Reimplemented SW SPI for DUE in assembler. This allows to reach 12Mhz as SPI Clock and improves 4x the transfer speed to the SD card. This is REQUIRED so access to SD from USB is usable (allows 600Kbytes/second transfer speeds)
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@ -23,6 +23,10 @@
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/**
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/**
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* Software SPI functions originally from Arduino Sd2Card Library
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* Software SPI functions originally from Arduino Sd2Card Library
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* Copyright (C) 2009 by William Greiman
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* Copyright (C) 2009 by William Greiman
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*
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* Completely rewritten and tuned by Eduardo José Tagle in 2017/2018
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* in ARM thumb2 inline assembler and tuned for maximum speed and performance
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* allowing SPI clocks of up to 12 Mhz to increase SD card read/write performance
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*/
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*/
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/**
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/**
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@ -53,6 +57,9 @@
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// software SPI
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// software SPI
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// --------------------------------------------------------------------------
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// --------------------------------------------------------------------------
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// set optimization so ARDUINO optimizes this file
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#pragma GCC optimize (3)
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/* ---------------- Delay Cycles routine -------------- */
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/* ---------------- Delay Cycles routine -------------- */
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/* https://blueprints.launchpad.net/gcc-arm-embedded/+spec/delay-cycles */
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/* https://blueprints.launchpad.net/gcc-arm-embedded/+spec/delay-cycles */
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@ -105,27 +112,171 @@
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typedef uint8_t (*pfnSpiTransfer) (uint8_t b);
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typedef uint8_t (*pfnSpiTransfer) (uint8_t b);
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// bitbanging transfer
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/* ---------------- Macros to be able to access definitions from asm */
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#define SWSPI_BIT_XFER(n) \
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WRITE(MOSI_PIN, bout & (1 << n)); \
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WRITE(SCK_PIN, HIGH); /* Sampling point */\
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/* (implicit by overhead) DELAY_NS(63); 5.3 cycles @ 84mhz */ \
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bin |= (READ(MISO_PIN) != 0) << n; \
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WRITE(SCK_PIN, LOW); /* Toggling point*/ \
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/* (implicit by overhead) DELAY_NS(63); 5.3 cycles @ 84mhz */
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// run at ~8 .. ~10Mhz
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#define _PORT(IO) DIO ## IO ## _WPORT
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static uint8_t spiTransfer0(uint8_t bout) { // using Mode 0
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#define _PIN_MASK(IO) MASK(DIO ## IO ## _PIN)
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volatile uint8_t bin = 0; /* volatile to disable deferred processing */
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#define _PIN_SHIFT(IO) DIO ## IO ## _PIN
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SWSPI_BIT_XFER(7);
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#define PORT(IO) _PORT(IO)
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SWSPI_BIT_XFER(6);
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#define PIN_MASK(IO) _PIN_MASK(IO)
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SWSPI_BIT_XFER(5);
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#define PIN_SHIFT(IO) _PIN_SHIFT(IO)
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SWSPI_BIT_XFER(4);
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SWSPI_BIT_XFER(3);
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// run at ~8 .. ~10Mhz - Tx version (Rx data discarded)
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SWSPI_BIT_XFER(2);
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static uint8_t spiTransferTx0(uint8_t bout) { // using Mode 0
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SWSPI_BIT_XFER(1);
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register uint32_t MOSI_PORT_PLUS30 = ((uint32_t) PORT(MOSI_PIN)) + 0x30; /* SODR of port */
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SWSPI_BIT_XFER(0);
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register uint32_t MOSI_MASK = PIN_MASK(MOSI_PIN);
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return bin;
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register uint32_t SCK_PORT_PLUS30 = ((uint32_t) PORT(SCK_PIN)) + 0x30; /* SODR of port */
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register uint32_t SCK_MASK = PIN_MASK(SCK_PIN);
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register uint32_t idx;
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/* Negate bout, as the assembler requires a negated value */
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bout = ~bout;
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/* The software SPI routine */
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__asm__ __volatile__(
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".syntax unified" "\n\t" // is to prevent CM0,CM1 non-unified syntax
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/* Bit 7 */
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" ubfx %[idx],%[txval],#7,#1" "\n\t" /* Place bit 7 in bit 0 of idx*/
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" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ubfx %[idx],%[txval],#6,#1" "\n\t" /* Place bit 6 in bit 0 of idx*/
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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/* Bit 6 */
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" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ubfx %[idx],%[txval],#5,#1" "\n\t" /* Place bit 5 in bit 0 of idx*/
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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/* Bit 5 */
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" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ubfx %[idx],%[txval],#4,#1" "\n\t" /* Place bit 4 in bit 0 of idx*/
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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/* Bit 4 */
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" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ubfx %[idx],%[txval],#3,#1" "\n\t" /* Place bit 3 in bit 0 of idx*/
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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/* Bit 3 */
