s32 main (void) {
gfxInitDefault();
consoleInit(GFX_BOTTOM, NULL);
if (brahma_init()) {
printf(" ");
load_arm9_payload_from_mem (starter_bin, starter_bin_size);
printf("%08X\n", firm_reboot ());
brahma_exit();
}
gfxExit();
return 0;
}
s32 main (void) {
// Initialize services
//gfxInitDefault();
//gfxSwapBuffers();
Result res;
gfxInitDefault();
gfxSwapBuffers();
consoleInit(GFX_TOP,NULL);
//printf("miniPasta2\n\n");
res=suInit();
printf("su init: %08X\n",res);
//res=khaxInit();
//printf("khax init: %08X\n",res);
res=brahma_init();
printf("brahma init: %08X\n",res);
load_arm9_payload_from_mem (arm9payload_bin, arm9payload_bin_size);
printf("payload loaded to RAM\n");
res=firm_reboot();
printf("firm reboot: %08X\n",res);
while (aptMainLoop())
{
//Scan all the inputs. This should be done once for each frame
hidScanInput();
//hidKeysDown returns information about which buttons have been just pressed (and they weren't in the previous frame)
u32 kDown = hidKeysDown();
if (kDown & KEY_START) break; // break in order to return to hbmenu
// Flush and swap framebuffers
gfxFlushBuffers();
gfxSwapBuffers();
//Wait for VBlank
gspWaitForVBlank();
}
gfxExit();
// Return to hbmenu
return 0;
}
s32 main (void) {
// Initialize services
gfxInitDefault();
gfxSwapBuffers();
//consoleInit(GFX_TOP,NULL);
brahma_init();
load_arm9_payload_from_mem (arm9payload_bin, arm9payload_bin_size);
firm_reboot();
gfxExit();
// Return to hbmenu
return 0;
}
s32 main (void) {
// Initialize services
gfxInitDefault();
// Make sure the settings applied by gfxInitDefault come into effect
gfxSwapBuffers();
// Memory for the arm9 payload
u32 payload_size = 0x10000;
void *payload = malloc(payload_size);
if (!payload) goto error;
int rc;
// Load the arm9 payload into memory
FILE *file = fopen("/" LAUNCHER_PATH, "r");
if (!file) goto error;
rc = fseek(file, 0x12000, SEEK_SET);
if (rc != 0) goto error;
fread(payload, payload_size, 1, file);
if (ferror(file) != 0) goto error;
fclose(file);
if (brahma_init()) {
rc = load_arm9_payload_from_mem(payload, payload_size);
if (rc != 1) goto error;
firm_reboot();
brahma_exit();
}
free(payload);
gfxExit();
// Return to hbmenu
return 0;
error:
consoleInit(GFX_BOTTOM, NULL);
printf("An error occurred while loading the payload.\nMake sure your launcher is located at:\n/" LAUNCHER_PATH);
wait_any_key();
if (payload) free(payload);
gfxExit();
return 1;
}
s32 quick_boot_firm (s32 load_from_disk) {
if (load_from_disk)
load_arm9_payload_from_mem(payload_bin, payload_bin_size);
firm_reboot();
}
int menu_netloaderarm9(void) {
s32 sockfd;
struct sockaddr_in sa;
s32 clientfd;
struct sockaddr_in client_addr;
s32 addrlen = sizeof(client_addr);
s32 sflags = 0;
if ((sockfd = socket(AF_INET, SOCK_STREAM, 0)) < 0) {
debug("Err: socket");
return -1;
}
bzero(&sa, sizeof(sa));
sa.sin_family = AF_INET;
sa.sin_port = htons(BRAHMA_NETWORK_PORT);
sa.sin_addr.s_addr = gethostid();
if (bind(sockfd, (struct sockaddr *) &sa, sizeof(sa)) != 0) {
debug("Err: bind");
close(sockfd);
return -1;
}
if (listen(sockfd, 1) != 0) {
debug("Err: listen()");
close(sockfd);
return -1;
}
char msg[256];
sprintf(msg,
"NetLoader Active - waiting for arm9\n\n"
"IP: %s, Port: %d\n\nPress B to cancel\n",
inet_ntoa(sa.sin_addr), BRAHMA_NETWORK_PORT);
drawBg();
gfxDrawTextf(GFX_TOP, GFX_LEFT, &fontDefault, MENU_MIN_X + 16, MENU_MIN_Y + 16, msg);
gfxSwap();
sflags = fcntl(sockfd, F_GETFL);
if (sflags == -1) {
debug("Err: fcntl() (1)\n");
close(sockfd);
}
fcntl(sockfd, F_SETFL, sflags | O_NONBLOCK);
while (aptMainLoop()) {
hidScanInput();
if (hidKeysDown() & KEY_B) {
close(sockfd);
return -1;
}
clientfd = accept(sockfd, (struct sockaddr *) &client_addr, &addrlen);
svcSleepThread(100000000);
if (clientfd > 0)
break;
}
s32 recvd;
u32 total = 0;
u8 *arm9_buf = memalign(0x1000, ARM9_PAYLOAD_MAX_SIZE);
while ((recvd = recv(clientfd, arm9_buf + total,
ARM9_PAYLOAD_MAX_SIZE - total, 0)) != 0) {
if (recvd != -1) {
total += recvd;
drawBg();
