diff --git a/src/jtag/drivers/OpenULINK/include/reg_ezusb.h b/src/jtag/drivers/OpenULINK/include/reg_ezusb.h index 0a59c4033..82f9451ef 100644 --- a/src/jtag/drivers/OpenULINK/include/reg_ezusb.h +++ b/src/jtag/drivers/OpenULINK/include/reg_ezusb.h @@ -65,7 +65,7 @@ SFR(DPL1, 0x84); SFR(DPL2, 0x85); SFR(DPS, 0x86); - #define SEL bmBit0 +#define SEL bmBit0 /* Bit 1 read-only, always reads '0' */ /* Bit 2 read-only, always reads '0' */ /* Bit 3 read-only, always reads '0' */ @@ -75,36 +75,36 @@ SFR(DPS, 0x86); /* Bit 7 read-only, always reads '0' */ SFR(PCON, 0x87); - #define IDLE bmBit0 - #define STOP bmBit1 - #define GF0 bmBit2 - #define GF1 bmBit3 +#define IDLE bmBit0 +#define STOP bmBit1 +#define GF0 bmBit2 +#define GF1 bmBit3 /* Bit 4 read-only, always reads '1' */ /* Bit 5 read-only, always reads '1' */ /* Bit 6 unused */ - #define SMOD0 bmBit7 +#define SMOD0 bmBit7 SFR(TCON, 0x88); -SBIT(IT0, 0x88, 0); -SBIT(IE0, 0x88, 1); -SBIT(IT1, 0x88, 2); -SBIT(IE1, 0x88, 3); -SBIT(TR0, 0x88, 4); -SBIT(TF0, 0x88, 5); -SBIT(TR1, 0x88, 6); -SBIT(TF1, 0x88, 7); +SBIT(IT0, 0x88, 0); +SBIT(IE0, 0x88, 1); +SBIT(IT1, 0x88, 2); +SBIT(IE1, 0x88, 3); +SBIT(TR0, 0x88, 4); +SBIT(TF0, 0x88, 5); +SBIT(TR1, 0x88, 6); +SBIT(TF1, 0x88, 7); SFR(TMOD, 0x89); /* Some bits in this register share the same name in the EZ-USB TRM. Therefore, * we add a '0'/'1' to distinguish them */ - #define M00 bmBit0 - #define M01 bmBit1 - #define CT0 bmBit2 - #define GATE0 bmBit3 - #define M10 bmBit4 - #define M11 bmBit5 - #define CT1 bmBit6 - #define GATE1 bmBit7 +#define M00 bmBit0 +#define M01 bmBit1 +#define CT0 bmBit2 +#define GATE0 bmBit3 +#define M10 bmBit4 +#define M11 bmBit5 +#define CT1 bmBit6 +#define GATE1 bmBit7 SFR(TL0, 0x8A); SFR(TL1, 0x8B); @@ -112,17 +112,17 @@ SFR(TH0, 0x8C); SFR(TH1, 0x8D); SFR(CKCON, 0x8E); - #define MD0 bmBit0 - #define MD1 bmBit1 - #define MD2 bmBit2 - #define T0M bmBit3 - #define T1M bmBit4 - #define T2M bmBit5 +#define MD0 bmBit0 +#define MD1 bmBit1 +#define MD2 bmBit2 +#define T0M bmBit3 +#define T1M bmBit4 +#define T2M bmBit5 /* Bit 6 unused */ /* Bit 7 unused */ SFR(SPC_FNC, 0x8D); - #define bmWRS bmBit0 +#define bmWRS bmBit0 /* Bit 1 read-only, always reads '0' */ /* Bit 2 read-only, always reads '0' */ /* Bit 3 read-only, always reads '0' */ @@ -136,10 +136,10 @@ SFR(EXIF, 0x91); /* Bit 1 read-only, always reads '0' */ /* Bit 2 read-only, always reads '0' */ /* Bit 3 read-only, always reads '1' */ - #define USBINT bmBit4 - #define I2CINT bmBit5 - #define IE4 bmBit6 - #define IE5 bmBit7 +#define USBINT bmBit4 +#define I2CINT bmBit5 +#define IE4 bmBit6 +#define IE5 bmBit7 /* Definition of the _XPAGE register, according to SDCC Compiler User Guide, * Version 3.0.1, Chapter 4, p. 61. Also see EZ-USB TRM, p. 2-4. */ @@ -147,58 +147,58 @@ SFR(MPAGE, 0x92); SFR(_XPAGE, 0x92); SFR(SCON0, 0x98); -SBIT(RI_0, 0x98, 0); -SBIT(TI_0, 0x98, 1); -SBIT(RB8_0, 0x98, 2); -SBIT(TB8_0, 0x98, 3); -SBIT(REN_0, 0x98, 4); -SBIT(SM2_0, 0x98, 5); -SBIT(SM1_0, 0x98, 6); -SBIT(SM0_0, 0x98, 7); +SBIT(RI_0, 0x98, 0); +SBIT(TI_0, 0x98, 1); +SBIT(RB8_0, 0x98, 2); +SBIT(TB8_0, 0x98, 3); +SBIT(REN_0, 0x98, 4); +SBIT(SM2_0, 0x98, 5); +SBIT(SM1_0, 0x98, 6); +SBIT(SM0_0, 0x98, 7); SFR(SBUF0, 0x99); SFR(IE, 0xA8); -SBIT(EX0, 0xA8, 0); -SBIT(ET0, 0xA8, 1); -SBIT(EX1, 0xA8, 2); -SBIT(ET1, 0xA8, 3); -SBIT(ES0, 0xA8, 4); -SBIT(ET2, 0xA8, 5); -SBIT(ES1, 0xA8, 6); -SBIT(EA, 0xA8, 7); +SBIT(EX0, 0xA8, 0); +SBIT(ET0, 0xA8, 1); +SBIT(EX1, 0xA8, 2); +SBIT(ET1, 0xA8, 3); +SBIT(ES0, 0xA8, 4); +SBIT(ET2, 0xA8, 5); +SBIT(ES1, 0xA8, 6); +SBIT(EA, 0xA8, 7); SFR(IP, 0xB8); -SBIT(PX0, 0xB8, 0); -SBIT(PT0, 0xB8, 1); -SBIT(PX1, 0xB8, 2); -SBIT(PT1, 0xB8, 3); -SBIT(PS0, 0xB8, 4); -SBIT(PT2, 0xB8, 5); -SBIT(PS1, 0xB8, 6); +SBIT(PX0, 0xB8, 0); +SBIT(PT0, 0xB8, 1); +SBIT(PX1, 0xB8, 2); +SBIT(PT1, 0xB8, 3); +SBIT(PS0, 0xB8, 4); +SBIT(PT2, 0xB8, 5); +SBIT(PS1, 0xB8, 6); /* Bit 7 read-only, always