diff --git a/main/fpga_test.c b/main/fpga_test.c index 7d1cbce..767ffa4 100644 --- a/main/fpga_test.c +++ b/main/fpga_test.c @@ -1,17 +1,20 @@ -#include "fpga_test.h" #include #include +#include #include #include #include +#include +#include "hardware.h" #include "ili9341.h" #include "ice40.h" #include "rp2040.h" -#include "hardware.h" +#include "fpga_test.h" extern const uint8_t fpga_selftest_bin_start[] asm("_binary_fpga_selftest_bin_start"); extern const uint8_t fpga_selftest_bin_end[] asm("_binary_fpga_selftest_bin_end"); + static const char *TAG = "fpga_test"; esp_err_t load_file_into_psram(ICE40* ice40, FILE* fd) { @@ -22,207 +25,553 @@ esp_err_t load_file_into_psram(ICE40* ice40, FILE* fd) { uint8_t* tx_buffer = malloc(SPI_MAX_TRANSFER_SIZE); if (tx_buffer == NULL) return ESP_FAIL; - while(1) { - tx_buffer[0] = write_cmd; - tx_buffer[1] = (position >> 16); - tx_buffer[2] = (position >> 8) & 0xFF; - tx_buffer[3] = position & 0xFF; - amount_read = fread(&tx_buffer[4], 1, SPI_MAX_TRANSFER_SIZE - 4, fd); - if (amount_read < 1) break; - ESP_LOGI(TAG, "Writing PSRAM @ %u (%u bytes)", position, amount_read); - esp_err_t res = ice40_transaction(ice40, tx_buffer, amount_read + 4, NULL, 0); - if (res != ESP_OK) { - ESP_LOGE(TAG, "Write transaction failed @ %u", position); - free(tx_buffer); - return res; - } - position += amount_read; - }; - free(tx_buffer); - return ESP_OK; -} +/* SPI commands */ +#define SPI_CMD_NOP1 0x00 +#define SPI_CMD_SOC_MSG 0x10 +#define SPI_CMD_REG_ACCESS 0xf0 +#define SPI_CMD_LOOPBACK 0xf1 +#define SPI_CMD_LCD_PASSTHROUGH 0xf2 +#define SPI_CMD_BUTTON_REPORT 0xf4 +#define SPI_CMD_IRQ_ACK 0xfd +#define SPI_CMD_RESP_ACK 0xfe +#define SPI_CMD_NOP2 0xff -esp_err_t load_buffer_into_psram(ICE40* ice40, uint8_t* buffer, uint32_t buffer_length) { - const uint8_t write_cmd = 0x02; - uint32_t position = 0; - uint8_t* tx_buffer = malloc(SPI_MAX_TRANSFER_SIZE); - if (tx_buffer == NULL) return ESP_FAIL; - while(1) { - tx_buffer[0] = write_cmd; - tx_buffer[1] = (position >> 16); - tx_buffer[2] = (position >> 8) & 0xFF; - tx_buffer[3] = position & 0xFF; - uint32_t length = buffer_length - position; - if (length > SPI_MAX_TRANSFER_SIZE - 4) length = SPI_MAX_TRANSFER_SIZE - 4; - memcpy(&tx_buffer[4], &buffer[position], length); - if (length == 0) break; - ESP_LOGI(TAG, "Writing PSRAM @ %u (%u bytes)", position, length); - esp_err_t res = ice40_transaction(ice40, tx_buffer, length + 4, NULL, 0); - if (res != ESP_OK) { - ESP_LOGE(TAG, "Write transaction failed @ %u", position); - free(tx_buffer); - return res; - } - position += length; - }; - free(tx_buffer); - return ESP_OK; -} +/* Messages to self-test SoC */ +#define SOC_CMD_PING 0x00 +#define SOC_CMD_PING_PARAM 0xc0ffee +#define SOC_CMD_PING_RESP 0xcafebabe -esp_err_t verify_file_in_psram(ICE40* ice40, FILE* fd) { - fseek(fd, 0, SEEK_SET); - const uint8_t read_cmd = 0x03; - uint32_t amount_read; - uint32_t position = 0; - uint8_t* tx_buffer = malloc(SPI_MAX_TRANSFER_SIZE); - if (tx_buffer == NULL) return ESP_FAIL; - memset(tx_buffer, 0, SPI_MAX_TRANSFER_SIZE); - uint8_t* verify_buffer = malloc(SPI_MAX_TRANSFER_SIZE); - if (verify_buffer == NULL) return ESP_FAIL; - uint8_t* rx_buffer = malloc(SPI_MAX_TRANSFER_SIZE); - if (rx_buffer == NULL) return