/* * Copyright 2012 Michael Ossmann * Copyright 2012 Jared Boone * Copyright 2013 Benjamin Vernoux * * This file is part of HackRF. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, * Boston, MA 02110-1301, USA. */ #include "hackrf_core.h" #include "si5351c.h" #include "spi_ssp0.h" #include "spi_ssp1.h" #include "max2837.h" #include "max2837_target.h" #include "max5864.h" #include "max5864_target.h" #include "rffc5071.h" #include "rffc5071_spi.h" #include "w25q80bv.h" #include "w25q80bv_target.h" #include "sgpio.h" #include "rf_path.h" #include #include #include #include #include #define WAIT_CPU_CLOCK_INIT_DELAY (10000) const ssp1_config_t ssp1_config_max2837 = { /* FIXME speed up once everything is working reliably */ /* // Freq About 0.0498MHz / 49.8KHz => Freq = PCLK / (CPSDVSR * [SCR+1]) with PCLK=PLL1=204MHz const uint8_t serial_clock_rate = 32; const uint8_t clock_prescale_rate = 128; */ // Freq About 4.857MHz => Freq = PCLK / (CPSDVSR * [SCR+1]) with PCLK=PLL1=204MHz .data_bits = SSP_DATA_16BITS, .serial_clock_rate = 21, .clock_prescale_rate = 2, .select = max2837_target_spi_select, .unselect = max2837_target_spi_unselect, }; const ssp1_config_t ssp1_config_max5864 = { /* FIXME speed up once everything is working reliably */ /* // Freq About 0.0498MHz / 49.8KHz => Freq = PCLK / (CPSDVSR * [SCR+1]) with PCLK=PLL1=204MHz const uint8_t serial_clock_rate = 32; const uint8_t clock_prescale_rate = 128; */ // Freq About 4.857MHz => Freq = PCLK / (CPSDVSR * [SCR+1]) with PCLK=PLL1=204MHz .data_bits = SSP_DATA_8BITS, .serial_clock_rate = 21, .clock_prescale_rate = 2, .select = max5864_target_spi_select, .unselect = max5864_target_spi_unselect, }; spi_t spi_ssp1 = { .config = &ssp1_config_max2837, .init = spi_ssp1_init, .transfer = spi_ssp1_transfer, .transfer_gather = spi_ssp1_transfer_gather, }; max2837_driver_t max2837 = { .spi = &spi_ssp1, }; max5864_driver_t max5864 = { .spi = &spi_ssp1, }; spi_t rffc5071_spi = { .config = NULL, .init = rffc5071_spi_init, .transfer = rffc5071_spi_transfer, .transfer_gather = rffc5071_spi_transfer_gather, }; rffc5071_driver_t rffc5072 = { .spi = &rffc5071_spi, }; const ssp0_config_t ssp0_config_w25q80bv = { .data_bits = SSP_DATA_8BITS, .serial_clock_rate = 2, .clock_prescale_rate = 2, .select = w25q80bv_target_spi_select, .unselect = w25q80bv_target_spi_unselect, }; spi_t spi_ssp0 = { .config = &ssp0_config_w25q80bv, .init = spi_ssp0_init, .transfer = spi_ssp0_transfer, .transfer_gather = spi_ssp0_transfer_gather, }; w25q80bv_driver_t spi_flash = { .spi = &spi_ssp0, }; void delay(uint32_t duration) { uint32_t i; for (i = 0; i < duration; i++) __asm__("nop"); } /* GCD algo from wikipedia */ /* http://en.wikipedia.org/wiki/Greatest_common_divisor */ static uint32_t gcd(uint32_t u, uint32_t v) { int s; if (!u || !v) return u | v; for (s=0; !