reads '1' */ SFR(SCON1, 0xC0); -SBIT(RI_1, 0xC0, 0); -SBIT(TI_1, 0xC0, 1); -SBIT(RB8_1, 0xC0, 2); -SBIT(TB8_1, 0xC0, 3); -SBIT(REN_1, 0xC0, 4); -SBIT(SM2_1, 0xC0, 5); -SBIT(SM1_1, 0xC0, 6); -SBIT(SM0_1, 0xC0, 7); +SBIT(RI_1, 0xC0, 0); +SBIT(TI_1, 0xC0, 1); +SBIT(RB8_1, 0xC0, 2); +SBIT(TB8_1, 0xC0, 3); +SBIT(REN_1, 0xC0, 4); +SBIT(SM2_1, 0xC0, 5); +SBIT(SM1_1, 0xC0, 6); +SBIT(SM0_1, 0xC0, 7); SFR(SBUF1, 0xC1); SFR(T2CON, 0xC8); -SBIT(CPRL2, 0xC8, 0); -SBIT(CT2, 0xC8, 1); -SBIT(TR2, 0xC8, 2); -SBIT(EXEN2, 0xC8, 3); -SBIT(TCLK, 0xC8, 4); -SBIT(RCLK, 0xC8, 5); -SBIT(EXF2, 0xC8, 6); -SBIT(TF2, 0xC8, 7); +SBIT(CPRL2, 0xC8, 0); +SBIT(CT2, 0xC8, 1); +SBIT(TR2, 0xC8, 2); +SBIT(EXEN2, 0xC8, 3); +SBIT(TCLK, 0xC8, 4); +SBIT(RCLK, 0xC8, 5); +SBIT(EXF2, 0xC8, 6); +SBIT(TF2, 0xC8, 7); SFR(RCAP2L, 0xCA); SFR(RCAP2H, 0xCB); @@ -206,33 +206,33 @@ SFR(TL2, 0xCC); SFR(TH2, 0xCD); SFR(PSW, 0xD0); -SBIT(P, 0xD0, 0); -SBIT(F1, 0xD0, 1); -SBIT(OV, 0xD0, 2); -SBIT(RS0, 0xD0, 3); -SBIT(RS1, 0xD0, 4); -SBIT(F0, 0xD0, 5); -SBIT(AC, 0xD0, 6); -SBIT(CY, 0xD0, 7); +SBIT(P, 0xD0, 0); +SBIT(F1, 0xD0, 1); +SBIT(OV, 0xD0, 2); +SBIT(RS0, 0xD0, 3); +SBIT(RS1, 0xD0, 4); +SBIT(F0, 0xD0, 5); +SBIT(AC, 0xD0, 6); +SBIT(CY, 0xD0, 7); SFR(EICON, 0xD8); /* Bit 0 read-only, always reads '0' */ /* Bit 1 read-only, always reads '0' */ /* Bit 2 read-only, always reads '0' */ -SBIT(INT6, 0xD8, 3); -SBIT(RESI, 0xD8, 4); -SBIT(ERESI, 0xD8, 5); +SBIT(INT6, 0xD8, 3); +SBIT(RESI, 0xD8, 4); +SBIT(ERESI, 0xD8, 5); /* Bit 6 read-only, always reads '1' */ -SBIT(SMOD1, 0xD8, 7); +SBIT(SMOD1, 0xD8, 7); SFR(ACC, 0xE0); SFR(EIE, 0xE8); -SBIT(EUSB, 0xE8, 0); -SBIT(EI2C, 0xE8, 1); -SBIT(EX4, 0xE8, 2); -SBIT(EX5, 0xE8, 3); -SBIT(EWDI, 0xE8, 4); +SBIT(EUSB, 0xE8, 0); +SBIT(EI2C, 0xE8, 1); +SBIT(EX4, 0xE8, 2); +SBIT(EX5, 0xE8, 3); +SBIT(EWDI, 0xE8, 4); /* Bit 5 read-only, always reads '1' */ /* Bit 6 read-only, always reads '1' */ /* Bit 7 read-only, always reads '1' */ @@ -240,11 +240,11 @@ SBIT(EWDI, 0xE8, 4); SFR(B, 0xF0); SFR(EIP, 0xF8); -SBIT(PUSB, 0xF8, 0); -SBIT(PI2C, 0xF8, 1); -SBIT(PX4, 0xF8, 2); -SBIT(PX5, 0xF8, 3); -SBIT(PX6, 0xF8, 4); +SBIT(PUSB, 0xF8, 0); +SBIT(PI2C, 0xF8, 1); +SBIT(PX4, 0xF8, 2); +SBIT(PX5, 0xF8, 3); +SBIT(PX6, 0xF8, 4); /* Bit 5 read-only, always reads '1' */ /* Bit 6 read-only, always reads '1' */ /* Bit 7 read-only, always reads '1' */ @@ -311,179 +311,179 @@ SFRX(OUT16BCL, 0x7F7F); /****************************** CPU Registers ******************************/ SFRX(CPUCS, 0x7F92); - #define RES8051 bmBit0 - #define CLK24OE bmBit1 +#define RES8051 bmBit0 +#define CLK24OE bmBit1 /* Bit 2 read-only, always reads '0' */ /* Bit 3 read-only, always reads '0' */ /* Bits 4...7: Chip Revision */ SFRX(PORTACFG, 0x7F93); - #define T0OUT bmBit0 - #define T1OUT bmBit1 - #define OE bmBit2 - #define CS bmBit3 - #define FWR bmBit4 - #define FRD bmBit5 - #define RXD0OUT bmBit6 - #define RXD1OUT bmBit7 +#define T0OUT bmBit0 +#define T1OUT bmBit1 +#define OE bmBit2 +#define CS bmBit3 +#define FWR bmBit4 +#define FRD bmBit5 +#define RXD0OUT bmBit6 +#define RXD1OUT bmBit7 SFRX(PORTBCFG, 0x7F94); - #define T2 bmBit0 - #define T2EX bmBit1 - #define RXD1 bmBit2 - #define TXD1 bmBit3 - #define INT4 bmBit4 - #define INT5 bmBit5 - #define INT6 bmBit6 - #define T2OUT bmBit7 +#define T2 bmBit0 +#define T2EX bmBit1 +#define RXD1 bmBit2 +#define TXD1 bmBit3 +#define INT4 bmBit4 +#define INT5 bmBit5 +#define INT6 bmBit6 +#define T2OUT bmBit7 SFRX(PORTCCFG, 0x7F95); - #define RXD0 bmBit0 - #define TXD0 bmBit1 - #define INT0 bmBit2 - #define INT1 bmBit3 - #define T0 bmBit4 - #define T1 bmBit5 - #define WR bmBit6 - #define RD bmBit7 +#define RXD0 bmBit0 +#define TXD0 bmBit1 +#define INT0 bmBit2 +#define INT1 bmBit3 +#define T0 bmBit4 +#define T1 bmBit5 +#define WR bmBit6 +#define RD bmBit7 /*********************** Input-Output Port Registers ***********************/ SFRX(OUTA, 0x7F96); - #define