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2850bc2737
m68k_handle_int() split in two functions: __m68k_handle_int() takes pt_regs * and does set_irq_regs(); m68k_handle_int() doesn't get pt_regs *. Places where we used to call m68k_handle_int() recursively with the same pt_regs have simply lost the second argument, the rest is switched to __m68k_handle_int(). The rest of patch is just dropping pt_regs * where needed. Signed-off-by: Al Viro <viro@zeniv.linux.org.uk> Signed-off-by: Linus Torvalds <torvalds@osdl.org>
163 lines
5.3 KiB
C
163 lines
5.3 KiB
C
/*
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* I/O Processor (IOP) defines and structures, mostly snagged from A/UX
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* header files.
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*
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* The original header from which this was taken is copyrighted. I've done some
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* rewriting (in fact my changes make this a bit more readable, IMHO) but some
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* more should be done.
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*/
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/*
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* This is the base address of the IOPs. Use this as the address of
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* a "struct iop" (see below) to see where the actual registers fall.
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*/
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#define SCC_IOP_BASE_IIFX (0x50F04000)
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#define ISM_IOP_BASE_IIFX (0x50F12000)
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#define SCC_IOP_BASE_QUADRA (0x50F0C000)
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#define ISM_IOP_BASE_QUADRA (0x50F1E000)
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/* IOP status/control register bits: */
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#define IOP_BYPASS 0x01 /* bypass-mode hardware access */
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#define IOP_AUTOINC 0x02 /* allow autoincrement of ramhi/lo */
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#define IOP_RUN 0x04 /* set to 0 to reset IOP chip */
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#define IOP_IRQ 0x08 /* generate IRQ to IOP if 1 */
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#define IOP_INT0 0x10 /* intr priority from IOP to host */
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#define IOP_INT1 0x20 /* intr priority from IOP to host */
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#define IOP_HWINT 0x40 /* IRQ from hardware; bypass mode only */
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#define IOP_DMAINACTIVE 0x80 /* no DMA request active; bypass mode only */
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#define NUM_IOPS 2
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#define NUM_IOP_CHAN 7
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#define NUM_IOP_MSGS NUM_IOP_CHAN*8
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#define IOP_MSG_LEN 32
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/* IOP reference numbers, used by the globally-visible iop_xxx functions */
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#define IOP_NUM_SCC 0
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#define IOP_NUM_ISM 1
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/* IOP channel states */
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#define IOP_MSG_IDLE 0 /* idle */
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#define IOP_MSG_NEW 1 /* new message sent */
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#define IOP_MSG_RCVD 2 /* message received; processing */
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#define IOP_MSG_COMPLETE 3 /* message processing complete */
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/* IOP message status codes */
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#define IOP_MSGSTATUS_UNUSED 0 /* Unusued message structure */
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#define IOP_MSGSTATUS_WAITING 1 /* waiting for channel */
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#define IOP_MSGSTATUS_SENT 2 /* message sent, awaiting reply */
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#define IOP_MSGSTATUS_COMPLETE 3 /* message complete and reply rcvd */
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#define IOP_MSGSTATUS_UNSOL 6 /* message is unsolicited */
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/* IOP memory addresses of the members of the mac_iop_kernel structure. */
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#define IOP_ADDR_MAX_SEND_CHAN 0x0200
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#define IOP_ADDR_SEND_STATE 0x0201
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#define IOP_ADDR_PATCH_CTRL 0x021F
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#define IOP_ADDR_SEND_MSG 0x0220
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#define IOP_ADDR_MAX_RECV_CHAN 0x0300
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#define IOP_ADDR_RECV_STATE 0x0301
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#define IOP_ADDR_ALIVE 0x031F
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#define IOP_ADDR_RECV_MSG 0x0320
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#ifndef __ASSEMBLY__
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/*
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* IOP Control registers, staggered because in usual Apple style they were
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* too lazy to decode the A0 bit. This structure is assumed to begin at
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* one of the xxx_IOP_BASE addresses given above.
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*/
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struct mac_iop {
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__u8 ram_addr_hi; /* shared RAM address hi byte */
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__u8 pad0;
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__u8 ram_addr_lo; /* shared RAM address lo byte */
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__u8 pad1;
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__u8 status_ctrl; /* status/control register */
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__u8 pad2[3];
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__u8 ram_data; /* RAM data byte at ramhi/lo */
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__u8 pad3[23];
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/* Bypass-mode hardware access registers */
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union {
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struct { /* SCC registers */
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__u8 sccb_cmd; /* SCC B command reg */
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__u8 pad4;
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__u8 scca_cmd; /* SCC A command reg */
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__u8 pad5;
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__u8 sccb_data; /* SCC B data */
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__u8 pad6;
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__u8 scca_data; /* SCC A data */
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} scc_regs;
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struct { /* ISM registers */
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__u8 wdata; /* write a data byte */
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__u8 pad7;
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__u8 wmark; /* write a mark byte */
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__u8 pad8;
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__u8 wcrc; /* write 2-byte crc to disk */
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__u8 pad9;
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__u8 wparams; /* write the param regs */
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__u8 pad10;
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__u8 wphase; /* write the phase states & dirs */
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__u8 pad11;
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__u8 wsetup; /* write the setup register */
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__u8 pad12;
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__u8 wzeroes; /* mode reg: 1's clr bits, 0's are x */
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__u8 pad13;
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__u8 wones; /* mode reg: 1's set bits, 0's are x */
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__u8 pad14;
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__u8 rdata; /* read a data byte */
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__u8 pad15;
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__u8 rmark; /* read a mark byte */
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__u8 pad16;
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__u8 rerror; /* read the error register */
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__u8 pad17;
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__u8 rparams; /* read the param regs */
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__u8 pad18;
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__u8 rphase; /* read the phase states & dirs */
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__u8 pad19;
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__u8 rsetup; /* read the setup register */
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__u8 pad20;
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__u8 rmode; /* read the mode register */
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__u8 pad21;
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__u8 rhandshake; /* read the handshake register */
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} ism_regs;
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} b;
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};
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/* This structure is used to track IOP messages in the Linux kernel */
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struct iop_msg {
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struct iop_msg *next; /* next message in queue or NULL */
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uint iop_num; /* IOP number */
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uint channel; /* channel number */
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void *caller_priv; /* caller private data */
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int status; /* status of this message */
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__u8 message[IOP_MSG_LEN]; /* the message being sent/received */
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__u8 reply[IOP_MSG_LEN]; /* the reply to the message */
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void (*handler)(struct iop_msg *);
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/* function to call when reply recvd */
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};
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extern int iop_scc_present,iop_ism_present;
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extern int iop_listen(uint, uint,
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void (*handler)(struct iop_msg *),
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const char *);
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extern int iop_send_message(uint, uint, void *, uint, __u8 *,
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void (*)(struct iop_msg *));
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extern void iop_complete_message(struct iop_msg *);
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extern void iop_upload_code(uint, __u8 *, uint, __u16);
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extern void iop_download_code(uint, __u8 *, uint, __u16);
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extern __u8 *iop_compare_code(uint, __u8 *, uint, __u16);
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#endif /* __ASSEMBLY__ */
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