/* $XFree86$ */ /* * Copyright 2003 through 2004 by Marc Aurele La France (TSI @ UQV), tsi@xfree86.org * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that copyright * notice and this permission notice appear in supporting documentation, and * that the name of Marc Aurele La France not be used in advertising or * publicity pertaining to distribution of the software without specific, * written prior permission. Marc Aurele La France makes no representations * about the suitability of this software for any purpose. It is provided * "as-is" without express or implied warranty. * * MARC AURELE LA FRANCE DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO * EVENT SHALL MARC AURELE LA FRANCE BE LIABLE FOR ANY SPECIAL, INDIRECT OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ #include "ati.h" #include "atichip.h" #include "atii2c.h" #include "atimach64i2c.h" #include "atimach64io.h" #include "atituner.h" /* MPP_CONFIG register values */ #define MPP_INIT pATI->NewHW.mpp_config #define MPP_WRITE (MPP_INIT ) #define MPP_WRITEINC (MPP_INIT | (MPP_AUTO_INC_EN )) #define MPP_READ (MPP_INIT | ( MPP_BUFFER_MODE_PREFETCH)) #define MPP_READINC (MPP_INIT | (MPP_AUTO_INC_EN | MPP_BUFFER_MODE_PREFETCH)) /* * ATIMach64MPPWaitForIdle -- * * Support function to wait for the Multimedia Peripheral Port to become idle. * Currently, this function's return value indicates whether or not the port * became idle within 512 polling iterations. For now, this value is ignored * by the rest of the code, but might be used in the future. */ static Bool ATIMach64MPPWaitForIdle ( ATIPtr pATI ) { CARD32 Count = 0x0200; while (in8(MPP_CONFIG + 3) & GetByte(MPP_BUSY, 3)) { if (!--Count) return FALSE; usleep(1); /* XXX Excessive? */ } return TRUE; } /* * ATIMach64MPPSetAddress -- * * Sets a 16-bit ImpacTV address on the Multimedia Peripheral Port. */ static void ATIMach64MPPSetAddress ( ATIPtr pATI, CARD16 Address ) { ATIMach64MPPWaitForIdle(pATI); outr(MPP_CONFIG, MPP_WRITEINC); outr(MPP_ADDR, 0x00000008U); out8(MPP_DATA, (CARD8)Address); ATIMach64MPPWaitForIdle(pATI); out8(MPP_DATA, (CARD8)(Address >> 8)); ATIMach64MPPWaitForIdle(pATI); outr(MPP_CONFIG, MPP_WRITE); outr(MPP_ADDR, 0x00000018U); ATIMach64MPPWaitForIdle(pATI); } /* * ATIMach64ImpacTVProbe -- * * This probes for an ImpacTV chip and returns its chip ID, or 0. */ static int ATIMach64ImpacTVProbe ( int iScreen, ATIPtr pATI ) { CARD8 ChipID = 0; /* Assume ATIModePreInit() has already been called */ outr(MPP_STROBE_SEQ, pATI->NewHW.mpp_strobe_seq); outr(TVO_CNTL, pATI->NewHW.tvo_cntl); outr(MPP_CONFIG, MPP_READ); ATIMach64MPPWaitForIdle(pATI); outr(MPP_ADDR, 0x0000000AU); if (!(ChipID = in8(MPP_DATA))) { ATIMach64MPPWaitForIdle(pATI); outr(MPP_ADDR, 0x00000023U); if ((ChipID = in8(MPP_DATA)) != 0x54U) { ATIMach64MPPWaitForIdle(pATI); outr(MPP_ADDR, 0x0000000BU); ChipID = in8(MPP_DATA); } } ATIMach64MPPWaitForIdle(pATI); outr(MPP_CONFIG, MPP_WRITE); if (ChipID) xf86DrvMsg(iScreen, X_PROBED, "ImpacTV chip ID 0x%02X detected.