2C ESP8266 SDK Programming Guide EN V1.3.0
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ESP8266 SDK API Guide
Version 1.3.0
Espressif Systems IOT Team
Copyright (c) 2015
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Espressif Systems
ESP8266 SDK Programming Guide
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Disclaimer and Copyright Notice
Information in this document, including URL references, is subject to change without notice.
THIS DOCUMENT IS PROVIDED AS IS WITH NO WARRANTIES WHATSOEVER, INCLUDING ANY
WARRANTY OF MERCHANTABILITY, NONINFRINGEMENT, FITNESS FOR ANY PARTICULAR
PURPOSE, OR ANY WARRANTY OTHERWISE ARISING OUT OF ANY PROPOSAL, SPECIFICATION OR
SAMPLE. All liability, including liability for infringement of any proprietary rights, relating to use of
information in this document is disclaimed. No licenses express or implied, by estoppel or otherwise,
to any intellectual property rights are granted herein.
The Wi-Fi Alliance Member Logo is a trademark of the Wi-Fi Alliance.
All trade names, trademarks and registered trademarks mentioned in this document are property of
their respective owners, and are hereby acknowledged.
Copyright © 2015 Espressif Systems Inc. All rights reserved.
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Table of Content
1.
Preambles .................................................................................................13
2.
Overview ....................................................................................................14
3.
Application Programming Interface (APIs)..............................................15
3.1.
Software Timer ........................................................................................15
1.
os_timer_arm ..........................................................................................15
2.
os_timer_disarm .....................................................................................16
3.
os_timer_setfn ........................................................................................16
4.
system_timer_reinit .................................................................................16
5.
os_timer_arm_us ....................................................................................17
3.2.
Hardware Timer .......................................................................................17
1.
hw_timer_init ..........................................................................................18
2.
hw_timer_arm ........................................................................................18
3.
hw_timer_set_func ..................................................................................18
4.
hardware timer example ........................................................................19
3.3.
System APIs ..........................................................................................20
1.
system_get_sdk_version .........................................................................20
2.
system_restore .......................................................................................20
3.
system_restart ........................................................................................20
4.
system_init_done_cb ..............................................................................21
5.
system_get_chip_id ................................................................................21
6.
system_get_vdd33 .................................................................................21
7.
system_adc_read ...................................................................................22
8.
system_deep_sleep ................................................................................22
9.
system_deep_sleep_set_option ..............................................................23
10. system_phy_set_rfoption ........................................................................24
11. system_phy_set_max_tpw ......................................................................24
12. system_phy_set_tpw_via_vdd33.............................................................25
13. system_set_os_print ...............................................................................25
14. system_print_meminfo ............................................................................26
15. system_get_free_heap_size ....................................................................26
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16. system_os_task ......................................................................................26
17. system_os_post .....................................................................................27
18. system_get_time.....................................................................................28
19. system_get_rtc_time ...............................................................................28
20. system_rtc_clock_cali_proc ....................................................................29
21. system_rtc_mem_write ...........................................................................29
22. system_rtc_mem_read ...........................................................................30
23. system_uart_swap ..................................................................................31
24. system_uart_de_swap ............................................................................31
25. system_get_boot_version .......................................................................31
26. system_get_userbin_addr .......................................................................32
27. system_get_boot_mode .........................................................................32
28. system_restart_enhance .........................................................................32
29. system_update_cpu_freq ........................................................................33
30. system_get_cpu_freq..............................................................................33
31. system_get_flash_size_map....................................................................34
32. system_get_rst_info ...............................................................................34
33. system_soft_wdt_stop ............................................................................35
34. system_soft_wdt_restart .........................................................................36
35. system_soft_wdt_feed ............................................................................36
36. os_memset .............................................................................................36
37. os_memcpy ............................................................................................37
38. os_strlen .................................................................................................37
39. os_printf .................................................................................................38
40. os_bzero.................................................................................................38
41. os_delay_us ............................................................................................38
42. os_install_putc1 ......................................................................................39
3.4.
SPI Flash Related APIs ..........................................................................39
1.
spi_flash_get_id ......................................................................................39
2.
spi_flash_erase_sector ............................................................................39
3.
spi_flash_write ........................................................................................40
4.
spi_flash_read .........................................................................................40
5.
system_param_save_with_protect .........................................................41
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6.
system_param_load ...............................................................................42
7.
spi_flash_set_read_func ..........................................................................43
3.5.
Wi-Fi Related APIs .................................................................................45
1.
wifi_get_opmode ....................................................................................45
2.
wifi_get_opmode_default ........................................................................45
3.
wifi_set_opmode.....................................................................................46
4.
wifi_set_opmode_current ........................................................................46
5.
wifi_station_get_config ............................................................................46
6.
wifi_station_get_config_default................................................................47
7.
wifi_station_set_config ............................................................................47
8.
wifi_station_set_config_current ...............................................................48
9.
wifi_station_connect ...............................................................................49
10. wifi_station_disconnect ...........................................................................49
11. wifi_station_get_connect_status .............................................................50
12. wifi_station_scan ....................................................................................50
13. scan_done_cb_t .....................................................................................51
14. wifi_station_ap_number_set ....................................................................51
15. wifi_station_get_ap_info ..........................................................................52
16. wifi_station_ap_change ...........................................................................52
17. wifi_station_get_current_ap_id ................................................................52
18. wifi_station_get_auto_connect ................................................................53
19. wifi_station_set_auto_connect ................................................................53
20. wifi_station_dhcpc_start .........................................................................53
21. wifi_station_dhcpc_stop .........................................................................54
22. wifi_station_dhcpc_status .......................................................................54
23. wifi_station_set_reconnect_policy ...........................................................55
24. wifi_station_get_rssi ................................................................................55
25. wifi_station_set_hostname ......................................................................56
26. wifi_station_get_hostname ......................................................................56
27. wifi_softap_get_config ............................................................................56
28. wifi_softap_get_config_default ................................................................57
29. wifi_softap_set_config .............................................................................57
30. wifi_softap_set_config_current ................................................................57
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31. wifi_softap_get_station_num ...................................................................58
32. wifi_softap_get_station_info ....................................................................58
33. wifi_softap_free_station_info ...................................................................59
34. wifi_softap_dhcps_start ..........................................................................59
35. wifi_softap_dhcps_stop ..........................................................................60
36. wifi_softap_set_dhcps_lease ...................................................................60
37. wifi_softap_get_dhcps_lease ..................................................................62
38. wifi_softap_dhcps_status ........................................................................62
39. wifi_softap_set_dhcps_offer_option ........................................................62
40. wifi_set_phy_mode .................................................................................63
41. wifi_get_phy_mode .................................................................................63
42. wifi_get_ip_info .......................................................................................64
43. wifi_set_ip_info .......................................................................................64
44. wifi_set_macaddr ....................................................................................65
45. wifi_get_macaddr ...................................................................................66
46. wifi_set_sleep_type .................................................................................67
47. wifi_get_sleep_type .................................................................................67
48. wifi_status_led_install ..............................................................................67
49. wifi_status_led_uninstall ..........................................................................68
50. wifi_set_broadcast_if...............................................................................68
51. wifi_get_broadcast _if .............................................................................69
52. wifi_set_event_handler_cb ......................................................................69
53. wifi_get_channel .....................................................................................70
54. wifi_set_channel .....................................................................................71
55. wifi_wps_enable .....................................................................................71
56. wifi_wps_disable .....................................................................................72
57. wifi_wps_start .........................................................................................72
58. wifi_set_wps_cb .....................................................................................73
3.6.
ESP-NOW APIs......................................................................................74
1.
esp_now_init...........................................................................................74
2.
esp_now_deinit .......................................................................................74
3.
esp_now_register_recv_cb .....................................................................75
4.
esp_now_unregister_recv_cb ..................................................................75
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5.
esp_now_register_send_cb ....................................................................75
6.
esp_now_unregister_send_cb.................................................................76
7.
esp_now_send .......................................................................................76
8.
esp_now_add_peer ................................................................................77
9.
esp_now_del_peer..................................................................................78
10. esp_now_set_self_role ............................................................................78
11. esp_now_get_self_role............................................................................78
12. esp_now_set_peer_role ..........................................................................79
13. esp_now_get_peer_role ..........................................................................79
14. esp_now_set_peer_key ..........................................................................80
15. esp_now_get_peer_key ..........................................................................80
16. esp_now_set_peer_channel ....................................................................81
17. esp_now_get_peer_channel ...................................................................81
18. esp_now_is_peer_exist ...........................................................................81
19. esp_now_fetch_peer ..............................................................................82
20. esp_now_get_cnt_info ............................................................................82
21. esp_now_set_kok ...................................................................................83
3.7.
Upgrade (FOTA) APIs .............................................................................84
1.
system_upgrade_userbin_check .............................................................84
2.
system_upgrade_flag_set .......................................................................84
3.
system_upgrade_flag_check...................................................................84
4.
system_upgrade_start ............................................................................85
5.
system_upgrade_reboot .........................................................................85
3.8.
Sniffer Related APIs ...............................................................................86
1.
wifi_promiscuous_enable ........................................................................86
2.
wifi_promiscuous_set_mac .....................................................................86
3.
wifi_set_promiscuous_rx_cb ...................................................................87
3.9.
smart config APIs ..................................................................................88
1.
smartconfig_start ....................................................................................88
2.
smartconfig_stop ....................................................................................90
3.10.
SNTP APIs ............................................................................................91
1.
sntp_setserver ........................................................................................91
2.
sntp_getserver ........................................................................................91
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3.
sntp_setservername ...............................................................................91
4.
sntp_getservername ...............................................................................92
5.
sntp_init ..................................................................................................92
6.
sntp_stop ...............................................................................................92
7.
sntp_get_current_timestamp ..................................................................92
8.
sntp_get_real_time..................................................................................93
9.
SNTP Example ......................................................................................94
TCP/UDP APIs...........................................................................................95
4.1.
Generic TCP/UDP APIs .........................................................................95
1.
espconn_delete ......................................................................................95
2.
espconn_gethostbyname .......................................................................95
3.
espconn_port .........................................................................................96
4.
espconn_regist_sentcb ...........................................................................97
5.
espconn_regist_recvcb ...........................................................................97
6.
espconn_sent_callback ..........................................................................97
7.
espconn_recv_callback ...........................................................................98
8.
espconn_send ........................................................................................98
9.
espconn_sent .........................................................................................99
4.2.
TCP APIs .............................................................................................100
1.
espconn_accept ...................................................................................100
2.
espconn_secure_accept .......................................................................100
3.
espconn_regist_time .............................................................................101
4.
espconn_get_connection_info ..............................................................101
5.
espconn_connect .................................................................................102
6.
espconn_connect_callback...................................................................103
7.
espconn_regist_connectcb ...................................................................103
8.
espconn_set_opt ..................................................................................103
9.
espconn_clear_opt ...............................................................................104
10. espconn_set_keepalive .........................................................................105
11. espconn_get_keepalive ........................................................................106
12. espconn_reconnect_callback ................................................................107
13. espconn_regist_reconcb .......................................................................107
14. espconn_disconnect.............................................................................108
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15. espconn_regist_disconcb .....................................................................108
16. espconn_regist_write_finish ..................................................................109
17. espconn_secure_set_size .....................................................................109
18. espconn_secure_get_size .....................................................................110
19. espconn_secure_connect .....................................................................110
20. espconn_secure_send ..........................................................................111
21. espconn_secure_sent ...........................................................................112
22. espconn_secure_disconnect ................................................................112
23. espconn_secure_ca_disable .................................................................113
24. espconn_secure_ca_enable ..................................................................113
25. espconn_tcp_get_max_con ..................................................................114
26. espconn_tcp_set_max_con ..................................................................114
27. espconn_tcp_get_max_con_allow ........................................................115
28. espconn_tcp_set_max_con_allow ........................................................115
29. espconn_recv_hold ...............................................................................115
30. espconn_recv_unhold ...........................................................................116
4.3.
UDP APIs .............................................................................................116
1.
espconn_create ....................................................................................116
2.
espconn_igmp_join ...............................................................................117
3.
espconn_igmp_leave ............................................................................117
4.
espconn_dns_setserver ........................................................................117
4.4.
mDNS APIs .........................................................................................118
1.
espconn_mdns_init ...............................................................................118
2.
espconn_mdns_close ...........................................................................119
3.
espconn_mdns_server_register ............................................................119
4.
espconn_mdns_server_unregister.........................................................119
5.
espconn_mdns_get_servername ..........................................................120
6.
espconn_mdns_set_servername ..........................................................120
7.
espconn_mdns_set_hostname .............................................................120
8.
espconn_mdns_get_hostname .............................................................121
9.
espconn_mdns_disable ........................................................................121
10. espconn_mdns_enable .........................................................................121
5.
Application Related ................................................................................122
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AT APIs ................................................................................................122
1.
at_response_ok ....................................................................................122
2.
at_response_error .................................................................................122
3.
at_cmd_array_regist .............................................................................122
4.
at_get_next_int_dec ..............................................................................123
5.
at_data_str_copy ..................................................................................123
6.
at_init ....................................................................................................124
7.
at_port_print .........................................................................................124
8.
at_set_custom_info ...............................................................................124
9.
at_enter_special_state ..........................................................................125
10. at_leave_special_state ..........................................................................125
11. at_get_version ......................................................................................125
12. at_register_uart_rx_intr..........................................................................126
13. at_response ..........................................................................................126
14. at_register_response_func ....................................................................127
5.2.
Related JSON APIs..............................................................................128
1.
jsonparse_setup ...................................................................................128
2.
jsonparse_next .....................................................................................128
3.
jsonparse_copy_value...........................................................................128
4.
jsonparse_get_value_as_int ..................................................................129
5.
jsonparse_get_value_as_long ...............................................................129
6.
jsonparse_get_len .................................................................................129
7.
jsonparse_get_value_as_type ...............................................................130
8.
jsonparse_strcmp_value .......................................................................130
9.
jsontree_set_up ....................................................................................130
10. jsontree_reset .......................................................................................131
11. jsontree_path_name .............................................................................131
12. jsontree_write_int ..................................................................................132
13. jsontree_write_int_array ........................................................................132
14. jsontree_write_string .............................................................................132
15. jsontree_print_next ...............................................................................133
16. jsontree_find_next .................................................................................133
6.
Definitions & Structures .........................................................................134
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6.1.
Timer ....................................................................................................134
6.2.
WiFi Related Structures .......................................................................134
1.
Station Related .....................................................................................134
2.
soft-AP related ....................................................................................134
3.
scan related ..........................................................................................135
4.
WiFi event related structure ...................................................................135
5.
smart config structure ...........................................................................138
6.3.
JSON Related Structure ......................................................................138
1.
json structure ........................................................................................138
2.
json macro definition .............................................................................139
6.4.
espconn parameters ............................................................................140
1.
callback function ...................................................................................140
2.
espconn ...............................................................................................140
6.5.
7.
ESP8266 SDK Programming Guide
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interrupt related definition....................................................................142
Peripheral Related Drivers .....................................................................144
7.1.
GPIO Related APIs ..............................................................................144
1.
PIN Related Macros ..............................................................................144
2.
gpio_output_set ....................................................................................144
3.
GPIO input and output macro ...............................................................145
4.
GPIO interrupt .....................................................................................145
5.
gpio_pin_intr_state_set .........................................................................145
6.
GPIO Interrupt Handler .........................................................................146
7.2.
UART Related APIs ..............................................................................146
1.
uart_init .................................................................................................146
2.
uart0_tx_buffer......................................................................................147
3.
uart0_rx_intr_handler ............................................................................147
7.3.
I2C Master Related APIs .....................................................................148
1.
i2c_master_gpio_init .............................................................................148
2.
i2c_master_init ......................................................................................148
3.
i2c_master_start ...................................................................................148
4.
i2c_master_stop ...................................................................................149
5.
i2c_master_send_ack ...........................................................................149
6.
i2c_master_send_nack .........................................................................149
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7.
i2c_master_checkAck ...........................................................................149
8.
i2c_master_readByte ............................................................................150
9.
i2c_master_writeByte............................................................................150
7.4.
8.
ESP8266 SDK Programming Guide
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PWM Related .......................................................................................151
1.
pwm_init ...............................................................................................151
2.
pwm_start ............................................................................................152
3.
pwm_set_duty ......................................................................................152
4.
pwm_get_duty ......................................................................................152
5.
pwm_set_period ..................................................................................153
6.
pwm_get_period ..................................................................................153
7.
get_pwm_version ................................................................................153
Appendix..................................................................................................154
8.1.
ESPCONN Programming .....................................................................154
1.
TCP Client Mode ..................................................................................154
2.
TCP Server Mode .................................................................................154
3.
espconn callback .................................................................................155
8.2.
RTC APIs Example ..............................................................................155
8.3.
Sniffer Structure Introduction ..............................................................157
8.4.
ESP8266 soft-AP and station channel configuration ..........................161
8.5.
ESP8266 boot messages ....................................................................162
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Preambles
ESP8266 WiFi SoC offers a complete and self-contained Wi-Fi networking solution; it can be used to
host applications or to offload Wi-Fi networking functions from another application processor. When
the ESP8266 hosts application, it boots up directly from an external flash. It has an integrated cache
to improve the performance of system’s running applications. Alternately, serving as a Wi-Fi adapter,
wireless internet access can be added into any microcontroller-based design with simple
connectivity through UART interface or the CPU AHB bridge interface.
ESP8266EX is amongst the most integrated WiFi chip in the industry; it integrates the antenna
switches, RF balun, power amplifier, low noise receive amplifier, filters, power management modules,
it requires minimal external circuitry, and the entire solution, including front-end module, is designed
to occupy minimal PCB area.
ESP8266EX also integrates an enhanced version of Tensilica’s L106 Diamond series 32-bit processor,
with on-chip SRAM, on top of its Wi-Fi functionalities. ESP8266EX is often integrated with external
sensors and other application specific devices through its GPIOs. Codes for such applications are
provided in examples in the SDK.
Sophisticated system-level features include fast sleep/wake switching for energy-efficient VoIP,
adaptive radio biasing for low-power operations, advanced signal processing, spur cancellation and
radio co-existence features for common cellular, Bluetooth, DDR, LVDS, LCD interference mitigation.
The SDK based on ESP8266 IoT platform offers users an easy, fast and efficient way to develop IoT
devices. This programming guide provides overview of the SDK as well as details on the API. It is
written for embedded software developers to help them program on ESP8266 IoT platform.
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2.
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Overview
The SDK provides a set of interfaces for data receive and transmit functions over the Wi-Fi and TCP/
IP layers so programmers can focus on application development at a higher level. Users can easily
make use of the corresponding interfaces to receive and transmit data.
All networking functions on the ESP8266 IoT platform are realized in the library, and are not
transparent to users. Instead, users can initialize the interface in user_main.c.
void user_init(void) is the default method provided. Users can add functions like firmware
initialization, network parameters setting, and timer initialization in the interface.
void user_rf_pre_init(void) need to be added in user_main.c since SDK_v1.1.0, refers to the
IOT_Demo. It is provided for RF initialization. User can call system_phy_set_rfoption to set RF
option in user_rf_pre_init, or call system_deep_sleep_set_option before deep-sleep. If RF is
disabled, ESP8266 station and soft-AP will both be disabled, so please don’t call related APIs, and WiFi function can not be used either.