ESP_FAIL; +#define SOC_CMD_RGB_STATE_SET 0x10 +#define SOC_CMD_IRQN_SET 0x11 +#define SOC_CMD_LCD_RGB_CYCLE_SET 0x12 +#define SOC_CMD_PMOD_CYCLE_SET 0x13 +#define SOC_CMD_LCD_PASSTHROUGH_SET 0x14 - while(1) { - tx_buffer[0] = read_cmd; - tx_buffer[1] = (position >> 16); - tx_buffer[2] = (position >> 8) & 0xFF; - tx_buffer[3] = position & 0xFF; - amount_read = fread(&verify_buffer[4], 1, SPI_MAX_TRANSFER_SIZE - 4, fd); - if (amount_read < 1) break; - ESP_LOGI(TAG, "Reading PSRAM @ %u (%u bytes)", position, amount_read); - esp_err_t res = ice40_transaction(ice40, tx_buffer, amount_read + 4, rx_buffer, amount_read + 4); - if (res != ESP_OK) { - ESP_LOGE(TAG, "Read transaction failed @ %u", position); - free(tx_buffer); - return res; - } - position += amount_read; - ESP_LOGI(TAG, "Verifying PSRAM @ %u (%u bytes)", position, amount_read); - for (uint32_t i = 4; i < amount_read; i++) { - if (rx_buffer[i] != verify_buffer[i]) { - ESP_LOGE(TAG, "Verifying PSRAM @ %u failed: %02X != %02X", position + i, rx_buffer[i], verify_buffer[i]); - free(tx_buffer); - free(rx_buffer); - free(verify_buffer); - return ESP_FAIL; - } - } - }; - free(tx_buffer); - free(rx_buffer); - free(verify_buffer); - ESP_LOGI(TAG, "PSRAM contents verified!"); - return ESP_OK; -} +#define SOC_CMD_PSRAM_TEST 0x20 +#define SOC_CMD_UART_LOOPBACK_TEST 0x21 +#define SOC_CMD_PMOD_OPEN_TEST 0x22 +#define SOC_CMD_PMOD_PLUG_TEST 0x23 +#define SOC_CMD_LCD_INIT_TEST 0x24 -bool test_spi(ICE40* ice40) { +#define SOC_CMD_LCD_CHECK_MODE 0x30 + +#define SOC_RESP_OK 0x00000000 + + +/* SoC commands */ + +static bool soc_message(ICE40* ice40, uint8_t cmd, uint32_t param, uint32_t *resp, TickType_t ticks_to_wait) { esp_err_t res; - uint8_t data_tx[256]; - uint8_t data_rx[128]; + uint8_t data_tx[6]; + uint8_t data_rx[6]; - // Generate pseudo random sequence - data_tx[0] = 1; - for (int i = 1; i < 256; i++) + /* Default delay */ + ticks_to_wait /= 10; /* We do 10 retries */ + if (!ticks_to_wait) + ticks_to_wait = pdMS_TO_TICKS(50); + + /* Prepare message */ + data_tx[0] = SPI_CMD_SOC_MSG; + data_tx[1] = cmd; + data_tx[2] = (param >> 16) & 0xff; + data_tx[3] = (param >> 8) & 0xff; + data_tx[4] = (param ) & 0xff; + + /* Send message to PicoRV */ + res = ice40_send_turbo(ice40, data_tx, 5); + if (res != ESP_OK) { + ESP_LOGE(TAG, "SoC message TX failed"); + return false; + } + + /* Poll until we get a response */ + data_tx[0] = SPI_CMD_RESP_ACK; + + for (int i=0; i<10; i++) { + /* Poll */ + res = ice40_transaction(ice40, data_tx, 6, data_rx, 6); + if (res != ESP_OK) { + ESP_LOGE(TAG, "SoC response RX failed"); + return false; + } + + /* Was response valid ? */ + if (data_rx[1] & 0x80) + break; + + /* Wait before retry */ + vTaskDelay(ticks_to_wait); + } + + if (!(data_rx[1] & 0x80)) { + ESP_LOGE(TAG, "SoC response RX timeout"); + return false; + } + + /* Report response */ + if (resp) { + *resp = 0; + for (int i=0; i<4; i++) + *resp = (*resp << 8) | data_rx[2+i]; + } + + return true; +} + + +/* Test routines */ + +static bool test_bitstream_load(ICE40* ice40, uint32_t *rc) { + esp_err_t res; + + res = ice40_load_bitstream(ice40, fpga_selftest_bin_start, fpga_selftest_bin_end - fpga_selftest_bin_start); + if (res != ESP_OK) { + *rc = res; + return false; + } + + *rc = 0; + return true; +} + +static bool test_spi_loopback_one(ICE40* ice40) { + esp_err_t res; + uint8_t data_tx[257]; + uint8_t data_rx[258]; + + /* Generate pseudo random sequence */ + data_tx[1] = 1; + for (int i = 2; i < 257; i++) data_tx[i] = (data_tx[i-1] << 1) ^ ((data_tx[i-1] & 0x80) ? 