FreeCalypso > hg > fc-magnetite
view src/g23m-fad/tcpip/include/rvf_pool_size.h @ 662:8cd8fd15a095
SIM speed enhancement re-enabled and made configurable
TI's original code supported SIM speed enhancement, but Openmoko had it
disabled, and OM's disabling of speed enhancement somehow caused certain
SIM cards to start working which didn't work before (OM's bug #666).
Because our FC community is much smaller in year 2020 than OM's community
was in their day, we are not able to find one of those #666-affected SIMs,
thus the real issue they had encountered remains elusive. Thus our
solution is to re-enable SIM speed enhancement and simply wait for if
and when someone runs into a #666-affected SIM once again. We provide
a SIM_allow_speed_enhancement global variable that allows SIM speed
enhancement to be enabled or disabled per session, and an /etc/SIM_spenh
file in FFS that allows it to enabled or disabled on a non-volatile
basis. SIM speed enhancement is now enabled by default.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Sun, 24 May 2020 05:02:28 +0000 |
| parents | 90eb61ecd093 |
| children |
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/****************************************************************************/ /* */ /* Name rvf_pool_size.h */ /* */ /* Function this file contains definitions for buffer pool sizes */ /* */ /* */ /* */ /* */ /* Version 0.3 */ /* */ /* Date Modification */ /* ------------------------------------ */ /* 4/19/1999 Create */ /* 10/27/1999 Remove declaration of ntohs, htons, ntohl, htonl */ /* in order to avoid conflict with winsock.h */ /* 12/23/1999 Add buffer and memory bank related definition */ /* 07/12/2000 Implement dynamic memory allocation. */ /* 01/13/2002 Extracted buffer pool size info from rvf_target.h */ /* to prevent useless full recompilation when those datas */ /* are changed */ /* 10/01/2002 Completely reworked in order to be modular */ /* */ /* Author David Lamy-Charrier (dlamy@tif.ti.com) */ /* */ /* (C) Copyright 1999 by Texas Instruments Incorporated, All Rights Reserved*/ /****************************************************************************/ #ifndef _RVF_POOL_SIZE_H #define _RVF_POOL_SIZE_H #ifndef _SIMULATION_ #include "r2d.cfg" #include "rv.cfg" #include "debug.cfg" #include "board.cfg" #include "l1sw.cfg" #include "swconfig.cfg" #endif #include "rv_defined_swe.h" #if (defined