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Emulator learnings folded back into decompiler

This commit is contained in:
Aiden
2026-05-25 19:11:22 +10:00
parent 1fabf6587d
commit d2e7609bbf
16 changed files with 1468 additions and 87 deletions

View File

@@ -232,8 +232,13 @@
; Serial Protocol Reconstruction
; TX candidate: 6 bytes H'F858-H'F85D, checksum H'F85D seeded by H'005A (confidence high 0.95)
; TX path: initial byte is written from the TX frame buffer, then subsequent bytes are sent by the TXI path when TDRE is reasserted
; RX candidate: 6 bytes capture H'F868-H'F86D, validate H'F860-H'F865 checksum H'F865 seeded by H'005A (confidence high 0.9)
; caveat: candidate frame means six consecutive bytes within the observed RX timing/state machine, not a proven delimited packet
; Serial RAM role candidates
; H'F9C0: post_tx_report_delay - post_tx_report_delay at H'F9C0 is a candidate/evidence-supported RAM timer role; FRT1 OCIA tick ISR H'BEEA decrements it
; H'F9C1: secondary_tx_report_delay - secondary_tx_report_delay at H'F9C1 is a candidate/evidence-supported RAM timer role; FRT1 OCIA tick ISR H'BEEA decrements it
; H'F9C6: periodic_report_countdown - periodic_report_countdown at H'F9C6 is a candidate/evidence-supported RAM timer role; FRT1 OCIA tick ISR H'BEEA decrements it
; LCD/Text Scan
; search 'CONNECT': not literal, hits=0
@@ -430,10 +435,10 @@ vec_reset_1000:
108B: 15 FE C8 06 3B MOV:G.B #H'3B, @PWM3_TCR ; PWM3_TCR = H'3B (OE=0 OS=0 CKS2=0 CKS1=1 CKS0=1); cycles=9
1090: 15 FE C9 06 7D MOV:G.B #H'7D, @PWM3_DTR ; PWM3_DTR = H'7D; cycles=9
1095: 15 FE D8 06 24 MOV:G.B #H'24, @SCI1_SMR ; SCI1_SMR = H'24 (C/A=0 CHR=0 PE=1 O/E=0 STOP=0 CKS1=0 CKS0=0; SCI async, 8-bit, even parity, 1 stop, clock phi); SCI1 SMR serial init for traced RS232/MAX202 path (H8 pin 66 P95/TXD to MAX202 pin 11; MAX202 pin 12 to H8 pin 67 P96/RXD); cycles=9
109A: 15 FE DA 06 3C MOV:G.B #H'3C, @SCI1_SCR ; SCI1_SCR = H'3C (TIE=0 RIE=0 TE=1 RE=1 CKE1=0 CKE0=0; SCI enables TX,RX, internal clock); disable SCI1 TX interrupt (TIE); disable SCI1 receive and receive-error interrupts (RIE); enable SCI1 transmitter (TE); enable SCI1 receiver (RE); SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); cycles=9
109A: 15 FE DA 06 3C MOV:G.B #H'3C, @SCI1_SCR ; SCI1_SCR = H'3C (TIE=0 RIE=0 TE=1 RE=1 CKE1=0 CKE0=0; SCI enables TX,RX, internal clock); disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE; disable SCI1 receive and receive-error interrupts (RIE); enable SCI1 transmitter (TE); enable SCI1 receiver (RE); SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); cycles=9
109F: 15 FE D9 06 07 MOV:G.B #H'07, @SCI1_BRR ; SCI1_BRR = H'07; SCI1 async 8-bit even parity 1 stop BRR N=7 CKS n=0; baud needs --clock-hz; SCI1 BRR serial init for traced RS232/MAX202 path (H8 pin 66 P95/TXD to MAX202 pin 11; MAX202 pin 12 to H8 pin 67 P96/RXD); cycles=9
10A4: 15 FE F0 06 24 MOV:G.B #H'24, @SCI2_SMR ; SCI2_SMR = H'24 (C/A=0 CHR=0 PE=1 O/E=0 STOP=0 CKS1=0 CKS0=0; SCI async, 8-bit, even parity, 1 stop, clock phi); SCI2 SMR write; not the traced MAX202 path; P9SCI2E=0 disables SCI2 pins P92/P93/P94, while the board trace is SCI1 P95/P96; cycles=9
10A9: 15 FE F2 06 0C MOV:G.B #H'0C, @SCI2_SCR ; SCI2_SCR = H'0C (TIE=0 RIE=0 TE=0 RE=0 CKE1=0 CKE0=0; SCI enables none, internal clock); disable SCI2 TX interrupt (TIE); disable SCI2 receive and receive-error interrupts (RIE); disable SCI2 transmitter (TE); disable SCI2 receiver (RE); SCI2 SCR write; not the traced MAX202 path; P9SCI2E=0 disables SCI2 pins P92/P93/P94, while the board trace is SCI1 P95/P96; cycles=9
10A9: 15 FE F2 06 0C MOV:G.B #H'0C, @SCI2_SCR ; SCI2_SCR = H'0C (TIE=0 RIE=0 TE=0 RE=0 CKE1=0 CKE0=0; SCI enables none, internal clock); disable SCI2 TX interrupt (TIE); gates TXI when hardware sets TDRE; disable SCI2 receive and receive-error interrupts (RIE); disable SCI2 transmitter (TE); disable SCI2 receiver (RE); SCI2 SCR write; not the traced MAX202 path; P9SCI2E=0 disables SCI2 pins P92/P93/P94, while the board trace is SCI1 P95/P96; cycles=9
10AE: 15 FE F1 06 07 MOV:G.B #H'07, @SCI2_BRR ; SCI2_BRR = H'07; SCI2 async 8-bit even parity 1 stop BRR N=7 CKS n=0; baud needs --clock-hz; SCI2 BRR write; not the traced MAX202 path; P9SCI2E=0 disables SCI2 pins P92/P93/P94, while the board trace is SCI1 P95/P96; cycles=9
10B3: 15 FE E8 06 19 MOV:G.B #H'19, @ADCSR ; ADCSR = H'19 (ADF=0 ADIE=0 ADST=0 SCAN=1 CKS=1 CH2=0 CH1=0 CH0=1; A/D halt, scan AN0-AN1, 138-state max, ADI disabled); cycles=9
10B8: 15 FE E9 06 7F MOV:G.B #H'7F, @H'FEE9 ; refs H'FEE9 in register_field; cycles=9
@@ -3041,8 +3046,8 @@ BA6C: 27 FA BEQ loc_BA68 ; repeat SCI1 transmit-empty wait while TDRE=0
BA6E: 15 F8 58 80 MOV:G.B @H'F858, R0 ; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: TX buffer-region references cluster around H'F858-H'F85D; confidence high; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: initial SCI1 TDR send is supported by a read from H'F858; confidence high; refs ram_F858 in on_chip_ram; cycles=7
BA72: 15 FE DB 90 MOV:G.B R0, @SCI1_TDR ; SCI1_TDR; write RS232/SCI byte to SCI1 TDR for transmission; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: initial SCI1 TDR send is supported by a read from H'F858; confidence high; SCI1 TDR write transmits on traced RS232/MAX202 path: H8 pin 66 P95/TXD -> MAX202 pin 11; cycles=7
BA76: 15 F9 C2 06 01 MOV:G.B #H'01, @H'F9C2 ; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: write evidence supports TX index H'F9C2 being initialized to 1; confidence high; refs ram_F9C2 in on_chip_ram; cycles=9
BA7B: 15 FE DC D7 BCLR.B #7, @SCI1_SSR ; clear TDRE (bit 7) of SCI1_SSR; clear SCI1 transmit data register empty flag (TDRE); SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; cycles=8
BA7F: 15 FE DA C7 BSET.B #7, @SCI1_SCR ; set TIE (bit 7) of SCI1_SCR; enable SCI1 TX interrupt (TIE); SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); cycles=8
BA7B: 15 FE DC D7 BCLR.B #7, @SCI1_SSR ; clear TDRE (bit 7) of SCI1_SSR; clear SCI1 TDRE after TDR write; TXI can fire again when hardware reasserts TDRE; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; cycles=8
BA7F: 15 FE DA C7 BSET.B #7, @SCI1_SCR ; set TIE (bit 7) of SCI1_SCR; enable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE; SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); cycles=8
BA83: 19 RTS ; cycles=13
vec_sci1_txi_BA84:
@@ -3054,7 +3059,7 @@ BA90: 15 F9 C3 16 TST.B @H'F9C3 ; refs ram_F9C3 in on_chip_ram; cycles=7
BA94: 27 13 BEQ loc_BAA9 ; cycles=3/7 nt/t
BA96: 15 FA A2 D3 BCLR.B #3, @H'FAA2 ; refs ram_FAA2 in on_chip_ram; cycles=9
BA9A: 15 FA A3 13 CLR.B @H'FAA3 ; refs ram_FAA3 in on_chip_ram; cycles=9
BA9E: 15 FE DA D7 BCLR.B #7, @SCI1_SCR ; clear TIE (bit 7) of SCI1_SCR; disable SCI1 TX interrupt (TIE); SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); cycles=9
BA9E: 15 FE DA D7 BCLR.B #7, @SCI1_SCR ; clear TIE (bit 7) of SCI1_SCR; disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE; SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); cycles=9
BAA2: 15 F9 C0 06 1F MOV:G.B #H'1F, @H'F9C0 ; refs ram_F9C0 in on_chip_ram; cycles=9
BAA7: 20 48 BRA loc_BAF1 ; cycles=8
@@ -3065,11 +3070,11 @@ BAAF: A0 12 EXTU.B R0 ; cycles=3
BAB1: F0 F8 58 80 MOV:G.B @(-H'07A8,R0), R0 ; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: candidate TX ISR sends SCI1 TDR from indexed H'F858 buffer; confidence high; cycles=6
BAB5: 15 FE DB 90 MOV:G.B R0, @SCI1_TDR ; SCI1_TDR; write RS232/SCI byte to SCI1 TDR for transmission; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: candidate TX ISR sends SCI1 TDR from indexed H'F858 buffer; confidence high; SCI1 TDR write transmits on traced RS232/MAX202 path: H8 pin 66 P95/TXD -> MAX202 pin 11; cycles=6
BAB9: CF 80 MOV:G.W @R7+, R0 ; cycles=6
BABB: 15 FE DC D7 BCLR.B #7, @SCI1_SSR ; clear TDRE (bit 7) of SCI1_SSR; clear SCI1 transmit data register empty flag (TDRE); SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; cycles=8
BABB: 15 FE DC D7 BCLR.B #7, @SCI1_SSR ; clear TDRE (bit 7) of SCI1_SSR; clear SCI1 TDRE after TDR write; TXI can fire again when hardware reasserts TDRE; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; cycles=8
BABF: 15 F9 C2 08 ADD:Q.B #1, @H'F9C2 ; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: candidate TX ISR increments TX index H'F9C2; confidence high; refs ram_F9C2 in on_chip_ram; cycles=8
BAC3: 15 F9 C2 04 06 CMP:G.B #H'06, @H'F9C2 ; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: candidate TX ISR compares TX index to frame length 6; confidence high; refs ram_F9C2 in on_chip_ram; cycles=6
BAC8: 26 27 BNE loc_BAF1 ; cycles=3/7 nt/t
BACA: 15 FE DA D7 BCLR.B #7, @SCI1_SCR ; clear TIE (bit 7) of SCI1_SCR; disable SCI1 TX interrupt (TIE); SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); cycles=9
BACA: 15 FE DA D7 BCLR.B #7, @SCI1_SCR ; clear TIE (bit 7) of SCI1_SCR; disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE; SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); cycles=9
BACE: 15 F7 95 F6 BTST.B #6, @H'F795 ; refs ram_F795 in on_chip_ram; cycles=7
BAD2: 26 14 BNE loc_BAE8 ; cycles=3/7 nt/t
BAD4: 15 F7 91 F7 BTST.B #7, @H'F791 ; refs ram_F791 in on_chip_ram; cycles=7
@@ -3131,13 +3136,13 @@ BB56: 19 RTS ; cycles=12
vec_sci1_eri_BB57:
BB57: 15 FA A4 C7 BSET.B #7, @H'FAA4 ; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; refs ram_FAA4 in on_chip_ram; cycles=8
BB5B: 15 FE DC D5 BCLR.B #5, @SCI1_SSR ; clear ORER (bit 5) of SCI1_SSR; clear SCI1 overrun error flag (ORER); candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; cycles=8
BB5F: 15 FE DC D4 BCLR.B #4, @SCI1_SSR ; clear FER (bit 4) of SCI1_SSR; clear SCI1 framing error flag (FER); candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; cycles=8
BB63: 15 FE DC D3 BCLR.B #3, @SCI1_SSR ; clear PER (bit 3) of SCI1_SSR; clear SCI1 parity error flag (PER); candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; cycles=8
BB5B: 15 FE DC D5 BCLR.B #5, @SCI1_SSR ; clear ORER (bit 5) of SCI1_SSR; clear SCI1 ORER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; cycles=8
BB5F: 15 FE DC D4 BCLR.B #4, @SCI1_SSR ; clear FER (bit 4) of SCI1_SSR; clear SCI1 FER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; cycles=8
BB63: 15 FE DC D3 BCLR.B #3, @SCI1_SSR ; clear PER (bit 3) of SCI1_SSR; clear SCI1 PER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; cycles=8
vec_sci1_rxi_BB67:
BB67: 12 03 STM.W {R0,R1}, @-SP ; cycles=12
BB69: 15 FE DC D6 BCLR.B #6, @SCI1_SSR ; clear RDRF (bit 6) of SCI1_SSR; clear SCI1 receive-data-full flag (RDRF); candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: ROM clears SCI1 SSR.RDRF before reading SCI1_RDR; preserve this observed ordering even though the manual describes the canonical RDR-read then RDRF-clear sequence; confidence high; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; cycles=8
BB69: 15 FE DC D6 BCLR.B #6, @SCI1_SSR ; clear RDRF (bit 6) of SCI1_SSR; clear SCI1 RDRF with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: ROM clears SCI1 SSR.RDRF before reading SCI1_RDR; preserve this observed ordering even though the manual describes the canonical RDR-read then RDRF-clear sequence; confidence high; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; cycles=8
BB6D: 15 FE DD 80 MOV:G.B @SCI1_RDR, R0 ; read SCI1 received byte from RDR; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 RX ISR reads a byte from SCI1_RDR; confidence high; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: ROM clears SCI1 SSR.RDRF before reading SCI1_RDR; preserve this observed ordering even though the manual describes the canonical RDR-read then RDRF-clear sequence; confidence high; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 RDR read receives from traced RS232/MAX202 path: MAX202 pin 12 -> H8 pin 67 P96/RXD; refs SCI1_RDR in register_field; cycles=6
BB71: 15 F9 C1 16 TST.B @H'F9C1 ; refs ram_F9C1 in on_chip_ram; cycles=6
BB75: 26 06 BNE loc_BB7D ; cycles=3/8 nt/t
@@ -3495,20 +3500,20 @@ loc_BEE8:
BEE8: 19 RTS ; cycles=12
vec_frt1_ocia_BEEA:
BEEA: 15 FE 91 D5 BCLR.B #5, @FRT1_TCSR ; clear OCFA (bit 5) of FRT1_TCSR; cycles=9
BEEE: 15 F9 C0 16 TST.B @H'F9C0 ; refs ram_F9C0 in on_chip_ram; cycles=7
BEEA: 15 FE 91 D5 BCLR.B #5, @FRT1_TCSR ; clear OCFA (bit 5) of FRT1_TCSR; candidate/evidence-supported RAM role post_tx_report_delay at H'F9C0; evidence: candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA; confidence candidate/evidence-supported; candidate/evidence-supported RAM role secondary_tx_report_delay at H'F9C1; evidence: candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA; confidence candidate/evidence-supported; candidate/evidence-supported RAM role periodic_report_countdown at H'F9C6; evidence: candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA; confidence candidate/evidence-supported; cycles=9
BEEE: 15 F9 C0 16 TST.B @H'F9C0 ; candidate/evidence-supported RAM role post_tx_report_delay at H'F9C0; evidence: candidate post-TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported; refs ram_F9C0 in on_chip_ram; cycles=7
BEF2: 27 04 BEQ loc_BEF8 ; cycles=3/7 nt/t
BEF4: 15 F9 C0 0C ADD:Q.B #-1, @H'F9C0 ; refs ram_F9C0 in on_chip_ram; cycles=9
BEF4: 15 F9 C0 0C ADD:Q.B #-1, @H'F9C0 ; candidate/evidence-supported RAM role post_tx_report_delay at H'F9C0; evidence: candidate post-TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported; refs ram_F9C0 in on_chip_ram; cycles=9
loc_BEF8:
BEF8: 15 F9 C1 16 TST.B @H'F9C1 ; refs ram_F9C1 in on_chip_ram; cycles=7
BEF8: 15 F9 C1 16 TST.B @H'F9C1 ; candidate/evidence-supported RAM role secondary_tx_report_delay at H'F9C1; evidence: candidate secondary TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported; refs ram_F9C1 in on_chip_ram; cycles=7
BEFC: 27 04 BEQ loc_BF02 ; cycles=3/7 nt/t
BEFE: 15 F9 C1 0C ADD:Q.B #-1, @H'F9C1 ; refs ram_F9C1 in on_chip_ram; cycles=9
BEFE: 15 F9 C1 0C ADD:Q.B #-1, @H'F9C1 ; candidate/evidence-supported RAM role secondary_tx_report_delay at H'F9C1; evidence: candidate secondary TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported; refs ram_F9C1 in on_chip_ram; cycles=9
loc_BF02:
BF02: 1D F9 C6 16 TST.W @H'F9C6 ; refs ram_F9C6 in on_chip_ram; cycles=7
BF02: 1D F9 C6 16 TST.W @H'F9C6 ; candidate/evidence-supported RAM role periodic_report_countdown at H'F9C6; evidence: candidate periodic report countdown is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported; refs ram_F9C6 in on_chip_ram; cycles=7
BF06: 27 04 BEQ loc_BF0C ; cycles=3/7 nt/t
BF08: 1D F9 C6 0C ADD:Q.W #-1, @H'F9C6 ; refs ram_F9C6 in on_chip_ram; cycles=9
BF08: 1D F9 C6 0C ADD:Q.W #-1, @H'F9C6 ; candidate/evidence-supported RAM role periodic_report_countdown at H'F9C6; evidence: candidate periodic report countdown is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported; refs ram_F9C6 in on_chip_ram; cycles=9
loc_BF0C:
BF0C: 15 F6 F6 F7 BTST.B #7, @H'F6F6 ; refs ram_F6F6 in on_chip_ram; cycles=7