0x1d : 0x00); - // Send first 128 byte at high speed - res = ice40_send_turbo(ice40, &data_tx[0], 128); + /* Send 256 bytes at high speed with echo command */ + data_tx[0] = SPI_CMD_LOOPBACK; + + res = ice40_send_turbo(ice40, data_tx, 257); if (res != ESP_OK) { - ESP_LOGE(TAG, "Transaction 1 failed (Turbo TX)"); + ESP_LOGE(TAG, "SPI loopback transaction 1 failed (Turbo TX)"); return false; } - // Execute full duplex transaction with next 128 bytes - res = ice40_transaction(ice40, &data_tx[128], 128, data_rx, 128); + /* Execute full duplex transaction with next 128 bytes */ + res = ice40_transaction(ice40, data_tx, 257, data_rx, 257); if (res != ESP_OK) { - ESP_LOGE(TAG, "Transaction 2 failed (Full Duplex)"); + ESP_LOGE(TAG, "SPI loopback transaction 2 failed (Full Duplex)"); return false; } - // Validate RX data - if (memcmp(&data_rx[1], &data_tx[0], 127)) { - printf("Transaction 1->2 integrity fail:\n"); - for (int i = 0; i < 128; i++) + /* Validate response present */ + if ((data_rx[1] & 0x80) == 0) { + ESP_LOGE(TAG, "SPI loopback transaction 2 reports no response available\n"); + return false; + } + + /* Validate RX data (only 254 byte got read) */ + if (memcmp(&data_rx[2], &data_tx[1], 254)) { + ESP_LOGE(TAG, "SPI loopback transaction 1->2 integrity fail:\n"); + for (int i = 0; i < 254; i++) printf("%02X%c", data_rx[i], ((i&0xf)==0xf) ? '\n' : ' '); printf("\n"); return false; } - // Receive half duplex - res = ice40_receive(ice40, data_rx, 128); + /* Read two responses and ack them */ + for (int t = 0; t < 2; t++) { + /* Receive half duplex */ + res = ice40_receive(ice40, data_rx, 258); + if (res != ESP_OK) { + ESP_LOGE(TAG, "SPI loopback transaction 3.%d failed (Half Duplex RX)", t); + return false; + } + + /* Short acknowledge command */ + data_tx[0] = SPI_CMD_RESP_ACK; + + res = ice40_send_turbo(ice40, data_tx, 1); + if (res != ESP_OK) { + ESP_LOGE(TAG, "SPI loopback transaction 4.%d failed (Turbo ACK)", t); + return false; + } + + /* Validate response present */ + if ((data_rx[1] & 0x80) == 0) { + ESP_LOGE(TAG, "SPI loopback transaction 3.%d reports no response available\n", t); + return false; + } + + /* Validate RX data (only 254 byte got read) */ + if (memcmp(&data_rx[2], &data_tx[1], 254)) { + ESP_LOGE(TAG, "SPI loopback transaction %d->3.%d integrity fail:\n", 1+t, t); + for (int i = 0; i < 254; i++) + printf("%02X%c", data_rx[i], ((i&0xf)==0xf) ? '\n' : ' '); + printf("\n"); + return false; + } + } + + /* Check there is no more responses pending */ + data_tx[0] = SPI_CMD_NOP2; + + res = ice40_transaction(ice40, data_tx, 2, data_rx, 2); if (res != ESP_OK) { - ESP_LOGE(TAG, "Transaction 3 failed (Half Duplex RX)"); + ESP_LOGE(TAG, "SPI loopback transaction 5 failed (Full Duplex)"); return false; } - // Validate RX data - if (memcmp(&data_rx[1], &data_tx[128], 127)) { - printf("Transaction 2->3 integrity fail:\n"); - for (int i = 0; i < 128; i++) - printf("%02X%c", data_rx[i], ((i&0xf)==0xf) ? '\n' : ' '); - printf("\n"); + if ((data_rx[1] & 0x80) != 0) { + ESP_LOGE(TAG, "SPI loopback transaction 5 reports response available\n"); return false; } return true; } -void fpga_test(ILI9341* ili9341, ICE40* ice40, xQueueHandle buttonQueue) { +static bool test_spi_loopback(ICE40* ice40, uint32_t *rc) { + int i; + + /* Run test 256 times */ + for (i=0; i<256; i++) { + if (!test_spi_loopback_one(ice40)) + break; + } + + /* Failure ? */ + if (i != 256) { + *rc = i + 1; + return false; + } + + /* OK ! */ + *rc = 0; + return true; +} + +static bool test_soc_loopback(ICE40 *ice40, uint32_t *rc) { + /* Execute command */ + if (!soc_message(ice40, SOC_CMD_PING, SOC_CMD_PING_PARAM, rc, 0)) { + *rc = -1; + return false; + } + + /* Check response */ + if (*rc != SOC_CMD_PING_RESP) + return false; + + /* Success */ + *rc = 0; + return true; +} + +static bool test_uart_loopback(ICE40* ice40, uint32_t *rc) { + /* Enable loopback mode of RP2040 */ + rp2040_set_fpga_loopback(get_rp2040(), true, true); + vTaskDelay(pdMS_TO_TICKS(10)); + + /* Execute command */ + if (!soc_message(ice40, SOC_CMD_UART_LOOPBACK_TEST, 0, rc, 0)) { + *rc = -1; + return false; + } + + /* Disable loopback mode of RP2040 */ + rp2040_set_fpga_loopback(get_rp2040(), true, false); + + /* Check response */ + return *rc == SOC_RESP_OK; +} + +static bool test_psram(ICE40* ice40, uint32_t *rc) { + /* Execute command */ + if (!soc_message(ice40, SOC_CMD_PSRAM_TEST, 0, rc, pdMS_TO_TICKS(1000))) { + *rc = -1; + return false; + } + + /* Check response */ + return *rc == SOC_RESP_OK; +} + +static bool test_irq_n(ICE40* ice40, uint32_t *rc) { esp_err_t res; - bool reload_fpga = false; - do { - printf("Start FPGA test...\n"); - reload_fpga = false; - printf("LCD deinit...\n"); - ili9341_deinit(ili9341); - printf("FPGA load...\n"); - res = ice40_load_bitstream(ice40, fpga_selftest_bin_start, fpga_selftest_bin_end - fpga_selftest_bin_start); - if (res != ESP_OK) { - printf("Failed to load app bitstream into FPGA (%d)\n", res); - ice40_disable(ice40); - ili9341_init(ili9341); - return; - } else { - printf("Bitstream loaded succesfully!\n"); - } + /* Set pin as input */ + res = gpio_set_direction(GPIO_INT_FPGA, GPIO_MODE_INPUT); + if (res != ESP_OK) { + *rc = 32; + return false; + } - int i; - for (i = 0; i < 256; i++) - if (!test_spi(ice40)) - break; - if (i == 256) - printf("SPI test success\n"); - else - printf("SPI test failure at iteration %d\n", i); + /* Assert interrupt line */ + if (!soc_message(ice40, SOC_CMD_IRQN_SET, 1, rc, 0)) { + *rc = -1; + return false; + } - bool waitForChoice = true; - while (waitForChoice) { - rp2040_input_message_t buttonMessage = {0}; - printf("Waiting for button press...\n"); - if (xQueueReceive(buttonQueue, &buttonMessage, portMAX_DELAY) == pdTRUE) { - printf("Button: %u, %u\n", buttonMessage.input, buttonMessage.state); - if (buttonMessage.state) { - switch(buttonMessage.input) { - case RP2040_INPUT_BUTTON_HOME: - case RP2040_INPUT_BUTTON_MENU: - waitForChoice = false; - break; - case RP2040_INPUT_BUTTON_BACK: - reload_fpga = true; - waitForChoice = false; - break; - case RP2040_INPUT_BUTTON_ACCEPT: - reload_fpga = true; - waitForChoice = false; - break; - default: - break; - } + if (*rc != SOC_RESP_OK) + return false; + + /* Check