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skywalker-1/firmware-dump/STARTUP_DISASSEMBLY.md
Ryan Malloy 97c1000d8b Add stock firmware dump, 8051 disassembler, and analysis notes 
- stock_firmware.bin: 15KB dump from working device (v2.13)
- disasm8051.py / v2: Custom 8051 disassemblers for FX2LP firmware
  analysis, used to trace init block loading and I2C sequences
- STARTUP_DISASSEMBLY.md: Annotated startup sequence disassembly
- TODO: Notes on stock vs custom firmware BCM4500 init differences
2026-02-20 10:56:59 -07:00

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# Genpix SkyWalker-1 Firmware Startup Disassembly
**Binary**: `skywalker1_eeprom_full64k.bin` (65536 bytes, RAM image after EEPROM boot)
**CPU**: FX2LP (CY7C68013A) — 8051 core @ 48MHz
**Firmware region**: 0x0000-0x24FF (9472 bytes)
**Compiler**: Keil C51
**USB**: VID=0x09C0 (Cypress), PID=0x0203
---
## Phase 1: Reset Vector (0x0000)
```
0000: 02 18 8D LJMP 0x188D ; -> Keil C51 startup
```
## Phase 2: Keil C51 Startup (0x188D)
### IDATA Clear
```
188D: 78 7F MOV R0,#7Fh ; Start at IDATA address 0x7F
188F: E4 CLR A ; A = 0
1890: F6 MOV @R0,A ; Clear IDATA[R0]
1891: D8 FD DJNZ R0,1890h ; Decrement R0, loop until 0
; Clears IDATA 0x7F..0x01 (127 bytes)
```
### Stack Pointer
```
1893: 75 81 72 MOV SP,#72h ; Stack pointer = 0x72
; Stack grows up: 0x73..0x7F = 13 bytes
```
### XDATA Initialization
```
1896: 02 18 D4 LJMP 18D4h ; Jump to init table interpreter
; Init table interpreter at 0x18D4 (Keil standard STARTUP.A51):
; Reads structured init records from CODE space
; Each record has:
; - Length byte (bits 5:0 = count, bits 7:6 = mode)
; - Mode 00: IDATA/XDATA fill (address + data pairs)
; - Mode 01: Bit initialization
; - Mode 10: XDATA block copy (source addr + destination + data)
; - Zero byte terminates the table
;
; When table exhausted:
1899: 02 09 A7 LJMP 09A7h ; -> main()
```
## Phase 3: main() (0x09A7)
### Clear Global Variables
```
09A7: E4 CLR A ; A = 0
09A8: F5 2D MOV 2Dh,A ; Clear counter/state variables
09AA: F5 2C MOV 2Ch,A ; 4-byte counter at 0x2A-0x2D
09AC: F5 2B MOV 2Bh,A
09AE: F5 2A MOV 2Ah,A
09B0: F5 35 MOV 35h,A ; 4-byte counter at 0x32-0x35
09B2: F5 34 MOV 34h,A
09B4: F5 33 MOV 33h,A
09B6: F5 32 MOV 32h,A
09B8: C2 03 CLR bit_03h ; Clear SUSPEND-pending flag
09BA: C2 01 CLR bit_01h ; Clear SETUP-pending flag
```
### Call hw_init()
```
09BC: 12 13 C3 LCALL 13C3h ; -> hw_init()
```
## Phase 4: hw_init() (0x13C3)
### CPU Configuration
```
13C3: MOV DPTR,#E605h ; REVCTL (FX2LP revision control)
13C6: MOVX A,@DPTR ; Read current value
13C7: ANL A,#FDh ; Clear bit 1 (NOAUTOARM)
13C9: MOVX @DPTR,A ; REVCTL &= ~0x02
13CE: MOV DPTR,#E600h ; CPUCS
13D1: MOVX A,@DPTR
13D2: ANL A,#E5h ; Clear bits 4,3,1 (clock bits)
13D4: ORL A,#10h ; Set bit 4
13D6: MOVX @DPTR,A ; CPUCS = 48MHz clock mode
; NOP x3 (sync delay)
```
### Interface Configuration
```
13DA: MOV DPTR,#E601h ; IFCONFIG
13DD: MOV A,#CAh ; 0xCA = 1100_1010:
; IFCLKSRC=1 (internal)
; 3048MHZ=1 (48MHz)
; IFCLKOE=0 (don't output IFCLK)
; IFCLKPOL=0
; ASYNC=1 (async GPIF)
; GSTATE=0
; IFCFG=10 (GPIF mode)
13DF: MOVX @DPTR,A
```
### GPIF Waveform Init
```
13E3: MOV DPTR,#E6F5h ; Undocumented register
13E6: MOV A,#FFh
13E8: MOVX @DPTR,A
13E9: MOV 0xAF,#07h ; Unknown SFR (FX2-specific)
13F1: LCALL 12EAh ; GPIF waveform configuration:
; Reads waveform data from XDATA 0xE000-0xE08E
; Copies 128 bytes to GPIF waveform RAM via autopointers
; Configures: GPIFCTLCFG, GPIFIDLECS, GPIFIDLECTL,
; GPIFWFSELECT, GPIFADR, CTL states
; PORTCCFG=0xFF (all alt function for GPIF)
; PORTECFG.7=1 (GPIF ready signal)
```
### State Initialization
```
13F4: CLR A
13F5: MOV 6Dh,A ; Status flags byte = 0
; bit 0: init in progress
; bit 1: 8PSK firmware loaded
; bit 3: signature check mode
; bit 6: GPIF configured
; bit 7: streaming active
13F7: CLR bit_05h
13F9: CLR bit_04h
13FB: MOV 68h,A ; Clear more state
13FD: MOV 69h,A
13FF: MOV 66h,A
1401: CLR bit_06h ; GPIF-configured flag = 0
```
### GPIO Configuration
```
1403: MOV DPTR,#E670h ; PORTACFG
1406: MOVX @DPTR,A ; = 0x00 (all GPIO, no alt functions)
1407: MOV IOA,#A4h ; Port A initial: 1010_0100
; PA7=1 (GPIF/transport select?)
; PA5=1 (8PSK_RESET deasserted)
; PA2=1 (LNB voltage select?)
; PA1=0, PA0=input
140A: MOV OEA,#FEh ; Port A direction: 1111_1110
; PA7-PA1 = output
; PA0 = input (lock detect?)
140D: MOV IOD,#F0h ; Port D initial: 1111_0000
; PD7=1 (8PSK bus D7?)
; PD6=1 (8PSK bus D6?)
; PD5=1 (8PSK bus D5?)
; PD4=1 (8PSK bus D4?)
1410: MOV OED,#F0h ; Port D direction: upper 4 output
```
### FIFO Reset Sequence
```
141C: MOV DPTR,#E604h ; FIFORESET
141F: MOV A,#80h ; NAK-ALL = 1 (hold off USB during reset)
1421: MOVX @DPTR,A
1425: MOV A,#02h ; Reset EP2
1427: MOVX @DPTR,A
142B: MOV A,#04h ; Reset EP4
142D: MOVX @DPTR,A
1431: MOV A,#06h ; Reset EP6
1433: MOVX @DPTR,A
1437: MOV A,#08h ; Reset EP8
1439: MOVX @DPTR,A
143D: CLR A ; NAK-ALL = 0 (release)
143E: MOVX @DPTR,A
```
### GPIF Timing
```
1442: MOV DPTR,#E618h ; GPIFHOLDAMOUNT
1445: MOV A,#0Ch ; 12 IFCLK cycles hold
1447: MOVX @DPTR,A
; E619-E61B (FLOWSTATE regs) = 0x00
```
### I2C Configuration
```
1461: MOV DPTR,#E67Ah ; I2CTL
1464: MOVX A,@DPTR
1465: ORL A,#01h ; Set bit 0: 400kHz I2C clock
1467: MOVX @DPTR,A
```
### Timer 2 Setup
```
1468: ANL CKCON,#DFh ; Clear Timer2 clock source bit
146B: MOV T2CON,#04h ; Timer 2: auto-reload mode
146E: MOV RCAP2H,#F8h ; Reload value = 0xF8xx (fast tick)
```
## Phase 5: Descriptor Setup (back in main, 0x09BF)
```
09BF: MOV 0Ch,#12h ; Descriptor table high byte
09C2: MOV 0Dh,#00h ; Descriptor table low byte = 0x1200
; -> USB Device Descriptor
; Multiple descriptor pointer pairs stored in direct RAM:
; [0C:0D] = 0x1200 Device Descriptor
; [14:15] = 0x1212 Device Qualifier
; [0A:0B] = 0x121C Configuration Descriptor
; [12:13] = 0x1254 Other Speed Config
; [16:17] = 0x128C String Descriptors
; [08:09] = 0x12E8 (high-speed descriptor variant?)
