tillitis-key/hw/application_fpga/fw/testfw/main.c
2022-10-17 11:15:26 +02:00

189 lines
5.0 KiB
C

/*
* Copyright (C) 2022 - Tillitis AB
* SPDX-License-Identifier: GPL-2.0-only
*/
#include "../mta1_mkdf/lib.h"
#include "../mta1_mkdf/proto.h"
#include "../mta1_mkdf/types.h"
#include "../mta1_mkdf_mem.h"
// clang-format off
volatile uint32_t *mta1name0 = (volatile uint32_t *)MTA1_MKDF_MMIO_MTA1_NAME0;
volatile uint32_t *mta1name1 = (volatile uint32_t *)MTA1_MKDF_MMIO_MTA1_NAME1;
volatile uint32_t *uds = (volatile uint32_t *)MTA1_MKDF_MMIO_UDS_FIRST;
volatile uint32_t *uda = (volatile uint32_t *)MTA1_MKDF_MMIO_QEMU_UDA; // Only in QEMU right now
volatile uint32_t *cdi = (volatile uint32_t *)MTA1_MKDF_MMIO_MTA1_CDI_FIRST;
volatile uint32_t *udi = (volatile uint32_t *)MTA1_MKDF_MMIO_MTA1_UDI_FIRST;
volatile uint32_t *switch_app = (volatile uint32_t *)MTA1_MKDF_MMIO_MTA1_SWITCH_APP;
volatile uint8_t *fw_ram = (volatile uint8_t *)MTA1_MKDF_MMIO_FW_RAM_BASE;
// clang-format on
// TODO Real UDA is 4 words (16 bytes)
#define UDA_WORDS 1
void test_puts(char *reason)
{
for (char *c = reason; *c != '\0'; c++) {
writebyte(*c);
}
}
void test_putsn(char *p, int n)
{
for (int i = 0; i < n; i++) {
writebyte(p[i]);
}
}
void test_puthex(uint8_t c)
{
unsigned int upper = (c >> 4) & 0xf;
unsigned int lower = c & 0xf;
writebyte(upper < 10 ? '0' + upper : 'a' - 10 + upper);
writebyte(lower < 10 ? '0' + lower : 'a' - 10 + lower);
}
void test_puthexn(uint8_t *p, int n)
{
for (int i = 0; i < n; i++) {
test_puthex(p[i]);
}
}
void test_reverseword(uint32_t *wordp)
{
*wordp = ((*wordp & 0xff000000) >> 24) | ((*wordp & 0x00ff0000) >> 8) |
((*wordp & 0x0000ff00) << 8) | ((*wordp & 0x000000ff) << 24);
}
int main()
{
uint8_t in;
// Wait for terminal program and a character to be typed
in = readbyte();
test_puts("I'm testfw on:");
// Output the MTA1 core's NAME0 and NAME1
uint32_t name;
wordcpy(&name, (void *)mta1name0, 1);
test_reverseword(&name);
test_putsn((char *)&name, 4);
test_puts(" ");
wordcpy(&name, (void *)mta1name1, 1);
test_reverseword(&name);
test_putsn((char *)&name, 4);
test_puts("\r\n");
int anyfailed = 0;
uint32_t uds_local[8];
uint32_t uds_zeros[8];
memset(uds_zeros, 0, 8 * 4);
// Should get non-empty UDS
wordcpy(uds_local, (void *)uds, 8);
if (memeq(uds_local, uds_zeros, 8 * 4)) {
test_puts("FAIL: UDS empty\r\n");
anyfailed = 1;
}
// Should NOT be able to read from UDS again
wordcpy(uds_local, (void *)uds, 8);
if (!memeq(uds_local, uds_zeros, 8 * 4)) {
test_puts("FAIL: Read UDS a second time\r\n");
anyfailed = 1;
}
// TODO test UDA once we have it in real hw
// uint32_t uda_local[UDA_WORDS];
// uint32_t uda_zeros[UDA_WORDS];
// memset(uda_zeros, 0, UDA_WORDS*4);
// // Should get non-empty UDA
// wordcpy(uda_local, (void *)uda, UDA_WORDS);
// if (memeq(uda_local, uda_zeros, UDA_WORDS*4)) {
// test_puts("FAIL: UDA empty\r\n");
// anyfailed = 1;
// }
uint32_t udi_local[2];
uint32_t udi_zeros[2];
memset(udi_zeros, 0, 2 * 4);
// Should get non-empty UDI
wordcpy(udi_local, (void *)udi, 2);
if (memeq(udi_local, udi_zeros, 2 * 4)) {
test_puts("FAIL: UDI empty\r\n");
anyfailed = 1;
}
// Should be able to write to CDI in fw (non-app) mode.
uint32_t cdi_writetest[8] = {0xdeafbeef, 0xdeafbeef, 0xdeafbeef,
0xdeafbeef, 0xdeafbeef, 0xdeafbeef,
0xdeafbeef, 0xdeafbeef};
uint32_t cdi_readback[8];
wordcpy((void *)cdi, cdi_writetest, 8);
wordcpy(cdi_readback, (void *)cdi, 8);
if (!memeq(cdi_writetest, cdi_readback, 8 * 4)) {
test_puts("FAIL: Can't write CDI in fw mode\r\n");
anyfailed = 1;
}
// Test FW-RAM.
*fw_ram = 0x12;
if (*fw_ram != 0x12) {
test_puts("FAIL: Can't write and read FW RAM in fw mode\r\n");
anyfailed = 1;
}
// Turn on application mode.
// -------------------------
*switch_app = 1;
// Should NOT be able to read from UDS in app-mode.
wordcpy(uds_local, (void *)uds, 8);
if (!memeq(uds_local, uds_zeros, 8 * 4)) {
test_puts("FAIL: Read from UDS in app-mode\r\n");
anyfailed = 1;
}
// TODO test UDA once we have in in real hw
// // Now we should NOT be able to read from UDA.
// wordcpy(uda_local, (void *)uda, UDA_WORDS);
// if (!memeq(uda_local, uda_zeros, UDA_WORDS*4)) {
// test_puts("FAIL: Read from UDA in app-mode\r\n");
// anyfailed = 1;
// }
uint32_t cdi_local[8];
uint32_t cdi_local2[8];
uint32_t cdi_zeros[8];
memset(cdi_zeros, 0, 8 * 4);
wordcpy(cdi_local, (void *)cdi, 8);
// Write to CDI should NOT have any effect in app mode.
wordcpy((void *)cdi, cdi_zeros, 8);
wordcpy(cdi_local2, (void *)cdi, 8);
if (!memeq(cdi_local, cdi_local2, 8 * 4)) {
test_puts("FAIL: Write to CDI in app-mode\r\n");
anyfailed = 1;
}
// Test FW-RAM.
*fw_ram = 0x21;
if (*fw_ram == 0x21) {
test_puts("FAIL: Write and read FW RAM in app-mode\r\n");
anyfailed = 1;
}
// Check and display test results.
if (anyfailed) {
test_puts("Some test FAILED!\r\n");
} else {
test_puts("All tests passed.\r\n");
}
test_puts("Now echoing what you type...\r\n");
for (;;) {
in = readbyte(); // blocks
writebyte(in);
}
}