivt
CPU implementer : 0x41
CPU architecture: 7
CPU variant : 0x0
CPU part : 0xd03
CPU revision : 4
processor : 3
model name : ARMv7 Processor rev 4 (v7l)
Features : swp half thumb fastmult vfp edsp neon vfpv3 tls vfpv4 idiva idivt
CPU implementer : 0x41
CPU architecture: 7
CPU variant : 0x0
CPU part : 0xd03
CPU revision : 4
Hardware : curry
Revision : 0020
Serial : 0000000000000000
Processor : ARMv7 Processor rev 4 (v7l)

GL_EXT_debug_marker
GL_OES_texture_npot
GL_OES_vertex_array_object
GL_OES_compressed_ETC1_RGB8_texture
GL_EXT_compressed_ETC1_RGB8_sub_texture
GL_OES_standard_derivatives
GL_OES_EGL_image
GL_OES_depth24
GL_ARM_rgba8
GL_ARM_mali_shader_binary
GL_OES_depth_texture
GL_OES_packed_depth_stencil
GL_EXT_texture_format_BGRA8888
GL_OES_vertex_half_float
GL_EXT_blend_minmax
GL_OES_EGL_image_external
GL_OES_EGL_sync
GL_OES_rgb8_rgba8
GL_EXT_multisampled_render_to_texture
GL_EXT_discard_framebuffer
GL_OES_get_program_binary
GL_ARM_mali_program_binary
GL_EXT_shader_texture_lod
GL_EXT_robustness
GL_OES_depth_texture_cube_map
GL_KHR_debug
GL_ARM_shader_framebuffer_fetch
GL_ARM_shader_framebuffer_fetch_depth_stencil
GL_OES_mapbuffer
GL_KHR_no_error