The SDK provides APIs to handle JSON, and users can also use self-defined data types to handle the
them.
Notice:
•
Using non-OS SDK which is single-threaded, the CPU should not take long to execute tasks:
‣
If a task occupies the CPU too long, ESP8266 can't feed the dog, it will cause a watchdog
reset;
‣
If interrupt is disabled, CPU can only be occupied in us range and the time should not be
more than 10 us; if interrupt is not disabled, it is suggested that CPU should not be
occupied more than 500 ms.
•
We suggest using a timer to check periodically, if users need to call os_delay_us or function
while, or function for in timer callback, please do not occupy CPU more than 10 ms.
•
Using non-OS SDK, please do not call any function defined with ICACHE_FLASH_ATTR in the
interrupt handler.
•
We suggest using RTOS SDK, RTOS to schedule different tasks.
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3.
Application Programming Interface (APIs)
3.1.
!
Software Timer
Timer APIs can be found in: /esp_iot_sdk/include/osapi.h. Please note that os_timer APIs listed
below are software timers executed in task, hence timer callbacks may not be precisely executed at
the right time; it depends on priority. If you need a precise timer, please use a hardware timer which
can be executed in hardware interrupt. Please refer to hw_timer.c.
•
For the same timer, os_timer_arm (or os_timer_arm_us) cannot be invoked repeatedly.
os_timer_disarm should be invoked first.
•
os_timer_setfn can only be invoked when the timer is not enabled, i.e., after
os_timer_disarm or before os_timer_arm (or os_timer_arm_us).
1.
os_timer_arm
Function:
Enable a millisecond timer.
Prototype:
void os_timer_arm (
os_timer_t *ptimer,
uint32_t milliseconds,
bool repeat_flag
)
Parameters:
os_timer_t *ptimer : Timer structure
uint32_t milliseconds : Timing, Unit: millisecond
‣
if called system_timer_reinit, the maximum value allowed to input is
0x41893
‣
if didn’t call system_timer_reinit, the maximum value allowed to input
is 0xFFFFFFF
bool repeat_flag : Whether the timer will be invoked repeatedly or not
Return:
null
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os_timer_disarm
Function:
Disarm timer
Prototype:
void os_timer_disarm (os_timer_t *ptimer)
Parameters:
os_timer_t *ptimer : Timer structure
Return:
null
3.
os_timer_setfn
Function:
Set timer callback function.
For enabled timer, timer callback has to be set.
Prototype:
void os_timer_setfn(
os_timer_t *ptimer,
os_timer_func_t *pfunction,
void *parg
)
Parameters:
os_timer_t *ptimer : Timer structure
os_timer_func_t *pfunction : timer callback function
void *parg : callback function parameter
Return:
null
4.
system_timer_reinit
Function:
Reinitiate the timer when you need to use microsecond timer
Notes:
1. Define USE_US_TIMER;
2. Put system_timer_reinit at the beginning of user_init , in the first
sentence.
Prototype:
void system_timer_reinit (void)
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Parameters:
null
Return:
null
5.
os_timer_arm_us
Function:
Enable a microsecond timer.
Notes:
1. Define USE_US_TIMER;
2. Put system_timer_reinit at the beginning of user_init , in the first
sentence.
Prototype:
void os_timer_arm_us (
os_timer_t *ptimer,
uint32_t microseconds,
bool repeat_flag
)
Parameters:
os_timer_t *ptimer : Timer structure
uint32_t microseconds : Timing, Unit: microsecond, the minimum value is
0x64, the maximum value allowed to input is 0xFFFFFFF
bool repeat_flag : Whether the timer will be invoked repeatedly or not
Return:
null
3.2.
Hardware Timer
Hardware timer APIs can be found in /esp_iot_sdk/examples/driver_lib/hw_timer.c. User can
use it according to “readme.txt” which in folder driver_lib.
NOTE:
•
if you use NMI source, for autoload timer , parameter val of hw_timer_arm can
not be less than 100.
•
if you use NMI source - this timer has highest priority, it can interrupt other ISRs.
•
if you use FRC1 source - this timer can not interrupt other ISRs.
•
APIs in hw_timer.c can not be called when PWM APIs are in use, because they all use the
same hardware timer.
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ESP8266 SDK Programming Guide
!
hw_timer_init
Function:
Initialize the hardware ISR timer
Prototype:
void hw_timer_init (
FRC1_TIMER_SOURCE_TYPE source_type,
u8 req
)
Parameters:
FRC1_TIMER_SOURCE_TYPE source_type : ISR source of timer
FRC1_SOURCE, timer use FRC1 ISR as ISR source.
NMI_SOURCE, timer use NMI ISR as ISR source.
u8 req :
0, not autoload
1, autoload mode
Return:
none
2.
hw_timer_arm
Function:
Set a trigger timer delay to enable this timer.
Prototype:
void hw_timer_arm (uint32 val)
Parameters:
uint32 val : Timing
•
•
in autoload mode :
‣
For FRC1_SOURCE, range : 50 ~ 0x7fffff;
‣
For NMI_SOURCE, range : 100 ~ 0x7fffff;
in non autoload mode, range : 10 ~ 0x7fffff;
Return:
none
3.
hw_timer_set_func
Function:
Set timer callback function.
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For enabled timer, timer callback has to be set.
Prototype:
void hw_timer_set_func (void (* user_hw_timer_cb_set)(void) )
Parameters:
void (* user_hw_timer_cb_set)(void) : Timer callback function
Return:
none
4.
hardware timer example
#define REG_READ(_r)
#define WDEV_NOW()
(*(volatile uint32 *)(_r))
REG_READ(0x3ff20c00)
uint32 tick_now2 = 0;
void hw_test_timer_cb(void)
{
static uint16 j = 0;
j++;
if( (WDEV_NOW() - tick_now2) >= 1000000 )
{
static u32 idx = 1;
tick_now2 = WDEV_NOW();
os_printf("b%u:%d\n",idx++,j);
j = 0;
}
}
void ICACHE_FLASH_ATTR user_init(void)
{
hw_timer_init(FRC1_SOURCE,1);
hw_timer_set_func(hw_test_timer_cb);
hw_timer_arm(100);
}
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3.3.
1.
ESP8266 SDK Programming Guide
!
System APIs
system_get_sdk_version
Function:
Get SDK version
Prototype:
const char* system_get_sdk_version(void)
Parameter:
none
Return:
SDK version
Example:
os_printf(“SDK version: %s \n”, system_get_sdk_version());
2.
system_restore
Function:
Reset to default settings of following APIs :wifi_station_set_auto_connect,
wifi_set_phy_mode, wifi_softap_set_config related, wifi_station_set_config
related, wifi_set_opmode, and APs information recorded by #define AP_CACHE
Prototype:
void system_restore(void)
Parameters:
null
Return:
null
3.
system_restart
Function:
Restart
Prototype:
void system_restart(void)
Parameters:
null
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Return:
null
4.
system_init_done_cb
Function:
Call this API in user_init to register a system-init-done callback.
Note:
wifi_station_scan has to be called after system init done and station
enable.
Prototype:
void system_init_done_cb(init_done_cb_t cb)
Parameter:
init_done_cb_t cb : system-init-done callback
Return:
null
Example:
void to_scan(void)
{ wifi_station_scan(NULL,scan_done); }
void user_init(void)
{
wifi_set_opmode(STATION_MODE);
system_init_done_cb(to_scan);
}
5.
system_get_chip_id
Function:
Get chip ID
Prototype:
uint32 system_get_chip_id (void)
Parameters:
null
Return:
Chip ID
6.
system_get_vdd33
Function:
Measure the power voltage of VDD3P3 pin 3 and 4, unit:1/1024 V
Note:
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•
system_get_vdd33 can only be called when TOUT pin is suspended
•
The 107th byte in esp_init_data_default.bin(0〜~127byte)is named as
“vdd33_const“ , when TOUT pin is suspended vdd33_const must be set as
0xFF, that is 255
Prototype:
uint16 system_get_vdd33(void)
Parameter:
none
Return:
power voltage of VDD33, unit:1/1024 V
7.
system_adc_read
Function:
Measure the input voltage of TOUT pin 6, unit:1/1024 V
Note:
•
system_adc_read is only available when wire TOUT pin to external
circuitry. Input Voltage Range restricted to 0 ~ 1.0V.
•
The 107th byte in esp_init_data_default.bin(0〜~127byte) is named as
“vdd33_const”, and when wire TOUT pin to external circuitry, the
vdd33_const must be set as real power voltage of VDD3P3 pin 3 and 4.
•
The range of operating voltage of ESP8266 is 1.8V~3.6V,the unit of
vdd33_const is 0.1V,so effective value range of vdd33_const is [18,
36]. If vdd33_const is an ineffective value which in [0, 18) or (36,
255), ESP8266 RF calibration will use 3.3V by default.
Prototype:
uint16 system_adc_read(void)
Parameter:
none
Return:
input voltage of TOUT pin 6, unit:1/1024 V
8.
system_deep_sleep
Function:
Configures chip for deep-sleep mode. When the device is in deep-sleep, it
automatically wakes up periodically; the period is configurable. Upon waking
up, the device boots up from user_init.
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Note:
•
Hardware has to support deep-sleep wake up (XPD_DCDC connects to EXT_RSTB
with 0R).
•
system_deep_sleep(0): there is no wake up timer; in order to wakeup,
connect a GPIO to pin RST, the chip will wake up by a falling-edge on
pin RST.
•
How to short the time it takes to wake up from deep-sleep, please refer
to documentation “2A-ESP8266__IOT_SDK_User_Manual” chapter Appendix.
Prototype:
void system_deep_sleep(uint32 time_in_us)
Parameters:
uint32 time_in_us : during the time (us) device is in deep-sleep
Return:
null
9.
system_deep_sleep_set_option
Function:
Call this API before system_deep_sleep to set what the chip will do when
next deep-sleep wake up. The option is 1 by default
Prototype:
bool system_deep_sleep_set_option(uint8 option)
Parameter:
uint8 option :
0 : Radio calibration after deep-sleep wake up depends on
esp_init_data_default.bin(0〜~127byte)byte 108.
1 : Radio calibration is done after deep-sleep wake up; this increases
the current consumption.
2 : No radio calibration after deep-sleep wake up; this reduces the
current consumption.
4 : Disable RF after deep-sleep wake up, just like modem sleep; this has
the least current consumption; the device is not able to transmit or receive
data after wake up.
Return:
true
: succeed
false : fail
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10. system_phy_set_rfoption
Function:
Enable RF or not when wakeup from deep-sleep.
Note:
•
This API can only be called in user_rf_pre_init.
•
Function of this API is similar to system_deep_sleep_set_option, if they
are both called, it will disregard system_deep_sleep_set_option which
is called before deep-sleep, and refer to system_phy_set_rfoption
which is called when deep-sleep wake up.
•
Before calling this API, system_deep_sleep_set_option should be called
once at least.
Prototype:
void system_phy_set_rfoption(uint8 option)
Parameter:
uint8 option :
system_phy_set_rfoption(0) : Radio calibration after deep-sleep wake up
depends on esp_init_data_default.bin(0〜~127byte)byte 108.
system_phy_set_rfoption(1) : Radio calibration is done after deep-sleep wake
up; this increases the current consumption.
system_phy_set_rfoption(2) : No radio calibration after deep-sleep wake up;
this reduces the current consumption.
system_phy_set_rfoption(4) : Disable RF after deep-sleep wake up, just like
modem sleep; this has the least current consumption; the device is not able
to transmit or receive data after wake up.
Return:
none
11. system_phy_set_max_tpw
Function:
Set maximum value of RF TX Power, unit :0.25dBm
Prototype:
void system_phy_set_max_tpw(uint8 max_tpw)
Parameter:
uint8 max_tpw : maximum value of RF Tx Power, unit : 0.25dBm, range [0, 82]
it can be set refer to the 34th byte (target_power_qdb_0) of
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esp_init_data_default.bin(0〜~127byte)
Return:
none
12. system_phy_set_tpw_via_vdd33
Function:
Adjust RF TX Power according to VDD33, unit : 1/1024 V
Note:
When TOUT pin is suspended, VDD33 can be got by system_get_vdd33;
When wire TOUT pin to external circuitry, system_get_vdd33 can not be used.
Prototype:
void system_phy_set_tpw_via_vdd33(uint16 vdd33)
Parameter:
uint16 vdd33 : VDD33, unit : 1/1024V, range [1900, 3300]
Return:
none
13. system_set_os_print
Function:
Turn on/off print logFunction
Prototype:
void system_set_os_print (uint8 onoff)
Parameters:
uint8 onoff
Note:
onoff==0: print function off
onoff==1: print function on
Default:
print function on
Return:
null
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14. system_print_meminfo
Function:
Print memory information, including data/rodata/bss/heap
Prototype:
void system_print_meminfo (void)
Parameters:
null
Return:
null
15. system_get_free_heap_size
Function:
Get free heap size
Prototype:
uint32 system_get_free_heap_size(void)
Parameters:
null
Return:
uint32 : available heap size
16. system_os_task
Function:
Set up tasks
Prototype:
bool system_os_task(
os_task_t
task,
uint8
prio,
os_event_t
*queue,
uint8
qlen
)
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Parameters:
os_task_t task : task function
uint8 prio : task priority. 3 priorities are supported: 0/1/2; 0 is the
lowest priority. This means only 3 tasks is allowed to set up.
os_event_t *queue : message queue pointer
uint8 qlen : message queue depth
Return:
true:
succeed
false: fail
Example:
#define SIG_RX
0
#define TEST_QUEUE_LEN
4
os_event_t *testQueue;
void test_task (os_event_t *e) {
switch (e->sig) {
case SIG_RX:
os_printf(sig_rx %c/n, (char)e->par);
break;
default:
break;
}
}
void task_init(void) {
testQueue=(os_event_t *)os_malloc(sizeof(os_event_t)*TEST_QUEUE_LEN);
system_os_task(test_task,USER_TASK_PRIO_0,testQueue,TEST_QUEUE_LEN);
}
17. system_os_post
Function: send message to task
Prototype:
bool system_os_post (
uint8 prio,
os_signal_t sig,
os_param_t par
)
Parameters:
uint8 prio
: task priority, corresponding to that you set up
os_signal_t sig : message type
os_param_t par
: message parameters
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Return:
true:
succeed
false: fail
Referring to the above example:
void task_post(void) {
system_os_post(USER_TASK_PRIO_0, SIG_RX, ‘a’);
}
Printout:
sig_rx a
18. system_get_time
Function:
Get system time (us).
Prototype:
uint32 system_get_time(void)
Parameter:
null
Return:
System time in microsecond.
19. system_get_rtc_time
Function: Get RTC time, as denoted by the number of RTC clock periods.
Example:
If system_get_rtc_time returns 10 (it means 10 RTC cycles), and
system_rtc_clock_cali_proc returns 5.75 (means 5.75us per RTC cycle), then
the real time is 10 x 5.75 = 57.5 us.
Note:
System time will return to zero because of system_restart, but RTC still
goes on.
•
reset by pin EXT_RST : RTC memory won’t change, RTC timer returns to zero
•
watchdog reset : RTC memory won’t change, RTC timer won’t change
•
system_restart : RTC memory won’t change, RTC timer won’t change
•
power on : RTC memory is random value, RTC timer starts from zero
•
reset by pin CHIP_EN : RTC memory is random value, RTC timer starts from
zero
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Prototype:
uint32 system_get_rtc_time(void)
Parameter:
null
Return:
RTC time
20. system_rtc_clock_cali_proc
Function:
Get RTC clock period.
Note:
RTC clock period has decimal part.
RTC clock period will change according to temperature, so RTC timer is not
very precise.
Prototype:
uint32 system_rtc_clock_cali_proc(void)
Parameter:
null
Return:
RTC clock period (in us), bit11~ bit0 are decimal. ((RTC_CAL * 100)>> 12 )
Note:
see RTC demo in Appendix.
21. system_rtc_mem_write
Function:
During deep sleep, only RTC still working, so maybe we need to save some
user data in RTC memory. Only user data area can be used by user.
|<--------system data--------->|<-----------------user data--------------->|
|
256 bytes
|
512 bytes
|
Note:
RTC memory is 4 bytes aligned for read and write operations. Parameter
des_addr means block number(4 bytes per block). So, if we want to save some
data at the beginning of user data area, des_addr will be 256/4 = 64,
save_size will be data length.
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Prototype:
bool system_rtc_mem_write (
uint32 des_addr,
void * src_addr,
uint32 save_size
)
Parameter:
uint32 des_addr
:
destination address (block number) in RTC memory,
:
data pointer.
des_addr >=64
void * src_addr
uint32 save_size :
data length ( byte)
Return:
true:
succeed
false: fail
22. system_rtc_mem_read
Function:
Read user data from RTC memory. Only user data area should be accessed by
the user.
|<--------system data--------->|<-----------------user data--------------->|
|
256 bytes
|
512 bytes
|
Note:
RTC memory is 4 bytes aligned for read and write operations. Parameter
src_addr means block number(4 bytes per block). So, to read data from the
beginning of user data area, src_addr will be 256/4=64, save_size will be
data length.
Prototype:
bool system_rtc_mem_read (
uint32 src_addr,
void * des_addr,
uint32 save_size
)
Parameter:
uint32 src_addr
:
source address (block number) in rtc memory, src_addr >=
:
data pointer
64
void * des_addr
uint32 save_size :
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Return:
true:
succeed
false: fail
23. system_uart_swap
Function:
UART0 swap. Use MTCK as UART0 RX, MTDO as UART0 TX, so ROM log will not
output from this new UART0. We also need to use MTDO (U0CTS) and MTCK
(U0RTS) as UART0 in hardware.
Prototype:
void system_uart_swap (void)
Parameter:
null
Return:
null
24. system_uart_de_swap
Function:
Disable UART0 swap. Use original UART0, not MTCK and MTDO.
Prototype:
void system_uart_de_swap (void)
Parameter:
null
Return:
null
25. system_get_boot_version
Function:
Get version info of boot
Prototype:
uint8 system_get_boot_version (void)
Parameter:
null
Return:
Version info of boot.
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Note:
If boot version >= 3 , you could enable boot enhance mode (refer to
system_restart_enhance)
26. system_get_userbin_addr
Function: Get address of the current running user bin (user1.bin or user2.bin).
Prototype:
uint32 system_get_userbin_addr (void)
Parameter:
null
Return:
Start address info of the current running user bin.
27. system_get_boot_mode
Function: Get boot mode.
Prototype:
uint8 system_get_boot_mode (void)
Parameter:
null
Return:
#define SYS_BOOT_ENHANCE_MODE 0
#define SYS_BOOT_NORMAL_MODE
1
Note:
Enhance boot mode: can load and run FW at any address;
Normal boot mode: can only load and run normal user1.bin (or user2.bin).
28. system_restart_enhance
Function:
Restarts system, and enters enhance boot mode.
Prototype:
bool system_restart_enhance(
uint8 bin_type,
uint32 bin_addr
)
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Parameter:
uint8 bin_type : type of bin
#define SYS_BOOT_NORMAL_BIN
#define SYS_BOOT_TEST_BIN
0
1
// user1.bin or user2.bin
// can only be Espressif test bin
uint32 bin_addr : start address of bin file
Return:
true:
succeed
false: Fail
Note:
SYS_BOOT_TEST_BIN is for factory test during production; you can apply for
the test bin from Espressif Systems.
