/*! \fn     guiDisplayLoginOrPasswordOnScreen(char* text)
*   \brief  Display a login or password on screen
*   \param  text    Text to display
*/
void guiDisplayLoginOrPasswordOnScreen(char* text)
{
    guiDisplayTextInformationOnScreen(text);
    #if defined(HARDWARE_OLIVIER_V1)
        getTouchedPositionAnswer(0);
    #elif defined(MINI_VERSION)
        while (miniGetWheelAction(FALSE,FALSE) == WHEEL_ACTION_NONE);
    #endif    
}
/*! \fn     guiAskForLoginSelect(pNode* p, cNode* c, uint16_t parentNodeAddress)
*   \brief  Ask for user login selection / approval
*   \param  p                   Pointer to a parent node
*   \param  c                   Pointer to a child node
*   \param  parentNodeAddress   Address of the parent node
*   \param  bypass_confirmation Bool to bypass authorisation request
*   \return Valid child node address or 0 otherwise
*/
uint16_t guiAskForLoginSelect(pNode* p, cNode* c, uint16_t parentNodeAddress, uint8_t bypass_confirmation)
{
    uint16_t first_child_address, temp_child_address;
    uint16_t picked_child = NODE_ADDR_NULL;
    uint16_t addresses[4];
    uint8_t led_mask;
    int8_t i, j;
    
    // Check parent node address
    if (parentNodeAddress == NODE_ADDR_NULL)
    {
        return NODE_ADDR_NULL;
    }
    
    // Read the parent node
    readParentNode(p, parentNodeAddress);
    
    // Read its first child address
    first_child_address = p->nextChildAddress;
    
    // Check if there are stored credentials
    if (first_child_address == NODE_ADDR_NULL)
    {
        guiDisplayInformationOnScreenAndWait(ID_STRING_NO_CREDS);
        return NODE_ADDR_NULL;
    }
    
    // Read child node
    readChildNode(c, first_child_address);
    
    // Check if there's only one child, that's a confirmation screen
    if (c->nextChildAddress == NODE_ADDR_NULL)
    {
        confirmationText_t temp_conf_text;
        
        // Prepare asking confirmation screen
        temp_conf_text.lines[0] = readStoredStringToBuffer(ID_STRING_CONFACCESSTO);
        temp_conf_text.lines[1] = (char*)p->service;
        temp_conf_text.lines[2] = readStoredStringToBuffer(ID_STRING_WITHTHISLOGIN);
        temp_conf_text.lines[3] = (char*)c->login;
        
        // Prompt user for confirmation, flash the screen
        if ((bypass_confirmation == TRUE) || (guiAskForConfirmation(0xF0 | 4, &temp_conf_text) == RETURN_OK))
        {
            picked_child = first_child_address;
        }
    }
    else
    {
        temp_child_address = first_child_address;
        uint8_t action_chosen = FALSE;
        
        while (action_chosen == FALSE)
        {
            // Draw asking bitmap
            oledBitmapDrawFlash(0, 0, BITMAP_LOGIN, 0);
            
            // Write domain name on screen
            char temp_string[INDEX_TRUNCATE_SERVICE_CENTER+1];
            memcpy(temp_string, (char*)p->service, sizeof(temp_string));
            temp_string[INDEX_TRUNCATE_SERVICE_CENTER] = 0;
            oledPutstrXY(0, 24, OLED_CENTRE, temp_string);
            
            // Clear led_mask
            led_mask = 0;
            i = 0;
            
            // List logins on screen
            while ((temp_child_address != NODE_ADDR_NULL) && (i != 4))
            {
                // Read child node to get login
                readChildNode(c, temp_child_address);
                
                // Print Login at the correct slot
                displayCredentialAtSlot(i, (char*)c->login, INDEX_TRUNCATE_LOGIN_FAV);            
                
                // Store address in array, fetch next address
                addresses[i] = temp_child_address;
                temp_child_address = c->nextChildAddress;
                i++;
            }
            