View File

@@ -15679,7 +15679,7 @@
"register": "SCR",
"register_address": 65242,
"register_address_hex": "H'FEDA",
"comment": "disable SCI1 TX interrupt (TIE)",
"comment": "disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -15911,7 +15911,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 transmit data register empty flag (TDRE)",
"comment": "clear SCI1 TDRE after TDR write; TXI can fire again when hardware reasserts TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -15939,7 +15939,7 @@
"register": "SCR",
"register_address": 65242,
"register_address_hex": "H'FEDA",
"comment": "enable SCI1 TX interrupt (TIE)",
"comment": "enable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -15968,7 +15968,7 @@
"register": "SCR",
"register_address": 65242,
"register_address_hex": "H'FEDA",
"comment": "disable SCI1 TX interrupt (TIE)",
"comment": "disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16022,7 +16022,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 transmit data register empty flag (TDRE)",
"comment": "clear SCI1 TDRE after TDR write; TXI can fire again when hardware reasserts TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16050,7 +16050,7 @@
"register": "SCR",
"register_address": 65242,
"register_address_hex": "H'FEDA",
"comment": "disable SCI1 TX interrupt (TIE)",
"comment": "disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16079,7 +16079,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 overrun error flag (ORER)",
"comment": "clear SCI1 ORER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16107,7 +16107,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 framing error flag (FER)",
"comment": "clear SCI1 FER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16135,7 +16135,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 parity error flag (PER)",
"comment": "clear SCI1 PER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16163,7 +16163,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 receive-data-full flag (RDRF)",
"comment": "clear SCI1 RDRF with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16220,7 +16220,7 @@
"register": "SCR",
"register_address": 65266,
"register_address_hex": "H'FEF2",
"comment": "disable SCI2 TX interrupt (TIE)",
"comment": "disable SCI2 TX interrupt (TIE); gates TXI when hardware sets TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16344,7 +16344,7 @@
"register": "SCR",
"register_address": 65242,
"register_address_hex": "H'FEDA",
"comment": "disable SCI1 TX interrupt (TIE)",
"comment": "disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16464,7 +16464,7 @@
"register": "SCR",
"register_address": 65266,
"register_address_hex": "H'FEF2",
"comment": "disable SCI2 TX interrupt (TIE)",
"comment": "disable SCI2 TX interrupt (TIE); gates TXI when hardware sets TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16696,7 +16696,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 transmit data register empty flag (TDRE)",
"comment": "clear SCI1 TDRE after TDR write; TXI can fire again when hardware reasserts TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16724,7 +16724,7 @@
"register": "SCR",
"register_address": 65242,
"register_address_hex": "H'FEDA",
"comment": "enable SCI1 TX interrupt (TIE)",
"comment": "enable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16753,7 +16753,7 @@
"register": "SCR",
"register_address": 65242,
"register_address_hex": "H'FEDA",
"comment": "disable SCI1 TX interrupt (TIE)",
"comment": "disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16807,7 +16807,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 transmit data register empty flag (TDRE)",
"comment": "clear SCI1 TDRE after TDR write; TXI can fire again when hardware reasserts TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16835,7 +16835,7 @@
"register": "SCR",
"register_address": 65242,
"register_address_hex": "H'FEDA",
"comment": "disable SCI1 TX interrupt (TIE)",
"comment": "disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16864,7 +16864,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 overrun error flag (ORER)",
"comment": "clear SCI1 ORER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16892,7 +16892,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 framing error flag (FER)",
"comment": "clear SCI1 FER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16920,7 +16920,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 parity error flag (PER)",
"comment": "clear SCI1 PER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -16948,7 +16948,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 receive-data-full flag (RDRF)",
"comment": "clear SCI1 RDRF with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -17016,6 +17016,39 @@
"checksum_seed": 90,
"checksum_seed_hex": "H'005A",
"checksum_formula": "checksum = 0x5A ^ byte0 ^ byte1 ^ byte2 ^ byte3 ^ byte4",
"roles": [
{
"name": "tx_frame",
"address": 63576,
"address_hex": "H'F858",
"end_address": 63581,
"end_address_hex": "H'F85D",
"summary": "evidence-supported candidate SCI1 TX frame buffer"
},
{
"name": "tx_checksum",
"address": 63581,
"address_hex": "H'F85D",
"checksum_seed": 90,
"checksum_seed_hex": "H'005A",
"summary": "evidence-supported candidate SCI1 TX XOR checksum byte"
},
{
"name": "tx_index",
"address": 63938,
"address_hex": "H'F9C2",
"summary": "evidence-supported candidate SCI1 TX frame index"
}
],
"tx_path": {
"kind": "interrupt_driven_txi",
"initial_tdr_write_address": 47730,
"initial_tdr_write_address_hex": "H'BA72",
"txi_indexed_tdr_write_address": 47797,
"txi_indexed_tdr_write_address_hex": "H'BAB5",
"summary": "initial byte is written from the TX frame buffer, then subsequent bytes are sent by the TXI path when TDRE is reasserted",
"tdre_caveat": "TDRE reassertion is hardware/emulator timing context; static evidence is the indexed TXI send path."
},
"confidence": "high",
"confidence_score": 0.95,
"confidence_reason": "all required independent evidence groups were observed",
@@ -17696,6 +17729,215 @@
"comment": "candidate/evidence-supported SCI1 6-byte RX frame hypothesis using capture buffer H'F868-H'F86D; checksum byte H'F865 is validated against XOR seeded by H'005A"
}
],
"ram_roles": [
{
"kind": "candidate_ram_role",
"name": "post_tx_report_delay",
"address": 63936,
"address_hex": "H'F9C0",
"width_bits": 8,
"confidence": "candidate/evidence-supported",
"summary": "post_tx_report_delay at H'F9C0 is a candidate/evidence-supported RAM timer role; FRT1 OCIA tick ISR H'BEEA decrements it",
"caveat": "role name is evidence-supported from static references plus emulator-guided timer behavior, not a proved firmware symbol",
"evidence": [
{
"kind": "frt1_ocia_periodic_tick_isr",
"summary": "candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA",
"addresses": [
48874
],
"addresses_hex": [
"H'BEEA"
],
"instructions": [
"BCLR.B #5, @FRT1_TCSR"
],
"vector_address": 98,
"vector_address_hex": "H'0062",
"isr_address": 48874,
"isr_address_hex": "H'BEEA"
},
{
"kind": "post_tx_report_delay_tick_decrement",
"summary": "candidate post-TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR",
"addresses": [
48878,
48884
],
"addresses_hex": [
"H'BEEE",
"H'BEF4"
],
"instructions": [
"TST.B @H'F9C0",
"ADD:Q.B #-1, @H'F9C0"
],
"role_name": "post_tx_report_delay",
"ram_address": 63936,
"ram_address_hex": "H'F9C0",
"width_bits": 8,
"isr_address": 48874,
"isr_address_hex": "H'BEEA"
}
],
"evidence_addresses": {
"frt1_ocia_periodic_tick_isr": [
48874
],
"post_tx_report_delay_tick_decrement": [
48878,
48884
]
},
"evidence_addresses_hex": {
"frt1_ocia_periodic_tick_isr": [
"H'BEEA"
],
"post_tx_report_delay_tick_decrement": [
"H'BEEE",
"H'BEF4"
]
}
},
{
"kind": "candidate_ram_role",
"name": "secondary_tx_report_delay",
"address": 63937,
"address_hex": "H'F9C1",
"width_bits": 8,
"confidence": "candidate/evidence-supported",
"summary": "secondary_tx_report_delay at H'F9C1 is a candidate/evidence-supported RAM timer role; FRT1 OCIA tick ISR H'BEEA decrements it",
"caveat": "role name is evidence-supported from static references plus emulator-guided timer behavior, not a proved firmware symbol",
"evidence": [
{
"kind": "frt1_ocia_periodic_tick_isr",
"summary": "candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA",
"addresses": [
48874
],
"addresses_hex": [
"H'BEEA"
],
"instructions": [
"BCLR.B #5, @FRT1_TCSR"
],
"vector_address": 98,
"vector_address_hex": "H'0062",
"isr_address": 48874,
"isr_address_hex": "H'BEEA"
},
{
"kind": "secondary_tx_report_delay_tick_decrement",
"summary": "candidate secondary TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR",
"addresses": [
48888,
48894
],
"addresses_hex": [
"H'BEF8",
"H'BEFE"
],
"instructions": [
"TST.B @H'F9C1",
"ADD:Q.B #-1, @H'F9C1"
],
"role_name": "secondary_tx_report_delay",
"ram_address": 63937,
"ram_address_hex": "H'F9C1",
"width_bits": 8,
"isr_address": 48874,
"isr_address_hex": "H'BEEA"
}
],
"evidence_addresses": {
"frt1_ocia_periodic_tick_isr": [
48874
],
"secondary_tx_report_delay_tick_decrement": [
48888,
48894
]
},
"evidence_addresses_hex": {
"frt1_ocia_periodic_tick_isr": [
"H'BEEA"
],
"secondary_tx_report_delay_tick_decrement": [
"H'BEF8",
"H'BEFE"
]
}
},
{
"kind": "candidate_ram_role",
"name": "periodic_report_countdown",
"address": 63942,
"address_hex": "H'F9C6",
"width_bits": 16,
"confidence": "candidate/evidence-supported",
"summary": "periodic_report_countdown at H'F9C6 is a candidate/evidence-supported RAM timer role; FRT1 OCIA tick ISR H'BEEA decrements it",
"caveat": "role name is evidence-supported from static references plus emulator-guided timer behavior, not a proved firmware symbol",
"evidence": [
{
"kind": "frt1_ocia_periodic_tick_isr",
"summary": "candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA",
"addresses": [
48874
],
"addresses_hex": [
"H'BEEA"
],
"instructions": [
"BCLR.B #5, @FRT1_TCSR"
],
"vector_address": 98,
"vector_address_hex": "H'0062",
"isr_address": 48874,
"isr_address_hex": "H'BEEA"
},
{
"kind": "periodic_report_countdown_tick_decrement",
"summary": "candidate periodic report countdown is decremented by the FRT1 OCIA periodic tick ISR",
"addresses": [
48898,
48904
],
"addresses_hex": [
"H'BF02",
"H'BF08"
],
"instructions": [
"TST.W @H'F9C6",
"ADD:Q.W #-1, @H'F9C6"
],
"role_name": "periodic_report_countdown",
"ram_address": 63942,
"ram_address_hex": "H'F9C6",
"width_bits": 16,
"isr_address": 48874,
"isr_address_hex": "H'BEEA"
}
],
"evidence_addresses": {
"frt1_ocia_periodic_tick_isr": [
48874
],
"periodic_report_countdown_tick_decrement": [
48898,
48904
]
},
"evidence_addresses_hex": {
"frt1_ocia_periodic_tick_isr": [
"H'BEEA"
],
"periodic_report_countdown_tick_decrement": [
"H'BF02",
"H'BF08"
]
}
}
],
"evidence": [
{
"kind": "tx_buffer_region",
@@ -18094,6 +18336,89 @@
"XOR.B @H'F864, R0",
"CMP:G.B @H'F865, R0"
]
},
{
"kind": "frt1_ocia_periodic_tick_isr",
"summary": "candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA",
"addresses": [
48874
],
"addresses_hex": [
"H'BEEA"
