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BALibrary/examples/Tests/TGA_PRO_Basic_Test/spiTest.cpp

130 lines
4.0 KiB

#include <cstddef>
#include <cstdint>
#include "BAHardware.h"
#include "BASpiMemory.h"
constexpr int NUM_TESTS = 12;
constexpr int NUM_BLOCK_WORDS = 128;
constexpr int mask0 = 0x5555;
constexpr int mask1 = 0xaaaa;
//#define SANITY_CHECK
using namespace BALibrary;
int SPI_MAX_ADDR = 0;
int calcData(int spiAddress, int loopPhase, int maskPhase)
{
int data;
int phase = ((loopPhase << 1) + maskPhase) & 0x3;
switch(phase)
{
case 0 :
data = spiAddress ^ mask0;
break;
case 1:
data = spiAddress ^ mask1;
break;
case 2:
data = ~spiAddress ^ mask0;
break;
case 3:
data = ~spiAddress ^ mask1;
}
return (data & 0xffff);
}
bool spiTest(BASpiMemory *mem, int id)
{
int spiAddress = 0;
int spiErrorCount = 0;
int maskPhase = 0;
int loopPhase = 0;
uint16_t memBlock[NUM_BLOCK_WORDS];
uint16_t goldData[NUM_BLOCK_WORDS];
SPI_MAX_ADDR = BAHardwareConfig.getSpiMemMaxAddr(0); // assume for this test both memories are the same size so use MEM0
const size_t SPI_MEM_SIZE_BYTES = BAHardwareConfig.getSpiMemSizeBytes(id);
Serial.println(String("Starting SPI MEM Test of ") + SPI_MEM_SIZE_BYTES + String(" bytes"));
for (int cnt = 0; cnt < NUM_TESTS; cnt++) {
// Zero check
mem->zero16(0, SPI_MEM_SIZE_BYTES / sizeof(uint16_t));
while (mem->isWriteBusy()) {}
for (spiAddress = 0; spiAddress <= SPI_MAX_ADDR; spiAddress += NUM_BLOCK_WORDS*sizeof(uint16_t)) {
mem->read16(spiAddress, memBlock, NUM_BLOCK_WORDS);
while (mem->isReadBusy()) {}
for (int i=0; i<NUM_BLOCK_WORDS; i++) {
if (memBlock[i] != 0) {
spiErrorCount++;
if (spiErrorCount >= 10) break;
}
}
if (spiErrorCount >= 10) break;
}
//if (spiErrorCount == 0) { Serial.println(String("SPI MEMORY(") + cnt + String("): Zero test PASSED!")); }
if (spiErrorCount == 0) { Serial.print("."); Serial.flush(); }
if (spiErrorCount > 0) { Serial.println(String("SPI MEMORY(") + cnt + String("): Zero test FAILED, error count = ") + spiErrorCount); return false;}
// Write all test data to the memory
maskPhase = 0;
for (spiAddress = 0; spiAddress <= SPI_MAX_ADDR; spiAddress += NUM_BLOCK_WORDS*sizeof(uint16_t)) {
// Calculate the data for a block
for (int i=0; i<NUM_BLOCK_WORDS; i++) {
memBlock[i] = calcData(spiAddress+i, loopPhase, maskPhase);
maskPhase = (maskPhase+1) % 2;
}
mem->write16(spiAddress, memBlock, NUM_BLOCK_WORDS);
while (mem->isWriteBusy()) {}
}
// Read back the test data
spiErrorCount = 0;
spiAddress = 0;
maskPhase = 0;
for (spiAddress = 0; spiAddress <= SPI_MAX_ADDR; spiAddress += NUM_BLOCK_WORDS*sizeof(uint16_t)) {
mem->read16(spiAddress, memBlock, NUM_BLOCK_WORDS);
// Calculate the golden data for a block
for (int i=0; i<NUM_BLOCK_WORDS; i++) {
goldData[i] = calcData(spiAddress+i, loopPhase, maskPhase);
maskPhase = (maskPhase+1) % 2;
}
while (mem->isReadBusy()) {} // wait for the read to finish
for (int i=0; i<NUM_BLOCK_WORDS; i++) {
if (goldData[i] != memBlock[i]) {
Serial.println(String("ERROR@ ") + i + String(": ") + goldData[i] + String("!=") + memBlock[i]);
spiErrorCount++;
if (spiErrorCount >= 10) break;
}
#ifdef SANITY_CHECK
else {
if ((spiAddress == 0) && (i<10) && (cnt == 0) ){
Serial.println(String("SHOW@ ") + i + String(": ") + goldData[i] + String("==") + memBlock[i]);
}
}
#endif
}
if (spiErrorCount >= 10) break;
}
//if (spiErrorCount == 0) { Serial.println(String("SPI MEMORY(") + cnt + String("): Data test PASSED!")); }
if (spiErrorCount == 0) { Serial.print("."); Serial.flush(); }
if (spiErrorCount > 0) { Serial.println(String("SPI MEMORY(") + cnt + String("): Data test FAILED, error count = ") + spiErrorCount); return false;}
loopPhase = (loopPhase+1) % 2;
}
return true;
}