mirror of
https://github.com/isometimes/rpi4-osdev
synced 2024-11-09 20:00:40 +00:00
319 lines
10 KiB
C
319 lines
10 KiB
C
#include "io.h"
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#include "fb.h"
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// UART0
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enum {
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ARM_UART0_BASE = PERIPHERAL_BASE + 0x201000,
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ARM_UART0_DR = ARM_UART0_BASE + 0x00,
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ARM_UART0_FR = ARM_UART0_BASE + 0x18,
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ARM_UART0_IBRD = ARM_UART0_BASE + 0x24,
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ARM_UART0_FBRD = ARM_UART0_BASE + 0x28,
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ARM_UART0_LCRH = ARM_UART0_BASE + 0x2C,
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ARM_UART0_CR = ARM_UART0_BASE + 0x30,
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ARM_UART0_IFLS = ARM_UART0_BASE + 0x34,
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ARM_UART0_IMSC = ARM_UART0_BASE + 0x38,
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ARM_UART0_RIS = ARM_UART0_BASE + 0x3C,
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ARM_UART0_MIS = ARM_UART0_BASE + 0x40,
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ARM_UART0_ICR = ARM_UART0_BASE + 0x44
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};
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unsigned char lo(unsigned int val) { return (unsigned char)(val & 0xff); }
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unsigned char hi(unsigned int val) { return (unsigned char)((val & 0xff00) >> 8); }
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unsigned int bt_isReadByteReady() { return (!(mmio_read(ARM_UART0_FR) & 0x10)); }
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unsigned char bt_readByte()
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{
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unsigned char ch = lo(mmio_read(ARM_UART0_DR));
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return ch;
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}
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unsigned char bt_waitReadByte()
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{
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while (!bt_isReadByteReady());
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return bt_readByte();
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}
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void bt_writeByte(char byte)
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{
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while ((mmio_read(ARM_UART0_FR) & 0x20) != 0);
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mmio_write(ARM_UART0_DR, (unsigned int)byte);
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}
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void bt_flushrx()
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{
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while (bt_isReadByteReady()) bt_readByte();
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}
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void bt_init()
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{
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gpio_useAsAlt3(30);
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gpio_useAsAlt3(31);
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gpio_useAsAlt3(32);
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gpio_useAsAlt3(33);
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bt_flushrx();
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mmio_write(ARM_UART0_IMSC, 0x00);
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mmio_write(ARM_UART0_ICR, 0x7ff);
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mmio_write(ARM_UART0_IBRD, 0x1a);
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mmio_write(ARM_UART0_FBRD, 0x03);
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mmio_write(ARM_UART0_IFLS, 0x08);
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mmio_write(ARM_UART0_LCRH, 0x70);
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mmio_write(ARM_UART0_CR, 0xB01);
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mmio_write(ARM_UART0_IMSC, 0x430);
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wait_msec(0x100000);
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}
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// HOST SETUP
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enum {
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OGF_HOST_CONTROL = 0x03,
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OGF_LE_CONTROL = 0x08,
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OGF_VENDOR = 0x3f,
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COMMAND_SET_BDADDR = 0x01,
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COMMAND_RESET_CHIP = 0x03,
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COMMAND_SET_BAUD = 0x18,
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COMMAND_LOAD_FIRMWARE = 0x2e,
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HCI_COMMAND_PKT = 0x01,
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HCI_ACL_PKT = 0x02,
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HCI_EVENT_PKT = 0x04,
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COMMAND_COMPLETE_CODE = 0x0e,
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CONNECT_COMPLETE_CODE = 0x0f,
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LL_SCAN_ACTIVE = 0x01,
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LL_ADV_NONCONN_IND = 0x03
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};
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unsigned char empty[] = {};
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int hciCommandBytes(unsigned char *opcodebytes, unsigned char *data, unsigned char length)
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{
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unsigned char c=0;
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bt_writeByte(HCI_COMMAND_PKT);
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bt_writeByte(opcodebytes[0]);
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bt_writeByte(opcodebytes[1]);
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bt_writeByte(length);
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while (c++<length) bt_writeByte(*data++);
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if (bt_waitReadByte() != HCI_EVENT_PKT) return 1;
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unsigned char code = bt_waitReadByte();
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if (code == CONNECT_COMPLETE_CODE) {
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if (bt_waitReadByte() != 4) return 2;
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unsigned char err = bt_waitReadByte();
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if (err != 0) {
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uart_writeText("Saw HCI COMMAND STATUS error "); uart_hex(err); uart_writeText("\n");
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return 12;
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}
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if (bt_waitReadByte() == 0) return 3;
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if (bt_waitReadByte() != opcodebytes[0]) return 4;
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if (bt_waitReadByte() != opcodebytes[1]) return 5;