29. system_update_cpu_freq
Function:
Set CPU frequency. Default is 80MHz.
Note:
System bus frequency is 80MHz, will not be affected by CPU frequency. The
frequency of UART, SPI, or other peripheral devices, are divided from system
bus frequency, so they will not be affected by CPU frequency either.
Prototype:
bool system_update_cpu_freq(uint8 freq)
Parameter:
uint8 freq : CPU frequency
#define SYS_CPU_80MHz
80
#define SYS_CPU_160MHz 160
Return:
true:
succeed
false: fail
30. system_get_cpu_freq
Function:
Get CPU frequency.
Prototype:
uint8 system_get_cpu_freq(void)
Parameter:
null
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Return:
CPU frequency, unit : MHz.
31. system_get_flash_size_map
Function:
Get current flash size and flash map.
Flash map depends on the selection when compiling, more details in document
“2A-ESP8266__IOT_SDK_User_Manual”
Structure:
enum flash_size_map {
FLASH_SIZE_4M_MAP_256_256 = 0,
FLASH_SIZE_2M,
FLASH_SIZE_8M_MAP_512_512,
FLASH_SIZE_16M_MAP_512_512,
FLASH_SIZE_32M_MAP_512_512,
FLASH_SIZE_16M_MAP_1024_1024,
FLASH_SIZE_32M_MAP_1024_1024
};
Prototype:
enum flash_size_map system_get_flash_size_map(void)
Parameter:
none
Return:
flash map
32. system_get_rst_info
Function:
Get information about current startup.
Structure:
enum rst_reason {
REANSON_DEFAULT_RST
= 0,
// normal startup by power on
REANSON_WDT_RST
= 1,
// hardware watch dog reset
// exception reset, GPIO status won’t change
REANSON_EXCEPTION_RST
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// software watch dog reset, GPIO status won’t change
REANSON_SOFT_WDT_RST
= 3,
// software restart ,system_restart , GPIO status won’t change
REANSON_SOFT_RESTART
= 4,
REANSON_DEEP_SLEEP_AWAKE
= 5,
REANSON_EXT_SYS_RST = 6,
// external system reset
// wake up from deep-sleep
};
struct rst_info {
uint32 reason;
// enum rst_reason
uint32 exccause;
uint32 epc1; // the address that error occurred
uint32 epc2;
uint32 epc3;
uint32 excvaddr;
uint32 depc;
};
Prototype:
struct rst_info* system_get_rst_info(void)
Parameter:
none
Return:
Information about startup.
33. system_soft_wdt_stop
Function:
Stop software watchdog
Note:
Please don’t stop software watchdog for too long (less than 6 seconds),
otherwise it will trigger hardware watchdog reset.
Prototype:
void system_soft_wdt_stop(void)
Parameter:
none
Return:
none
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34. system_soft_wdt_restart
Function:
Restart software watchdog
Note:
This API can only be called if software watchdog is stopped
(system_soft_wdt_stop)
Prototype:
void system_soft_wdt_restart(void)
Parameter:
none
Return:
none
35. system_soft_wdt_feed
Function:
Feed software watchdog
Note:
This API can only be called if software watchdog is enabled.
Prototype:
void system_soft_wdt_feed(void)
Parameter:
none
Return:
none
36. os_memset
Function:
Set value of memory
Prototype:
os_memset(void *s, int ch, size_t n)
Parameter:
void *s - pointer of memory
int ch - set value
size_t n - size
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Return:
none
Example:
uint8 buffer[32];
os_memset(buffer, 0, sizeof(buffer));
37. os_memcpy
Function:
copy memory
Prototype:
os_memcpy(void *des, void *src, size_t n)
Parameter:
void *des - pointer of destination
void *src - pointer of source
size_t n - memory size
Return:
none
Example:
uint8 buffer[4] = {0};
os_memcpy(buffer, “abcd”, 4);
38. os_strlen
Function:
Get string length
Prototype:
os_strlen(char *s)
Parameter:
char *s - string
Return:
string length
Example:
char *ssid = “ESP8266”;
os_memcpy(softAP_config.ssid, ssid, os_strlen(ssid));
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39. os_printf
Function:
print format
Note:
Default to be output from UART 0. uart_init in IOT_Demo can set baud rate of
UART, and os_install_putc1((void *)uart1_write_char) in it will set
os_printf to be output from UART 1.
Prototype:
os_printf(const char *s)
Parameter:
const char *s - string
Return:
none
Example:
os_printf(“SDK version: %s \n”, system_get_sdk_version());
40. os_bzero
Function:
Set the first n bytes of string p to be 0, include ’\0’
Prototype:
void os_bzero(void *p, size_t n)
Parameter:
void *p - pointer of memory need to be set 0
size_t n - length
Return:
none
41. os_delay_us
Function:
Time delay, max : 65535 us
Prototype:
void os_delay_us(uint16 us)
Parameter:
uint16 us - time, unit: us
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Return:
none
42. os_install_putc1
Function:
Register print output function.
Prototype:
void os_install_putc1(void(*p)(char c))
Parameter:
void(*p)(char c) - pointer of print function
Return:
none
Example:
os_install_putc1((void *)uart1_write_char) in uart_init will set os_printf
to be output from UART 1, otherwise, os_printf default output from UART 0.
3.4.
SPI Flash Related APIs
More details about flash read/write operation in documentation “99A-SDK-Espressif IOT Flash RW
Operation” http://bbs.espressif.com/viewtopic.php?f=21&t=413
1.
spi_flash_get_id
Function:
Get ID info of spi flash
Prototype:
uint32 spi_flash_get_id (void)
Parameters:
null
Return:
SPI flash ID
2.
spi_flash_erase_sector
Function:
Erase sector in flash
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Prototype:
SpiFlashOpResult spi_flash_erase_sector (uint16 sec)
Parameters:
uint16 sec : Sector number, the count starts at sector 0, 4KB per sector.
Return:
typedef enum{
SPI_FLASH_RESULT_OK,
SPI_FLASH_RESULT_ERR,
SPI_FLASH_RESULT_TIMEOUT
} SpiFlashOpResult;
3.
spi_flash_write
Function:
Write data to flash. Flash read/write has to be 4-bytes aligned.
Prototype:
SpiFlashOpResult spi_flash_write (
uint32 des_addr,
uint32 *src_addr,
uint32 size
)
Parameters:
uint32 des_addr
: destination address in flash.
uint32 *src_addr : source address of the data.
uint32 size
:length of data
Return:
typedef enum{
SPI_FLASH_RESULT_OK,
SPI_FLASH_RESULT_ERR,
SPI_FLASH_RESULT_TIMEOUT
} SpiFlashOpResult;
4.
spi_flash_read
Function:
Read data from flash. Flash read/write has to be 4-bytes aligned.
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Prototype:
SpiFlashOpResult spi_flash_read(
uint32 src_addr,
uint32 * des_addr,
uint32 size
)
Parameters:
uint32
src_addr: source address in flash
uint32 *des_addr: destination address to keep data.
uint32
size:
length of data
Return:
typedef enum {
SPI_FLASH_RESULT_OK,
SPI_FLASH_RESULT_ERR,
SPI_FLASH_RESULT_TIMEOUT
} SpiFlashOpResult;
Example:
uint32 value;
uint8 *addr = (uint8 *)&value;
spi_flash_read(0x3E * SPI_FLASH_SEC_SIZE, (uint32 *)addr, 4);
os_printf("0x3E sec:%02x%02x%02x%02x\r\n", addr[0], addr[1], addr[2],
addr[3]);
5.
system_param_save_with_protect
Function:
Write data into flash with protection. Flash read/write has to be 4-bytes
aligned.
Protection of flash read/write : use 3 sectors (4KBytes per sector) to save
4KB data with protect, sector 0 and sector 1 are data sectors, back up each
other, save data alternately, sector 2 is flag sector, point out which
sector is keeping the latest data, sector 0 or sector 1.
Note:
More details about protection of flash read/write in documentation “99A-SDKEspressif IOT Flash RW Operation” http://bbs.espressif.com/viewtopic.php?
f=21&t=413
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Prototype:
bool system_param_save_with_protect (
uint16 start_sec,
void *param,
uint16 len
)
Parameter:
uint16 start_sec
: start sector (sector 0) of the 3 sectors which used for
flash read/write protection.
For example, in IOT_Demo we could use the 3 sectors (3 * 4KB) starts from
flash 0x3D000 for flash read/write protection, so the parameter start_sec
should be 0x3D
void *param : pointer of data need to save
uint16 len
: data length, should less than a sector which is 4 * 1024
Return:
true,succeed;
false,fail
6.
system_param_load
Function:
Read data which saved into flash with protection. Flash read/write has to be
4-bytes aligned.
Protection of flash read/write : use 3 sectors (4KBytes per sector) to save
4KB data with protect, sector 0 and sector 1 are data sectors, back up each
other, save data alternately, sector 2 is flag sector, point out which
sector is keeping the latest data, sector 0 or sector 1.
Note:
More details about protection of flash read/write in documentation “99A-SDKEspressif IOT Flash RW Operation” http://bbs.espressif.com/viewtopic.php?
f=21&t=413
Prototype:
bool system_param_load (
uint16 start_sec,
uint16 offset,
void *param,
)
uint16 len
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Parameter:
uint16 start_sec
: start sector (sector 0) of the 3 sectors which used for
flash read/write protection. It can not sector 1 or sector 2.
For example, in IOT_Demo we could use the 3 sectors (3 * 4KB) starts from
flash 0x3D000 for flash read/write protection, so the parameter start_sec is
0x3D, can not be 0x3E or 0x3F.
uint16 offset
: offset of data saved in sector
void *param
: data pointer
uint16 len
: data length, offset + len ≤ 4 * 1024
Return:
true,succeed;
false,fail
7.
spi_flash_set_read_func
Function:
Register user-define SPI flash read API.
Note:
This API can be only used in SPI overlap mode, please refer to esp_iot_sdk
\examples\driver_lib\driver\spi_overlap.c
Prototype:
void spi_flash_set_read_func (user_spi_flash_read read)
Parameter:
user_spi_flash_read read : user-define SPI flash read API
Parameter Definition:
typedef SpiFlashOpResult (*user_spi_flash_read)(
SpiFlashChip *spi,
uint32 src_addr,
uint32 * des_addr,
uint32 size
)
Return:
none
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3.5.
ESP8266 SDK Programming Guide
!
Wi-Fi Related APIs
wifi_station APIs
and other APIs which set/get configurations of the ESP8266 station can
only be called if the ESP8266 station is enabled.
APIs and other APIs which set/get configurations of the ESP8266 soft-AP can
only be called if the ESP8266 soft-AP is enabled.
wifi_softap
Flash system parameter area is the last 16KB of flash.
1.
wifi_get_opmode
Function:
get WiFi current operating mode
Prototype:
uint8 wifi_get_opmode (void)
Parameters:
null
Return:
WiFi working modes:
0x01: station mode
0x02: soft-AP mode
0x03: station+soft-AP
2.
wifi_get_opmode_default
Function:
get WiFi operating mode that saved in flash
Prototype:
uint8 wifi_get_opmode_default (void)
Parameters:
null
Return:
WiFi working modes:
0x01: station mode
0x02: soft-AP mode
0x03: station+soft-AP
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wifi_set_opmode
Function:
Sets WiFi working mode as station, soft-AP or station+soft-AP, and save it
to flash. Default is soft-AP mode.
Note:
Versions before esp_iot_sdk_v0.9.2, need to call system_restart() after this
api; after esp_iot_sdk_v0.9.2, need not to restart.
This configuration will be saved in flash system parameter area if changed.
Prototype:
bool wifi_set_opmode (uint8 opmode)
Parameters:
uint8 opmode: WiFi operating modes:
0x01: station mode
0x02: soft-AP mode
0x03: station+soft-AP
Return:
true:
succeed
false: fail
4.
wifi_set_opmode_current
Function:
Sets WiFi working mode as station, soft-AP or station+soft-AP, and won’t
save to flash
Prototype:
bool wifi_set_opmode_current (uint8 opmode)
Parameters:
uint8 opmode: WiFi operating modes:
0x01: station mode
0x02: soft-AP mode
0x03: station+soft-AP
Return:
true:
succeed
false: fail
5.
wifi_station_get_config
Function:
Get WiFi station current configuration
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Prototype:
bool wifi_station_get_config (struct station_config *config)
Parameters:
struct station_config *config : WiFi station configuration pointer
Return:
true:
succeed
false: fail
6.
wifi_station_get_config_default
Function:
Get WiFi station configuration that saved in flash
Prototype:
bool wifi_station_get_config_default (struct station_config *config)
Parameters:
struct station_config *config : WiFi station configuration pointer
Return:
true:
succeed
false: fail
7.
wifi_station_set_config
Function:
Set WiFi station configuration, and save it to flash
Note:
•
This API can be called only if ESP8266 station is enabled.
•
If wifi_station_set_config is called in user_init , there is no need to
call wifi_station_connect after that, ESP8266 will connect to router
automatically; otherwise, need wifi_station_connect to connect.
•
In general, station_config.bssid_set need to be 0, otherwise it will
check bssid which is the MAC address of AP.
•
This configuration will be saved in flash system parameter area if
changed.
Prototype:
bool wifi_station_set_config (struct station_config *config)
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Parameters:
struct station_config *config: WiFi station configuration pointer
Return:
true:
succeed
false: fail
Example:
void ICACHE_FLASH_ATTR
user_set_station_config(void)
{
char ssid[32] = SSID;
char password[64] = PASSWORD;
struct station_config stationConf;
stationConf.bssid_set = 0;
//need not check MAC address of AP
os_memcpy(&stationConf.ssid, ssid, 32);
os_memcpy(&stationConf.password, password, 64);
wifi_station_set_config(&stationConf);
}
void user_init(void)
{
wifi_set_opmode(STATIONAP_MODE); //Set softAP + station mode
user_set_station_config();
}
8.
wifi_station_set_config_current
Function:
Set WiFi station configuration, won’t save to flash
Note:
•
This API can be called only if ESP8266 station is enabled.
•
If wifi_station_set_config_current is called in user_init , there is no
need to call wifi_station_connect after that, ESP8266 will connect to
router automatically; otherwise, need wifi_station_connect to connect.
•
In general, station_config.bssid_set need to be 0, otherwise it will
check bssid which is the MAC address of AP.
Prototype:
bool wifi_station_set_config_current (struct station_config *config)
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Parameters:
struct station_config *config: WiFi station configuration pointer
Return:
true:
succeed
false: fail
9.
wifi_station_connect
Function:
To connect WiFi station to AP
Note:
•
If the ESP8266 is already connected to a router, we need to call
wifi_station_disconnect first, before calling wifi_station_connect.
•
Do not call this API in user_init. This API need to be called after
system initializes and the ESP8266 station enabled.
Prototype:
bool wifi_station_connect (void)
Parameters:
null
Return:
true:
succeed
false: fail
10. wifi_station_disconnect
Function:
Disconnects WiFi station from AP
Note:
Do not call this API in user_init. This API need to be called after system
initializes and the ESP8266 station enabled.
Prototype:
bool wifi_station_disconnect (void)
Parameters:
null
Return:
true:
succeed
false: fail
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11. wifi_station_get_connect_status
Function:
Get connection status of WiFi station to AP
Prototype:
uint8 wifi_station_get_connect_status (void)
Parameters:
null
Return:
enum{
STATION_IDLE = 0,
STATION_CONNECTING,
STATION_WRONG_PASSWORD,
STATION_NO_AP_FOUND,
STATION_CONNECT_FAIL,
STATION_GOT_IP
};
12. wifi_station_scan
Function:
Scan all available APs
Note:
Do not call this API in user_init. This API need to be called after system
initializes and the ESP8266 station enabled.
Prototype:
bool wifi_station_scan (struct scan_config *config, scan_done_cb_t cb);
Structure:
struct scan_config {
uint8 *ssid;
// AP’s ssid
uint8 *bssid;
// AP’s bssid
uint8 channel;
//scan a specific channel
uint8 show_hidden; //scan APs of which ssid is hidden.
};
Parameters:
struct scan_config *config: AP config for scan
if config==null: scan all APs
if config.ssid==null && config.bssid==null && config.channel!=null:
ESP8266 will scan the specific channel.
scan_done_cb_t cb: callback function after scan
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Return:
true:
succeed
false: fail
13. scan_done_cb_t
Function:
Callback function for wifi_station_scan
Prototype:
void scan_done_cb_t (void *arg, STATUS status)
Parameters:
void *arg: information of APs that be found, refer to struct bss_info
STATUS status: get status
Return:
null
Example:
wifi_station_scan(&config, scan_done);
static void ICACHE_FLASH_ATTR scan_done(void *arg, STATUS status) {
if (status == OK) {
struct bss_info *bss_link = (struct bss_info *)arg;
bss_link = bss_link->next.stqe_next; //ignore first
...
}
}
14. wifi_station_ap_number_set
Function:
Sets the number of APs that will be cached for ESP8266 station mode.
Whenever ESP8266 station connects to an AP, it keeps caches a record of this
AP's SSID and password. The cached ID index starts from 0.
Note:
This configuration will be saved in flash system parameter area if changed.
Prototype:
bool wifi_station_ap_number_set (uint8 ap_number)
Parameters:
uint8 ap_number: the number of APs can be recorded (MAX: 5)
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Return:
true:
succeed
false: fail
15. wifi_station_get_ap_info
Function:
Get information of APs recorded by ESP8266 station.
Prototype:
uint8 wifi_station_get_ap_info(struct station_config config[])
Parameters:
struct station_config config[]: information of APs, array size has to be 5.
Return:
The number of APs recorded.
Example:
struct station_config config[5];
int i = wifi_station_get_ap_info(config);
16. wifi_station_ap_change
Function:
Switch ESP8266 station connection to AP as specified
Prototype:
bool wifi_station_ap_change (uint8 new_ap_id)
Parameters:
uint8 new_ap_id : AP’s record id, start counting from 0.
Return:
true:
succeed
false: fail
17. wifi_station_get_current_ap_id
Function:
Get the current record id of AP.
Prototype:
uint8 wifi_station_get_current_ap_id ();
Parameter:
null
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Return:
The index of the AP, which ESP8266 is currently connected to, in the cached
AP list.
18. wifi_station_get_auto_connect
Function:
Checks if ESP8266 station mode will connect to AP (which is cached)
automatically or not when it is powered on.
Prototype:
uint8 wifi_station_get_auto_connect(void)
Parameter:
null
Return:
0:
wil not connect to AP automatically;
Non-0: will connect to AP automatically.
19. wifi_station_set_auto_connect
Function:
Setting the ESP8266 station to connect to the AP (which is recorded)
automatically or not when powered on. Enable auto-connect by default.
Note:
Call this API in user_init, it is effective in this current power on; call
it in other place, it will be effective in next power on.
This configuration will be saved in flash system parameter area if changed.
Prototype:
bool wifi_station_set_auto_connect(uint8 set)
Parameter:
uint8 set: Automatically connect or not:
0: will not connect automatically
1: to connect automatically
Return:
true:
succeed
false: fail
20. wifi_station_dhcpc_start
Function:
Enable ESP8266 station DHCP client.
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Note:
DHCP is enabled by default.
This configuration interacts with static IP API (wifi_set_ip_info):
If DHCP is enabled,, static IP will be disabled;
If static IP is enabled,, DHCP will be disabled;
These settings depend on the last configuration.
