lib/Epub/Epub.cpp

@@ -322,11 +322,6 @@ int Epub::getTocItemsCount() const { return toc.size(); }
 
 // work out the section index for a toc index
 int Epub::getSpineIndexForTocIndex(const int tocIndex) const {
-  if (tocIndex < 0 || tocIndex >= toc.size()) {
-    Serial.printf("[%lu] [EBP] getSpineIndexForTocIndex: tocIndex %d out of range\n", millis(), tocIndex);
-    return 0;
-  }
-
   // the toc entry should have an href that matches the spine item
   // so we can find the spine index by looking for the href
   for (int i = 0; i < spine.size(); i++) {
@@ -341,11 +336,6 @@ int Epub::getSpineIndexForTocIndex(const int tocIndex) const {
 }
 
 int Epub::getTocIndexForSpineIndex(const int spineIndex) const {
-  if (spineIndex < 0 || spineIndex >= spine.size()) {
-    Serial.printf("[%lu] [EBP] getTocIndexForSpineIndex: spineIndex %d out of range\n", millis(), spineIndex);
-    return -1;
-  }
-
   // the toc entry should have an href that matches the spine item
   // so we can find the toc index by looking for the href
   for (int i = 0; i < toc.size(); i++) {
@@ -358,21 +348,13 @@ int Epub::getTocIndexForSpineIndex(const int spineIndex) const {
   return -1;
 }
 
-size_t Epub::getBookSize() const {
-  if (spine.empty()) {
-    return 0;
-  }
-  return getCumulativeSpineItemSize(getSpineItemsCount() - 1);
-}
+size_t Epub::getBookSize() const { return getCumulativeSpineItemSize(getSpineItemsCount() - 1); }
 
 // Calculate progress in book
 uint8_t Epub::calculateProgress(const int currentSpineIndex, const float currentSpineRead) {
-  size_t bookSize = getBookSize();
-  if (bookSize == 0) {
-    return 0;
-  }
   size_t prevChapterSize = (currentSpineIndex >= 1) ? getCumulativeSpineItemSize(currentSpineIndex - 1) : 0;
   size_t curChapterSize = getCumulativeSpineItemSize(currentSpineIndex) - prevChapterSize;
+  size_t bookSize = getBookSize();
   size_t sectionProgSize = currentSpineRead * curChapterSize;
   return round(static_cast<float>(prevChapterSize + sectionProgSize) / bookSize * 100.0);
 }

lib/ZipFile/ZipFile.cpp

@@ -62,10 +62,6 @@ long ZipFile::getDataOffset(const mz_zip_archive_file_stat& fileStat) const {
   const uint64_t fileOffset = fileStat.m_local_header_ofs;
 
   FILE* file = fopen(filePath.c_str(), "r");
-  if (!file) {
-    Serial.printf("[%lu] [ZIP] Failed to open file for reading local header\n", millis());
-    return -1;
-  }
   fseek(file, fileOffset, SEEK_SET);
   const size_t read = fread(pLocalHeader, 1, localHeaderSize, file);
   fclose(file);
@@ -108,10 +104,6 @@ uint8_t* ZipFile::readFileToMemory(const char* filename, size_t* size, const boo
   }
 
   FILE* file = fopen(filePath.c_str(), "rb");
-  if (!file) {
-    Serial.printf("[%lu] [ZIP] Failed to open file for reading\n", millis());
-    return nullptr;
-  }
   fseek(file, fileOffset, SEEK_SET);
 
   const auto deflatedDataSize = static_cast<size_t>(fileStat.m_comp_size);
@@ -183,10 +175,6 @@ bool ZipFile::readFileToStream(const char* filename, Print& out, const size_t ch
   }
 
   FILE* file = fopen(filePath.c_str(), "rb");
-  if (!file) {
-    Serial.printf("[%lu] [ZIP] Failed to open file for streaming\n", millis());
-    return false;
-  }
   fseek(file, fileOffset, SEEK_SET);
 
   const auto deflatedDataSize = static_cast<size_t>(fileStat.m_comp_size);

src/CrossPointSettings.cpp

@@ -12,7 +12,7 @@ CrossPointSettings CrossPointSettings::instance;
 
 namespace {
 constexpr uint8_t SETTINGS_FILE_VERSION = 1;
-constexpr uint8_t SETTINGS_COUNT = 3;
+constexpr uint8_t SETTINGS_COUNT = 2;
 constexpr char SETTINGS_FILE[] = "/sd/.crosspoint/settings.bin";
 }  // namespace
 
@@ -25,7 +25,6 @@ bool CrossPointSettings::saveToFile() const {
   serialization::writePod(outputFile, SETTINGS_COUNT);
   serialization::writePod(outputFile, whiteSleepScreen);
   serialization::writePod(outputFile, extraParagraphSpacing);
-  serialization::writePod(outputFile, shortPwrBtn);
   outputFile.close();
 
