/hal_espressif-3.6.0/examples/protocols/http_server/restful_server/front/web-demo/src/views/ |
D | Light.vue | 2 <v-container> 3 <v-layout text-xs-center wrap> 4 <v-flex xs12 sm6 offset-sm3> 5 <v-card> 6 …<v-responsive :style="{ background: `rgb(${red}, ${green}, ${blue})` }" height="300px"></v-respons… 7 <v-card-text> 8 <v-container fluid grid-list-lg> 9 <v-layout row wrap> 10 <v-flex xs9> 11 <v-slider v-model="red" :max="255" label="R"></v-slider> [all …]
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D | Home.vue | 2 <v-container> 3 <v-layout text-xs-center wrap> 4 <v-flex xs12 sm6 offset-sm3> 5 <v-card> 6 <v-img :src="require('../assets/logo.png')" contain height="200"></v-img> 7 <v-card-title primary-title> 13 </v-card-title> 14 </v-card> 15 </v-flex> 16 </v-layout> [all …]
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/hal_espressif-3.6.0/examples/protocols/http_server/restful_server/front/web-demo/src/ |
D | App.vue | 2 <v-app id="inspire"> 3 <v-navigation-drawer v-model="drawer" fixed app clipped> 4 <v-list dense> 5 <v-list-tile to="/"> 6 <v-list-tile-action> 7 <v-icon>home</v-icon> 8 </v-list-tile-action> 9 <v-list-tile-content> 10 <v-list-tile-title>Home</v-list-tile-title> 11 </v-list-tile-content> [all …]
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/hal_espressif-3.6.0/.gitlab/ci/dependencies/ |
D | generate_rules.py | 50 for k, v in _dict.items(): 52 if isinstance(v, dict): 53 v = _format_nested_dict(v, f_tuple) 54 elif isinstance(v, list): 55 v = _format_nested_list(v, f_tuple) 56 elif isinstance(v, str): 57 v = v.format(*f_tuple) 58 res[k.format(*f_tuple)] = v 107 self.cfg = {k: v for k, v in self.full_cfg.items() if not k.startswith('.')} 118 for k, v in self.cfg.items(): [all …]
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/hal_espressif-3.6.0/components/soc/esp32/include/soc/ |
D | boot_mode.h | 21 #define IS_1XXXX(v) (((v)&0x10)==0x10) argument 24 #define IS_010XX(v) (((v)&0x1c)==0x08) argument 27 #define IS_00XXX(v) (((v)&0x18)==0x00) argument 30 #define IS_00X00(v) (((v)&0x1b)==0x00) argument 33 #define IS_00X01(v) (((v)&0x1b)==0x01) argument 36 #define IS_00X10(v) (((v)&0x1b)==0x02) argument 39 #define IS_00X11(v) (((v)&0x1b)==0x03) argument 42 #define IS_01110(v) (((v)&0x1f)==0x0e) argument 45 #define IS_01111(v) (((v)&0x1f)==0x0f) argument 48 #define IS_01100(v) (((v)&0x1f)==0x0c) argument [all …]
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/hal_espressif-3.6.0/docs/zh_CN/api-guides/ |
D | ulp-risc-v.rst | 1 ULP-RISC-V 协处理器编程 9 …V 协处理器是 ULP 的一种变体,用于 ESP32-S2。与 ULP 类似,ULP-RISC-V 协处理器可以在主处理器处于低功耗模式时执行传感器读数等任务。与 ULP-FSM 的主要区别在于,… 11 安装 ULP-RISC-V 工具链 14 ULP-RISC-V 协处理器代码以 C 语言编写(也可能是汇编语言),使用基于 GCC 的 RISC-V 工具链进行编译。 16 如果你已依照 :doc:`快速入门指南 <../../get-started/index>` 中的介绍安装好了 ESP-IDF 及其 CMake 构建系统,那么 ULP-RISC-V 工具链已经被默… 20 编译 ULP-RISC-V 代码 23 要将 ULP-RISC-V 代码编译为某组件的一部分,必须执行以下步骤: 25 1. ULP-RISC-V 代码以 C 语言或汇编语言编写(必须使用 `.S` 扩展名),必须放在组件目录中一个独立的目录中,例如 `ulp/`。 64 访问 ULP-RISC-V 程序变量 67 在 ULP-RISC-V 程序中定义的全局符号也可以在主程序中使用。 [all …]
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/hal_espressif-3.6.0/components/soc/esp32h2/include/soc/ |