; 09E3-0AE0: Copy all descriptors from CODE to XDATA
; Calculates actual XDATA base address
; Adjusts all pointers for runtime location
; Prepares EP configuration from config descriptor
```
## Phase 6: USB Enable (0x0AE1)
```
0AE1: MOV R7,09h / R6,08h ; Pass descriptor base pointer
0AE5: LCALL 1A0Eh ; Configure USB descriptors in FX2
; Reads XDATA desc, calculates checksums
; Sets up descriptor table for USB core
; Checks descriptor type -> sets bit_06h
; Enable USB interrupts
0AE8: SETB EIE.0 ; Enable INT2 (USB interrupt)
0AEA: ORL EICON,#20h ; INT2 edge trigger
0AED: MOV DPTR,#E668h ; INTSETUP
0AF0: MOVX A,@DPTR
0AF1: ORL A,#09h ; Enable autovectoring for INT2 and INT4
0AF3: MOVX @DPTR,A
0AF4: MOV DPTR,#E65Ch ; USBIE (USB Interrupt Enable)
0AF7: MOVX A,@DPTR
0AF8: ORL A,#3Dh ; Enable: SUDAV|SOF|SUTOK|SUSPEND|USBRESET
; 0x3D = 0011_1101
0AFA: MOVX @DPTR,A
0AFB: SETB EA ; Global interrupt enable (IE.7)
```
### USB Re-enumeration
```
0AFD: SETB bit_07h ; Mark "disconnected" state
0AFF: LCALL 0003h ; Call re-enumeration handler:
; Sets USBCS.DISCON=1, USBCS.RENUM=1
; Delay ~375,000 cycles (~7.8ms @ 48MHz)
; Clears USBIRQ (write 0xFF)
; Clears EPIRQ (write 0xFF)
; Clears EXIF.4
; Clears USBCS.DISCON (reconnect)
; After re-enum completes:
0B02: MOV DPTR,#E680h ; USBCS
0B05: MOVX A,@DPTR
0B06: ANL A,#F7h ; Clear DISCON bit (bit 3)
0B08: MOVX @DPTR,A ; *** USB device now visible to host ***
0B09: ANL CKCON,#F8h ; Final timer prescaler setup
```
## Phase 7: Main Loop (0x0B0C)
```
; ---- MAIN POLLING LOOP ----
0B0C: LCALL 2297h ; ep1_poll():
; Check EP1IN ready, arm if needed
; Check FLOW state registers
; Return C=1 if EP1 armed
0B0F: JNB bit_01h,0B17h ; SETUP pending (from SUDAV ISR)?
0B12: LCALL 032Ah ; Yes -> handle_setup()
0B15: CLR bit_01h ; Clear pending flag
0B17: JNB bit_03h,0B0Ch ; SUSPEND pending (from SUSPEND ISR)?
0B1A: LCALL 24DAh ; Check suspend condition
0B1D: JNC 0B0Ch ; False alarm -> continue loop
0B1F: CLR bit_03h
0B21: LCALL 21EDh ; Enter suspend (WAKEUPCS handling)
; ... wakeup recovery code ...
0B3D: LCALL 211Dh ; I2C device polling (demod status?)
; ... loop back to 0B0C ...