   Serial.printf("[%lu] [CPS] Settings saved to file\n", millis());
@@ -52,15 +51,15 @@ bool CrossPointSettings::loadFromFile() {
   serialization::readPod(inputFile, fileSettingsCount);
 
   // load settings that exist
-  uint8_t settingsRead = 0;
-  do {
-    serialization::readPod(inputFile, whiteSleepScreen);
-    if (++settingsRead >= fileSettingsCount) break;
-    serialization::readPod(inputFile, extraParagraphSpacing);
-    if (++settingsRead >= fileSettingsCount) break;
-    serialization::readPod(inputFile, shortPwrBtn);
-    if (++settingsRead >= fileSettingsCount) break;
-  } while (false);
+  switch (fileSettingsCount) {
+    case 1:
+      serialization::readPod(inputFile, whiteSleepScreen);
+      break;
+    case 2:
+      serialization::readPod(inputFile, whiteSleepScreen);
+      serialization::readPod(inputFile, extraParagraphSpacing);
+      break;
+  }
 
   inputFile.close();
   Serial.printf("[%lu] [CPS] Settings loaded from file\n", millis());

src/CrossPointSettings.h

@@ -17,18 +17,15 @@ class CrossPointSettings {
 
   // Sleep screen settings
   uint8_t whiteSleepScreen = 0;
+
   // Text rendering settings
   uint8_t extraParagraphSpacing = 1;
-  // Duration of the power button press
-  uint8_t shortPwrBtn = 0;
 
   ~CrossPointSettings() = default;
 
   // Get singleton instance
   static CrossPointSettings& getInstance() { return instance; }
 
-  uint16_t getPowerButtonDuration() const { return shortPwrBtn ? 10 : 500; }
-
   bool saveToFile() const;
   bool loadFromFile();
 };

src/activities/reader/EpubReaderActivity.cpp

@@ -33,14 +33,13 @@ void EpubReaderActivity::onEnter() {
 
   epub->setupCacheDir();
 
-  File f = SD.open((epub->getCachePath() + "/progress.bin").c_str());
-  if (f) {
+  if (SD.exists((epub->getCachePath() + "/progress.bin").c_str())) {
+    File f = SD.open((epub->getCachePath() + "/progress.bin").c_str());
     uint8_t data[4];
-    if (f.read(data, 4) == 4) {
-      currentSpineIndex = data[0] + (data[1] << 8);
-      nextPageNumber = data[2] + (data[3] << 8);
-      Serial.printf("[%lu] [ERS] Loaded cache: %d, %d\n", millis(), currentSpineIndex, nextPageNumber);
-    }
+    f.read(data, 4);
+    currentSpineIndex = data[0] + (data[1] << 8);
+    nextPageNumber = data[2] + (data[3] << 8);
+    Serial.printf("[%lu] [ERS] Loaded cache: %d, %d\n", millis(), currentSpineIndex, nextPageNumber);
     f.close();
   }
 
@@ -383,7 +382,7 @@ void EpubReaderActivity::renderStatusBar() const {
     const auto tocItem = epub->getTocItem(tocIndex);
     title = tocItem.title;
     titleWidth = renderer.getTextWidth(SMALL_FONT_ID, title.c_str());
-    while (titleWidth > availableTextWidth && title.length() > 11) {
+    while (titleWidth > availableTextWidth) {
       title = title.substr(0, title.length() - 8) + "...";
       titleWidth = renderer.getTextWidth(SMALL_FONT_ID, title.c_str());
     }

src/activities/settings/SettingsActivity.cpp

@@ -9,8 +9,7 @@
 
 const SettingInfo SettingsActivity::settingsList[settingsCount] = {
     {"White Sleep Screen", &CrossPointSettings::whiteSleepScreen},
-    {"Extra Paragraph Spacing", &CrossPointSettings::extraParagraphSpacing},
-    {"Short Power Button Click", &CrossPointSettings::shortPwrBtn}};
+    {"Extra Paragraph Spacing", &CrossPointSettings::extraParagraphSpacing}};
 
 void SettingsActivity::taskTrampoline(void* param) {
   auto* self = static_cast<SettingsActivity*>(param);

src/activities/settings/SettingsActivity.h

@@ -25,7 +25,7 @@ class SettingsActivity final : public Activity {
   const std::function<void()> onGoHome;
 
   // Static settings list
-  static constexpr int settingsCount = 3;  // Number of settings
+  static constexpr int settingsCount = 2;  // Number of settings
   static const SettingInfo settingsList[settingsCount];
 
   static void taskTrampoline(void* param);

src/main.cpp

@@ -57,6 +57,11 @@ EpdFont ubuntu10Font(&ubuntu_10);
 EpdFont ubuntuBold10Font(&ubuntu_bold_10);
 EpdFontFamily ubuntuFontFamily(&ubuntu10Font, &ubuntuBold10Font);
 