\n", ChipID); return (int)(CARD16)ChipID; } /* * ATIMach64ImpacTVSetBits -- * * Controls I2C SDA and SCL lines through ImpacTV. */ static void ATIMach64ImpacTVSetBits ( ATII2CPtr pATII2C, ATIPtr pATI, CARD32 Bits ) { pATII2C->I2CCur = Bits; ATIMach64MPPSetAddress(pATI, IT_I2C_CNTL); outr(MPP_CONFIG, MPP_WRITE); out8(MPP_DATA, (CARD8)Bits); ATIMach64MPPWaitForIdle(pATI); } /* * ATIMach64ImpacTVGetBits -- * * Returns the status of an ImpacTV's I2C control lines. */ static CARD32 ATIMach64ImpacTVGetBits ( ATIPtr pATI ) { ATIMach64MPPSetAddress(pATI, IT_I2C_CNTL); outr(MPP_CONFIG, MPP_READ); ATIMach64MPPWaitForIdle(pATI); return in8(MPP_DATA); } /* * ATIMach64I2C_CNTLSetBits -- * * Controls SDA and SCL lines through a 3D Rage Pro's hardware assisted I2C. */ static void ATIMach64I2C_CNTLSetBits ( ATII2CPtr pATII2C, ATIPtr pATI, CARD32 Bits ) { pATII2C->I2CCur = Bits; out8(I2C_CNTL_0 + 1, (CARD8)Bits); } /* * ATIMach64I2C_CNTLGetBits -- * * Returns the status of a 3D Rage Pro's hardware assisted I2C control lines. */ static CARD32 ATIMach64I2C_CNTLGetBits ( ATIPtr pATI ) { return in8(I2C_CNTL_0 + 1); } /* * ATIMach64GP_IOSetBits -- * * Controls SDA and SCL control lines through a Mach64's GP_IO register. */ static void ATIMach64GP_IOSetBits ( ATII2CPtr pATII2C, ATIPtr pATI, CARD32 Bits ) { pATII2C->I2CCur = Bits; outr(GP_IO, Bits); } /* * ATIMach64GP_IOGetBits -- * * Returns the status of I2C control lines through a Mach64's GP_IO register. */ static CARD32 ATIMach64GP_IOGetBits ( ATIPtr pATI ) { return inr(GP_IO); } #define GPIO1_MASK \ (DAC_GIO_STATE_1 | DAC_GIO_DIR_1) #define GPIO2_MASK \ (GEN_GIO2_DATA_OUT | GEN_GIO2_DATA_IN | GEN_GIO2_WRITE) /* * ATIMach64DAC_GENSetBits -- * * Controls SDA and SCL control lines through a Mach64's GEN_TEST_CNTL and * DAC_CNTL registers. */ static void ATIMach64DAC_GENSetBits ( ATII2CPtr pATII2C, ATIPtr pATI, CARD32 Bits ) { CARD32 tmp; pATII2C->I2CCur = Bits; tmp = inr(DAC_CNTL) & ~GPIO1_MASK; outr(DAC_CNTL, tmp | (Bits & GPIO1_MASK)); tmp = inr(GEN_TEST_CNTL) & ~GPIO2_MASK; outr(GEN_TEST_CNTL, tmp | (Bits & GPIO2_MASK)); } /* * ATIMach64DAC_GENGetBits -- * * Returns the status of I2C control lines through a Mach64's GEN_TEST_CNTL and * DAC_CNTL registers. */ static CARD32 ATIMach64DAC_GENGetBits ( ATIPtr pATI ) { return (inr(DAC_CNTL) & GPIO1_MASK) | (inr(GEN_TEST_CNTL) & GPIO2_MASK); } /* * ATITVAddOnProbe -- * * Probe for an ATI-TV add-on card at specific addresses on an I2C bus. */ static Bool ATITVAddOnProbe ( ScrnInfoPtr pScreenInfo, ATIPtr pATI, I2CBusPtr pI2CBus ) { I2CDevPtr pI2CDev = xnfcalloc(1, SizeOf(I2CDevRec)); int Index; I2CByte tmp; static const CARD8 ATITVAddOnAddresses[] = {0x70, 0x40, 0x78, 0x72, 0x42}; pI2CDev->DevName = "ATI-TV Add-on"; pI2CDev->pI2CBus = pI2CBus; pI2CDev->StartTimeout = pI2CBus->StartTimeout; pI2CDev->BitTimeout = pI2CBus->BitTimeout; pI2CDev->AcknTimeout = pI2CBus->AcknTimeout; pI2CDev->ByteTimeout = pI2CBus->ByteTimeout; for (Index = 0; Index < NumberOf(ATITVAddOnAddresses); Index++) { pI2CDev->SlaveAddr = ATITVAddOnAddresses[Index]; if (xf86I2CFindDev(pI2CBus, pI2CDev->SlaveAddr)) continue; tmp = 0xFFU; if (!(*pI2CBus->I2CWriteRead)(pI2CDev, &tmp, 1, NULL, 0) || !(*pI2CBus->I2CWriteRead)(pI2CDev, NULL, 0, &tmp, 1) || (tmp == 0xFFU) || ((tmp = tmp & 0x1FU) == /*ATI_TUNER_NONE*/0)) continue; if (!xf86I2CDevInit(pI2CDev)) { xf86DrvMsg(pScreenInfo->scrnIndex, X_WARNING, "Failed to register I2C device for ATI-TV add-on.\n"); break; } if (pATI->Tuner != tmp) { if (pATI->Tuner != ATI_TUNER_NONE) xf86DrvMsg(pScreenInfo->scrnIndex, X_WARNING, "Tuner type mismatch: BIOS 0x%x, ATI-TV 0x%x.