<6>usbcore: deregistering interface driver rtl8188eu
<4>RTL871X: ###=> usb_read_port_complete => urb status(-108)
<4>RTL871X: usb_read_port_complete() RX Warning! bDriverStopped(1) OR bSurpriseRemoved(0)
<4>RTL871X: usb_read_port_complete() RX Warning! bDriverStopped(1) OR bSurpriseRemoved(0)
<4>RTL871X: usb_read_port_complete() RX Warning! bDriverStopped(1) OR bSurpriseRemoved(0)
<4>RTL871X: usb_read_port_complete() RX Warning! bDriverStopped(1) OR bSurpriseRemoved(0)
<4>RTL871X: usb_read_port_complete() RX Warning! bDriverStopped(1) OR bSurpriseRemoved(0)
<4>RTL871X: usb_read_port_complete() RX Warning! bDriverStopped(1) OR bSurpriseRemoved(0)
<4>RTL871X: usb_read_port_complete() RX Warning! bDriverStopped(1) OR bSurpriseRemoved(0)
<4>RTL871X: +rtw_dev_remove
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 49000000
<7>[NORMAL_CASE] load: 35, cur_freq:1400000, num_online_cpus:4 ==> level_index: 3
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 4, cpufreq from 1400000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1400000 KHz
<7>[DVFS] Current Temperature: 111
<7>[DVFS] Normal Mode: CPU Clock: 1400MHz
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1400
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1400000 KHz to 1400000 KHz
<4>RTL871X: rtw_ndev_uninit(wlan0)
<4>RTL871X: rtw_wdev_unregister(wdev=e970a400)
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 84000000
<7>[NORMAL_CASE] load: 60, cur_freq:1400000, num_online_cpus:4 ==> level_index: 7
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 4, cpufreq from 1400000 KHz to 1100000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1400000 KHz
<7>[DVFS] Current Temperature: 111
<7>[DVFS] Normal Mode: CPU Clock: 1400MHz
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1400
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1400000 KHz to 1400000 KHz
<4>RTL871X: rtw_ndev_uninit(p2p0)
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 49000000
<7>[NORMAL_CASE] load: 35, cur_freq:1400000, num_online_cpus:4 ==> level_index: 3
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 4, cpufreq from 1400000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1400000 KHz
<7>[DVFS] Current Temperature: 111
<7>[DVFS] Normal Mode: CPU Clock: 1400MHz
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1400
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1400000 KHz to 1400000 KHz
<4>RTL871X: rtw_wdev_unregister(wdev=eca73a00)
<4>RTL871X: rtw_pm_set_ips IPS_NONE
<4>RTL871X: rtw_pm_set_ips: bDriverStopped=1, bup=1, hw_init_completed=1
<4>RTL871X: usb_write_port_cancel
<4>RTL871X: ### Clean STA_(1) info
<4>RTL871X: ===> rtw_dev_unload
<4>RTL871X: usb_read_port_cancel
<4>RTL871X: usb_write_port_cancel
<4>RTL871X: rtw_cmd_thread: DriverStopped(1) SurpriseRemoved(0) break at line 478
<4>RTL871X: rtw_hal_check_ips_status: HalFunc.check_ips_status is NULL!
<4>RTL871X: rtw_dev_unload: driver not in IPS
<4>RTL871X: ==> rtl8188eu_hal_deinit
<4>RTL871X: bkeepfwalive(0)
<4>RTL871X: SetHwReg8188EU: bMacPwrCtrlOn=0
<4>RTL871X: <=== rtw_dev_unload
<4>RTL871X: +r871xu_dev_remove, hw_init_completed=0
<4>RTL871X: rtw_wdev_free(wdev=e970a400)
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 1
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 2
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 3
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 4
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 5
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 6
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 7
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 8
<4>RTL871X: rtw_wdev_free(wdev=eca73a00)
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 9
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 10
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 11
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 98000000
<7>[NO_CHANGE_CASE] load: 70, cur_freq:1400000, num_online_cpus:4 ==> mstar_cpu_dvfs_hotplug_scenario_index: 3
<7>
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 12
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 13
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 14
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 15
<4>rtw_free_skb_premem, rtk_skb_mem_q len : 16
<4>RTL871X: usb attached..., try to reset usb device
<7>[DVFS] [[====================================
<7>[DVFS] CPU Clock: 1400MHz
<7>[DVFS] Reference Temperature Data (CPU): 0x0191
<7>[DVFS] Current Temperature Sensor Data (CPU): 0x014f
<7>[DVFS] Temperature (CPU): 111
<7>[DVFS] CPU Power: 1180mV
<7>[DVFS] Core Power: 980mV
<7>[DVFS] ====================================]]
<7>[DVFS] Current DVFS State: 2
<7>[DVFS] Current Valid CPU Clock: 1500MHz
<7>Function = Mdrv_CPU_T_sensor_Check_callback, Line = 1361, do Mdrv_CPU_T_sensor_Check_callback: 1500000, over_thermal_flag is 0
<4>==20160714==> hub_port_init 1 #0
<4>Plug in USB Port3
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 28000000
<7>[NORMAL_CASE] load: 20, cur_freq:1400000, num_online_cpus:4 ==> level_index: 2
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 3, cpufreq from 1400000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1400000 KHz
<7>[DVFS] Current Temperature: 111
<7>[DVFS] Normal Mode: CPU Clock: 1400MHz
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1400
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1400000 KHz to 1400000 KHz
<6>usb 3-1: reset high-speed USB device number 2 using Mstar-ehci-3
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 42000000
<7>[NORMAL_CASE] load: 30, cur_freq:1400000, num_online_cpus:4 ==> level_index: 3
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 4, cpufreq from 1400000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1400000 KHz
<7>[DVFS] Current Temperature: 111
<7>[DVFS] Normal Mode: CPU Clock: 1400MHz
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1400
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1400000 KHz to 1400000 KHz
<4>RTL871X: -r871xu_dev_remove, done
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 7000000
<7>[NORMAL_CASE] load: 5, cur_freq:1400000, num_online_cpus:4 ==> level_index: 0
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 1, cpufreq from 1400000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1400000 KHz
<7>[DVFS] Current Temperature: 111
<7>[DVFS] Normal Mode: CPU Clock: 1400MHz
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1400
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1400000 KHz to 1400000 KHz
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 0
<7>[NORMAL_CASE] load: 0, cur_freq:1400000, num_online_cpus:4 ==> level_index: 0
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 1, cpufreq from 1400000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1400000 KHz
<7>[DVFS] Current Temperature: 111
<7>[DVFS] Normal Mode: CPU Clock: 1400MHz
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1400
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1400000 KHz to 1400000 KHz
<4>RTL871X: module exit success
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 0
<7>[NORMAL_CASE] load: 0, cur_freq:1400000, num_online_cpus:4 ==> level_index: 0
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 1, cpufreq from 1400000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1400000 KHz
<7>[DVFS] [[====================================
<7>[DVFS] CPU Clock: 1400MHz
<7>[DVFS] Reference Temperature Data (CPU): 0x0191
<7>[DVFS] Current Temperature Sensor Data (CPU): 0x0150
<7>[DVFS] Temperature (CPU): 110
<7>[DVFS] CPU Power: 1180mV
<7>[DVFS] Core Power: 980mV
<7>[DVFS] ====================================]]
<7>[DVFS] Current Temperature: 110
<7>[DVFS] Normal Mode: CPU Clock: 1400MHz
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1400
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1400000 KHz to 1400000 KHz
<7>[DVFS] Current DVFS State: 2
<7>[DVFS] Current Valid CPU Clock: 1500MHz
<7>Function = Mdrv_CPU_T_sensor_Check_callback, Line = 1361, do Mdrv_CPU_T_sensor_Check_callback: 1500000, over_thermal_flag is 0
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 7000000
<7>[NORMAL_CASE] load: 5, cur_freq:1400000, num_online_cpus:4 ==> level_index: 0
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 1, cpufreq from 1400000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1400000 KHz
<7>[DVFS] Current Temperature: 110
<7>[DVFS] Normal Mode: CPU Clock: 1400MHz
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1400
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1400000 KHz to 1400000 KHz
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 0
<7>[NORMAL_CASE] load: 0, cur_freq:1400000, num_online_cpus:4 ==> level_index: 0
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 1, cpufreq from 1400000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1400000 KHz
<7>[DVFS] Current Temperature: 110
<7>[DVFS] Normal Mode: CPU Clock: 1400MHz
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1400
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1400000 KHz to 1400000 KHz
<7>[dvfs_boost] here comes a client with client_id = 128 and cpu_freq_in_khz = 0
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 7000000
<7>[NORMAL_CASE] load: 5, cur_freq:1400000, num_online_cpus:4 ==> level_index: 0
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 1, cpufreq from 1400000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 700000 KHz
<7>[DVFS] Current Temperature: 110
<7>[DVFS] Normal Mode: CPU Clock: 700MHz
<7>[INFO] Data Exchange Count to User Space: 2831
<7>[INFO] Voltage: 88
<7>[INFO] VoltageType: 0
<7>[result is 0] input: 2831, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2831
<7>[DVFS] CPU Power: 88
<7>[INFO] Data Exchange Count to User Space: 2832
<7>[INFO] Voltage: 98
<7>[INFO] VoltageType: 1
<7>[result is 0] input: 2832, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2832
<7>[DVFS] Core Power: 98
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 700
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 700000 KHz to 700000 KHz
<7>Function = change_cpus_timer, Line = 1062, cpu0 do: [cpu0] adjust cpufreq from 1400000 KHZ to 700000 KHZ
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 2
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 5
<7>+++mstar_cpu_die cpu3+++
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 2
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 5
<7>+++mstar_cpu_die cpu2+++
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 1 policy->governor: ondemand, for event 2
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 1 policy->governor: ondemand, for event 5
<7>+++mstar_cpu_die cpu1+++
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 44100000
<7>[NORMAL_CASE] load: 63, cur_freq: 700000, num_online_cpus:1 ==> level_index: 0
<7>
