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Merge pull request #2299 from cmaglie/ide-1.5.x-spi-updates 

Missing SPI Transaction API methods on Due (SAM3X)
This commit is contained in:
Cristian Maglie 2014-09-12 14:07:03 +02:00
parent 2e3e539b71 6a5b82f062
commit 8018a26e3d
2 changed files with 96 additions and 293 deletions
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80
hardware/arduino/sam/libraries/SPI/SPI.cpp
View File

@ -62,12 +62,12 @@ void SPIClass::init() {
#define interruptsStatus() __interruptsStatus()
static inline unsigned char __interruptsStatus(void) __attribute__((always_inline, unused));
static inline unsigned char __interruptsStatus(void) {
unsigned int primask, faultmask;
asm volatile ("mrs %0, primask" : "=r" (primask));
if (primask) return 0;
asm volatile ("mrs %0, faultmask" : "=r" (faultmask));
if (faultmask) return 0;
return 1;
unsigned int primask, faultmask;
asm volatile ("mrs %0, primask" : "=r" (primask));
if (primask) return 0;
asm volatile ("mrs %0, faultmask" : "=r" (faultmask));
if (faultmask) return 0;
return 1;
}
#endif
@ -182,18 +182,70 @@ byte SPIClass::transfer(byte _pin, uint8_t _data, SPITransferMode _mode) {
d |= SPI_TDR_LASTXFER;
// SPI_Write(spi, _channel, _data);
while ((spi->SPI_SR & SPI_SR_TDRE) == 0)
;
spi->SPI_TDR = d;
while ((spi->SPI_SR & SPI_SR_TDRE) == 0)
;
spi->SPI_TDR = d;
// return SPI_Read(spi);
while ((spi->SPI_SR & SPI_SR_RDRF) == 0)
;
d = spi->SPI_RDR;
// return SPI_Read(spi);
while ((spi->SPI_SR & SPI_SR_RDRF) == 0)
;
d = spi->SPI_RDR;
// Reverse bit order
if (bitOrder[ch] == LSBFIRST)
d = __REV(__RBIT(d));
return d & 0xFF;
return d & 0xFF;
}
void SPIClass::transfer(byte _pin, void *_buf, size_t _count, SPITransferMode _mode) {
if (_count == 0)
return;
uint8_t *buffer = (uint8_t *)_buf;
if (_count == 1) {
*buffer = transfer(_pin, *buffer, _mode);
return;
}
uint32_t ch = BOARD_PIN_TO_SPI_CHANNEL(_pin);
bool reverse = (bitOrder[ch] == LSBFIRST);
// Send the first byte
uint32_t d = *buffer;
if (reverse)
d = __REV(__RBIT(d));
while ((spi->SPI_SR & SPI_SR_TDRE) == 0)
;
spi->SPI_TDR = d | SPI_PCS(ch);
while (_count > 1) {
// Prepare next byte
d = *(buffer+1);
if (reverse)
d = __REV(__RBIT(d));
if (_count == 2 && _mode == SPI_LAST)
d |= SPI_TDR_LASTXFER;
// Read transferred byte and send next one straight away
while ((spi->SPI_SR & SPI_SR_RDRF) == 0)
;
uint8_t r = spi->SPI_RDR;
spi->SPI_TDR = d | SPI_PCS(ch);
// Save read byte
if (reverse)
r = __REV(__RBIT(r));
*buffer = r;
buffer++;
_count--;
}
// Receive the last transferred byte
while ((spi->SPI_SR & SPI_SR_RDRF) == 0)
;
uint8_t r = spi->SPI_RDR;
if (reverse)
r = __REV(__RBIT(r));
*buffer = r;
}
void SPIClass::attachInterrupt(void) {

309
hardware/arduino/sam/libraries/SPI/SPI.h
View File

@ -15,10 +15,24 @@
#include "variant.h"
#include <stdio.h>
// SPI_HAS_TRANSACTION means SPI has beginTransaction(), endTransaction(),
// usingInterrupt(), and SPISetting(clock, bitOrder, dataMode)
// SPI_HAS_TRANSACTION means SPI has
// - beginTransaction()
// - endTransaction()
// - usingInterrupt()
// - SPISetting(clock, bitOrder, dataMode)
#define SPI_HAS_TRANSACTION 1
// SPI_HAS_EXTENDED_CS_PIN_HANDLING means SPI has automatic
// CS pin handling and provides the following methods:
// - begin(pin)