RVM_MDC_SWE) #include "mdc.cfg" #endif /* * Defines the memory pools used by each Riviera SWE * * In case of new SWE (i.e. called NEW), use the following template: * * #ifdef RVM_NEW_SWE * * #define RVF_NEW_STACK_SIZE (Stack_size) * #define RVF_NEW_MB1_SIZE (MB1_size) * #define RVF_NEW_MB2_SIZE (MB2_size) * #define RVF_NEW_MB3_SIZE (MB3_size) * * #define RVF_NEW_POOL_SIZE (RVF_NEW_STACK_SIZE + \ * RVF_NEW_MB1_SIZE + RVF_NEW_MB2_SIZE + RVF_NEW_MB3_SIZE) * #else * #define RVF_NEW_POOL_SIZE (0) * #endif * * * ATP SWE */ #ifdef RVM_ATP_SWE /* * Values used in atp_config.h */ #define RVF_ATP_MB1_SIZE (5000) #define RVF_ATP_POOL_SIZE (RVF_ATP_MB1_SIZE) #else #define RVF_ATP_POOL_SIZE (0) #endif /* * ATP_UART SWE */ #ifdef RVM_ATP_UART_SWE /* * Values used in atp_uart_env.h */ #define RVF_ATP_UART_STACK_SIZE (1024) #define RVF_ATP_UART_MB1_SIZE (1024) #define RVF_ATP_UART_POOL_SIZE (RVF_ATP_UART_STACK_SIZE + RVF_ATP_UART_MB1_SIZE) #else #define RVF_ATP_UART_POOL_SIZE (0) #endif /* * AUDIO SWE and background */ #ifdef RVM_AUDIO_MAIN_SWE /* * Values used in audio_env_i.h */ #define RVF_AUDIO_STACK_SIZE (1280) #define RVF_AUDIO_MB1_SIZE (512) #define RVF_AUDIO_MB2_SIZE (768) #if (GSMLITE) #define RVF_AUDIO_MB3_SIZE (0) #elif (SPEECH_RECO) #define RVF_AUDIO_MB3_SIZE (7382) #else #define RVF_AUDIO_MB3_SIZE (2048) #endif #define RVF_AUDIO_POOL_SIZE (RVF_AUDIO_STACK_SIZE + \ RVF_AUDIO_MB1_SIZE + RVF_AUDIO_MB2_SIZE + RVF_AUDIO_MB3_SIZE) #else #define RVF_AUDIO_POOL_SIZE (0) #endif #ifdef RVM_AUDIO_BGD_SWE /* * Values used in audio_env_i.h */ #define RVF_AUDIO_BGD_STACK_SIZE (512) #define RVF_AUDIO_BGD_MB1_SIZE (256) #define RVF_AUDIO_BGD_POOL_SIZE (RVF_AUDIO_BGD_STACK_SIZE + \ RVF_AUDIO_BGD_MB1_SIZE) #else #define RVF_AUDIO_BGD_POOL_SIZE (0) #endif /* * BTCTRL SWE */ #ifdef RVM_BTCTRL_SWE /* * Values used in btctrl_env.h */ #define RVF_BTCTRL_STACK_SIZE (2000) #define RVF_BTCTRL_MB1_SIZE (5000) #define RVF_BTCTRL_POOL_SIZE (RVF_BTCTRL_STACK_SIZE + RVF_BTCTRL_MB1_SIZE) #else #define RVF_BTCTRL_POOL_SIZE (0) #endif /* * DAR SWE */ #ifdef RVM_DAR_SWE /* * Values used in dar_env.h */ #define RVF_DAR_STACK_SIZE (1024) #define RVF_DAR_MB1_SIZE (512) #define RVF_DAR_POOL_SIZE (RVF_DAR_STACK_SIZE + RVF_DAR_MB1_SIZE) #else #define RVF_DAR_POOL_SIZE (0) #endif /* * DEV1 SWE */ #ifdef RVM_DEV1_SWE /* * Values used in dev1_env.h */ #define RVF_DEV1_STACK_SIZE (2000) #define RVF_DEV1_MB1_SIZE (5000) #define RVF_DEV1_POOL_SIZE (RVF_DEV1_STACK_SIZE + RVF_DEV1_MB1_SIZE) #else #define RVF_DEV1_POOL_SIZE (0) #endif /* * DEV2 SWE */ #ifdef RVM_DEV2_SWE /* * Values used in dev2_env.h */ #define RVF_DEV2_STACK_SIZE (2000) #define RVF_DEV2_MB1_SIZE (5000) #define RVF_DEV2_POOL_SIZE (RVF_DEV2_STACK_SIZE + RVF_DEV2_MB1_SIZE) #else #define RVF_DEV2_POOL_SIZE (0) #endif /* * DEV3 SWE */ #ifdef RVM_DEV3_SWE /* * Values used in dev3_env.h */ #define RVF_DEV3_STACK_SIZE (2000) #define RVF_DEV3_MB1_SIZE (5000) #define RVF_DEV3_POOL_SIZE (RVF_DEV3_STACK_SIZE + RVF_DEV3_MB1_SIZE) #else #define RVF_DEV3_POOL_SIZE (0) #endif /* * DUN_GW SWE */ #ifdef RVM_DUN_GW_SWE /* * Values used in dun_GW_env.h */ #define RVF_DUN_GW_STACK_SIZE (1024) #define RVF_DUN_GW_MB1_SIZE (1024) #define RVF_DUN_GW_MB2_SIZE (4096) #define RVF_DUN_GW_MB3_SIZE (4096) #define RVF_DUN_GW_POOL_SIZE (RVF_DUN_GW_STACK_SIZE + \ RVF_DUN_GW_MB1_SIZE + RVF_DUN_GW_MB2_SIZE + RVF_DUN_GW_MB3_SIZE) #else #define RVF_DUN_GW_POOL_SIZE (0) #endif /* * ETM SWE */ #ifdef RVM_ETM_SWE /* * Values used in etm_env.h */ #define RVF_ETM_STACK_SIZE (1024) #define RVF_ETM_MB1_SIZE (2048) #define RVF_ETM_POOL_SIZE (RVF_ETM_STACK_SIZE + RVF_ETM_MB1_SIZE) #else #define RVF_ETM_POOL_SIZE (0) #endif /* * EXPL SWE */ #ifdef RVM_EXPL_SWE /* * Values used in expl_env.h */ #define RVF_EXPL_STACK_SIZE (2000) #define RVF_EXPL_MB1_SIZE (5000) #define RVF_EXPL_POOL_SIZE (RVF_EXPL_STACK_SIZE + RVF_EXPL_MB1_SIZE) #else #define RVF_EXPL_POOL_SIZE (0) #endif /* * FAX_GW SWE */ #ifdef RVM_FAX_GW_SWE /* * Values used in fax_GW_env.h */ #define RVF_FAX_GW_STACK_SIZE (1024) #define RVF_FAX_GW_MB1_SIZE (1024) #define RVF_FAX_GW_MB2_SIZE (4096) #define RVF_FAX_GW_MB3_SIZE (4096) #define RVF_FAX_GW_POOL_SIZE (RVF_FAX_GW_STACK_SIZE + \ RVF_FAX_GW_MB1_SIZE + RVF_FAX_GW_MB2_SIZE + RVF_FAX_GW_MB3_SIZE) #else #define RVF_FAX_GW_POOL_SIZE (0) #endif /* * FFS SWE */ #ifdef RVM_FFS_SWE /* * Values used in ffs_env.h */ #define RVF_FFS_STACK_SIZE (512) #if (!GSMLITE) #define RVF_FFS_MB1_SIZE (8192) #else #define RVF_FFS_MB1_SIZE (4096) #endif #define RVF_FFS_POOL_SIZE (RVF_FFS_STACK_SIZE + RVF_FFS_MB1_SIZE) #else #define RVF_FFS_POOL_SIZE (0) #endif /* * FTP SWE */ #ifdef RVM_FTP_SWE /* * Values used in ftp_env.h */ #define RVF_FTP_STACK_SIZE (4000) #define RVF_FTP_MB1_SIZE (5000) #define RVF_FTP_MB2_SIZE (5000) #define RVF_FTP_MB3_SIZE (5000) #define