OUTA0 bmBit0 - #define OUTA1 bmBit1 - #define OUTA2 bmBit2 - #define OUTA3 bmBit3 - #define OUTA4 bmBit4 - #define OUTA5 bmBit5 - #define OUTA6 bmBit6 - #define OUTA7 bmBit7 +#define OUTA0 bmBit0 +#define OUTA1 bmBit1 +#define OUTA2 bmBit2 +#define OUTA3 bmBit3 +#define OUTA4 bmBit4 +#define OUTA5 bmBit5 +#define OUTA6 bmBit6 +#define OUTA7 bmBit7 SFRX(OUTB, 0x7F97); - #define OUTB0 bmBit0 - #define OUTB1 bmBit1 - #define OUTB2 bmBit2 - #define OUTB3 bmBit3 - #define OUTB4 bmBit4 - #define OUTB5 bmBit5 - #define OUTB6 bmBit6 - #define OUTB7 bmBit7 +#define OUTB0 bmBit0 +#define OUTB1 bmBit1 +#define OUTB2 bmBit2 +#define OUTB3 bmBit3 +#define OUTB4 bmBit4 +#define OUTB5 bmBit5 +#define OUTB6 bmBit6 +#define OUTB7 bmBit7 SFRX(OUTC, 0x7F98); - #define OUTC0 bmBit0 - #define OUTC1 bmBit1 - #define OUTC2 bmBit2 - #define OUTC3 bmBit3 - #define OUTC4 bmBit4 - #define OUTC5 bmBit5 - #define OUTC6 bmBit6 - #define OUTC7 bmBit7 +#define OUTC0 bmBit0 +#define OUTC1 bmBit1 +#define OUTC2 bmBit2 +#define OUTC3 bmBit3 +#define OUTC4 bmBit4 +#define OUTC5 bmBit5 +#define OUTC6 bmBit6 +#define OUTC7 bmBit7 SFRX(PINSA, 0x7F99); - #define PINA0 bmBit0 - #define PINA1 bmBit1 - #define PINA2 bmBit2 - #define PINA3 bmBit3 - #define PINA4 bmBit4 - #define PINA5 bmBit5 - #define PINA6 bmBit6 - #define PINA7 bmBit7 +#define PINA0 bmBit0 +#define PINA1 bmBit1 +#define PINA2 bmBit2 +#define PINA3 bmBit3 +#define PINA4 bmBit4 +#define PINA5 bmBit5 +#define PINA6 bmBit6 +#define PINA7 bmBit7 SFRX(PINSB, 0x7F9A); - #define PINB0 bmBit0 - #define PINB1 bmBit1 - #define PINB2 bmBit2 - #define PINB3 bmBit3 - #define PINB4 bmBit4 - #define PINB5 bmBit5 - #define PINB6 bmBit6 - #define PINB7 bmBit7 +#define PINB0 bmBit0 +#define PINB1 bmBit1 +#define PINB2 bmBit2 +#define PINB3 bmBit3 +#define PINB4 bmBit4 +#define PINB5 bmBit5 +#define PINB6 bmBit6 +#define PINB7 bmBit7 SFRX(PINSC, 0x7F9B); - #define PINC0 bmBit0 - #define PINC1 bmBit1 - #define PINC2 bmBit2 - #define PINC3 bmBit3 - #define PINC4 bmBit4 - #define PINC5 bmBit5 - #define PINC6 bmBit6 - #define PINC7 bmBit7 +#define PINC0 bmBit0 +#define PINC1 bmBit1 +#define PINC2 bmBit2 +#define PINC3 bmBit3 +#define PINC4 bmBit4 +#define PINC5 bmBit5 +#define PINC6 bmBit6 +#define PINC7 bmBit7 SFRX(OEA, 0x7F9C); - #define OEA0 bmBit0 - #define OEA1 bmBit1 - #define OEA2 bmBit2 - #define OEA3 bmBit3 - #define OEA4 bmBit4 - #define OEA5 bmBit5 - #define OEA6 bmBit6 - #define OEA7 bmBit7 +#define OEA0 bmBit0 +#define OEA1 bmBit1 +#define OEA2 bmBit2 +#define OEA3 bmBit3 +#define OEA4 bmBit4 +#define OEA5 bmBit5 +#define OEA6 bmBit6 +#define OEA7 bmBit7 SFRX(OEB, 0x7F9D); - #define OEB0 bmBit0 - #define OEB1 bmBit1 - #define OEB2 bmBit2 - #define OEB3 bmBit3 - #define OEB4 bmBit4 - #define OEB5 bmBit5 - #define OEB6 bmBit6 - #define OEB7 bmBit7 +#define OEB0 bmBit0 +#define OEB1 bmBit1 +#define OEB2 bmBit2 +#define OEB3 bmBit3 +#define OEB4 bmBit4 +#define OEB5 bmBit5 +#define OEB6 bmBit6 +#define OEB7 bmBit7 SFRX(OEC, 0x7F9E); - #define OEC0 bmBit0 - #define OEC1 bmBit1 - #define OEC2 bmBit2 - #define OEC3 bmBit3 - #define OEC4 bmBit4 - #define OEC5 bmBit5 - #define OEC6 bmBit6 - #define OEC7 bmBit7 +#define OEC0 bmBit0 +#define OEC1 bmBit1 +#define OEC2 bmBit2 +#define OEC3 bmBit3 +#define OEC4 bmBit4 +#define OEC5 bmBit5 +#define OEC6 bmBit6 +#define OEC7 bmBit7 /* 0x7F9F reserved */ /****************** Isochronous Control/Status Registers *******************/ SFRX(ISOERR, 0x7FA0); - #define ISO8ERR bmBit0 - #define ISO9ERR bmBit1 - #define ISO10ERR bmBit2 - #define ISO11ERR bmBit3 - #define ISO12ERR bmBit4 - #define ISO13ERR bmBit5 - #define ISO14ERR bmBit6 - #define ISO15ERR bmBit7 +#define ISO8ERR bmBit0 +#define ISO9ERR bmBit1 +#define ISO10ERR bmBit2 +#define ISO11ERR bmBit3 +#define ISO12ERR bmBit4 +#define ISO13ERR bmBit5 +#define ISO14ERR bmBit6 +#define ISO15ERR bmBit7 SFRX(ISOCTL, 0x7FA1); - #define