((u|v)&1); s++) { u >>= 1; v >>= 1; } while (!(u&1)) u >>= 1; do { while (!(v&1)) v >>= 1; if (u>v) { uint32_t t; t = v; v = u; u = t; } v = v - u; } while (v); return u << s; } bool sample_rate_frac_set(uint32_t rate_num, uint32_t rate_denom) { const uint64_t VCO_FREQ = 800 * 1000 * 1000; /* 800 MHz */ uint32_t MSx_P1,MSx_P2,MSx_P3; uint32_t a, b, c; uint32_t rem; /* Find best config */ a = (VCO_FREQ * rate_denom) / rate_num; rem = (VCO_FREQ * rate_denom) - (a * rate_num); if (!rem) { /* Integer mode */ b = 0; c = 1; } else { /* Fractional */ uint32_t g = gcd(rem, rate_num); rem /= g; rate_num /= g; if (rate_num < (1<<20)) { /* Perfect match */ b = rem; c = rate_num; } else { /* Approximate */ c = (1<<20) - 1; b = ((uint64_t)c * (uint64_t)rem) / rate_num; g = gcd(b, c); b /= g; c /= g; } } /* Can we enable integer mode ? */ if (a & 0x1 || b) si5351c_set_int_mode(0, 0); else si5351c_set_int_mode(0, 1); /* Final MS values */ MSx_P1 = 128*a + (128 * b/c) - 512; MSx_P2 = (128*b) % c; MSx_P3 = c; /* MS0/CLK0 is the source for the MAX5864/CPLD (CODEC_CLK). */ si5351c_configure_multisynth(0, MSx_P1, MSx_P2, MSx_P3, 1); /* MS0/CLK1 is the source for the CPLD (CODEC_X2_CLK). */ si5351c_configure_multisynth(1, 0, 0, 0, 0);//p1 doesn't matter /* MS0/CLK2 is the source for SGPIO (CODEC_X2_CLK) */ si5351c_configure_multisynth(2, 0, 0, 0, 0);//p1 doesn't matter return true; } bool sample_rate_set(const uint32_t sample_rate_hz) { #ifdef JELLYBEAN /* Due to design issues, Jellybean/Lemondrop frequency plan is limited. * Long version of the story: The MAX2837 reference frequency * originates from the same PLL as the sample clocks, and in order to * keep the sample clocks in phase and keep jitter noise down, the MAX2837 * and sample clocks must be integer-related. */ uint32_t r_div_sample = 2; uint32_t r_div_sgpio = 1; switch( sample_rate_hz ) { case 5000000: r_div_sample = 3; /* 800 MHz / 20 / 8 = 5 MHz */ r_div_sgpio = 2; /* 800 MHz / 20 / 4 = 10 MHz */ break; case 10000000: r_div_sample = 2; /* 800 MHz / 20 / 4 = 10 MHz */ r_div_sgpio = 1; /* 800 MHz / 20 / 2 = 20 MHz */ break; case 20000000: r_div_sample = 1; /* 800 MHz / 20 / 2 = 20 MHz */ r_div_sgpio = 0; /* 800 MHz / 20 / 1 = 40 MHz */ break; default: return false; } /* NOTE: Because MS1, 2, 3 outputs are slaved to PLLA, the p1, p2, p3 * values are irrelevant. */ /* MS0/CLK1 is the source for the MAX5864 codec. */ si5351c_configure_multisynth(1, 4608, 0, 1, r_div_sample); /* MS0/CLK2 is the source for the CPLD codec clock (same as CLK1). */ si5351c_configure_multisynth(2, 4608, 0, 1, r_div_sample); /* MS0/CLK3 is the source for the SGPIO clock. */ si5351c_configure_multisynth(3, 4608, 0, 1, r_div_sgpio); return true; #endif #if (defined JAWBREAKER || defined HACKRF_ONE) uint32_t p1 = 4608; uint32_t p2 = 0; uint32_t