D | boot_mode.h | 21 #define IS_1XXX(v) (((v)&0x08)==0x08) argument 24 #define IS_00XX(v) (((v)&0x0c)==0x00) argument 27 #define IS_0000(v) (((v)&0x0f)==0x00) argument 30 #define IS_0001(v) (((v)&0x0f)==0x01) argument 33 #define IS_0010(v) (((v)&0x0f)==0x02) argument 36 #define IS_0011(v) (((v)&0x0f)==0x03) argument 39 #define IS_0100(v) (((v)&0x0f)==0x04) argument 42 #define IS_0101(v) (((v)&0x0f)==0x05) argument 45 #define IS_0110(v) (((v)&0x0f)==0x06) argument 48 #define IS_0111(v) (((v)&0x0f)==0x07) argument
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/hal_espressif-3.6.0/components/soc/esp32s3/include/soc/ |
D | boot_mode.h | 20 #define IS_1XXX(v) (((v)&0x08)==0x08) argument 23 #define IS_00XX(v) (((v)&0x0c)==0x00) argument 26 #define IS_0000(v) (((v)&0x0f)==0x00) argument 29 #define IS_0001(v) (((v)&0x0f)==0x01) argument 32 #define IS_0010(v) (((v)&0x0f)==0x02) argument 35 #define IS_0011(v) (((v)&0x0f)==0x03) argument 38 #define IS_0100(v) (((v)&0x0f)==0x04) argument 41 #define IS_0101(v) (((v)&0x0f)==0x05) argument 44 #define IS_0110(v) (((v)&0x0f)==0x06) argument 47 #define IS_0111(v) (((v)&0x0f)==0x07) argument
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/hal_espressif-3.6.0/components/soc/esp32c3/include/soc/ |
D | boot_mode.h | 21 #define IS_1XXX(v) (((v)&0x08)==0x08) argument 24 #define IS_00XX(v) (((v)&0x0c)==0x00) argument 27 #define IS_0000(v) (((v)&0x0f)==0x00) argument 30 #define IS_0001(v) (((v)&0x0f)==0x01) argument 33 #define IS_0010(v) (((v)&0x0f)==0x02) argument 36 #define IS_0011(v) (((v)&0x0f)==0x03) argument 39 #define IS_0100(v) (((v)&0x0f)==0x04) argument 42 #define IS_0101(v) (((v)&0x0f)==0x05) argument 45 #define IS_0110(v) (((v)&0x0f)==0x06) argument 48 #define IS_0111(v) (((v)&0x0f)==0x07) argument
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/hal_espressif-3.6.0/components/soc/esp32s2/include/soc/ |
D | boot_mode.h | 21 #define IS_1XXX(v) (((v)&0x08)==0x08) argument 24 #define IS_00XX(v) (((v)&0x0c)==0x00) argument 27 #define IS_0000(v) (((v)&0x0f)==0x00) argument 30 #define IS_0001(v) (((v)&0x0f)==0x01) argument 33 #define IS_0010(v) (((v)&0x0f)==0x02) argument 36 #define IS_0011(v) (((v)&0x0f)==0x03) argument 39 #define IS_0100(v) (((v)&0x0f)==0x04) argument 42 #define IS_0101(v) (((v)&0x0f)==0x05) argument 45 #define IS_0110(v) (((v)&0x0f)==0x06) argument 48 #define IS_0111(v) (((v)&0x0f)==0x07) argument
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/hal_espressif-3.6.0/components/esptool_py/esptool/docs/en/espefuse/ |
D | set-flash-voltage-cmd.rst | 12 …mmand permanently sets the internal flash voltage regulator to either 1.8V, 3.3V or OFF. This mean… 16 - ``voltage`` - Voltage selection ['1.8V', '3.3V', 'OFF']. 34 | Low or unconnected | Enabled at 3.3V | 36 | High | Enabled at 1.8V | 63 Fixed 1.8V {IDF_TARGET_VDD_SPI} 68 espefuse.py set_flash_voltage 1.8V 72 * {IDF_TARGET_VDD_SPI} regulator always enables at 1.8V. 77 Fixed 3.3V {IDF_TARGET_VDD_SPI} 82 espefuse.py set_flash_voltage 3.3V 86 * {IDF_TARGET_VDD_SPI} regulator always enables at 3.3V. [all …]
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/hal_espressif-3.6.0/components/bt/host/bluedroid/external/sbc/decoder/srce/ |
