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

/*
 * 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 <stddef.h>
#include <string.h>

#include <libopencm3/lpc43xx/ipc.h>
#include <libopencm3/lpc43xx/m4/nvic.h>
#include <libopencm3/lpc43xx/rgu.h>

#include <streaming.h>

#include "tuning.h"

#include "usb.h"
#include "usb_standard_request.h"

#include <rom_iap.h>
#include "usb_descriptor.h"

#include "usb_device.h"
#include "usb_endpoint.h"
#include "usb_api_board_info.h"
#include "usb_api_cpld.h"
#include "usb_api_register.h"
#include "usb_api_spiflash.h"
#include "usb_api_operacake.h"
#include "operacake.h"
#include "usb_api_sweep.h"
#include "usb_api_transceiver.h"
#include "usb_api_ui.h"
#include "usb_bulk_buffer.h"
#include "usb_api_m0_state.h"
#include "cpld_xc2c.h"
#include "portapack.h"
 
#include "hackrf_ui.h"

extern uint32_t __m0_start__;
extern uint32_t __m0_end__;
extern uint32_t __ram_m0_start__;
extern uint32_t _etext_ram, _text_ram, _etext_rom;

static usb_request_handler_fn vendor_request_handler[] = {
	NULL,
	usb_vendor_request_set_transceiver_mode,
	usb_vendor_request_write_max2837,
	usb_vendor_request_read_max2837,
	usb_vendor_request_write_si5351c,
	usb_vendor_request_read_si5351c,
	usb_vendor_request_set_sample_rate_frac,
	usb_vendor_request_set_baseband_filter_bandwidth,
#ifdef RAD1O
	NULL, // write_rffc5071 not used
	NULL, // read_rffc5071 not used
#else
	usb_vendor_request_write_rffc5071,
	usb_vendor_request_read_rffc5071,
#endif
	usb_vendor_request_erase_spiflash,
	usb_vendor_request_write_spiflash,
	usb_vendor_request_read_spiflash,
	NULL, // used to be write_cpld
	usb_vendor_request_read_board_id,
	usb_vendor_request_read_version_string,
	usb_vendor_request_set_freq,
	usb_vendor_request_set_amp_enable,
	usb_vendor_request_read_partid_serialno,
	usb_vendor_request_set_lna_gain,
	usb_vendor_request_set_vga_gain,
	usb_vendor_request_set_txvga_gain,
	NULL, // was set_if_freq
#ifdef HACKRF_ONE
	usb_vendor_request_set_antenna_enable,
#else
	NULL,
#endif
	usb_vendor_request_set_freq_explicit,
	usb_vendor_request_read_wcid,  // USB_WCID_VENDOR_REQ
	usb_vendor_request_init_sweep,
	usb_vendor_request_operacake_get_boards,
	usb_vendor_request_operacake_set_ports,
	usb_vendor_request_set_hw_sync_mode,
	usb_vendor_request_reset,
	usb_vendor_request_operacake_set_ranges,
	usb_vendor_request_set_clkout_enable,
	usb_vendor_request_spiflash_status,
	usb_vendor_request_spiflash_clear_status,
	usb_vendor_request_operacake_gpio_test,
#ifdef HACKRF_ONE
	usb_vendor_request_cpld_checksum,
#else
	NULL,
#endif
	usb_vendor_request_set_ui_enable,
	usb_vendor_request_operacake_set_mode,
	usb_vendor_request_operacake_get_mode,
	usb_vendor_request_operacake_set_dwell_times,
	usb_vendor_request_get_m0_state,
	usb_vendor_request_set_tx_underrun_limit,
	usb_vendor_request_set_rx_overrun_limit,
};

static const uint32_t vendor_request_handler_count =
	sizeof(vendor_request_handler) / sizeof(vendor_request_handler[0]);

usb_request_status_t usb_vendor_request(
	usb_endpoint_t* const endpoint,
	const usb_transfer_stage_t stage
) {
	usb_request_status_t status = USB_REQUEST_STATUS_STALL;
	
	if( endpoint->setup.request < vendor_request_handler_count ) {
		usb_request_handler_fn handler = vendor_request_handler[endpoint->setup.request];
		if( handler ) {
			status = handler(endpoint, stage);
		}
	}
	