// - end(pin)
// - setBitOrder(pin, bitorder)
// - setDataMode(pin, datamode)
// - setClockDivider(pin, clockdiv)
// - transfer(pin, data, SPI_LAST/SPI_CONTINUE)
// - beginTransaction(pin, SPISettings settings) (if transactions are available)
#define SPI_HAS_EXTENDED_CS_PIN_HANDLING 1
#define SPI_MODE0 0x02
#define SPI_MODE1 0x00
#define SPI_MODE2 0x03
@ -38,289 +52,24 @@ public:
init_MightInline(clock, bitOrder, dataMode);
}
}
SPISettings() {
init_AlwaysInline(4000000, MSBFIRST, SPI_MODE0);
}
SPISettings() { init_AlwaysInline(4000000, MSBFIRST, SPI_MODE0); }
private:
void init_MightInline(uint32_t clock, BitOrder bitOrder, uint8_t dataMode) {
init_AlwaysInline(clock, bitOrder, dataMode);
}
void init_AlwaysInline(uint32_t clock, BitOrder bitOrder, uint8_t dataMode)
__attribute__((__always_inline__)) {
uint8_t div;
void init_AlwaysInline(uint32_t clock, BitOrder bitOrder, uint8_t dataMode) __attribute__((__always_inline__)) {
border = bitOrder;
if (__builtin_constant_p(clock)) {
if (clock >= F_CPU / 2) div = 2;
else if (clock >= F_CPU / 3) div = 3;
else if (clock >= F_CPU / 4) div = 4;
else if (clock >= F_CPU / 5) div = 5;
else if (clock >= F_CPU / 6) div = 6;
else if (clock >= F_CPU / 7) div = 7;
else if (clock >= F_CPU / 8) div = 8;
else if (clock >= F_CPU / 9) div = 9;
else if (clock >= F_CPU / 10) div = 10;
else if (clock >= F_CPU / 11) div = 11;
else if (clock >= F_CPU / 12) div = 12;
else if (clock >= F_CPU / 13) div = 13;
else if (clock >= F_CPU / 14) div = 14;
else if (clock >= F_CPU / 15) div = 15;
else if (clock >= F_CPU / 16) div = 16;
else if (clock >= F_CPU / 17) div = 17;
else if (clock >= F_CPU / 18) div = 18;
else if (clock >= F_CPU / 19) div = 19;
else if (clock >= F_CPU / 20) div = 20;
else if (clock >= F_CPU / 21) div = 21;
else if (clock >= F_CPU / 22) div = 22;
else if (clock >= F_CPU / 23) div = 23;
else if (clock >= F_CPU / 24) div = 24;
else if (clock >= F_CPU / 25) div = 25;
else if (clock >= F_CPU / 26) div = 26;
else if (clock >= F_CPU / 27) div = 27;
else if (clock >= F_CPU / 28) div = 28;
else if (clock >= F_CPU / 29) div = 29;
else if (clock >= F_CPU / 30) div = 30;
else if (clock >= F_CPU / 31) div = 31;
else if (clock >= F_CPU / 32) div = 32;
else if (clock >= F_CPU / 33) div = 33;
else if (clock >= F_CPU / 34) div = 34;
else if (clock >= F_CPU / 35) div = 35;
else if (clock >= F_CPU / 36) div = 36;
else if (clock >= F_CPU / 37) div = 37;
else if (clock >= F_CPU / 38) div = 38;
else if (clock >= F_CPU / 39) div = 39;
else if (clock >= F_CPU / 40) div = 40;
else if (clock >= F_CPU / 41) div = 41;
else if (clock >= F_CPU / 42) div = 42;
else if (clock >= F_CPU / 43) div = 43;
else if (clock >= F_CPU / 44) div = 44;
else if (clock >= F_CPU / 45) div = 45;
else if (clock >= F_CPU / 46) div = 46;
else if (clock >= F_CPU / 47) div = 47;
else if (clock >= F_CPU / 48) div = 48;
else if (clock >= F_CPU / 49) div = 49;
else if (clock >= F_CPU / 50) div = 50;
else if (clock >= F_CPU / 51) div = 51;
else if (clock >= F_CPU / 52) div = 52;
else if (clock >= F_CPU / 53) div = 53;
else if (clock >= F_CPU / 54) div = 54;
else if (clock >= F_CPU / 55) div = 55;
else if (clock >= F_CPU / 56) div = 56;
else if (clock >= F_CPU / 57) div = 57;
else if (clock >= F_CPU / 58) div = 58;
