This page details the boot process used in the Xbox 360. The process is slightly different between Devkit/Retail and certain boxes which have a secondary CB loader (trinity/some jaspers)
- Slim: 1BL -> CB_A -> CB_B -> CD -> CF -> CD -> HV -> Kernel -> Dashboard
- Phat (older): 1BL -> CB -> CD -> CF -> CD -> HV -> Kernel -> Dashboard
- Phat (newer): 1BL -> CB_A -> CB_B -> CD -> CF -> CD -> HV -> Kernel -> Dashboard
1BL (Inside CPU)
Loads and decrypts CB(_A) into ram, it computes a RotSumSha1 of CB(_A) and uses it to verify its RSA signature. If the signature is valid, 1BL jumps to CB(_A).
You can find reversed pseudocode of the 1bl here: 1bl Code
SLIMS ONLY: CB_A loads and decrypts CB_B into ram, it computes a RotSumSha1 of CB_B and checks it against the known hash. If it matches CB_A jumps to CB_B.
CB(_B) starts up a virtual machine, which does:
- initializes the PCI Bridge - disables the GPU PCIE JTAG test port - initializes the serial port - talks to the SMC to clear the "handshake" bit - initializes memory - generates RROD if memory init fails
CB(_B) loads and decrypts CD into ram, it computes a RotSumSha1 of CD and checks it against the known hash. If it matches CB(_B) jumps to CD.
Methods to dump the CB bootloaders and examples of them reversed can be found here: CB Code
Loads and decrypts CE into ram, computes a RotSumSha1 of CE. If it matches the known hash, it decompresses the LZX compressed base kernel. It then checks for patch slots. If it finds one, it will load and decrypt the corresponding CF bootloader for that patch. It then computes a RotSumSha1 of CF and uses it to verify the CF loaders signature. If the signature is valid, CD stays in memory but jumps to CF.
There can be up to 2 CF/CG pairs for patching the kernel.
Loads CG into memory by reading the CG data in the NAND header and then reads the rest of the CG data from the CG blocks specified in CF header. It then decrypts the CG in memory using the key generated from decrypting CF. To verify it, it computes a RotSumSha1 and checks it against the known hash. If it matches, it uses LZX delta decompress to apply the patch to the base kernel in memory. Once its done, it jumps back to CD and once CD has finished up, it jumps to the reset vector in the Hypervisor.
- Phat: 1BL -> SB -> SC -> SD -> HV -> Kernel -> Dashboard
The devkit bootloaders are nearly identical to their retail counterparts; however instead of hardcoded hash checks, devkits verify bootloaders SD and SE by signature checks.
The SC bootloader is the hardware initialization virtual machine run by SB.
Because devkits do not update over the air, they use a pre-patched SE (HV + kernel) bootloader) without delta patching CF/CG pairs.
Once control is handed off to the kernel, as denoted by the POST output, the kernel does the following (on development systems):
- Initialize memory manager
- Initialize stack(s)
- Initialize object system (?)
- Initialize phase 1 thread (?)
- Phase 1 initialization and processors initialization
- Initialize keyvault
- Initialize HAL 1 phase 1
- Initialize SFC driver (?)
- Initialize security (?)
- Initialize settings (?)
- Initialize power mode
- Initialize video driver
- Initialize audio driver
- Initialize boot animation
- Loads bootanim.xex
- Initialize SATA driver
- Initialize Shadowboot (not on retail systems)
- INIT_DUMP_SYSTEM (?) (not on retail systems)
- INIT_SYSTEM_ROOT (?)
- Initialize other drivers
- Initialize STFS driver
- Initialize XAM
Core OS Executables
After its initialization sequence, the kernel loads the following executables (in order)
- Xam.Community.xex (from disk)
- xshell.xex (devkits) / dash.xex (retail)
It then unloads the following:
By this time the console will have booted into the dashboard
Category:Xbox360 System Software