	return status;
}

const usb_request_handlers_t usb_request_handlers = {
	.standard = usb_standard_request,
	.class = 0,
	.vendor = usb_vendor_request,
	.reserved = 0,
};

void usb_configuration_changed(
	usb_device_t* const device
) {
	/* Reset transceiver to idle state until other commands are received */
	request_transceiver_mode(TRANSCEIVER_MODE_OFF);
	if( device->configuration->number == 1 ) {
		// transceiver configuration
		led_on(LED1);
	} else {
		/* Configuration number equal 0 means usb bus reset. */
		led_off(LED1);
	}
	usb_endpoint_init(&usb_endpoint_bulk_in);
	usb_endpoint_init(&usb_endpoint_bulk_out);
}

void usb_set_descriptor_by_serial_number(void)
{
	iap_cmd_res_t iap_cmd_res;
	
	/* Read IAP Serial Number Identification */
	iap_cmd_res.cmd_param.command_code = IAP_CMD_READ_SERIAL_NO;
	iap_cmd_call(&iap_cmd_res);
	
	if (iap_cmd_res.status_res.status_ret == CMD_SUCCESS) {
		usb_descriptor_string_serial_number[0] = USB_DESCRIPTOR_STRING_SERIAL_BUF_LEN;
		usb_descriptor_string_serial_number[1] = USB_DESCRIPTOR_TYPE_STRING;
		
		/* 32 characters of serial number, convert to UTF-16LE */
		for (size_t i=0; i<USB_DESCRIPTOR_STRING_SERIAL_LEN; i++) {
			const uint_fast8_t nibble = (iap_cmd_res.status_res.iap_result[i >> 3] >> (28 - (i & 7) * 4)) & 0xf;
			const char c = (nibble > 9) ? ('a' + nibble - 10) : ('0' + nibble);
			usb_descriptor_string_serial_number[2 + i * 2] = c;
			usb_descriptor_string_serial_number[3 + i * 2] = 0x00;
		}
	} else {
		usb_descriptor_string_serial_number[0] = 2;
		usb_descriptor_string_serial_number[1] = USB_DESCRIPTOR_TYPE_STRING;
	}
}

static bool cpld_jtag_sram_load(jtag_t* const jtag) {
	cpld_jtag_take(jtag);
	cpld_xc2c64a_jtag_sram_write(jtag, &cpld_hackrf_program_sram);
	const bool success = cpld_xc2c64a_jtag_sram_verify(jtag, &cpld_hackrf_program_sram, &cpld_hackrf_verify);
	cpld_jtag_release(jtag);
	return success;
}

static void m0_rom_to_ram() {
	uint32_t *dest = &__ram_m0_start__;

	// Calculate the base address of ROM
	uint32_t base = (uint32_t)(&_etext_rom - (&_etext_ram - &_text_ram));

	// M0 image location, relative to the start of ROM
	uint32_t src = (uint32_t)&__m0_start__;

	uint32_t len = (uint32_t)&__m0_end__ - (uint32_t)src;
	memcpy(dest, (uint32_t*)(base + src), len);
}

int main(void) {
	// Copy M0 image from ROM before SPIFI is disabled
	m0_rom_to_ram();

	pin_setup();
	enable_1v8_power();
#if (defined HACKRF_ONE || defined RAD1O)
	enable_rf_power();

	/* Let the voltage stabilize */
	delay(1000000);
#endif
	cpu_clock_init();

	/* Wake the M0 */
	ipc_start_m0((uint32_t)&__ram_m0_start__);

	if( !cpld_jtag_sram_load(&jtag_cpld) ) {
		halt_and_flash(6000000);
	}

#ifdef HACKRF_ONE
	portapack_init();
#endif

#ifndef DFU_MODE
	usb_set_descriptor_by_serial_number();
#endif

	usb_set_configuration_changed_cb(usb_configuration_changed);
	usb_peripheral_reset();
	
	usb_device_init(0, &usb_device);
	
	usb_queue_init(&usb_endpoint_control_out_queue);
	usb_queue_init(&usb_endpoint_control_in_queue);
	usb_queue_init(&usb_endpoint_bulk_out_queue);
	usb_queue_init(&usb_endpoint_bulk_in_queue);

	usb_endpoint_init(&usb_endpoint_control_out);
	usb_endpoint_init(&usb_endpoint_control_in);
	
	nvic_set_priority(NVIC_USB0_IRQ, 255);

	hackrf_ui()->init();

	usb_run(&usb_device);
	
	rf_path_init(&rf_path);

	bool operacake_allow_gpio;
	if( hackrf_ui()->operacake_gpio_compatible() ) {
		operacake_allow_gpio = true;
	} else {
		operacake_allow_gpio = false;
	}
	operacake_init(operacake_allow_gpio);

	while(true) {
		transceiver_request_t request;