ISODISAB bmBit0 - #define MBZ0 bmBit1 - #define MBZ1 bmBit2 - #define PPSTAT bmBit3 +#define ISODISAB bmBit0 +#define MBZ0 bmBit1 +#define MBZ1 bmBit2 +#define PPSTAT bmBit3 /* Bit 4 unused */ /* Bit 5 unused */ /* Bit 6 unused */ /* Bit 7 unused */ SFRX(ZBCOUT, 0x7FA2); - #define EP8 bmBit0 - #define EP9 bmBit1 - #define EP10 bmBit2 - #define EP11 bmBit3 - #define EP12 bmBit4 - #define EP13 bmBit5 - #define EP14 bmBit6 - #define EP15 bmBit7 +#define EP8 bmBit0 +#define EP9 bmBit1 +#define EP10 bmBit2 +#define EP11 bmBit3 +#define EP12 bmBit4 +#define EP13 bmBit5 +#define EP14 bmBit6 +#define EP15 bmBit7 /* 0x7FA3 reserved */ /* 0x7FA4 reserved */ /****************************** I2C Registers ******************************/ SFRX(I2CS, 0x7FA5); - #define DONE bmBit0 - #define ACK bmBit1 - #define BERR bmBit2 - #define ID0 bmBit3 - #define ID1 bmBit4 - #define LASTRD bmBit5 - #define I2C_STOP bmBit6 - #define I2C_START bmBit7 +#define DONE bmBit0 +#define ACK bmBit1 +#define BERR bmBit2 +#define ID0 bmBit3 +#define ID1 bmBit4 +#define LASTRD bmBit5 +#define I2C_STOP bmBit6 +#define I2C_START bmBit7 SFRX(I2DAT, 0x7FA6); /* 0x7FA7 reserved */ @@ -492,78 +492,78 @@ SFRX(I2DAT, 0x7FA6); SFRX(IVEC, 0x7FA8); /* Bit 0 read-only, always reads '0' */ /* Bit 1 read-only, always reads '0' */ - #define IV0 bmBit2 - #define IV1 bmBit3 - #define IV2 bmBit4 - #define IV3 bmBit5 - #define IV4 bmBit6 +#define IV0 bmBit2 +#define IV1 bmBit3 +#define IV2 bmBit4 +#define IV3 bmBit5 +#define IV4 bmBit6 /* Bit 7 read-only, always reads '0' */ SFRX(IN07IRQ, 0x7FA9); - #define IN0IR bmBit0 - #define IN1IR bmBit1 - #define IN2IR bmBit2 - #define IN3IR bmBit3 - #define IN4IR bmBit4 - #define IN5IR bmBit5 - #define IN6IR bmBit6 - #define IN7IR bmBit7 +#define IN0IR bmBit0 +#define IN1IR bmBit1 +#define IN2IR bmBit2 +#define IN3IR bmBit3 +#define IN4IR bmBit4 +#define IN5IR bmBit5 +#define IN6IR bmBit6 +#define IN7IR bmBit7 SFRX(OUT07IRQ, 0x7FAA); - #define OUT0IR bmBit0 - #define OUT1IR bmBit1 - #define OUT2IR bmBit2 - #define OUT3IR bmBit3 - #define OUT4IR bmBit4 - #define OUT5IR bmBit5 - #define OUT6IR bmBit6 - #define OUT7IR bmBit7 +#define OUT0IR bmBit0 +#define OUT1IR bmBit1 +#define OUT2IR bmBit2 +#define OUT3IR bmBit3 +#define OUT4IR bmBit4 +#define OUT5IR bmBit5 +#define OUT6IR bmBit6 +#define OUT7IR bmBit7 SFRX(USBIRQ, 0x7FAB); - #define SUDAVIR bmBit0 - #define SOFIR bmBit1 - #define SUTOKIR bmBit2 - #define SUSPIR bmBit3 - #define URESIR bmBit4 +#define SUDAVIR bmBit0 +#define SOFIR bmBit1 +#define SUTOKIR bmBit2 +#define SUSPIR bmBit3 +#define URESIR bmBit4 /* Bit 5 unused */ /* Bit 6 unused */ /* Bit 7 unused */ SFRX(IN07IEN, 0x7FAC); - #define IN0IEN bmBit0 - #define IN1IEN bmBit1 - #define IN2IEN bmBit2 - #define IN3IEN bmBit3 - #define IN4IEN bmBit4 - #define IN5IEN bmBit5 - #define IN6IEN bmBit6 - #define IN7IEN bmBit7 +#define IN0IEN bmBit0 +#define IN1IEN bmBit1 +#define IN2IEN bmBit2 +#define IN3IEN bmBit3 +#define IN4IEN bmBit4 +#define IN5IEN bmBit5 +#define IN6IEN bmBit6 +#define IN7IEN bmBit7 SFRX(OUT07IEN, 0x7FAD); - #define OUT0IEN bmBit0 - #define OUT1IEN bmBit1 - #define OUT2IEN bmBit2 - #define OUT3IEN bmBit3 - #define OUT4IEN bmBit4 - #define OUT5IEN bmBit5 - #define OUT6IEN bmBit6 - #define OUT7IEN bmBit7 +#define OUT0IEN bmBit0 +#define OUT1IEN bmBit1 +#define OUT2IEN bmBit2 +#define OUT3IEN bmBit3 +#define OUT4IEN bmBit4 +#define OUT5IEN bmBit5 +#define OUT6IEN bmBit6 +#define OUT7IEN bmBit7 SFRX(USBIEN, 0x7FAE); - #define SUDAVIE bmBit0 - #define SOFIE bmBit1 - #define SUTOKIE bmBit2 - #define SUSPIE bmBit3 - #define URESIE bmBit4 +#define SUDAVIE bmBit0 +#define SOFIE bmBit1 +#define SUTOKIE bmBit2 +#define SUSPIE bmBit3 +#define URESIE bmBit4 /* Bit 5 unused */ /* Bit 6 unused */ /* Bit 7 unused */ SFRX(USBBAV, 0x7FAF); - #define AVEN bmBit0 - #define BPEN bmBit1 - #define BPPULSE bmBit2 - #define BREAK bmBit3 +#define