\n", pATI->Tuner, tmp); pATI->Tuner = tmp; } xf86DrvMsg(pScreenInfo->scrnIndex, X_PROBED, "%s tuner detected on ATI-TV add-on adapter at I2C bus address" " 0x%2x.\n", ATITuners[pATI->Tuner].name, pI2CDev->SlaveAddr); return TRUE; } xfree(pI2CDev); return FALSE; } /* * ATIMach64I2CPreInit -- * * This function potentially allocates an I2CBusRec and initialises it with * ATI-specific and Mach64-specific information. */ void ATIMach64I2CPreInit ( ScrnInfoPtr pScreenInfo, ATIPtr pATI ) { I2CBusPtr pI2CBus; ATII2CPtr pATII2C; if ((pATI->Chip < ATI_CHIP_264CT) || (pATI->Chip >= ATI_CHIP_Mach64)) return; /* Create an I2CBusRec and generically prime it */ if (!(pI2CBus = ATICreateI2CBusRec(pScreenInfo->scrnIndex, pATI, "Mach64"))) return; pATII2C = pI2CBus->DriverPrivate.ptr; switch (pATI->Chip) { case ATI_CHIP_264GTPRO: case ATI_CHIP_264LTPRO: case ATI_CHIP_264XL: case ATI_CHIP_MOBILITY: /* * These have I2C-specific registers. Assume older I2C access * mechanisms are inoperative. */ pATII2C->I2CSetBits = ATIMach64I2C_CNTLSetBits; pATII2C->I2CGetBits = ATIMach64I2C_CNTLGetBits; pATII2C->SCLDir = pATII2C->SDADir = 0; pATII2C->SCLGet = pATII2C->SCLSet = GetByte(I2C_CNTL_SCL, 1); pATII2C->SDAGet = pATII2C->SDASet = GetByte(I2C_CNTL_SDA, 1); out8(I2C_CNTL_1 + 2, GetByte(I2C_SEL, 2)); out8(I2C_CNTL_0 + 0, GetByte(I2C_CNTL_STAT | I2C_CNTL_HPTR_RST, 0)); break; case ATI_CHIP_264VTB: case ATI_CHIP_264GTB: case ATI_CHIP_264VT3: case ATI_CHIP_264GTDVD: case ATI_CHIP_264LT: case ATI_CHIP_264VT4: case ATI_CHIP_264GT2C: /* If an ImpacTV chip is found, use it to provide I2C access */ if (ATIMach64ImpacTVProbe(pScreenInfo->scrnIndex, pATI)) { pATII2C->I2CSetBits = ATIMach64ImpacTVSetBits; pATII2C->I2CGetBits = ATIMach64ImpacTVGetBits; pATII2C->SCLDir = IT_SCL_DIR; pATII2C->SCLGet = IT_SCL_GET; pATII2C->SCLSet = IT_SCL_SET; pATII2C->SDADir = IT_SDA_DIR; pATII2C->SDAGet = IT_SDA_GET; pATII2C->SDASet = IT_SDA_SET; ATIMach64MPPSetAddress(pATI, IT_I2C_CNTL); outr(MPP_CONFIG, MPP_WRITEINC); out8(MPP_DATA, 0x00U); out8(MPP_DATA, 0x55U); out8(MPP_DATA, 0x00U); out8(MPP_DATA, 0x00U); ATIMach64MPPWaitForIdle(pATI); break; } /* Otherwise, fall through to the older case */ case ATI_CHIP_264VT: case ATI_CHIP_264GT: /* First try GIO pins 11 (clock) and 4 (data) */ pATII2C->I2CSetBits = ATIMach64GP_IOSetBits; pATII2C->I2CGetBits = ATIMach64GP_IOGetBits; pATII2C->SCLDir = GP_IO_DIR_B; pATII2C->SCLGet = pATII2C->SCLSet = GP_IO_B; pATII2C->SDADir = GP_IO_DIR_4; pATII2C->SDAGet = pATII2C->SDASet = GP_IO_4; if (ATITVAddOnProbe(pScreenInfo, pATI, pI2CBus)) break; /* Next, try pins 10 (clock) and 12 (data) */ pATII2C->SCLDir = GP_IO_DIR_A; pATII2C->SCLGet = pATII2C->SCLSet = GP_IO_A; pATII2C->SDADir = GP_IO_DIR_C; pATII2C->SDAGet = pATII2C->SDASet = GP_IO_C; if (ATITVAddOnProbe(pScreenInfo, pATI, pI2CBus)) break; /* Otherwise, fall back to ATI's first I2C implementation */ default: /* * First generation integrated controllers access GIO pin 1 (clock) * though DAC_CNTL, and pin 2 (data) through GEN_TEST_CNTL. */ pATII2C->I2CSetBits = ATIMach64DAC_GENSetBits; pATII2C->I2CGetBits = ATIMach64DAC_GENGetBits; pATII2C->SCLDir = DAC_GIO_DIR_1; pATII2C->SCLGet = pATII2C->SCLSet = DAC_GIO_STATE_1; pATII2C->SDADir = GEN_GIO2_WRITE; pATII2C->SDAGet = GEN_GIO2_DATA_IN; pATII2C->SDASet = GEN_GIO2_DATA_OUT; (void)ATITVAddOnProbe(pScreenInfo, pATI, pI2CBus); break; } }