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 38500000
<7>[NORMAL_CASE] load: 55, cur_freq: 700000, num_online_cpus:1 ==> level_index: 0
<7>
<7>[DVFS] [[====================================
<7>[DVFS] CPU Clock: 699MHz
<7>[DVFS] Reference Temperature Data (CPU): 0x0191
<7>[DVFS] Current Temperature Sensor Data (CPU): 0x0151
<7>[DVFS] Temperature (CPU): 108
<7>[DVFS] CPU Power: 880mV
<7>[DVFS] Core Power: 980mV
<7>[DVFS] ====================================]]
<7>[DVFS] Current DVFS State: 2
<7>[DVFS] Current Valid CPU Clock: 1500MHz
<7>Function = Mdrv_CPU_T_sensor_Check_callback, Line = 1361, do Mdrv_CPU_T_sensor_Check_callback: 1500000, over_thermal_flag is 0
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 56000000
<7>[NO_CHANGE_CASE] load: 80, cur_freq: 700000, num_online_cpus:1 ==> mstar_cpu_dvfs_hotplug_scenario_index: 0
<7>
<6>cfg80211: Calling CRDA to update world regulatory domain
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 70000000
<7>[MAX_CASE] load:100, cur_freq: 700000, num_online_cpus:1 ==> level_index:11
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 4, cpufreq from 700000 KHz to 1500000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1500000 KHz
<7>[DVFS] Current Temperature: 108
<7>[DVFS] Normal Mode: CPU Clock: 1500MHz
<7>[INFO] Data Exchange Count to User Space: 2833
<7>[INFO] Voltage: 118
<7>[INFO] VoltageType: 0
<7>[result is 0] input: 2833, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2833
<7>[DVFS] CPU Power: 118
<7>[INFO] Data Exchange Count to User Space: 2834
<7>[INFO] Voltage: 98
<7>[INFO] VoltageType: 1
<7>[result is 0] input: 2834, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2834
<7>[DVFS] Core Power: 98
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1500
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1500000 KHz to 1500000 KHz
<7>Function = change_cpus_timer, Line = 1062, cpu0 do: [cpu0] adjust cpufreq from 700000 KHZ to 1500000 KHZ
<7>+++mstar_boot_secondary current processor:1++++
<7>pen_release = 0x00000001, addr = 0xc09ead90, pen_release ptr = 0x00000001
<7>Function = cpufreq_add_dev, Line = 953, do cpufreq_driver->init
<7>Function = integrator_cpufreq_init, Line = 270, ac_str_cpufreq is already set to 1200000kHz
<7>Function = __cpufreq_set_policy, Line = 1845, re-assign governor
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 1 policy->governor: ondemand, for event 4
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 1 policy->governor: ondemand, for event 1
<7>Function = cpufreq_governor_dbs, Line = 392, [cpu 0] initialize cpu 1 timer
<7>Function = cpufreq_governor_dbs, Line = 424, [cpu 0] do first DVFS sampling
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 1 policy->governor: ondemand, for event 3
<7>+++mstar_boot_secondary current processor:2++++
<7>pen_release = 0x00000002, addr = 0xc09ead90, pen_release ptr = 0x00000002
<7>Function = cpufreq_add_dev, Line = 953, do cpufreq_driver->init
<7>Function = integrator_cpufreq_init, Line = 270, ac_str_cpufreq is already set to 1200000kHz
<7>Function = __cpufreq_set_policy, Line = 1845, re-assign governor
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 4
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 1
<7>Function = cpufreq_governor_dbs, Line = 392, [cpu 0] initialize cpu 2 timer
<7>Function = cpufreq_governor_dbs, Line = 424, [cpu 0] do first DVFS sampling
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 3
<7>+++mstar_boot_secondary current processor:3++++
<7>pen_release = 0x00000003, addr = 0xc09ead90, pen_release ptr = 0x00000003
<7>Function = cpufreq_add_dev, Line = 953, do cpufreq_driver->init
<7>Function = integrator_cpufreq_init, Line = 270, ac_str_cpufreq is already set to 1200000kHz
<7>Function = __cpufreq_set_policy, Line = 1845, re-assign governor
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 4
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 1
<7>Function = cpufreq_governor_dbs, Line = 392, [cpu 0] initialize cpu 3 timer
<7>Function = cpufreq_governor_dbs, Line = 424, [cpu 0] do first DVFS sampling
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 3
<4>RTL871X: module init start
<4>RTL871X: rtl8188eu v4.3.0.8_13968.20150417_rtkm_0515_20151106
<4>RTL871X: build time: Aug 17 2016 15:18:02
<4>RTL871X:
<4>usb_endpoint_descriptor(0):
<4>RTL871X: bLength=7
<4>RTL871X: bDescriptorType=5
<4>RTL871X: bEndpointAddress=81
<4>RTL871X: wMaxPacketSize=512
<4>RTL871X: bInterval=0
<4>RTL871X: RT_usb_endpoint_is_bulk_in = 1
<4>RTL871X:
<4>usb_endpoint_descriptor(1):
<4>RTL871X: bLength=7
<4>RTL871X: bDescriptorType=5
<4>RTL871X: bEndpointAddress=2
<4>RTL871X: wMaxPacketSize=512
<4>RTL871X: bInterval=0
<4>RTL871X: RT_usb_endpoint_is_bulk_out = 2
<4>RTL871X:
<4>usb_endpoint_descriptor(2):
<4>RTL871X: bLength=7
<4>RTL871X: bDescriptorType=5
<4>RTL871X: bEndpointAddress=3
<4>RTL871X: wMaxPacketSize=512
<4>RTL871X: bInterval=0
<4>RTL871X: RT_usb_endpoint_is_bulk_out = 3
<4>RTL871X: nr_endpoint=3, in_num=1, out_num=2
<4>
<4>RTL871X: USB_SPEED_HIGH
<4>RTL871X: CHIP TYPE: RTL8188E
<4>RTL871X: register rtw_netdev_ops to netdev_ops
<4>RTL871X: rtw_wdev_alloc(padapter=f0117000)
<4>RTL871X: Chip Version Info: CHIP_8188E_Normal_Chip_TSMC_D_CUT_1T1R_RomVer(0)
<4>RTL871X: RF_Type is 3!!
<4>RTL871X: _ConfigNormalChipOutEP_8188E OutEpQueueSel(0x05), OutEpNumber(2)
<4>RTL871X: EEPROM type is E-FUSE
<4>RTL871X: ====> _ReadAdapterInfo8188EU
<4>RTL871X: Boot from EFUSE, Autoload OK !
<4>RTL871X: SetHwReg8188EU: bMacPwrCtrlOn=1
<4>bFWReady == _FALSE call reset 8051...
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 75000000
<7>[NORMAL_CASE] load: 50, cur_freq:1500000, num_online_cpus:4 ==> level_index: 6
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 4, cpufreq from 1500000 KHz to 1000000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1000000 KHz
<7>[DVFS] Current Temperature: 108
<7>[DVFS] Normal Mode: CPU Clock: 1000MHz
<7>[INFO] Data Exchange Count to User Space: 2835
<7>[INFO] Voltage: 95
<7>[INFO] VoltageType: 0
<7>[result is 0] input: 2835, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2835
<7>[DVFS] CPU Power: 95
<7>[INFO] Data Exchange Count to User Space: 2836
<7>[INFO] Voltage: 98
<7>[INFO] VoltageType: 1
<4>RTL871X: =====> _8051Reset88E(): 8051 reset success .
<7>[result is 0] input: 2836, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2836
<7>[DVFS] Core Power: 98
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1000
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1000000 KHz to 1000000 KHz
<7>Function = change_cpus_timer, Line = 1062, cpu0 do: [cpu0] adjust cpufreq from 1500000 KHZ to 1000000 KHZ
<4>RTL871X: efuse_read_phymap_from_txpktbuf bcnhead:0
<4>RTL871X: efuse_read_phymap_from_txpktbuf len:111, lenbak:111, aaa:111, aaabak:111
<4>RTL871X: efuse_read_phymap_from_txpktbuf read count:109
<4>RTL871X: EEPROM ID=0x8129
<4>RTL871X: VID = 0x0BDA, PID = 0x0179
<4>RTL871X: Customer ID: 0x00, SubCustomer ID: 0xCD
<4>RTL871X: Hal_ReadPowerSavingMode88E...bHWPwrPindetect(0)-bHWPowerdown(0) ,bSupportRemoteWakeup(1)
<4>RTL871X: ### PS params=> power_mgnt(1),usbss_enable(0) ###
<4>RTL871X: ======= Path 0, Channel 1 =======
<4>RTL871X: Index24G_CCK_Base[0][1] = 0x30
<4>RTL871X: Index24G_BW40_Base[0][1] = 0x33
<4>RTL871X: ======= Path 0, Channel 2 =======
<4>RTL871X: Index24G_CCK_Base[0][2] = 0x30
<4>RTL871X: Index24G_BW40_Base[0][2] = 0x33
<4>RTL871X: ======= Path 0, Channel 3 =======
<4>RTL871X: Index24G_CCK_Base[0][3] = 0x30
<4>RTL871X: Index24G_BW40_Base[0][3] = 0x33
<4>RTL871X: ======= Path 0, Channel 4 =======
<4>RTL871X: Index24G_CCK_Base[0][4] = 0x30
<4>RTL871X: Index24G_BW40_Base[0][4] = 0x33
<4>RTL871X: ======= Path 0, Channel 5 =======
<4>RTL871X: Index24G_CCK_Base[0][5] = 0x30
<4>RTL871X: Index24G_BW40_Base[0][5] = 0x33
<4>RTL871X: ======= Path 0, Channel 6 =======
<4>RTL871X: Index24G_CCK_Base[0][6] = 0x2e
<4>RTL871X: Index24G_BW40_Base[0][6] = 0x31
<4>RTL871X: ======= Path 0, Channel 7 =======
<4>RTL871X: Index24G_CCK_Base[0][7] = 0x2e
<4>RTL871X: Index24G_BW40_Base[0][7] = 0x31
<4>RTL871X: ======= Path 0, Channel 8 =======
<4>RTL871X: Index24G_CCK_Base[0][8] = 0x2e
<4>RTL871X: Index24G_BW40_Base[0][8] = 0x31
<4>RTL871X: ======= Path 0, Channel 9 =======
<4>RTL871X: Index24G_CCK_Base[0][9] = 0x2d
<4>RTL871X: Index24G_BW40_Base[0][9] = 0x30
<4>RTL871X: ======= Path 0, Channel 10 =======
<4>RTL871X: Index24G_CCK_Base[0][10] = 0x2d
<4>RTL871X: Index24G_BW40_Base[0][10] = 0x30
<4>RTL871X: ======= Path 0, Channel 11 =======
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 45000000
<7>[NORMAL_CASE] load: 45, cur_freq:1000000, num_online_cpus:4 ==> level_index: 3
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 4, cpufreq from 1000000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 700000 KHz
<4>RTL871X: Index24G_CCK_Base[0][11] = 0x2d
<7>[DVFS] Current Temperature: 108
<7>[DVFS] Normal Mode: CPU Clock: 700MHz
<7>[INFO] Data Exchange Count to User Space: 2837
<7>[INFO] Voltage: 88
<7>[INFO] VoltageType: 0
<4>RTL871X: Index24G_BW40_Base[0][11] = 0x30
<7>[result is 0] input: 2837, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2837
<7>[DVFS] CPU Power: 88
<7>[INFO] Data Exchange Count to User Space: 2838
<7>[INFO] Voltage: 98
<7>[INFO] VoltageType: 1
<7>[result is 0] input: 2838, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2838
<7>[DVFS] Core Power: 98
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 700
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 700000 KHz to 700000 KHz
<7>Function = change_cpus_timer, Line = 1062, cpu0 do: [cpu0] adjust cpufreq from 1000000 KHZ to 700000 KHZ
<4>RTL871X: ======= Path 0, Channel 12 =======
<4>RTL871X: Index24G_CCK_Base[0][12] = 0x2d
<4>RTL871X: Index24G_BW40_Base[0][12] = 0x30
<4>RTL871X: ======= Path 0, Channel 13 =======
<4>RTL871X: Index24G_CCK_Base[0][13] = 0x2d
<4>RTL871X: Index24G_BW40_Base[0][13] = 0x30
<4>RTL871X: ======= Path 0, Channel 14 =======
<4>RTL871X: Index24G_CCK_Base[0][14] = 0x2d
<4>RTL871X: Index24G_BW40_Base[0][14] = 0x30
<4>RTL871X: ======= TxCount 0 =======
<4>RTL871X: CCK_24G_Diff[0][0]= 0
<4>RTL871X: OFDM_24G_Diff[0][0]= 0
<4>RTL871X: BW20_24G_Diff[0][0]= 0
<4>RTL871X: BW40_24G_Diff[0][0]= 0
<4>RTL871X: EEPROMRegulatory = 0x0
<4>RTL871X: mlmepriv.ChannelPlan = 0x20
<4>RTL871X: CrystalCap: 0x30
<4>RTL871X: EEPROM Customer ID: 0x 0
<4>RTL871X: EEPROM : AntDivCfg = 0, TRxAntDivType = 3
<4>RTL871X: Board Type: 0x 0
<4>RTL871X: ThermalMeter = 0x18
<4>RTL871X: <==== _ReadAdapterInfo8188EU in 300 ms
<4>RTL871X: init_channel_set ChannelPlan ID 20 Chan num:13
<4>RTL871X: NR_PREALLOC_RECV_SKB: 8
<4>RTL871X: Enable CONFIG_FIX_NR_BULKIN_BUFFER
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 15
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 14
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 13