else if (clock >= F_CPU / 59) div = 59;
else if (clock >= F_CPU / 60) div = 60;
else if (clock >= F_CPU / 61) div = 61;
else if (clock >= F_CPU / 62) div = 62;
else if (clock >= F_CPU / 63) div = 63;
else if (clock >= F_CPU / 64) div = 64;
else if (clock >= F_CPU / 65) div = 65;
else if (clock >= F_CPU / 66) div = 66;
else if (clock >= F_CPU / 67) div = 67;
else if (clock >= F_CPU / 68) div = 68;
else if (clock >= F_CPU / 69) div = 69;
else if (clock >= F_CPU / 70) div = 70;
else if (clock >= F_CPU / 71) div = 71;
else if (clock >= F_CPU / 72) div = 72;
else if (clock >= F_CPU / 73) div = 73;
else if (clock >= F_CPU / 74) div = 74;
else if (clock >= F_CPU / 75) div = 75;
else if (clock >= F_CPU / 76) div = 76;
else if (clock >= F_CPU / 77) div = 77;
else if (clock >= F_CPU / 78) div = 78;
else if (clock >= F_CPU / 79) div = 79;
else if (clock >= F_CPU / 80) div = 80;
else if (clock >= F_CPU / 81) div = 81;
else if (clock >= F_CPU / 82) div = 82;
else if (clock >= F_CPU / 83) div = 83;
else if (clock >= F_CPU / 84) div = 84;
else if (clock >= F_CPU / 85) div = 85;
else if (clock >= F_CPU / 86) div = 86;
else if (clock >= F_CPU / 87) div = 87;
else if (clock >= F_CPU / 88) div = 88;
else if (clock >= F_CPU / 89) div = 89;
else if (clock >= F_CPU / 90) div = 90;
else if (clock >= F_CPU / 91) div = 91;
else if (clock >= F_CPU / 92) div = 92;
else if (clock >= F_CPU / 93) div = 93;
else if (clock >= F_CPU / 94) div = 94;
else if (clock >= F_CPU / 95) div = 95;
else if (clock >= F_CPU / 96) div = 96;
else if (clock >= F_CPU / 97) div = 97;
else if (clock >= F_CPU / 98) div = 98;
else if (clock >= F_CPU / 99) div = 99;
else if (clock >= F_CPU / 100) div = 100;
else if (clock >= F_CPU / 101) div = 101;
else if (clock >= F_CPU / 102) div = 102;
else if (clock >= F_CPU / 103) div = 103;
else if (clock >= F_CPU / 104) div = 104;
else if (clock >= F_CPU / 105) div = 105;
else if (clock >= F_CPU / 106) div = 106;
else if (clock >= F_CPU / 107) div = 107;
else if (clock >= F_CPU / 108) div = 108;
else if (clock >= F_CPU / 109) div = 109;
else if (clock >= F_CPU / 110) div = 110;
else if (clock >= F_CPU / 111) div = 111;
else if (clock >= F_CPU / 112) div = 112;
else if (clock >= F_CPU / 113) div = 113;
else if (clock >= F_CPU / 114) div = 114;
else if (clock >= F_CPU / 115) div = 115;
else if (clock >= F_CPU / 116) div = 116;
else if (clock >= F_CPU / 117) div = 117;
else if (clock >= F_CPU / 118) div = 118;
else if (clock >= F_CPU / 119) div = 119;
else if (clock >= F_CPU / 120) div = 120;
else if (clock >= F_CPU / 121) div = 121;
else if (clock >= F_CPU / 122) div = 122;
else if (clock >= F_CPU / 123) div = 123;
else if (clock >= F_CPU / 124) div = 124;
else if (clock >= F_CPU / 125) div = 125;
else if (clock >= F_CPU / 126) div = 126;
else if (clock >= F_CPU / 127) div = 127;
else if (clock >= F_CPU / 128) div = 128;
else if (clock >= F_CPU / 129) div = 129;
else if (clock >= F_CPU / 130) div = 130;
else if (clock >= F_CPU / 131) div = 131;
else if (clock >= F_CPU / 132) div = 132;
else if (clock >= F_CPU / 133) div = 133;
else if (clock >= F_CPU / 134) div = 134;
else if (clock >= F_CPU / 135) div = 135;
else if (clock >= F_CPU / 136) div = 136;
else if (clock >= F_CPU / 137) div = 137;
else if (clock >= F_CPU / 138) div = 138;