		// Briefly disable USB interrupt so that we can
		// atomically retrieve both the transceiver mode
		// and the mode change sequence number. They are
		// changed together by request_transceiver_mode()
		// called from the USB ISR.

		nvic_disable_irq(NVIC_USB0_IRQ);
		request = transceiver_request;
		nvic_enable_irq(NVIC_USB0_IRQ);

		switch (request.mode) {
		case TRANSCEIVER_MODE_OFF:
			off_mode(request.seq);
			break;
		case TRANSCEIVER_MODE_RX:
			rx_mode(request.seq);
			break;
		case TRANSCEIVER_MODE_TX:
			tx_mode(request.seq);
			break;
		case TRANSCEIVER_MODE_RX_SWEEP:
			sweep_mode(request.seq);
			break;
		case TRANSCEIVER_MODE_CPLD_UPDATE:
			cpld_update();
			break;
		default:
			break;
		}
	}

	return 0;
}
Add software 2022-09-22 18:26:57 +02:00			`/*`
			`* 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 <stddef.h>`
			`#include <string.h>`

			`#include <libopencm3/lpc43xx/ipc.h>`
			`#include <libopencm3/lpc43xx/m4/nvic.h>`
			`#include <libopencm3/lpc43xx/rgu.h>`

			`#include <streaming.h>`

			`#include "tuning.h"`

			`#include "usb.h"`
			`#include "usb_standard_request.h"`

			`#include <rom_iap.h>`
			`#include "usb_descriptor.h"`

			`#include "usb_device.h"`
			`#include "usb_endpoint.h"`
			`#include "usb_api_board_info.h"`
			`#include "usb_api_cpld.h"`
			`#include "usb_api_register.h"`
			`#include "usb_api_spiflash.h"`
			`#include "usb_api_operacake.h"`
			`#include "operacake.h"`
			`#include "usb_api_sweep.h"`
			`#include "usb_api_transceiver.h"`
			`#include "usb_api_ui.h"`
			`#include "usb_bulk_buffer.h"`
			`#include "usb_api_m0_state.h"`
			`#include "cpld_xc2c.h"`
			`#include "portapack.h"`

			`#include "hackrf_ui.h"`

			`extern uint32_t __m0_start__;`
			`extern uint32_t __m0_end__;`
			`extern uint32_t __ram_m0_start__;`
			`extern uint32_t _etext_ram, _text_ram, _etext_rom;`