Prototype:
bool wifi_station_dhcpc_start(void)
Parameter:
null
Return:
true:
succeed
false: fail
21. wifi_station_dhcpc_stop
Function:
Disable ESP8266 station DHCP client.
Note:
DHCP default enable.
Prototype:
bool wifi_station_dhcpc_stop(void)
Parameter:
null
Return:
true:
succeed
false: fail
22. wifi_station_dhcpc_status
Function: Get ESP8266 station DHCP client status.
Prototype:
enum dhcp_status wifi_station_dhcpc_status(void)
Parameter:
null
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Return:
enum dhcp_status {
DHCP_STOPPED,
DHCP_STARTED
};
23. wifi_station_set_reconnect_policy
Function:
Set whether reconnect or not when the ESP8266 station is disconnected from
AP
Note:
We suggest to call this API in user_init
This API can only be called when the ESP8266 station is enabled.
Prototype:
bool wifi_station_set_reconnect_policy(bool set)
Parameter:
bool set -
true, enable reconnect;false,disable reconnect
Return:
true:succeed
false:fail
24. wifi_station_get_rssi
Function:
Get rssi of the AP which ESP8266 station connected to
Prototype:
sint8 wifi_station_get_rssi(void)
Parameter:
none
Return:
< 0 :succeed,return rssi
31
:fail,return error code
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25. wifi_station_set_hostname
Function:
Set ESP8266 station DHCP hostname
Prototype:
bool wifi_station_get_hostname(char* hostname)
Parameter:
char* hostname :hostname,max length:32
Return:
true:succeed
false:fail
26. wifi_station_get_hostname
Function:
Get ESP8266 station DHCP hostname
Prototype:
char* wifi_station_get_hostname(void)
Parameter:
none
Return:
hostname
27. wifi_softap_get_config
Function:
Get WiFi soft-AP current configuration
Prototype:
bool wifi_softap_get_config(struct softap_config *config)
Parameter:
struct softap_config *config : ESP8266 soft-AP config
Return:
true:
succeed
false: fail
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28. wifi_softap_get_config_default
Function:
Get WiFi soft-AP configurations saved in flash
Prototype:
bool wifi_softap_get_config_default(struct softap_config *config)
Parameter:
struct softap_config *config : ESP8266 soft-AP config
Return:
true:
succeed
false: fail
29. wifi_softap_set_config
Function:
Set WiFi soft-AP configuration and save it to flash
Note:
•
This API can be called only if the ESP8266 soft-AP is enabled.
•
This configuration will be saved in flash system parameter area if
changed.
•
In soft-AP + station mode, the ESP8266 soft-AP will adjust its channel
configuration to be the as same as the ESP8266. More details in
appendix or BBS http://bbs.espressif.com/viewtopic.php?f=10&t=324
Prototype:
bool wifi_softap_set_config (struct softap_config *config)
Parameter:
struct softap_config *config :
WiFi soft-AP configuration pointer
Return:
true:
succeed
false: fail
30. wifi_softap_set_config_current
Function:
Set WiFi soft-AP configuration, won’t save it to flash
Note:
•
This API can be called only if the ESP8266 soft-AP is enabled.
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ESP8266 SDK Programming Guide
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In the soft-AP + station mode, ESP8266 soft-AP will adjust its channel
configuration to be as same as the ESP8266. More details in appendix
or BBS http://bbs.espressif.com/viewtopic.php?f=10&t=324
Prototype:
bool wifi_softap_set_config_current (struct softap_config *config)
Parameter:
struct softap_config *config :
WiFi soft-AP configuration pointer
Return:
true:
succeed
false: fail
31. wifi_softap_get_station_num
Function:
count the number of stations connected to the ESP8266 soft-AP
Prototype:
uint8 wifi_softap_get_station_num(void)
Parameter:
none
Return:
how many stations connected to ESP8266 soft-AP
32. wifi_softap_get_station_info
Function:
Get connected station devices under soft-AP mode, including MAC and IP
Note:
This API can not get static IP. It can only be used when DHCP enabled.
Prototype:
struct station_info * wifi_softap_get_station_info(void)
Input Parameters:
null
Return:
struct station_info* : station information structure
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33. wifi_softap_free_station_info
Function:
Frees the struct station_info by calling the wifi_softap_get_station_info
function
Prototype:
void wifi_softap_free_station_info(void)
Input Parameters:
null
Return:
null
Examples 1 (Getting MAC and IP information):
struct station_info * station = wifi_softap_get_station_info();
struct station_info * next_station;
while(station) {
os_printf(bssid : MACSTR, ip : IPSTR/n,
MAC2STR(station->bssid), IP2STR(&station->ip));
next_station = STAILQ_NEXT(station, next);
os_free(station);
// Free it directly
station = next_station;
}
Examples 2 (Getting MAC and IP information):
struct station_info * station = wifi_softap_get_station_info();
while(station){
os_printf(bssid : MACSTR, ip : IPSTR/n,
MAC2STR(station->bssid), IP2STR(&station->ip));
station = STAILQ_NEXT(station, next);
}
wifi_softap_free_station_info();
// Free it by calling functions
34. wifi_softap_dhcps_start
Function: Enable ESP8266 soft-AP DHCP server.
Note:
DHCP default enable.
This configuration interacts with static IP API (wifi_set_ip_info):
If enable DHCP, static IP will be disabled;
If enable static IP, DHCP will be disabled;
This will depend on the last configuration.
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Prototype:
bool wifi_softap_dhcps_start(void)
Parameter:
null
Return:
true:
succeed
false: fail
35. wifi_softap_dhcps_stop
Function: Disable ESP8266 soft-AP DHCP server.
Note: DHCP default enable.
Prototype:
bool wifi_softap_dhcps_stop(void)
Parameter:
null
Return:
true:
succeed
false: fail
36. wifi_softap_set_dhcps_lease
Function:
Set the IP range that can be got from the ESP8266 soft-AP DHCP server.
Note:
•
IP range has to be in the same sub-net with the ESP8266 soft-AP IP
address
•
This API can only be called during DHCP server disable
(wifi_softap_dhcps_stop)
•
This configuration only takes effect on next wifi_soft-AP_dhcps_start;
if then wifi_softap_dhcps_stop is called, user needs to call this API
to set IP range again if needed, and then call wifi_softap_dhcps_start
for the configuration to take effect.
Prototype:
bool wifi_softap_set_dhcps_lease(struct dhcps_lease *please)
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Parameter:
struct dhcps_lease {
struct ip_addr start_ip;
struct ip_addr end_ip;
};
Return:
true:
succeed
false: fail
Example:
void dhcps_lease_test(void)
{
struct dhcps_lease dhcp_lease;
const char* start_ip = “192.168.5.100”;
const char* end_ip = “192.168.5.105”;
dhcp_lease.start_ip.addr = ipaddr_addr(start_ip);
dhcp_lease.end_ip.addr = ipaddr_addr(end_ip);
wifi_softap_set_dhcps_lease(&dhcp_lease);
}
or
void dhcps_lease_test(void)
{
struct dhcps_lease dhcp_lease;
IP4_ADDR(&dhcp_lease.start_ip, 192, 168, 5, 100);
IP4_ADDR(&dhcp_lease.end_ip, 192, 168, 5, 105);
wifi_softap_set_dhcps_lease(&dhcp_lease);
}
void user_init(void)
{
struct ip_info info;
wifi_set_opmode(STATIONAP_MODE); //Set softAP + station mode
wifi_softap_dhcps_stop();
IP4_ADDR(&info.ip, 192, 168, 5, 1);
IP4_ADDR(&info.gw, 192, 168, 5, 1);
IP4_ADDR(&info.netmask, 255, 255, 255, 0);
wifi_set_ip_info(SOFTAP_IF, &info);
dhcps_lease_test();
wifi_softap_dhcps_start();
}
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37. wifi_softap_get_dhcps_lease
Function:
Query the IP range that can be got from the ESP8266 soft-AP DHCP server.
Note:
This API can only be called during ESP8266 soft-AP DHCP server enabled.
Prototype:
bool wifi_softap_get_dhcps_lease(struct dhcps_lease *please)
Return:
true:
succeed
false: fail
38. wifi_softap_dhcps_status
Function: Get ESP8266 soft-AP DHCP server status.
Prototype:
enum dhcp_status wifi_softap_dhcps_status(void)
Parameter:
null
Return:
enum dhcp_status {
DHCP_STOPPED,
DHCP_STARTED
};
39. wifi_softap_set_dhcps_offer_option
Function:
Set ESP8266 soft-AP DHCP server option.
Structure:
enum dhcps_offer_option{
OFFER_START = 0x00,
OFFER_ROUTER = 0x01,
OFFER_END
};
Prototype:
bool wifi_softap_set_dhcps_offer_option(uint8 level, void* optarg)
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Parameter:
uint8 level -
OFFER_ROUTER set router option
void* optarg -
default to be enable
bit0, 0 disable router information from ESP8266 softAP DHCP server;
bit0, 1 enable router information from ESP8266 softAP DHCP server;
Return:
true
: succeed
false : fail
Example:
uint8 mode = 0;
wifi_softap_set_dhcps_offer_option(OFFER_ROUTER, &mode);
40. wifi_set_phy_mode
Fuction: Set ESP8266 physical mode (802.11b/g/n).
Note: ESP8266 soft-AP only support bg.
Prototype:
bool wifi_set_phy_mode(enum phy_mode mode)
Parameter:
enum phy_mode mode : physical mode
enum phy_mode {
PHY_MODE_11B = 1,
PHY_MODE_11G = 2,
PHY_MODE_11N = 3
};
Return:
true
: succeed
false : fail
41. wifi_get_phy_mode
Function:
Get ESP8266 physical mode (802.11b/g/n)
Prototype:
enum phy_mode wifi_get_phy_mode(void)
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Parameter:
null
Return:
enum phy_mode{
PHY_MODE_11B = 1,
PHY_MODE_11G = 2,
PHY_MODE_11N = 3
};
42. wifi_get_ip_info
Function:
Get IP info of WiFi station or soft-AP interface
Prototype:
bool wifi_get_ip_info(
uint8 if_index,
struct ip_info *info
)
Parameters:
uint8 if_index : the interface to get IP info: 0x00 for STATION_IF, 0x01 for
SOFTAP_IF.
struct ip_info *info : pointer to get IP info of a certain interface
Return:
true:
succeed
false: fail
43. wifi_set_ip_info
Function:
Set IP address of ESP8266 station or soft-AP
Note:
To set static IP, please disable DHCP first (wifi_station_dhcpc_stop or
wifi_softap_dhcps_stop):
If enable static IP, DHCP will be disabled;
If enable DHCP, static IP will be disabled;
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Prototype:
bool wifi_set_ip_info(
uint8 if_index,
struct ip_info *info
)
Prototype:
uint8 if_index
: set station IP or soft-AP IP
#define STATION_IF
0x00
#define SOFTAP_IF
0x01
struct ip_info *info
:
IP information
Example:
struct ip_info info;
wifi_station_dhcpc_stop();
wifi_softap_dhcps_stop();
IP4_ADDR(&info.ip, 192, 168, 3, 200);
IP4_ADDR(&info.gw, 192, 168, 3, 1);
IP4_ADDR(&info.netmask, 255, 255, 255, 0);
wifi_set_ip_info(STATION_IF, &info);
IP4_ADDR(&info.ip, 10, 10, 10, 1);
IP4_ADDR(&info.gw, 10, 10, 10, 1);
IP4_ADDR(&info.netmask, 255, 255, 255, 0);
wifi_set_ip_info(SOFTAP_IF, &info);
wifi_softap_dhcps_start();
Return:
true:
succeed
false: fail
44. wifi_set_macaddr
Function:
Sets MAC address
Note:
•
This API can only be called in user_init.
•
ESP8266 soft-AP and station have different MAC addresses, please do not
set them to be the same.
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Prototype:
bool wifi_set_macaddr(
uint8 if_index,
uint8 *macaddr
)
Parameter:
uint8 if_index
: set station MAC or soft-AP mac
#define STATION_IF
0x00
#define SOFTAP_IF
0x01
uint8 *macaddr
:
MAC address
Example:
wifi_set_opmode(STATIONAP_MODE);
char sofap_mac[6] = {0x16, 0x34, 0x56, 0x78, 0x90, 0xab};
char sta_mac[6] = {0x12, 0x34, 0x56, 0x78, 0x90, 0xab};
wifi_set_macaddr(SOFTAP_IF, sofap_mac);
wifi_set_macaddr(STATION_IF, sta_mac);
Return:
true:
succeed
false: fail
45. wifi_get_macaddr
Function: get MAC address
Prototype:
bool wifi_get_macaddr(
uint8 if_index,
uint8 *macaddr
)
Parameter:
uint8 if_index
:
set station MAC or soft-AP mac
#define STATION_IF
0x00
#define SOFTAP_IF
0x01
uint8 *macaddr :
MAC address
Return:
true:
succeed
false: fail
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46. wifi_set_sleep_type
Function:
Sets sleep type for power saving. Set NONE_SLEEP_T to disable power saving.
Note: Default to be Modem sleep.
Prototype:
bool wifi_set_sleep_type(enum sleep_type type)
Parameters:
enum sleep_type type
:
sleep type
Return:
true:
succeed
false: fail
47. wifi_get_sleep_type
Function:
Gets sleep type.
Prototype:
enum sleep_type wifi_get_sleep_type(void)
Parameters:
null
Return:
enum sleep_type {
NONE_SLEEP_T = 0;
LIGHT_SLEEP_T,
MODEM_SLEEP_T
};
48. wifi_status_led_install
Function:
Installs WiFi status LED
Prototype:
void wifi_status_led_install (
uint8 gpio_id,
uint32 gpio_name,
uint8 gpio_func
)
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Parameter:
uint8 gpio_id
: GPIO number
uint8 gpio_name : GPIO mux name
uint8 gpio_func : GPIO function
Return:
null
Example:
Use GPIO0 as WiFi status LED
#define HUMITURE_WIFI_LED_IO_MUX
PERIPHS_IO_MUX_GPIO0_U
#define HUMITURE_WIFI_LED_IO_NUM
0
#define HUMITURE_WIFI_LED_IO_FUNC
FUNC_GPIO0
wifi_status_led_install(HUMITURE_WIFI_LED_IO_NUM,
HUMITURE_WIFI_LED_IO_MUX, HUMITURE_WIFI_LED_IO_FUNC)
49. wifi_status_led_uninstall
Function: Uninstall WiFi status LED
Prototype:
void wifi_status_led_uninstall ()
Parameter:
null
Return:
null
50. wifi_set_broadcast_if
Function:
Set ESP8266 send UDP broadcast from station interface or soft-AP interface,
or both station and soft-AP interfaces. Default to be soft-AP.
Note:
If set broadcast interface to be station only,ESP8266 softAP DHCP server
will be disable.
Prototype:
bool wifi_set_broadcast_if (uint8 interface)
Parameter:
uint8 interface : 1:station; 2:soft-AP, 3:station+soft-AP
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Return:
true:
succeed
false: fail
51. wifi_get_broadcast _if
Function:
Get interface which ESP8266 sent UDP broadcast from. This is usually used
when you have STA + soft-AP mode to avoid ambiguity.
Prototype:
uint8 wifi_get_broadcast_if (void)
Parameter:
null
Return:
1: station
2: soft-AP
3: both station and soft-AP
52. wifi_set_event_handler_cb
Function:
Register Wi-Fi event handler
Prototype:
void wifi_set_event_handler_cb(wifi_event_handler_cb_t cb)
Parameter:
wifi_event_handler_cb_t cb : callback
Return:
none
Example:
void wifi_handle_event_cb(System_Event_t *evt)
{
os_printf("event %x\n", evt->event);
switch (evt->event) {
case EVENT_STAMODE_CONNECTED:
os_printf("connect to ssid %s, channel %d\n",
evt->event_info.connected.ssid,
evt->event_info.connected.channel);
break;
case EVENT_STAMODE_DISCONNECTED:
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os_printf("disconnect from ssid %s, reason %d\n",
evt->event_info.disconnected.ssid,
evt->event_info.disconnected.reason);
break;
case EVENT_STAMODE_AUTHMODE_CHANGE:
os_printf("mode: %d -> %d\n",
evt->event_info.auth_change.old_mode,
evt->event_info.auth_change.new_mode);
break;
case EVENT_STAMODE_GOT_IP:
os_printf("ip:" IPSTR ",mask:" IPSTR ",gw:" IPSTR,
IP2STR(&evt->event_info.got_ip.ip),
IP2STR(&evt->event_info.got_ip.mask),
IP2STR(&evt->event_info.got_ip.gw));
os_printf("\n");
break;
case EVENT_SOFTAPMODE_STACONNECTED:
os_printf("station: " MACSTR "join, AID = %d\n",
MAC2STR(evt->event_info.sta_connected.mac),
evt->event_info.sta_connected.aid);
break;
case EVENT_SOFTAPMODE_STADISCONNECTED:
os_printf("station: " MACSTR "leave, AID = %d\n",
MAC2STR(evt->event_info.sta_disconnected.mac),
evt->event_info.sta_disconnected.aid);
break;
default:
break;
}
}
void user_init(void)
{
// TODO: add your own code here....
wifi_set_event_hander_cb(wifi_handle_event_cb);
}
53. wifi_get_channel
Function:
Get Wi-Fi channel
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Prototype:
uint8 wifi_get_channel(void)
Parameters:
null
Return:
Channel number
54. wifi_set_channel
Function:
Set Wi-Fi channel
NOTE:
•
If set channel to be different with router’s channel, ESP8266 station may
disconnect from router
•
Set channel in soft-AP + station mode please pay attention on appendix
“ESP8266 soft-AP and station channel configuration”
Prototype:
bool wifi_set_channel (uint8 channel)
Parameters:
uint8 channel :
channel number
Return:
true:
succeed
false: fail
55. wifi_wps_enable
Function:
Enable Wi-Fi WPS function
Note:
WPS can only be used when ESP8266 station is enabled.
Structure:
typedef enum wps_type {
WPS_TYPE_DISABLE=0,
WPS_TYPE_PBC,
WPS_TYPE_PIN,
WPS_TYPE_DISPLAY,
WPS_TYPE_MAX,
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}WPS_TYPE_t;
Prototype:
bool wifi_wps_enable(WPS_TYPE_t wps_type)
Parameter:
WPS_TYPE_t wps_type : WPS type, so far only WPS_TYPE_PBC is supported
Return:
true:
succeed
false: fail
56. wifi_wps_disable
Function:
Disable Wi-Fi WPS function and release resource it taken
Prototype:
bool wifi_wps_disable(void)
Parameter:
none
Return:
true:
succeed
false: fail
57. wifi_wps_start
Function:
WPS starts to work
Note:
WPS can only be used when ESP8266 station is enabled.
Prototype:
bool wifi_wps_start(void)
Parameter:
none
Return:
true: means that WPS starts to work successfully, does not mean WPS succeed.
false: fail
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58. wifi_set_wps_cb
Function:
Set WPS callback, parameter of the callback is the status of WPS.