else if (clock >= F_CPU / 139) div = 139;
else if (clock >= F_CPU / 140) div = 140;
else if (clock >= F_CPU / 141) div = 141;
else if (clock >= F_CPU / 142) div = 142;
else if (clock >= F_CPU / 143) div = 143;
else if (clock >= F_CPU / 144) div = 144;
else if (clock >= F_CPU / 145) div = 145;
else if (clock >= F_CPU / 146) div = 146;
else if (clock >= F_CPU / 147) div = 147;
else if (clock >= F_CPU / 148) div = 148;
else if (clock >= F_CPU / 149) div = 149;
else if (clock >= F_CPU / 150) div = 150;
else if (clock >= F_CPU / 151) div = 151;
else if (clock >= F_CPU / 152) div = 152;
else if (clock >= F_CPU / 153) div = 153;
else if (clock >= F_CPU / 154) div = 154;
else if (clock >= F_CPU / 155) div = 155;
else if (clock >= F_CPU / 156) div = 156;
else if (clock >= F_CPU / 157) div = 157;
else if (clock >= F_CPU / 158) div = 158;
else if (clock >= F_CPU / 159) div = 159;
else if (clock >= F_CPU / 160) div = 160;
else if (clock >= F_CPU / 161) div = 161;
else if (clock >= F_CPU / 162) div = 162;
else if (clock >= F_CPU / 163) div = 163;
else if (clock >= F_CPU / 164) div = 164;
else if (clock >= F_CPU / 165) div = 165;
else if (clock >= F_CPU / 166) div = 166;
else if (clock >= F_CPU / 167) div = 167;
else if (clock >= F_CPU / 168) div = 168;
else if (clock >= F_CPU / 169) div = 169;
else if (clock >= F_CPU / 170) div = 170;
else if (clock >= F_CPU / 171) div = 171;
else if (clock >= F_CPU / 172) div = 172;
else if (clock >= F_CPU / 173) div = 173;
else if (clock >= F_CPU / 174) div = 174;
else if (clock >= F_CPU / 175) div = 175;
else if (clock >= F_CPU / 176) div = 176;
else if (clock >= F_CPU / 177) div = 177;
else if (clock >= F_CPU / 178) div = 178;
else if (clock >= F_CPU / 179) div = 179;
else if (clock >= F_CPU / 180) div = 180;
else if (clock >= F_CPU / 181) div = 181;
else if (clock >= F_CPU / 182) div = 182;
else if (clock >= F_CPU / 183) div = 183;
else if (clock >= F_CPU / 184) div = 184;
else if (clock >= F_CPU / 185) div = 185;
else if (clock >= F_CPU / 186) div = 186;
else if (clock >= F_CPU / 187) div = 187;
else if (clock >= F_CPU / 188) div = 188;
else if (clock >= F_CPU / 189) div = 189;
else if (clock >= F_CPU / 190) div = 190;
else if (clock >= F_CPU / 191) div = 191;
else if (clock >= F_CPU / 192) div = 192;
else if (clock >= F_CPU / 193) div = 193;
else if (clock >= F_CPU / 194) div = 194;
else if (clock >= F_CPU / 195) div = 195;
else if (clock >= F_CPU / 196) div = 196;
else if (clock >= F_CPU / 197) div = 197;
else if (clock >= F_CPU / 198) div = 198;
else if (clock >= F_CPU / 199) div = 199;
else if (clock >= F_CPU / 200) div = 200;
else if (clock >= F_CPU / 201) div = 201;
else if (clock >= F_CPU / 202) div = 202;
else if (clock >= F_CPU / 203) div = 203;
else if (clock >= F_CPU / 204) div = 204;
else if (clock >= F_CPU / 205) div = 205;
else if (clock >= F_CPU / 206) div = 206;
else if (clock >= F_CPU / 207) div = 207;
else if (clock >= F_CPU / 208) div = 208;
else if (clock >= F_CPU / 209) div = 209;
else if (clock >= F_CPU / 210) div = 210;
else if (clock >= F_CPU / 211) div = 211;
else if (clock >= F_CPU / 212) div = 212;
else if (clock >= F_CPU / 213) div = 213;
else if (clock >= F_CPU / 214) div = 214;
else if (clock >= F_CPU / 215) div = 215;
