// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #ifndef _SOC_GPIO_STRUCT_H_ #define _SOC_GPIO_STRUCT_H_ #include #ifdef __cplusplus extern "C" { #endif typedef volatile struct gpio_dev_s { uint32_t bt_select; /*NA*/ uint32_t out; /*GPIO0~31 output value*/ uint32_t out_w1ts; /*GPIO0~31 output value write 1 to set*/ uint32_t out_w1tc; /*GPIO0~31 output value write 1 to clear*/ union { struct { uint32_t data: 8; /*GPIO32~39 output value*/ uint32_t reserved8: 24; }; uint32_t val; } out1; union { struct { uint32_t data: 8; /*GPIO32~39 output value write 1 to set*/ uint32_t reserved8: 24; }; uint32_t val; } out1_w1ts; union { struct { uint32_t data: 8; /*GPIO32~39 output value write 1 to clear*/ uint32_t reserved8: 24; }; uint32_t val; } out1_w1tc; union { struct { uint32_t sel: 8; /*SDIO PADS on/off control from outside*/ uint32_t reserved8: 24; }; uint32_t val; } sdio_select; uint32_t enable; /*GPIO0~31 output enable*/ uint32_t enable_w1ts; /*GPIO0~31 output enable write 1 to set*/ uint32_t enable_w1tc; /*GPIO0~31 output enable write 1 to clear*/ union { struct { uint32_t data: 8; /*GPIO32~39 output enable*/ uint32_t reserved8: 24; }; uint32_t val; } enable1; union { struct { uint32_t data: 8; /*GPIO32~39 output enable write 1 to set*/ uint32_t reserved8: 24; }; uint32_t val; } enable1_w1ts; union { struct { uint32_t data: 8; /*GPIO32~39 output enable write 1 to clear*/ uint32_t reserved8: 24; }; uint32_t val; } enable1_w1tc; union { struct { uint32_t strapping: 16; /*GPIO strapping results: {2'd0 boot_sel_dig[7:1] vsdio_boot_sel boot_sel_chip[5:0]} . Boot_sel_dig[7:1]: {U0RXD SD_CLK SD_CMD SD_DATA0 SD_DATA1 SD_DATA2 SD_DATA3} . vsdio_boot_sel: MTDI. boot_sel_chip[5:0]: {GPIO0 U0TXD GPIO2 GPIO4 MTDO GPIO5} */ uint32_t reserved16:16; }; uint32_t val; } strap; uint32_t in; /*GPIO0~31 input value*/ union { struct { uint32_t data: 8; /*GPIO32~39 input value*/ uint32_t reserved8: 24; }; uint32_t val; } in1; uint32_t status; /*GPIO0~31 interrupt status*/ uint32_t status_w1ts; /*GPIO0~31 interrupt status write 1 to set*/ uint32_t status_w1tc; /*GPIO0~31 interrupt status write 1 to clear*/ union { struct { uint32_t intr_st: 8; /*GPIO32~39 interrupt status*/ uint32_t reserved8: 24; }; uint32_t val; } status1; union { struct { uint32_t intr_st: 8; /*GPIO32~39 interrupt status write 1 to set*/ uint32_t reserved8: 24; }; uint32_t val; } status1_w1ts; union { struct { uint32_t intr_st: 8; /*GPIO32~39 interrupt status write 1 to clear*/ uint32_t reserved8: 24; }; uint32_t val; } status1_w1tc; uint32_t reserved_5c; uint32_t acpu_int; /*GPIO0~31 APP CPU interrupt status*/ uint32_t acpu_nmi_int; /*GPIO0~31 APP CPU non-maskable interrupt status*/ uint32_t pcpu_int; /*GPIO0~31 PRO CPU interrupt status*/ uint32_t pcpu_nmi_int; /*GPIO0~31 PRO CPU non-maskable interrupt status*/ uint32_t cpusdio_int; /*SDIO's extent GPIO0~31 interrupt*/ union { struct { uint32_t intr: 8; /*GPIO32~39 APP CPU interrupt status*/ uint32_t reserved8: 24; }; uint32_t val; } acpu_int1; union { struct { uint32_t intr: 8; /*GPIO32~39 APP CPU non-maskable interrupt status*/ uint32_t