mirror of
https://github.com/Polprzewodnikowy/SummerCart64.git
synced 2024-12-26 04:51:56 +01:00
[SC64][SW] Menu preparations
This commit is contained in:
parent
285d5d6a6f
commit
4f7ee06e09
@ -37,7 +37,7 @@ static io32_t *boot_get_device_base (boot_info_t *info) {
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return device_base_address;
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}
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bool boot_get_tv_type (boot_info_t *info) {
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static bool boot_get_tv_type (boot_info_t *info) {
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io32_t *base = boot_get_device_base(info);
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char region = ((pi_io_read(&base[15]) >> 8) & 0xFF);
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@ -64,7 +64,7 @@ bool boot_get_tv_type (boot_info_t *info) {
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return true;
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}
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bool boot_get_cic_seed_version (boot_info_t *info) {
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static bool boot_get_cic_seed_version (boot_info_t *info) {
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io32_t *base = boot_get_device_base(info);
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uint32_t ipl3[1008] __attribute__((aligned(8)));
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@ -84,47 +84,56 @@ bool boot_get_cic_seed_version (boot_info_t *info) {
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return false;
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}
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void boot (boot_info_t *info) {
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void boot (boot_info_t *info, bool detect_tv_type, bool detect_cic_seed_version) {
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if (detect_tv_type && !boot_get_tv_type(info)) {
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info->tv_type = OS_INFO->tv_type;
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}
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if (detect_cic_seed_version && !boot_get_cic_seed_version(info)) {
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info->cic_seed = 0x3F;
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info->version = 0;
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}
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OS_INFO->mem_size_6105 = OS_INFO->mem_size;
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while (!(io_read(&SP->SR) & SP_SR_HALT));
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while (!(cpu_io_read(&SP->SR) & SP_SR_HALT));
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io_write(&SP->SR, SP_SR_CLR_INTR | SP_SR_SET_HALT);
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cpu_io_write(&SP->SR, SP_SR_CLR_INTR | SP_SR_SET_HALT);
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while (io_read(&SP->DMA_BUSY));
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while (cpu_io_read(&SP->DMA_BUSY));
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io_write(&PI->SR, PI_SR_CLR_INTR | PI_SR_RESET);
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io_write(&VI->V_INTR, 0x3FF);
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io_write(&VI->H_LIMITS, 0);
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io_write(&VI->CURR_LINE, 0);
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io_write(&AI->MADDR, 0);
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io_write(&AI->LEN, 0);
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cpu_io_write(&PI->SR, PI_SR_CLR_INTR | PI_SR_RESET);
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cpu_io_write(&VI->V_INTR, 0x3FF);
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cpu_io_write(&VI->H_LIMITS, 0);
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cpu_io_write(&VI->CURR_LINE, 0);
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cpu_io_write(&AI->MADDR, 0);
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cpu_io_write(&AI->LEN, 0);
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io32_t *base = boot_get_device_base(info);
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uint32_t pi_config = pi_io_read(base);
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io_write(&PI->DOM[0].LAT, pi_config & 0xFF);
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io_write(&PI->DOM[0].PWD, pi_config >> 8);
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io_write(&PI->DOM[0].PGS, pi_config >> 16);
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io_write(&PI->DOM[0].RLS, pi_config >> 20);
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cpu_io_write(&PI->DOM[0].LAT, pi_config & 0xFF);
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cpu_io_write(&PI->DOM[0].PWD, pi_config >> 8);
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cpu_io_write(&PI->DOM[0].PGS, pi_config >> 16);
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cpu_io_write(&PI->DOM[0].RLS, pi_config >> 20);
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if (io_read(&DPC->SR) & DPC_SR_XBUS_DMEM_DMA) {
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while (io_read(&DPC->SR) & DPC_SR_PIPE_BUSY);
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if (cpu_io_read(&DPC->SR) & DPC_SR_XBUS_DMEM_DMA) {
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while (cpu_io_read(&DPC->SR) & DPC_SR_PIPE_BUSY);
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}
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uint32_t *ipl2_src = &ipl2;
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io32_t *ipl2_dst = SP_MEM->IMEM;
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for (int i = 0; i < 8; i++) {
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io_write(&ipl2_dst[i], ipl2_src[i]);
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cpu_io_write(&ipl2_dst[i], ipl2_src[i]);
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}
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io32_t *ipl3_src = base;
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io32_t *ipl3_dst = SP_MEM->DMEM;
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for (int i = 16; i < 1024; i++) {
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io_write(&ipl3_dst[i], pi_io_read(&ipl3_src[i]));
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cpu_io_write(&ipl3_dst[i], pi_io_read(&ipl3_src[i]));
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}
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register void (*entry_point)(void) asm ("t3");
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@ -32,9 +32,7 @@ typedef struct {
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} boot_info_t;
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bool boot_get_tv_type (boot_info_t *info);
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bool boot_get_cic_seed_version (boot_info_t *info);
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void boot (boot_info_t *info);