p3 = 0; switch(sample_rate_hz) { case 8000000: p1 = SI_INTDIV(50); // 800MHz / 50 = 16 MHz (SGPIO), 8 MHz (codec) break; case 9216000: // 43.40277777777778: a = 43; b = 29; c = 72 p1 = 5043; p2 = 40; p3 = 72; break; case 10000000: p1 = SI_INTDIV(40); // 800MHz / 40 = 20 MHz (SGPIO), 10 MHz (codec) break; case 12288000: // 32.552083333333336: a = 32; b = 159; c = 288 p1 = 3654; p2 = 192; p3 = 288; break; case 12500000: p1 = SI_INTDIV(32); // 800MHz / 32 = 25 MHz (SGPIO), 12.5 MHz (codec) break; case 16000000: p1 = SI_INTDIV(25); // 800MHz / 25 = 32 MHz (SGPIO), 16 MHz (codec) break; case 18432000: // 21.70138888889: a = 21; b = 101; c = 144 p1 = 2265; p2 = 112; p3 = 144; break; case 20000000: p1 = SI_INTDIV(20); // 800MHz / 20 = 40 MHz (SGPIO), 20 MHz (codec) break; default: return false; } /* MS0/CLK0 is the source for the MAX5864/CPLD (CODEC_CLK). */ si5351c_configure_multisynth(0, p1, p2, p3, 1); /* MS0/CLK1 is the source for the CPLD (CODEC_X2_CLK). */ si5351c_configure_multisynth(1, p1, 0, 1, 0);//p1 doesn't matter /* MS0/CLK2 is the source for SGPIO (CODEC_X2_CLK) */ si5351c_configure_multisynth(2, p1, 0, 1, 0);//p1 doesn't matter return true; #endif } bool baseband_filter_bandwidth_set(const uint32_t bandwidth_hz) { return max2837_set_lpf_bandwidth(&max2837, bandwidth_hz); } /* clock startup for Jellybean with Lemondrop attached Configure PLL1 to max speed (204MHz). Note: PLL1 clock is used by M4/M0 core, Peripheral, APB1. */ void cpu_clock_init(void) { /* use IRC as clock source for APB1 (including I2C0) */ CGU_BASE_APB1_CLK = CGU_BASE_APB1_CLK_CLK_SEL(CGU_SRC_IRC); /* use IRC as clock source for APB3 */ CGU_BASE_APB3_CLK = CGU_BASE_APB3_CLK_CLK_SEL(CGU_SRC_IRC); i2c0_init(15); si5351c_disable_all_outputs(); si5351c_disable_oeb_pin_control(); si5351c_power_down_all_clocks(); si5351c_set_crystal_configuration(); si5351c_enable_xo_and_ms_fanout(); si5351c_configure_pll_sources(); si5351c_configure_pll_multisynth(); #ifdef JELLYBEAN /* * Jellybean/Lemondrop clocks: * CLK0 -> MAX2837 * CLK1 -> MAX5864/CPLD.GCLK0 * CLK2 -> CPLD.GCLK1 * CLK3 -> CPLD.GCLK2 * CLK4 -> LPC4330 * CLK5 -> RFFC5072 * CLK6 -> extra * CLK7 -> extra */ /* MS0/CLK0 is the source for the MAX2837 clock input. */ si5351c_configure_multisynth(0, 2048, 0, 1, 0); /* 40MHz */ /* MS4/CLK4 is the source for the LPC43xx microcontroller. */ si5351c_configure_multisynth(4, 8021, 0, 3, 0); /* 12MHz */ /* MS5/CLK5 is the source for the RFFC5071 mixer. */ si5351c_configure_multisynth(5, 1536, 0, 1, 0); /* 50MHz */ #endif #if (defined JAWBREAKER || defined HACKRF_ONE) /* * Jawbreaker clocks: * CLK0 -> MAX5864/CPLD * CLK1 -> CPLD * CLK2 -> SGPIO * CLK3 -> external clock output * CLK4 -> RFFC5072 * CLK5 -> MAX2837 * CLK6 -> none * CLK7 -> LPC4330 (but LPC4330 starts up on its own crystal) */ /* MS3/CLK3 is the