			`static usb_request_handler_fn vendor_request_handler[] = {`
			`NULL,`
			`usb_vendor_request_set_transceiver_mode,`
			`usb_vendor_request_write_max2837,`
			`usb_vendor_request_read_max2837,`
			`usb_vendor_request_write_si5351c,`
			`usb_vendor_request_read_si5351c,`
			`usb_vendor_request_set_sample_rate_frac,`
			`usb_vendor_request_set_baseband_filter_bandwidth,`
			`#ifdef RAD1O`
			`NULL, // write_rffc5071 not used`
			`NULL, // read_rffc5071 not used`
			`#else`
			`usb_vendor_request_write_rffc5071,`
			`usb_vendor_request_read_rffc5071,`
			`#endif`
			`usb_vendor_request_erase_spiflash,`
			`usb_vendor_request_write_spiflash,`
			`usb_vendor_request_read_spiflash,`
			`NULL, // used to be write_cpld`
			`usb_vendor_request_read_board_id,`
			`usb_vendor_request_read_version_string,`
			`usb_vendor_request_set_freq,`
			`usb_vendor_request_set_amp_enable,`
			`usb_vendor_request_read_partid_serialno,`
			`usb_vendor_request_set_lna_gain,`
			`usb_vendor_request_set_vga_gain,`
			`usb_vendor_request_set_txvga_gain,`
			`NULL, // was set_if_freq`
			`#ifdef HACKRF_ONE`
			`usb_vendor_request_set_antenna_enable,`
			`#else`
			`NULL,`
			`#endif`
			`usb_vendor_request_set_freq_explicit,`
			`usb_vendor_request_read_wcid, // USB_WCID_VENDOR_REQ`
			`usb_vendor_request_init_sweep,`
			`usb_vendor_request_operacake_get_boards,`
			`usb_vendor_request_operacake_set_ports,`
			`usb_vendor_request_set_hw_sync_mode,`
			`usb_vendor_request_reset,`
			`usb_vendor_request_operacake_set_ranges,`
			`usb_vendor_request_set_clkout_enable,`
			`usb_vendor_request_spiflash_status,`
			`usb_vendor_request_spiflash_clear_status,`
			`usb_vendor_request_operacake_gpio_test,`
			`#ifdef HACKRF_ONE`
			`usb_vendor_request_cpld_checksum,`
			`#else`
			`NULL,`
			`#endif`
			`usb_vendor_request_set_ui_enable,`
			`usb_vendor_request_operacake_set_mode,`
			`usb_vendor_request_operacake_get_mode,`
			`usb_vendor_request_operacake_set_dwell_times,`
			`usb_vendor_request_get_m0_state,`
			`usb_vendor_request_set_tx_underrun_limit,`
			`usb_vendor_request_set_rx_overrun_limit,`
			`};`

			`static const uint32_t vendor_request_handler_count =`
			`sizeof(vendor_request_handler) / sizeof(vendor_request_handler[0]);`

			`usb_request_status_t usb_vendor_request(`
			`usb_endpoint_t* const endpoint,`
			`const usb_transfer_stage_t stage`
			`) {`
			`usb_request_status_t status = USB_REQUEST_STATUS_STALL;`

			`if( endpoint->setup.request < vendor_request_handler_count ) {`
			`usb_request_handler_fn handler = vendor_request_handler[endpoint->setup.request];`
			`if( handler ) {`
			`status = handler(endpoint, stage);`
			`}`
			`}`

			`return status;`
			`}`

			`const usb_request_handlers_t usb_request_handlers = {`
			`.standard = usb_standard_request,`
			`.class = 0,`
			`.vendor = usb_vendor_request,`
			`.reserved = 0,`
			`};`

			`void usb_configuration_changed(`
			`usb_device_t* const device`
			`) {`
			`/* Reset transceiver to idle state until other commands are received */`
			`request_transceiver_mode(TRANSCEIVER_MODE_OFF);`
			`if( device->configuration->number == 1 ) {`
			`// transceiver configuration`
			`led_on(LED1);`
			`} else {`
			`/* Configuration number equal 0 means usb bus reset. */`
			`led_off(LED1);`
			`}`
			`usb_endpoint_init(&usb_endpoint_bulk_in);`
			`usb_endpoint_init(&usb_endpoint_bulk_out);`
			`}`

			`void usb_set_descriptor_by_serial_number(void)`
			`{`
			`iap_cmd_res_t iap_cmd_res;`

			`/* Read IAP Serial Number Identification */`
			`iap_cmd_res.cmd_param.command_code = IAP_CMD_READ_SERIAL_NO;`
			`iap_cmd_call(&iap_cmd_res);`

			`if (iap_cmd_res.status_res.status_ret == CMD_SUCCESS) {`
			`usb_descriptor_string_serial_number[0] = USB_DESCRIPTOR_STRING_SERIAL_BUF_LEN;`
			`usb_descriptor_string_serial_number[1] = USB_DESCRIPTOR_TYPE_STRING;`

			`/* 32 characters of serial number, convert to UTF-16LE */`
			`for (size_t i=0; i<USB_DESCRIPTOR_STRING_SERIAL_LEN; i++) {`
			`const uint_fast8_t nibble = (iap_cmd_res.status_res.iap_result[i >> 3] >> (28 - (i & 7) * 4)) & 0xf;`
			`const char c = (nibble > 9) ? ('a' + nibble - 10) : ('0' + nibble);`
			`usb_descriptor_string_serial_number[2 + i * 2] = c;`
			`usb_descriptor_string_serial_number[3 + i * 2] = 0x00;`
			`}`
			`} else {`
			`usb_descriptor_string_serial_number[0] = 2;`
			`usb_descriptor_string_serial_number[1] = USB_DESCRIPTOR_TYPE_STRING;`
			`}`
			`}`