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} else if (code == COMMAND_COMPLETE_CODE) {
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if (bt_waitReadByte() != 4) return 6;
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if (bt_waitReadByte() == 0) return 7;
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if (bt_waitReadByte() != opcodebytes[0]) return 8;
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if (bt_waitReadByte() != opcodebytes[1]) return 9;
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if (bt_waitReadByte() != 0) return 10;
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} else return 11;
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return 0;
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}
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int hciCommand(unsigned short ogf, unsigned short ocf, unsigned char *data, unsigned char length)
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{
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unsigned short opcode = ogf << 10 | ocf;
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unsigned char opcodebytes[2] = { lo(opcode), hi(opcode) };
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return hciCommandBytes(opcodebytes, data, length);
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}
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void bt_reset() {
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if (hciCommand(OGF_HOST_CONTROL, COMMAND_RESET_CHIP, empty, 0)) uart_writeText("bt_reset() failed\n");
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}
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void bt_loadfirmware()
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{
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if (hciCommand(OGF_VENDOR, COMMAND_LOAD_FIRMWARE, empty, 0)) uart_writeText("loadFirmware() failed\n");
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extern unsigned char _binary_BCM4345C0_hcd_start[];
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extern unsigned char _binary_BCM4345C0_hcd_size[];
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unsigned int c=0;
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unsigned int size = (long)&_binary_BCM4345C0_hcd_size;
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while (c < size) {
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unsigned char opcodebytes[] = { _binary_BCM4345C0_hcd_start[c], _binary_BCM4345C0_hcd_start[c+1] };
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unsigned char length = _binary_BCM4345C0_hcd_start[c+2];
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unsigned char *data = &(_binary_BCM4345C0_hcd_start[c+3]);
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if (hciCommandBytes(opcodebytes, data, length)) {
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uart_writeText("Firmware data load failed\n");
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break;
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}
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c += 3 + length;
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}
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wait_msec(0x100000);
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}
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void bt_setbaud()
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{
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static unsigned char params[] = { 0, 0, 0x00, 0xc2, 0x01, 0x00 }; // little endian, 115200
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if (hciCommand(OGF_VENDOR, COMMAND_SET_BAUD, params, 6)) uart_writeText("bt_setbaud() failed\n");
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}
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void bt_setbdaddr()
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{
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static unsigned char params[] = { 0xee, 0xff, 0xc0, 0xee, 0xff, 0xc0 }; // reversed
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if (hciCommand(OGF_VENDOR, COMMAND_SET_BDADDR, params, 6)) uart_writeText("bt_setbdaddr() failed\n");
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}
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void bt_getbdaddr(unsigned char *bdaddr) {
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bt_writeByte(HCI_COMMAND_PKT);
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bt_writeByte(0x09);
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bt_writeByte(0x10);
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bt_writeByte(0x00);
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if (bt_waitReadByte() != HCI_EVENT_PKT) return;
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if (bt_waitReadByte() != COMMAND_COMPLETE_CODE) return;
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if (bt_waitReadByte() != 0x0a) return;
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if (bt_waitReadByte() != 1) return;
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if (bt_waitReadByte() != 0x09) return;
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if (bt_waitReadByte() != 0x10) return;
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if (bt_waitReadByte() != 0x00) return;
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for (int c=0;c<6;c++) bdaddr[c] = bt_waitReadByte();
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}
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void sendACLsubscribe(unsigned int handle)
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{
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bt_writeByte(HCI_ACL_PKT);
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bt_writeByte(lo(handle));
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bt_writeByte(hi(handle));
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unsigned int length = 0x0009;
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bt_writeByte(lo(length));
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bt_writeByte(hi(length));
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unsigned int data_length = 0x0005;
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bt_writeByte(lo(data_length));
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bt_writeByte(hi(data_length));
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unsigned int channel = 0x0004;
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bt_writeByte(lo(channel));
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bt_writeByte(hi(channel));
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unsigned char params[] = { 0x12, 0x2b, 0x00, 0x01, 0x00 };
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unsigned int c=0;
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while (c++<data_length) bt_writeByte(params[c-1]);
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}
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void setLEeventmask(unsigned char mask)
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{
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unsigned char params[] = { mask, 0, 0, 0, 0, 0, 0, 0 };
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if (hciCommand(OGF_LE_CONTROL, 0x01, params, 8)) uart_writeText("setLEeventmask failed\n");
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}
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void setLEscanenable(unsigned char state, unsigned char duplicates) {
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unsigned char params[] = { state, duplicates };