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 12
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 11
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 10
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 9
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 8
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 14000000
<4>RTL871X: pwrctrlpriv.bSupportRemoteWakeup~~~~~~
<7>[NORMAL_CASE] load: 20, cur_freq: 700000, num_online_cpus:4 ==> level_index: 1
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 2, cpufreq from 700000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 700000 KHz
<7>[DVFS] Current Temperature: 108
<7>[DVFS] Normal Mode: CPU Clock: 700MHz
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 700
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 700000 KHz to 700000 KHz
<4>RTL871X: pwrctrlpriv.bSupportRemoteWakeup~~~[1]~~~
<4>RTL871X: rtw_macaddr_cfg MAC Address = 00:7e:56:84:45:db
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 2
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 5
<4>RTL871X: bDriverStopped:1, bSurpriseRemoved:0, bup:0, hw_init_completed:0
<4>RTL871X: register rtw_netdev_ops to netdev_ops
<7>+++mstar_cpu_die cpu3+++
<4>RTL871X: register rtw_netdev_if2_ops to netdev_ops
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 2
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 5
<4>RTL871X: rtw_wdev_alloc(padapter=f0195000)
<7>+++mstar_cpu_die cpu2+++
<4>RTL871X: Chip Version Info: CHIP_8188E_Normal_Chip_TSMC_D_CUT_1T1R_RomVer(0)
<4>RTL871X: RF_Type is 3!!
<4>RTL871X: _ConfigNormalChipOutEP_8188E OutEpQueueSel(0x05), OutEpNumber(2)
<4>RTL871X: init_channel_set ChannelPlan ID 20 Chan num:13
<4>RTL871X: NR_PREALLOC_RECV_SKB: 8
<4>RTL871X: Enable CONFIG_FIX_NR_BULKIN_BUFFER
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 7
<7>[DVFS] [[====================================
<7>[DVFS] CPU Clock: 699MHz
<7>[DVFS] Reference Temperature Data (CPU): 0x0191
<7>[DVFS] Current Temperature Sensor Data (CPU): 0x0153
<7>[DVFS] Temperature (CPU): 106
<7>[DVFS] CPU Power: 880mV
<7>[DVFS] Core Power: 980mV
<7>[DVFS] ====================================]]
<7>[DVFS] Current DVFS State: 2
<7>[DVFS] Current Valid CPU Clock: 1500MHz
<7>Function = Mdrv_CPU_T_sensor_Check_callback, Line = 1361, do Mdrv_CPU_T_sensor_Check_callback: 1500000, over_thermal_flag is 0
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 6
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 5
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 4
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 3
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 2
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 1
<4>rtw_alloc_skb_premem, rtk_skb_mem_q len : 0
<4>RTL871X: rtw_ndev_init(wlan0)
<4>RTL871X: _rtw_drv_register_netdev, MAC Address (if1) = 00:7e:56:84:45:db
<4>RTL871X: rtw_ndev_init(p2p0)
<4>RTL871X: _rtw_drv_register_netdev, MAC Address (if2) = 02:7e:56:84:45:db
<6>usbcore: registered new interface driver rtl8188eu
<4>RTL871X: module init ret=0
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 59500000
<7>[MAX_CASE] load: 85, cur_freq: 700000, num_online_cpus:2 ==> level_index:11
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 4, cpufreq from 700000 KHz to 1500000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1500000 KHz
<7>[DVFS] Current Temperature: 106
<7>[DVFS] Normal Mode: CPU Clock: 1500MHz
<7>[INFO] Data Exchange Count to User Space: 2839
<7>[INFO] Voltage: 118
<7>[INFO] VoltageType: 0
<7>[result is 0] input: 2839, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2839
<7>[DVFS] CPU Power: 118
<7>[INFO] Data Exchange Count to User Space: 2840
<7>[INFO] Voltage: 98
<7>[INFO] VoltageType: 1
<7>[result is 0] input: 2840, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2840
<7>[DVFS] Core Power: 98
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1500
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1500000 KHz to 1500000 KHz
<7>Function = change_cpus_timer, Line = 1062, cpu0 do: [cpu0] adjust cpufreq from 700000 KHZ to 1500000 KHZ
<7>+++mstar_boot_secondary current processor:2++++
<7>pen_release = 0x00000002, addr = 0xc09ead90, pen_release ptr = 0x00000002
<7>Function = cpufreq_add_dev, Line = 953, do cpufreq_driver->init
<7>Function = integrator_cpufreq_init, Line = 270, ac_str_cpufreq is already set to 1200000kHz
<7>Function = __cpufreq_set_policy, Line = 1845, re-assign governor
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 4
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 1
<7>Function = cpufreq_governor_dbs, Line = 392, [cpu 0] initialize cpu 2 timer
<7>Function = cpufreq_governor_dbs, Line = 424, [cpu 0] do first DVFS sampling
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 3
<7>+++mstar_boot_secondary current processor:3++++
<7>pen_release = 0x00000003, addr = 0xc09ead90, pen_release ptr = 0x00000003
<7>Function = cpufreq_add_dev, Line = 953, do cpufreq_driver->init
<7>Function = integrator_cpufreq_init, Line = 270, ac_str_cpufreq is already set to 1200000kHz
<7>Function = __cpufreq_set_policy, Line = 1845, re-assign governor
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 4
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 1
<7>Function = cpufreq_governor_dbs, Line = 392, [cpu 0] initialize cpu 3 timer
<7>Function = cpufreq_governor_dbs, Line = 424, [cpu 0] do first DVFS sampling
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 3
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 7500000
<7>[NORMAL_CASE] load: 5, cur_freq:1500000, num_online_cpus:4 ==> level_index: 0
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 1, cpufreq from 1500000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 700000 KHz
<7>[DVFS] Current Temperature: 106
<7>[DVFS] Normal Mode: CPU Clock: 700MHz
<7>[INFO] Data Exchange Count to User Space: 2841
<7>[INFO] Voltage: 88
<7>[INFO] VoltageType: 0
<7>[result is 0] input: 2841, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2841
<7>[DVFS] CPU Power: 88
<7>[INFO] Data Exchange Count to User Space: 2842
<7>[INFO] Voltage: 98
<7>[INFO] VoltageType: 1
<7>[result is 0] input: 2842, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2842
<7>[DVFS] Core Power: 98
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 700
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 700000 KHz to 700000 KHz
<7>Function = change_cpus_timer, Line = 1062, cpu0 do: [cpu0] adjust cpufreq from 1500000 KHZ to 700000 KHZ
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 2
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 5
<7>+++mstar_cpu_die cpu3+++
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 2
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 5
<7>+++mstar_cpu_die cpu2+++
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 1 policy->governor: ondemand, for event 2
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 1 policy->governor: ondemand, for event 5
<7>+++mstar_cpu_die cpu1+++
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 32900000
<7>[NORMAL_CASE] load: 47, cur_freq: 700000, num_online_cpus:1 ==> level_index: 0
<7>
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 42000000
<7>[NORMAL_CASE] load: 60, cur_freq: 700000, num_online_cpus:1 ==> level_index: 0
<7>
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 38500000
<7>[NORMAL_CASE] load: 55, cur_freq: 700000, num_online_cpus:1 ==> level_index: 0
<7>
<7>[DVFS] Current DVFS State: 2
<7>[DVFS] Current Valid CPU Clock: 1500MHz
<7>Function = Mdrv_CPU_T_sensor_Check_callback, Line = 1361, do Mdrv_CPU_T_sensor_Check_callback: 1500000, over_thermal_flag is 0
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 42000000
<7>[NORMAL_CASE] load: 60, cur_freq: 700000, num_online_cpus:1 ==> level_index: 0
<7>
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 56000000
<7>[NO_CHANGE_CASE] load: 80, cur_freq: 700000, num_online_cpus:1 ==> mstar_cpu_dvfs_hotplug_scenario_index: 0
<7>
<4>RTL871X: +871x_drv - if2_open, bup=0
<4>RTL871X: +871x_drv - drv_open, bup=0
<4>RTL871X: Set RF Chip ID to RF_6052 and RF type to 1T1R.
<4>RTL871X: rtl8188e_FirmwareDownload fw:NIC, size: 13904
<4>RTL871X: rtl8188e_FirmwareDownload: fw_ver=b fw_subver=0001 sig=0x88e1, Month=11, Date=27, Hour=30, Minute=36
<4>RTL871X: polling_fwdl_chksum: Checksum report OK! (1, 0ms), REG_MCUFWDL:0x00030005
<4>RTL871X: =====> _8051Reset88E(): 8051 reset success .
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 66500000
<7>[MAX_CASE] load: 95, cur_freq: 700000, num_online_cpus:1 ==> level_index:11
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 4, cpufreq from 700000 KHz to 1500000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1500000 KHz
<7>[DVFS] Current Temperature: 106
<7>[DVFS] Normal Mode: CPU Clock: 1500MHz
<7>[INFO] Data Exchange Count to User Space: 2843
<7>[INFO] Voltage: 118
<7>[INFO] VoltageType: 0
<4>RTL871X: _FWFreeToGo: Polling FW ready OK! (1, 10ms), REG_MCUFWDL:0x000300c6
<4>RTL871X: FWDL success. write_fw:1, 80ms
<7>[result is 0] input: 2843, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2843
<7>[DVFS] CPU Power: 118
<7>[INFO] Data Exchange Count to User Space: 2844
<7>[INFO] Voltage: 98
<7>[INFO] VoltageType: 1
<7>[result is 0] input: 2844, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2844
<7>[DVFS] Core Power: 98
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1500
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1500000 KHz to 1500000 KHz
<7>Function = change_cpus_timer, Line = 1062, cpu0 do: [cpu0] adjust cpufreq from 700000 KHZ to 1500000 KHZ
<7>+++mstar_boot_secondary current processor:1++++
<7>pen_release = 0x00000001, addr = 0xc09ead90, pen_release ptr = 0x00000001
<7>Function = cpufreq_add_dev, Line = 953, do cpufreq_driver->init
<7>Function = integrator_cpufreq_init, Line = 270, ac_str_cpufreq is already set to 1200000kHz
<7>Function = __cpufreq_set_policy, Line = 1845, re-assign governor
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 1 policy->governor: ondemand, for event 4
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 1 policy->governor: ondemand, for event 1
<7>Function = cpufreq_governor_dbs, Line = 392, [cpu 0] initialize cpu 1 timer
<7>Function = cpufreq_governor_dbs, Line = 424, [cpu 0] do first DVFS sampling
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 1 policy->governor: ondemand, for event 3
<7>+++mstar_boot_secondary current processor:2++++
<7>pen_release = 0x00000002, addr = 0xc09ead90, pen_release ptr = 0x00000002
<7>Function = cpufreq_add_dev, Line = 953, do cpufreq_driver->init
<7>Function = integrator_cpufreq_init, Line = 270, ac_str_cpufreq is already set to 1200000kHz
<7>Function = __cpufreq_set_policy, Line = 1845, re-assign governor
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 4
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 1