D | synthesis-sbc.c | 54 The spec describes computing V[0..15] as N * R. 56 V[0..15] = N * R = (R * C2) * R = R * (C2 * R) 60 V[0..15] can be computed by taking the DCT of R followed by assignment 61 and selective negation of the DCT result into V. 69 Given the shift operation performed prior to computing V[0..15], it is 70 clear that V[0..159] represents a rolling history of the 10 most 73 sparseness has implications for interpreting the values in V. In 75 V. Furthermore, since R[4][0..7] are all zeros, one out of every 16 76 values in V will be zero regardless of the input data. Within each 77 block of 16 values in V, fully half of them are redundant or [all …]
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/hal_espressif-3.6.0/docs/en/api-guides/ |
D | ulp-risc-v.rst | 1 ULP-RISC-V Coprocessor programming 16 …V coprocessor is a variant of the ULP, present in ESP32-S2. Similar to ULP, ULP RISC-V coprocessor… 18 Installing the ULP-RISC-V Toolchain 21 The ULP-RISC-V coprocessor code is written in C (assembly is also possible) and compiled using RISC… 25 .. note: In earlier versions of ESP-IDF, RISC-V toolchain had a different prefix: `riscv-none-embed… 27 Compiling the ULP-RISC-V Code 30 To compile the ULP-RISC-V code as part of the component, the following steps must be taken: 32 1. The ULP-RISC-V code, written in C or assembly (must use the `.S` extension), must be placed into… 71 Accessing the ULP-RISC-V Program Variables 74 Global symbols defined in the ULP-RISC-V program may be used inside the main program. [all …]
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/hal_espressif-3.6.0/docs/en/api-guides/jtag-debugging/ |
D | esp32.inc | 15 openocd -f board/esp32-wrover-kit-3.3v.cfg 25 user-name@computer-name:~/esp/esp-idf$ openocd -f board/esp32-wrover-kit-3.3v.cfg 40 .. |run-openocd-cfg-file-err| replace:: ``Can't find board/esp32-wrover-kit-3.3v.cfg`` 48 openocd -f board/esp32-wrover-kit-3.3v.cfg -c "program_esp filename.bin 0x10000 verify exit" 56 src/openocd -f board/esp32-wrover-kit-3.3v.cfg 64 src\openocd -f board\esp32-wrover-kit-3.3v.cfg 70 .. |idf-py-def-cfg| replace:: ``-f board/esp32-wrover-kit-3.3v.cfg`` 78 openocd -f board/esp32-wrover-kit-3.3v.cfg -c "init; halt; esp appimage_offset 0x210000" 90 * - ``board/esp32-wrover-kit-3.3v.cfg`` 91 …- Board configuration file for ESP-WROVER-KIT with a 3.3 V ESP32-WROOM-32 module or ESP32-WROVER-B… [all …]
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/hal_espressif-3.6.0/docs/zh_CN/api-guides/jtag-debugging/ |
D | esp32.inc | 15 openocd -f board/esp32-wrover-kit-3.3v.cfg 25 user-name@computer-name:~/esp/esp-idf$ openocd -f board/esp32-wrover-kit-3.3v.cfg 40 .. |run-openocd-cfg-file-err| replace:: ``Can't find board/esp32-wrover-kit-3.3v.cfg`` 48 openocd -f board/esp32-wrover-kit-3.3v.cfg -c "program_esp filename.bin 0x10000 verify exit" 56 src/openocd -f board/esp32-wrover-kit-3.3v.cfg 64 src\openocd -f board\esp32-wrover-kit-3.3v.cfg 70 .. |idf-py-def-cfg| replace:: ``-f board/esp32-wrover-kit-3.3v.cfg`` 78 openocd -f board/esp32-wrover-kit-3.3v.cfg -c "init; halt; esp appimage_offset 0x210000" 90 * - ``board/esp32-wrover-kit-3.3v.cfg`` 91 - 板载 3.3V 模组(ESP32-WROOM-32,ESP32-WROVER-B,ESP32-WROVER-E)的 ESP-WROVER-KIT 开发板配置文件 [all …]