],
"instructions": [
"BCLR.B #5, @FRT1_TCSR"
],
"vector_address": 98,
"vector_address_hex": "H'0062",
"isr_address": 48874,
"isr_address_hex": "H'BEEA"
},
{
"kind": "post_tx_report_delay_tick_decrement",
"summary": "candidate post-TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR",
"addresses": [
48878,
48884
],
"addresses_hex": [
"H'BEEE",
"H'BEF4"
],
"instructions": [
"TST.B @H'F9C0",
"ADD:Q.B #-1, @H'F9C0"
],
"role_name": "post_tx_report_delay",
"ram_address": 63936,
"ram_address_hex": "H'F9C0",
"width_bits": 8,
"isr_address": 48874,
"isr_address_hex": "H'BEEA"
},
{
"kind": "secondary_tx_report_delay_tick_decrement",
"summary": "candidate secondary TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR",
"addresses": [
48888,
48894
],
"addresses_hex": [
"H'BEF8",
"H'BEFE"
],
"instructions": [
"TST.B @H'F9C1",
"ADD:Q.B #-1, @H'F9C1"
],
"role_name": "secondary_tx_report_delay",
"ram_address": 63937,
"ram_address_hex": "H'F9C1",
"width_bits": 8,
"isr_address": 48874,
"isr_address_hex": "H'BEEA"
},
{
"kind": "periodic_report_countdown_tick_decrement",
"summary": "candidate periodic report countdown is decremented by the FRT1 OCIA periodic tick ISR",
"addresses": [
48898,
48904
],
"addresses_hex": [
"H'BF02",
"H'BF08"
],
"instructions": [
"TST.W @H'F9C6",
"ADD:Q.W #-1, @H'F9C6"
],
"role_name": "periodic_report_countdown",
"ram_address": 63942,
"ram_address_hex": "H'F9C6",
"width_bits": 16,
"isr_address": 48874,
"isr_address_hex": "H'BEEA"
}
],
"required_evidence": {
@@ -53154,7 +53479,7 @@
"register": "SCR",
"register_address": 65242,
"register_address_hex": "H'FEDA",
"comment": "disable SCI1 TX interrupt (TIE)",
"comment": "disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -53561,7 +53886,7 @@
"register": "SCR",
"register_address": 65266,
"register_address_hex": "H'FEF2",
"comment": "disable SCI2 TX interrupt (TIE)",
"comment": "disable SCI2 TX interrupt (TIE); gates TXI when hardware sets TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -158900,7 +159225,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 transmit data register empty flag (TDRE)",
"comment": "clear SCI1 TDRE after TDR write; TXI can fire again when hardware reasserts TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -158991,7 +159316,7 @@
"register": "SCR",
"register_address": 65242,
"register_address_hex": "H'FEDA",
"comment": "enable SCI1 TX interrupt (TIE)",
"comment": "enable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -159419,7 +159744,7 @@
"register": "SCR",
"register_address": 65242,
"register_address_hex": "H'FEDA",
"comment": "disable SCI1 TX interrupt (TIE)",
"comment": "disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -159913,7 +160238,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 transmit data register empty flag (TDRE)",
"comment": "clear SCI1 TDRE after TDR write; TXI can fire again when hardware reasserts TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -160134,7 +160459,7 @@
"register": "SCR",
"register_address": 65242,
"register_address_hex": "H'FEDA",
"comment": "disable SCI1 TX interrupt (TIE)",
"comment": "disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -162180,7 +162505,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 overrun error flag (ORER)",
"comment": "clear SCI1 ORER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -162286,7 +162611,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 framing error flag (FER)",
"comment": "clear SCI1 FER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -162392,7 +162717,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 parity error flag (PER)",
"comment": "clear SCI1 PER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -162522,7 +162847,7 @@
"register": "SSR",
"register_address": 65244,
"register_address_hex": "H'FEDC",
"comment": "clear SCI1 receive-data-full flag (RDRF)",
"comment": "clear SCI1 RDRF with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
"manual": [
"Manual/0900766b802125d0.md:15748 SCI register map for RDR/TDR/SCR/SSR",
"Manual/0900766b802125d0.md:15794 RDR stores received data and is CPU-readable",
@@ -175356,6 +175681,62 @@
],
"comment": "clear OCFA (bit 5) of FRT1_TCSR",
"valid": true,
"serial_reconstruction": [
{
"address": 48874,
"action": "serial_reconstruction_ram_role",
"role_name": "post_tx_report_delay",
"role_kind": "candidate_ram_role",
"role_address": 63936,
"role_address_hex": "H'F9C0",
"evidence": "frt1_ocia_periodic_tick_isr",
"evidence_summary": "candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA",
"evidence_addresses": [
48874
],
"evidence_addresses_hex": [
"H'BEEA"
],
"confidence": "candidate/evidence-supported",
"comment": "candidate/evidence-supported RAM role post_tx_report_delay at H'F9C0; evidence: candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA; confidence candidate/evidence-supported"
},
{
"address": 48874,
"action": "serial_reconstruction_ram_role",
"role_name": "secondary_tx_report_delay",
"role_kind": "candidate_ram_role",
"role_address": 63937,
"role_address_hex": "H'F9C1",
"evidence": "frt1_ocia_periodic_tick_isr",
"evidence_summary": "candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA",
"evidence_addresses": [
48874
],
"evidence_addresses_hex": [
"H'BEEA"
],
"confidence": "candidate/evidence-supported",
"comment": "candidate/evidence-supported RAM role secondary_tx_report_delay at H'F9C1; evidence: candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA; confidence candidate/evidence-supported"
},
{
"address": 48874,
"action": "serial_reconstruction_ram_role",
"role_name": "periodic_report_countdown",
"role_kind": "candidate_ram_role",
"role_address": 63942,
"role_address_hex": "H'F9C6",
"evidence": "frt1_ocia_periodic_tick_isr",
"evidence_summary": "candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA",
"evidence_addresses": [
48874
],
"evidence_addresses_hex": [
"H'BEEA"
],
"confidence": "candidate/evidence-supported",
"comment": "candidate/evidence-supported RAM role periodic_report_countdown at H'F9C6; evidence: candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA; confidence candidate/evidence-supported"
}
],
"dataflow": {
"block": 48874,
"changes": [
@@ -175402,6 +175783,28 @@
],
"comment": "",
"valid": true,
"serial_reconstruction": [
{
"address": 48878,
"action": "serial_reconstruction_ram_role",
"role_name": "post_tx_report_delay",
"role_kind": "candidate_ram_role",
"role_address": 63936,
"role_address_hex": "H'F9C0",
"evidence": "post_tx_report_delay_tick_decrement",
"evidence_summary": "candidate post-TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR",
"evidence_addresses": [
48878,
48884
],
"evidence_addresses_hex": [
"H'BEEE",
"H'BEF4"
],
"confidence": "candidate/evidence-supported",
"comment": "candidate/evidence-supported RAM role post_tx_report_delay at H'F9C0; evidence: candidate post-TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported"
}
],
"dataflow": {
"block": 48874,
"changes": [],
@@ -175462,6 +175865,28 @@
],
"comment": "",
"valid": true,
"serial_reconstruction": [
{
"address": 48884,
"action": "serial_reconstruction_ram_role",
"role_name": "post_tx_report_delay",
"role_kind": "candidate_ram_role",
"role_address": 63936,
"role_address_hex": "H'F9C0",
"evidence": "post_tx_report_delay_tick_decrement",
"evidence_summary": "candidate post-TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR",
"evidence_addresses": [
48878,
48884
],
"evidence_addresses_hex": [
"H'BEEE",
"H'BEF4"
],
"confidence": "candidate/evidence-supported",
"comment": "candidate/evidence-supported RAM role post_tx_report_delay at H'F9C0; evidence: candidate post-TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported"
}
],
"dataflow": {
"block": 48884,
"changes": [
@@ -175508,6 +175933,28 @@
],
"comment": "",
"valid": true,
"serial_reconstruction": [
{
"address": 48888,
"action": "serial_reconstruction_ram_role",
"role_name": "secondary_tx_report_delay",
"role_kind": "candidate_ram_role",
"role_address": 63937,
"role_address_hex": "H'F9C1",
"evidence": "secondary_tx_report_delay_tick_decrement",
"evidence_summary": "candidate secondary TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR",
"evidence_addresses": [
48888,
48894
],
"evidence_addresses_hex": [
"H'BEF8",
"H'BEFE"
],
"confidence": "candidate/evidence-supported",
"comment": "candidate/evidence-supported RAM role secondary_tx_report_delay at H'F9C1; evidence: candidate secondary TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported"
}
],
"dataflow": {
"block": 48888,
"changes": [
@@ -175581,6 +176028,28 @@
],
"comment": "",
"valid": true,
"serial_reconstruction": [
{
"address": 48894,
"action": "serial_reconstruction_ram_role",
"role_name": "secondary_tx_report_delay",
"role_kind": "candidate_ram_role",
"role_address": 63937,
"role_address_hex": "H'F9C1",
"evidence": "secondary_tx_report_delay_tick_decrement",
"evidence_summary": "candidate secondary TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR",
"evidence_addresses": [
48888,
48894
],
"evidence_addresses_hex": [
"H'BEF8",
"H'BEFE"
],
"confidence": "candidate/evidence-supported",
"comment": "candidate/evidence-supported RAM role secondary_tx_report_delay at H'F9C1; evidence: candidate secondary TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported"
}
],
"dataflow": {
"block": 48894,
"changes": [
@@ -175627,6 +176096,28 @@
],
"comment": "",
"valid": true,
"serial_reconstruction": [
{
"address": 48898,
"action": "serial_reconstruction_ram_role",
"role_name": "periodic_report_countdown",
"role_kind": "candidate_ram_role",
"role_address": 63942,
"role_address_hex": "H'F9C6",
"evidence": "periodic_report_countdown_tick_decrement",
"evidence_summary": "candidate periodic report countdown is decremented by the FRT1 OCIA periodic tick ISR",
"evidence_addresses": [
48898,
48904
],
"evidence_addresses_hex": [
"H'BF02",
"H'BF08"
],
"confidence": "candidate/evidence-supported",
"comment": "candidate/evidence-supported RAM role periodic_report_countdown at H'F9C6; evidence: candidate periodic report countdown is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported"
}
],
"dataflow": {
"block": 48898,
"changes": [
@@ -175700,6 +176191,28 @@
],
"comment": "",
"valid": true,
"serial_reconstruction": [
{
"address": 48904,
"action": "serial_reconstruction_ram_role",
"role_name": "periodic_report_countdown",
"role_kind": "candidate_ram_role",
"role_address": 63942,
"role_address_hex": "H'F9C6",
"evidence": "periodic_report_countdown_tick_decrement",
"evidence_summary": "candidate periodic report countdown is decremented by the FRT1 OCIA periodic tick ISR",
"evidence_addresses": [
48898,
48904
],
"evidence_addresses_hex": [
"H'BF02",
"H'BF08"
],
"confidence": "candidate/evidence-supported",
"comment": "candidate/evidence-supported RAM role periodic_report_countdown at H'F9C6; evidence: candidate periodic report countdown is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported"
}
],
"dataflow": {
"block": 48904,
"changes": [