<7>Function = cpufreq_governor_dbs, Line = 392, [cpu 0] initialize cpu 2 timer
<7>Function = cpufreq_governor_dbs, Line = 424, [cpu 0] do first DVFS sampling
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 3
<7>+++mstar_boot_secondary current processor:3++++
<7>pen_release = 0x00000003, addr = 0xc09ead90, pen_release ptr = 0x00000003
<7>Function = cpufreq_add_dev, Line = 953, do cpufreq_driver->init
<7>Function = integrator_cpufreq_init, Line = 270, ac_str_cpufreq is already set to 1200000kHz
<7>Function = __cpufreq_set_policy, Line = 1845, re-assign governor
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 4
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 1
<7>Function = cpufreq_governor_dbs, Line = 392, [cpu 0] initialize cpu 3 timer
<7>Function = cpufreq_governor_dbs, Line = 424, [cpu 0] do first DVFS sampling
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 3
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 39000000
<7>[NORMAL_CASE] load: 26, cur_freq:1500000, num_online_cpus:4 ==> level_index: 2
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 3, cpufreq from 1500000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 700000 KHz
<7>[DVFS] [[====================================
<7>[DVFS] CPU Clock: 1500MHz
<7>[DVFS] Reference Temperature Data (CPU): 0x0191
<7>[DVFS] Current Temperature Sensor Data (CPU): 0x0153
<7>[DVFS] Temperature (CPU): 106
<7>[DVFS] CPU Power: 1180mV
<7>[DVFS] Core Power: 980mV
<7>[DVFS] ====================================]]
<7>[DVFS] Current Temperature: 106
<7>[DVFS] Normal Mode: CPU Clock: 700MHz
<7>[INFO] Data Exchange Count to User Space: 2845
<7>[INFO] Voltage: 88
<7>[INFO] VoltageType: 0
<7>[result is 0] input: 2845, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2845
<7>[DVFS] CPU Power: 88
<7>[INFO] Data Exchange Count to User Space: 2846
<7>[INFO] Voltage: 98
<7>[INFO] VoltageType: 1
<7>[result is 0] input: 2846, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2846
<7>[DVFS] Core Power: 98
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 700
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 700000 KHz to 700000 KHz
<7>Function = change_cpus_timer, Line = 1062, cpu0 do: [cpu0] adjust cpufreq from 1500000 KHZ to 700000 KHZ
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 2
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 5
<7>+++mstar_cpu_die cpu3+++
<4>==> rtl8188e_iol_efuse_patch
<4>RTL871X: pDM_Odm TxPowerTrackControl = 1
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 21000000
<7>[NORMAL_CASE] load: 30, cur_freq: 700000, num_online_cpus:3 ==> level_index: 1
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 2, cpufreq from 700000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 700000 KHz
<7>[DVFS] Current Temperature: 106
<7>[DVFS] Normal Mode: CPU Clock: 700MHz
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 700
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 700000 KHz to 700000 KHz
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 2
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 5
<7>+++mstar_cpu_die cpu2+++
<7>[DVFS] Current DVFS State: 2
<7>[DVFS] Current Valid CPU Clock: 1500MHz
<7>Function = Mdrv_CPU_T_sensor_Check_callback, Line = 1361, do Mdrv_CPU_T_sensor_Check_callback: 1500000, over_thermal_flag is 0
<4>RTL871X: rtl8188eu_hal_init in 610ms
<4>RTL871X: hw_var_set_opmode()-4042 mode = 2
<4>RTL871X: MAC Address = 00:7e:56:84:45:db
<4>RTL871X: rtw_cfg80211_init_wiphy:rf_type=3
<4>RTL871X: +871x_drv - if2_open, bup=0
<4>RTL871X: rtw_hal_inirp_init HalFunc.inirp_init is NULL!!!
<4>RTL871X: rtw_cfg80211_init_wiphy:rf_type=3
<4>RTL871X: -871x_drv - if2_open, bup=1
<4>RTL871X: -871x_drv - drv_open, bup=1
<4>RTL871X: -871x_drv - if2_open, bup=1
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 49000000
<7>[NO_CHANGE_CASE] load: 70, cur_freq: 700000, num_online_cpus:2 ==> mstar_cpu_dvfs_hotplug_scenario_index: 1
<7>
<6>IPv6: ADDRCONF(NETDEV_UP): p2p0: link is not ready
<4>RTL871X: cfg80211_rtw_set_power_mgmt(p2p0) enabled:1, timeout:-1
<4>RTL871X: cfg80211_rtw_flush_pmksa(p2p0)
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 7000000
<7>[NORMAL_CASE] load: 10, cur_freq: 700000, num_online_cpus:2 ==> level_index: 0
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 1, cpufreq from 700000 KHz to 700000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 700000 KHz
<7>[DVFS] Current Temperature: 106
<7>[DVFS] Normal Mode: CPU Clock: 700MHz
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 700
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 700000 KHz to 700000 KHz
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 1 policy->governor: ondemand, for event 2
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 1 policy->governor: ondemand, for event 5
<7>+++mstar_cpu_die cpu1+++
<4>RTL871X: +871x_drv - drv_open, bup=1
<4>RTL871X: -871x_drv - drv_open, bup=1
<6>IPv6: ADDRCONF(NETDEV_UP): wlan0: link is not ready
<4>RTL871X: cfg80211_rtw_set_power_mgmt(wlan0) enabled:1, timeout:-1
<4>RTL871X: cfg80211_rtw_flush_pmksa(wlan0)
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 59500000
<7>[MAX_CASE] load: 85, cur_freq: 700000, num_online_cpus:1 ==> level_index:11
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 4, cpufreq from 700000 KHz to 1500000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1500000 KHz
<7>[DVFS] Current Temperature: 106
<7>[DVFS] Normal Mode: CPU Clock: 1500MHz
<7>[INFO] Data Exchange Count to User Space: 2847
<7>[INFO] Voltage: 118
<7>[INFO] VoltageType: 0
<4>RTL871X: cfg80211_rtw_scan(wlan0)
<4>RTL871X: SetHwReg8188E:(HW_VAR_CHECK_TXBUF)TXBUF Empty(1) in 0 ms
<7>[result is 0] input: 2847, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2847
<7>[DVFS] CPU Power: 118
<7>[INFO] Data Exchange Count to User Space: 2848
<7>[INFO] Voltage: 98
<7>[INFO] VoltageType: 1
<7>[result is 0] input: 2848, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2848
<7>[DVFS] Core Power: 98
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1500
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1500000 KHz to 1500000 KHz
<7>Function = change_cpus_timer, Line = 1062, cpu0 do: [cpu0] adjust cpufreq from 700000 KHZ to 1500000 KHZ
<7>+++mstar_boot_secondary current processor:1++++
<7>pen_release = 0x00000001, addr = 0xc09ead90, pen_release ptr = 0x00000001
<7>Function = cpufreq_add_dev, Line = 953, do cpufreq_driver->init
<7>Function = integrator_cpufreq_init, Line = 270, ac_str_cpufreq is already set to 1200000kHz
<7>Function = __cpufreq_set_policy, Line = 1845, re-assign governor
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 1 policy->governor: ondemand, for event 4
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 1 policy->governor: ondemand, for event 1
<7>Function = cpufreq_governor_dbs, Line = 392, [cpu 0] initialize cpu 1 timer
<7>Function = cpufreq_governor_dbs, Line = 424, [cpu 0] do first DVFS sampling
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 1 policy->governor: ondemand, for event 3
<7>+++mstar_boot_secondary current processor:2++++
<7>pen_release = 0x00000002, addr = 0xc09ead90, pen_release ptr = 0x00000002
<7>Function = cpufreq_add_dev, Line = 953, do cpufreq_driver->init
<7>Function = integrator_cpufreq_init, Line = 270, ac_str_cpufreq is already set to 1200000kHz
<7>Function = __cpufreq_set_policy, Line = 1845, re-assign governor
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 4
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 1
<7>Function = cpufreq_governor_dbs, Line = 392, [cpu 0] initialize cpu 2 timer
<7>Function = cpufreq_governor_dbs, Line = 424, [cpu 0] do first DVFS sampling
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 2 policy->governor: ondemand, for event 3
<7>+++mstar_boot_secondary current processor:3++++
<7>pen_release = 0x00000003, addr = 0xc09ead90, pen_release ptr = 0x00000003
<7>Function = cpufreq_add_dev, Line = 953, do cpufreq_driver->init
<7>Function = integrator_cpufreq_init, Line = 270, ac_str_cpufreq is already set to 1200000kHz
<7>Function = __cpufreq_set_policy, Line = 1845, re-assign governor
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 4
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 1
<7>Function = cpufreq_governor_dbs, Line = 392, [cpu 0] initialize cpu 3 timer
<7>Function = cpufreq_governor_dbs, Line = 424, [cpu 0] do first DVFS sampling
<7>Function = __cpufreq_governor, Line = 1644, [cpu0] do cpu 3 policy->governor: ondemand, for event 3
<4>RTL871X: rtw_android_priv_cmd: Android private cmd "BTCOEXSCAN-STOP" on wlan0
<4>RTL871X: rtw_android_priv_cmd: Android private cmd "RXFILTER-STOP" on wlan0
<4>RTL871X: rtw_android_priv_cmd: Android private cmd "RXFILTER-ADD 3" on wlan0
<4>RTL871X: rtw_android_priv_cmd: Android private cmd "RXFILTER-START" on wlan0
<4>RTL871X: rtw_android_priv_cmd: Android private cmd "RXFILTER-STOP" on wlan0
<4>RTL871X: rtw_android_priv_cmd: Android private cmd "RXFILTER-REMOVE 2" on wlan0
<4>RTL871X: rtw_android_priv_cmd: Android private cmd "RXFILTER-START" on wlan0
<4>RTL871X: rtw_android_priv_cmd: Android private cmd "SETSUSPENDMODE 0" on wlan0
<4>RTL871X: Unknown PRIVATE command SETSUSPENDMODE 0 - ignored
<4>RTL871X: rtw_android_priv_cmd: Android private cmd "SETBAND 0" on wlan0
<7>[CPU0 Case] Function = mstar_od_check_cpu, Line = 244, [cpu0] max_cpu_load_freq is 82500000
<7>[NORMAL_CASE] load: 55, cur_freq:1500000, num_online_cpus:4 ==> level_index: 7
<7>
<7>Function = integrator_set_target_on_demand, Line = 726, set online_cpu_nr to 4, cpufreq from 1500000 KHz to 1100000 KHz
<7>caller: integrator_set_target_on_demand, target_freq: 1100000 KHz
<7>[DVFS] [[====================================
<4>RTL871X: rtw_set_band(wlan0) band:0
<7>[DVFS] CPU Clock: 1500MHz
<7>[DVFS] Reference Temperature Data (CPU): 0x0191
<7>[DVFS] Current Temperature Sensor Data (CPU): 0x0153
<7>[DVFS] Temperature (CPU): 106
<7>[DVFS] CPU Power: 1180mV
<7>[DVFS] Core Power: 980mV
<7>[DVFS] ====================================]]
<7>[DVFS] Current Temperature: 106
<7>[DVFS] Normal Mode: CPU Clock: 1100MHz
<7>[INFO] Data Exchange Count to User Space: 2849
<7>[INFO] Voltage: 103
<7>[INFO] VoltageType: 0
<7>[result is 0] input: 2849, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2849
<7>[DVFS] CPU Power: 103
<7>[INFO] Data Exchange Count to User Space: 2850
<7>[INFO] Voltage: 98
<7>[INFO] VoltageType: 1
<7>[result is 0] input: 2850, wake_up wait_queue for write_down
<7>[INFO] Data Exchange Count from User Space: 2850
<7>[DVFS] Core Power: 98
<7>[DVFS] hMstarDvfsInfo.dwFinalCpuClock: 1100
<7>Function = change_cpus_timer, Line = 1030, the target_freq is changed(by MDrvDvfsProc), from 1100000 KHz to 1100000 KHz
<7>Function = change_cpus_timer, Line = 1062, cpu0 do: [cpu0] adjust cpufreq from 1500000 KHZ to 1100000 KHZ