else if (clock >= F_CPU / 216) div = 216;
else if (clock >= F_CPU / 217) div = 217;
else if (clock >= F_CPU / 218) div = 218;
else if (clock >= F_CPU / 219) div = 219;
else if (clock >= F_CPU / 220) div = 220;
else if (clock >= F_CPU / 221) div = 221;
else if (clock >= F_CPU / 222) div = 222;
else if (clock >= F_CPU / 223) div = 223;
else if (clock >= F_CPU / 224) div = 224;
else if (clock >= F_CPU / 225) div = 225;
else if (clock >= F_CPU / 226) div = 226;
else if (clock >= F_CPU / 227) div = 227;
else if (clock >= F_CPU / 228) div = 228;
else if (clock >= F_CPU / 229) div = 229;
else if (clock >= F_CPU / 230) div = 230;
else if (clock >= F_CPU / 231) div = 231;
else if (clock >= F_CPU / 232) div = 232;
else if (clock >= F_CPU / 233) div = 233;
else if (clock >= F_CPU / 234) div = 234;
else if (clock >= F_CPU / 235) div = 235;
else if (clock >= F_CPU / 236) div = 236;
else if (clock >= F_CPU / 237) div = 237;
else if (clock >= F_CPU / 238) div = 238;
else if (clock >= F_CPU / 239) div = 239;
else if (clock >= F_CPU / 240) div = 240;
else if (clock >= F_CPU / 241) div = 241;
else if (clock >= F_CPU / 242) div = 242;
else if (clock >= F_CPU / 243) div = 243;
else if (clock >= F_CPU / 244) div = 244;
else if (clock >= F_CPU / 245) div = 245;
else if (clock >= F_CPU / 246) div = 246;
else if (clock >= F_CPU / 247) div = 247;
else if (clock >= F_CPU / 248) div = 248;
else if (clock >= F_CPU / 249) div = 249;
else if (clock >= F_CPU / 250) div = 250;
else if (clock >= F_CPU / 251) div = 251;
else if (clock >= F_CPU / 252) div = 252;
else if (clock >= F_CPU / 253) div = 253;
else if (clock >= F_CPU / 254) div = 254;
else /* clock >= F_CPU / 255 */ div = 255;
/*
#! /usr/bin/perl
for ($i=2; $i<256; $i++) {
printf "\t\t\telse if (clock >= F_CPU / %3d) div = %3d;\n", $i, $i;
}
*/
uint8_t div;
if (clock < (F_CPU / 255)) {
div = 255;
} else if (clock >= (F_CPU / 2)) {
div = 2;
} else {
for (div=2; div<255; div++) {
if (clock >= F_CPU / div) break;
}
div = (F_CPU / (clock + 1)) + 1;
}
config = (dataMode & 3) | SPI_CSR_CSAAT | SPI_CSR_SCBR(div) | SPI_CSR_DLYBCT(1);
//clockdiv = div;
//datamode = dataMode;
}
uint32_t config;
//uint8_t clockdiv, datamode;
BitOrder border;
friend class SPIClass;
};
@ -331,15 +80,17 @@ class SPIClass {
public:
SPIClass(Spi *_spi, uint32_t _id, void(*_initCb)(void));
// Transfer functions
byte transfer(byte _pin, uint8_t _data, SPITransferMode _mode = SPI_LAST);
void transfer(byte _pin, void *_buf, size_t _count, SPITransferMode _mode = SPI_LAST);
// Transfer functions on default pin BOARD_SPI_DEFAULT_SS
byte transfer(uint8_t _data, SPITransferMode _mode = SPI_LAST) { return transfer(BOARD_SPI_DEFAULT_SS, _data, _mode); }
byte transfer(byte _channel, uint8_t _data, SPITransferMode _mode = SPI_LAST);
void transfer(void *_buf, size_t _count, SPITransferMode _mode = SPI_LAST) { transfer(BOARD_SPI_DEFAULT_SS, _buf, _count, _mode); }
// Transaction Functions
void usingInterrupt(uint8_t interruptNumber);
void beginTransaction(SPISettings settings) { beginTransaction(BOARD_SPI_DEFAULT_SS, settings); }
void beginTransaction(uint8_t pin, SPISettings settings);
void beginTransaction(SPISettings settings) {
beginTransaction(BOARD_SPI_DEFAULT_SS, settings);
}
void endTransaction(void);
// SPI Configuration methods