AVEN bmBit0 +#define BPEN bmBit1 +#define BPPULSE bmBit2 +#define BREAK bmBit3 /* Bit 4 unused */ /* Bit 5 unused */ /* Bit 6 unused */ @@ -576,10 +576,10 @@ SFRX(BPADDRL, 0x7FB3); /****************************** Endpoints 0-7 ******************************/ SFRX(EP0CS, 0x7FB4); - #define EP0STALL bmBit0 - #define HSNAK bmBit1 - #define IN0BSY bmBit2 - #define OUT0BSY bmBit3 +#define EP0STALL bmBit0 +#define HSNAK bmBit1 +#define IN0BSY bmBit2 +#define OUT0BSY bmBit3 /* Bit 4 unused */ /* Bit 5 unused */ /* Bit 6 unused */ @@ -627,24 +627,24 @@ SFRX(SUDPTRH, 0x7FD4); SFRX(SUDPTRL, 0x7FD5); SFRX(USBCS, 0x7FD6); - #define SIGRSUME bmBit0 - #define RENUM bmBit1 - #define DISCOE bmBit2 - #define DISCON bmBit3 +#define SIGRSUME bmBit0 +#define RENUM bmBit1 +#define DISCOE bmBit2 +#define DISCON bmBit3 /* Bit 4 unused */ /* Bit 5 unused */ /* Bit 6 unused */ - #define WAKESRC bmBit7 +#define WAKESRC bmBit7 SFRX(TOGCTL, 0x7FD7); - #define TOG_EP0 bmBit0 - #define TOG_EP1 bmBit1 - #define TOG_EP2 bmBit2 +#define TOG_EP0 bmBit0 +#define TOG_EP1 bmBit1 +#define TOG_EP2 bmBit2 /* Bit 3 is read-only, always reads '0' */ - #define TOG_IO bmBit4 - #define TOG_R bmBit5 - #define TOG_S bmBit6 - #define TOG_Q bmBit7 +#define TOG_IO bmBit4 +#define TOG_R bmBit5 +#define TOG_S bmBit6 +#define TOG_Q bmBit7 SFRX(USBFRAMEL, 0x7FD8); SFRX(USBFRAMEH, 0x7FD9); @@ -653,64 +653,64 @@ SFRX(FNADDR, 0x7FDB); /* 0x7FDC reserved */ SFRX(USBPAIR, 0x7FDD); - #define PR2IN bmBit0 - #define PR4IN bmBit1 - #define PR6IN bmBit2 - #define PR2OUT bmBit3 - #define PR4OUT bmBit4 - #define PR6OUT bmBit5 +#define PR2IN bmBit0 +#define PR4IN bmBit1 +#define PR6IN bmBit2 +#define PR2OUT bmBit3 +#define PR4OUT bmBit4 +#define PR6OUT bmBit5 /* Bit 6 unused */ - #define ISOSEND0 bmBit7 +#define ISOSEND0 bmBit7 SFRX(IN07VAL, 0x7FDE); /* Bit 0 is read-only, always reads '1' */ - #define IN1VAL bmBit1 - #define IN2VAL bmBit2 - #define IN3VAL bmBit3 - #define IN4VAL bmBit4 - #define IN5VAL bmBit5 - #define IN6VAL bmBit6 - #define IN7VAL bmBit7 +#define IN1VAL bmBit1 +#define IN2VAL bmBit2 +#define IN3VAL bmBit3 +#define IN4VAL bmBit4 +#define IN5VAL bmBit5 +#define IN6VAL bmBit6 +#define IN7VAL bmBit7 SFRX(OUT07VAL, 0x7FDF); /* Bit 0 is read-only, always reads '1' */ - #define OUT1VAL bmBit1 - #define OUT2VAL bmBit2 - #define OUT3VAL bmBit3 - #define OUT4VAL bmBit4 - #define OUT5VAL bmBit5 - #define OUT6VAL bmBit6 - #define OUT7VAL bmBit7 +#define OUT1VAL bmBit1 +#define OUT2VAL bmBit2 +#define OUT3VAL bmBit3 +#define OUT4VAL bmBit4 +#define OUT5VAL bmBit5 +#define OUT6VAL bmBit6 +#define OUT7VAL bmBit7 SFRX(INISOVAL, 0x7FE0); - #define IN8VAL bmBit0 - #define IN9VAL bmBit1 - #define IN10VAL bmBit2 - #define IN11VAL bmBit3 - #define IN12VAL bmBit4 - #define IN13VAL bmBit5 - #define IN14VAL bmBit6 - #define IN15VAL bmBit7 +#define IN8VAL bmBit0 +#define IN9VAL bmBit1 +#define IN10VAL bmBit2 +#define IN11VAL bmBit3 +#define IN12VAL bmBit4 +#define IN13VAL bmBit5 +#define IN14VAL bmBit6 +#define IN15VAL bmBit7 SFRX(OUTISOVAL, 0x7FE1); - #define OUT8VAL bmBit0 - #define OUT9VAL bmBit1 - #define OUT10VAL bmBit2 - #define OUT11VAL bmBit3 - #define OUT12VAL bmBit4 - #define OUT13VAL bmBit5 - #define OUT14VAL bmBit6 - #define OUT15VAL bmBit7 +#define OUT8VAL bmBit0 +#define OUT9VAL bmBit1 +#define OUT10VAL bmBit2 +#define OUT11VAL bmBit3 +#define OUT12VAL bmBit4 +#define OUT13VAL bmBit5 +#define OUT14VAL bmBit6 +#define OUT15VAL bmBit7 SFRX(FASTXFR, 0x7FE2); - #define WMOD0 bmBit0 - #define WMOD1 bmBit1 - #define WPOL bmBit2 - #define RMOD0 bmBit3 - #define RMOD1 bmBit4 - #define RPOL bmBit5 - #define FBLK bmBit6 - #define FISO bmBit7 +#define WMOD0 bmBit0 +#define WMOD1 bmBit1 +#define WPOL bmBit2 +#define RMOD0 bmBit3 +#define RMOD1 bmBit4 +#define RPOL bmBit5 +#define FBLK bmBit6 +#define FISO bmBit7 SFRX(AUTOPTRH, 0x7FE3); SFRX(AUTOPTRL, 0x7FE4); diff --git a/src/jtag/drivers/OpenULINK/include/usb.h