```
## Phase 8: SETUP Packet Handler (0x032A)
### Standard Request Dispatch
```
032A: MOV DPTR,#E6B9h ; SETUPDAT[1] = bRequest (alt mapping)
032D: MOVX A,@DPTR ; Read bRequest
032E: CJNE A,#0Ch,0331h ; Compare with 12
0331: JC 0335h ; If bRequest < 12 -> standard USB request
0333: AJMP 05ABh ; Else -> vendor request handler
; Standard USB request jump table (bRequest 0-11):
0335: MOV DPTR,#033Bh
0338: ADD A,ACC ; index * 2 (each AJMP is 2 bytes)
033A: JMP @A+DPTR ; Computed jump
; Table at 033B (12 entries):
; [0] GET_STATUS -> 0403h
; [1] CLEAR_FEATURE -> 04A6h
; [2] (reserved) -> 05ABh (stall)
; [3] SET_FEATURE -> 0536h
; [4] (reserved) -> 05ABh
; [5] SET_ADDRESS -> 05ABh (handled by hardware)
; [6] GET_DESCRIPTOR -> 0353h
; [7] (reserved) -> 05ABh
; [8] GET_CONFIGURATION -> 03FEh
; [9] SET_CONFIGURATION -> 03F4h
; [10] GET_INTERFACE -> 03DBh
; [11] SET_INTERFACE -> 03E5h
```
### Vendor Request Dispatch (0x05AB -> 0x0056)
```
05AB: LCALL 0056h ; Call vendor request dispatcher
05AE: JC 05B7h ; If handled (C=1) -> skip stall
05B0: MOV DPTR,#E6A0h ; EP0CS
05B3: MOVX A,@DPTR
05B4: ORL A,#01h ; Set STALL bit (unhandled request)
05B6: MOVX @DPTR,A
05B7: MOV DPTR,#E6A0h ; EP0CS
05BA: MOVX A,@DPTR
05BB: ORL A,#80h ; Set HSNAK bit (handshake)
05BD: MOVX @DPTR,A
05BE: RET
```
### Vendor Dispatch at 0x0056
```
; NOTE: E6B8-E6BF maps to SETUPDAT[0]-SETUPDAT[7] (alternate XDATA addresses)
; This is an undocumented but valid FX2LP mapping.
0056: MOV DPTR,#E6B8h ; SETUPDAT[0] = bmRequestType
0059: MOVX A,@DPTR
005A: JB ACC.6,005Fh ; Test bit 6: vendor request flag
005D: CLR C ; Not vendor -> return unhandled
005E: RET
005F: MOV DPTR,#E6B9h ; SETUPDAT[1] = bRequest
0062: MOVX A,@DPTR
0063: ADD A,#80h ; Remap: bRequest 0x80 -> index 0x00
; bRequest 0x89 -> index 0x09
; bRequest 0x9D -> index 0x1D
0065: CJNE A,#1Eh,0068h ; Check if index < 30
0068: JC 006Ch ; In range -> use jump table
006A: AJMP 0326h ; Out of range -> return unhandled (C=0)
006C: MOV DPTR,#0076h ; Jump table base
006F: ADD A,ACC ; index * 2 (AJMP = 2 bytes each)
0071: JNC 0075h ; Handle page crossing
0073: INC DPH
0075: JMP @A+DPTR ; Computed jump into vendor table
```
### Vendor Command Jump Table (0x0076)
| bRequest | Index | Target | Function |
|----------|-------|--------|----------|
| 0x80 | 0 | 00B2h | GET_STATUS — returns status byte `6Dh` via EP0 |
| 0x81 | 1 | 0326h | (unhandled) |
| 0x82 | 2 | 0326h | (unhandled) |
| 0x83 | 3 | 00F1h | EP0_SETUP_READ — sets up descriptor read via SUDPTR |
| 0x84 | 4 | 0102h | EP0_DATA_WRITE — host writes data to EP0 |
| 0x85 | 5 | 0110h | EP0_DATA_READ — host reads data from EP0 |
| 0x86 | 6 | 012Eh | I2C_WRITE — write I2C data block |
| 0x87 | 7 | 0140h | EP0_MULTI_READ — multi-byte EP0 read |
| 0x88 | 8 | 0326h | (unhandled) |
| **0x89** | **9** | **00C4h** | **BOOT_8PSK** — boot the 8PSK demodulator |
| 0x8A | 10 | 019Ch | I2C_READ (with status check) |
