FreeCalypso > hg > fc-tourmaline
view src/cs/layer1/tpu_drivers/source0/tpudrv2.h @ 223:740a8e8fc9d7
startup sync logic rework for the new PWON button boot scheme
Previously we added logic to the MMI task to hold off PEI init until
R2D is running, and then extended that condition to wait for FCHG
init too. However, the dependencies of MMI upon R2D and FCHG don't
start until mmiInit(), and that call is driven by Switch_ON() code,
hence the wait for R2D and FCHG init can be made in that code path
instead of the MMI task. Furthermore, with our new way of signaling
PWON button boot to MMI, we need a new wait to ensure that the MMI
task is up - previously this assurance was provided by the wait for
Kp pointers to be set.
Solution: revert our previous PEI init hold-off additions to MMI,
add a new flag indicating MMI task init done, and put the combined
wait for all needed conditions into our new PWON button boot code
in power.c.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Tue, 27 Apr 2021 06:24:52 +0000 |
| parents | 4e78acac3d88 |
| children |
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/****************** Revision Controle System Header *********************** * GSM Layer 1 software * Copyright (c) Texas Instruments 1998 * * Filename tpudrv2.h * Copyright 2003 (C) Texas Instruments * ****************** Revision Controle System Header ***********************/ /***********************************************************/ /* */ /* Used Timing definitions given in "L1_TIME.H" */ /* -------------------------------------------- */ /* */ /* START_RX_FB STOP_RX_FB */ /* START_RX_SB STOP_RX_SB */ /* START_RX_SNB STOP_RX_SNB */ /* START_RX_NNB STOP_RX_NNB */ /* START_RX_PW_1 STOP_RX_PW_1 */ /* START_RX_FB26 STOP_RX_FB26 */ /* START_TX_NB STOP_TX_NB */ /* START_RX_RA STOP_RX_RA */ /* */ /***********************************************************/ // BB Timings #define VG_CAL_RX_DELAY 65 #define VG_CAL_TX_DELAY 143 #define VG_BDLON_DELAY 70 #define VG_BULOFF_DELAY 35 #define VG_BULON_DELAY 159 #if ((ANLG_FAM == 1) || (ANLG_FAM == 2) || (ANLG_FAM == 3)) #define OM_CAL_RX_DELAY 65 #define OM_CAL_TX_DELAY 230 #define OM_BDLON_DELAY 166 #define OM_BULOFF_DELAY 35 #define OM_BULON_DELAY 250 #define SL_SU_DELAY1 4 #define SL_SU_DELAY2 3 #endif #define RA_TRANSMIS_DURATION ( RA_BURST_DURATION + 46L ) #define NB_TRANSMIS_DURATION ( NB_BURST_DURATION_UL + 29L ) #define START_TX_NB ( 4984L ) // Calibration time is reduced of 4 GSM bit due to a slow APC ramp #define STOP_TX_NB ( START_TX_NB + NB_TRANSMIS_DURATION ) #define STOP_TX_RA ( START_TX_RA + RA_TRANSMIS_DURATION ) #ifdef TPUDRV2_C #if ((ANLG_FAM == 1) || (ANLG_FAM == 2) || (ANLG_FAM == 3)) const unsigned short RF_Sleep[] ={ /*** Immediate ***/ TPU_MOVE(TSP_SPI_SET1, TSP_ENA_POS_MSB), TPU_MOVE(TSP_SPI_SET2, TSP_ENA_POS_MSB | TSP_ENA_POS), 0 }; const unsigned short RF_Wakeup[] ={ /*** Immediate ***/ TPU_MOVE(TSP_SPI_SET1, 0x00), TPU_MOVE(TSP_SPI_SET2, TSP_ENA_POS), 0 }; /*--------------------------------------------------------------------------------------------------------------*/ /* Serial link delay for OMEGA. this delay includes */ /* TSP register programming and serialization of data to OMEGA */ /* */ /* */ /* 4991 4992 4993 4994 4995 4996 4997 */ /* ---------------------------------------------------------------------------------------------- */ /* | | | | | | | */ /*OMEGA | AT(4991) | Clock conf | Nb of bit | Load data | Send write | Serialization */ /* | | | to shift | to shift | command | | */ /* ---------------------------------------------------------------------------------------------- */ /* | | | | | | | */ /* VEGA | | | | | | AT(4996) | TSPACT */ /* | | | | | | | */ /* ------------------------------------------------------------------------------------------|--- */ /* <------------------------------------------------------------------> | */ /* SL_SU_DELAY1 | */ /* V */ /* ACTION ON WINDOW */ /* */ /* When the TSP port is already configured is not necessary to configure the clock and the number of bits */ /* */ /* */ /* 4998 4999 0 1 2 */ /* ------------------------------------------------------------------- */ /* | | | | | | */ /*OMEGA | AT(4998) | Load data | Send write | Serialization | */ /* | | to shift | command | | | */ /* ---------------------------------------------------------------------- */ /* | | | | | | */ /* VEGA | | | | AT(4996) | TSPACT */ /* | | | | | | */ /* ------------------------------------------------------------|------- */ /* <---------------------------------------> | */ /* SL_SU_DELAY2 | */ /* V */ /* ACTION ON WINDOW */ /* */ /* */ /* NOTE : WITH THIS IMPLEMENTATION THE OMEGA SCENARIO ANTICIPATES THE ACTION ON WINDOW SIGNAL OF 347 ns. */ /* ANYWAY ACTION IS TAKEN IN THE SAME QB INTERVAL */ /* */ /* */ /*--------------------------------------------------------------------------------------------------------------*/ /***********************************************************/ /* BASEBAND TPU SCENARIOS FOR OMEGA */ /***********************************************************/ #if ((CHIPSET == 4) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 10) || (CHIPSET == 11)) // Samson TPU scenario: add 1 bit to reception window for DMA thres = 2 const SYS_UWORD16 VG_DlNormalBurst [] = { TPU_AT (START_RX_SNB -VG_BDLON_DELAY - SL_SU_DELAY1 ), // AT(4991) // TPU_MOVE (TSP_SPI_SET1, TSP_CLK_RISE), TPU_MOVE (TSP_CTRL1,6), TPU_MOVE (TSP_TX_REG_1,BDLON), TPU_MOVE (TSP_CTRL2, TC2_WR), TPU_AT (START_RX_SNB - VG_CAL_RX_DELAY - SL_SU_DELAY2), // AT(4998) TPU_MOVE (TSP_TX_REG_1,BDLON | BDLCAL), TPU_MOVE (TSP_CTRL2, TC2_WR), TPU_AT (START_RX_SNB - SL_SU_DELAY2), // AT(63) TPU_MOVE (TSP_TX_REG_1,BDLON | BDLENA), TPU_MOVE (TSP_CTRL2, TC2_WR), TPU_AT (STOP_RX_SNB - SL_SU_DELAY2), // AT(699) TPU_MOVE (TSP_TX_REG_1,0x00), TPU_MOVE (TSP_CTRL2, TC2_WR), 0 }; // HERCULES TPU scenario const SYS_UWORD16 VG_DlFrequencyBurstIdle [] = { TPU_AT (START_RX_FB - VG_BDLON_DELAY -SL_SU_DELAY1 ), // AT(4991) // TPU_MOVE (TSP_SPI_SET1, TSP_CLK_RISE), TPU_MOVE (TSP_CTRL1,6), TPU_MOVE (TSP_TX_REG_1,BDLON), TPU_MOVE (TSP_CTRL2, TC2_WR), TPU_AT (START_RX_FB - VG_CAL_RX_DELAY -SL_SU_DELAY2), // AT(4998) TPU_MOVE (TSP_TX_REG_1,BDLON | BDLCAL), TPU_MOVE (TSP_CTRL2, TC2_WR), TPU_AT (START_RX_FB - SL_SU_DELAY2), // AT(63) TPU_MOVE (TSP_TX_REG_1,BDLON | BDLENA), TPU_MOVE (TSP_CTRL2, TC2_WR), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (STOP_RX_FB - SL_SU_DELAY2), // AT(2119) TPU_MOVE (TSP_TX_REG_1,0X00), TPU_MOVE (TSP_CTRL2, TC2_WR), 0 }; #else /* HERCULES TPU scenario */ const SYS_UWORD16 VG_DlNormalBurst [] = { TPU_AT (START_RX_SNB -VG_BDLON_DELAY - SL_SU_DELAY1 ), // AT(4991) // TPU_MOVE (TSP_SPI_SET1, TSP_CLK_RISE), TPU_MOVE (TSP_CTRL1,6), TPU_MOVE (TSP_TX_REG_1,BDLON), TPU_MOVE (TSP_CTRL2, TC2_WR), TPU_AT (START_RX_SNB - VG_CAL_RX_DELAY - SL_SU_DELAY2), // AT(4998) TPU_MOVE (TSP_TX_REG_1,BDLON | BDLCAL), TPU_MOVE (TSP_CTRL2, TC2_WR), TPU_AT (START_RX_SNB - SL_SU_DELAY2), // AT(63) TPU_MOVE (TSP_TX_REG_1,BDLON | BDLENA), TPU_MOVE (TSP_CTRL2, TC2_WR), TPU_AT (STOP_RX_SNB - SL_SU_DELAY2), // AT(699) TPU_MOVE (TSP_TX_REG_1,0x00), TPU_MOVE (TSP_CTRL2, TC2_WR), 0 }; // HERCULES TPU scenario const SYS_UWORD16 VG_DlFrequencyBurstIdle [] = { TPU_AT (START_RX_FB - VG_BDLON_DELAY -SL_SU_DELAY1 ), // AT(4991) // TPU_MOVE (TSP_SPI_SET1, TSP_CLK_RISE), TPU_MOVE (TSP_CTRL1,6), TPU_MOVE (TSP_TX_REG_1,BDLON), TPU_MOVE (TSP_CTRL2, TC2_WR), TPU_AT (START_RX_FB - VG_CAL_RX_DELAY -SL_SU_DELAY2), // AT(4998) TPU_MOVE (TSP_TX_REG_1,BDLON | BDLCAL), TPU_MOVE (TSP_CTRL2, TC2_WR), TPU_AT (START_RX_FB - SL_SU_DELAY2), // AT(63) TPU_MOVE (TSP_TX_REG_1,BDLON | BDLENA), TPU_MOVE (TSP_CTRL2, TC2_WR), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (0), TPU_AT (STOP_RX_FB - SL_SU_DELAY2), // AT(2119) TPU_MOVE (TSP_TX_REG_1,0X00), TPU_MOVE (TSP_CTRL2, TC2_WR), 0 }; #endif // HERCULES TPU scenario for Omega windows reset const SYS_UWORD16 VG_Omega_win_reset[] = { TPU_MOVE (TSP_SPI_SET1, TSP_CLK_RISE), TPU_MOVE (TSP_CTRL1,6), TPU_MOVE (TSP_TX_REG_1,0x00), TPU_MOVE (TSP_CTRL2, TC2_WR), 0 }; #endif #else extern const SYS_UWORD16 VG_DlNormalBurst[]; extern const SYS_UWORD16 VG_DlFrequencyBurstIdle[]; #endif