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/hal_espressif-3.6.0/components/bt/esp_ble_mesh/mesh_common/tinycrypt/src/ |
D | hmac_prng.c | 88 (void)tc_hmac_update(&prng->h, prng->v, sizeof(prng->v)); in update() 103 /* use the new key to compute a new state variable v */ in update() 105 (void)tc_hmac_update(&prng->h, prng->v, sizeof(prng->v)); in update() 106 (void)tc_hmac_final(prng->v, sizeof(prng->v), &prng->h); in update() 117 (void)tc_hmac_update(&prng->h, prng->v, sizeof(prng->v)); in update() 128 /* use the new key to compute a new state variable v */ in update() 130 (void)tc_hmac_update(&prng->h, prng->v, sizeof(prng->v)); in update() 131 (void)tc_hmac_final(prng->v, sizeof(prng->v), &prng->h); in update() 148 _set(prng->v, 0x01, sizeof(prng->v)); in tc_hmac_prng_init() 218 (void)tc_hmac_update(&prng->h, prng->v, sizeof(prng->v)); in tc_hmac_prng_generate() [all …]
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/hal_espressif-3.6.0/docs/_static/js/ |
D | version_table.js | 13 let v = versions[i]; 15 if (!(d in v)) { 16 v[d] = defaults[d]; 32 function getVersionUrl(v) { argument 33 let result = project_base_url + "/" + language + "/" + v.name; 34 if (v.has_targets) { 44 let v = versions[i]; 45 let url = getVersionUrl(v); 47 if (v.old) { 48 old_ver_list += "<li><a href=\"" + url + "\">" + v.name + "</li>";
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/hal_espressif-3.6.0/components/bt/host/bluedroid/stack/smp/ |
D | p_256_multprecision.c | 259 DWORD V; in multiprecision_mult() local 261 U = V = W = 0; in multiprecision_mult() 271 V = a[i] * b[j]; in multiprecision_mult() 272 V = V + U; in multiprecision_mult() 273 U = (V < U); in multiprecision_mult() 275 V = V + c[i + j]; in multiprecision_mult() 276 U += (V < c[i + j]); in multiprecision_mult() 277 c[i + j] = V; in multiprecision_mult() 286 DWORD V; in multiprecision_fast_mod() local 334 V = c[0] < U; in multiprecision_fast_mod() [all …]
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/hal_espressif-3.6.0/components/wpa_supplicant/src/crypto/ |
D | aes-gcm.c | 36 static void shift_right_block(u8 *v) in shift_right_block() argument 40 val = WPA_GET_BE32(v + 12); in shift_right_block() 42 if (v[11] & 0x01) in shift_right_block() 44 WPA_PUT_BE32(v + 12, val); in shift_right_block() 46 val = WPA_GET_BE32(v + 8); in shift_right_block() 48 if (v[7] & 0x01) in shift_right_block() 50 WPA_PUT_BE32(v + 8, val); in shift_right_block() 52 val = WPA_GET_BE32(v + 4); in shift_right_block() 54 if (v[3] & 0x01) in shift_right_block() 56 WPA_PUT_BE32(v + 4, val); in shift_right_block() [all …]
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/hal_espressif-3.6.0/examples/system/ulp_riscv/ds18b20_onewire/ |
D | README.md | 4 # ULP-RISC-V DS18B20 Temperature Sensor OneWire Communication 6 This example demonstrates how to program the ULP-RISC-V co-processor to read temperature from a [DS… 11 * A development board with a SOC which has a RISC-V ULP coprocessor (e.g., ESP32-S2 Saola) 20 | VCC 3.3V | VDD | 32 ULP-RISC-V woke up the main CPU, temperature is above set limit! 33 ULP-RISC-V read temperature is 32.562500 38 ULP-RISC-V woke up the main CPU, temperature is above set limit! 39 ULP-RISC-V read temperature is 33.000000