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void boot (boot_info_t *info, bool detect_tv_type, bool detect_cic_seed_version);
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#endif
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@ -75,7 +75,7 @@ static void display_decompress_background (uint32_t *background) {
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(background_data[4])
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);
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for (int i = 0; i < pixel_repeat; i++) {
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io_write(framebuffer++, pixel_value);
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cpu_io_write(framebuffer++, pixel_value);
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}
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pixels_painted += pixel_repeat;
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background_data += 5;
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@ -84,7 +84,7 @@ static void display_decompress_background (uint32_t *background) {
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static void display_clear_background (void) {
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for (int i = 0; i < (SCREEN_WIDTH * SCREEN_HEIGHT); i++) {
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io_write(&display_framebuffer[i], BACKGROUND_COLOR);
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cpu_io_write(&display_framebuffer[i], BACKGROUND_COLOR);
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}
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}
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@ -114,7 +114,7 @@ static void display_draw_character (char c) {
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if (font_data[c - ' '][i / 8] & (1 << (i % 8))) {
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int screen_offset = c_x + (c_y * SCREEN_WIDTH);
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io_write(&display_framebuffer[screen_offset], TEXT_COLOR);
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cpu_io_write(&display_framebuffer[screen_offset], TEXT_COLOR);
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}
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}
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@ -140,20 +140,20 @@ void display_init (uint32_t *background) {
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display_clear_background();
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}
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io_write(&VI->MADDR, (uint32_t) (display_framebuffer));
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io_write(&VI->H_WIDTH, cfg->H_WIDTH);
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io_write(&VI->V_INTR, cfg->V_INTR);
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io_write(&VI->CURR_LINE, cfg->CURR_LINE);
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io_write(&VI->TIMING, cfg->TIMING);
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io_write(&VI->V_SYNC, cfg->V_SYNC);
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io_write(&VI->H_SYNC, cfg->H_SYNC);
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io_write(&VI->H_SYNC_LEAP, cfg->H_SYNC_LEAP);
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io_write(&VI->H_LIMITS, cfg->H_LIMITS);
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io_write(&VI->V_LIMITS, cfg->V_LIMITS);
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io_write(&VI->COLOR_BURST, cfg->COLOR_BURST);
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io_write(&VI->H_SCALE, cfg->H_SCALE);
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io_write(&VI->V_SCALE, cfg->V_SCALE);
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io_write(&VI->CR, cfg->CR);
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cpu_io_write(&VI->MADDR, (uint32_t) (display_framebuffer));
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cpu_io_write(&VI->H_WIDTH, cfg->H_WIDTH);
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cpu_io_write(&VI->V_INTR, cfg->V_INTR);
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cpu_io_write(&VI->CURR_LINE, cfg->CURR_LINE);
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cpu_io_write(&VI->TIMING, cfg->TIMING);
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cpu_io_write(&VI->V_SYNC, cfg->V_SYNC);
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cpu_io_write(&VI->H_SYNC, cfg->H_SYNC);
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cpu_io_write(&VI->H_SYNC_LEAP, cfg->H_SYNC_LEAP);
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cpu_io_write(&VI->H_LIMITS, cfg->H_LIMITS);
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cpu_io_write(&VI->V_LIMITS, cfg->V_LIMITS);
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cpu_io_write(&VI->COLOR_BURST, cfg->COLOR_BURST);
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cpu_io_write(&VI->H_SCALE, cfg->H_SCALE);
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cpu_io_write(&VI->V_SCALE, cfg->V_SCALE);
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cpu_io_write(&VI->CR, cfg->CR);
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}
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void display_vprintf (const char *fmt, va_list args) {
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@ -26,55 +26,55 @@ void cache_inst_hit_invalidate (void *address, size_t length) {
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cache_operation(HIT_INVALIDATE_I, CACHE_LINE_SIZE_I, address, length);
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}
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uint32_t io_read (io32_t *address) {
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uint32_t cpu_io_read (io32_t *address) {
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io32_t *uncached = UNCACHED(address);
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uint32_t value = *uncached;
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return value;
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}
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void io_write (io32_t *address, uint32_t value) {
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void cpu_io_write (io32_t *address, uint32_t value) {
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io32_t *uncached = UNCACHED(address);
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*uncached = value;
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}
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uint32_t pi_busy (void) {
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return (io_read(&PI->SR) & (PI_SR_IO_BUSY | PI_SR_DMA_BUSY));
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return (cpu_io_read(&PI->SR) & (PI_SR_IO_BUSY | PI_SR_DMA_BUSY));
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}
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uint32_t pi_io_read (io32_t *address) {
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return io_read(address);