| 0x8B | 11 | 01CBh | I2C_WRITE (variant) |
| 0x8C | 12 | 01DDh | I2C_READ (variant) |
| 0x8D | 13 | 01EFh | DiSEqC / LNB control? |
| 0x8E | 14 | 0326h | (unhandled) |
| 0x8F | 15 | 01FCh | GPIF flow control / read register |
| 0x90 | 16 | 020Bh | TUNE — set frequency / symbol rate |
| 0x91 | 17 | 022Ch | TUNE_STATUS — check lock |
| 0x92 | 18 | 024Ah | SET_TRANSPORT — configure TS stream |
| 0x93 | 19 | 026Fh | GET_SIGNAL_QUALITY — read SNR/BER |
| 0x94 | 20 | 01B9h | I2C bus control |
| 0x95 | 21 | 02DFh | GET_DEMOD_STATUS |
| 0x96 | 22 | 02B4h | I2C_ADDR_SELECT |
| 0x97 | 23 | 02C1h | RAW_REGISTER_READ |
| 0x98 | 24 | 02CBh | GET_EP0_BUFFER |
| 0x99-9C | 25-28 | 0326h | (unhandled) |
| 0x9D | 29 | 02FAh | FIRMWARE_VERSION? |
## BOOT_8PSK (0x89) Handler: Complete Trace
### Entry Point (0x00C4)
```
00C4: JNB bit_06h,00DAh ; Is GPIF configured?
; [If GPIF configured]:
00C7: MOV DPTR,#E6BAh ; SETUPDAT[2] = wValueL
00CA: MOVX A,@DPTR
00CB: ADD A,#FFh ; Test if wValue == 0 (ADD #FF sets C if A>0)
00CD: MOV bit_07h,C ; bit_07h = (wValue != 0) = "load-from-host" flag
00CF: LCALL 1D4Fh ; -> boot_8psk_dispatch()
; [If NOT configured]:
00DA: CLR bit_07h ; Force "no load" mode
00DC: LCALL 1D4Fh ; -> boot_8psk_dispatch()
; [Common exit]:
00E5: CLR A
00E6: MOV DPTR,#E68Ah ; EP0BCH = 0
00E9: MOVX @DPTR,A
00EA: MOV DPTR,#E68Bh ; EP0BCL = 1
00ED: INC A
00EE: MOVX @DPTR,A ; Send 1-byte response (success/fail in EP0BUF[0])
00EF: AJMP 0328h ; SETB C; RET (command handled)
```
### boot_8psk_dispatch (0x1D4F)
```
1D4F: MOV A,6Dh ; Read status flags
1D51: RRC A ; bit 0 (init flag) -> C -> bit_08h
1D52: MOV bit_08h,C ; bit_08h = "currently booted" state
1D54: ORL IOD,#E0h ; PD7:PD5 = 1 (8PSK bus enable)
1D57: JNB bit_07h,1D93h ; If NOT "load from host" -> error path
1D5A: JB bit_08h,1DA5h ; If already booted -> return success
; --- Signature Check ---
1D5D: LCALL 16B8h ; Check 8PSK demod chip signature:
; Read descriptor type byte from XDATA
; Switch IFCONFIG to port mode (0xC0)
; Set OEB=0 (Port B = input)
; Set PA7=1, PA6=1 (select chip)
; Read Port B:
; Type 3: expect IOB=0xA5
; Type 4: expect IOB=0x5A
; Type 5: expect IOB=0x5B
; Type 6: expect IOB=0x5C
; Restore IFCONFIG
; Return C=1 if signature match
1D60: JNC 1DA5h ; Signature fail -> return with current state
; --- Begin 8PSK Boot ---
1D62: ANL IOA,#DFh ; PA5=0 (assert 8PSK reset)
1D65: ANL 6Dh,#BFh ; Clear "streaming" flag in 6Dh
1D68: CLR bit_09h ; Clear streaming-active flag
1D6A: LCALL 1919h ; GPIF abort + FIFO cleanup:
; EP2FIFOPFH, GPIFABORT, GPIFCTRL
; Wait for GPIF idle
; Reset EP2 FIFO
; --- Configure for programming ---
1D6D: MOV A,IOA
1D6F: ANL A,#FBh ; PA2=0
1D71: ORL A,#02h ; PA1=1 (select programming mode)
1D73: MOV IOA,A
1D75: MOV R7,#1Eh / R6,#00h
1D79: LCALL 1DFBh ; Delay ~30 * (CPUCS-based divisor) cycles
; --- Deassert reset ---
1D7C: ORL IOA,#20h ; PA5=1 (deassert 8PSK reset)