# begin build properties
# autogenerated by buildinfo.sh
ro.build.id=LMY47V
ro.build.display.id=aosp_ponkan32-userdebug 5.1.1 LMY47V ANMI-02.70.020.04.06.BIONIC.16 test-keys
ro.build.version.incremental=ANMI-02.70.020.04.06.BIONIC.16
ro.build.version.sdk=22
ro.build.version.codename=REL
ro.build.version.all_codenames=REL
ro.build.version.release=5.1.1
ro.build.version.security_patch=2016-03-01
ro.build.version.base_os=
ro.build.date=2017�� 03�� 30�� ������ 18:55:44 CST
ro.build.date.utc=1490871344
ro.build.type=userdebug
ro.build.user=liuzhuangming
ro.build.host=kitking
ro.build.tags=test-keys
ro.build.flavor=aosp_ponkan32-userdebug
ro.product.model=MStar Android TV
ro.product.brand=MStar
ro.product.name=aosp_ponkan32
ro.product.device=ponkan
ro.product.board=ponkan
# ro.product.cpu.abi and ro.product.cpu.abi2 are obsolete,
# use ro.product.cpu.abilist instead.
ro.product.cpu.abi=armeabi-v7a
ro.product.cpu.abi2=armeabi
ro.product.cpu.abilist=armeabi-v7a,armeabi
ro.product.cpu.abilist32=armeabi-v7a,armeabi
ro.product.cpu.abilist64=
ro.product.manufacturer=MStar Semiconductor, Inc.
ro.product.locale.language=es
ro.product.locale.region=ES
ro.wifi.channels=
ro.board.platform=curry
# ro.build.product is obsolete; use ro.product.device
ro.build.product=ponkan
# Do not try to parse description, fingerprint, or thumbprint
ro.build.description=aosp_ponkan32-userdebug 5.1.1 LMY47V ANMI-02.70.020.04.06.BIONIC.16 test-keys
ro.build.fingerprint=aosp_ponkan32:5.1.1/LMY47V/ANMI-02.70.020.04.06.BIONIC.16:userdebug
ro.build.characteristics=stb
# end build properties
#
# ADDITIONAL_BUILD_PROPERTIES
#
persist.sys.language=es
persist.sys.country=ES
persist.sys.timezone=America/New_York
persist.logd.size.main=4m
bluetooth.sco_over_btmic=1
wifi.interface=wlan0
ro.opengles.version=131072
media.aac_51_output_enabled=true
config.disable_bluetooth=0
chrome.tv.hole_threshold=0
ms.overlayrolling=1
mstar.overlayrolling=1
debug.hwui.render_dirty_regions=false
service.adb.tcp.port=5555
persist.adb.tcp.port=5555
persist.service.adb.enable=1
ro.adb.secure=1
mstar.build.mstartv=mi
mstar.build.for.stb=true
ro.mstar.lmkd.minfree=7800,9000,12000,14000,20000,30000
ro.mstar.lmkd.adj=0,1,2,3,9,15
mstar.framebuffer.format=3
mstar.gop=0
mstar.gwin=0
mstar.gopfrc=2
mstar.forcelandscape=0
mstar.lvds-off=0
mstar.desk-display-mode=0
mstar.pdp-xoffset=0
mstar.pmem.poolsize=33554432
dfb_jpd_write_buffer=SkiaDecodeMutex
mstar.mstplayer.bd=1
mstar.meta.sf=0
mstar.mediascanner_onlysd=1
mstar.resmgr_v4.enable=1
ro.com.google.clientidbase=android-acme
ms.disable.ds=0
dalvik.vm.heapstartsize=8m
dalvik.vm.heapgrowthlimit=128m
dalvik.vm.heapsize=256m
dalvik.vm.heaptargetutilization=0.75
dalvik.vm.heapminfree=512k
dalvik.vm.heapmaxfree=8m
ro.sf.lcd_density=240
mstar.bootvideo=/system/bootvideo.mp4
ro.com.android.dateformat=MM-dd-yyyy
ro.config.ringtone=Ring_Synth_04.ogg
ro.config.notification_sound=pixiedust.ogg
ro.carrier=unknown
ro.config.alarm_alert=Alarm_Classic.ogg
persist.sys.dalvik.vm.lib.2=libart.so
dalvik.vm.isa.arm.features=div
dalvik.vm.lockprof.threshold=500
dalvik.vm.dexopt-flags=m=y
net.bt.name=Android
dalvik.vm.stack-trace-file=/data/anr/traces.txt