			`static bool cpld_jtag_sram_load(jtag_t* const jtag) {`
			`cpld_jtag_take(jtag);`
			`cpld_xc2c64a_jtag_sram_write(jtag, &cpld_hackrf_program_sram);`
			`const bool success = cpld_xc2c64a_jtag_sram_verify(jtag, &cpld_hackrf_program_sram, &cpld_hackrf_verify);`
			`cpld_jtag_release(jtag);`
			`return success;`
			`}`

			`static void m0_rom_to_ram() {`
			`uint32_t *dest = &__ram_m0_start__;`

			`// Calculate the base address of ROM`
			`uint32_t base = (uint32_t)(&_etext_rom - (&_etext_ram - &_text_ram));`

			`// M0 image location, relative to the start of ROM`
			`uint32_t src = (uint32_t)&__m0_start__;`

			`uint32_t len = (uint32_t)&__m0_end__ - (uint32_t)src;`
			`memcpy(dest, (uint32_t*)(base + src), len);`
			`}`

			`int main(void) {`
			`// Copy M0 image from ROM before SPIFI is disabled`
			`m0_rom_to_ram();`

			`pin_setup();`
			`enable_1v8_power();`
			`#if (defined HACKRF_ONE \|\| defined RAD1O)`
			`enable_rf_power();`

			`/* Let the voltage stabilize */`
			`delay(1000000);`
			`#endif`
			`cpu_clock_init();`

			`/* Wake the M0 */`
			`ipc_start_m0((uint32_t)&__ram_m0_start__);`

			`if( !cpld_jtag_sram_load(&jtag_cpld) ) {`
			`halt_and_flash(6000000);`
			`}`

			`#ifdef HACKRF_ONE`
			`portapack_init();`
			`#endif`

			`#ifndef DFU_MODE`
			`usb_set_descriptor_by_serial_number();`
			`#endif`

			`usb_set_configuration_changed_cb(usb_configuration_changed);`
			`usb_peripheral_reset();`

			`usb_device_init(0, &usb_device);`

			`usb_queue_init(&usb_endpoint_control_out_queue);`
			`usb_queue_init(&usb_endpoint_control_in_queue);`
			`usb_queue_init(&usb_endpoint_bulk_out_queue);`
			`usb_queue_init(&usb_endpoint_bulk_in_queue);`

			`usb_endpoint_init(&usb_endpoint_control_out);`
			`usb_endpoint_init(&usb_endpoint_control_in);`

			`nvic_set_priority(NVIC_USB0_IRQ, 255);`

			`hackrf_ui()->init();`

			`usb_run(&usb_device);`

			`rf_path_init(&rf_path);`

			`bool operacake_allow_gpio;`
			`if( hackrf_ui()->operacake_gpio_compatible() ) {`
			`operacake_allow_gpio = true;`
			`} else {`
			`operacake_allow_gpio = false;`
			`}`
			`operacake_init(operacake_allow_gpio);`

			`while(true) {`
			`transceiver_request_t request;`

			`// Briefly disable USB interrupt so that we can`
			`// atomically retrieve both the transceiver mode`
			`// and the mode change sequence number. They are`
			`// changed together by request_transceiver_mode()`
			`// called from the USB ISR.`

			`nvic_disable_irq(NVIC_USB0_IRQ);`
			`request = transceiver_request;`
			`nvic_enable_irq(NVIC_USB0_IRQ);`

			`switch (request.mode) {`
			`case TRANSCEIVER_MODE_OFF:`
			`off_mode(request.seq);`
			`break;`
			`case TRANSCEIVER_MODE_RX:`
			`rx_mode(request.seq);`
			`break;`
			`case TRANSCEIVER_MODE_TX:`
			`tx_mode(request.seq);`
			`break;`
			`case TRANSCEIVER_MODE_RX_SWEEP:`
			`sweep_mode(request.seq);`
			`break;`
			`case TRANSCEIVER_MODE_CPLD_UPDATE:`
			`cpld_update();`
			`break;`
			`default:`
			`break;`
			`}`
			`}`

			`return 0;`
			`}`