reserved8: 24; }; uint32_t val; } acpu_nmi_int1; union { struct { uint32_t intr: 8; /*GPIO32~39 PRO CPU interrupt status*/ uint32_t reserved8: 24; }; uint32_t val; } pcpu_int1; union { struct { uint32_t intr: 8; /*GPIO32~39 PRO CPU non-maskable interrupt status*/ uint32_t reserved8: 24; }; uint32_t val; } pcpu_nmi_int1; union { struct { uint32_t intr: 8; /*SDIO's extent GPIO32~39 interrupt*/ uint32_t reserved8: 24; }; uint32_t val; } cpusdio_int1; union { struct { uint32_t reserved0: 2; uint32_t pad_driver: 1; /*if set to 0: normal output if set to 1: open drain*/ uint32_t reserved3: 4; uint32_t int_type: 3; /*if set to 0: GPIO interrupt disable if set to 1: rising edge trigger if set to 2: falling edge trigger if set to 3: any edge trigger if set to 4: low level trigger if set to 5: high level trigger*/ uint32_t wakeup_enable: 1; /*GPIO wake up enable only available in light sleep*/ uint32_t config: 2; /*NA*/ uint32_t int_ena: 5; /*bit0: APP CPU interrupt enable bit1: APP CPU non-maskable interrupt enable bit3: PRO CPU interrupt enable bit4: PRO CPU non-maskable interrupt enable bit5: SDIO's extent interrupt enable*/ uint32_t reserved18: 14; }; uint32_t val; } pin[40]; union { struct { uint32_t rtc_max: 10; uint32_t reserved10: 21; uint32_t start: 1; }; uint32_t val; } cali_conf; union { struct { uint32_t value_sync2: 20; uint32_t reserved20: 10; uint32_t rdy_real: 1; uint32_t rdy_sync2: 1; }; uint32_t val; } cali_data; union { struct { uint32_t func_sel: 6; /*select one of the 256 inputs*/ uint32_t sig_in_inv: 1; /*revert the value of the input if you want to revert please set the value to 1*/ uint32_t sig_in_sel: 1; /*if the slow signal bypass the io matrix or not if you want setting the value to 1*/ uint32_t reserved8: 24; /*The 256 registers below are selection control for 256 input signals connected to GPIO matrix's 40 GPIO input if GPIO_FUNCx_IN_SEL is set to n(0<=n<40): it means GPIOn input is used for input signal x if GPIO_FUNCx_IN_SEL is set to 0x38: the input signal x is set to 1 if GPIO_FUNCx_IN_SEL is set to 0x30: the input signal x is set to 0*/ }; uint32_t val; } func_in_sel_cfg[256]; union { struct { uint32_t func_sel: 9; /*select one of the 256 output to 40 GPIO*/ uint32_t inv_sel: 1; /*invert the output value if you want to revert the output value setting the value to 1*/ uint32_t oen_sel: 1; /*weather using the logical oen signal or not using the value setting by the register*/ uint32_t oen_inv_sel: 1; /*invert the output enable value if you want to revert the output enable value setting the value to 1*/ uint32_t reserved12: 20; /*The 40 registers below are selection control for 40 GPIO output if GPIO_FUNCx_OUT_SEL is set to n(0<=n<256): it means GPIOn input is used for output signal x if GPIO_FUNCx_OUT_INV_SEL is set to 1 the output signal x is set to ~value. if GPIO_FUNC0_OUT_SEL is 256 or GPIO_FUNC0_OEN_SEL is 1 using GPIO_ENABLE_DATA[x] for the enable value else using the signal enable*/ }; uint32_t val; } func_out_sel_cfg[40]; } gpio_dev_t; extern gpio_dev_t GPIO; #ifdef __cplusplus } #endif #endif /* _SOC_GPIO_STRUCT_H_ */