8188eu 986468 0 - Live 0x00000000 (O)
cfg80211 181778 1 8188eu, Live 0x00000000
uhid 4766 0 - Live 0x00000000
rtkm 1743 1 8188eu, Live 0x00000000 (O)
firmware_class 9539 0 - Live 0x00000000
mtprealloc 6574 0 - Live 0x00000000 (PO)
mali 192043 36 - Live 0x00000000 (O)

RAM: 892 MB

System RAM: 892.000MB


Flash: 32 GB (28.922 GB actual); 4 GB (3.688 GB actual); 1863.017 GB

sdb: 28.922 GB
mmcblk0: 3.688 GB
sda: 1863.017 GB
zram0: 0.098 GB


Touch Screen for MStar Semiconductor, Inc. MStar Android TV

$29.6 MStar 8/5/3MP 4K StarLight IMX415 Double Light IP Metal Bullet Camera 3840*2160 H.265 Onvif IRC NightVision IP66 Outdoor Black

$155.94 Original Mstar Burner Programmer Debug USB Driver Board Upgrade Debugging ISP Tool Tool RTD

$22.14 4K 8/4MP 1/1.8 Inch CMOS StarLight F0.9 Lens MStar SSC378DE+SC840AI IP Camera Module Board Onvif Radiator All Color

$25.1 Mstar Xmeye CCTV 8CH 9CH 16CH NVR H.265+ Network Video Recorder 16 Channel 4K NVR HDMI Output Support Onvif Cloud monitoring

$18.17 3MP IMX307+MStar SSC335 IP Camera Module Board IRCut 2304*1296 25fps H.265 Low illumination StarLight Onvif Radiator

$42.92 4K 8/4MP F0.9 StarLight WarmLight MStar SSC378DE+SC850AI 1/1.8 Inch CMOS IP Metal Bullet Camera All Color Low illuminance IP66

$41.06 8MP 4K Camera Module 3840(H)*2160 (V) SONY IMX415 MJPEG H.265+ 20fps Hd Board For CCTV Camera module Danale APP Mstar Chip

$34.44 8MP 4K IMX415+MStar SSC338 3840*2160 20FPS H.265 IP Camera Module Board M12 Lens IR-Cut Onvif Low illumination Radiator Audio

$35.55 4K 8MP IMX415+MStar SSC338 IP Camera Module Board 3840*2160 20fps H.265 Low illumination StarLight Onvif Radiator 38*38mm

$284 Mstar XMeye Pro Surveillance Video Recorder 5MP 8CH H.265+ Max 14TB Sata Audio Onvif Face Detection WIFI CCTV NVR

$12.64 4MP MStar SSC337+SC401AI IP Camera Module Board IRCut M12 Lens 2560*1440 20fps H.265 Low illumination Onvif Radiator 38*38mm

$216.64 Mstar XMeye Pro Surveillance Video Recorder 3MP 4CH 3MP 8CH H.265+ Max 14TB Sata Audio Onvif Face Detection WIFI CCTV NVR

$11.07 MStar SSC337+GC2053 3MP 2304*1296 25FPS H.265 IP Camera Module Board 38*38mm Onvif Low illumination Radiator Audio Interface

$251.73 MStar Debug Tool Debug USB Upgrade Tool

$127.78 2Mp Ip Camera Board Sony Imx307 Mstar SSC335 Webcam Ultral Low Illumination 1080P 25Fps Videolink P2P Surveillance Cctv Camera

$15.58 MStar SSC377+SC401AI 4MP 2560*1440 20FPS H.265 IP Camera Module Board 3.7mm Mini Lens IRcut Onvif Low illumination Radiator

$110 Ultral Hd 1080P Ip Camera Board Sony Imx307Lqr Mstar Ssc335 Webcam Night Vision Videolink P2P Onvif Rtsp Video Surveillance

$236.88 Original Mstar Burner Programmer Debug USB Driver Board Upgrade Debugging ISP Tool Tool RTD

$34.44 8MP 4K IMX415+MStar SSC338 3840*2160 20FPS H.265 IP Camera Module Board 38*38mm Onvif Low illumination Radiator Audio Interface

Replacement Battery for MStar Semiconductor, Inc. MStar Android TV

$155.94 Original Mstar Burner Programmer Debug USB Driver Board Upgrade Debugging ISP Tool Tool RTD