source for the external clock output. */ si5351c_configure_multisynth(3, 80*128-512, 0, 1, 0); /* 800/80 = 10MHz */ /* MS4/CLK4 is the source for the RFFC5071 mixer. */ si5351c_configure_multisynth(4, 16*128-512, 0, 1, 0); /* 800/16 = 50MHz */ /* MS5/CLK5 is the source for the MAX2837 clock input. */ si5351c_configure_multisynth(5, 20*128-512, 0, 1, 0); /* 800/20 = 40MHz */ /* MS6/CLK6 is unused. */ /* MS7/CLK7 is the source for the LPC43xx microcontroller. */ uint8_t ms7data[] = { 90, 255, 20, 0 }; si5351c_write(ms7data, sizeof(ms7data)); #endif /* Set to 10 MHz, the common rate between Jellybean and Jawbreaker. */ sample_rate_set(10000000); si5351c_set_clock_source(PLL_SOURCE_XTAL); // soft reset uint8_t resetdata[] = { 177, 0xac }; si5351c_write(resetdata, sizeof(resetdata)); si5351c_enable_clock_outputs(); //FIXME disable I2C /* Kick I2C0 down to 400kHz when we switch over to APB1 clock = 204MHz */ i2c0_init(255); /* * 12MHz clock is entering LPC XTAL1/OSC input now. On * Jellybean/Lemondrop, this is a signal from the clock generator. On * Jawbreaker, there is a 12 MHz crystal at the LPC. * Set up PLL1 to run from XTAL1 input. */ //FIXME a lot of the details here should be in a CGU driver #ifdef JELLYBEAN /* configure xtal oscillator for external clock input signal */ CGU_XTAL_OSC_CTRL |= CGU_XTAL_OSC_CTRL_BYPASS; #endif /* set xtal oscillator to low frequency mode */ CGU_XTAL_OSC_CTRL &= ~CGU_XTAL_OSC_CTRL_HF_MASK; /* power on the oscillator and wait until stable */ CGU_XTAL_OSC_CTRL &= ~CGU_XTAL_OSC_CTRL_ENABLE_MASK; /* Wait about 100us after Crystal Power ON */ delay(WAIT_CPU_CLOCK_INIT_DELAY); /* use XTAL_OSC as clock source for BASE_M4_CLK (CPU) */ CGU_BASE_M4_CLK = (CGU_BASE_M4_CLK_CLK_SEL(CGU_SRC_XTAL) | CGU_BASE_M4_CLK_AUTOBLOCK(1)); /* use XTAL_OSC as clock source for APB1 */ CGU_BASE_APB1_CLK = CGU_BASE_APB1_CLK_AUTOBLOCK(1) | CGU_BASE_APB1_CLK_CLK_SEL(CGU_SRC_XTAL); /* use XTAL_OSC as clock source for APB3 */ CGU_BASE_APB3_CLK = CGU_BASE_APB3_CLK_AUTOBLOCK(1) | CGU_BASE_APB3_CLK_CLK_SEL(CGU_SRC_XTAL); cpu_clock_pll1_low_speed(); /* use PLL1 as clock source for BASE_M4_CLK (CPU) */ CGU_BASE_M4_CLK = (CGU_BASE_M4_CLK_CLK_SEL(CGU_SRC_PLL1) | CGU_BASE_M4_CLK_AUTOBLOCK(1)); /* use XTAL_OSC as clock source for PLL0USB */ CGU_PLL0USB_CTRL = CGU_PLL0USB_CTRL_PD(1) | CGU_PLL0USB_CTRL_AUTOBLOCK(1) | CGU_PLL0USB_CTRL_CLK_SEL(CGU_SRC_XTAL); while (CGU_PLL0USB_STAT & CGU_PLL0USB_STAT_LOCK_MASK); /* configure PLL0USB to produce 480 MHz clock from 12 MHz XTAL_OSC */ /* Values from User Manual v1.4 Table 94, for 12MHz oscillator. */ CGU_PLL0USB_MDIV = 0x06167FFA; CGU_PLL0USB_NP_DIV = 0x00302062; CGU_PLL0USB_CTRL |= (CGU_PLL0USB_CTRL_PD(1) | CGU_PLL0USB_CTRL_DIRECTI(1) | CGU_PLL0USB_CTRL_DIRECTO(1) | CGU_PLL0USB_CTRL_CLKEN(1)); /* power on PLL0USB and wait until stable */ CGU_PLL0USB_CTRL &= ~CGU_PLL0USB_CTRL_PD_MASK; while (!