level is 0 */ + if (gpio_get_level(GPIO_INT_FPGA) != 0) { + *rc = 16; + return false; + } + + /* Release interrupt line */ + if (!soc_message(ice40, SOC_CMD_IRQN_SET, 0, rc, 0)) { + *rc = -1; + return false; + } + + if (*rc != SOC_RESP_OK) + return false; + + /* Check level is 1 */ + if (gpio_get_level(GPIO_INT_FPGA) != 1) { + *rc = 16; + return false; + } + + return true; +} + +static bool test_lcd_mode(ICE40* ice40, uint32_t *rc) { + esp_err_t res; + bool ok; + + /* Defaults */ + ok = true; + *rc = 0; + + /* Check state is 0 */ + if (!soc_message(ice40, SOC_CMD_LCD_CHECK_MODE, 0, rc, 0)) { + *rc = 16; + return false; + } + + if (*rc != SOC_RESP_OK) + return false; + + /* Set LCD mode to 1 */ + res = gpio_set_level(GPIO_LCD_MODE, 1); + if (res != ESP_OK) { + *rc = 32; + return false; + } + + /* Check state is 1 */ + if (!soc_message(ice40, SOC_CMD_LCD_CHECK_MODE, 1, rc, 0)) { + *rc = 17; + ok = false; + } + + if (*rc != SOC_RESP_OK) + ok = false; + + /* Set LCD mode back to 0 */ + res = gpio_set_level(GPIO_LCD_MODE, 0); + if (res != ESP_OK) { + *rc = 33; + return false; + } + + /* All good */ + return ok; +} + +static bool test_pmod_open(ICE40* ice40, uint32_t *rc) { + /* Execute command */ + if (!soc_message(ice40, SOC_CMD_PMOD_OPEN_TEST, 0, rc, 0)) { + *rc = -1; + return false; + } + + /* Check response */ + return *rc == SOC_RESP_OK; +} + +static bool test_pmod_plug(ICE40* ice40, uint32_t *rc) { + /* Execute command */ + if (!soc_message(ice40, SOC_CMD_PMOD_PLUG_TEST, 0, rc, 0)) { + *rc = -1; + return false; + } + + /* Check response */ + return *rc == SOC_RESP_OK; +} + +static bool test_lcd_init(ICE40* ice40, uint32_t *rc) { + /* Execute command */ + if (!soc_message(ice40, SOC_CMD_LCD_INIT_TEST, 0, rc, 0)) { + *rc = -1; + return false; + } + + /* Check response */ + return *rc == SOC_RESP_OK; +} + + +typedef bool (*test_fn)(ICE40 *ice40, uint32_t *rc); + + +static bool wait_button(xQueueHandle buttonQueue) { + rp2040_input_message_t buttonMessage = {0}; + + while (1) { + if (xQueueReceive(buttonQueue, &buttonMessage, 0) == pdTRUE) { + if (buttonMessage.state) { + switch(buttonMessage.input) { + case RP2040_INPUT_BUTTON_HOME: + case RP2040_INPUT_BUTTON_MENU: + case RP2040_INPUT_BUTTON_BACK: + return false; + case RP2040_INPUT_BUTTON_ACCEPT: + return true; + default: + break; } } + } else { + vTaskDelay(pdMS_TO_TICKS(10)); } - ice40_disable(ice40); - ili9341_init(ili9341); - } while (reload_fpga); + } +} + +static bool run_test(ICE40* ice40, pax_buf_t* pax_buffer, const pax_font_t *font, ILI9341* ili9341, int line, + const char *test_name, test_fn fn) { + bool rv; + uint32_t rc; + + /* Test name */ + pax_draw_text(pax_buffer, 0xffffffff, font, 18, 0, 20*line, test_name); + if (ili9341) + ili9341_write(ili9341, pax_buffer->buf); + + /* Run the test */ + rv = fn(ice40, &rc); + + /* Display result */ + if (!rv) { + /* Error */ + char buf[10]; + snprintf(buf, sizeof(buf), "%08x", rc); + pax_draw_text(pax_buffer, 0xffff0000, font, 18, 200, 20*line, buf); + } else { + /* OK ! */ + pax_draw_text(pax_buffer, 0xff00ff00, font, 18, 200, 20*line, " OK"); + } + + if (ili9341) + ili9341_write(ili9341, pax_buffer->buf); + + /* Pass through the 'OK' status */ + return rv; +} + +#define RUN_TEST(name, fn) do {\ + ok &= run_test(ice40, pax_buffer, font, ili9341, line++, name, fn); \ +} while (0) + +#define RUN_TEST_MANDATORY(name, fn) do {\ + if (!run_test(ice40, pax_buffer, font, ili9341, line++, name, fn)) { \ + pax_draw_text(pax_buffer, 0xffff0000, font, 18, 0, 20*line, "Aborted"); \ + ili9341_write(ili9341, pax_buffer->buf); \ + ok = false; \ + goto error; \ + } \ +} while (0) + +#define RUN_TEST_BLIND(name, fn) do {\ + ok &= run_test(ice40, pax_buffer, font, NULL, line++, name, fn); \ +} while (0) + + +static void +run_all_tests(xQueueHandle buttonQueue, ICE40* ice40, pax_buf_t* pax_buffer, ILI9341* ili9341) +{ + const pax_font_t *font; + int line = 0; + bool ok = true; + + /* Screen init */ + font = pax_get_font("sky mono"); + + pax_noclip(pax_buffer); + pax_background(pax_buffer, 0x8060f0); + ili9341_write(ili9341, pax_buffer->buf); + + /* Run mandatory tests */ + RUN_TEST_MANDATORY("Bitstream load", test_bitstream_load); + RUN_TEST_MANDATORY("SPI loopback", test_spi_loopback); + RUN_TEST_MANDATORY("SoC loopback", test_soc_loopback); + + /* Set indicator to "in-progress" */ + soc_message(ice40, SOC_CMD_RGB_STATE_SET, 1, NULL, 0); + + /* Run non-interactive tests */ + RUN_TEST("UART loopback", test_uart_loopback); + RUN_TEST("PSRAM", test_psram); + RUN_TEST("IRQ_n signal", test_irq_n); + RUN_TEST("LCD_MODE signal", test_lcd_mode); + RUN_TEST("PMOD open", test_pmod_open); + + /* Show instructions for interactive test */ + pax_draw_text(pax_buffer, 0xffc0c0c0, font, 9, 25, 20*line+ 0, "Insert PMOD plug"); + pax_draw_text(pax_buffer, 0xffc0c0c0, font, 9, 25, 20*line+10, "Then press button for interactive test"); + pax_draw_text(pax_buffer, 0xffc0c0c0, font, 9, 25, 20*line+20, " - Check LCD color bars"); + pax_draw_text(pax_buffer, 0xffc0c0c0, font, 9, 25, 20*line+30, " - Then LCD & RGB led color cycling"); + ili9341_write(ili9341, pax_buffer->buf); + + /* Wait for button */ + wait_button(buttonQueue); + + /* Clear the instructions from buffer */ + pax_draw_rect(pax_buffer, 0xff8060f0, 0, 20*line, 320, 240-20*line); + + /* Handover LCD to FPGA */ + ili9341_deinit(ili9341); + + /* Run interactive tests */ + RUN_TEST("PMOD plug", test_pmod_plug); + RUN_TEST("LCD init", test_lcd_init); + + /* Wait a second (for user to see color bars) */ + vTaskDelay(pdMS_TO_TICKS(1000)); + + /* Start LCD / RGB cycling */ + soc_message(ice40, SOC_CMD_LCD_RGB_CYCLE_SET, 1, NULL, 0); + + /* Wait for button */ + wait_button(buttonQueue); + + /* Stop LCD / RGB cycling */ + soc_message(ice40, SOC_CMD_LCD_RGB_CYCLE_SET, 0, NULL, 0); + + /* Take control of the LCD back and refresh screen */ + ili9341_init(ili9341); + +error: + /* Update indicator */ + soc_message(ice40, SOC_CMD_RGB_STATE_SET, ok ? 2 : 3, NULL, 0); + + /* Pass / Fail result on screen */ + if (ok) + pax_draw_text(pax_buffer, 0xff00ff00, font, 36, 100, 20*line, "PASS"); + else + pax_draw_text(pax_buffer, 0xffff0000, font, 36, 100, 20*line, "FAIL"); + + ili9341_write(ili9341, pax_buffer->buf); + + /* Done, just wait for button */ + wait_button(buttonQueue); + + /* Cleanup */ + ice40_disable(ice40); + + return; +} + +void fpga_test(xQueueHandle buttonQueue, ICE40* ice40, pax_buf_t* pax_buffer, ILI9341* ili9341) { + run_all_tests(buttonQueue, ice40, pax_buffer, ili9341); }