Callback and parameter structure:
typedef void (*wps_st_cb_t)(int status);
enum wps_cb_status {
WPS_CB_ST_SUCCESS = 0,
WPS_CB_ST_FAILED,
WPS_CB_ST_TIMEOUT,
WPS_CB_ST_WEP,
// WPS failed because that WEP is not supported
};
Note:
•
If parameter status == WPS_CB_ST_SUCCESS in WPS callback, it means WPS
got AP’s information, user can call wifi_wps_disable to disable WPS
and release resource, then call wifi_station_connect to connect to
target AP.
•
Otherwise, it means that WPS fail, user can create a timer to retry WPS
by wifi_wps_start after a while, or call wifi_wps_disable to disable
WPS and release resource.
Prototype:
bool wifi_set_wps_cb(wps_st_cb_t cb)
Parameter:
wps_st_cb_t cb : callback
Return:
true:
succeed
false: fail
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3.6.
ESP8266 SDK Programming Guide
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ESP-NOW APIs
Pay attention on following items:
•
ESP-NOW is targeted to Smart-Light project, so it is suggested that slave role corresponding
to soft-AP or soft-AP+station mode, controller role corresponding to station mode.
•
When ESP8266 is in soft-AP+station mode, it will communicate through station interface if it is
in slave role, and communicate through soft-AP interface if it is in controller role.
•
ESP-NOW can not wake ESP8266 up from sleep, so if the target ESP8266 station is in sleep,
ESP-NOW communication will fail.
•
In station mode, ESP8266 supports 10 encrypt ESP-NOW peers at most, with the unencrypted
peers, it can be 20 peers in total at most.
•
In the soft-AP mode or soft-AP + station mode, the ESP8266 supports 6 encrypt ESP-NOW
peers at most, with the unencrypted peers, it can be 20 peers in total at most.
1.
esp_now_init
Function:
ESP-NOW initialization
Prototype:
init esp_now_init(void)
Parameter:
none
Return:
0, succeed
otherwise, fail
2.
esp_now_deinit
Function:
Deinitialize ESP-NOW
Prototype:
int esp_now_deinit(void)
Parameter:
none
Return:
0, succeed
otherwise, fail
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ESP8266 SDK Programming Guide
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esp_now_register_recv_cb
Function:
Register ESP-NOW receive callback
Note:
When received an ESP-NOW packet, enter receive callback:
typedef void (*esp_now_recv_cb_t)(u8 *mac_addr, u8 *data, u8 len)
Parameters of ESP-NOW receive callback:
u8 *mac_addr : MAC address of the sender
u8 *data
: data received
u8 len
: data length
Prototype:
int esp_now_register_recv_cb(esp_now_recv_cb_t cb)
Parameter:
esp_now_recv_cb_t cb : receive callback
Return:
0, succeed
otherwise, fail
4.
esp_now_unregister_recv_cb
Function:
Unregister ESP-NOW receive callback
Prototype:
int esp_now_unregister_recv_cb(void)
Parameter:
none
Return:
0, succeed
otherwise, fail
5.
esp_now_register_send_cb
Function:
Register ESP-NOW send callback
Notice:
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ESP-NOW send callback:
void esp_now_send_cb_t(u8 *mac_addr, u8 status)
Parameter:
u8 *mac_addr : MAC address of target device
u8 status
: status of ESP-NOW sending packet
mt_tx_status {
T_TX_STATUS_OK = 0,
MT_TX_STATUS_FAILED,
}
The status will be T_TX_STATUS_OK, if ESP-NOW send packet successfully.
Users should make sure by themselves that key of communication is correct.
Prototype:
u8 esp_now_register_send_cb(esp_now_send_cb_t cb)
Parameter:
esp_now_send_cb_t cb
: callback
Return:
0, succeed
otherwise, fail
6.
esp_now_unregister_send_cb
Function:
Unregister ESP-NOW send callback
Prototype:
int esp_now_unregister_send_cb(void)
Parameter:
null
Return:
0, succeed
otherwise, fail
7.
esp_now_send
Function:
Send ESP-NOW packet
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Prototype:
int esp_now_send(u8 *da, u8 *data, int len)
Parameter:
u8 *da
: Destination MAC address. If it’s NULL, send packet to all MAC
addresses recorded by ESP-NOW; otherwise, send packet to target MAC address.
u8 *data
: data need to send
u8 len
: data length
Return:
0, succeed
otherwise, fail
8.
esp_now_add_peer
Function:
Add an ESP-NOW peer, store MAC address of target device into ESP-NOW MAC
list.
Structure:
typedef enum mt_role {
MT_ROLE_IDLE = 0,
MT_ROLE_CONTROLLER,
MT_ROLE_SLAVE,
MT_ROLE_MAX,
}
Prototype:
int esp_now_add_peer(u8 *mac_addr, u8 role, u8 channel, u8 *key, u8 key_len)
Parameter:
u8 *mac_addr
: MAC address of device
u8 role
: role type of device
u8 channel
: channel of device
u8 *key
: 16 bytes key which is needed for ESP-NOW communication
u8 key_len
: length of key, has to be 16 bytes now
Return:
0, succeed
otherwise, fail
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ESP8266 SDK Programming Guide
!
esp_now_del_peer
Function:
Delete an ESP-NOW peer, delete MAC address of the device from ESP-NOW MAC
list.
Prototype:
int esp_now_del_peer(u8 *mac_addr)
Parameter:
u8 *mac_addr
: MAC address of device
Return:
0, succeed
otherwise, fail
10. esp_now_set_self_role
Function:
Set ESP-NOW role of device itself
Structure:
typedef enum mt_role {
MT_ROLE_IDLE = 0,
MT_ROLE_CONTROLLER,
MT_ROLE_SLAVE,
MT_ROLE_MAX,
}
Prototype:
int esp_now_set_self_role(u8 role)
Parameter:
u8 role
: role type
Return:
0, succeed
otherwise, fail
11. esp_now_get_self_role
Function:
Get ESP-NOW role of device itself
Prototype:
u8 esp_now_get_self_role(void)
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Parameter:
none
Return:
role type
12. esp_now_set_peer_role
Function:
Set ESP-NOW role for a target device. If it is set multiple times, new role
will cover the old one.
Structure:
typedef enum mt_role {
MT_ROLE_IDLE = 0,
MT_ROLE_CONTROLLER,
MT_ROLE_SLAVE,
MT_ROLE_MAX,
}
Prototype:
int esp_now_set_peer_role(u8 *mac_addr,u8 role)
Parameter:
u8 *mac_addr
: MAC address of target device
u8 role
: role type
Return:
0, succeed
otherwise, fail
13. esp_now_get_peer_role
Function:
Get ESP-NOW role of a target device
Prototype:
int esp_now_get_peer_role(u8 *mac_addr)
Parameter:
u8 *mac_addr
: MAC address of target device
Return:
MT_ROLE_CONTROLLER, role type is controller;
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MT_ROLE_SLAVE, role type is slave;
otherwise, fail
14. esp_now_set_peer_key
Function:
Set ESP-NOW key for a target device. If it is set multiple times, new role
will cover the old one.
Prototype:
int esp_now_set_peer_key(u8 *mac_addr,u8 *key,u8 key_len)
Parameter:
u8 *mac_addr
: MAC address of target device
u8 *key
: 16 bytes key which is needed for ESP-NOW communication,
if it is NULL, current key will be reset to be none.
u8 key_len
: key length, has to be 16 bytes now
Return:
0, succeed
otherwise, fail
15. esp_now_get_peer_key
Function:
Get ESP-NOW key of a target device.
Prototype:
int esp_now_set_peer_key(u8 *mac_addr,u8 *key,u8 *key_len)
Parameter:
u8 *mac_addr
: MAC address of target device
u8 *key
: pointer of key, buffer size has to be 16 bytes at least
u8 *key_len
: key length
Return:
0, succeed
> 0, find target device but can’t get key
< 0, fail
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16. esp_now_set_peer_channel
Function:
Record channel information of a ESP-NOW device.
When communicate with this device,
•
call esp_now_get_peer_channel to get its channel first,
•
then call wifi_set_channel to be in the same channel and do
communication.
Prototype:
int esp_now_set_peer_channel(u8 *mac_addr,u8 channel)
Parameter:
u8 *mac_addr : MAC address of target device
u8 channel : channel, usually to be 1 ~ 13, some area may use channel 14
Return:
0, succeed
otherwise, fail
17. esp_now_get_peer_channel
Function:
Get channel information of a ESP-NOW device. ESP-NOW communication needs to
be at the same channel.
Prototype:
int esp_now_get_peer_channel(u8 *mac_addr)
Parameter:
u8 *mac_addr
: MAC address of target device
Return:
1 ~ 13 (some area may get 14), succeed
otherwise, fail
18. esp_now_is_peer_exist
Function:
Check if target device exists or not.
Prototype:
int esp_now_is_peer_exist(u8 *mac_addr)
Parameter:
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: MAC address of target device
Return:
0, device does not exist
< 0, error occur, check fail
> 0, device exists
19. esp_now_fetch_peer
Function:
Get MAC address of ESP-NOW device which is pointed now, and move the pointer
to next one in ESP-NOW MAC list or move the pointer to the first one in ESPNOW MAC list
Note:
•
This API can not re-entry
•
Parameter has to be true when you call it the first time.
Prototype:
u8 *esp_now_fetch_peer(bool restart)
Parameter:
bool restart
: true, move pointer to the first one in ESP-NOW MAC list
false, move pointer to the next one in ESP-NOW MAC list
Return:
NULL, no ESP-NOW devices exist
Otherwise, MAC address of ESP-NOW device which is pointed now
20. esp_now_get_cnt_info
Function:
Get the total number of ESP-NOW devices which are associated, and the number
count of encrypted devices.
Prototype:
int esp_now_get_cnt_info(u8 *all_cnt, u8 *encryp_cnt)
Parameter:
u8 *all_cnt
: total number of ESP-NOW devices which are associated
u8 *encryp_cnt
: number count of encrypted devices
Return:
0, succeed
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otherwise, fail
21. esp_now_set_kok
Function:
Set the encrypt key of communication key. All ESP-NOW devices share the same
encrypt key. If users do not set the encrypt key, ESP-NOW communication key
will be encrypted by a default key.
Prototype:
int esp_now_set_kok(u8 *key, u8 len)
Parameter:
u8 *key
: pointer of encrypt key
u8 len
: key length, has to be 16 bytes now
Return:
0, succeed
otherwise, fail
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3.7.
1.
ESP8266 SDK Programming Guide
!
Upgrade (FOTA) APIs
system_upgrade_userbin_check
Function:
Checks user bin
Prototype:
uint8 system_upgrade_userbin_check()
Parameter:
none
Return:
0x00 : UPGRADE_FW_BIN1, i.e. user1.bin
0x01 : UPGRADE_FW_BIN2, i.e. user2.bin
2.
system_upgrade_flag_set
Function:
Sets upgrade status flag.
Note:
If you using system_upgrade_start to upgrade, this API need not be called.
If you using spi_flash_write to upgrade firmware yourself, this flag need to
be set to UPGRADE_FLAG_FINISH, then call system_upgrade_reboot to reboot to
run new firmware.
Prototype:
void system_upgrade_flag_set(uint8 flag)
Parameter:
uint8 flag:
#define UPGRADE_FLAG_IDLE
0x00
#define UPGRADE_FLAG_START
0x01
#define UPGRADE_FLAG_FINISH
0x02
Return:
null
3.
system_upgrade_flag_check
Function:
Gets upgrade status flag.
Prototype:
uint8 system_upgrade_flag_check()
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Parameter:
null
Return:
4.
#define UPGRADE_FLAG_IDLE
0x00
#define UPGRADE_FLAG_START
0x01
#define UPGRADE_FLAG_FINISH
0x02
system_upgrade_start
Function:
Configures parameters and start upgrade
Prototype:
bool system_upgrade_start (struct upgrade_server_info *server)
Parameters:
struct upgrade_server_info *server : server related parameters
Return:
true: start upgrade
false: upgrade can’t be started.
5.
system_upgrade_reboot
Function: reboot system and use new version
Prototype:
void system_upgrade_reboot (void)
Parameters:
none
Return:
none
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3.8.
1.
ESP8266 SDK Programming Guide
!
Sniffer Related APIs
wifi_promiscuous_enable
Function:
Enable promiscuous mode for sniffer
Note:
(1)promiscuous mode can only be enabled in station mode.
(2)During promiscuous mode(sniffer),ESP8266 station and soft-AP are disabled.
(3)Before enable promiscuous mode,please call wifi_station_disconnect first
(4)Don’t call any other APIs during sniffer,please call
wifi_promiscuous_enable(0) first.
Prototype:
void wifi_promiscuous_enable(uint8 promiscuous)
Parameter:
uint8 promiscuous :
0: disable promiscuous;
1: enable promiscuous
Return:
null
2.
wifi_promiscuous_set_mac
Function:
Set MAC address filter for sniffer.
Note:
This filter only be available in the current sniffer phase, if you disable
sniffer and then enable sniffer, you need to set filter again if you need
it.
Prototype:
void wifi_promiscuous_set_mac(const uint8_t *address)
Parameter:
const uint8_t *address :
MAC address
Return:
null
Example:
char ap_mac[6] = {0x16, 0x34, 0x56, 0x78, 0x90, 0xab};
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wifi_promiscuous_set_mac(ap_mac);
3.
wifi_set_promiscuous_rx_cb
Function:
Registers an RX callback function in promiscuous mode, which will be called
when data packet is received.
Prototype:
void wifi_set_promiscuous_rx_cb(wifi_promiscuous_cb_t cb)
Parameter:
wifi_promiscuous_cb_t cb : callback
Return:
null
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3.9.
ESP8266 SDK Programming Guide
!
smart config APIs
Herein we only introduce smart-config APIs,users can inquire Espressif Systems for smart-config
documentation which will contain more details. Please make sure the target AP is enabled before
enable smart-config.
1.
smartconfig_start
Function:
Start smart configuration mode, to connect ESP8266 station to AP, by
sniffing for special packets from the air, containing SSID and password of
desired AP. You need to broadcast the SSID and password (e.g. from mobile
device or computer) with the SSID and password encoded.
Note:
(1)This api can only be called in station mode.
(2)During smart-config,ESP8266 station and soft-AP are disabled.
(3)Can not call smartconfig_start twice before it finish,please call
smartconfig_stop first.
(4)Don’t call any other APIs during smart-config, please call smartconfig_stop
first.
Structure:
typedef enum
{
SC_STATUS_WAIT = 0,
// Please don’t start connection in this phase
SC_STATUS_FIND_CHANNEL,
// Start connection by APP in this phase
SC_STATUS_GETTING_SSID_PSWD,
SC_STATUS_LINK,
SC_STATUS_LINK_OVER,
// Got IP, connect to AP successfully
} sc_status;
typedef enum
{
SC_TYPE_ESPTOUCH = 0,
SC_TYPE_AIRKISS,
} sc_type;
Prototype:
bool smartconfig_start(
sc_callback_t cb,
uint8 log
)
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Parameter:
sc_callback_t cb :
smart config callback; executed when smart-config status
changed;
parameter status of this callback shows the status of smart-config:
•
if status ==
SC_STATUS_GETTING_SSID_PSWD, parameter void *pdata is a
pointer of sc_type, means smart-config type: AirKiss or ESP-TOUCH.
•
if status ==
SC_STATUS_LINK, parameter void *pdata is a pointer of
struct station_config;
•
if status == SC_STATUS_LINK_OVER, parameter void *pdata is a pointer of
mobile phone’s IP address, 4 bytes. This is only available in
ESPTOUCH, otherwise, it is NULL.
•
otherwise, parameter void *pdata is NULL.
uint8 log : 1: UART output logs; otherwise: UART only outputs the result.
Return:
true:
succeed
false: fail
Example:
void ICACHE_FLASH_ATTR
smartconfig_done(sc_status status, void *pdata)
{
switch(status) {
case SC_STATUS_WAIT:
os_printf("SC_STATUS_WAIT\n");
break;
case SC_STATUS_FIND_CHANNEL:
os_printf("SC_STATUS_FIND_CHANNEL\n");
break;
case SC_STATUS_GETTING_SSID_PSWD:
os_printf("SC_STATUS_GETTING_SSID_PSWD\n");
sc_type *type = pdata;
if (*type == SC_TYPE_ESPTOUCH) {
os_printf("SC_TYPE:SC_TYPE_ESPTOUCH\n");
} else {
os_printf("SC_TYPE:SC_TYPE_AIRKISS\n");
}
break;
case SC_STATUS_LINK:
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os_printf("SC_STATUS_LINK\n");
struct station_config *sta_conf = pdata;
wifi_station_set_config(sta_conf);
wifi_station_disconnect();
wifi_station_connect();
break;
case SC_STATUS_LINK_OVER:
os_printf("SC_STATUS_LINK_OVER\n");
if (pdata != NULL) {
uint8 phone_ip[4] = {0};
memcpy(phone_ip, (uint8*)pdata, 4);
os_printf("Phone ip: %d.%d.%d.%d
\n",phone_ip[0],phone_ip[1],phone_ip[2],phone_ip[3]);
}
smartconfig_stop();
break;
}
}
smartconfig_start(smartconfig_done);
2.
smartconfig_stop
Function:
stop smart config, free the buffer taken by smartconfig_start.
Note:
Whether connect to AP succeed or not, this API should be called to free
memory taken by smartconfig_start.
Prototype:
bool smartconfig_stop(void)
Parameter:
null
Return:
true:
succeed
false: fail
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3.10.
1.
ESP8266 SDK Programming Guide
!
SNTP APIs
sntp_setserver
Function:
Set SNTP server by IP address, support 3 SNTP server at most
Prototype:
void sntp_setserver(unsigned char idx, ip_addr_t *addr)
Parameter:
unsigned char idx
:
SNTP server index, support 3 SNTP server at most(0 ~
2);index 0 is the main server,index 1 and 2 are as backup.
ip_addr_t *addr :
IP address; users need to ensure that it’s a SNTP server
Return:
none
2.
sntp_getserver
Function:
Get IP address of SNTP server which set by sntp_setserver
Prototype:
ip_addr_t sntp_getserver(unsigned char idx)
Parameter:
unsigned char idx : SNTP server index, support 3 SNTP server at most(0 ~ 2)
Return:
IP address
3.
sntp_setservername
Function:
Set SNTP server by domain name, support 3 SNTP server at most
Prototype:
void sntp_setservername(unsigned char idx, char *server)
Parameter:
unsigned char idx
:
SNTP server index, support 3 SNTP server at most(0 ~
2);index 0 is the main server,index 1 and 2 are as backup.
char *server :
domain name; users need to ensure that it’s a SNTP server
Return:
none
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4.