View File

@@ -485,10 +485,10 @@ void vec_reset_1000(void)
PWM3_TCR = (uint8_t)(0x3B); /* 108B; MOV:G.B #H'3B, @PWM3_TCR; PWM3_TCR = H'3B (OE=0 OS=0 CKS2=0 CKS1=1 CKS0=1); refs PWM3_TCR; cycles=9 */
PWM3_DTR = (uint8_t)(0x7D); /* 1090; MOV:G.B #H'7D, @PWM3_DTR; PWM3_DTR = H'7D; refs PWM3_DTR; cycles=9 */
SCI1_SMR = (uint8_t)(0x24); /* 1095; MOV:G.B #H'24, @SCI1_SMR; SCI1_SMR = H'24 (C/A=0 CHR=0 PE=1 O/E=0 STOP=0 CKS1=0 CKS0=0; SCI async, 8-bit, even parity, 1 stop, clock phi); SCI1 SMR serial init for traced RS232/MAX202 path (H8 pin 66 P95/TXD to MAX202 pin 11; MAX202 pin 12 to H8 pin 67 P96/RXD); refs SCI1_SMR; cycles=9 */
SCI1_SCR = (uint8_t)(0x3C); /* 109A; MOV:G.B #H'3C, @SCI1_SCR; SCI1_SCR = H'3C (TIE=0 RIE=0 TE=1 RE=1 CKE1=0 CKE0=0; SCI enables TX,RX, internal clock); disable SCI1 TX interrupt (TIE); disable SCI1 receive and receive-error interrupts (RIE); enable SCI1 transmitter (TE); enable SCI1 receiver (RE); SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); refs SCI1_SCR; cycles=9 */
SCI1_SCR = (uint8_t)(0x3C); /* 109A; MOV:G.B #H'3C, @SCI1_SCR; SCI1_SCR = H'3C (TIE=0 RIE=0 TE=1 RE=1 CKE1=0 CKE0=0; SCI enables TX,RX, internal clock); disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE; disable SCI1 receive and receive-error interrupts (RIE); enable SCI1 transmitter (TE); enable SCI1 receiver (RE); SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); refs SCI1_SCR; cycles=9 */
SCI1_BRR = (uint8_t)(0x07); /* 109F; MOV:G.B #H'07, @SCI1_BRR; SCI1_BRR = H'07; SCI1 async 8-bit even parity 1 stop BRR N=7 CKS n=0; baud needs --clock-hz; SCI1 BRR serial init for traced RS232/MAX202 path (H8 pin 66 P95/TXD to MAX202 pin 11; MAX202 pin 12 to H8 pin 67 P96/RXD); refs SCI1_BRR; cycles=9 */
SCI2_SMR = (uint8_t)(0x24); /* 10A4; MOV:G.B #H'24, @SCI2_SMR; SCI2_SMR = H'24 (C/A=0 CHR=0 PE=1 O/E=0 STOP=0 CKS1=0 CKS0=0; SCI async, 8-bit, even parity, 1 stop, clock phi); SCI2 SMR write; not the traced MAX202 path; P9SCI2E=0 disables SCI2 pins P92/P93/P94, while the board trace is SCI1 P95/P96; refs SCI2_SMR; cycles=9 */
SCI2_SCR = (uint8_t)(0x0C); /* 10A9; MOV:G.B #H'0C, @SCI2_SCR; SCI2_SCR = H'0C (TIE=0 RIE=0 TE=0 RE=0 CKE1=0 CKE0=0; SCI enables none, internal clock); disable SCI2 TX interrupt (TIE); disable SCI2 receive and receive-error interrupts (RIE); disable SCI2 transmitter (TE); disable SCI2 receiver (RE); SCI2 SCR write; not the traced MAX202 path; P9SCI2E=0 disables SCI2 pins P92/P93/P94, while the board trace is SCI1 P95/P96; refs SCI2_SCR; cycles=9 */
SCI2_SCR = (uint8_t)(0x0C); /* 10A9; MOV:G.B #H'0C, @SCI2_SCR; SCI2_SCR = H'0C (TIE=0 RIE=0 TE=0 RE=0 CKE1=0 CKE0=0; SCI enables none, internal clock); disable SCI2 TX interrupt (TIE); gates TXI when hardware sets TDRE; disable SCI2 receive and receive-error interrupts (RIE); disable SCI2 transmitter (TE); disable SCI2 receiver (RE); SCI2 SCR write; not the traced MAX202 path; P9SCI2E=0 disables SCI2 pins P92/P93/P94, while the board trace is SCI1 P95/P96; refs SCI2_SCR; cycles=9 */
SCI2_BRR = (uint8_t)(0x07); /* 10AE; MOV:G.B #H'07, @SCI2_BRR; SCI2_BRR = H'07; SCI2 async 8-bit even parity 1 stop BRR N=7 CKS n=0; baud needs --clock-hz; SCI2 BRR write; not the traced MAX202 path; P9SCI2E=0 disables SCI2 pins P92/P93/P94, while the board trace is SCI1 P95/P96; refs SCI2_BRR; cycles=9 */
ADCSR = (uint8_t)(0x19); /* 10B3; MOV:G.B #H'19, @ADCSR; ADCSR = H'19 (ADF=0 ADIE=0 ADST=0 SCAN=1 CKS=1 CH2=0 CH1=0 CH0=1; A/D halt, scan AN0-AN1, 138-state max, ADI disabled); refs ADCSR; cycles=9 */
MEM8[0xFEE9] = (uint8_t)(0x7F); /* 10B8; MOV:G.B #H'7F, @H'FEE9; cycles=9 */
@@ -2854,8 +2854,8 @@ void loc_BA26(void)
R0 = (uint8_t)(MEM8[0xF858]); /* BA6E; MOV:G.B @H'F858, R0; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: TX buffer-region references cluster around H'F858-H'F85D; confidence high; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: initial SCI1 TDR send is supported by a read from H'F858; confidence high; refs ram_F858; cycles=7 */
SCI1_TDR = (uint8_t)(R0); /* BA72; MOV:G.B R0, @SCI1_TDR; SCI1_TDR; write RS232/SCI byte to SCI1 TDR for transmission; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: initial SCI1 TDR send is supported by a read from H'F858; confidence high; SCI1 TDR write transmits on traced RS232/MAX202 path: H8 pin 66 P95/TXD -> MAX202 pin 11; refs SCI1_TDR; cycles=7 */
MEM8[0xF9C2] = (uint8_t)(0x01); /* BA76; MOV:G.B #H'01, @H'F9C2; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: write evidence supports TX index H'F9C2 being initialized to 1; confidence high; refs ram_F9C2; cycles=9 */
SCI1_SSR &= ~BIT(7); /* BA7B; BCLR.B #7, @SCI1_SSR; clear TDRE (bit 7) of SCI1_SSR; clear SCI1 transmit data register empty flag (TDRE); SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; refs SCI1_SSR; cycles=8 */
SCI1_SCR |= BIT(7); /* BA7F; BSET.B #7, @SCI1_SCR; set TIE (bit 7) of SCI1_SCR; enable SCI1 TX interrupt (TIE); SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); refs SCI1_SCR; cycles=8 */
SCI1_SSR &= ~BIT(7); /* BA7B; BCLR.B #7, @SCI1_SSR; clear TDRE (bit 7) of SCI1_SSR; clear SCI1 TDRE after TDR write; TXI can fire again when hardware reasserts TDRE; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; refs SCI1_SSR; cycles=8 */
SCI1_SCR |= BIT(7); /* BA7F; BSET.B #7, @SCI1_SCR; set TIE (bit 7) of SCI1_SCR; enable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE; SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); refs SCI1_SCR; cycles=8 */
return; /* BA83; RTS; cycles=13 */
}
@@ -2870,7 +2870,7 @@ void vec_sci1_txi_BA84(void)
if (Z) goto loc_BAA9; /* BA94; BEQ loc_BAA9; cycles=3/7 nt/t */
MEM8[0xFAA2] &= ~BIT(3); /* BA96; BCLR.B #3, @H'FAA2; refs ram_FAA2; cycles=9 */
MEM8[0xFAA3] = 0; /* BA9A; CLR.B @H'FAA3; refs ram_FAA3; cycles=9 */
SCI1_SCR &= ~BIT(7); /* BA9E; BCLR.B #7, @SCI1_SCR; clear TIE (bit 7) of SCI1_SCR; disable SCI1 TX interrupt (TIE); SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); refs SCI1_SCR; cycles=9 */
SCI1_SCR &= ~BIT(7); /* BA9E; BCLR.B #7, @SCI1_SCR; clear TIE (bit 7) of SCI1_SCR; disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE; SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); refs SCI1_SCR; cycles=9 */
MEM8[0xF9C0] = (uint8_t)(0x1F); /* BAA2; MOV:G.B #H'1F, @H'F9C0; refs ram_F9C0; cycles=9 */
goto loc_BAF1; /* BAA7; BRA loc_BAF1; cycles=8 */
loc_BAA9:
@@ -2880,11 +2880,11 @@ loc_BAA9:
R0 = (uint8_t)(MEM8[R0 - 0x07A8]); /* BAB1; MOV:G.B @(-H'07A8,R0), R0; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: candidate TX ISR sends SCI1 TDR from indexed H'F858 buffer; confidence high; cycles=6 */
SCI1_TDR = (uint8_t)(R0); /* BAB5; MOV:G.B R0, @SCI1_TDR; SCI1_TDR; write RS232/SCI byte to SCI1 TDR for transmission; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: candidate TX ISR sends SCI1 TDR from indexed H'F858 buffer; confidence high; SCI1 TDR write transmits on traced RS232/MAX202 path: H8 pin 66 P95/TXD -> MAX202 pin 11; refs SCI1_TDR; cycles=6 */
R0 = (uint16_t)(MEM16[R7++]); /* BAB9; MOV:G.W @R7+, R0; cycles=6 */
SCI1_SSR &= ~BIT(7); /* BABB; BCLR.B #7, @SCI1_SSR; clear TDRE (bit 7) of SCI1_SSR; clear SCI1 transmit data register empty flag (TDRE); SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; refs SCI1_SSR; cycles=8 */
SCI1_SSR &= ~BIT(7); /* BABB; BCLR.B #7, @SCI1_SSR; clear TDRE (bit 7) of SCI1_SSR; clear SCI1 TDRE after TDR write; TXI can fire again when hardware reasserts TDRE; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; refs SCI1_SSR; cycles=8 */
MEM8[0xF9C2] += (uint8_t)(1); /* BABF; ADD:Q.B #1, @H'F9C2; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: candidate TX ISR increments TX index H'F9C2; confidence high; refs ram_F9C2; cycles=8 */
set_flags_cmp8(MEM8[0xF9C2], 0x06); /* BAC3; CMP:G.B #H'06, @H'F9C2; candidate/evidence-supported SCI1 6-byte TX frame; H'F858-H'F85D, checksum H'F85D seeded by H'005A; evidence: candidate TX ISR compares TX index to frame length 6; confidence high; refs ram_F9C2; cycles=6 */
if (!Z) goto loc_BAF1; /* BAC8; BNE loc_BAF1; cycles=3/7 nt/t */
SCI1_SCR &= ~BIT(7); /* BACA; BCLR.B #7, @SCI1_SCR; clear TIE (bit 7) of SCI1_SCR; disable SCI1 TX interrupt (TIE); SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); refs SCI1_SCR; cycles=9 */
SCI1_SCR &= ~BIT(7); /* BACA; BCLR.B #7, @SCI1_SCR; clear TIE (bit 7) of SCI1_SCR; disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE; SCI1 SCR write TE=1 RE=1; TE/RE select the traced RS232/MAX202 pins (P95/TXD pin 66 to MAX202 pin 11, P96/RXD pin 67 to MAX202 pin 12); refs SCI1_SCR; cycles=9 */
set_flags_btst(MEM8[0xF795], 6); /* BACE; BTST.B #6, @H'F795; refs ram_F795; cycles=7 */
if (!Z) goto loc_BAE8; /* BAD2; BNE loc_BAE8; cycles=3/7 nt/t */
set_flags_btst(MEM8[0xF791], 7); /* BAD4; BTST.B #7, @H'F791; refs ram_F791; cycles=7 */
@@ -2945,16 +2945,16 @@ void vec_sci1_eri_BB57(void)
{
/* vector sources: sci1_eri */
MEM8[0xFAA4] |= BIT(7); /* BB57; BSET.B #7, @H'FAA4; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; refs ram_FAA4; cycles=8 */
SCI1_SSR &= ~BIT(5); /* BB5B; BCLR.B #5, @SCI1_SSR; clear ORER (bit 5) of SCI1_SSR; clear SCI1 overrun error flag (ORER); candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; refs SCI1_SSR; cycles=8 */
SCI1_SSR &= ~BIT(4); /* BB5F; BCLR.B #4, @SCI1_SSR; clear FER (bit 4) of SCI1_SSR; clear SCI1 framing error flag (FER); candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; refs SCI1_SSR; cycles=8 */
SCI1_SSR &= ~BIT(3); /* BB63; BCLR.B #3, @SCI1_SSR; clear PER (bit 3) of SCI1_SSR; clear SCI1 parity error flag (PER); candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; refs SCI1_SSR; cycles=8 */
SCI1_SSR &= ~BIT(5); /* BB5B; BCLR.B #5, @SCI1_SSR; clear ORER (bit 5) of SCI1_SSR; clear SCI1 ORER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; refs SCI1_SSR; cycles=8 */
SCI1_SSR &= ~BIT(4); /* BB5F; BCLR.B #4, @SCI1_SSR; clear FER (bit 4) of SCI1_SSR; clear SCI1 FER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; refs SCI1_SSR; cycles=8 */
SCI1_SSR &= ~BIT(3); /* BB63; BCLR.B #3, @SCI1_SSR; clear PER (bit 3) of SCI1_SSR; clear SCI1 PER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; refs SCI1_SSR; cycles=8 */
}
void vec_sci1_rxi_BB67(void)
{
/* vector sources: sci1_rxi */
push_registers(R0, R1); /* BB67; STM.W {R0,R1}, @-SP; cycles=12 */
SCI1_SSR &= ~BIT(6); /* BB69; BCLR.B #6, @SCI1_SSR; clear RDRF (bit 6) of SCI1_SSR; clear SCI1 receive-data-full flag (RDRF); candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: ROM clears SCI1 SSR.RDRF before reading SCI1_RDR; preserve this observed ordering even though the manual describes the canonical RDR-read then RDRF-clear sequence; confidence high; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; refs SCI1_SSR; cycles=8 */
SCI1_SSR &= ~BIT(6); /* BB69; BCLR.B #6, @SCI1_SSR; clear RDRF (bit 6) of SCI1_SSR; clear SCI1 RDRF with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: ROM clears SCI1 SSR.RDRF before reading SCI1_RDR; preserve this observed ordering even though the manual describes the canonical RDR-read then RDRF-clear sequence; confidence high; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 SSR status for traced RS232/MAX202 path; TDRE/RDRF/error flags gate TDR/RDR use; refs SCI1_SSR; cycles=8 */
R0 = (uint8_t)(SCI1_RDR); /* BB6D; MOV:G.B @SCI1_RDR, R0; read SCI1 received byte from RDR; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 RX ISR reads a byte from SCI1_RDR; confidence high; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: ROM clears SCI1 SSR.RDRF before reading SCI1_RDR; preserve this observed ordering even though the manual describes the canonical RDR-read then RDRF-clear sequence; confidence high; candidate/evidence-supported SCI1 6-byte RX frame; capture H'F868-H'F86D, validate H'F860-H'F865, checksum H'F865 seeded by H'005A; evidence: SCI1 ERI latches FAA4.bit7, clears ORER/FER/PER, then falls through into the same RXI byte-capture path; confidence high; SCI1 RDR read receives from traced RS232/MAX202 path: MAX202 pin 12 -> H8 pin 67 P96/RXD; refs SCI1_RDR; cycles=6 */
set_flags_tst8(MEM8[0xF9C1]); /* BB71; TST.B @H'F9C1; refs ram_F9C1; cycles=6 */
if (!Z) goto loc_BB7D; /* BB75; BNE loc_BB7D; cycles=3/8 nt/t */
@@ -3284,18 +3284,18 @@ loc_BEE8:
void vec_frt1_ocia_BEEA(void)
{
/* vector sources: frt1_ocia */
FRT1_TCSR &= ~BIT(5); /* BEEA; BCLR.B #5, @FRT1_TCSR; clear OCFA (bit 5) of FRT1_TCSR; refs FRT1_TCSR; cycles=9 */
set_flags_tst8(MEM8[0xF9C0]); /* BEEE; TST.B @H'F9C0; refs ram_F9C0; cycles=7 */
FRT1_TCSR &= ~BIT(5); /* BEEA; BCLR.B #5, @FRT1_TCSR; clear OCFA (bit 5) of FRT1_TCSR; candidate/evidence-supported RAM role post_tx_report_delay at H'F9C0; evidence: candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA; confidence candidate/evidence-supported; candidate/evidence-supported RAM role secondary_tx_report_delay at H'F9C1; evidence: candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA; confidence candidate/evidence-supported; candidate/evidence-supported RAM role periodic_report_countdown at H'F9C6; evidence: candidate periodic tick ISR at H'BEEA for FRT1 OCIA vector H'0062 clears OCFA; confidence candidate/evidence-supported; refs FRT1_TCSR; cycles=9 */
set_flags_tst8(MEM8[0xF9C0]); /* BEEE; TST.B @H'F9C0; candidate/evidence-supported RAM role post_tx_report_delay at H'F9C0; evidence: candidate post-TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported; refs ram_F9C0; cycles=7 */
if (!Z) { /* BEF2; BEQ loc_BEF8; cycles=3/7 nt/t */
MEM8[0xF9C0] += (uint8_t)(-1); /* BEF4; ADD:Q.B #-1, @H'F9C0; refs ram_F9C0; cycles=9 */
MEM8[0xF9C0] += (uint8_t)(-1); /* BEF4; ADD:Q.B #-1, @H'F9C0; candidate/evidence-supported RAM role post_tx_report_delay at H'F9C0; evidence: candidate post-TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported; refs ram_F9C0; cycles=9 */
}
set_flags_tst8(MEM8[0xF9C1]); /* BEF8; TST.B @H'F9C1; refs ram_F9C1; cycles=7 */
set_flags_tst8(MEM8[0xF9C1]); /* BEF8; TST.B @H'F9C1; candidate/evidence-supported RAM role secondary_tx_report_delay at H'F9C1; evidence: candidate secondary TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported; refs ram_F9C1; cycles=7 */
if (!Z) { /* BEFC; BEQ loc_BF02; cycles=3/7 nt/t */
MEM8[0xF9C1] += (uint8_t)(-1); /* BEFE; ADD:Q.B #-1, @H'F9C1; refs ram_F9C1; cycles=9 */
MEM8[0xF9C1] += (uint8_t)(-1); /* BEFE; ADD:Q.B #-1, @H'F9C1; candidate/evidence-supported RAM role secondary_tx_report_delay at H'F9C1; evidence: candidate secondary TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported; refs ram_F9C1; cycles=9 */
}
set_flags_tst16(MEM16[0xF9C6]); /* BF02; TST.W @H'F9C6; refs ram_F9C6; cycles=7 */
set_flags_tst16(MEM16[0xF9C6]); /* BF02; TST.W @H'F9C6; candidate/evidence-supported RAM role periodic_report_countdown at H'F9C6; evidence: candidate periodic report countdown is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported; refs ram_F9C6; cycles=7 */
if (!Z) { /* BF06; BEQ loc_BF0C; cycles=3/7 nt/t */
MEM16[0xF9C6] += (uint16_t)(-1); /* BF08; ADD:Q.W #-1, @H'F9C6; refs ram_F9C6; cycles=9 */
MEM16[0xF9C6] += (uint16_t)(-1); /* BF08; ADD:Q.W #-1, @H'F9C6; candidate/evidence-supported RAM role periodic_report_countdown at H'F9C6; evidence: candidate periodic report countdown is decremented by the FRT1 OCIA periodic tick ISR; confidence candidate/evidence-supported; refs ram_F9C6; cycles=9 */
}
set_flags_btst(MEM8[0xF6F6], 7); /* BF0C; BTST.B #7, @H'F6F6; refs ram_F6F6; cycles=7 */
if (Z) goto loc_BF22; /* BF10; BEQ loc_BF22; cycles=3/7 nt/t */