b/src/jtag/drivers/OpenULINK/include/usb.h index 6e6b928fa..182b79042 100644 --- a/src/jtag/drivers/OpenULINK/include/usb.h +++ b/src/jtag/drivers/OpenULINK/include/usb.h @@ -49,80 +49,80 @@ /** USB Device Descriptor. See USB 1.1 spec, pp. 196 - 198 */ struct usb_device_descriptor { - uint8_t bLength; /* /< Size of this descriptor in bytes. */ - uint8_t bDescriptorType;/* /< DEVICE Descriptor Type. */ - uint16_t bcdUSB; /* /< USB specification release number (BCD). */ - uint8_t bDeviceClass; /* /< Class code. */ - uint8_t bDeviceSubClass;/* /< Subclass code. */ - uint8_t bDeviceProtocol;/* /< Protocol code. */ - uint8_t bMaxPacketSize0;/* /< Maximum packet size for EP0 (8, 16, 32, 64). */ - uint16_t idVendor; /* /< USB Vendor ID. */ - uint16_t idProduct; /* /< USB Product ID. */ - uint16_t bcdDevice; /* /< Device Release Number (BCD). */ - uint8_t iManufacturer; /* /< Index of manufacturer string descriptor. */ - uint8_t iProduct; /* /< Index of product string descriptor. */ - uint8_t iSerialNumber; /* /< Index of string descriptor containing serial #. */ - uint8_t bNumConfigurations; /* /< Number of possible configurations. */ + uint8_t bLength; /**< Size of this descriptor in bytes. */ + uint8_t bDescriptorType; /**< DEVICE Descriptor Type. */ + uint16_t bcdUSB; /**< USB specification release number (BCD). */ + uint8_t bDeviceClass; /**< Class code. */ + uint8_t bDeviceSubClass; /**< Subclass code. */ + uint8_t bDeviceProtocol; /**< Protocol code. */ + uint8_t bMaxPacketSize0; /**< Maximum packet size for EP0 (8, 16, 32, 64). */ + uint16_t idVendor; /**< USB Vendor ID. */ + uint16_t idProduct; /**< USB Product ID. */ + uint16_t bcdDevice; /**< Device Release Number (BCD). */ + uint8_t iManufacturer; /**< Index of manufacturer string descriptor. */ + uint8_t iProduct; /**< Index of product string descriptor. */ + uint8_t iSerialNumber; /**< Index of string descriptor containing serial #. */ + uint8_t bNumConfigurations; /**< Number of possible configurations. */ }; /** USB Configuration Descriptor. See USB 1.1 spec, pp. 199 - 200 */ struct usb_config_descriptor { - uint8_t bLength; /* /< Size of this descriptor in bytes. */ - uint8_t bDescriptorType;/* /< CONFIGURATION descriptor type. */ - uint16_t wTotalLength; /* /< Combined total length of all descriptors. */ - uint8_t bNumInterfaces; /* /< Number of interfaces in this configuration. */ - uint8_t bConfigurationValue; /* /< Value used to select this configuration. */ - uint8_t iConfiguration; /* /< Index of configuration string descriptor. */ - uint8_t bmAttributes; /* /< Configuration characteristics. */ - uint8_t MaxPower; /* /< Maximum power consumption in 2 mA units. */ + uint8_t bLength; /**< Size of this descriptor in bytes. */ + uint8_t bDescriptorType; /**< CONFIGURATION descriptor type. */ + uint16_t wTotalLength; /**< Combined total length of all descriptors. */ + uint8_t bNumInterfaces; /**< Number of interfaces in this configuration. */ + uint8_t bConfigurationValue; /**< Value used to select this configuration. */ + uint8_t iConfiguration; /**< Index of configuration string descriptor. */ + uint8_t bmAttributes; /**< Configuration characteristics. */ + uint8_t MaxPower; /**< Maximum power consumption in 2 mA units. */ }; /** USB Interface Descriptor. See USB 1.1 spec, pp. 201 - 203 */ struct usb_interface_descriptor { - uint8_t bLength; /* /< Size of this descriptor in bytes. */ - uint8_t bDescriptorType;/* /< INTERFACE descriptor type. */ - uint8_t bInterfaceNumber; /* /< Interface number. */ - uint8_t bAlternateSetting; /* /< Value used to select alternate setting. */ - uint8_t bNumEndpoints; /* /< Number of endpoints used by this interface. */ - uint8_t bInterfaceClass;/* /< Class code. */ - uint8_t bInterfaceSubclass; /* /< Subclass code. */ - uint8_t bInterfaceProtocol; /* /< Protocol code. */ - uint8_t iInterface; /* /< Index of interface