ESP8266 SDK Programming Guide
!
sntp_getservername
Function:
Get domain name of SNTP server which set by sntp_setservername
Prototype:
char * sntp_getservername(unsigned char idx)
Parameter:
unsigned char idx : SNTP server index, support 3 SNTP server at most(0 ~ 2)
Return:
domain name
5.
sntp_init
Function:
SNTP initialize
Prototype:
void sntp_init(void)
Parameter:
none
Return:
none
6.
sntp_stop
Function:
Stop SNTP
Prototype:
void sntp_stop(void)
Parameter:
none
Return:
none
7.
sntp_get_current_timestamp
Function:
Get current timestamp from basic time(1970.01.01 00:00:00 GMT + 8),
uint:second
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Prototype:
uint32 sntp_get_current_timestamp()
Parameter:
none
Return:
time stamp
8.
sntp_get_real_time
Function:
Get real time(GMT + 8)
Prototype:
char* sntp_get_real_time(long t)
Parameter:
long t - time stamp
Return:
real time
9.
sntp_set_timezone
Function:
Set time zone
Prototype:
bool sntp_set_timezone (sint8 timezone)
Note:
Before call sntp_set_timezone, please call sntp_stop first
Parameter:
sint8 timezone – time zone,range:-11 ~ 13
Return:
true,succeed;
false,fail
Example:
sntp_stop();
if( true == sntp_set_timezone(-5) ) {
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sntp_init();
}
10. sntp_get_timezone
Function:
Get time zone
Prototype:
sint8 sntp_get_timezone (void)
Parameter:
none
Return:
time zone,range:-11 ~ 13
11. SNTP Example
ip_addr_t *addr = (ip_addr_t *)os_zalloc(sizeof(ip_addr_t));
sntp_setservername(0, ”us.pool.ntp.org”); // set server 0 by domain name
sntp_setservername(1, ”ntp.sjtu.edu.cn”); // set server 1 by domain name
ipaddr_aton(“210.72.145.44”, addr);
sntp_setserver(2, addr); // set server 2 by IP address
sntp_init();
os_free(addr);
uint32 current_stamp;
current_stamp = sntp_get_current_timestamp();
os_printf(“sntp: %d, %s \n”,current_stamp, sntp_get_real_time(current_stamp));
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4.
Espressif Systems
ESP8266 SDK Programming Guide
!
TCP/UDP APIs
Found in esp_iot_sdk/include/espconn.h. The network APIs can be grouped into the following
types:
•
General APIs: APIs can be used for both TCP and UDP .
•
TCP APIs: APIs that are only used for TCP.
•
UDP APIs: APIs that are only used for UDP.
•
mDNS APIs:APIs that related to mDNS.
4.1.
1.
Generic TCP/UDP APIs
espconn_delete
Function:
Delete a transmission.
Note:
Corresponding creation API :
TCP: espconn_accept,
UDP: espconn_create
Prototype:
sint8 espconn_delete(struct espconn *espconn)
Parameter:
struct espconn *espconn : corresponding connected control block structure
Return:
0
: succeed
Non-0
: error, return error code ESPCONN_ARG - illegal argument, can’t find
network transmission according to structure espconn
2.
espconn_gethostbyname
Function:
DNS
Prototype:
err_t espconn_gethostbyname(
struct espconn *pespconn,
const char *hostname,
ip_addr_t *addr,
dns_found_callback found
)
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Parameters:
struct espconn *espconn
: corresponding connected control block structure
const char *hostname
: domain name string pointer
ip_addr_t *addr
: IP address
dns_found_callback found : callback
Return:
err_t : ESPCONN_OK - succeed
ESPCONN_INPROGRESS - error code : already connected
ESPCONN_ARG - error code : illegal argument, can’t find network
transmission according to structure espconn
Example as follows. Pls refer to source code of IoT_Demo:
ip_addr_t esp_server_ip;
LOCAL void ICACHE_FLASH_ATTR
user_esp_platform_dns_found(const char *name, ip_addr_t *ipaddr, void *arg)
{
struct espconn *pespconn = (struct espconn *)arg;
if (ipaddr != NULL)
os_printf(user_esp_platform_dns_found %d.%d.%d.%d/n,
*((uint8 *)&ipaddr->addr), *((uint8 *)&ipaddr->addr + 1),
*((uint8 *)&ipaddr->addr + 2), *((uint8 *)&ipaddr->addr + 3));
}
void dns_test(void) {
espconn_gethostbyname(pespconn,“iot.espressif.cn”, &esp_server_ip,
user_esp_platform_dns_found);
}
3.
espconn_port
Function: get void ports
Prototype:
uint32 espconn_port(void)
Parameter:
null
Return:
uint32 : id of the port you get
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4.
ESP8266 SDK Programming Guide
!
espconn_regist_sentcb
Function:
Register data sent function which will be called back when data are
successfully sent.
Prototype:
sint8 espconn_regist_sentcb(
struct espconn *espconn,
espconn_sent_callback sent_cb
)
Parameters:
struct espconn *espconn : corresponding connected control block structure
espconn_sent_callback sent_cb : registered callback function
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find network
transmission according to structure espconn
5.
espconn_regist_recvcb
Function:
register data receive function which will be called back when data are
received
Prototype:
sint8 espconn_regist_recvcb(
struct espconn *espconn,
espconn_recv_callback recv_cb
)
Parameters:
struct espconn *espconn : corresponding connected control block structure
espconn_connect_callback connect_cb : registered callback function
Return:
0
Non-0
: succeed
: error code ESPCONN_ARG - illegal argument,can’t find network
transmission according to structure espconn
6.
espconn_sent_callback
Function:
Callback after the data are sent
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Prototype:
void espconn_sent_callback (void *arg)
Parameters:
void *arg : pointer corresponding structure espconn. This pointer may be
different in different callbacks, please don’t use this pointer directly to
distinguish one from another in multiple connections, use remote_ip and
remote_port in espconn instead.
Return:
null
7.
espconn_recv_callback
Function:
callback after data are received
Prototype:
void espconn_recv_callback (
void *arg,
char *pdata,
unsigned short len
)
Parameters:
void *arg : pointer corresponding structure espconn. This pointer may be
different in different callbacks, please don’t use this pointer directly to
distinguish one from another in multiple connections, use remote_ip and
remote_port in espconn instead.
char *pdata : received data entry parameters
unsigned short len : received data length
Return:
null
8.
espconn_send
Function:
Send data through Wi-Fi
Note:
Please call espconn_send after espconn_sent_callback of the pre-packet.
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Prototype:
sint8 espconn_send(
struct espconn *espconn,
uint8 *psent,
uint16 length
)
Parameters:
struct espconn *espconn : corresponding connected control block structure
uint8 *psent
: sent data pointer
uint16 length
: sent data length
Return:
0
: succeed
Non-0
: error code
ESPCONN_MEM - Out of memory
ESPCONN_ARG - illegal argument,can’t find network transmission according
to structure espconn
9.
espconn_sent
[@deprecated] This API is deprecated, please use espconn_send instead.
Function:
Send data through WiFi
Note:
Please call espconn_sent after espconn_sent_callback of the pre-packet.
Prototype:
sint8 espconn_sent(
struct espconn *espconn,
uint8 *psent,
uint16 length
)
Parameters:
struct espconn *espconn : corresponding connected control block structure
uint8 *psent
: sent data pointer
uint16 length
: sent data length
Return:
0
: succeed
Non-0
: error code
ESPCONN_MEM - Out of memory
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ESPCONN_ARG - illegal argument,can’t find network transmission according
to structure espconn
4.2.
TCP APIs
TCP APIs act only on TCP connections and do not affect nor apply to UDP connections.
1.
espconn_accept
Function:
Creates a TCP server (i.e. accepts connections.)
Prototype:
sint8 espconn_accept(struct espconn *espconn)
Parameter:
struct espconn *espconn : corresponding connected control block structure
Return:
0
: succeed
Non-0
: error code
ESPCONN_MEM - Out of memory
ESPCONN_ISCONN - Already connected
ESPCONN_ARG - illegal argument,can’t find TCP connection according to
structure espconn
2.
espconn_secure_accept
Function:
Creates an SSL TCP server.
Note:
(1) Only created one SSL server is allowed,this API can be called only once,
and only one SSL client is allowed to connect.
(2) If SSL encrypted packet size is larger than ESP8266 SSL buffer size
(default 2KB, set by espconn_secure_set_size), SSL connection will fail,
will enter espconn_reconnect_callback
(3) SSL related APIs named as espconn_secure_XXX are different from normal TCP
APIs, so please don’t mixed use. In SSL connection, only espconn_secure_XXX
APIs, espconn_regist_XXX APIs and espconn_port can be used.
Prototype:
sint8 espconn_secure_accept(struct espconn *espconn)
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Parameter:
struct espconn *espconn : corresponding connected control block structure
Return:
0
:
succeed
Non-0
: error code
ESPCONN_MEM - Out of memory
ESPCONN_ISCONN - Already connected
ESPCONN_ARG - illegal argument,can’t find TCP connection according to
structure espconn
3.
espconn_regist_time
Function:
Register timeout interval of ESP8266 TCP server.
Note:
Call this API after espconn_accept, before listened a TCP connection.
This timeout interval is not very precise, only as reference.
If timeout is set to 0, timeout will be disable and ESP8266 TCP server will
not disconnect TCP clients has stopped communication. This usage of
timeout=0, is deprecated.
Prototype:
sint8 espconn_regist_time(
struct espconn *espconn,
uint32 interval,
uint8 type_flag
)
Parameters:
struct espconn *espconn : corresponding connected control block structure
uint32 interval : timeout interval, unit: second, maximum: 7200 seconds
uint8 type_flag : 0, set all connections; 1, set a single connection
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find TCP
connection according to structure espconn
4.
espconn_get_connection_info
Function:
Get a connection’s info in TCP multi-connection case
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Prototype:
sint8 espconn_get_connection_info(
struct espconn *espconn,
remot_info **pcon_info,
uint8 typeflags
)
Parameters:
struct espconn *espconn : corresponding connected control block structure
remot_info **pcon_info
: connect to client info
uint8 typeflags
: 0, regular server;1, ssl server
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find TCP
connection according to structure espconn
5.
espconn_connect
Function:
Connect to a TCP server (ESP8266 acting as TCP client).
Note:
If espconn_connect fail, returns non-0 value, there is no connection, so it
won’t enter any espconn callback.
Prototype:
sint8 espconn_connect(struct espconn *espconn)
Parameters:
struct espconn *espconn : corresponding connected control block structure
Return:
0
: succeed
Non-0
: error code
ESPCONN_RTE - Routing Problem
ESPCONN_MEM - Out of memory
ESPCONN_ISCONN - Already connected
ESPCONN_ARG - illegal argument,can’t find TCP connection according to
structure espconn
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6.
ESP8266 SDK Programming Guide
!
espconn_connect_callback
Function: successful listening (ESP8266 as TCP server) or connection (ESP8266
as TCP client) callback, register by espconn_regist_connectcb
Prototype:
void espconn_connect_callback (void *arg)
Parameter:
void *arg : pointer corresponding structure espconn. This pointer may be
different in different callbacks, please don’t use this pointer directly to
distinguish one from another in multiple connections, use remote_ip and
remote_port in espconn instead.
Return:
null
7.
espconn_regist_connectcb
Function:
Register connection function which will be called back under successful TCP
connection
Prototype:
sint8 espconn_regist_connectcb(
struct espconn *espconn,
espconn_connect_callback connect_cb
)
Parameters:
struct espconn *espconn : corresponding connected control block structure
espconn_connect_callback connect_cb : registered callback function
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find TCP
connection according to structure espconn
8.
espconn_set_opt
Function: Set option of TCP connection
Prototype:
sint8 espconn_set_opt( struct espconn *espconn, uint8 opt)
Structure:
enum espconn_option{
ESPCONN_START = 0x00,
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ESPCONN_REUSEADDR = 0x01,
ESPCONN_NODELAY = 0x02,
ESPCONN_COPY = 0x04,
ESPCONN_KEEPALIVE = 0x08,
ESPCONN_END
}
Parameter:
struct espconn *espconn : corresponding connected control structure
uint8 opt : Option of TCP connection, refer to espconn_option
bit 0: 1: free memory after TCP disconnection happen need not wait 2
minutes;
bit 1: 1: disable nagle algorithm during TCP data transmission, quiken the
data transmission.
bit 2: 1: enable espconn_regist_write_finish, enter write finish callback
means the data espconn_sent sending was written into 2920 bytes write-buffer
waiting for sending or already sent.
bit 3: 1: enable TCP keep alive
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find TCP
connection according to structure espconn
Note:
In general, we need not call this API;
If call espconn_set_opt, please call it in espconn_connect_callback.
9.
espconn_clear_opt
Function:
Clear option of TCP connection.
Prototype:
sint8 espconn_clear_opt(
struct espconn *espconn,
uint8 opt
)
Structure:
enum espconn_option{
ESPCONN_START = 0x00,
ESPCONN_REUSEADDR = 0x01,
ESPCONN_NODELAY = 0x02,
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ESPCONN_COPY = 0x04,
ESPCONN_KEEPALIVE = 0x08,
ESPCONN_END
}
Parameters:
struct espconn *espconn : corresponding connected control block structure
uint8 opt : option of TCP connection,refer to espconn_option
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find TCP
connection according to structure espconn
10. espconn_set_keepalive
Function:
Set configuration of TCP keep alive .
Prototype:
sint8 espconn_set_keepalive(struct espconn *espconn, uint8 level, void*
optarg)
Structure:
enum espconn_level{
ESPCONN_KEEPIDLE,
ESPCONN_KEEPINTVL,
ESPCONN_KEEPCNT
}
Parameters:
struct espconn *espconn : corresponding connected control block structure
uint8 level : Default to do TCP keep-alive detection every ESPCONN_KEEPIDLE,
if there in no response, retry ESPCONN_KEEPCNT times every
ESPCONN_KEEPINTVL. If still no response, considers it as TCP connection
broke, goes into espconn_reconnect_callback.
Notice, keep alive interval is not precise, only for reference, it depends
on priority.
Description:
ESPCONN_KEEPIDLE - TCP keep-alive interval, unit:500 millisecond
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ESPCONN_KEEPINTVL - packet interval during TCP keep-alive, unit:500
millisecond
ESPCONN_KEEPCNT - maximum packet count of TCP keep-alive
void* optarg :value of parameter
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument, can’t find TCP
connection according to structure espconn
Note:
In general, we need not call this API;
If needed, please call it in espconn_connect_callback and call
espconn_set_opt to enable keep alive first.
11. espconn_get_keepalive
Function:
Get value of TCP keep-alive parameter
Prototype:
sint8 espconn_set_keepalive(struct espconn *espconn, uint8 level, void*
optarg)
Structure:
enum espconn_level{
ESPCONN_KEEPIDLE,
ESPCONN_KEEPINTVL,
ESPCONN_KEEPCNT
}
Parameter:
struct espconn *espconn : corresponding connected control block structure
uint8 level :
ESPCONN_KEEPIDLE - TCP keep-alive interval, unit:500 millisecond
ESPCONN_KEEPINTVL - packet interval during TCP keep-alive, unit:500
millisecond
ESPCONN_KEEPCNT - maximum packet count of TCP keep-alive
void* optarg :value of parameter
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Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument, can’t find TCP
connection according to structure espconn
12. espconn_reconnect_callback
Function:
Enter this callback when error occurred, TCP connection broke. This callback
is registered by espconn_regist_reconcb
Prototype:
void espconn_reconnect_callback (void *arg, sint8 err)
Parameter:
void *arg : pointer corresponding structure espconn. This pointer may be
different in different callbacks, please do not use this pointer directly to
distinguish one from another in multiple connections, use remote_ip and
remote_port in espconn instead.
sint8 err : error code
ESCONN_TIMEOUT - Timeout
ESPCONN_ABRT - TCP connection aborted
ESPCONN_RST - TCP connection abort
ESPCONN_CLSD - TCP connection closed
ESPCONN_CONN - TCP connection
ESPCONN_HANDSHAKE - TCP SSL handshake fail
ESPCONN_PROTO_MSG - SSL application invalid
Return:
none
13. espconn_regist_reconcb
Function:
Register reconnect callback
Note:
espconn_reconnect_callback is more like a network-broken error handler; it
handles errors that occurs in any phase of the connection. For instance, if
espconn_send fails, espconn_reconnect_callback will be called because the
network is broken.
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Prototype:
sint8 espconn_regist_reconcb(
struct espconn *espconn,
espconn_reconnect_callback recon_cb
)
Parameters:
struct espconn *espconn : corresponding connected control block structure
espconn_reconnect_callback recon_cb : registered callback function
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument, can’t find TCP
connection according to structure espconn
14. espconn_disconnect
Function:
Disconnect a TCP connection
Note:
Don’t call this API in any espconn callback. If needed, please use
system_os_task and system_os_post to trigger espconn_disconnect
Prototype:
sint8 espconn_disconnect(struct espconn *espconn)
Parameters:
struct espconn *espconn : corresponding connected control structure
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find TCP
connection according to structure espconn
15. espconn_regist_disconcb
Function:
Register disconnection function which will be called back under successful
TCP disconnection
Prototype:
sint8 espconn_regist_disconcb(
struct espconn *espconn,
espconn_connect_callback discon_cb
)
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Parameters:
struct espconn *espconn : corresponding connected control block structure
espconn_connect_callback connect_cb : registered callback function
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find TCP
connection according to structure espconn
16. espconn_regist_write_finish
Function:
Register a callback which will be called when all sending data is completely
write into write buffer or sent. Need to call espconn_set_opt to enable
write-buffer first.
Note:
write-buffer is used to keep TCP data that waiting to be sent, users can
enable it by using espconn_set_opt. Users can call espconn_send to send the
next packet in write_finish_callback instead of using espconn_sent_callback.
Prototype:
sint8 espconn_regist_write_finish (
struct espconn *espconn,
espconn_connect_callback write_finish_fn
)
Parameters:
struct espconn *espconn
:
corresponding connected control block structure
espconn_connect_callback write_finish_fn :
registered callback function
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find TCP
connection according to structure espconn
17. espconn_secure_set_size
Function:
Set buffer size of encrypted data (SSL)
Note:
Buffer size default to be 2Kbytes. If need to change, please call this API
before espconn_secure_accept (ESP8266 as TCP SSL server) or
espconn_secure_connect (ESP8266 as TCP SSL client)
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Prototype:
bool espconn_secure_set_size (uint8 level, uint16 size)
Parameters:
uint8 level : set buffer for ESP8266 SSL server/client:
0x01
SSL client;
0x02
SSL server;
0x03
both SSL client and SSL server
uint16 size : buffer size,range:1 ~ 8192,unit:byte,default to be 2048
Return:
true
: succeed
false
: fail
18. espconn_secure_get_size
Function:
Get buffer size of encrypted data (SSL)
Prototype:
sint16 espconn_secure_get_size (uint8 level)
Parameters:
uint8 level : buffer for ESP8266 SSL server/client:
0x01
SSL client;
0x02
SSL server;
0x03
both SSL client and SSL server
Return:
buffer size
19. espconn_secure_connect
Function:
Secure connect (SSL) to a TCP server (ESP8266 is acting as TCP client.)
Note:
•
If espconn_connect fails, returns non-0 value, it is not connected and
therefore will not enter any espconn callback.
•
Only one connection is allowed when the ESP8266 acts as a SSL client,
this API can be called only once, or call espconn_secure_disconnect to
disconnect first, then call this API to create another SSL connection.
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If SSL encrypted packet size is larger than the ESP8266 SSL buffer size
(default 2KB, set by espconn_secure_set_size), the SSL connection will
fail, will enter espconn_reconnect_callback
•
SSL related APIs named as espconn_secure_XXX are different from normal
TCP APIs, so please don’t mixed use. In SSL connection, only
espconn_secure_XXX
APIs, espconn_regist_XXX APIs and espconn_port can
be used.