1D7F: ORL 6Dh,#01h ; Set "init in progress" flag
; --- Load 8PSK firmware ---
1D82: LCALL 10F2h ; load_8psk_firmware():
; I2C read from demod (addr 0x51) to get segment table
; Loop: read segment header (addr, length)
; I2C write firmware data blocks to demod
; Retry up to 5x on write failures
; Return C=0 on success, C=1 on failure
1D85: JC 1D93h ; If load failed -> error
; --- Boot init blocks ---
1D87: LCALL 0DDDh ; boot_init_blocks():
; 3 iterations (init blocks 0,1,2)
; Each: wait_for_ready() then I2C write
; Sends register configuration to demod
1D8A: JC 1D93h ; If init failed -> error
1D8C: SETB bit_08h ; Mark "8PSK booted"
1D8E: ORL IOD,#E0h ; PD7:PD5 = 1 (8PSK bus active)
1D91: SJMP 1DA5h ; -> success exit
; --- Error path ---
1D93: ANL 6Dh,#BCh ; Clear bits 0,1,6 in status
1D96: CLR bit_09h ; Clear streaming flag
1D98: LCALL 1919h ; GPIF abort + cleanup
1D9B: MOV A,IOA
1D9D: ANL A,#FDh ; PA1=0
1D9F: ORL A,#04h ; PA2=1 (restore normal GPIO)
1DA1: MOV IOA,A
1DA3: CLR bit_08h ; Mark "not booted"
; --- Return ---
1DA5: MOV C,bit_08h ; Return C = boot success
1DA7: RET
```
## USB Interrupt Vector Table (0x1600)
The FX2LP USB autovector table at 0x1600. Each entry is a 3-byte LJMP + 1 NOP (4 bytes per slot). The hardware indexes into this table via INT2IVEC.
| Offset | IRQ Source | Target | Status |
|--------|-----------------|--------|--------|
| +0x00 | SUDAV | 22E4h | **Active** — sets bit_01h, clears USBIRQ |
| +0x04 | SOF | 239Fh | **Active** |
| +0x08 | SUTOK | 2389h | **Active** |
| +0x0C | SUSPEND | 22FCh | **Active** — sets bit_03h |
| +0x10 | USBRESET | 1FB6h | **Active** |
| +0x14 | HISPEED | 1EC7h | **Active** |
| +0x18 | EP0ACK | 0032h | Stub (RETI) |
| +0x24 | EP0OUT | 0FFFh | **Active** |
| +0x28+ | EP1-8, IBN, etc | 24E0h+ | All stubs |
## USB Descriptors (0x1200)
```
Device Descriptor (18 bytes):
bLength: 18
bDescriptorType: 1 (DEVICE)
bcdUSB: 02.00
bDeviceClass: 0xFF (vendor-specific)
bDeviceSubClass: 0xFF
bDeviceProtocol: 0x00
bMaxPacketSize0: 64
idVendor: 0x09C0 (Cypress Semiconductor)
idProduct: 0x0203
bcdDevice: 0x0001
iManufacturer: 1
iProduct: 2
iSerialNumber: 3
bNumConfigurations: 1
```
## Bit-Addressable Flag Map
| Bit | Name/Purpose |
|-------|-------------|
| bit_00h | Wakeup/resume active |
| bit_01h | SETUP packet pending (from SUDAV ISR) |
| bit_02h | System initialized |
| bit_03h | SUSPEND pending (from SUSPEND ISR) |
| bit_04h | (unused/reserved) |
| bit_05h | (unused/reserved) |
| bit_06h | GPIF descriptor present |
| bit_07h | USB disconnect / "load-from-host" flag (dual use) |
| bit_08h | 8PSK demod booted successfully |
| bit_09h | Streaming active (GPIF/TS transfer in progress) |
| bit_0Ah | Autopointer direction flag |
## Direct RAM Variable Map
| Address | Name/Purpose |
|---------|-------------|
| 08h:09h | Descriptor pointer 7 (high-speed variant?) |