            // If nothing after, hide right arrow
            if ((i != 4) || (c->nextChildAddress == NODE_ADDR_NULL))
            {
                oledFillXY(177, 25, 16, 14, 0x00);
                led_mask |= LED_MASK_RIGHT;
            }
            
            // Light only the available choices
            for (j = i; j < 4; j++)
            {
                led_mask |= (1 << j);
            }
            
            // Display picture
            oledDisplayOtherBuffer();
            
            // Get touched quarter
            j = getTouchedPositionAnswer(led_mask);
            
            // Check its validity, knowing that by default we will return NODE_ADDR_NULL
            if (j == -1)
            {
                // Time out
                action_chosen = TRUE;
            }
            else if (j < i)
            {
                picked_child = addresses[j];
                action_chosen = TRUE;
            }
            else if (j == TOUCHPOS_LEFT)
            {                
                // If there is a previous children, go back 4 indexes
                if (addresses[0] != first_child_address)
                {
                    c->prevChildAddress = addresses[0];
                    for (i = 0; i < 5; i++)
                    {
                        temp_child_address = c->prevChildAddress;
                        readChildNode(c, temp_child_address);
                    }
                }
                else
                {
                    // otherwise, return
                    action_chosen = TRUE;
                }
            }
            else if ((j == TOUCHPOS_RIGHT) && (i == 4) && (c->nextChildAddress != NODE_ADDR_NULL))
            {
                // If there are more nodes to display, let it loop
                // temp_child_address = c->nextChildAddress;
            }
            else
            {
                // Wrong position
                temp_child_address = addresses[0];
            }
        }
    }
    
    return picked_child;
}
/*! \fn     favoriteSelectionScreen(pNode* p, cNode* c)
*   \brief  Screen displayed to let the user choose a favorite
*   \param  p                   Pointer to a parent node
*   \param  c                   Pointer to a child node
*   \return Valid child node address or 0 otherwise
*/
uint16_t favoriteSelectionScreen(pNode* p, cNode* c)
{
    uint16_t picked_child = NODE_ADDR_NULL;
    uint16_t parentAddresses[USER_MAX_FAV];
    uint16_t childAddresses[USER_MAX_FAV];
    uint16_t tempparaddr, tempchildaddr;
    uint8_t action_chosen = FALSE;
    uint8_t nbFavorites = 0;
    uint8_t offset = 0;
    uint8_t led_mask;
    int8_t i, j;
    
    // Browse through the favorites
    for (i = 0; i < USER_MAX_FAV; i++)
    {
        // Read favorite, check that it is valid
        readFav(i, &tempparaddr, &tempchildaddr);
        
        // If so, store it in our know addresses
        if (tempparaddr != NODE_ADDR_NULL)
        {
            parentAddresses[nbFavorites] = tempparaddr;
            childAddresses[nbFavorites++] = tempchildaddr;
        }
    }    
    
    // If no favorite, return
    if (nbFavorites == 0)
    {
        guiDisplayInformationOnScreenAndWait(ID_STRING_NOSTOREDFAV);
        return NODE_ADDR_NULL;
    }
    
    // Loop until the user chooses smth
    while (action_chosen != TRUE)
    {
        // Draw asking bitmap
        oledBitmapDrawFlash(0, 0, BITMAP_LOGIN, 0);
        
        // Clear led_mask
        led_mask = 0;
        i = 0;
        
        // List logins on screen
        while (((offset + i) < nbFavorites) && (i != 4))
        {
            // Read child node to get login
            readChildNode(c, childAddresses[offset+i]);
            readParentNode(p, parentAddresses[offset+i]);
            
            // Print service / login on screen
            displayCredentialAtSlot(i+((i&0x02)<<2), (char*)c->login, INDEX_TRUNCATE_LOGIN_FAV);
            displayCredentialAtSlot(i+((~i&0x02)<<2), (char*)p->service, INDEX_TRUNCATE_LOGIN_FAV);
            
