FreeCalypso > hg > fc-tourmaline
view src/cs/drivers/drv_app/r2d/lcds/Customer/R2D_customer_lcd_i.c @ 303:f76436d19a7a default tip
!GPRS config: fix long-standing AT+COPS chance hanging bug
There has been a long-standing bug in FreeCalypso going back years:
sometimes in the AT command bring-up sequence of an ACI-only MS,
the AT+COPS command would produce only a power scan followed by
cessation of protocol stack activity (only L1 ADC traces), instead
of the expected network search sequence. This behaviour was seen
in different FC firmware versions going back to Citrine, and seemed
to follow some law of chance, not reliably repeatable.
This bug has been tracked down and found to be specific to !GPRS
configuration, stemming from our TCS2/TCS3 hybrid and reconstruction
of !GPRS support that was bitrotten in TCS3.2/LoCosto version.
ACI module psa_mms.c, needed only for !GPRS, was missing in the TCS3
version and had to be pulled from TCS2 - but as it turns out,
there is a new field in the MMR_REG_REQ primitive that needs to be
set correctly, and that psa_mms.c module is the place where this
initialization needed to be added.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Thu, 08 Jun 2023 08:23:37 +0000 |
parents | 4e78acac3d88 |
children |
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static UINT32 r2d_lcd_copy_operator(UINT32 old,UINT32 value) { return(value); } static UINT32 r2d_lcd_or_operator(UINT32 old,UINT32 value) { return(old | value) ; } static UINT32 r2d_lcd_and_operator(UINT32 old,UINT32 value) { return(old & value); } static UINT32 r2d_lcd_xor_operator(UINT32 old,UINT32 value) { return(old ^ value) ; } static UINT32 r2d_lcd_not_copy_operator(UINT32 old,UINT32 value) { return(~value); } static UINT32 r2d_lcd_not_or_operator(UINT32 old,UINT32 value) { return(~(old | value)); } static UINT32 r2d_lcd_not_and_operator(UINT32 old,UINT32 value) { return(~(old & value)); } static UINT32 r2d_lcd_not_xor_operator(UINT32 old,UINT32 value) { return(~(old ^ value)) ; } const T_R2D_DRAWING_OPERATORS r2d_g_lcd_operators= { &r2d_lcd_copy_operator, &r2d_lcd_or_operator, &r2d_lcd_and_operator, &r2d_lcd_xor_operator, &r2d_lcd_not_copy_operator, &r2d_lcd_not_or_operator, &r2d_lcd_not_and_operator, &r2d_lcd_not_xor_operator, NULL }; // Return the pixel value to write on the LCD or the offscreen // pixmap // LCD DEPENDENT void r2d_convert_foreground_color(T_R2D_GC *gc,UINT32 color) { // If one is writing to the LCD framebuffer (the only // one which is not 24 bits) then color conversion is required UINT16 red,green,blue; UINT32 lightness; red=r2d_red(color); green=r2d_green(color); blue=r2d_blue(color); // Compute global intensity for monochrome LCD lightness=(~((r2d_max_color(red,green,blue) + r2d_min_color(red,green,blue)) >> 1) & 0xFF); #if (R2D_DITHERING == R2D_ON) { UINT32 dvalue; UINT16 dithering_group; r2d_dithering_group_and_lightness(); r2d_dithered_value(0,0) r2d_set_dithering_matrix_entry(gc->p_foreground_dithered_cache, dvalue,0,0); r2d_dithered_value(0,1) r2d_set_dithering_matrix_entry(gc->p_foreground_dithered_cache, dvalue,0,1); r2d_dithered_value(1,1) r2d_set_dithering_matrix_entry(gc->p_foreground_dithered_cache, dvalue,1,1); r2d_dithered_value(1,0) r2d_set_dithering_matrix_entry(gc->p_foreground_dithered_cache, dvalue,1,0); } #else lightness=(lightness >> (8 - R2D_PIXEL_DEPTH)) & R2D_PIXEL_MASK; gc->foreground_pixel_value=lightness; #endif } // Return the pixel value to write on the LCD or the offscreen // pixmap // LCD DEPENDENT void r2d_convert_background_color(T_R2D_GC *gc,UINT32 color) { // If one is writing to the LCD framebuffer (the only // one which is not 24 bits) then color conversion is required UINT16 red,green,blue; UINT32 lightness; red=r2d_red(color); green=r2d_green(color); blue=r2d_blue(color); // Compute global intensity for monochrome LCD lightness=(~((r2d_max_color(red,green,blue) + r2d_min_color(red,green,blue)) >> 1) & 0xFF); #if (R2D_DITHERING == R2D_ON) { UINT32 dvalue; UINT16 dithering_group; r2d_dithering_group_and_lightness(); r2d_dithered_value(0,0) r2d_set_dithering_matrix_entry(gc->p_background_dithered_cache, dvalue,0,0); r2d_dithered_value(0,1) r2d_set_dithering_matrix_entry(gc->p_background_dithered_cache, dvalue,0,1); r2d_dithered_value(1,1) r2d_set_dithering_matrix_entry(gc->p_background_dithered_cache, dvalue,1,1); r2d_dithered_value(1,0) r2d_set_dithering_matrix_entry(gc->p_background_dithered_cache, dvalue,1,0); } #else lightness=(lightness >> (8 - R2D_PIXEL_DEPTH)) & R2D_PIXEL_MASK; gc->background_pixel_value=lightness; #endif } // blit_rect may use the foreground and background color // to do the copy. So, one must knows which source pixels // are corresponding to the background color, // which ones are corresponding to the foreground color // and do the conversion of the color selected // according to the destination framebuffer // This files gives routines for: // - Selecting a color according to the value in the LCD framebuffer // - Converting a color to LCD // Convert a LCD value (not color) to a value // to be written into the 24bpp framebuffer // In general, the value written is a packed // representation of the ARGB color // but it may be different according to the framebuffer // internal format BOOLEAN r2d_lcd_foreground_pixel(UINT32 lcd_value,T_R2D_GC_PTR src_gc) { if (lcd_value) return(TRUE); // Foreground pixel else return(FALSE); // Background pixel } // Assume than color framebuffer contains ARGB packed values // Convert color to LCD with on the fly dithering UINT32 r2d_color_to_lcd(UINT32 pixel_value,INT16 x,INT16 y) { INT16 red,green,blue; UINT32 lightness; UINT32 dvalue; UINT16 dithering_group; pixel_value=(~pixel_value) & 0x00FFFFFF; red=r2d_red(pixel_value); green=r2d_green(pixel_value); blue=r2d_blue(pixel_value); // Compute global intensity for monochrome LCD lightness=(~((r2d_max_color(red,green,blue) + r2d_min_color(red,green,blue)) >> 1) & 0xFF); r2d_dithering_group_and_lightness(); r2d_dithered_value(x & 1,y & 1); return(dvalue); } // Lcd to pixel value UINT32 r2d_lcd_to_color(UINT32 color) { if (color) return(0x00FFFFFF); // 24 bpp framebuffer pixel value for white else return(0x00000000); }