Prototype:
sint8 espconn_secure_connect (struct espconn *espconn)
Parameters:
struct espconn *espconn : corresponding connected control block structure
Return:
0
: succeed
Non-0
: error code
ESPCONN_MEM - Out of memory
ESPCONN_ISCONN - Already connected
ESPCONN_ARG - illegal argument,can’t find TCP connection
according to structure espconn
20. espconn_secure_send
Function: send encrypted data (SSL)
Note:
Please call espconn_secure_send after espconn_sent_callback of the pre-packet.
Prototype:
sint8 espconn_secure_send (
struct espconn *espconn,
uint8 *psent,
uint16 length
)
Parameters:
struct espconn *espconn : corresponding connected control block structure
uint8 *psent : sent data pointer
uint16 length : sent data length
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Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find TCP
connection according to structure espconn
21. espconn_secure_sent
[@deprecated] This API is deprecated, please use espconn_secure_send instead.
Function: send encrypted data (SSL)
Note:
Please call espconn_secure_sent after espconn_sent_callback of the pre-packet.
Prototype:
sint8 espconn_secure_sent (
struct espconn *espconn,
uint8 *psent,
uint16 length
)
Parameters:
struct espconn *espconn : corresponding connected control block structure
uint8 *psent : sent data pointer
uint16 length : sent data length
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find TCP
connection according to structure espconn
22. espconn_secure_disconnect
Function: secure TCP disconnection(SSL)
Note:
Do not call this API in any espconn callback. If needed, please use
system_os_task and system_os_post to trigger espconn_secure_disconnect
Prototype:
sint8 espconn_secure_disconnect(struct espconn *espconn)
Parameters:
struct espconn *espconn : corresponding connected control block structure
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Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find TCP
connection according to structure espconn
23. espconn_secure_ca_disable
Function:
Disable SSL CA (certificate authenticate) function
Note:
•
CA function is disabled by default, more details in document
“ESP8266__SDK__SSL_User_Manual”
•
If user wants to call this API, please call it before
espconn_secure_accept (ESP8266 as TCP SSL server) or
espconn_secure_connect (ESP8266 as TCP SSL client)
Prototype:
bool espconn_secure_ca_disable (uint8 level)
Parameter:
uint8 level : set configuration for ESP8266 SSL server/client:
0x01
SSL client;
0x02
SSL server;
0x03
both SSL client and SSL server
Return:
true
: succeed
false
: fail
24. espconn_secure_ca_enable
Function:
Enable SSL CA (certificate authenticate) function
Note:
•
CA function is disabled by default, more details in document
“ESP8266__SDK__SSL_User_Manual”
•
If user want to call this API, please call it before
espconn_secure_accept (ESP8266 as TCP SSL server) or
espconn_secure_connect (ESP8266 as TCP SSL client)
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Prototype:
bool espconn_secure_ca_enable (uint8 level, uint16 flash_sector)
Parameter:
uint8 level : set configuration for ESP8266 SSL server/client:
0x01
SSL client;
0x02
SSL server;
0x03
both SSL client and SSL server
uint16 flash_sector : flash sector in which CA (esp_ca_cert.bin) is
downloaded. For example, flash_sector is 0x3B, then esp_ca_cert.bin need to
download into flash 0x3B000
Return:
true
: succeed
false
: fail
25.
espconn_tcp_get_max_con
Function:
Get maximum number of how many TCP connections are allowed.
Prototype:
uint8 espconn_tcp_get_max_con(void)
Parameter:
null
Return:
Maximum number of how many TCP connections are allowed.
26. espconn_tcp_set_max_con
Function:
Set the maximum number of how many TCP connection is allowed.
Prototype:
sint8 espconn_tcp_set_max_con(uint8 num)
Parameter:
uint8 num :
Maximum number of how many TCP connection is allowed.
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find TCP
connection according to structure espconn
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27. espconn_tcp_get_max_con_allow
Function:
Get the maximum number of TCP clients which are allowed to connect to
ESP8266 TCP server.
Prototype:
sint8 espconn_tcp_get_max_con_allow(struct espconn *espconn)
Parameter:
struct espconn *espconn : corresponding connected control structure
Return:
> 0 : Maximum number of TCP clients which are allowed.
< 0 : error code ESPCONN_ARG - illegal argument,can’t find TCP connection
according to structure espconn
28. espconn_tcp_set_max_con_allow
Function:
Set the maximum number of TCP clients allowed to connect to ESP8266 TCP
server.
Prototype:
sint8 espconn_tcp_set_max_con_allow(struct espconn *espconn, uint8 num)
Parameter:
struct espconn *espconn : corresponding connected control structure
uint8 num : Maximum number of TCP clients which are allowed.
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find TCP
connection according to structure espconn
29. espconn_recv_hold
Function:
Puts in a request to block the TCP receive function.
Note:
The function does not act immediately; we recommend calling it while
reserving 5*1460 bytes of memory.
This API can be called more than once.
Prototype:
sint8 espconn_recv_hold(struct espconn *espconn)
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Parameter:
struct espconn *espconn : corresponding connected control structure
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find TCP
connection according to structure espconn
30. espconn_recv_unhold
Function:
Unblock TCP receiving data (i.e. undo espconn_recv_hold).
Note:
This API takes effect immediately.
Prototype:
sint8 espconn_recv_unhold(struct espconn *espconn)
Parameter:
struct espconn *espconn : corresponding connected control structure
Return:
0
: succeed
Non-0
: error code ESPCONN_ARG - illegal argument,can’t find TCP
connection according to structure espconn
4.3.
1.
UDP APIs
espconn_create
Function: create UDP transmission.
Prototype:
sin8 espconn_create(struct espconn *espconn)
Parameter:
struct espconn *espconn : corresponding connected control block structure
Return:
0
: succeed
Non-0
: error code
ESPCONN_ISCONN - Already connected
ESPCONN_MEM - Out of memory
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ESPCONN_ARG - illegal argument,can’t find UDP transmission according to
structure espconn
2.
espconn_igmp_join
Function:
Join a multicast group
Note:
This API can only be called after the ESP8266 station connects to a router.
Prototype:
sint8 espconn_igmp_join(ip_addr_t *host_ip, ip_addr_t *multicast_ip)
Parameters:
ip_addr_t *host_ip
:
IP of host
ip_addr_t *multicast_ip :
IP of multicast group
Return:
3.
0
: succeed
Non-0
: error code ESPCONN_MEM - Out of memory
espconn_igmp_leave
Function:
Quit a multicast group
Prototype:
sint8 espconn_igmp_leave(ip_addr_t *host_ip, ip_addr_t *multicast_ip)
Parameters:
ip_addr_t *host_ip
: IP of host
ip_addr_t *multicast_ip : IP of multicast group
Return:
4.
0
: succeed
Non-0
: error code ESPCONN_MEM - Out of memory
espconn_dns_setserver
Function:
Set default DNS server. Two DNS server is allowed to be set.
Note:
Only if ESP8266 DHCP client is disabled (wifi_station_dhcpc_stop), this API
can be used.
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Prototype:
void espconn_dns_setserver(char numdns, ip_addr_t *dnsserver)
Parameter:
char numdns
: DNS server ID,0 or 1
ip_addr_t *dnsserver : DNS server IP
Return:
none
4.4.
1.
mDNS APIs
espconn_mdns_init
Function:
mDNS initialization
Note:
•
In soft-AP+station mode, call wifi_set_broadcast_if(STATIONAP_MODE);
first to enable broadcast for both soft-AP and station interface.
•
Using station interface, please obtain IP address of the ESP8266 station
first before calling the API to initialize mDNS;
•
txt_data has to be set as “ key = value ”, as Example;
Structure:
struct mdns_info{
char *host_name;
char *server_name;
uint16 server_port;
unsigned long ipAddr;
char *txt_data[10];
};
Prototype:
void espconn_mdns_init(struct mdns_info *info)
Parameter:
struct mdns_info *info
:
mDNS information
Return:
none
Example:
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struct mdns_info *info = (struct mdns_info *)os_zalloc(sizeof(struct
mdns_info));
info->host_name = “espressif”;
info->ipAddr = station_ipconfig.ip.addr; //ESP8266 station IP
info->server_name = “iot”;
info->server_port = 8080;
info->txt_data[0] = “version = now”;
info->txt_data[1] = “user1 = data1”;
info->txt_data[2] = “user2 = data2”;
espconn_mdns_init(info);
2.
espconn_mdns_close
Function:
close mDNS, corresponding creation API : espconn_mdns_init
Prototype:
void espconn_mdns_close(void)
Parameter:
none
Return:
none
3.
espconn_mdns_server_register
Function:
register mDNS server
Prototype:
void espconn_mdns_server_register(void)
Parameter:
none
Return:
none
4.
espconn_mdns_server_unregister
Function:
unregister mDNS server
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Prototype:
void espconn_mdns_server_unregister(void)
Parameter:
none
Return:
none
5.
espconn_mdns_get_servername
Function:
Get mDNS server name
Prototype:
char* espconn_mdns_get_servername(void)
Parameter:
none
Return:
server name
6.
espconn_mdns_set_servername
Function:
Set mDNS server name
Prototype:
void espconn_mdns_set_servername(const char *name)
Parameter:
const char *name - server name
Return:
none
7.
espconn_mdns_set_hostname
Function:
Set mDNS host name
Prototype:
void espconn_mdns_set_hostname(char *name)
Parameter:
char *name - host name
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Return:
none
8.
espconn_mdns_get_hostname
Function:
Get mDNS host name
Prototype:
char* espconn_mdns_get_hostname(void)
Parameter:
none
Return:
host name
9.
espconn_mdns_disable
Function:
Disable mDNS , corresponding creation API : espconn_mdns_enable
Prototype:
void espconn_mdns_disable(void)
Parameter:
none
Return:
none
10. espconn_mdns_enable
Function:
Enable mDNS
Prototype:
void espconn_mdns_enable(void)
Parameter:
none
Return:
none
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Application Related
5.1.
AT APIs
for AT APIs examples, refer to esp_iot_sdk/examples/at/user/user_main.c.
1.
at_response_ok
Function:
Output OK to AT Port (UART0)
Prototype:
void at_response_ok(void)
Parameter:
null
Return:
null
2.
at_response_error
Function:
output ERROR to AT Port (UART0)
Prototype:
void at_response_error(void)
Parameter:
null
Return:
null
3.
at_cmd_array_regist
Function:
register user-define AT commands.
Can be called only once to register all user-define AT commands.
Prototype:
void at_cmd_array_regist (
at_function * custom_at_cmd_arrar,
uint32 cmd_num
)
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Parameter:
at_function * custom_at_cmd_arrar : Array of user-define AT commands
uint32 cmd_num : Number counts of user-define AT commands
Return:
null
Example:
refer to esp_iot_sdk/examples/at/user/user_main.c
4.
at_get_next_int_dec
Function:
parse int from AT command
Prototype:
bool at_get_next_int_dec (char **p_src,int* result,int* err)
Parameter:
char **p_src : *p_src is the AT command that need to be parsed
int* result
: int number parsed from the AT command
int* err
: 1: no number is found; 3: only ’-’ is found.
Return:
true:
parser succeeds (NOTE: if no number is found, it will return True,
but returns error code 1)
false: parser is unable to parse string; some probable causes are: int
number more than 10 bytes; string contains termination characters '/r';
string contains only '-'.
Example:
refer to esp_iot_sdk/examples/at/user/user_main.c
5.
at_data_str_copy
Function: parse string from AT command
Prototype:
int32 at_data_str_copy (char * p_dest, char ** p_src,int32 max_len)
Parameter:
char * p_dest : string parsed from the AT command
char ** p_src : *p_src is the AT command that need to be parsed
int32 max_len : max string length that allowed
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Return:
length of string:
>=0: succeed and returns the length of the string
<0 : fail and returns -1
Example:
refer to esp_iot_sdk/examples/at/user/user_main.c
6.
at_init
Function:
AT initialize
Prototype:
void at_init (void)
Parameter:
null
Return:
null
Example:
refer to esp_iot_sdk/examples/at/user/user_main.c
7.
at_port_print
Function:
output string to AT PORT(UART0)
Prototype:
void at_port_print(const char *str)
Parameter:
const char *str : string that need to output
Return:
null
Example:
refer to esp_iot_sdk/examples/at/user/user_main.c
8.
at_set_custom_info
Function:
User-define version info of AT which can be got by AT+GMR.
Prototype:
void at_set_custom_info (char *info)
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Parameter:
char *info : version info
Return:
null
9.
at_enter_special_state
Function:
Enter processing state. In processing state, AT core will return busy for
any further AT commands.
Prototype:
void at_enter_special_state (void)
Parameter:
null
Return:
null
10. at_leave_special_state
Function:
Exit from AT processing state.
Prototype:
void at_leave_special_state (void)
Parameter:
null
Return:
null
11. at_get_version
Function:
Get Espressif AT lib version.
Prototype:
uint32 at_get_version (void)
Parameter:
null
Return:
Espressif AT lib version
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12. at_register_uart_rx_intr
Function:
Set UART0 to be used by user or AT commands.
Note:
This API can be called multiple times.
Running AT,UART0 default to be used by AT commands.
Prototype:
void at_register_uart_rx_intr(at_custom_uart_rx_intr rx_func)
Parameter:
at_custom_uart_rx_intr : register a UART0 RX interrupt handler so that
UART0 can be used by the customer, while if it’s NULL, UART0 is assigned to
AT commands.
Return:
null
Example:
void user_uart_rx_intr(uint8* data, int32 len)
{
// UART0 rx for user
os_printf(“len=%d \r\n”,len);
os_printf(data);
// change UART0 for AT
at_register_uart_rx_intr(NULL);
}
void user_init(void){ at_register_uart_rx_intr(user_uart_rx_intr); }
13. at_response
Function:
Set AT response
Note:
at_response outputs from UART0 TX by default which is same as at_port_print.
But if called at_register_response_func, the string of at_response will be
the parameter of response_func, users can define their own behavior.
Prototype:
void at_response (const char *str)
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Parameter:
const char *str : string
Return:
none
14. at_register_response_func
Function:
Register callback of at_response for user-defined responses. After called
at_register_response_func, the string of at_response will be the parameter
of response_func, users can define their own behavior.
Prototype:
void at_register_response_func (at_custom_response_func_type response_func)
Parameter:
at_custom_response_func_type : callback of at_response
Return:
none
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5.2.
ESP8266 SDK Programming Guide
!
Related JSON APIs
Found in : esp_iot_sdk/include/json/jsonparse.h & jsontree.h
1.
jsonparse_setup
Function:
json initialize parsing
Prototype:
void jsonparse_setup(
struct jsonparse_state *state,
const char *json,
int len
)
Parameters:
struct jsonparse_state *state : json parsing pointer
const char *json : json parsing character string
int len : character string length
Return:
null
2.
jsonparse_next
Function:
Returns jsonparse next object
Prototype:
int jsonparse_next(struct jsonparse_state *state)
Parameters:
struct jsonparse_state *state : json parsing pointer
Return:
int : parsing result
3.
jsonparse_copy_value
Function:
Copies current parsing character string to a certain buffer
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Prototype:
int jsonparse_copy_value(
struct jsonparse_state *state,
char *str,
int size
)
Parameters:
struct jsonparse_state *state : json parsing pointer
char *str : buffer pointer
int size : buffer size
Return:
int : copy result
4.
jsonparse_get_value_as_int
Function:
Parses json to get integer
Prototype:
int jsonparse_get_value_as_int(struct jsonparse_state *state)
Parameters:
struct jsonparse_state *state : json parsing pointer
Return:
int : parsing result
5.
jsonparse_get_value_as_long
Function:
Parses json to get long integer
Prototype:
long jsonparse_get_value_as_long(struct jsonparse_state *state)
Parameters:
struct jsonparse_state *state : json parsing pointer
Return:
long : parsing result
6.
jsonparse_get_len
Function:
Gets parsed json length
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Prototype:
int jsonparse_get_value_len(struct jsonparse_state *state)
Parameters:
struct jsonparse_state *state : json parsing pointer
Return:
int : parsed jason length
7.
jsonparse_get_value_as_type
Function:
Parses json data type
Prototype:
int jsonparse_get_value_as_type(struct jsonparse_state *state)
Parameters:
struct jsonparse_state *state : json parsing pointer
Return:
int : parsed json data type
8.
jsonparse_strcmp_value
Function:
Compares parsed json and certain character string
Prototype:
int jsonparse_strcmp_value(struct jsonparse_state *state, const char *str)
Parameters:
struct jsonparse_state *state : json parsing pointer
const char *str : character buffer
Return:
int : comparison result
9.
jsontree_set_up
Function:
Creates json data tree
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Prototype:
void jsontree_setup(
struct jsontree_context *js_ctx,
struct jsontree_value *root,
int (* putchar)(int)
)
Parameters:
struct jsontree_context *js_ctx : json tree element pointer
struct jsontree_value *root : root element pointer
int (* putchar)(int) : input function
Return:
null
10. jsontree_reset
Function:
Resets json tree
Prototype:
void jsontree_reset(struct jsontree_context *js_ctx)
Parameters:
struct jsontree_context *js_ctx : json data tree pointer
Return:
null
11. jsontree_path_name
Function:
get json tree parameters
Prototype:
const char *jsontree_path_name(
const struct jsontree_cotext *js_ctx,
int depth
)
Parameters:
struct jsontree_context *js_ctx : json tree pointer
int depth : json tree depth
Return:
char* : parameter pointer
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12. jsontree_write_int
Function:
write integer to json tree
Prototype:
void jsontree_write_int(
const struct jsontree_context *js_ctx,
int value
)
Parameters:
struct jsontree_context *js_ctx : json tree pointer
int value : integer value
Return:
null
13. jsontree_write_int_array
Function:
Writes integer array to json tree
Prototype:
void jsontree_write_int_array(
const struct jsontree_context *js_ctx,
const int *text,
uint32 length
)
Parameters:
struct jsontree_context *js_ctx : json tree pointer
int *text : array entry address
uint32 length : array length
Return:
null
14. jsontree_write_string
Function:
Writes string to json tree
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Prototype:
void jsontree_write_string(
const struct jsontree_context *js_ctx,
const char *text
)
Parameters:
struct jsontree_context *js_ctx : json tree pointer
const char* text : character string pointer
Return:
null
15. jsontree_print_next
Function:
json tree depth
Prototype:
int jsontree_print_next(struct jsontree_context *js_ctx)
Parameters:
struct jsontree_context *js_ctx : json tree pointer
Return:
int : json tree depth
16. jsontree_find_next
Function:
find json tree element
Prototype:
struct jsontree_value *jsontree_find_next(
struct jsontree_context *js_ctx,
int type
)
Parameters:
struct jsontree_context *js_ctx : json tree pointer
int : type
Return:
struct jsontree_value * : json tree element pointer
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6.
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Definitions & Structures
6.1.
Timer
typedef void ETSTimerFunc(void *timer_arg);
typedef struct _ETSTIMER_ {
struct _ETSTIMER_
*timer_next;
uint32_t
timer_expire;
uint32_t
timer_period;
ETSTimerFunc
*timer_func;
void
*timer_arg;
} ETSTimer;
6.2.
1.
WiFi Related Structures
Station Related
struct station_config {
uint8 ssid[32];
uint8 password[64];
uint8 bssid_set;
uint8 bssid[6];
};
Note:
BSSID as MAC address of AP, will be used when several APs have the same
SSID.
If station_config.bssid_set==1 , station_config.bssid has to be set,
otherwise, the connection will fail.
In general, station_config.bssid_set need to be 0.