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if (hciCommand(OGF_LE_CONTROL, 0x0c, params, 2)) uart_writeText(" setLEscanenable failed\n");
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}
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void setLEscanparameters(unsigned char type, unsigned char linterval, unsigned char hinterval, unsigned char lwindow, unsigned char hwindow, unsigned char own_address_type, unsigned char filter_policy) {
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unsigned char params[] = { type, linterval, hinterval, lwindow, hwindow, own_address_type, filter_policy };
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if (hciCommand(OGF_LE_CONTROL, 0x0b, params, 7)) uart_writeText("setLEscanparameters failed\n");
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}
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void setLEadvertenable(unsigned char state) {
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unsigned char params[] = { state };
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uart_writeText("doing the HCIcommand\n");
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if (hciCommand(OGF_LE_CONTROL, 0x0a, params, 1)) uart_writeText("setLEadvertenable failed\n");
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}
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void setLEadvertparameters(unsigned char type, unsigned char linterval_min, unsigned char hinterval_min, unsigned char linterval_max, unsigned char hinterval_max, unsigned char own_address_type, unsigned char filter_policy) {
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unsigned char params[16] = { linterval_min, hinterval_min, linterval_max, hinterval_max, type, own_address_type, 0, 0, 0, 0, 0, 0, 0, 0x07, filter_policy };
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uart_writeText("doing the HCIcommand\n");
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if (hciCommand(OGF_LE_CONTROL, 0x06, params, 15)) uart_writeText("setLEadvertparameters failed\n");
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}
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void setLEadvertdata() {
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static unsigned char params[] = { 0x19,
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0x02, 0x01, 0x06,
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0x03, 0x03, 0xAA, 0xFE,
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0x11, 0x16, 0xAA, 0xFE, 0x10, 0x00, 0x03, 0x69, 0x73, 0x6f, 0x6d, 0x65, 0x74, 0x69, 0x6d, 0x2e, 0x65, 0x73,
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0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
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if (hciCommand(OGF_LE_CONTROL, 0x08, params, 32)) uart_writeText("setLEadvertdata failed\n");
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}
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void createLEconnection(unsigned char a1, unsigned char a2, unsigned char a3, unsigned char a4, unsigned char a5, unsigned char a6, unsigned char linterval, unsigned char hinterval, unsigned char lwindow, unsigned char hwindow, unsigned char own_address_type, unsigned char filter_policy, unsigned char linterval_min, unsigned char hinterval_min, unsigned char linterval_max, unsigned char hinterval_max) {
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unsigned char params[26] = { linterval, hinterval, lwindow, hwindow,
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filter_policy,
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0, a1, a2, a3, a4, a5, a6,
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own_address_type,
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linterval_min, hinterval_min, linterval_max, hinterval_max,
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0, 0, 0x2a, 0x00, 0, 0, 0, 0 };
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if (hciCommand(OGF_LE_CONTROL, 0x0d, params, 25)) uart_writeText("createLEconnection failed\n");
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}
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void stopScanning() {
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setLEscanenable(0, 0);
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}
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void stopAdvertising() {
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setLEadvertenable(0);
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}
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void startActiveScanning() {
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float BleScanInterval = 60; // every 60ms
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float BleScanWindow = 60;
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float BleScanDivisor = 0.625;
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unsigned int p = BleScanInterval / BleScanDivisor;
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unsigned int q = BleScanWindow / BleScanDivisor;
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setLEscanparameters(LL_SCAN_ACTIVE, lo(p), hi(p), lo(q), hi(q), 0, 0);
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setLEscanenable(1, 0);
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}
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void startActiveAdvertising() {
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float advertMinFreq = 100; // every 100ms
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float advertMaxFreq = 100; // every 100ms
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float bleGranularity = 0.625;
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unsigned int min_interval = advertMinFreq / bleGranularity;
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unsigned int max_interval = advertMaxFreq / bleGranularity;
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setLEadvertparameters(LL_ADV_NONCONN_IND, lo(min_interval), hi(min_interval), lo(max_interval), hi(max_interval), 0, 0);
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setLEadvertdata();
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setLEadvertenable(1);
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}
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void connect(unsigned char *addr)
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{
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float BleScanInterval = 60; // every 60ms
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float BleScanWindow = 60;
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float BleScanDivisor = 0.625;
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float connMinFreq = 30; // every 30ms
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float connMaxFreq = 50; // every 50ms
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float BleGranularity = 1.25;
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unsigned int p = BleScanInterval / BleScanDivisor;
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unsigned int q = BleScanWindow / BleScanDivisor;
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unsigned int min_interval = connMinFreq / BleGranularity;
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unsigned int max_interval = connMaxFreq / BleGranularity;
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createLEconnection(addr[5], addr[4], addr[3], addr[2], addr[1], addr[0], lo(p), hi(p), lo(q), hi(q), 0, 0, lo(min_interval), hi(min_interval), lo(max_interval), hi(max_interval));
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}
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