            // Increment i
            i++;
        }
        
        // If nothing after, hide right arrow
        if ((i != 4) || ((offset+i) == nbFavorites))
        {
            oledFillXY(177, 25, 16, 14, 0x00);
            led_mask |= LED_MASK_RIGHT;
        }
        
        // Light only the available choices
        for (j = i; j < 4; j++)
        {
            led_mask |= (1 << j);
        }
        
        // Display picture
        oledDisplayOtherBuffer();
        
        // Get touched quarter
        j = getTouchedPositionAnswer(led_mask);
        
        // Check its validity, knowing that by default we will return NODE_ADDR_NULL
        if (j == -1)
        {
            action_chosen = TRUE;
            // Time out
        }
        else if (j < i)
        {
            // Valid choice, load parent node as it will be used later
            readParentNode(p, parentAddresses[offset+j]);
            picked_child = childAddresses[offset+j];
            action_chosen = TRUE;
        }
        else if (j == TOUCHPOS_LEFT)
        {
            if (offset > 0)
            {
                offset -= 4;
            } 
            else
            {
                // User wants to go back
                action_chosen = TRUE;                
            }
        }
        else if ((j == TOUCHPOS_RIGHT) && (i == 4) && ((offset+i) != nbFavorites))
        {
            // If there are more nodes to display
            offset += 4;
        }
    }
    
    // Return selected child
    return picked_child;
}
/*! \fn     guiAskForConfirmation(const char* string)
*   \brief  Ask for user confirmation for different things
*   \param  nb_args     Number of text lines (must be either 1 2 or 3/4 (depending on the MP version))
*   \param  text_object Pointer to the text object if more than 1 line, pointer to the string if not
*   \return User confirmation or not
*/
RET_TYPE guiAskForConfirmation(uint8_t nb_args, confirmationText_t* text_object)
{    
    uint8_t flash_flag = FALSE;
    
    // Check if we want to flash the screen
    if ((nb_args & 0xF0) != 0)
    {
        nb_args = nb_args & 0x0F;
        // Check that the user didn't disable it
        if (getMooltipassParameterInEeprom(FLASH_SCREEN_PARAM) != FALSE)
        {
            flash_flag = TRUE;
        }
    }
    
    #if defined(HARDWARE_OLIVIER_V1)
        // Temp string for truncating
        char string_tbd[31];
        string_tbd[30] = 0;
        
        // Draw asking bitmap
        oledClear();
        oledBitmapDrawFlash(0, 0, BITMAP_YES_NO_INT_L, 0);
        oledBitmapDrawFlash(222, 0, BITMAP_YES_NO_INT_R, 0);
    
        // If more than one line
        if (nb_args == 1)
        {
            // Yeah, that's a bit dirty
            oledPutstrXY(0, 24, OLED_CENTRE, (char*)text_object);
        }
        else
        {
            while (nb_args--)
            {
                // Truncate and then display string
                memcpy(string_tbd, text_object->lines[nb_args], 30);
                oledPutstrXY(0, 2 + (nb_args << 4), OLED_CENTRE, string_tbd);
            }
        }
    
        // Display result
        oledDisplayOtherBuffer();
    #elif defined(MINI_VERSION)
        // Variables for scrolling
        uint8_t string_y_indexes[3];
        uint8_t string_extra_chars[3];
        uint8_t string_offset_cntrs[3] = {0,0,0};
        // Display variables
        uint8_t approve_selected = TRUE;
        
        // Draw asking bitmap
        oledClear();
        miniOledSetMaxTextY(SSD1305_OLED_WIDTH-15);
        oledBitmapDrawFlash(SSD1305_OLED_WIDTH-15, 0, BITMAP_APPROVE, 0);
        