RVF_FTP_POOL_SIZE (RVF_FTP_STACK_SIZE + \ RVF_FTP_MB1_SIZE + RVF_FTP_MB2_SIZE + RVF_FTP_MB3_SIZE) #else #define RVF_FTP_POOL_SIZE (0) #endif /* * HCI SWE */ #ifdef RVM_HCI_SWE /* * Values used in hci_env.h */ #define RVF_HCI_MB1_SIZE (10000) #define RVF_HCI_MB2_SIZE (10000) #define RVF_HCI_POOL_SIZE (RVF_HCI_MB1_SIZE + RVF_HCI_MB2_SIZE) #else #define RVF_HCI_POOL_SIZE (0) #endif /* * HS SWE */ #ifdef RVM_HS_SWE /* * Values used in hs_config.h */ #define RVF_HS_STACK_SIZE (1000) #define RVF_HS_MB1_SIZE (5000) #define RVF_HS_MB2_SIZE (5000) #define RVF_HS_MB3_SIZE (5000) #define RVF_HS_POOL_SIZE (RVF_HS_STACK_SIZE + \ RVF_HS_MB1_SIZE + RVF_HS_MB2_SIZE + RVF_HS_MB3_SIZE) #else #define RVF_HS_POOL_SIZE (0) #endif /* * HSG SWE */ #ifdef RVM_HSG_SWE /* * Values used in hsg_config.h */ #define RVF_HSG_STACK_SIZE (1000) #define RVF_HSG_MB1_SIZE (5000) #define RVF_HSG_MB2_SIZE (5000) #define RVF_HSG_MB3_SIZE (5000) #define RVF_HSG_POOL_SIZE (RVF_HSG_STACK_SIZE + \ RVF_HSG_MB1_SIZE + RVF_HSG_MB2_SIZE + RVF_HSG_MB3_SIZE) #else #define RVF_HSG_POOL_SIZE (0) #endif /* * KCL SWE */ #ifdef RVM_KCL_SWE /* * Values used in kcl_env.h */ #define RVF_KCL_MB1_SIZE (500) #define RVF_KCL_POOL_SIZE (RVF_KCL_MB1_SIZE) #else #define RVF_KCL_POOL_SIZE (0) #endif /* * KGC SWE */ #ifdef RVM_KGC_SWE /* * Values used in kgc_env.h */ #define RVF_KGC_MB1_SIZE (500) #define RVF_KGC_POOL_SIZE (RVF_KGC_MB1_SIZE) #else #define RVF_KGC_POOL_SIZE (0) #endif /* * KIL SWE */ #ifdef RVM_KIL_SWE /* * Values used in kil_env.h */ #define RVF_KIL_MB1_SIZE (500) #define RVF_KIL_POOL_SIZE (RVF_KIL_MB1_SIZE) #else #define RVF_KIL_POOL_SIZE (0) #endif /* * KMM SWE */ #ifdef RVM_KMM_SWE /* * Values used in kmm_env.h */ #define RVF_KMM_MB1_SIZE (500) #define RVF_KMM_POOL_SIZE (RVF_KMM_MB1_SIZE) #else #define RVF_KMM_POOL_SIZE (0) #endif /* * KNM SWE */ #ifdef RVM_KNM_SWE /* * Values used in knm_env.h */ #define RVF_KNM_MB1_SIZE (500) #define RVF_KNM_POOL_SIZE (RVF_KNM_MB1_SIZE) #else #define RVF_KNM_POOL_SIZE (0) #endif /* * KPD SWE */ #ifdef RVM_KPD_SWE /* * Values used in kpd_env.h */ #define RVF_KPD_STACK_SIZE (1000) #if ((BOARD == 7) || (BOARD == 8) || (BOARD == 9)) #define RVF_KPD_MB1_SIZE (716) #elif ((BOARD == 34) || (BOARD == 40) || (BOARD == 41) || (BOARD == 42) || (BOARD == 43)) #define RVF_KPD_MB1_SIZE (788) #elif defined _WINDOWS #define RVF_KPD_MB1_SIZE (788) #endif /* BOARD */ #define RVF_KPD_POOL_SIZE (RVF_KPD_STACK_SIZE + RVF_KPD_MB1_SIZE) #else #define RVF_KPD_POOL_SIZE (0) #endif /* * KPG SWE */ #ifdef RVM_KPG_SWE /* * Values used in kpg_env.h */ #define RVF_KPG_MB1_SIZE (500) #define RVF_KPG_POOL_SIZE (RVF_KPG_MB1_SIZE) #else #define RVF_KPG_POOL_SIZE (0) #endif /* * KZP SWE */ #ifdef RVM_KZP_SWE /* * Values used in kzp_env.h */ #define RVF_KZP_MB1_SIZE (500) #define RVF_KZP_POOL_SIZE (RVF_KZP_MB1_SIZE) #else #define RVF_KZP_POOL_SIZE (0) #endif /* * L2CAP SWE */ #ifdef RVM_L2CAP_SWE /* * Values used in l2cap_env.h */ #define RVF_L2CAP_STACK_SIZE (1024) #define RVF_L2CAP_MB1_SIZE (3072) #define RVF_L2CAP_MB2_SIZE (2048) #define RVF_L2CAP_MB3_SIZE (1024) #define RVF_L2CAP_POOL_SIZE (RVF_L2CAP_STACK_SIZE + \ RVF_L2CAP_MB1_SIZE + RVF_L2CAP_MB2_SIZE + RVF_L2CAP_MB3_SIZE) #else #define RVF_L2CAP_POOL_SIZE (0) #endif /* * LLS SWE */ #ifdef RVM_LLS_SWE /* * Values used in lls_env.h */ #define RVF_LLS_MB1_SIZE (50) #define RVF_LLS_POOL_SIZE (RVF_LLS_MB1_SIZE) #else #define RVF_LLS_POOL_SIZE (0) #endif /* * MKS SWE */ #ifdef RVM_MKS_SWE /* * Values used in mks_env.h */ #define RVF_MKS_STACK_SIZE (500) #define RVF_MKS_MB1_SIZE (500) #define RVF_MKS_POOL_SIZE (RVF_MKS_STACK_SIZE + RVF_MKS_MB1_SIZE) #else #define RVF_MKS_POOL_SIZE (0) #endif /* * MPM SWE */ #ifdef RVM_MPM_SWE /* * Values used in mpm_env.h */ #define RVF_MPM_STACK_SIZE (2000) #define RVF_MPM_MB1_SIZE (100000) #define RVF_MPM_POOL_SIZE (RVF_MPM_STACK_SIZE + RVF_MPM_MB1_SIZE) #else #define RVF_MPM_POOL_SIZE (0) #endif /* * OBX SWE */ #ifdef RVM_OBX_SWE /* * Values used in obx_env.h */ #define RVF_OBX_STACK_SIZE (2000) #define RVF_OBX_MB1_SIZE (3000) #define RVF_OBX_MB2_SIZE (2000) #define RVF_OBX_MB3_SIZE (1500) #define RVF_OBX_POOL_SIZE (RVF_OBX_STACK_SIZE + \ RVF_OBX_MB1_SIZE + RVF_OBX_MB2_SIZE + RVF_OBX_MB3_SIZE) #else #define RVF_OBX_POOL_SIZE (0) #endif /* * OPP SWE */ #ifdef RVM_OPP_SWE /* * Values used in opp_env.h */ #define RVF_OPP_STACK_SIZE (2000) #define RVF_OPP_MB1_SIZE (1500) #define RVF_OPP_MB2_SIZE (1500) #define RVF_OPP_MB3_SIZE (1500) #define RVF_OPP_POOL_SIZE (RVF_OPP_STACK_SIZE + \ RVF_OPP_MB1_SIZE + RVF_OPP_MB2_SIZE + RVF_OPP_MB3_SIZE) #else #define RVF_OPP_POOL_SIZE (0) #endif /* * PWR SWE */ #ifdef RVM_PWR_SWE /* * Values used in pwr_env.h */ #define RVF_PWR_MB1_SIZE (1000) #define RVF_PWR_POOL_SIZE (RVF_PWR_MB1_SIZE) #else #define RVF_PWR_POOL_SIZE (0) #endif /* * R2D SWE */ #ifdef RVM_R2D_SWE /* * Values used in r2d_env.h (Stack) & r2d_inits.c (Memory Banks) */ #define RVF_R2D_STACK_SIZE (1000) #if (R2D_LCD_TEST == 1) #if defined (_WINDOWS) #define RVF_R2D_MB1_SIZE (4000) #else #define RVF_R2D_MB1_SIZE (3000) #endif #elif ((BOARD == 7) || (BOARD == 8) || (BOARD == 9)) /* #if ((R2D_EMBEDDED_LCD == R2D_MIRRORED_LCD) || (R2D_EMBEDDED_LCD == R2D_SIMPLE_LCD)) */ #define RVF_R2D_MB1_SIZE (2000) /* B or C-Sample with B&W LCD (default setting) */ /* #elif (R2D_EMBEDDED_LCD == R2D_BOARD_COLOR_LCD) */ /* #define RVF_R2D_MB1_SIZE (3000) */ /* C-Sample with Color LCD */ #elif ((BOARD == 40) || (BOARD == 41) || (BOARD == 42) || (BOARD == 43)) /* #elif ((R2D_EMBEDDED_LCD == R2D_BOARD_DSAMPLE) || (R2D_EMBEDDED_LCD == R2D_BOARD_BW_DSAMPLE)) */ #define RVF_R2D_MB1_SIZE (4000) /* D-Sample */ #elif defined (_WINDOWS) /* #elif (R2D_EMBEDDED_LCD == R2D_PC_COLOR_LCD) */ #define RVF_R2D_MB1_SIZE (4000) /* ColorPC */ /* #elif (R2D_EMBEDDED_LCD == R2D_PC_CSAMPLE) */ /* #define RVF_R2D_MB1_SIZE (XXXX) */ /* #elif (R2D_EMBEDDED_LCD == R2D_PC_DSAMPLE) */ /* #define RVF_R2D_MB1_SIZE (XXXX) */ /* #elif (R2D_EMBEDDED_LCD == R2D_CUSTOMER_LCD) */ /* #define RVF_R2D_MB1_SIZE (XXXX) */ /* #elif (R2D_EMBEDDED_LCD == R2D_HORIZONTAL_LCD) */ /* #define RVF_R2D_MB1_SIZE (XXXX) */ #endif #define RVF_R2D_POOL_SIZE (RVF_R2D_STACK_SIZE + RVF_R2D_MB1_SIZE) #else #define RVF_R2D_POOL_SIZE (0) #endif /* * RFCOMM SWE */ #ifdef RVM_RFCOMM_SWE /* * Values used in rfc_env.h */ #define RVF_RFCOMM_STACK_SIZE (1024) #define RVF_RFCOMM_MB1_SIZE (5000) #define RVF_RFCOMM_MB2_SIZE (5000) /* Memory Bank created dynamically */ /* #define RVF_RFCOMM_MB3_SIZE (To Be defined) */ #define RVF_RFCOMM_POOL_SIZE (RVF_RFCOMM_STACK_SIZE + \ RVF_RFCOMM_MB1_SIZE + RVF_RFCOMM_MB2_SIZE) /* RVF_RFCOMM_MB1_SIZE + RVF_RFCOMM_MB2_SIZE + RVF_RFCOMM_MB3_SIZE) */ #else #define RVF_RFCOMM_POOL_SIZE (0) #endif /* * RGUI SWE */ #ifdef RVM_RGUI_SWE /* * Values used in rgui_env.c */ #define RVF_RGUI_STACK_SIZE (8000) #define RVF_RGUI_MB1_SIZE (9000) #define RVF_RGUI_POOL_SIZE (RVF_RGUI_STACK_SIZE + RVF_RGUI_MB1_SIZE) #else #define RVF_RGUI_POOL_SIZE (0) #endif /* * RNET SWE */ #ifdef RVM_RNET_SWE /* * Values used in rnet_env.h */ #define RVF_RNET_MB1_SIZE (500) #define RVF_RNET_POOL_SIZE (RVF_RNET_MB1_SIZE) #else #define RVF_RNET_POOL_SIZE (0) #endif /* * RNET_BR SWE */ #ifdef RVM_RNET_BR_SWE /* * Values used