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git://projects.qi-hardware.com/f32xbase.git
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5ce904b20f
setup. PLATFORM_SETUP now performs early general platform setup, such as turning off the watchdog. - fw/boot/boot.c (main): the first thing we do is to run PLATFORM_SETUP - fw/boot/boot.c (boot_loader): instead of PLATFORM_SETUP, run PLATFORM_ENTER
243 lines
4.5 KiB
C
243 lines
4.5 KiB
C
/*
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* boot/boot.c - Boot loader setup and main loop
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*
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* Written 2008, 2010 by Werner Almesberger
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* Copyright 2008, 2010 Werner Almesberger
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*/
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/*
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* This code follows the register read/write sequences from the examples in
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* SiLabs/MCU/Examples/C8051F326_7/USB_Interrupt/Firmware/F326_USB_Main.c and
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* SiLabs/MCU/Examples/C8051F326_7/USB_Interrupt/Firmware/F326_USB_ISR.c
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*/
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#include <stdint.h>
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#include "version.h"
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#include "regs.h"
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#include "uart.h"
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#include "usb.h"
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#include "dfu.h"
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#include "config.h"
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#if !defined(CONFIG_DEBUG) && !defined(CONFIG_ERROR) && !defined(CONFIG_PRINTK)
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#define uart_init(x)
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#endif
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/*
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* GTA example:
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*
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#define PLATFORM_SETUP \
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GPIOCN |= WEAKPUD; \
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I2C_SDA_PULL = 0; \
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delay();
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// Re-enable pull-ups
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// Don't waste power in pull-down
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#define PLATFORM_EXIT \
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GPIOCN &= ~WEAKPUD; \
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I2C_SDA_PULL = 1;
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#define PLATFORM_TEST \
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(!I2C_SDA || dfu.state != dfuIDLE)
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*/
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#ifndef PLATFORM_SETUP
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#define PLATFORM_SETUP
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#endif
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#ifndef PLATFORM_ENTER
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#define PLATFORM_ENTER
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#endif
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#ifndef PLATFORM_EXIT
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#define PLATFORM_EXIT
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#endif
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void run_payload(void)
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{
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PLATFORM_EXIT;
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/* No interrupts while jumping between worlds */
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EA = 0;
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/* Restart USB */
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USB0XCN = 0;
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/*
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* The USB host must detect a disconnect (pull-ups absent) within 2 and
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* 2.5 us according to parameter Tddis in table 7-13 on page 186 of the
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* Universal Serial Bus Specification Revision 2.0.
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*
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* If our application calls usb_init really really quickly, we may need
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* an extra delay here.
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*/
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debug("launching payload\n");
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__asm
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ljmp PAYLOAD_START
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__endasm;
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}
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/* ----- Interrupts -------------------------------------------------------- */
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/*
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* The boot loader doesn't use interrupts, so we forward all interrupts to the
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* payload.
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*
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* What we'd really like to do here is to say something like
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*
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* void whatever_isr(void) __interrupt(n) __at(PAYLOAD+n*8+1);
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*
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* However, sdcc doesn't support such things yet. So we declare the ISR such
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* that the vector entry gets created, and then we tell the assembler where to
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* find it.
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*
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* Since __asm/__endasm isn't allowed outside a function body, we generate a
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* dummy function for each assignment. The function is "naked", so that no
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* actual code is generated for it.
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*/
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#define ISR(n) \
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void isr_nr_##n(void) __interrupt(n); \
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void isr_dummy_##n(void) __naked \
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{ \
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__asm \
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_isr_nr_##n = PAYLOAD_START+n*8+3 \
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__endasm; \
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}
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ISR(0)
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ISR(1)
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ISR(2)
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ISR(3)
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ISR(4)
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ISR(8)
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ISR(15)
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/* ----- The actual boot loader -------------------------------------------- */
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static void delay(void)
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{
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int x;
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for (x = 0; x < 500; x)
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x++;
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}
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static void boot_loader(void)
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{
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OSCICN |= IFCN0 | IFCN1; /* SYSCLK = IOSC/1 (12 MHz) */
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#ifdef LOW_SPEED
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CLKSEL = 0x10; /* USBCLK = int/2, SYS_INT_OSC = int */
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#else /* LOW_SPEED */
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/*
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* Clock multiplier enable sequence, section 10.4
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*
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* - reset the multiplier
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* - select the multiplier input source
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* - enable the multiplier
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* - delay for 5us
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* - initialize the multiplier
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* - poll for multiplier to be ready
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*/
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CLKMUL = 0;
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CLKMUL |= MULEN;
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delay();
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CLKMUL |= MULINIT | MULEN;
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while (!(CLKMUL & MULRDY));
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CLKSEL = 0; /* USBCLK = 4*int, SYSCLK = int */
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CLKSEL = 0x02; /* F326_USB_Main.c does this (sets 24MHz). Why ? */
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uart_init(24);
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#endif /* !LOW_SPEED */
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printk("%s #%u\n", build_date, build_number);
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PLATFORM_ENTER;
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dfu_init();
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usb_init();
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#ifdef PLATFORM_TEST
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while (PLATFORM_TEST)
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usb_poll();
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#else /* PLATFORM_TEST */
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#define MS_TO_LOOPS(ms) ((uint32_t) (ms)*190)
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{
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uint32_t loop = 0;
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while (loop != MS_TO_LOOPS(2000)) {
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usb_poll();
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if (dfu.state == dfuIDLE)
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loop++;
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else
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loop = 0;
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}
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}
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#endif /* !PLATFORM_TEST */
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}
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void main(void)
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{
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/*
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* Any early platform setup, such as turning off the watch dog.
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*/
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PLATFORM_SETUP;
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/*
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* VDD monitor enable sequence, section 7.2
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*
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* - enable voltage monitor
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* - wait for monitor to stabilize
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* - enable VDD monitor reset
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*/
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VDM0CN = VDMEN;
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while (!(VDM0CN & VDDSTAT));
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RSTSRC = PORSF;
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/*
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* @@@ if we don't have VBUS, proceed as follows:
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* - stay at 3MHz (current < 2mA, so we're fine with GPIO power)
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* - jump directly to the payload
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*/
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OSCICN |= IFCN0; /* SYSCLK = IOSC/4 (3 MHz) */
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uart_init(3);
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if (REG0CN & VBSTAT)
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boot_loader();
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run_payload();
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}
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