| 0Ah:0Bh | Configuration descriptor pointer |
| 0Ch:0Dh | Device descriptor pointer (0x1200) |
| 0Eh:0Fh | (adjusted descriptor offset) |
| 10h:11h | (adjusted descriptor offset) |
| 12h:13h | Other-speed config descriptor pointer |
| 14h:15h | Device qualifier descriptor pointer |
| 16h:17h | String descriptor pointer |
| 22h-25h | 32-bit counter/offset (XDATA copy) |
| 26h-29h | 32-bit counter (descriptor calculation) |
| 2Ah-2Dh | 32-bit counter (main state) |
| 32h-35h | 32-bit counter (main state) |
| 36h:37h | USB descriptor base (passed to 1A0E) |
| 38h | Descriptor iteration counter |
| 3Bh | Boot init block index / temp |
| 3Ch | I2C temp / ready flag |
| 3Dh:3Eh | wait_for_ready countdown |
| 3Fh:40h | Delay counter / retry counter |
| 45h:46h | I2C buffer pointer high:low |
| 49h-4Bh | Autopointer save area |
| 4Ch:4Dh | Saved IRQ state |
| 4Eh-50h | EP buffer config |
| 66h | (state variable) |
| 68h:69h | (state variables) |
| 6Dh | Master status flags byte |
| 6Fh:70h | Secondary wait counter |
## Key Observations for RAM-Load Boot Failure
1. **IDATA cleared on reset**: The startup clears IDATA 0x01-0x7F. All bit-addressable flags and direct RAM variables start at 0. This is critical — if you're loading into RAM without resetting the CPU, these won't be cleared.
2. **XDATA init from CODE space**: The Keil startup copies initialization data from a table in CODE space to XDATA. If your RAM load doesn't include this init data at the correct CODE-relative offset, XDATA won't be initialized properly.
3. **CPUCS clock switch**: The firmware switches to 48MHz immediately in hw_init(). If CPUCS is already set (from a previous boot), the second write may cause timing issues.
4. **USB re-enumeration**: The firmware explicitly disconnects (USBCS.DISCON=1), waits ~8ms, then reconnects. If you're loading via USB, this disconnect cycle will kill your USB connection.
5. **E6B8-E6BF SETUPDAT mapping**: The firmware uses an alternate XDATA mapping for SETUPDAT at 0xE6B8 instead of the standard 0xE6A5. Both mappings are valid, but your host-side code must account for this if doing SETUP data inspection.
6. **Interrupt vector overwrite risk**: The reset vector at 0x0000 and all interrupt vectors (0x0003-0x006B) contain actual code, not just jump stubs. The INT0 vector at 0x0003 contains the USB re-enumeration handler. Loading code that overwrites these vectors will break USB.
7. **GPIF waveform data**: The GPIF config at 0x12EA reads waveform data from XDATA 0xE000-0xE08E. This data must be present in XDATA before hw_init() runs. If it's missing (because the EEPROM-to-XDATA copy didn't happen), GPIF will be misconfigured.
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*Generated from firmware analysis of skywalker1_eeprom_full64k.bin*
*Disassembly tool: disasm8051.py (custom 8051 disassembler)*
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