HackRF-Treasure-Chest/Software/portapack-mayhem/hackrf/firmware/common/operacake_sctimer.c

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2022-09-22 18:26:57 +02:00
/*
* Copyright 2018 Schuyler St. Leger
* Copyright 2021 Great Scott Gadgets
*
* 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 "operacake_sctimer.h"
#include <hackrf_core.h>
#include <libopencm3/lpc43xx/sgpio.h>
#include <libopencm3/lpc43xx/rgu.h>
#include <libopencm3/lpc43xx/scu.h>
#include <libopencm3/lpc43xx/gima.h>
#include "sct.h"
#define U1CTRL_SET SCT_OUT14_SET
#define U1CTRL_CLR SCT_OUT14_CLR
#define U2CTRL0_SET SCT_OUT13_SET
#define U2CTRL0_CLR SCT_OUT13_CLR
#define U2CTRL1_SET SCT_OUT12_SET
#define U2CTRL1_CLR SCT_OUT12_CLR
#define U3CTRL0_SET SCT_OUT11_SET
#define U3CTRL0_CLR SCT_OUT11_CLR
#define U3CTRL1_SET SCT_OUT8_SET
#define U3CTRL1_CLR SCT_OUT8_CLR
static uint32_t default_output = 0;
/**
* Configure the SCTimer to rotate the antennas with the Operacake in phase with
* the sample clock. This will configure the SCTimer to output to the pins for
* GPIO control of the Operacake, however the Operacake must be configured for
* GPIO control. The timing is not set in this function.
*
* To trigger the antenna switching synchronously with the sample clock, the
* SGPIO is configured to output its clock (f=2 * sample clock) to the SCTimer.
*/
void operacake_sctimer_init() {
// We start by resetting the SCTimer
RESET_CTRL1 = RESET_CTRL1_SCT_RST;
// Delay to allow reset sigal to be processed
// The reset generator uses a 12MHz clock (IRC)
// The difference between this and the core clock (CCLK)
// determines this value (CCLK/IRC).
// The value used here is a bit shorter than would be required, since
// there are additional instructions that fill the time. If the duration of
// the actions from here to the first access to the SCTimer is changed, then
// this delay may need to be increased.
delay(8);
// Pin definitions for the HackRF
// U2CTRL0
scu_pinmux(P7_4, SCU_CONF_EPUN_DIS_PULLUP | SCU_CONF_EHS_FAST | SCU_CONF_FUNCTION1);
// U2CTRL1
scu_pinmux(P7_5, SCU_CONF_EPUN_DIS_PULLUP | SCU_CONF_EHS_FAST | SCU_CONF_FUNCTION1);
// U3CTRL0
scu_pinmux(P7_6, SCU_CONF_EPUN_DIS_PULLUP | SCU_CONF_EHS_FAST | SCU_CONF_FUNCTION1);
// U3CTRL1
scu_pinmux(P7_7, SCU_CONF_EPUN_DIS_PULLUP | SCU_CONF_EHS_FAST | SCU_CONF_FUNCTION1);
// U1CTRL
scu_pinmux(P7_0, SCU_CONF_EPUN_DIS_PULLUP | SCU_CONF_EHS_FAST | SCU_CONF_FUNCTION1);
// Configure the SGPIO to output the clock (f=2 * sample clock) on pin 12
SGPIO_OUT_MUX_CFG12 =
SGPIO_OUT_MUX_CFG_P_OUT_CFG(0x08) | // clkout output mode
SGPIO_OUT_MUX_CFG_P_OE_CFG(0); // gpio_oe
SGPIO_GPIO_OENREG |= BIT12;
// Use the GIMA to connect the SGPIO clock to the SCTimer
GIMA_CTIN_1_IN = 0x2 << 4; // Route SGPIO12 to SCTIN1
// We configure this register first, because the user manual says to
SCT_CONFIG |= SCT_CONFIG_UNIFY_32_BIT
| SCT_CONFIG_CLKMODE_PRESCALED_BUS_CLOCK
| SCT_CONFIG_CKSEL_RISING_EDGES_ON_INPUT_1;