View File

@@ -498,6 +498,85 @@
],
"summary": "Requires FAA2 == 0, allows the FAA5.bit7 path only when F9C3 == 0, then requires F9C0 == 0 before BSR loc_BAF2.",
"title": "loc_3FD3 gate into loc_BAF2"
},
"timer_tick_evidence": {
"candidate_timer_roles": [
{
"address": 63936,
"address_hex": "H'F9C0",
"evidence_address_hex": "H'BEF4",
"role": "candidate post-TX/report delay countdown"
},
{
"address": 63937,
"address_hex": "H'F9C1",
"evidence_address_hex": "H'BEFE",
"role": "candidate secondary delay countdown"
},
{
"address": 63942,
"address_hex": "H'F9C6",
"evidence_address_hex": "H'BF08",
"role": "candidate periodic report/heartbeat countdown"
}
],
"handler_address_hex": "H'BEEA",
"items": [
{
"address": 48874,
"address_hex": "H'BEEA",
"present": true,
"targets_hex": [],
"text": "BCLR.B #5, @FRT1_TCSR"
},
{
"address": 48878,
"address_hex": "H'BEEE",
"present": true,
"targets_hex": [],
"text": "TST.B @H'F9C0"
},
{
"address": 48884,
"address_hex": "H'BEF4",
"present": true,
"targets_hex": [],
"text": "ADD:Q.B #-1, @H'F9C0"
},
{
"address": 48888,
"address_hex": "H'BEF8",
"present": true,
"targets_hex": [],
"text": "TST.B @H'F9C1"
},
{
"address": 48894,
"address_hex": "H'BEFE",
"present": true,
"targets_hex": [],
"text": "ADD:Q.B #-1, @H'F9C1"
},
{
"address": 48898,
"address_hex": "H'BF02",
"present": true,
"targets_hex": [],
"text": "TST.W @H'F9C6"
},
{
"address": 48904,
"address_hex": "H'BF08",
"present": true,
"targets_hex": [],
"text": "ADD:Q.W #-1, @H'F9C6"
}
],
"present": true,
"summary": "Static evidence links vector H'0062 to the FRT1 OCIA handler at H'BEEA; the handler clears FRT1_TCSR.OCFA and conditionally decrements H'F9C0, H'F9C1, and H'F9C6.",
"title": "FRT1 OCIA periodic tick countdowns",
"vector_address_hex": "H'0062",
"vector_target_label": "vec_frt1_ocia_BEEA"
}
},
"kind": "serial_gate",
@@ -1047,6 +1126,87 @@
],
"write_count": 7
},
{
"accesses": [
{
"access": "write",
"address": 47853,
"address_hex": "H'BAED",
"function": "vec_sci1_txi_BA84",
"text": "CLR.B @H'F9C1"
},
{
"access": "read",
"address": 47985,
"address_hex": "H'BB71",
"function": "vec_sci1_rxi_BB67",
"text": "TST.B @H'F9C1"
},
{
"access": "write",
"address": 48035,
"address_hex": "H'BBA3",
"function": "vec_sci1_rxi_BB67",
"text": "MOV:G.B #H'05, @H'F9C1"
},
{
"access": "read",
"address": 48888,
"address_hex": "H'BEF8",
"function": "vec_frt1_ocia_BEEA",
"text": "TST.B @H'F9C1"
},
{
"access": "read_write",
"address": 48894,
"address_hex": "H'BEFE",
"function": "vec_frt1_ocia_BEEA",
"text": "ADD:Q.B #-1, @H'F9C1"
}
],
"address": 63937,
"address_hex": "H'F9C1",
"read_count": 2,
"read_write_count": 1,
"sample_accesses": [
{
"access": "write",
"address": 47853,
"address_hex": "H'BAED",
"function": "vec_sci1_txi_BA84",
"text": "CLR.B @H'F9C1"
},
{
"access": "read",
"address": 47985,
"address_hex": "H'BB71",
"function": "vec_sci1_rxi_BB67",
"text": "TST.B @H'F9C1"
},
{
"access": "write",
"address": 48035,
"address_hex": "H'BBA3",
"function": "vec_sci1_rxi_BB67",
"text": "MOV:G.B #H'05, @H'F9C1"
},
{
"access": "read",
"address": 48888,
"address_hex": "H'BEF8",
"function": "vec_frt1_ocia_BEEA",
"text": "TST.B @H'F9C1"
},
{
"access": "read_write",
"address": 48894,
"address_hex": "H'BEFE",
"function": "vec_frt1_ocia_BEEA",
"text": "ADD:Q.B #-1, @H'F9C1"
}
],
"write_count": 2
},
{
"accesses": [
{
@@ -1823,6 +1983,11 @@
"address_hex": "H'F9C0",
"symbol": "ram_F9C0"
},
{
"address": 63937,
"address_hex": "H'F9C1",
"symbol": "ram_F9C1"
},
{
"address": 63939,
"address_hex": "H'F9C3",

View File

@@ -72,6 +72,19 @@ Evidence:
- H'BDF7: BCLR.B #7, @H'F9B5
- H'BDFB: CLR.B @H'FAA3
- H'BDFF: CLR.B @H'FAA2
- FRT1 OCIA periodic tick countdowns: present
Static evidence links vector H'0062 to the FRT1 OCIA handler at H'BEEA; the handler clears FRT1_TCSR.OCFA and conditionally decrements H'F9C0, H'F9C1, and H'F9C6.
- H'BEEA: BCLR.B #5, @FRT1_TCSR
- H'BEEE: TST.B @H'F9C0
- H'BEF4: ADD:Q.B #-1, @H'F9C0
- H'BEF8: TST.B @H'F9C1
- H'BEFE: ADD:Q.B #-1, @H'F9C1
- H'BF02: TST.W @H'F9C6
- H'BF08: ADD:Q.W #-1, @H'F9C6
Candidate timer roles:
- H'F9C0: candidate post-TX/report delay countdown
- H'F9C1: candidate secondary delay countdown
- H'F9C6: candidate periodic report/heartbeat countdown
State address readers/writers:
- H'F9B0: reads=4 writes=1 read/write=4
@@ -84,6 +97,8 @@ State address readers/writers:
H'2806 read MOV:G.B @H'F9B9, R1; H'2822 write MOV:G.B R1, @H'F9B9; H'3E9E read MOV:G.B @H'F9B9, R0; H'BE70 read MOV:G.B @H'F9B9, R3
- H'F9C0: reads=3 writes=7 read/write=1
H'3FE5 read TST.B @H'F9C0; H'BA26 read TST.B @H'F9C0; H'BA2C write MOV:G.B #H'64, @H'F9C0; H'BAA2 write MOV:G.B #H'1F, @H'F9C0; H'BADA write MOV:G.B #H'09, @H'F9C0; H'BAE1 write MOV:G.B #H'09, @H'F9C0
- H'F9C1: reads=2 writes=2 read/write=1
H'BAED write CLR.B @H'F9C1; H'BB71 read TST.B @H'F9C1; H'BBA3 write MOV:G.B #H'05, @H'F9C1; H'BEF8 read TST.B @H'F9C1; H'BEFE read_write ADD:Q.B #-1, @H'F9C1
- H'F9C3: reads=6 writes=4 read/write=0
H'3FDF read TST.B @H'F9C3; H'4052 read TST.B @H'F9C3; H'BA90 read TST.B @H'F9C3; H'BB77 write CLR.B @H'F9C3; H'BB7D read CMP:G.B #H'05, @H'F9C3; H'BB8A read MOV:G.B @H'F9C3, R1
- H'F9C5: reads=2 writes=2 read/write=1

View File

@@ -84,9 +84,14 @@ extern volatile u8 MEM8[0x10000];
#define SCI_SSR_FER 0x10u
#define SCI_SSR_PER 0x08u
#define TX_FRAME_LENGTH 6u
#define SCI1_TX_FRAME_LENGTH 6u
#define SCI1_TX_FRAME_BASE 0xF858u
#define SCI1_TX_FRAME_BYTE(n) MEM8[(u16)(SCI1_TX_FRAME_BASE + (n))]
#define SCI1_TX_FRAME_CHECKSUM SCI1_TX_FRAME_BYTE(5u)
#define SCI1_TX_INDEX MEM8[0xF9C2u]
#define TX_FRAME_LENGTH SCI1_TX_FRAME_LENGTH
#define TX_FRAME(n) MEM8[(u16)(0xF858u + (n))]
#define TX_INDEX MEM8[0xF9C2u]
#define TX_INDEX SCI1_TX_INDEX
#define RX_FRAME_LENGTH 6u
#define RX_CAPTURE(n) MEM8[(u16)(0xF868u + (n))]
@@ -204,6 +209,11 @@ extern volatile u8 MEM8[0x10000];
* - FAA3 mask H'80: Candidate bit/mask that marks an autonomous report pending.
* - BED5 resend path: Candidate periodic resend path feeding the TX staging/send-builder flow.
* - evidence: H'BB46, H'BEC5, H'BB4C, H'BB51, H'BECB, H'BED5
* interrupt/timer architecture candidate:
* - FRT1 OCIA H'BEEA appears to be a periodic tick ISR for serial gate/cadence counters.
* - H'F9C0 tx_report_gate_counter_candidate: candidate gate counter used before entering the report builder.
* - H'F9C1 rx_interbyte_timeout_candidate: candidate RX interbyte timeout counter.
* - H'F9C6 periodic_resend_cadence_counter_candidate: candidate periodic resend/heartbeat cadence counter.
*/
static u8 sci1_rx_candidate_command(void)
@@ -256,6 +266,26 @@ static bool sci1_candidate_periodic_resend_gate_open(void)
return pending && period_elapsed && resend_countdown_active;
}
void frt1_ocia_candidate_tick_isr(void)
{
/* Candidate periodic tick at H'BEEA: decrement nonzero serial gate/cadence counters. */
/* TX_REPORT_GATE_COUNTER_CANDIDATE: candidate gate counter used before entering the report builder. */
if (MEM8[0xF9C0u] != 0u) {
MEM8[0xF9C0u] = (u8)(MEM8[0xF9C0u] - 1u);
}
/* RX_INTERBYTE_TIMEOUT_CANDIDATE: candidate RX interbyte timeout counter. */
if (MEM8[0xF9C1u] != 0u) {
MEM8[0xF9C1u] = (u8)(MEM8[0xF9C1u] - 1u);
}
/* PERIODIC_RESEND_CADENCE_COUNTER_CANDIDATE: candidate periodic resend/heartbeat cadence counter. */
if (MEM8[0xF9C6u] != 0u) {
MEM8[0xF9C6u] = (u8)(MEM8[0xF9C6u] - 1u);
}
}
void sci1_process_candidate_protocol_command(void)
{
u8 command = sci1_rx_candidate_command();
@@ -359,6 +389,7 @@ void sci1_tx_start_candidate_frame(void)
/* wait for transmit data register empty */
}
/* First byte is sent synchronously; TIE enables TXI for the remaining bytes. */
SCI1_TDR = TX_FRAME(0);
TX_INDEX = 1u;
SCI1_SSR &= (u8)~SCI_SSR_TDRE;
@@ -367,6 +398,11 @@ void sci1_tx_start_candidate_frame(void)
void sci1_txi_candidate_isr(void)
{
/* TXI runs after hardware reasserts SSR.TDRE for the next transmit byte. */
if ((SCI1_SSR & SCI_SSR_TDRE) == 0u) {
return;
}
if (TX_INDEX < TX_FRAME_LENGTH) {
SCI1_TDR = TX_FRAME(TX_INDEX);
TX_INDEX = (u8)(TX_INDEX + 1u);

View File

@@ -275,6 +275,11 @@ def _serial_reconstruction_lines(serial_reconstruction: dict[str, object] | None
f"checksum {candidate['checksum_address_hex']} seeded by {candidate['checksum_seed_hex']} "
f"(confidence {confidence} {score})",
)
tx_path = candidate.get("tx_path")
if isinstance(tx_path, dict):
lines.append(
f"; TX path: {tx_path.get('summary', 'interrupt-driven TXI path')}",
)
elif kind == "candidate_sci1_rx_frame":
lines.append(
f"; RX candidate: {candidate['frame_length']} bytes "
@@ -286,6 +291,17 @@ def _serial_reconstruction_lines(serial_reconstruction: dict[str, object] | None
caveat = candidate.get("caveat")
if caveat:
lines.append(f"; caveat: {caveat}")
ram_roles = serial_reconstruction.get("ram_roles", [])
if isinstance(ram_roles, list) and ram_roles:
lines.append("; Serial RAM role candidates")
for role in ram_roles:
if not isinstance(role, dict):
continue
address_text = str(role.get("address_hex") or h16(int(role.get("address") or 0)))
lines.append(
f"; {address_text}: "
f"{role.get('name', 'ram_role')} - {role.get('summary', '')}",
)
lines.append("")
return lines

View File

@@ -61,11 +61,26 @@ SSR_FLAGS = {
}
SSR_CLEAR_ACTIONS = {
7: ("clear_tdre", "clear {channel} transmit data register empty flag (TDRE)"),
6: ("clear_rdrf", "clear {channel} receive-data-full flag (RDRF)"),
5: ("clear_orer", "clear {channel} overrun error flag (ORER)"),
4: ("clear_fer", "clear {channel} framing error flag (FER)"),
3: ("clear_per", "clear {channel} parity error flag (PER)"),
7: (
"clear_tdre",
"clear {channel} TDRE after TDR write; TXI can fire again when hardware reasserts TDRE",
),
6: (
"clear_rdrf",
"clear {channel} RDRF with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
),
5: (
"clear_orer",
"clear {channel} ORER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
),
4: (
"clear_fer",
"clear {channel} FER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
),
3: (
"clear_per",
"clear {channel} PER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
),
}
@@ -263,7 +278,10 @@ def _scr_bit_event(
verb = "enable" if enabled else "disable"
action_noun = noun.replace("/", "_").replace(" ", "_").lower()
if bit == 7:
comment = f"{verb} {register.channel} TX interrupt (TIE)"
comment = (
f"{verb} {register.channel} TX interrupt (TIE); "
"gates TXI when hardware sets TDRE"
)
elif bit == 6:
comment = f"{verb} {register.channel} receive and receive-error interrupts (RIE)"
elif bit == 5:

View File

@@ -17,6 +17,7 @@ KEY_STATE_ADDRESSES: tuple[int, ...] = (
0xF9B5,
0xF9B9,
0xF9C0,
0xF9C1,
0xF9C3,
0xF9C5,
0xF9C6,
@@ -51,6 +52,7 @@ def analyze_serial_gate(payload: dict[str, Any]) -> JsonObject:
"queue_send_gate_loc_BAF2": _queue_send_gate(by_address),
"resend_gate_path": _resend_gate_path(by_address),
"rx_session_maintenance": _rx_session_maintenance(by_address),
"timer_tick_evidence": _timer_tick_evidence(payload, by_address),
}
access_summary = _state_access_summary(instructions, labels)
@@ -94,6 +96,11 @@ def format_text_report(analysis: dict[str, Any]) -> str:
lines.append(f" {summary}")
for item in section.get("items", []):
lines.append(f" - {item['address_hex']}: {item['text']}")
roles = section.get("candidate_timer_roles", [])
if roles:
lines.append(" Candidate timer roles:")
for role in roles:
lines.append(f" - {role['address_hex']}: {role['role']}")
lines.extend(["", "State address readers/writers:"])
for entry in analysis.get("state_accesses", []):
@@ -266,6 +273,53 @@ def _rx_session_maintenance(by_address: dict[int, JsonObject]) -> JsonObject:
}
def _timer_tick_evidence(payload: dict[str, Any], by_address: dict[int, JsonObject]) -> JsonObject:
vector = _vector_entry(payload, 0x0062, "frt1_ocia")
handler = _int_field(vector, "target") if vector else None
if handler is None:
handler = 0xBEEA
addresses = [handler, 0xBEEE, 0xBEF4, 0xBEF8, 0xBEFE, 0xBF02, 0xBF08]
has_vector = vector is not None and _int_field(vector, "target") == handler
has_handler_clear = _instruction_mentions(by_address.get(handler), ("FRT1_TCSR", "#5"))
decrement_addresses = (0xBEF4, 0xBEFE, 0xBF08)
has_decrements = all(
address in by_address and _access_kind(by_address[address], state_address) == "read_write"
for address, state_address in zip(decrement_addresses, (0xF9C0, 0xF9C1, 0xF9C6))
)
return {
"title": "FRT1 OCIA periodic tick countdowns",
"present": bool((has_vector or has_handler_clear) and has_decrements),
"summary": (
"Static evidence links vector H'0062 to the FRT1 OCIA handler at H'BEEA; the handler "
"clears FRT1_TCSR.OCFA and conditionally decrements H'F9C0, H'F9C1, and H'F9C6."
),
"vector_address_hex": h16(0x0062),
"handler_address_hex": h16(handler),
"vector_target_label": str(vector.get("target_label", "")) if vector else "",
"items": _items(by_address, addresses),
"candidate_timer_roles": [
{
"address": 0xF9C0,
"address_hex": h16(0xF9C0),
"role": "candidate post-TX/report delay countdown",
"evidence_address_hex": h16(0xBEF4),
},
{
"address": 0xF9C1,
"address_hex": h16(0xF9C1),
"role": "candidate secondary delay countdown",
"evidence_address_hex": h16(0xBEFE),
},
{
"address": 0xF9C6,
"address_hex": h16(0xF9C6),
"role": "candidate periodic report/heartbeat countdown",
"evidence_address_hex": h16(0xBF08),
},
],
}
def _state_access_summary(instructions: list[JsonObject], labels: dict[int, str]) -> list[JsonObject]:
result: list[JsonObject] = []
for state_address in KEY_STATE_ADDRESSES:
@@ -333,6 +387,32 @@ def _has_all(by_address: dict[int, JsonObject], addresses: tuple[int, ...]) -> b
return all(address in by_address for address in addresses)
def _vector_entry(payload: dict[str, Any], address: int, name: str) -> JsonObject | None:
vectors = payload.get("vectors", [])
if not isinstance(vectors, list):
return None
for vector in vectors:
if not isinstance(vector, dict):
continue
if _int_field(vector, "address") == address or str(vector.get("name", "")).lower() == name:
return vector
return None
def _int_field(payload: JsonObject | None, key: str, default: int | None = None) -> int | None:
if not isinstance(payload, dict):
return default
value = payload.get(key)
return value if isinstance(value, int) else default
def _instruction_mentions(ins: JsonObject | None, fragments: tuple[str, ...]) -> bool:
if not isinstance(ins, dict):
return False
text = f"{ins.get('text', '')} {ins.get('operands', '')} {ins.get('comment', '')}".upper()
return all(fragment.upper() in text for fragment in fragments)
def _text(by_address: dict[int, JsonObject], address: int) -> str:
return str(by_address.get(address, {}).get("text", "<missing>"))

View File

@@ -301,11 +301,17 @@ def _declarations(tx_candidate: JsonObject | None, rx_candidate: JsonObject | No
tx_start = _int_field(tx_candidate, "buffer_start", 0xF858)
tx_index = _int_field(tx_candidate, "tx_index_address", 0xF9C2)
length = _int_field(tx_candidate, "frame_length", 6)
checksum_index = max(length - 1, 0)
lines.extend(
[
f"#define TX_FRAME_LENGTH {length}u",
f"#define SCI1_TX_FRAME_LENGTH {length}u",
f"#define SCI1_TX_FRAME_BASE {_c_hex(tx_start)}",
"#define SCI1_TX_FRAME_BYTE(n) MEM8[(u16)(SCI1_TX_FRAME_BASE + (n))]",
f"#define SCI1_TX_FRAME_CHECKSUM SCI1_TX_FRAME_BYTE({checksum_index}u)",
f"#define SCI1_TX_INDEX MEM8[{_c_hex(tx_index)}]",
"#define TX_FRAME_LENGTH SCI1_TX_FRAME_LENGTH",
f"#define TX_FRAME(n) MEM8[(u16)({_c_hex(tx_start)} + (n))]",
f"#define TX_INDEX MEM8[{_c_hex(tx_index)}]",
"#define TX_INDEX SCI1_TX_INDEX",
"",
],
)
@@ -407,6 +413,7 @@ def _semantics_lines(
lines.extend(_gate_queue_comment_lines(protocol.get("gate_queue_model"), opts, prefix=" * "))
lines.extend(_tx_report_comment_lines(protocol.get("tx_report_model"), opts, prefix=" * "))
lines.extend(_periodic_resend_comment_lines(protocol.get("periodic_resend_model"), opts, prefix=" * "))
lines.extend(_timer_architecture_comment_lines(protocol, opts, prefix=" * "))
lines.append(" */")
lines.append("")
@@ -442,6 +449,7 @@ def _semantics_lines(
],
)
lines.extend(_gate_queue_predicate_function_lines(protocol.get("gate_queue_model")))
lines.extend(_timer_architecture_function_lines(protocol))
lines.extend(
[
"void sci1_process_candidate_protocol_command(void)",
@@ -741,6 +749,123 @@ def _periodic_resend_comment_lines(
return lines
def _timer_architecture_comment_lines(
protocol: JsonObject,
opts: SerialPseudocodeOptions,
*,
prefix: str,
) -> list[str]:
model = _timer_architecture_model(protocol)
if not model:
return []
vector = str(model.get("vector_address_hex") or "H'BEEA")
source = str(model.get("source") or "FRT1 OCIA")
lines = [f"{prefix}interrupt/timer architecture candidate:"]
lines.append(
f"{prefix}- {source} {vector} appears to be a periodic tick ISR for serial gate/cadence counters.",
)
counters = _timer_counter_models(model)
for counter in counters:
address = counter.get("address_hex") or _h(_int_field(counter, "address", 0))
name = counter.get("name_candidate") or "counter_candidate"
role = _comment_text(str(counter.get("role") or counter.get("summary") or "candidate decrementing counter"))
lines.append(f"{prefix}- {address} {name}: {role}")
evidence = _hex_join(model.get("evidence_addresses_hex"))
if opts.include_evidence and evidence:
lines.append(f"{prefix}- evidence: {evidence}")
return lines
def _timer_architecture_function_lines(protocol: JsonObject) -> list[str]:
model = _timer_architecture_model(protocol)
if not model:
return []
counters = _timer_counter_models(model)
if not counters:
return []
lines = [
"void frt1_ocia_candidate_tick_isr(void)",
"{",
" /* Candidate periodic tick at H'BEEA: decrement nonzero serial gate/cadence counters. */",
]
for counter in counters:
address = _int_field(counter, "address", 0)
if address == 0:
continue
name = _safe_identifier(str(counter.get("name_candidate") or f"counter_{address:04X}")).upper()
lines.extend(
[
f" /* {name}: {_comment_text(str(counter.get('role') or counter.get('summary') or 'candidate counter'))} */",
f" if (MEM8[{_c_hex(address)}] != 0u) {{",
f" MEM8[{_c_hex(address)}] = (u8)(MEM8[{_c_hex(address)}] - 1u);",
" }",
"",
],
)
lines.extend(["}", ""])
return lines
def _timer_architecture_model(protocol: JsonObject) -> JsonObject:
model = protocol.get("timer_interrupt_model")
if isinstance(model, dict):
return model
if isinstance(protocol.get("gate_queue_model"), dict) or isinstance(protocol.get("periodic_resend_model"), dict):
return {
"source": "FRT1 OCIA",
"vector_address_hex": "H'BEEA",
"counters": [
{
"address": 0xF9C0,
"address_hex": "H'F9C0",
"name_candidate": "tx_report_gate_counter_candidate",
"role": "candidate gate counter used before entering the report builder.",
},
{
"address": 0xF9C1,
"address_hex": "H'F9C1",
"name_candidate": "rx_interbyte_timeout_candidate",
"role": "candidate RX interbyte timeout counter.",
},
{
"address": 0xF9C6,
"address_hex": "H'F9C6",
"name_candidate": "periodic_resend_cadence_counter_candidate",
"role": "candidate periodic resend/heartbeat cadence counter.",
},
],
}
return {}
def _timer_counter_models(model: JsonObject) -> list[JsonObject]:
counters = _object_list(model.get("counters"))
if counters:
return counters
return [
{
"address": 0xF9C0,
"address_hex": "H'F9C0",
"name_candidate": "tx_report_gate_counter_candidate",
"role": "candidate gate counter used before entering the report builder.",
},
{
"address": 0xF9C1,
"address_hex": "H'F9C1",
"name_candidate": "rx_interbyte_timeout_candidate",
"role": "candidate RX interbyte timeout counter.",
},
{
"address": 0xF9C6,
"address_hex": "H'F9C6",
"name_candidate": "periodic_resend_cadence_counter_candidate",
"role": "candidate periodic resend/heartbeat cadence counter.",
},
]
def _command_effect_switch_lines(command: JsonObject) -> list[str]:
effects = _object_list(command.get("effects"))[:3]
lines = []
@@ -835,6 +960,7 @@ def _tx_functions(candidate: JsonObject, opts: SerialPseudocodeOptions) -> list[
" /* wait for transmit data register empty */",
" }",
"",
" /* First byte is sent synchronously; TIE enables TXI for the remaining bytes. */",
" SCI1_TDR = TX_FRAME(0);",
" TX_INDEX = 1u;",
" SCI1_SSR &= (u8)~SCI_SSR_TDRE;",
@@ -843,6 +969,11 @@ def _tx_functions(candidate: JsonObject, opts: SerialPseudocodeOptions) -> list[
"",
"void sci1_txi_candidate_isr(void)",
"{",
" /* TXI runs after hardware reasserts SSR.TDRE for the next transmit byte. */",
" if ((SCI1_SSR & SCI_SSR_TDRE) == 0u) {",
" return;",
" }",
"",
" if (TX_INDEX < TX_FRAME_LENGTH) {",
" SCI1_TDR = TX_FRAME(TX_INDEX);",
" TX_INDEX = (u8)(TX_INDEX + 1u);",