$22.14 4K 8/4MP 1/1.8 Inch CMOS StarLight F0.9 Lens MStar SSC378DE+SC840AI IP Camera Module Board Onvif Radiator All Color

$18.17 3MP IMX307+MStar SSC335 IP Camera Module Board IRCut 2304*1296 25fps H.265 Low illumination StarLight Onvif Radiator

$41.06 8MP 4K Camera Module 3840(H)*2160 (V) SONY IMX415 MJPEG H.265+ 20fps Hd Board For CCTV Camera module Danale APP Mstar Chip

$29.6 MStar 8/5/3MP 4K StarLight IMX415 Double Light IP Metal Bullet Camera 3840*2160 H.265 Onvif IRC NightVision IP66 Outdoor Black

$25.1 Mstar Xmeye CCTV 8CH 9CH 16CH NVR H.265+ Network Video Recorder 16 Channel 4K NVR HDMI Output Support Onvif Cloud monitoring

$42.92 4K 8/4MP F0.9 StarLight WarmLight MStar SSC378DE+SC850AI 1/1.8 Inch CMOS IP Metal Bullet Camera All Color Low illuminance IP66

$34.44 8MP 4K IMX415+MStar SSC338 3840*2160 20FPS H.265 IP Camera Module Board M12 Lens IR-Cut Onvif Low illumination Radiator Audio

$35.55 4K 8MP IMX415+MStar SSC338 IP Camera Module Board 3840*2160 20fps H.265 Low illumination StarLight Onvif Radiator 38*38mm

$284 Mstar XMeye Pro Surveillance Video Recorder 5MP 8CH H.265+ Max 14TB Sata Audio Onvif Face Detection WIFI CCTV NVR

$236.88 Original Mstar Burner Programmer Debug USB Driver Board Upgrade Debugging ISP Tool Tool RTD

$34.44 8MP 4K IMX415+MStar SSC338 3840*2160 20FPS H.265 IP Camera Module Board 38*38mm Onvif Low illumination Radiator Audio Interface

$12.64 4MP MStar SSC337+SC401AI IP Camera Module Board IRCut M12 Lens 2560*1440 20fps H.265 Low illumination Onvif Radiator 38*38mm

$15.58 MStar SSC377+SC401AI 4MP 2560*1440 20FPS H.265 IP Camera Module Board 3.7mm Mini Lens IRcut Onvif Low illumination Radiator

$110 Ultral Hd 1080P Ip Camera Board Sony Imx307Lqr Mstar Ssc335 Webcam Night Vision Videolink P2P Onvif Rtsp Video Surveillance

$127.78 2Mp Ip Camera Board Sony Imx307 Mstar SSC335 Webcam Ultral Low Illumination 1080P 25Fps Videolink P2P Surveillance Cctv Camera

$216.64 Mstar XMeye Pro Surveillance Video Recorder 3MP 4CH 3MP 8CH H.265+ Max 14TB Sata Audio Onvif Face Detection WIFI CCTV NVR

$11.07 MStar SSC337+GC2053 3MP 2304*1296 25FPS H.265 IP Camera Module Board 38*38mm Onvif Low illumination Radiator Audio Interface

$251.73 MStar Debug Tool Debug USB Upgrade Tool

Cover Cases for MStar Semiconductor, Inc. MStar Android TV

$22.14 4K 8/4MP 1/1.8 Inch CMOS StarLight F0.9 Lens MStar SSC378DE+SC840AI IP Camera Module Board Onvif Radiator All Color

$41.06 8MP 4K Camera Module 3840(H)*2160 (V) SONY IMX415 MJPEG H.265+ 20fps Hd Board For CCTV Camera module Danale APP Mstar Chip

$42.92 4K 8/4MP F0.9 StarLight WarmLight MStar SSC378DE+SC850AI 1/1.8 Inch CMOS IP Metal Bullet Camera All Color Low illuminance IP66

$25.1 Mstar Xmeye CCTV 8CH 9CH 16CH NVR H.265+ Network Video Recorder 16 Channel 4K NVR HDMI Output Support Onvif Cloud monitoring

$29.6 MStar 8/5/3MP 4K StarLight IMX415 Double Light IP Metal Bullet Camera 3840*2160 H.265 Onvif IRC NightVision IP66 Outdoor Black

$18.17 3MP IMX307+MStar SSC335 IP Camera Module Board IRCut 2304*1296 25fps H.265 Low illumination StarLight Onvif Radiator

$155.94 Original Mstar Burner Programmer Debug USB Driver Board Upgrade Debugging ISP Tool Tool RTD

$34.44 8MP 4K IMX415+MStar SSC338 3840*2160 20FPS H.265 IP Camera Module Board M12 Lens IR-Cut Onvif Low illumination Radiator Audio

$35.55 4K 8MP IMX415+MStar SSC338 IP Camera Module Board 3840*2160 20fps H.265 Low illumination StarLight Onvif Radiator 38*38mm

$284 Mstar XMeye Pro Surveillance Video Recorder 5MP 8CH H.265+ Max 14TB Sata Audio Onvif Face Detection WIFI CCTV NVR

$216.64 Mstar XMeye Pro Surveillance Video Recorder 3MP 4CH 3MP 8CH H.265+ Max 14TB Sata Audio Onvif Face Detection WIFI CCTV NVR

$236.88 Original Mstar Burner Programmer Debug USB Driver Board Upgrade Debugging ISP Tool Tool RTD

$34.44 8MP 4K IMX415+MStar SSC338 3840*2160 20FPS H.265 IP Camera Module Board 38*38mm Onvif Low illumination Radiator Audio Interface

$11.07 MStar SSC337+GC2053 3MP 2304*1296 25FPS H.265 IP Camera Module Board 38*38mm Onvif Low illumination Radiator Audio Interface

$127.78 2Mp Ip Camera Board Sony Imx307 Mstar SSC335 Webcam Ultral Low Illumination 1080P 25Fps Videolink P2P Surveillance Cctv Camera

$251.73 MStar Debug Tool Debug USB Upgrade Tool

$110 Ultral Hd 1080P Ip Camera Board Sony Imx307Lqr Mstar Ssc335 Webcam Night Vision Videolink P2P Onvif Rtsp Video Surveillance

$15.58 MStar SSC377+SC401AI 4MP 2560*1440 20FPS H.265 IP Camera Module Board 3.7mm Mini Lens IRcut Onvif Low illumination Radiator

$12.64 4MP MStar SSC337+SC401AI IP Camera Module Board IRCut M12 Lens 2560*1440 20fps H.265 Low illumination Onvif Radiator 38*38mm

Find Similar devices
Same CPU:
Same Display resolution:
Same ro.build.description:
Link: Here I buy Chinese smartphones and tablets



NEW: View Full Database >>>

Latest:

A19 Pro
alps i14PROMAX
Xiaomi 2201117SI
NUMVIBE X30Pro
Pad_Ultra
INFINIX Infinix X6835B
Xiaomi Redmi 5 Plus
Cat S62 Pro
alps S24 Ultra
alps Reno9 Pro+ 5G
Kobo arc 10HD
L16 Max lingbo l16 max
Lingbo tab s9 ultra
HUAWEI EC6108V9-01
samsung 14 Pro Max
L16 Max
HUAWEI VNS-L31
alps I14 Pro Max
unknown HiDPTAndroid_Hi3751V510
S9 Ultra
Amazon KFRAWI
OnePlus GM1910
android P30
welcome S23 Ultra
AXDIA INTERNATIONAL GMBH PACE10
vivo V1916A
Google Pixel 7
Galaxy S24 Ultra 5G SM-S928B/DS
QUALCOMM trinket for arm64
alps F9210B
Pad 6 Pro
HUAWEI JAT-LX1
alps Galaxy S22 Ultra
HUAWEI KSA-LX9
alps Rino9_pro+
XXB_GMS
realme RMX3363
Google MBOX
alps L015B
alps i13 pro max
alps i14_Pro_Max
SAMSUNG SM-S928BIU
HUAWEI MGA-LX3
alps ZL10
HUAWEI JAT-LX1
Fplus T1100
samsung SM-A215U
alps I15 Pro Max
alps A73s
alps S24 Ultra