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return cpu_io_read(address);
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}
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void pi_io_write (io32_t *address, uint32_t value) {
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io_write(address, value);
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cpu_io_write(address, value);
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while (pi_busy());
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}
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void pi_dma_read (io32_t *address, void *buffer, size_t length) {
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cache_data_hit_writeback_invalidate(buffer, length);
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io_write(&PI->PADDR, (uint32_t) (PHYSICAL(address)));
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io_write(&PI->MADDR, (uint32_t) (PHYSICAL(buffer)));
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io_write(&PI->WDMA, length - 1);
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cpu_io_write(&PI->PADDR, (uint32_t) (PHYSICAL(address)));
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cpu_io_write(&PI->MADDR, (uint32_t) (PHYSICAL(buffer)));
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cpu_io_write(&PI->WDMA, length - 1);
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while (pi_busy());
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}
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void pi_dma_write (io32_t *address, void *buffer, size_t length) {
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cache_data_hit_writeback(buffer, length);
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io_write(&PI->PADDR, (uint32_t) (PHYSICAL(address)));
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io_write(&PI->MADDR, (uint32_t) (PHYSICAL(buffer)));
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io_write(&PI->RDMA, length - 1);
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cpu_io_write(&PI->PADDR, (uint32_t) (PHYSICAL(address)));
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cpu_io_write(&PI->MADDR, (uint32_t) (PHYSICAL(buffer)));
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cpu_io_write(&PI->RDMA, length - 1);
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while (pi_busy());
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}
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uint32_t si_busy (void) {
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return (io_read(&SI->SR) & (SI_SR_IO_BUSY | SI_SR_DMA_BUSY));
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return (cpu_io_read(&SI->SR) & (SI_SR_IO_BUSY | SI_SR_DMA_BUSY));
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}
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uint32_t si_io_read (io32_t *address) {
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return io_read(address);
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return cpu_io_read(address);
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}
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void si_io_write (io32_t *address, uint32_t value) {
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io_write(address, value);
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cpu_io_write(address, value);
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while (si_busy());
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}
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@ -245,8 +245,8 @@ typedef struct {
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#define OS_INFO ((os_info_t *) OS_INFO_BASE)
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uint32_t io_read (io32_t *address);
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void io_write (io32_t *address, uint32_t value);
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uint32_t cpu_io_read (io32_t *address);
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void cpu_io_write (io32_t *address, uint32_t value);
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uint32_t pi_busy (void);
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uint32_t pi_io_read (io32_t *address);
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void pi_io_write (io32_t *address, uint32_t value);
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@ -30,27 +30,15 @@ void main (void) {
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break;
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}
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bool detect_tv_type = (sc64_boot_info.tv_type == TV_TYPE_UNKNOWN);
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bool detect_cic_seed_version = (sc64_boot_info.cic_seed == CIC_SEED_UNKNOWN);
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boot_info.reset_type = OS_INFO->reset_type;
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if (sc64_boot_info.tv_type != TV_TYPE_UNKNOWN) {
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boot_info.tv_type = sc64_boot_info.tv_type;
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} else {
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if (!boot_get_tv_type(&boot_info)) {
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boot_info.tv_type = OS_INFO->tv_type;
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}
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}
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if (sc64_boot_info.cic_seed != CIC_SEED_UNKNOWN) {
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boot_info.cic_seed = sc64_boot_info.cic_seed & 0xFF;
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boot_info.version = (sc64_boot_info.cic_seed >> 8) & 0x01;
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} else {
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if (!boot_get_cic_seed_version(&boot_info)) {
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boot_info.cic_seed = 0x3F;
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boot_info.version = 0;
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}
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}
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boot_info.tv_type = sc64_boot_info.tv_type;
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boot_info.cic_seed = sc64_boot_info.cic_seed & 0xFF;
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boot_info.version = (sc64_boot_info.cic_seed >> 8) & 0x01;
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deinit();
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boot(&boot_info);
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boot(&boot_info, detect_tv_type, detect_cic_seed_version);
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}
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@ -52,50 +52,60 @@ typedef enum {
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SD_CARD_OP_GET_INFO = 3,
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} sd_card_op_t;
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static sc64_pi_io_t pi_io = {
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.read = pi_io_read,