View File

@@ -15,6 +15,12 @@ TX_BUFFER_END = TX_CHECKSUM_ADDRESS
TX_INDEX_ADDRESS = 0xF9C2
TX_FRAME_LENGTH = 6
CHECKSUM_SEED = 0x5A
FRT1_OCIA_VECTOR_ADDRESS = 0x0062
FRT1_OCIA_ISR_ADDRESS = 0xBEEA
FRT1_TCSR_ADDRESS = 0xFE91
POST_TX_REPORT_DELAY_ADDRESS = 0xF9C0
SECONDARY_TX_REPORT_DELAY_ADDRESS = 0xF9C1
PERIODIC_REPORT_COUNTDOWN_ADDRESS = 0xF9C6
RX_FRAME_START = 0xF860
RX_CHECKSUM_ADDRESS = 0xF865
@@ -60,7 +66,7 @@ def analyze_serial_reconstruction(
) -> dict[str, object]:
"""Reconstruct conservative serial-frame candidates from independent evidence."""
ordered = _instruction_sequence(instructions)
evidence = _collect_tx_evidence(ordered) + _collect_rx_evidence(ordered)
evidence = _collect_tx_evidence(ordered) + _collect_rx_evidence(ordered) + _collect_timer_role_evidence(ordered)
candidates = [
candidate
for candidate in (
@@ -69,6 +75,7 @@ def analyze_serial_reconstruction(
)
if candidate is not None
]
ram_roles = _ram_roles_from_evidence(evidence)
annotations: dict[int, list[str]] = {}
instruction_metadata: dict[int, list[dict[str, object]]] = {}
@@ -88,9 +95,25 @@ def analyze_serial_reconstruction(
_instruction_metadata(candidate, item, address, comment),
)
for role in ram_roles:
for item in role["evidence"]:
if not isinstance(item, Mapping):
continue
comment = _comment_for_ram_role(role, item)
for address in item.get("addresses", []):
if not isinstance(address, int):
continue
annotations.setdefault(address, [])
if comment not in annotations[address]:
annotations[address].append(comment)
instruction_metadata.setdefault(address, []).append(
_ram_role_instruction_metadata(role, item, address, comment),
)
return {
"kind": "serial_reconstruction",
"candidates": candidates,
"ram_roles": ram_roles,
"evidence": evidence,
"required_evidence": {
"tx": list(_TX_REQUIRED_EVIDENCE),
@@ -139,6 +162,7 @@ def serial_reconstruction_json_payload(analysis: Mapping[str, object] | None) ->
return {
"kind": "serial_reconstruction",
"candidates": [],
"ram_roles": [],
"evidence": [],
"required_evidence": {
"tx": list(_TX_REQUIRED_EVIDENCE),
@@ -148,6 +172,7 @@ def serial_reconstruction_json_payload(analysis: Mapping[str, object] | None) ->
return {
"kind": analysis.get("kind", "serial_reconstruction"),
"candidates": analysis.get("candidates", []),
"ram_roles": analysis.get("ram_roles", []),
"evidence": analysis.get("evidence", []),
"required_evidence": analysis.get(
"required_evidence",
@@ -408,6 +433,69 @@ def _collect_rx_evidence(ordered: list[Instruction]) -> list[dict[str, object]]:
return evidence
def _collect_timer_role_evidence(ordered: list[Instruction]) -> list[dict[str, object]]:
evidence: list[dict[str, object]] = []
tick_ack = [
ins
for ins in ordered
if ins.address == FRT1_OCIA_ISR_ADDRESS and _is_bclr_bit(ins, FRT1_TCSR_ADDRESS, 5)
]
if tick_ack:
evidence.append(
_evidence(
"frt1_ocia_periodic_tick_isr",
tick_ack,
summary=(
f"candidate periodic tick ISR at {h16(FRT1_OCIA_ISR_ADDRESS)} "
f"for FRT1 OCIA vector {h16(FRT1_OCIA_VECTOR_ADDRESS)} clears OCFA"
),
vector_address=FRT1_OCIA_VECTOR_ADDRESS,
vector_address_hex=h16(FRT1_OCIA_VECTOR_ADDRESS),
isr_address=FRT1_OCIA_ISR_ADDRESS,
isr_address_hex=h16(FRT1_OCIA_ISR_ADDRESS),
),
)
for role_name, address, width_bits, summary in (
(
"post_tx_report_delay",
POST_TX_REPORT_DELAY_ADDRESS,
8,
"candidate post-TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR",
),
(
"secondary_tx_report_delay",
SECONDARY_TX_REPORT_DELAY_ADDRESS,
8,
"candidate secondary TX/report delay timer is decremented by the FRT1 OCIA periodic tick ISR",
),
(
"periodic_report_countdown",
PERIODIC_REPORT_COUNTDOWN_ADDRESS,
16,
"candidate periodic report countdown is decremented by the FRT1 OCIA periodic tick ISR",
),
):
sequence = _timer_tick_decrement_sequence(ordered, address)
if sequence:
evidence.append(
_evidence(
f"{role_name}_tick_decrement",
sequence,
summary=summary,
role_name=role_name,
ram_address=address,
ram_address_hex=h16(address),
width_bits=width_bits,
isr_address=FRT1_OCIA_ISR_ADDRESS,
isr_address_hex=h16(FRT1_OCIA_ISR_ADDRESS),
),
)
return evidence
def _tx_candidate_from_evidence(evidence: list[dict[str, object]]) -> dict[str, object] | None:
evidence_by_key = {str(item["kind"]): item for item in evidence}
missing = [key for key in _TX_REQUIRED_EVIDENCE if key not in evidence_by_key]
@@ -436,6 +524,42 @@ def _tx_candidate_from_evidence(evidence: list[dict[str, object]]) -> dict[str,
"checksum_seed": CHECKSUM_SEED,
"checksum_seed_hex": h16(CHECKSUM_SEED),
"checksum_formula": "checksum = 0x5A ^ byte0 ^ byte1 ^ byte2 ^ byte3 ^ byte4",
"roles": [
{
"name": "tx_frame",
"address": TX_BUFFER_START,
"address_hex": h16(TX_BUFFER_START),
"end_address": TX_BUFFER_END,
"end_address_hex": h16(TX_BUFFER_END),
"summary": "evidence-supported candidate SCI1 TX frame buffer",
},
{
"name": "tx_checksum",
"address": TX_CHECKSUM_ADDRESS,
"address_hex": h16(TX_CHECKSUM_ADDRESS),
"checksum_seed": CHECKSUM_SEED,
"checksum_seed_hex": h16(CHECKSUM_SEED),
"summary": "evidence-supported candidate SCI1 TX XOR checksum byte",
},
{
"name": "tx_index",
"address": TX_INDEX_ADDRESS,
"address_hex": h16(TX_INDEX_ADDRESS),
"summary": "evidence-supported candidate SCI1 TX frame index",
},
],
"tx_path": {
"kind": "interrupt_driven_txi",
"initial_tdr_write_address": _last_address(evidence_by_key["initial_send_from_buffer_start"]),
"initial_tdr_write_address_hex": h16(_last_address(evidence_by_key["initial_send_from_buffer_start"])),
"txi_indexed_tdr_write_address": _last_address(evidence_by_key["tx_isr_indexed_send"]),
"txi_indexed_tdr_write_address_hex": h16(_last_address(evidence_by_key["tx_isr_indexed_send"])),
"summary": (
"initial byte is written from the TX frame buffer, then subsequent bytes are sent "
"by the TXI path when TDRE is reasserted"
),
"tdre_caveat": "TDRE reassertion is hardware/emulator timing context; static evidence is the indexed TXI send path.",
},
"confidence": "high",
"confidence_score": 0.95,
"confidence_reason": "all required independent evidence groups were observed",
@@ -462,6 +586,46 @@ def _tx_candidate_from_evidence(evidence: list[dict[str, object]]) -> dict[str,
return candidate
def _ram_roles_from_evidence(evidence: list[dict[str, object]]) -> list[dict[str, object]]:
evidence_by_key = {str(item["kind"]): item for item in evidence}
tick = evidence_by_key.get("frt1_ocia_periodic_tick_isr")
roles: list[dict[str, object]] = []
for role_name, address, width_bits in (
("post_tx_report_delay", POST_TX_REPORT_DELAY_ADDRESS, 8),
("secondary_tx_report_delay", SECONDARY_TX_REPORT_DELAY_ADDRESS, 8),
("periodic_report_countdown", PERIODIC_REPORT_COUNTDOWN_ADDRESS, 16),
):
decrement = evidence_by_key.get(f"{role_name}_tick_decrement")
if decrement is None:
continue
role_evidence = [item for item in (tick, decrement) if isinstance(item, Mapping)]
roles.append(
{
"kind": "candidate_ram_role",
"name": role_name,
"address": address,
"address_hex": h16(address),
"width_bits": width_bits,
"confidence": "candidate/evidence-supported",
"summary": (
f"{role_name} at {h16(address)} is a candidate/evidence-supported RAM timer "
f"role; FRT1 OCIA tick ISR {h16(FRT1_OCIA_ISR_ADDRESS)} decrements it"
),
"caveat": "role name is evidence-supported from static references plus emulator-guided timer behavior, not a proved firmware symbol",
"evidence": role_evidence,
"evidence_addresses": {
str(item["kind"]): list(item["addresses"])
for item in role_evidence
},
"evidence_addresses_hex": {
str(item["kind"]): list(item["addresses_hex"])
for item in role_evidence
},
},
)
return roles
def _rx_candidate_from_evidence(evidence: list[dict[str, object]]) -> dict[str, object] | None:
evidence_by_key = {str(item["kind"]): item for item in evidence}
missing = [key for key in _RX_REQUIRED_EVIDENCE if key not in evidence_by_key]
@@ -572,6 +736,35 @@ def _instruction_metadata(
}
def _comment_for_ram_role(role: Mapping[str, object], item: Mapping[str, object]) -> str:
return (
f"candidate/evidence-supported RAM role {role['name']} at {role['address_hex']}; "
f"evidence: {item['summary']}; confidence {role['confidence']}"
)
def _ram_role_instruction_metadata(
role: Mapping[str, object],
item: Mapping[str, object],
address: int,
comment: str,
) -> dict[str, object]:
return {
"address": address,
"action": "serial_reconstruction_ram_role",
"role_name": role["name"],
"role_kind": role["kind"],
"role_address": role["address"],
"role_address_hex": role["address_hex"],
"evidence": item["kind"],
"evidence_summary": item["summary"],
"evidence_addresses": list(item["addresses"]),
"evidence_addresses_hex": list(item["addresses_hex"]),
"confidence": role["confidence"],
"comment": comment,
}
def _buffer_region_references(ordered: list[Instruction]) -> list[Instruction]:
return [ins for ins in ordered if _buffer_refs(ins)]
@@ -761,6 +954,31 @@ def _rx_xor_checksum_validation(ordered: list[Instruction]) -> list[Instruction]
return []
def _timer_tick_decrement_sequence(ordered: list[Instruction], address: int) -> list[Instruction]:
for index, ins in enumerate(ordered):
if not (
ins.address >= FRT1_OCIA_ISR_ADDRESS
and _mnemonic_root(ins.mnemonic) == "TST"
and address in ins.references
):
continue
window = ordered[index + 1 : index + 5]
decrement = next(
(
candidate
for candidate in window
if candidate.address >= FRT1_OCIA_ISR_ADDRESS
and _is_write_to_address(candidate, address)
and _mnemonic_root(candidate.mnemonic) in {"ADD:Q", "ADD:G", "ADDS", "SUB", "SUBS"}
and _immediate_source_value(candidate.operands) in {0xFFFF, 0xFF, 1}
),
None,
)
if decrement is not None and "-1" in decrement.operands:
return [ins, decrement]
return []
def _rx_rdrf_clear_before_rdr_read(ordered: list[Instruction]) -> list[Instruction]:
for index, ins in enumerate(ordered):
if not _is_bclr_bit(ins, SCI1_SSR_ADDRESS, 6):
@@ -950,6 +1168,13 @@ def _dedupe_ints(values: Iterable[int]) -> list[int]:
return output
def _last_address(item: Mapping[str, object]) -> int:
addresses = item.get("addresses", [])
if not isinstance(addresses, list) or not addresses:
return 0
return int(addresses[-1])
def _instruction_sequence(
instructions: Mapping[int, Instruction] | Iterable[Instruction],
) -> list[Instruction]:
@@ -997,6 +1222,7 @@ def _operand_mentions_address(operand: str, address: int) -> bool:
SCI1_TDR_ADDRESS: ("SCI1_TDR",),
SCI1_SSR_ADDRESS: ("SCI1_SSR",),
SCI1_RDR_ADDRESS: ("SCI1_RDR",),
FRT1_TCSR_ADDRESS: ("FRT1_TCSR",),
TX_BUFFER_START: ("TX_BUFFER",),
TX_CHECKSUM_ADDRESS: ("TX_CHECKSUM",),
TX_INDEX_ADDRESS: ("TX_INDEX",),

View File

@@ -72,11 +72,43 @@ class SciProtocolTest(unittest.TestCase):
self.assertEqual(
sci_protocol_comment_for_instruction(analysis, 0x2200),
"enable SCI1 TX interrupt (TIE)",
"enable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE",
)
self.assertEqual(
sci_protocol_comment_for_instruction(analysis, 0x2204),
"disable SCI1 TX interrupt (TIE)",
"disable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE",
)
def test_sci1_transmit_path_comments_tdr_tdre_and_tie_timing(self):
instructions = {
0xBA72: ins(0xBA72, "MOV:G.B", "R0, @SCI1_TDR", references=[0xFEDB]),
0xBA7B: ins(0xBA7B, "BCLR.B", "#7, @SCI1_SSR", references=[0xFEDC]),
0xBA7F: ins(0xBA7F, "BSET.B", "#7, @SCI1_SCR", references=[0xFEDA]),
0xBAB5: ins(0xBAB5, "MOV:G.B", "R1, @SCI1_TDR", references=[0xFEDB]),
0xBABB: ins(0xBABB, "BCLR.B", "#7, @SCI1_SSR", references=[0xFEDC]),
}
analysis = analyze_sci_protocol(instructions)
self.assertEqual(
sci_protocol_comment_for_instruction(analysis, 0xBA72),
"write RS232/SCI byte to SCI1 TDR for transmission",
)
self.assertEqual(
sci_protocol_comment_for_instruction(analysis, 0xBA7B),
"clear SCI1 TDRE after TDR write; TXI can fire again when hardware reasserts TDRE",
)
self.assertEqual(
sci_protocol_comment_for_instruction(analysis, 0xBA7F),
"enable SCI1 TX interrupt (TIE); gates TXI when hardware sets TDRE",
)
self.assertEqual(
sci_protocol_comment_for_instruction(analysis, 0xBAB5),
"write RS232/SCI byte to SCI1 TDR for transmission",
)
self.assertEqual(
sci_protocol_comment_for_instruction(analysis, 0xBABB),
"clear SCI1 TDRE after TDR write; TXI can fire again when hardware reasserts TDRE",
)
def test_receive_path_clears_rdrf_then_reads_received_byte(self):
@@ -89,7 +121,7 @@ class SciProtocolTest(unittest.TestCase):
self.assertEqual(
sci_protocol_comment_for_instruction(analysis, 0x2300),
"clear SCI1 receive-data-full flag (RDRF)",
"clear SCI1 RDRF with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
)
self.assertEqual(
sci_protocol_comment_for_instruction(analysis, 0x2304),
@@ -107,15 +139,15 @@ class SciProtocolTest(unittest.TestCase):
self.assertEqual(
sci_protocol_comment_for_instruction(analysis, 0x2400),
"clear SCI1 overrun error flag (ORER)",
"clear SCI1 ORER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
)
self.assertEqual(
sci_protocol_comment_for_instruction(analysis, 0x2404),
"clear SCI1 framing error flag (FER)",
"clear SCI1 FER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
)
self.assertEqual(
sci_protocol_comment_for_instruction(analysis, 0x2408),
"clear SCI1 parity error flag (PER)",
"clear SCI1 PER with SSR R/(W)* semantics: write 0 clears latched hardware flag, write 1 preserves hardware-owned state",
)
def test_immediate_scr_write_reports_protocol_control_bits(self):
@@ -126,7 +158,10 @@ class SciProtocolTest(unittest.TestCase):
analysis = analyze_sci_protocol(instructions)
comment = sci_protocol_comment_for_instruction(analysis, 0x2500)
self.assertIn("enable SCI2 TX interrupt (TIE)", comment)
self.assertIn(
"enable SCI2 TX interrupt (TIE); gates TXI when hardware sets TDRE",
comment,
)
self.assertIn("disable SCI2 receive and receive-error interrupts (RIE)", comment)
self.assertIn("enable SCI2 transmitter (TE)", comment)
self.assertIn("enable SCI2 receiver (RE)", comment)