string descriptor. */ + uint8_t bLength; /**< Size of this descriptor in bytes. */ + uint8_t bDescriptorType; /**< INTERFACE descriptor type. */ + uint8_t bInterfaceNumber; /**< Interface number. */ + uint8_t bAlternateSetting; /**< Value used to select alternate setting. */ + uint8_t bNumEndpoints; /**< Number of endpoints used by this interface. */ + uint8_t bInterfaceClass; /**< Class code. */ + uint8_t bInterfaceSubclass; /**< Subclass code. */ + uint8_t bInterfaceProtocol; /**< Protocol code. */ + uint8_t iInterface; /**< Index of interface string descriptor. */ }; /** USB Endpoint Descriptor. See USB 1.1 spec, pp. 203 - 204 */ struct usb_endpoint_descriptor { - uint8_t bLength; /* /< Size of this descriptor in bytes. */ - uint8_t bDescriptorType;/* /< ENDPOINT descriptor type. */ - uint8_t bEndpointAddress; /* /< Endpoint Address: USB 1.1 spec, table 9-10. */ - uint8_t bmAttributes; /* /< Endpoint Attributes: USB 1.1 spec, table 9-10. */ - uint16_t wMaxPacketSize;/* /< Maximum packet size for this endpoint. */ - uint8_t bInterval; /* /< Polling interval (in ms) for this endpoint. */ + uint8_t bLength; /**< Size of this descriptor in bytes. */ + uint8_t bDescriptorType; /**< ENDPOINT descriptor type. */ + uint8_t bEndpointAddress; /**< Endpoint Address: USB 1.1 spec, table 9-10. */ + uint8_t bmAttributes; /**< Endpoint Attributes: USB 1.1 spec, table 9-10. */ + uint16_t wMaxPacketSize; /**< Maximum packet size for this endpoint. */ + uint8_t bInterval; /**< Polling interval (in ms) for this endpoint. */ }; /** USB Language Descriptor. See USB 1.1 spec, pp. 204 - 205 */ struct usb_language_descriptor { - uint8_t bLength; /* /< Size of this descriptor in bytes. */ - uint8_t bDescriptorType;/* /< STRING descriptor type. */ - uint16_t wLANGID[]; /* /< LANGID codes. */ + uint8_t bLength; /**< Size of this descriptor in bytes. */ + uint8_t bDescriptorType; /**< STRING descriptor type. */ + uint16_t wLANGID[]; /**< LANGID codes. */ }; /** USB String Descriptor. See USB 1.1 spec, pp. 204 - 205 */ struct usb_string_descriptor { - uint8_t bLength; /* /< Size of this descriptor in bytes. */ - uint8_t bDescriptorType;/* /< STRING descriptor type. */ - uint16_t bString[]; /* /< UNICODE encoded string. */ + uint8_t bLength; /**< Size of this descriptor in bytes. */ + uint8_t bDescriptorType; /**< STRING descriptor type. */ + uint16_t bString[]; /**< UNICODE encoded string. */ }; /********************** USB Control Endpoint 0 related *********************/ /** USB Control Setup Data. See USB 1.1 spec, pp. 183 - 185 */ struct setup_data { - uint8_t bmRequestType; /* /< Characteristics of a request. */ - uint8_t bRequest; /* /< Specific request. */ - uint16_t wValue; /* /< Field that varies according to request. */ - uint16_t wIndex; /* /< Field that varies according to request. */ - uint16_t wLength; /* /< Number of bytes to transfer in data stage. */ + uint8_t bmRequestType; /**< Characteristics of a request. */ + uint8_t bRequest; /**< Specific request. */ + uint16_t wValue; /**< Field that varies according to request. */ + uint16_t wIndex; /**< Field that varies according to request. */ + uint16_t wLength; /**< Number of bytes to transfer in data stage. */ }; /* External declarations for variables that need to be accessed outside of diff --git a/src/jtag/drivers/OpenULINK/src/jtag.c b/src/jtag/drivers/OpenULINK/src/jtag.c index 8940fc6f6..9f45ea78e 100644 --- a/src/jtag/drivers/OpenULINK/src/jtag.c +++ b/src/jtag/drivers/OpenULINK/src/jtag.c @@ -101,7 +101,7 @@ void jtag_scan_in(uint8_t out_offset, uint8_t in_offset) tms_sequence_end = tms_sequence_end >> 1; } - OUTB = outb_buffer; /* TCK change here */ + OUTB = outb_buffer; /* TCK changes here */ tdo_data = tdo_data >> 1; OUTB = (outb_buffer | PIN_TCK); @@ -183,7 +183,7 @@ void jtag_slow_scan_in(uint8_t out_offset, uint8_t in_offset) tms_sequence_end = tms_sequence_end >> 1; } - OUTB = outb_buffer; /* TCK change here */ + OUTB = outb_buffer; /* TCK changes here */ for (k = 0; k < delay_scan_in; k++) ; tdo_data = tdo_data >> 1; @@ -662,7 +662,7 @@ void jtag_slow_clock_tms(uint8_t count, uint8_t sequence) * Get current JTAG signal states. * * @return a 16-bit integer where the most-significant byte contains the state - * of the JTAG input signals and the least-significant byte cotains the state + * of the JTAG input signals and the least-significant byte contains the state * of the JTAG output signals. */ uint16_t jtag_get_signals(void) diff --git a/src/jtag/drivers/ulink.c b/src/jtag/drivers/ulink.c index 94f6c3153..9a7d8c8e9 100644 --- a/src/jtag/drivers/ulink.c +++ b/src/jtag/drivers/ulink.c @@ -123,14 +123,14 @@ enum ulink_delay_type { * The last command sets #needs_postprocessing to true. */ struct ulink_cmd { - uint8_t id; /* /< ULINK command ID */ + uint8_t id; /**< ULINK command ID */ - uint8_t *payload_out; /* /< OUT direction payload data */ - uint8_t payload_out_size; /* /< OUT direction payload size for this command */ + uint8_t *payload_out; /**< OUT direction payload data */ + uint8_t payload_out_size; /**< OUT direction payload size for this command */ - uint8_t *payload_in_start; /* /< Pointer to first element of IN payload array */ - uint8_t *payload_in; /* /< Pointer where IN payload shall be stored */ - uint8_t payload_in_size;/* /< IN direction payload size for this command */ + uint8_t *payload_in_start; /**< Pointer to first element of IN payload array */ + uint8_t *payload_in; /**< Pointer where IN payload shall be stored */ + uint8_t payload_in_size; /**< IN direction payload size for this command */ /** Indicates if this command needs post-processing */ bool needs_postprocessing; @@ -141,7 +141,7 @@ struct ulink_cmd { /** Pointer to corresponding OpenOCD command for post-processing */ struct jtag_command *cmd_origin; - struct ulink_cmd *next; /* /< Pointer to next command (linked list) */ + struct ulink_cmd *next; /**< Pointer to next command (linked list) */ }; /** Describes one driver instance */ @@ -150,15 +150,15 @@ struct ulink { struct libusb_device_handle *usb_device_handle; enum ulink_type type; - int delay_scan_in; /* /< Delay value for SCAN_IN commands */ - int delay_scan_out; /* /< Delay value for SCAN_OUT commands */ - int delay_scan_io; /* /< Delay value for SCAN_IO commands */ - int delay_clock_tck; /* /< Delay value for CLOCK_TMS commands */ - int delay_clock_tms; /* /< Delay value for CLOCK_TCK commands */ + int delay_scan_in; /**< Delay value for SCAN_IN commands */ + int delay_scan_out; /**< Delay value for SCAN_OUT commands */ + int delay_scan_io; /**< Delay value for SCAN_IO commands */ + int delay_clock_tck; /**< Delay value for CLOCK_TMS commands */ + int delay_clock_tms; /**< Delay value for CLOCK_TCK commands */ - int commands_in_queue; /* /< Number of commands in queue */ - struct ulink_cmd *queue_start; /* /< Pointer to first command in queue */ - struct ulink_cmd *queue_end; /* /< Pointer to last command in queue */ + int commands_in_queue; /**< Number of commands in queue */ + struct ulink_cmd *queue_start; /**< Pointer to first command in queue */ + struct ulink_cmd *queue_end; /**< Pointer to last command in queue */ }; /**************************** Function Prototypes *****************************/ @@ -517,8 +517,8 @@ void ulink_print_signal_states(uint8_t input_signals, uint8_t output_signals) (input_signals & SIGNAL_TDO ? 1 : 0), (output_signals & SIGNAL_TMS ? 1 : 0), (output_signals & SIGNAL_TCK ? 1 : 0), - (output_signals & SIGNAL_TRST ? 0 : 1),/* TRST and RESET are inverted */ - (output_signals & SIGNAL_RESET ? 0 : 1)); /* by hardware */ + (output_signals & SIGNAL_TRST ? 0 : 1), /* Inverted by hardware */ + (output_signals & SIGNAL_RESET ? 0 : 1)); /* Inverted by hardware */ } /**************** OpenULINK command generation helper functions ***************/