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.write = pi_io_write
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};
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static bool sc64_wait_cpu_busy (void) {
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uint32_t sr;
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do {
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sr = pi_io_read(&SC64_REGS->SR_CMD);
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sr = pi_io.read(&SC64_REGS->SR_CMD);
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} while (sr & SC64_SR_CPU_BUSY);
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return (sr & SC64_SR_CMD_ERROR);
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}
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static bool sc64_execute_cmd (uint8_t cmd, uint32_t *args, uint32_t *result) {
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if (args != NULL) {
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pi_io_write(&SC64_REGS->DATA[0], args[0]);
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pi_io_write(&SC64_REGS->DATA[1], args[1]);
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pi_io.write(&SC64_REGS->DATA[0], args[0]);
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pi_io.write(&SC64_REGS->DATA[1], args[1]);
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}
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pi_io_write(&SC64_REGS->SR_CMD, ((uint32_t) (cmd)) & 0xFF);
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pi_io.write(&SC64_REGS->SR_CMD, ((uint32_t) (cmd)) & 0xFF);
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bool error = sc64_wait_cpu_busy();
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if (result != NULL) {
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result[0] = pi_io_read(&SC64_REGS->DATA[0]);
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result[1] = pi_io_read(&SC64_REGS->DATA[1]);
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result[0] = pi_io.read(&SC64_REGS->DATA[0]);
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result[1] = pi_io.read(&SC64_REGS->DATA[1]);
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}
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return error;
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}
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void sc64_set_pi_io_functions (sc64_pi_io_t functions) {
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pi_io.read = functions.read;
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pi_io.write = functions.write;
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}
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sc64_error_t sc64_get_error (void) {
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if (pi_io_read(&SC64_REGS->SR_CMD) & SC64_SR_CMD_ERROR) {
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return (sc64_error_t) (pi_io_read(&SC64_REGS->DATA[0]));
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if (pi_io.read(&SC64_REGS->SR_CMD) & SC64_SR_CMD_ERROR) {
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return (sc64_error_t) (pi_io.read(&SC64_REGS->DATA[0]));
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}
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return SC64_OK;
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}
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void sc64_unlock (void) {
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pi_io_write(&SC64_REGS->KEY, SC64_KEY_RESET);
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pi_io_write(&SC64_REGS->KEY, SC64_KEY_UNLOCK_1);
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pi_io_write(&SC64_REGS->KEY, SC64_KEY_UNLOCK_2);
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pi_io.write(&SC64_REGS->KEY, SC64_KEY_RESET);
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pi_io.write(&SC64_REGS->KEY, SC64_KEY_UNLOCK_1);
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pi_io.write(&SC64_REGS->KEY, SC64_KEY_UNLOCK_2);
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}
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void sc64_lock (void) {
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pi_io_write(&SC64_REGS->KEY, SC64_KEY_RESET);
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pi_io_write(&SC64_REGS->KEY, SC64_KEY_LOCK);
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pi_io.write(&SC64_REGS->KEY, SC64_KEY_RESET);
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pi_io.write(&SC64_REGS->KEY, SC64_KEY_LOCK);
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}
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bool sc64_check_presence (void) {
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uint32_t version = pi_io_read(&SC64_REGS->VERSION);
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uint32_t version = pi_io.read(&SC64_REGS->VERSION);
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if (version == SC64_VERSION_2) {
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sc64_wait_cpu_busy();
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return true;
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@ -104,14 +114,14 @@ bool sc64_check_presence (void) {
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}
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bool sc64_irq_pending (void) {
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if (pi_io_read(&SC64_REGS->SR_CMD) & SC64_SR_IRQ_PENDING) {
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if (pi_io.read(&SC64_REGS->SR_CMD) & SC64_SR_IRQ_PENDING) {
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return true;
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}
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return false;
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}
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void sc64_irq_clear (void) {
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pi_io_write(&SC64_REGS->VERSION, 0);
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pi_io.write(&SC64_REGS->VERSION, 0);
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}
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uint32_t sc64_get_config (cfg_id_t id) {
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@ -109,6 +109,13 @@ typedef struct {
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#define SC64_BUFFERS_BASE (0x1FFE0000UL)
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#define SC64_BUFFERS ((sc64_buffers_t *) SC64_BUFFERS_BASE)
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typedef struct {
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uint32_t (*read)(io32_t *address);
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void (*write)(io32_t *address, uint32_t value);
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} sc64_pi_io_t;
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void sc64_set_pi_io_functions (sc64_pi_io_t functions);
|
||||
|
||||
sc64_error_t sc64_get_error (void);
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user