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" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ubfx %[idx],%[txval],#2,#1" "\n\t" /* Place bit 2 in bit 0 of idx*/
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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/* Bit 2 */
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" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ubfx %[idx],%[txval],#1,#1" "\n\t" /* Place bit 1 in bit 0 of idx*/
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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/* Bit 1 */
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" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ubfx %[idx],%[txval],#0,#1" "\n\t" /* Place bit 0 in bit 0 of idx*/
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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/* Bit 0 */
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" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" nop" "\n\t"
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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: [mosi_mask]"+r"( MOSI_MASK ),
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[mosi_port]"+r"( MOSI_PORT_PLUS30 ),
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[sck_mask]"+r"( SCK_MASK ),
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[sck_port]"+r"( SCK_PORT_PLUS30 ),
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[idx]"+r"( idx ),
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[txval]"+r"( bout )
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:
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: "cc"
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);
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return 0;
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}
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// run at ~8 .. ~10Mhz - Rx version (Tx line not altered)
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static uint8_t spiTransferRx0(uint8_t bout) { // using Mode 0
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int bin = 0, work = 0;
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register uint32_t MISO_PORT_PLUS3C = ((uint32_t) PORT(MISO_PIN)) + 0x3C; /* PDSR of port */
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register uint32_t SCK_PORT_PLUS30 = ((uint32_t) PORT(SCK_PIN)) + 0x30; /* SODR of port */
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register uint32_t SCK_MASK = PIN_MASK(SCK_PIN);
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UNUSED(bout);
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/* The software SPI routine */
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__asm__ __volatile__(
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".syntax unified" "\n\t" // is to prevent CM0,CM1 non-unified syntax
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/* bit 7 */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ldr %[work],[%[miso_port]]" "\n\t" /* PDSR */
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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" lsrs %[work],%[work],%[miso_shift]" "\n\t" /* Isolate input into carry */
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" adc %[bin],%[bin],%[bin]" "\n\t" /* Shift left result and add the carry */
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/* bit 6 */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ldr %[work],[%[miso_port]]" "\n\t" /* PDSR */
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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" lsrs %[work],%[work],%[miso_shift]" "\n\t" /* Isolate input into carry */
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" adc %[bin],%[bin],%[bin]" "\n\t" /* Shift left result and add the carry */
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/* bit 5 */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ldr %[work],[%[miso_port]]" "\n\t" /* PDSR */
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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" lsrs %[work],%[work],%[miso_shift]" "\n\t" /* Isolate input into carry */
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" adc %[bin],%[bin],%[bin]" "\n\t" /* Shift left result and add the carry */
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/* bit 4 */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ldr %[work],[%[miso_port]]" "\n\t" /* PDSR */
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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" lsrs %[work],%[work],%[miso_shift]" "\n\t" /* Isolate input into carry */
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" adc %[bin],%[bin],%[bin]" "\n\t" /* Shift left result and add the carry */
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/* bit 3 */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ldr %[work],[%[miso_port]]" "\n\t" /* PDSR */
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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" lsrs %[work],%[work],%[miso_shift]" "\n\t" /* Isolate input into carry */
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" adc %[bin],%[bin],%[bin]" "\n\t" /* Shift left result and add the carry */
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/* bit 2 */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ldr %[work],[%[miso_port]]" "\n\t" /* PDSR */
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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" lsrs %[work],%[work],%[miso_shift]" "\n\t" /* Isolate input into carry */
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" adc %[bin],%[bin],%[bin]" "\n\t" /* Shift left result and add the carry */
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/* bit 1 */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ldr %[work],[%[miso_port]]" "\n\t" /* PDSR */
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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" lsrs %[work],%[work],%[miso_shift]" "\n\t" /* Isolate input into carry */
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" adc %[bin],%[bin],%[bin]" "\n\t" /* Shift left result and add the carry */
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/* bit 0 */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ldr %[work],[%[miso_port]]" "\n\t" /* PDSR */
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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" lsrs %[work],%[work],%[miso_shift]" "\n\t" /* Isolate input into carry */
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" adc %[bin],%[bin],%[bin]" "\n\t" /* Shift left result and add the carry */
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: [miso_port]"+r"( MISO_PORT_PLUS3C ),
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[sck_mask]"+r"( SCK_MASK ),
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[sck_port]"+r"( SCK_PORT_PLUS30 ),
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[bin]"+r"(bin),
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[work]"+r"(work)
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: [miso_shift]"M"( PIN_SHIFT(MISO_PIN) + 1 ) /* So we move to the carry */
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: "cc"
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);
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return (uint8_t)bin;
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}
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}
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// run at ~4Mhz
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// run at ~4Mhz
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return b;
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return b;
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}
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}
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// Use the generic one