(CGU_PLL0USB_STAT & CGU_PLL0USB_STAT_LOCK_MASK)); /* use PLL0USB as clock source for USB0 */ CGU_BASE_USB0_CLK = CGU_BASE_USB0_CLK_AUTOBLOCK(1) | CGU_BASE_USB0_CLK_CLK_SEL(CGU_SRC_PLL0USB); /* Switch peripheral clock over to use PLL1 (204MHz) */ CGU_BASE_PERIPH_CLK = CGU_BASE_PERIPH_CLK_AUTOBLOCK(1) | CGU_BASE_PERIPH_CLK_CLK_SEL(CGU_SRC_PLL1); /* Switch APB1 clock over to use PLL1 (204MHz) */ CGU_BASE_APB1_CLK = CGU_BASE_APB1_CLK_AUTOBLOCK(1) | CGU_BASE_APB1_CLK_CLK_SEL(CGU_SRC_PLL1); /* Switch APB3 clock over to use PLL1 (204MHz) */ CGU_BASE_APB3_CLK = CGU_BASE_APB3_CLK_AUTOBLOCK(1) | CGU_BASE_APB3_CLK_CLK_SEL(CGU_SRC_PLL1); } /* Configure PLL1 to low speed (48MHz). Note: PLL1 clock is used by M4/M0 core, Peripheral, APB1. This function shall be called after cpu_clock_init(). This function is mainly used to lower power consumption. */ void cpu_clock_pll1_low_speed(void) { uint32_t pll_reg; /* Configure PLL1 Clock (48MHz) */ /* Integer mode: FCLKOUT = M*(FCLKIN/N) FCCO = 2*P*FCLKOUT = 2*P*M*(FCLKIN/N) */ pll_reg = CGU_PLL1_CTRL; /* Clear PLL1 bits */ pll_reg &= ~( CGU_PLL1_CTRL_CLK_SEL_MASK | CGU_PLL1_CTRL_PD_MASK | CGU_PLL1_CTRL_FBSEL_MASK | /* CLK SEL, PowerDown , FBSEL */ CGU_PLL1_CTRL_BYPASS_MASK | /* BYPASS */ CGU_PLL1_CTRL_DIRECT_MASK | /* DIRECT */ CGU_PLL1_CTRL_PSEL_MASK | CGU_PLL1_CTRL_MSEL_MASK | CGU_PLL1_CTRL_NSEL_MASK ); /* PSEL, MSEL, NSEL- divider ratios */ /* Set PLL1 up to 12MHz * 4 = 48MHz. */ pll_reg |= CGU_PLL1_CTRL_CLK_SEL(CGU_SRC_XTAL) | CGU_PLL1_CTRL_PSEL(0) | CGU_PLL1_CTRL_NSEL(0) | CGU_PLL1_CTRL_MSEL(3) | CGU_PLL1_CTRL_FBSEL(1) | CGU_PLL1_CTRL_DIRECT(1); CGU_PLL1_CTRL = pll_reg; /* wait until stable */ while (!(CGU_PLL1_STAT & CGU_PLL1_STAT_LOCK_MASK)); /* Wait a delay after switch to new frequency with Direct mode */ delay(WAIT_CPU_CLOCK_INIT_DELAY); } /* Configure PLL1 (Main MCU Clock) to max speed (204MHz). Note: PLL1 clock is used by M4/M0 core, Peripheral, APB1. This function shall be called after cpu_clock_init(). */ void cpu_clock_pll1_max_speed(void) { uint32_t pll_reg; /* Configure PLL1 to Intermediate Clock (between 90 MHz and 110 MHz) */ /* Integer mode: FCLKOUT = M*(FCLKIN/N) FCCO = 2*P*FCLKOUT = 2*P*M*(FCLKIN/N) */ pll_reg = CGU_PLL1_CTRL; /* Clear PLL1 bits */ pll_reg &= ~( CGU_PLL1_CTRL_CLK_SEL_MASK | CGU_PLL1_CTRL_PD_MASK | CGU_PLL1_CTRL_FBSEL_MASK | /* CLK SEL, PowerDown , FBSEL */ CGU_PLL1_CTRL_BYPASS_MASK | /* BYPASS */ CGU_PLL1_CTRL_DIRECT_MASK | /* DIRECT */ CGU_PLL1_CTRL_PSEL_MASK | CGU_PLL1_CTRL_MSEL_MASK | CGU_PLL1_CTRL_NSEL_MASK ); /* PSEL, MSEL, NSEL- divider ratios */ /* Set PLL1 up to 12MHz * 8 = 96MHz. */ pll_reg |= CGU_PLL1_CTRL_CLK_SEL(CGU_SRC_XTAL) | CGU_PLL1_CTRL_PSEL(0) | CGU_PLL1_CTRL_NSEL(0) | CGU_PLL1_CTRL_MSEL(7) | CGU_PLL1_CTRL_FBSEL(1); CGU_PLL1_CTRL = pll_reg; /* wait until stable */ while (!