// Halt the SCTimer to enable it to be configured
SCT_CTRL = SCT_CTRL_HALT_L(1);
// Prescaler - run at half the SGPIO clock (ie: at the sample clock)
SCT_CTRL |= SCT_CTRL_PRE_L(1);
// Default to state 0, events disabled
SCT_STATE = 0;
// Enable the SCTimer
SCT_CTRL &= ~SCT_CTRL_HALT_L(1);
}
static uint32_t operacake_sctimer_port_to_output(uint8_t port) {
int bit0 = (port >> 0) & 1;
int bit1 = (port >> 1) & 1;
int bit2 = (port >> 2) & 1;
return (bit0 << 11) | (bit0 << 13) |
(bit1 << 8) | (bit1 << 12) |
(((~bit2)&1) << 14);
}
void operacake_sctimer_enable(bool enable) {
SCT_CTRL = SCT_CTRL_HALT_L(1);
SCT_STATE = enable;
SCT_CTRL &= ~SCT_CTRL_HALT_L(1);
}
void operacake_sctimer_set_dwell_times(struct operacake_dwell_times *times, int n) {
SCT_CTRL = SCT_CTRL_HALT_L(1);
uint32_t counter = 0;
uint32_t bit0_set = 0, bit0_clr = 0, bit1_set = 0, bit1_clr = 0, bit2_set = 0, bit2_clr = 0;
for (int i = 0; i < n; i++) {
// Enable event i in state 1, set to match on match register i
SCT_EVn_STATE(i) = SCT_EVn_STATE_STATEMSK1(1);
SCT_EVn_CTRL(i) = SCT_EVn_CTRL_COMBMODE_MATCH | SCT_EVn_CTRL_MATCHSEL(i);
// Calculate the counter value to match on
counter += times[i].dwell;
// Wrapping from SCT_LIMIT seems to add an extra cycle,
// so we reduce the counter value for the first event.
if (i == 0)
counter -= 1;
SCT_MATCHn(i) = counter;
SCT_MATCHRELn(i) = counter;
// The match event selects the *next* port, so retreive that here.
int port;
if (i == n - 1) {
port = times[0].port;
} else {
port = times[i+1].port;
}
int bit0 = (port >> 0) & 1;
int bit1 = (port >> 1) & 1;
int bit2 = (port >> 2) & 1;
// Find bits to set/clear on event i
bit0_set |= SCT_OUTn_SETm( bit0, i);
bit0_clr |= SCT_OUTn_CLRm(~bit0, i);
bit1_set |= SCT_OUTn_SETm( bit1, i);
bit1_clr |= SCT_OUTn_CLRm(~bit1, i);
// (U1CTRL is inverted)
bit2_set |= SCT_OUTn_SETm(~bit2, i);
bit2_clr |= SCT_OUTn_CLRm( bit2, i);
}
// Apply event set/clear mappings
U2CTRL0_SET = bit0_set;
U2CTRL0_CLR = bit0_clr;
U3CTRL0_SET = bit0_set;
U3CTRL0_CLR = bit0_clr;
U2CTRL1_SET = bit1_set;
U2CTRL1_CLR = bit1_clr;
U3CTRL1_SET = bit1_set;
U3CTRL1_CLR = bit1_clr;
U1CTRL_SET = bit2_set;
U1CTRL_CLR = bit2_clr;
// Set output pins to select the first port in the list
default_output = operacake_sctimer_port_to_output(times[0].port);
SCT_OUTPUT = default_output;
// Reset counter on final event
SCT_LIMIT = (1 << (n-1));
SCT_CTRL &= ~SCT_CTRL_HALT_L(1);
}
void operacake_sctimer_stop() {
// Halt timer
SCT_CTRL |= SCT_CTRL_HALT_L(1);
}
/**
* This will reset the state of the SCTimer, but retains its configuration.
* This reset will return the selected antenna to 1 and samesided. This is
* called by set_transceiver_mode so the HackRF starts capturing with the
* same antenna selected each time.
*/
void operacake_sctimer_reset_state() {
SCT_CTRL |= SCT_CTRL_HALT_L(1);
// Clear the counter value
SCT_CTRL |= SCT_CTRL_CLRCTR_L(1);
// Reset to select the first port
SCT_OUTPUT = default_output;
SCT_CTRL &= ~SCT_CTRL_HALT_L(1);
}