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/hal_espressif-3.6.0/examples/peripherals/mcpwm/mcpwm_bldc_hall_control/main/ |
D | mcpwm_bldc_hall_control_example_main.c | 77 // U+V- / A+B- 83 mcpwm_set_signal_low(BLDC_MCPWM_GROUP, BLDC_MCPWM_TIMER_V, BLDC_MCPWM_GEN_HIGH); // V+ = 0 in bldc_set_phase_up_vm() 84 mcpwm_set_signal_high(BLDC_MCPWM_GROUP, BLDC_MCPWM_TIMER_V, BLDC_MCPWM_GEN_LOW); // V- = 1 in bldc_set_phase_up_vm() 97 mcpwm_set_signal_low(BLDC_MCPWM_GROUP, BLDC_MCPWM_TIMER_V, BLDC_MCPWM_GEN_HIGH); // V+ = 0 in bldc_set_phase_wp_um() 98 mcpwm_set_signal_low(BLDC_MCPWM_GROUP, BLDC_MCPWM_TIMER_V, BLDC_MCPWM_GEN_LOW); // V- = 0 in bldc_set_phase_wp_um() 103 // W+V- / C+B- 110 mcpwm_set_signal_low(BLDC_MCPWM_GROUP, BLDC_MCPWM_TIMER_V, BLDC_MCPWM_GEN_HIGH); // V+ = 0 in bldc_set_phase_wp_vm() 111 mcpwm_set_signal_high(BLDC_MCPWM_GROUP, BLDC_MCPWM_TIMER_V, BLDC_MCPWM_GEN_LOW); // V- = 1 in bldc_set_phase_wp_vm() 116 // V+U- / B+A- 122 …uty_type(BLDC_MCPWM_GROUP, BLDC_MCPWM_TIMER_V, BLDC_MCPWM_GEN_HIGH, MCPWM_DUTY_MODE_0); // V+ = PWM in bldc_set_phase_vp_um() [all …]
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/hal_espressif-3.6.0/components/heap/test/ |
D | test_diram.c | 45 uint32_t v = i + 0xAAAA; variable 46 dram[i] = v; 48 TEST_ASSERT_EQUAL(v, dram[i]); 49 TEST_ASSERT_EQUAL(v, *iram); 63 uint32_t v = i + 0xEEE; variable 64 iram[i] = v; 66 TEST_ASSERT_EQUAL_HEX32(v, iram[i]); 67 TEST_ASSERT_EQUAL_HEX32(v, *dram);
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/hal_espressif-3.6.0/docs/zh_CN/hw-reference/esp32c3/ |
D | user-guide-devkitc-02.rst | 54 * - 5 V to 3.3 V LDO(5 V 转 3.3 V LDO) 55 - 电源转换器,输入 5 V,输出 3.3 V。 56 * - 5 V Power On LED(5 V 电源指示灯) 131 - 5V 和 GND 排针供电 149 2 3V3 P 3.3 V 电源 150 3 3V3 P 3.3 V 电源 160 13 5V P 5 V 电源 161 14 5V P 5 V 电源
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D | user-guide-devkitm-1.rst | 54 * - 5 V to 3.3 V LDO(5 V 转 3.3 V LDO) 55 - 电源转换器,输入 5 V,输出 3.3 V。 56 * - 5 V Power On LED(5 V 电源指示灯) 132 - 5V 和 GND 排针供电 150 2 3V3 P 3.3 V 电源 151 3 3V3 P 3.3 V 电源 160 13 5V P 5 V 电源 161 14 5V P 5 V 电源
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/hal_espressif-3.6.0/docs/en/api-reference/peripherals/ |
D | sd_pullup_requirements.rst | 10 … pin is incompatible with the DAT2 line pull-up if the flash voltage is 3.3 V. For more informatio… 39 - :ref:`strapping_conflicts_dat2` for models with 3.3 V flash chip 184 - Pull it up or drive it high either by using the host or with 3.3 V on VDD in 1-bit SD mode 196 …s will permanently configure the internal regulator's output voltage to 3.3 V, and GPIO12 will not… 200 …ing has a 3.3 V flash chip by checking the information on http://www.espressif.com/. If you burn t… 206 components/esptool_py/esptool/espefuse.py set_flash_voltage 3.3V 208 …he internal VDD_SDIO flash voltage regulator will be permanently set to 3.3 V. You will see the fo… 215 Enable internal flash voltage regulator (VDD_SDIO) to 3.3 V. 274 …ected, it will read low level at startup, which will lead to selecting the default 3.3 V operation. 276 …les, excluding ESP32-WROVER-B, use 1.8 V flash and have internal pull-ups on GPIO12. Other modules… [all …]
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