(CGU_PLL1_STAT & CGU_PLL1_STAT_LOCK_MASK)); /* Wait before to switch to max speed */ delay(WAIT_CPU_CLOCK_INIT_DELAY); /* Configure PLL1 Max Speed */ /* Direct mode: FCLKOUT = FCCO = M*(FCLKIN/N) */ pll_reg = CGU_PLL1_CTRL; /* Clear PLL1 bits */ pll_reg &= ~( CGU_PLL1_CTRL_CLK_SEL_MASK | CGU_PLL1_CTRL_PD_MASK | CGU_PLL1_CTRL_FBSEL_MASK | /* CLK SEL, PowerDown , FBSEL */ CGU_PLL1_CTRL_BYPASS_MASK | /* BYPASS */ CGU_PLL1_CTRL_DIRECT_MASK | /* DIRECT */ CGU_PLL1_CTRL_PSEL_MASK | CGU_PLL1_CTRL_MSEL_MASK | CGU_PLL1_CTRL_NSEL_MASK ); /* PSEL, MSEL, NSEL- divider ratios */ /* Set PLL1 up to 12MHz * 17 = 204MHz. */ pll_reg |= CGU_PLL1_CTRL_CLK_SEL(CGU_SRC_XTAL) | CGU_PLL1_CTRL_PSEL(0) | CGU_PLL1_CTRL_NSEL(0) | CGU_PLL1_CTRL_MSEL(16) | CGU_PLL1_CTRL_FBSEL(1) | CGU_PLL1_CTRL_DIRECT(1); CGU_PLL1_CTRL = pll_reg; /* wait until stable */ while (!(CGU_PLL1_STAT & CGU_PLL1_STAT_LOCK_MASK)); } void ssp1_set_mode_max2837(void) { spi_init(max2837.spi, &ssp1_config_max2837); } void ssp1_set_mode_max5864(void) { spi_init(max5864.spi, &ssp1_config_max5864); } void pin_setup(void) { /* Release CPLD JTAG pins */ scu_pinmux(SCU_PINMUX_CPLD_TDO, SCU_GPIO_NOPULL | SCU_CONF_FUNCTION4); scu_pinmux(SCU_PINMUX_CPLD_TCK, SCU_GPIO_NOPULL | SCU_CONF_FUNCTION0); scu_pinmux(SCU_PINMUX_CPLD_TMS, SCU_GPIO_NOPULL | SCU_CONF_FUNCTION0); scu_pinmux(SCU_PINMUX_CPLD_TDI, SCU_GPIO_NOPULL | SCU_CONF_FUNCTION0); GPIO_DIR(PORT_CPLD_TDO) &= ~PIN_CPLD_TDO; GPIO_DIR(PORT_CPLD_TCK) &= ~PIN_CPLD_TCK; GPIO_DIR(PORT_CPLD_TMS) &= ~PIN_CPLD_TMS; GPIO_DIR(PORT_CPLD_TDI) &= ~PIN_CPLD_TDI; /* Configure SCU Pin Mux as GPIO */ scu_pinmux(SCU_PINMUX_LED1, SCU_GPIO_NOPULL); scu_pinmux(SCU_PINMUX_LED2, SCU_GPIO_NOPULL); scu_pinmux(SCU_PINMUX_LED3, SCU_GPIO_NOPULL); scu_pinmux(SCU_PINMUX_EN1V8, SCU_GPIO_NOPULL); /* Configure USB indicators */ #if (defined JELLYBEAN || defined JAWBREAKER) scu_pinmux(SCU_PINMUX_USB_LED0, SCU_CONF_FUNCTION3); scu_pinmux(SCU_PINMUX_USB_LED1, SCU_CONF_FUNCTION3); #endif /* Configure all GPIO as Input (safe state) */ GPIO0_DIR = 0; GPIO1_DIR = 0; GPIO2_DIR = 0; GPIO3_DIR = 0; GPIO4_DIR = 0; GPIO5_DIR = 0; GPIO6_DIR = 0; GPIO7_DIR = 0; /* Configure GPIO2[1/2/8] (P4_1/2 P6_12) as output. */ GPIO2_DIR |= (PIN_LED1 | PIN_LED2 | PIN_LED3); /* GPIO3[6] on P6_10 as output. */ GPIO3_DIR |= PIN_EN1V8; rf_path_pin_setup(); /* Configure external clock in */ scu_pinmux(SCU_PINMUX_GP_CLKIN, SCU_CLK_IN | SCU_CONF_FUNCTION1); sgpio_configure_pin_functions(); } void enable_1v8_power(void) { gpio_set(PORT_EN1V8, PIN_EN1V8); } void disable_1v8_power(void) { gpio_clear(PORT_EN1V8, PIN_EN1V8); } #ifdef HACKRF_ONE void enable_rf_power(void) { gpio_clear(PORT_NO_VAA_ENABLE, PIN_NO_VAA_ENABLE); } void disable_rf_power(void) { gpio_set(PORT_NO_VAA_ENABLE, PIN_NO_VAA_ENABLE); } #endif