2.
soft-AP related
typedef enum _auth_mode {
AUTH_OPEN = 0,
AUTH_WEP,
AUTH_WPA_PSK,
AUTH_WPA2_PSK,
AUTH_WPA_WPA2_PSK
} AUTH_MODE;
struct softap_config {
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uint8 ssid[32];
uint8 password[64];
uint8 ssid_len;
uint8 channel;
// support 1 ~ 13
uint8 authmode;
// Don’t support AUTH_WEP in soft-AP mode
uint8 ssid_hidden;
// default 0
uint8 max_connection;
// default 4, max 4
uint16 beacon_interval;
// 100 ~ 60000 ms, default 100
};
Note:
If softap_config.ssid_len==0, check ssid till a termination character is
found; otherwise, it will depend on softap_config.ssid_len.
3.
scan related
struct scan_config {
uint8 *ssid;
uint8 *bssid;
uint8 channel;
uint8 show_hidden; // Scan APs which are hiding their SSID or not.
};
struct bss_info {
STAILQ_ENTRY(bss_info) next;
u8 bssid[6];
u8 ssid[32];
u8 channel;
s8 rssi;
u8 authmode;
uint8 is_hidden; // SSID of current AP is hidden or not.
sint16 freq_offset; // AP’s frequency offset
};
typedef void (* scan_done_cb_t)(void *arg, STATUS status);
4.
WiFi event related structure
enum {
EVENT_STAMODE_CONNECTED = 0,
EVENT_STAMODE_DISCONNECTED,
EVENT_STAMODE_AUTHMODE_CHANGE,
EVENT_STAMODE_GOT_IP,
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EVENT_SOFTAPMODE_STACONNECTED,
EVENT_SOFTAPMODE_STADISCONNECTED,
EVENT_MAX
};
enum {
REASON_UNSPECIFIED
= 1,
REASON_AUTH_EXPIRE
= 2,
REASON_AUTH_LEAVE
= 3,
REASON_ASSOC_EXPIRE
= 4,
REASON_ASSOC_TOOMANY
= 5,
REASON_NOT_AUTHED
= 6,
REASON_NOT_ASSOCED
= 7,
REASON_ASSOC_LEAVE
= 8,
REASON_ASSOC_NOT_AUTHED
= 9,
REASON_DISASSOC_PWRCAP_BAD
= 10,
/* 11h */
REASON_DISASSOC_SUPCHAN_BAD
= 11,
/* 11h */
REASON_IE_INVALID
= 13,
/* 11i */
REASON_MIC_FAILURE
= 14,
/* 11i */
REASON_4WAY_HANDSHAKE_TIMEOUT
= 15,
/* 11i */
REASON_GROUP_KEY_UPDATE_TIMEOUT = 16,
/* 11i */
REASON_IE_IN_4WAY_DIFFERS
= 17,
/* 11i */
REASON_GROUP_CIPHER_INVALID
= 18,
/* 11i */
REASON_PAIRWISE_CIPHER_INVALID
= 19,
/* 11i */
REASON_AKMP_INVALID
= 20,
/* 11i */
REASON_UNSUPP_RSN_IE_VERSION
= 21,
/* 11i */
REASON_INVALID_RSN_IE_CAP
= 22,
/* 11i */
REASON_802_1X_AUTH_FAILED
= 23,
/* 11i */
REASON_CIPHER_SUITE_REJECTED
= 24,
/* 11i */
REASON_BEACON_TIMEOUT
= 200,
REASON_NO_AP_FOUND
= 201,
};
typedef struct {
uint8 ssid[32];
uint8 ssid_len;
uint8 bssid[6];
uint8 channel;
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} Event_StaMode_Connected_t;
typedef struct {
uint8 ssid[32];
uint8 ssid_len;
uint8 bssid[6];
uint8 reason;
} Event_StaMode_Disconnected_t;
typedef struct {
uint8 old_mode;
uint8 new_mode;
} Event_StaMode_AuthMode_Change_t;
typedef struct {
struct ip_addr ip;
struct ip_addr mask;
struct ip_addr gw;
} Event_StaMode_Got_IP_t;
typedef struct {
uint8 mac[6];
uint8 aid;
} Event_SoftAPMode_StaConnected_t;
typedef struct {
uint8 mac[6];
uint8 aid;
} Event_SoftAPMode_StaDisconnected_t;
typedef union {
Event_StaMode_Connected_t
connected;
Event_StaMode_Disconnected_t
disconnected;
Event_StaMode_AuthMode_Change_t
auth_change;
Event_StaMode_Got_IP_t
got_ip;
Event_SoftAPMode_StaConnected_t
sta_connected;
Event_SoftAPMode_StaDisconnected_t
sta_disconnected;
} Event_Info_u;
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typedef struct _esp_event {
uint32 event;
Event_Info_u event_info;
} System_Event_t;
5.
smart config structure
typedef enum
{
SC_STATUS_WAIT = 0,
// Please don’t start connection in this phase
SC_STATUS_FIND_CHANNEL,
// Start connection by APP in this phase
SC_STATUS_GETTING_SSID_PSWD,
SC_STATUS_LINK,
SC_STATUS_LINK_OVER,
// Got IP, connect to AP successfully
} sc_status;
typedef enum
{
SC_TYPE_ESPTOUCH = 0,
SC_TYPE_AIRKISS,
} sc_type;
6.3.
1.
JSON Related Structure
json structure
struct jsontree_value {
uint8_t type;
};
struct jsontree_pair {
const char *name;
struct jsontree_value *value;
};
struct jsontree_context {
struct jsontree_value *values[JSONTREE_MAX_DEPTH];
uint16_t index[JSONTREE_MAX_DEPTH];
int (* putchar)(int);
uint8_t depth;
uint8_t path;
int callback_state;
};
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struct jsontree_callback {
uint8_t type;
int (* output)(struct jsontree_context *js_ctx);
int (* set)(struct jsontree_context *js_ctx,
struct jsonparse_state *parser);
};
struct jsontree_object {
uint8_t type;
uint8_t count;
struct jsontree_pair *pairs;
};
struct jsontree_array {
uint8_t type;
uint8_t count;
struct jsontree_value **values;
};
struct jsonparse_state {
const char *json;
int pos;
int len;
int depth;
int vstart;
int vlen;
char vtype;
char error;
char stack[JSONPARSE_MAX_DEPTH];
};
2.
json macro definition
#define JSONTREE_OBJECT(name, ...)
/
static struct jsontree_pair jsontree_pair_##name[] = {__VA_ARGS__};
/
static struct jsontree_object name = {
/
JSON_TYPE_OBJECT,
/
sizeof(jsontree_pair_##name)/sizeof(struct jsontree_pair),
/
jsontree_pair_##name }
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#define JSONTREE_PAIR_ARRAY(value) (struct jsontree_value *)(value)
#define JSONTREE_ARRAY(name, ...)
/
static struct jsontree_value* jsontree_value_##name[] = {__VA_ARGS__};
/
static struct jsontree_array name = {
/
JSON_TYPE_ARRAY,
/
sizeof(jsontree_value_##name)/sizeof(struct jsontree_value*),
/
jsontree_value_##name }
6.4.
1.
espconn parameters
callback function
/** callback prototype to inform about events for a espconn */
typedef void (* espconn_recv_callback)(void *arg, char *pdata, unsigned short
len);
typedef void (* espconn_callback)(void *arg, char *pdata, unsigned short len);
typedef void (* espconn_connect_callback)(void *arg);
2.
espconn
typedef void* espconn_handle;
typedef struct _esp_tcp {
int remote_port;
int local_port;
uint8 local_ip[4];
uint8 remote_ip[4];
espconn_connect_callback connect_callback;
espconn_reconnect_callback reconnect_callback;
espconn_connect_callback disconnect_callback;
espconn_connect_callback write_finish_fn;
} esp_tcp;
typedef struct _esp_udp {
int remote_port;
int local_port;
uint8 local_ip[4];
uint8 remote_ip[4];
} esp_udp;
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/** Protocol family and type of the espconn */
enum espconn_type {
ESPCONN_INVALID
= 0,
/* ESPCONN_TCP Group */
ESPCONN_TCP
= 0x10,
/* ESPCONN_UDP Group */
ESPCONN_UDP
= 0x20,
};
/** Current state of the espconn. Non-TCP espconn are always in state
ESPCONN_NONE! */
enum espconn_state {
ESPCONN_NONE,
ESPCONN_WAIT,
ESPCONN_LISTEN,
ESPCONN_CONNECT,
ESPCONN_WRITE,
ESPCONN_READ,
ESPCONN_CLOSE
};
enum espconn_option{
ESPCONN_START = 0x00,
ESPCONN_REUSEADDR = 0x01,
ESPCONN_NODELAY = 0x02,
ESPCONN_COPY = 0x04,
ESPCONN_KEEPALIVE = 0x08,
ESPCONN_END
}
enum espconn_level{
ESPCONN_KEEPIDLE,
ESPCONN_KEEPINTVL,
ESPCONN_KEEPCNT
}
/** A espconn descriptor */
struct espconn {
/** type of the espconn (TCP, UDP) */
enum espconn_type type;
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/** current state of the espconn */
enum espconn_state state;
union {
esp_tcp *tcp;
esp_udp *udp;
} proto;
/** A callback function that is informed about events for this espconn */
espconn_recv_callback recv_callback;
espconn_sent_callback sent_callback;
uint8 link_cnt;
void *reverse; // reversed for customer use
};
6.5.
interrupt related definition
/* interrupt related */
#define ETS_SPI_INUM
2
#define ETS_GPIO_INUM
4
#define ETS_UART_INUM
5
#define ETS_UART1_INUM
5
#define ETS_FRC_TIMER1_INUM
9
/* disable all interrupts */
#define ETS_INTR_LOCK()
ets_intr_lock()
/* enable all interrupts */
#define ETS_INTR_UNLOCK()
ets_intr_unlock()
/* register interrupt handler of frc timer1 */
#define ETS_FRC_TIMER1_INTR_ATTACH(func, arg) \
ets_isr_attach(ETS_FRC_TIMER1_INUM, (func), (void *)(arg))
/* register interrupt handler of GPIO */
#define ETS_GPIO_INTR_ATTACH(func, arg) \
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ets_isr_attach(ETS_GPIO_INUM, (func), (void *)(arg))
/* register interrupt handler of UART */
#define ETS_UART_INTR_ATTACH(func, arg) \
ets_isr_attach(ETS_UART_INUM, (func), (void *)(arg))
/* register interrupt handler of SPI */
#define ETS_SPI_INTR_ATTACH(func, arg) \
ets_isr_attach(ETS_SPI_INUM, (func), (void *)(arg))
/* enable a interrupt */
#define ETS_INTR_ENABLE(inum)
ets_isr_unmask((1<>12)/1000,
((cal1*1000)>>12)%1000 );
os_printf("cal 2
: %d.%d \r\n",((cal2*1000)>>12)/1000,
((cal2*1000)>>12)%1000 );
os_printf("==================\r\n\r\n");
rtc_time.time_acc += (
((uint64)(rtc_t2 - rtc_time.time_base))
( (uint64)((cal2*1000)>>12))
os_printf("rtc time acc
*
) ;
: %lld \r\n",rtc_time.time_acc);
os_printf("power on time :
%lld
us\r\n", rtc_time.time_acc/1000);
os_printf("power on time :
%lld.%02lld
S\r\n", (rtc_time.time_acc/
10000000)/100, (rtc_time.time_acc/10000000)%100);
rtc_time.time_base = rtc_t2;
system_rtc_mem_write(64, &rtc_time, sizeof(rtc_time));
os_printf("------------------------\r\n");
if(5== (cnt++)){
os_printf("system restart\r\n");
system_restart();
}else{
os_printf("continue ...\r\n");
}
}
void user_init(void)
{
rtc_count();
os_printf("SDK version:%s\n", system_get_sdk_version());
os_timer_disarm(&rtc_test_t);
os_timer_setfn(&rtc_test_t,rtc_count,NULL);
os_timer_arm(&rtc_test_t,10000,1);
}
8.3.
Sniffer Structure Introduction
The ESP8266 can enter the promiscuous mode (sniffer) and capture IEEE 802.11 packets in the air.
The following HT20 packet types are supported:
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•
802.11b
•
802.11g
•
802.11n (from MCS0 to MCS7)
•
AMPDU
The following packet types are not supported:
•
HT40
•
LDPC
Although the ESP8266 can not decipher some IEEE80211 packets completely, it can Get the length
of these packets.
Therefore, when in the sniffer mode, the ESP8266 can either (1) completely capture the packets or
(2) Get the length of the packets.
•
•
For packets that ESP8266 can decipher completely, the ESP8266 returns with the
‣
MAC addresses of both communication sides and the encryption type
‣
the length of the entire packet.
For packets that ESP8266 cannot completely decipher, the ESP8266 returns with
‣
the length of the entire packet.
Structure RxControl and sniffer_buf are used to represent these two kinds of packets. Structure
sniffer_buf contains structure RxControl.
struct RxControl {
signed rssi:8;
// signal intensity of packet
unsigned rate:4;
unsigned is_group:1;
unsigned:1;
unsigned sig_mode:2;
// 0:is 11n packet; 1:is not 11n packet;
unsigned legacy_length:12; // if not 11n packet, shows length of packet.
unsigned damatch0:1;
unsigned damatch1:1;
unsigned bssidmatch0:1;
unsigned bssidmatch1:1;
unsigned MCS:7;
// if is 11n packet, shows the modulation
// and code used (range from 0 to 76)
unsigned CWB:1; // if is 11n packet, shows if is HT40 packet or not
unsigned HT_length:16;// if is 11n packet, shows length of packet.
unsigned Smoothing:1;
unsigned Not_Sounding:1;
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unsigned:1;
unsigned Aggregation:1;
unsigned STBC:2;
unsigned FEC_CODING:1; // if is 11n packet, shows if is LDPC packet or not.
unsigned SGI:1;
unsigned rxend_state:8;
unsigned ampdu_cnt:8;
unsigned channel:4; //which channel this packet in.
unsigned:12;
};
struct LenSeq{
u16 len; // length of packet
u16 seq; // serial number of packet, the high 12bits are serial number,
//
low 14 bits are Fragment number (usually be 0)
u8 addr3[6]; // the third address in packet
};
struct sniffer_buf{
struct RxControl rx_ctrl;
u8 buf[36 ]; // head of ieee80211 packet
u16 cnt;
// number count of packet
struct LenSeq lenseq[1];
//length of packet
};
struct sniffer_buf2{
struct RxControl rx_ctrl;
u8 buf[112];
u16 cnt;
u16 len;
//length of packet
};
The callback function wifi_promiscuous_rx contains two parameters ( buf and len). len shows the
length of buf, it can be: len = 128, len = X * 10, len = 12.
LEN == 128
•
buf contains structure sniffer_buf2: it is the management packet, it has 112 bytes of data.
•
sniffer_buf2.cnt is 1.
•
sniffer_buf2.len is the length of the management packet.
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LEN == X * 10
•
buf contains structure sniffer_buf: this structure is reliable, data packets represented by it
have been verified by CRC.
•
sniffer_buf.cnt shows the number of packets in buf. The value of len is decided by
sniffer_buf.cnt.
‣
sniffer_buf.cnt==0, invalid buf; otherwise, len = 50 + cnt * 10
•
sniffer_buf.buf contains the first 36 bytes of IEEE80211 packet. Starting from
sniffer_buf.lenseq[0], each structure lenseq shows the length of a packet. lenseq[0]
shows the length of the first packet. If there are two packets where (sniffer_buf.cnt ==
2), lenseq[1] shows the length of the second packet.
•
If sniffer_buf.cnt > 1, it is a AMPDU packet. Because headers of each MPDU packets are
similar, we only provide the length of each packet (from the header of MAC packet to FCS)
•
This structure contains: length of packet, MAC address of both communication sides, length
of the packet header.
LEN == 12
•
buf contains structure RxControl; but this structure is not reliable. It cannot show the MAC
addresses of both communication sides, or the length of the packet header.
•
It does not show the number or the length of the sub-packets of AMPDU packets.
•
This structure contains: length of the packet, rssi and FEC_CODING.
•
RSSI and FEC_CODING are used to judge whether the packets are from the same device.
Summary
It is recommended that users speed up the processing of individual packets, otherwise, some followup packets may be lost.
Format of an entire IEEE802.11 packet is shown as below.
•
The first 24 bytes of MAC header of the data packet are needed:
‣
Address 4 field is decided by FromDS and ToDS in Frame Control;
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QoS Control field is decided by Subtype in Frame Control;
‣
HT Control field is decided by Order Field in Frame Control;
‣
For more details, refer to IEEE Std 80211-2012.
•
For WEP encrypted packets, the MAC header is followed by an 4-byte IV, and there is a 4byte ICV before the FCS.
•
For TKIP encrypted packets, the MAC header is followed by a 4-byte IV and a 4-byte EIV, and
there are an 8-byte MIC and a 4-byte ICV before the FCS.
•
For CCMP encrypted packets, the MAC header is followed by an 8-byte CCMP header, and
there is an 8-byte MIC before the FCS.
8.4.
ESP8266 soft-AP and station channel configuration
Even though ESP8266 supports the softAP+station mode, it is limited to only one hardware channel.
In the softAP+station mode, the ESP8266 soft-AP will adjust its channel configuration to be same as
the ESP8266 station.
This limitation may cause some inconveniences in the softAP+station mode that users need to pay
special attention to, for example:
Case 1:
(1) When the user connects the ESP8266 to a router (for example, channel 6),
(2) and sets the ESP8266 soft-AP through wifi_softap_set_config,
(3) If the value is effective, the API will return to true. However, the channel will be automatically
adjusted to channel 6 in order to be in line with the ESP8266 station interface. This is because
there is only one hardware channel in this mode.
Case 2:
(1) If the user sets the channel of the ESP8266 soft-AP through wifi_softap_set_config (for
example, channel 5),
(2) other stations will connect to the ESP8266 soft-AP,
(3) then the user connects the ESP8266 station to a router (for example, channel 6),
(4) the ESP8266 softAP will adjust its channel to be as same as the ESP8266 station (which is
channel 6 in this case).
(5) As a result of the change of channel, the station Wi-Fi connected to the ESP8266 soft-AP in
step two will be disconnected.
Case 3:
(1) Other stations are connected to the ESP8266 softAP .
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(2) If the ESP8266‘s station interface has been scanning or trying to connect to a target router, the
ESP8266 softAP-end connection may break.
This is because the ESP8266 station will try to find its target router in different channels, which means
it will keep changing channels, and as a result, the ESP8266 channel is changing, too. Therefore, the
ESP8266 softAP-end connection may break.
In cases like this, users can set a timer to call wifi_station_disconnect to stop the ESP8266 station
from continuously trying to connect to the router. Or use wifi_station_set_reconnect_policy or
wifi_station_set_auto_connect to disable the ESP8266 station from reconnecting to the router.
8.5.
ESP8266 boot messages
ESP8266 outputs boot messages through UART0 with baud rate 74880:
Messages
Description
1: power on
rst cause
2: external reset
4: hardware watchdog-reset
boot mode
(first parameter)
1 :ESP8266 is in UART-down mode (download firmware into Flash)
chksum
If chksum == csum, it means that read Flash correctly during booting.
2 :ESP8266 is in Flash-boot mode (boot up from Flash)
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