gfxDrawTextf(GFX_TOP, GFX_LEFT, &fontDefault, MENU_MIN_X + 16, MENU_MIN_Y + 16, "%i", total);
gfxSwap();
}
if (total >= ARM9_PAYLOAD_MAX_SIZE) {
debug("Err: invalid payload size\n");
close(clientfd);
close(sockfd);
free(arm9_buf);
return -1;
}
}
fcntl(sockfd, F_SETFL, sflags & ~O_NONBLOCK);
close(clientfd);
close(sockfd);
gfxExit();
brahma_init();
if (load_arm9_payload_from_mem(arm9_buf, total) != 1) {
debug("Err: Couldn't load arm9 payload...\n");
return -1;
}
firm_reboot();
brahma_exit();
}
int main(void)
{
// First allocate the buffer for the Linux image + DTB
void *linux_buffer = linearAlloc(LINUX_BUFFER_SIZE);
memset(linux_buffer, 0, LINUX_BUFFER_SIZE);
// Initialize services
gfxInitDefault();
gfxSwapBuffers();
consoleInit(GFX_BOTTOM, NULL);
printf("Linux loader by xerpi\n\n");
if (brahma_init()) {
printf("[+] Opening the linux image...\n");
FILE *zImage = fopen(LINUXIMAGE_FILENAME, "rb");
printf("[+] fopen returned: %p\n", zImage);
if (zImage == NULL) {
printf("[+] Error opening the Linux zImage\n"
"Press any key to reboot.");
wait_any_key();
firm_reboot();
}
//Load the kernel image code to ZIMAGE_ADDR
unsigned int n = 0;
unsigned int linux_bin_size = 0;
while ((n = fread(fcram_phys2linear(linux_buffer, ZIMAGE_ADDR)+linux_bin_size, 1, 0x10000, zImage)) > 0) {
linux_bin_size += n;
}
fclose(zImage);
printf("[+] Loaded kernel:\n");
printf("[+] address: %p,\n", ZIMAGE_ADDR);
printf("[+] size: 0x%08X bytes\n", linux_bin_size);
//Load the device tree to PARAMS_TMP_ADDR
printf("\n[+] Opening " DTB_FILENAME "\n");
FILE *dtb = fopen(DTB_FILENAME, "rb");
printf("[+] FileOpen returned: %p\n", dtb);
if (dtb == NULL) {
printf("[+] Error opening " DTB_FILENAME "\n"
"Press any key to reboot.");
wait_any_key();
firm_reboot();
}
n = 0;
unsigned int dtb_bin_size = 0;
while ((n = fread(fcram_phys2linear(linux_buffer, PARAMS_TMP_ADDR)+dtb_bin_size, 1, 0x10000, dtb)) > 0) {
dtb_bin_size += n;
}
fclose(dtb);
//Load the arm9linuxfw to ARM9LINUXFW_TMP_ADDR
printf("\n[+] Opening " ARM9LINUXFW_FILENAME "\n");
FILE *arm9fw = fopen(ARM9LINUXFW_FILENAME, "rb");
printf("[+] FileOpen returned: %p\n", arm9fw);
if (arm9fw != NULL) {
n = 0;
unsigned int arm9fw_bin_size = 0;
while ((n = fread(fcram_phys2linear(linux_buffer, ARM9LINUXFW_TMP_ADDR)+arm9fw_bin_size, 1, 0x10000, arm9fw)) > 0) {
arm9fw_bin_size += n;
}
fclose(arm9fw);
printf("[+] Loaded " ARM9LINUXFW_FILENAME ":\n");
printf("[+] temp address: %p,\n", ARM9LINUXFW_TMP_ADDR);
printf("[+] dest address: %p,\n", ARM9LINUXFW_ADDR);
printf("[+] size: 0x%08X bytes\n", arm9fw_bin_size);
// Store the arm9linuxfw size to *ARM9LINUXFW_SIZE_ADDR
*(unsigned int *)fcram_phys2linear(linux_buffer, ARM9LINUXFW_SIZE_ADDR) = arm9fw_bin_size;
} else {
printf("\n\n[+] WARNING " ARM9LINUXFW_FILENAME " not found!\n\n");
// Store a 0 size to *ARM9LINUXFW_SIZE_ADDR
*(unsigned int *)fcram_phys2linear(linux_buffer, ARM9LINUXFW_SIZE_ADDR) = 0;
}
// Store the DTB size to *PARAMS_SIZE_ADDR
*(unsigned int *)fcram_phys2linear(linux_buffer, PARAMS_SIZE_ADDR) = dtb_bin_size;
GSPGPU_FlushDataCache(fcram_phys2linear(linux_buffer, ZIMAGE_ADDR), linux_bin_size);
GSPGPU_FlushDataCache(fcram_phys2linear(linux_buffer, PARAMS_ADDR), dtb_bin_size);
GSPGPU_FlushDataCache(fcram_phys2linear(linux_buffer, PARAMS_SIZE_ADDR), sizeof(unsigned int));
GSPGPU_FlushDataCache(fcram_phys2linear(linux_buffer, ARM9LINUXFW_SIZE_ADDR), sizeof(unsigned int));
printf("[+] Loading Linux Payloads...\n");
unsigned int linux_payloads_size = (u32)&linux_payloads_end - (u32)&linux_payloads_start;
printf("[+] size %i\n", linux_payloads_size);
load_arm9_payload_from_mem(&linux_payloads_start, linux_payloads_size);
flush_dcache();
//soc_init();
//soc_exit();
//wait_any_key();
printf("[+] Running ARM9 payload\n");
firm_reboot();
//soc_exit();
brahma_exit();
} else {
printf("* BRAHMA *\n\n[!]Not enough memory\n");
wait_any_key();
}
linearFree(linux_buffer);
gfxExit();
// Return to hbmenu
return 0;
}