View File

@@ -73,8 +73,19 @@ def fixture_payload() -> dict[str, object]:
ins(0xBECB, "BTST.B #7, @H'FAA3", references=[0xFAA3]),
ins(0xBED1, "CLR.B @H'F9C3", references=[0xF9C3]),
ins(0xBED5, "BSR loc_BA26", targets=[0xBA26]),
ins(0xBEEA, "BCLR.B #5, @FRT1_TCSR"),
ins(0xBEEE, "TST.B @H'F9C0", references=[0xF9C0]),
ins(0xBEF2, "BEQ loc_BEF8", targets=[0xBEF8]),
ins(0xBEF4, "ADD:Q.B #-1, @H'F9C0", references=[0xF9C0]),
ins(0xBEF8, "TST.B @H'F9C1", references=[0xF9C1]),
ins(0xBEFC, "BEQ loc_BF02", targets=[0xBF02]),
ins(0xBEFE, "ADD:Q.B #-1, @H'F9C1", references=[0xF9C1]),
ins(0xBF02, "TST.W @H'F9C6", references=[0xF9C6]),
ins(0xBF06, "BEQ loc_BF0C", targets=[0xBF0C]),
ins(0xBF08, "ADD:Q.W #-1, @H'F9C6", references=[0xF9C6]),
]
return {
"vectors": [{"address": 0x0062, "name": "frt1_ocia", "target": 0xBEEA, "target_label": "vec_frt1_ocia_BEEA"}],
"call_graph": {"nodes": [{"start": 0x3FD3, "label": "loc_3FD3"}, {"start": 0xBAF2, "label": "loc_BAF2"}]},
"instructions": rows,
}
@@ -95,12 +106,26 @@ class SerialGateTest(unittest.TestCase):
self.assertTrue(analysis["evidence"]["rx_session_maintenance"]["present"])
self.assertTrue(any("0x0007" in caveat and "0x0015" in caveat for caveat in analysis["caveats"]))
def test_json_analysis_includes_frt1_tick_timer_roles(self):
analysis = analyze_serial_gate(fixture_payload())
tick = analysis["evidence"]["timer_tick_evidence"]
self.assertTrue(tick["present"])
self.assertEqual(tick["vector_address_hex"], "H'0062")
self.assertEqual(tick["handler_address_hex"], "H'BEEA")
self.assertIn("FRT1_TCSR.OCFA", tick["summary"])
roles = {role["address"]: role for role in tick["candidate_timer_roles"]}
self.assertIn("post-TX/report delay", roles[0xF9C0]["role"])
self.assertIn("secondary delay", roles[0xF9C1]["role"])
self.assertIn("periodic report/heartbeat", roles[0xF9C6]["role"])
def test_summarizes_key_state_readers_and_writers(self):
analysis = analyze_serial_gate(fixture_payload())
accesses = {entry["address"]: entry for entry in analysis["state_accesses"]}
self.assertGreaterEqual(accesses[0xF9B5]["read_count"], 1)
self.assertGreaterEqual(accesses[0xF9B5]["read_write_count"], 1)
self.assertGreaterEqual(accesses[0xF9C1]["read_write_count"], 1)
self.assertGreaterEqual(accesses[0xFAA3]["write_count"], 1)
self.assertIn("sample_accesses", accesses[0xFAA2])
@@ -111,6 +136,15 @@ class SerialGateTest(unittest.TestCase):
self.assertIn("capture overlays/runtime queue entries", text)
self.assertIn("H'F9B5", text)
def test_text_report_mentions_frt1_tick_timer_roles(self):
text = format_text_report(analyze_serial_gate(fixture_payload()))
self.assertIn("FRT1 OCIA periodic tick countdowns: present", text)
self.assertIn("H'BEEA: BCLR.B #5, @FRT1_TCSR", text)
self.assertIn("H'F9C0: candidate post-TX/report delay countdown", text)
self.assertIn("H'F9C1: candidate secondary delay countdown", text)
self.assertIn("H'F9C6: candidate periodic report/heartbeat countdown", text)
def test_cli_json_output_and_out_file(self):
with tempfile.TemporaryDirectory() as tmp:
input_path = Path(tmp) / "rom.json"

View File

@@ -160,12 +160,23 @@ class SerialPseudocodeTest(unittest.TestCase):
self.assertIn("No SCI1 RXI/TXI DTC vector entries are present", text)
self.assertIn("MAX202 pin 11 traces to H8 pin 66", text)
self.assertIn("Manual/0900766b802125d0.md:15823 TDR transmit data register", text)
self.assertIn("#define SCI1_TX_FRAME_LENGTH 6u", text)
self.assertIn("#define SCI1_TX_FRAME_BASE 0xF858u", text)
self.assertIn("#define SCI1_TX_FRAME_BYTE(n) MEM8[(u16)(SCI1_TX_FRAME_BASE + (n))]", text)
self.assertIn("#define SCI1_TX_FRAME_CHECKSUM SCI1_TX_FRAME_BYTE(5u)", text)
self.assertIn("#define SCI1_TX_INDEX MEM8[0xF9C2u]", text)
self.assertIn("#define TX_FRAME(n) MEM8[(u16)(0xF858u + (n))]", text)
self.assertIn("#define RX_CAPTURE(n) MEM8[(u16)(0xF868u + (n))]", text)
self.assertIn("checksum ^= TX_FRAME(4);", text)
self.assertIn("TX_FRAME(5) = sci1_tx_candidate_checksum();", text)
self.assertIn("First byte is sent synchronously; TIE enables TXI for the remaining bytes.", text)
self.assertIn("SCI1_TDR = TX_FRAME(0);", text)
self.assertIn("TX_INDEX = 1u;", text)
self.assertIn("SCI1_SCR |= SCI_SCR_TIE;", text)
self.assertIn("void sci1_txi_candidate_isr(void)", text)
self.assertIn("TXI runs after hardware reasserts SSR.TDRE", text)
self.assertIn("if ((SCI1_SSR & SCI_SSR_TDRE) == 0u)", text)
self.assertIn("SCI1_TDR = TX_FRAME(TX_INDEX);", text)
self.assertIn("SCI1_SSR &= (u8)~SCI_SSR_RDRF;\n byte = SCI1_RDR;", text)
self.assertIn("RX_CAPTURE(RX_INDEX) = byte;", text)
self.assertIn("return sci1_process_rx_candidate_frame();", text)
@@ -344,6 +355,31 @@ class SerialPseudocodeTest(unittest.TestCase):
},
"evidence_addresses_hex": ["H'BE90", "H'BED5"],
},
"timer_interrupt_model": {
"source": "FRT1 OCIA",
"vector_address_hex": "H'BEEA",
"counters": [
{
"address": 0xF9C0,
"address_hex": "H'F9C0",
"name_candidate": "tx_report_gate_counter_candidate",
"role": "candidate report gate counter.",
},
{
"address": 0xF9C1,
"address_hex": "H'F9C1",
"name_candidate": "rx_interbyte_timeout_candidate",
"role": "candidate RX interbyte timeout counter.",
},
{
"address": 0xF9C6,
"address_hex": "H'F9C6",
"name_candidate": "periodic_resend_cadence_counter_candidate",
"role": "candidate periodic resend cadence counter.",
},
],
"evidence_addresses_hex": ["H'BEEA", "H'BEF4"],
},
}
]
}
@@ -374,6 +410,15 @@ class SerialPseudocodeTest(unittest.TestCase):
self.assertIn("heartbeat/periodic resend candidate:", text)
self.assertIn("F9C6 reload H'01F4", text)
self.assertIn("BED5 resend path", text)
self.assertIn("interrupt/timer architecture candidate:", text)
self.assertIn("FRT1 OCIA H'BEEA appears to be a periodic tick ISR", text)
self.assertIn("H'F9C0 tx_report_gate_counter_candidate: candidate report gate counter.", text)
self.assertIn("H'F9C1 rx_interbyte_timeout_candidate: candidate RX interbyte timeout counter.", text)
self.assertIn("H'F9C6 periodic_resend_cadence_counter_candidate: candidate periodic resend cadence counter.", text)
self.assertIn("void frt1_ocia_candidate_tick_isr(void)", text)
self.assertIn("MEM8[0xF9C0u] = (u8)(MEM8[0xF9C0u] - 1u);", text)
self.assertIn("MEM8[0xF9C1u] = (u8)(MEM8[0xF9C1u] - 1u);", text)
self.assertIn("MEM8[0xF9C6u] = (u8)(MEM8[0xF9C6u] - 1u);", text)
self.assertIn("candidate effect: table_write_candidate; target primary_value_table_candidate", text)
def test_tx_only_option_omits_rx_functions(self):

View File

@@ -61,6 +61,17 @@ class SerialReconstructionTest(unittest.TestCase):
self.assertEqual(candidate["checksum_address"], 0xF85D)
self.assertEqual(candidate["tx_index_address"], 0xF9C2)
self.assertEqual(candidate["checksum_seed"], 0x5A)
self.assertEqual(
[role["name"] for role in candidate["roles"]],
["tx_frame", "tx_checksum", "tx_index"],
)
self.assertEqual(candidate["roles"][0]["address"], 0xF858)
self.assertEqual(candidate["roles"][1]["address"], 0xF85D)
self.assertEqual(candidate["roles"][2]["address"], 0xF9C2)
self.assertEqual(candidate["tx_path"]["kind"], "interrupt_driven_txi")
self.assertEqual(candidate["tx_path"]["initial_tdr_write_address"], 0x3008)
self.assertEqual(candidate["tx_path"]["txi_indexed_tdr_write_address"], 0x3108)
self.assertIn("TDRE", candidate["tx_path"]["summary"])
self.assertEqual(candidate["confidence"], "high")
self.assertEqual(candidate["confidence_score"], 0.95)
self.assertEqual(candidate["missing_evidence"], [])
@@ -84,8 +95,43 @@ class SerialReconstructionTest(unittest.TestCase):
payload = serial_reconstruction_json_payload(analysis)
self.assertEqual(payload["candidates"][0]["frame_length"], 6)
self.assertEqual(payload["candidates"][0]["roles"][1]["name"], "tx_checksum")
json.dumps(payload)
def test_candidate_timer_ram_roles_from_frt1_ocia_tick(self):
instructions = {
0xBEEA: ins(0xBEEA, "BCLR.B", "#5, @FRT1_TCSR", [0xFE91]),
0xBEEE: ins(0xBEEE, "TST.B", "@H'F9C0", [0xF9C0]),
0xBEF4: ins(0xBEF4, "ADD:Q.B", "#-1, @H'F9C0", [0xF9C0]),
0xBEF8: ins(0xBEF8, "TST.B", "@H'F9C1", [0xF9C1]),
0xBEFE: ins(0xBEFE, "ADD:Q.B", "#-1, @H'F9C1", [0xF9C1]),
0xBF02: ins(0xBF02, "TST.W", "@H'F9C6", [0xF9C6]),
0xBF08: ins(0xBF08, "ADD:Q.W", "#-1, @H'F9C6", [0xF9C6]),
}
analysis = analyze_serial_reconstruction(instructions)
self.assertEqual(analysis["candidates"], [])
roles = {role["name"]: role for role in analysis["ram_roles"]}
self.assertEqual(set(roles), {"post_tx_report_delay", "secondary_tx_report_delay", "periodic_report_countdown"})
self.assertEqual(roles["post_tx_report_delay"]["address"], 0xF9C0)
self.assertEqual(roles["secondary_tx_report_delay"]["address"], 0xF9C1)
self.assertEqual(roles["periodic_report_countdown"]["address"], 0xF9C6)
self.assertEqual(roles["periodic_report_countdown"]["width_bits"], 16)
self.assertIn("candidate/evidence-supported", roles["post_tx_report_delay"]["confidence"])
self.assertIn("emulator-guided timer behavior", roles["post_tx_report_delay"]["caveat"])
payload = serial_reconstruction_json_payload(analysis)
self.assertEqual(payload["ram_roles"][0]["name"], "post_tx_report_delay")
json.dumps(payload)
decrement_comment = serial_reconstruction_comment_for_instruction(analysis, 0xBEF4)
self.assertIn("RAM role post_tx_report_delay", decrement_comment)
self.assertIn("FRT1 OCIA periodic tick ISR", decrement_comment)
metadata = serial_reconstruction_metadata_for_instruction(analysis, 0xBF08)
self.assertEqual(metadata[0]["action"], "serial_reconstruction_ram_role")
self.assertEqual(metadata[0]["role_name"], "periodic_report_countdown")
def test_candidate_sci1_rx_frame_length_and_checksum_validation_pattern(self):
instructions = {
0x4FF0: ins(0x4FF0, "BSET.B", "#7, @H'FAA4", [0xFAA4]),

View File

@@ -32,6 +32,13 @@ class SerialReconstructionIntegrationTest(unittest.TestCase):
0x3038: ins(0x3038, "MOV:G.B", "R0, @SCI1_TDR", [0xFEDB]),
0x303C: ins(0x303C, "ADD:Q.B", "#1, @H'F9C2", [0xF9C2]),
0x3040: ins(0x3040, "CMP:G.B", "#6, @H'F9C2", [0xF9C2]),
0xBEEA: ins(0xBEEA, "BCLR.B", "#5, @FRT1_TCSR", [0xFE91]),
0xBEEE: ins(0xBEEE, "TST.B", "@H'F9C0", [0xF9C0]),
0xBEF4: ins(0xBEF4, "ADD:Q.B", "#-1, @H'F9C0", [0xF9C0]),
0xBEF8: ins(0xBEF8, "TST.B", "@H'F9C1", [0xF9C1]),
0xBEFE: ins(0xBEFE, "ADD:Q.B", "#-1, @H'F9C1", [0xF9C1]),
0xBF02: ins(0xBF02, "TST.W", "@H'F9C6", [0xF9C6]),
0xBF08: ins(0xBF08, "ADD:Q.W", "#-1, @H'F9C6", [0xF9C6]),
}
analysis = analyze_serial_reconstruction(instructions)
@@ -47,7 +54,11 @@ class SerialReconstructionIntegrationTest(unittest.TestCase):
)
self.assertIn("; Serial Protocol Reconstruction", listing)
self.assertIn("TX candidate: 6 bytes", listing)
self.assertIn("TX path: initial byte is written from the TX frame buffer", listing)
self.assertIn("; Serial RAM role candidates", listing)
self.assertIn("periodic_report_countdown", listing)
self.assertIn("candidate/evidence-supported SCI1 6-byte TX frame", listing)
self.assertIn("RAM role post_tx_report_delay", listing)
with tempfile.TemporaryDirectory() as tmp:
path = Path(tmp) / "out.json"
@@ -55,14 +66,19 @@ class SerialReconstructionIntegrationTest(unittest.TestCase):
payload = json.loads(path.read_text(encoding="utf-8"))
self.assertEqual(payload["serial_reconstruction"]["candidates"][0]["frame_length"], 6)
self.assertEqual(payload["serial_reconstruction"]["candidates"][0]["tx_path"]["kind"], "interrupt_driven_txi")
self.assertEqual(payload["serial_reconstruction"]["ram_roles"][2]["name"], "periodic_report_countdown")
tdr_instruction = next(item for item in payload["instructions"] if item["address"] == 0x3038)
self.assertIn("serial_reconstruction", tdr_instruction)
timer_instruction = next(item for item in payload["instructions"] if item["address"] == 0xBF08)
self.assertEqual(timer_instruction["serial_reconstruction"][0]["role_name"], "periodic_report_countdown")
pseudocode = generate_pseudocode(
payload,
options=PseudocodeOptions(include_addresses=False, include_asm=False, structured=False),
)
self.assertIn("candidate/evidence-supported SCI1 6-byte TX frame", pseudocode)
self.assertIn("candidate/evidence-supported RAM role periodic_report_countdown", pseudocode)
if __name__ == "__main__":