+// Power button timing
+// Time required to confirm boot from sleep
+constexpr unsigned long POWER_BUTTON_WAKEUP_MS = 500;
+// Time required to enter sleep mode
+constexpr unsigned long POWER_BUTTON_SLEEP_MS = 500;
 // Auto-sleep timeout (10 minutes of inactivity)
 constexpr unsigned long AUTO_SLEEP_TIMEOUT_MS = 10 * 60 * 1000;
 
@@ -74,24 +79,23 @@ void enterNewActivity(Activity* activity) {
 
 // Verify long press on wake-up from deep sleep
 void verifyWakeupLongPress() {
-  // Give the user up to 1000ms to start holding the power button, and must hold for SETTINGS.getPowerButtonDuration()
+  // Give the user up to 1000ms to start holding the power button, and must hold for POWER_BUTTON_WAKEUP_MS
   const auto start = millis();
   bool abort = false;
 
+  Serial.printf("[%lu] [   ] Verifying power button press\n", millis());
   inputManager.update();
-  // Verify the user has actually pressed
   while (!inputManager.isPressed(InputManager::BTN_POWER) && millis() - start < 1000) {
-    delay(10);  // only wait 10ms each iteration to not delay too much in case of short configured duration.
+    delay(50);
     inputManager.update();
   }
 
   if (inputManager.isPressed(InputManager::BTN_POWER)) {
     do {
-      delay(10);
+      delay(50);
       inputManager.update();
-    } while (inputManager.isPressed(InputManager::BTN_POWER) &&
-             inputManager.getHeldTime() < SETTINGS.getPowerButtonDuration());
-    abort = inputManager.getHeldTime() < SETTINGS.getPowerButtonDuration();
+    } while (inputManager.isPressed(InputManager::BTN_POWER) && inputManager.getHeldTime() < POWER_BUTTON_WAKEUP_MS);
+    abort = inputManager.getHeldTime() < POWER_BUTTON_WAKEUP_MS;
   } else {
     abort = true;
   }
@@ -117,7 +121,7 @@ void enterDeepSleep() {
   exitActivity();
   enterNewActivity(new SleepActivity(renderer, inputManager));
 
-  Serial.printf("[%lu] [   ] Entering deep sleep.\n", millis());
+  Serial.printf("[%lu] [   ] Power button released after a long press. Entering deep sleep.\n", millis());
   delay(1000);  // Allow Serial buffer to empty and display to update
 
   // Enable Wakeup on LOW (button press)
@@ -152,25 +156,14 @@ void setup() {
   Serial.printf("[%lu] [   ] Starting CrossPoint version " CROSSPOINT_VERSION "\n", millis());
 
   inputManager.begin();
+  verifyWakeupLongPress();
+
   // Initialize pins
   pinMode(BAT_GPIO0, INPUT);
 
   // Initialize SPI with custom pins
   SPI.begin(EPD_SCLK, SD_SPI_MISO, EPD_MOSI, EPD_CS);
 
-  // SD Card Initialization
-  if (!SD.begin(SD_SPI_CS, SPI, SPI_FQ)) {
-    Serial.printf("[%lu] [   ] SD card initialization failed\n", millis());
-    exitActivity();
-    enterNewActivity(new FullScreenMessageActivity(renderer, inputManager, "SD card error", BOLD));
-    return;
-  }
-
-  SETTINGS.loadFromFile();
-
-  // verify power button press duration after we've read settings.
-  verifyWakeupLongPress();
-
   // Initialize display
   einkDisplay.begin();
   Serial.printf("[%lu] [   ] Display initialized\n", millis());
@@ -183,6 +176,10 @@ void setup() {
   exitActivity();
   enterNewActivity(new BootActivity(renderer, inputManager));
 
+  // SD Card Initialization
+  SD.begin(SD_SPI_CS, SPI, SPI_FQ);
+
+  SETTINGS.loadFromFile();
   APP_STATE.loadFromFile();
   if (APP_STATE.openEpubPath.empty()) {
     onGoHome();
@@ -219,8 +216,7 @@ void loop() {
     return;
   }
 
-  if (inputManager.wasReleased(InputManager::BTN_POWER) &&
-      inputManager.getHeldTime() > SETTINGS.getPowerButtonDuration()) {
+  if (inputManager.wasReleased(InputManager::BTN_POWER) && inputManager.getHeldTime() > POWER_BUTTON_SLEEP_MS) {
     enterDeepSleep();
     // This should never be hit as `enterDeepSleep` calls esp_deep_sleep_start
     return;