        // Display lines. 
        // Note: line are truncated at the oled driver level when miniOledTextWritingYIncrement is set to FALSE
        if (nb_args == 1)
        {
            miniOledPutCenteredString(THREE_LINE_TEXT_SECOND_POS, (char*)text_object);
        }
        else if (nb_args == 2)
        {
            string_y_indexes[0] = TWO_LINE_TEXT_FIRST_POS;
            string_y_indexes[1] = TWO_LINE_TEXT_SECOND_POS;
        }
        else
        {
            string_y_indexes[0] = THREE_LINE_TEXT_FIRST_POS;
            string_y_indexes[1] = THREE_LINE_TEXT_SECOND_POS;
            string_y_indexes[2] = THREE_LINE_TEXT_THIRD_POS; 
        }
        
        // For loop to display lines when there is more than one arg
        if (nb_args > 1)
        {
            for (uint8_t i = 0; i < nb_args; i++)
            {
                string_extra_chars[i] = strlen(text_object->lines[i]) - miniOledPutCenteredString(string_y_indexes[i], text_object->lines[i]);
            }
        }
        
        miniOledFlushEntireBufferToDisplay();
        miniOledResetMaxTextY();
    #endif

    // In case the display inverted, set it correctly
    if (flash_flag == TRUE)
    {
        activityDetectedRoutine();
        oledInvertedDisplay();
        timerBased500MsDelay();
        oledNormalDisplay();
        timerBased500MsDelay();
        oledInvertedDisplay();
        timerBased500MsDelay();
        oledNormalDisplay();
    }
    
    // Wait for user input
    #if defined(HARDWARE_OLIVIER_V1)
        if(getTouchedPositionAnswer(LED_MASK_WHEEL) == TOUCHPOS_RIGHT)
        {
            return RETURN_OK;
        }
        else
        {
            return RETURN_NOK;
        }
    #elif defined(MINI_VERSION)
        RET_TYPE input_answer = MINI_INPUT_RET_NONE;
        
        // Switch on lights
        activityDetectedRoutine();
        
        // Clear possible remaining detection
        miniWheelClearDetections();
        
        // Arm timer for scrolling (caps timer that isn't relevant here)
        activateTimer(TIMER_CAPS, SCROLLING_DEL);
        
        // Loop while no timeout occurs or no button is pressed
        while (input_answer == MINI_INPUT_RET_NONE)
        {
            input_answer = getYesNoAnswerInput(FALSE);
            
            // Text scrolling
            if ((hasTimerExpired(TIMER_CAPS, TRUE) == TIMER_EXPIRED) && (nb_args > 1))
            {
                miniOledDrawRectangle(0, 0, SSD1305_OLED_WIDTH-15, SSD1305_OLED_HEIGHT, FALSE);
                activateTimer(TIMER_CAPS, SCROLLING_DEL);
                miniOledSetMaxTextY(SSD1305_OLED_WIDTH-15);
                for (uint8_t i = 0; i < nb_args; i++)
                {
                    if (string_extra_chars[i] > 0)
                    {
                        miniOledPutCenteredString(string_y_indexes[i], (text_object->lines[i]) + string_offset_cntrs[i]);
                        
                        if (string_offset_cntrs[i]++ == string_extra_chars[i])
                        {
                            string_offset_cntrs[i] = 0;
                        }
                    }
                    else
                    {
                        miniOledPutCenteredString(string_y_indexes[i], text_object->lines[i]);
                    }
                }
                miniOledFlushEntireBufferToDisplay();
                miniOledResetMaxTextY();
            }

            // Approve / deny display change
            if (getWheelCurrentIncrement() != 0)
            {
                if(approve_selected == FALSE)
                {
                    oledBitmapDrawFlash(SSD1305_OLED_WIDTH-15, 0, BITMAP_APPROVE, 0);
                }
                else
                {
                    oledBitmapDrawFlash(SSD1305_OLED_WIDTH-15, 0, BITMAP_DENY, 0);
                }
                approve_selected = !approve_selected;
                miniOledFlushEntireBufferToDisplay();
            }
        }   
    
        if ((input_answer == MINI_INPUT_RET_YES) && (approve_selected != FALSE))
        {
            return RETURN_OK;
        }
        else
        {
            return RETURN_NOK;
        }
    #endif
}