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// Pointers to generic functions
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static pfnSpiTransfer spiTransfer = spiTransferX;
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static pfnSpiTransfer spiTransferTx = spiTransferX;
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static pfnSpiTransfer spiTransferRx = spiTransferX;
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void spiBegin() {
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void spiBegin() {
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SET_OUTPUT(SS_PIN);
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SET_OUTPUT(SS_PIN);
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void spiInit(uint8_t spiRate) {
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void spiInit(uint8_t spiRate) {
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switch (spiRate) {
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switch (spiRate) {
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case 0:
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case 0:
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spiTransfer = spiTransfer0;
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spiTransferTx = spiTransferTx0;
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spiTransferRx = spiTransferRx0;
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break;
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break;
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case 1:
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case 1:
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spiTransfer = spiTransfer1;
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spiTransferTx = spiTransfer1;
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spiTransferRx = spiTransfer1;
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break;
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break;
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default:
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default:
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spiDelayCyclesX4 = (F_CPU/1000000) >> (6 - spiRate);
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spiDelayCyclesX4 = (F_CPU/1000000) >> (6 - spiRate);
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spiTransfer = spiTransferX;
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spiTransferTx = spiTransferX;
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spiTransferRx = spiTransferX;
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break;
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break;
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}
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}
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uint8_t spiRec() {
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uint8_t spiRec() {
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WRITE(SS_PIN, LOW);
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WRITE(SS_PIN, LOW);
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uint8_t b = spiTransfer(0xff);
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WRITE(MOSI_PIN, 1); /* Output 1s 1*/
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uint8_t b = spiTransferRx(0xFF);
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WRITE(SS_PIN, HIGH);
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WRITE(SS_PIN, HIGH);
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return b;
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return b;
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}
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}
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void spiRead(uint8_t*buf, uint16_t nbyte) {
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void spiRead(uint8_t* buf, uint16_t nbyte) {
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if (nbyte == 0) return;
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if (nbyte == 0) return;
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WRITE(SS_PIN, LOW);
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WRITE(SS_PIN, LOW);
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WRITE(MOSI_PIN, 1); /* Output 1s 1*/
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for (int i = 0; i < nbyte; i++) {
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for (int i = 0; i < nbyte; i++) {
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buf[i] = spiTransfer(0xff);
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buf[i] = spiTransferRx(0xff);
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}
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}
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WRITE(SS_PIN, HIGH);
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WRITE(SS_PIN, HIGH);
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}
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}
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void spiSend(uint8_t b) {
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void spiSend(uint8_t b) {
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WRITE(SS_PIN, LOW);
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WRITE(SS_PIN, LOW);
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uint8_t response = spiTransfer(b);
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(void) spiTransferTx(b);
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UNUSED(response);
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WRITE(SS_PIN, HIGH);
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}
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static void spiSend(const uint8_t* buf, size_t n) {
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uint8_t response;
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if (n == 0) return;
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WRITE(SS_PIN, LOW);
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for (uint16_t i = 0; i < n; i++) {
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response = spiTransfer(buf[i]);
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}
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UNUSED(response);
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WRITE(SS_PIN, HIGH);
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WRITE(SS_PIN, HIGH);
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}
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}
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void spiSendBlock(uint8_t token, const uint8_t* buf) {
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void spiSendBlock(uint8_t token, const uint8_t* buf) {
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uint8_t response;
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WRITE(SS_PIN, LOW);
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WRITE(SS_PIN, LOW);
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response = spiTransfer(token);
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(void) spiTransferTx(token);
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for (uint16_t i = 0; i < 512; i++) {
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for (uint16_t i = 0; i < 512; i++) {
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response = spiTransfer(buf[i]);
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(void) spiTransferTx(buf[i]);
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}
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}
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UNUSED(response);
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||||||
WRITE(SS_PIN, HIGH);
|
WRITE(SS_PIN, HIGH);
|
||||||
}
|
}
|
||||||
|
|
||||||
|
Loading…
Reference in New Issue
Block a user