in rnet_br_env.h */ #define RVF_RNET_BR_MB1_SIZE (8000) #define RVF_RNET_BR_POOL_SIZE (RVF_RNET_BR_MB1_SIZE) #else #define RVF_RNET_BR_POOL_SIZE (0) #endif /* * RNET_RT SWE */ #ifdef RVM_RNET_RT_SWE /* * Values used in rnet_rt_env.h */ #define RVF_RNET_RT_STACK_SIZE (2048) //21/02/03 : 2048 initially #define RVF_RNET_RT_MB1_BUFPOOL_SIZE (65536) #define RVF_RNET_RT_MB1_MSGPOOL_SIZE (512) #define RVF_RNET_RT_MB1_VARIABLE_SIZE (30000) // initially 20000 #define RVF_RNET_RT_POOL_SIZE (RVF_RNET_RT_STACK_SIZE + \ RVF_RNET_RT_MB1_BUFPOOL_SIZE + \ RVF_RNET_RT_MB1_MSGPOOL_SIZE + \ RVF_RNET_RT_MB1_VARIABLE_SIZE) #else #define RVF_RNET_RT_POOL_SIZE (0) #endif /* * RNET_WS SWE */ #ifdef RVM_RNET_WS_SWE /* * Values used in rnet_ws_env.h */ #define RVF_RNET_WS_STACK_SIZE (2000) #define RVF_RNET_WS_MB1_SIZE (5000) #define RVF_RNET_WS_POOL_SIZE (RVF_RNET_WS_STACK_SIZE + RVF_RNET_WS_MB1_SIZE) #else #define RVF_RNET_WS_POOL_SIZE (0) #endif /* * DCM SWE */ #ifdef RVM_DCM_SWE /* * Values used in dcm_env.h */ #define RVF_DCM_STACK_SIZE (1024) // old one : 1024 #define RVF_DCM_MB1_SIZE (2048) #define RVF_DCM_POOL_SIZE (RVF_DCM_STACK_SIZE + RVF_DCM_MB1_SIZE) #else #define RVF_DCM_POOL_SIZE (0) #endif /* * RTC SWE */ #ifdef RVM_RTC_SWE /* * Values used in rtc_env.h */ #define RVF_RTC_STACK_SIZE (700) #define RVF_RTC_MB1_SIZE (100) #define RVF_RTC_POOL_SIZE (RVF_RTC_STACK_SIZE + RVF_RTC_MB1_SIZE) #else #define RVF_RTC_POOL_SIZE (0) #endif /* * RTEST SWE */ #ifdef RVM_RTEST_SWE /* * Values used in rtest_env.h */ #define RVF_RTEST_STACK_SIZE (1024) #define RVF_RTEST_MB1_SIZE (190000) // + 550000) //190000 #define RVF_RTEST_POOL_SIZE (RVF_RTEST_STACK_SIZE + RVF_RTEST_MB1_SIZE) #else #define RVF_RTEST_POOL_SIZE (0) #endif /* * RVM SWE; This SWE is of course always enabled. * * Values used in rvm_i.h */ #define RVF_RVM_STACK_SIZE (1500) #if (defined BLUETOOTH) || (defined TEST) || (TI_PROFILER == 1) || (TI_NUC_MONITOR == 1) #define RVF_RVM_MB1_SIZE (10000) #else #if (GSMLITE) #define RVF_RVM_MB1_SIZE (1000) #else #define RVF_RVM_MB1_SIZE (3000) #endif #endif #define RVF_RVM_MB2_SIZE (500) #if (GSMLITE) #define RVF_RVM_MB3_SIZE (2700) #define RVF_RVM_MB4_SIZE (0) #define RVF_RVM_MB5_SIZE (0) #define RVF_RVM_COMPENSATOR_POOL_SIZE (500) #else #define RVF_RVM_MB3_SIZE (6000) #define RVF_RVM_MB4_SIZE (3000) #define RVF_RVM_MB5_SIZE (3000) #define RVF_RVM_COMPENSATOR_POOL_SIZE (12500) #endif #define RVF_RVM_POOL_SIZE (RVF_RVM_STACK_SIZE + RVF_RVM_MB1_SIZE + \ RVF_RVM_MB2_SIZE + RVF_RVM_MB3_SIZE + \ RVF_RVM_MB4_SIZE + RVF_RVM_MB5_SIZE +\ RVF_RVM_COMPENSATOR_POOL_SIZE ) /* * SDP SWE */ #ifdef RVM_SDP_SWE /* * Values used in sdp_env.h */ #define RVF_SDP_STACK_SIZE (1024) #define RVF_SDP_MB1_SIZE (4096) #define RVF_SDP_MB2_SIZE (1024) #define RVF_SDP_MB3_SIZE (1024) #define RVF_SDP_POOL_SIZE (RVF_SDP_STACK_SIZE + \ RVF_SDP_MB1_SIZE + RVF_SDP_MB2_SIZE + RVF_SDP_MB3_SIZE) #else #define RVF_SDP_POOL_SIZE (0) #endif /* * SPI SWE */ #ifdef RVM_SPI_SWE /* * Values used in spi_env.h */ #define RVF_SPI_STACK_SIZE (1000) #define RVF_SPI_MB1_SIZE (256) #define RVF_SPI_POOL_SIZE (RVF_SPI_STACK_SIZE + RVF_SPI_MB1_SIZE) #else #define RVF_SPI_POOL_SIZE (0) #endif /* * SPP SWE */ #ifdef RVM_SPP_SWE /* * Values used in spp_env.h */ #define RVF_SPP_STACK_SIZE (1024) #define RVF_SPP_MB1_SIZE (5000) #define RVF_SPP_POOL_SIZE (RVF_SPP_STACK_SIZE + RVF_SPP_MB1_SIZE) #else #define RVF_SPP_POOL_SIZE (0) #endif /* * SYN SWE */ #ifdef RVM_SYN_SWE /* * Values used in syn_env.h */ #define RVF_SYN_STACK_SIZE (2000) #define RVF_SYN_MB1_SIZE (5000) #define RVF_SYN_MB2_SIZE (5000) #define RVF_SYN_MB3_SIZE (5000) #define RVF_SYN_POOL_SIZE (RVF_SYN_STACK_SIZE + \ RVF_SYN_MB1_SIZE + RVF_SYN_MB2_SIZE + RVF_SYN_MB3_SIZE) #else #define RVF_SYN_POOL_SIZE (0) #endif /* * TI_PRF SWE */ #ifdef RVM_TI_PRF_SWE /* * Values used in ti_profiler_env.h */ #define RVF_TI_PRF_STACK_SIZE (1000) #if (TI_NUC_MONITOR == 1) #define RVF_TI_PRF_MB1_SIZE (1080000) #else #define RVF_TI_PRF_MB1_SIZE (400) #endif #define RVF_TI_PRF_POOL_SIZE (RVF_TI_PRF_STACK_SIZE + RVF_TI_PRF_MB1_SIZE) #else #define RVF_TI_PRF_POOL_SIZE (0) #endif /* * TRACE SWE */ #ifdef RVM_RVT_SWE /* * Values used in rvt_def_i.h */ #define RVF_TRACE_STACK_SIZE (512) #ifdef TEST #define RVF_TRACE_MB1_SIZE (25000) #elif (!GSMLITE) #define RVF_TRACE_MB1_SIZE (5000) #else #define RVF_TRACE_MB1_SIZE (4000) #endif #define RVF_TRACE_POOL_SIZE (RVF_TRACE_STACK_SIZE + RVF_TRACE_MB1_SIZE) #else #define RVF_TRACE_POOL_SIZE (0) #endif /* * TUT SWE */ #ifdef RVM_TUT_SWE /* * Values used in tut_env.h */ #define RVF_TUT_STACK_SIZE (1024) #define RVF_TUT_MB1_SIZE (512) #define RVF_TUT_POOL_SIZE (RVF_TUT_STACK_SIZE + RVF_TUT_MB1_SIZE) #else #define RVF_TUT_POOL_SIZE (0) #endif /* * UVM SWE */ #ifdef RVM_UVM_SWE /* * Values used in uvm_env.h */ #define RVF_UVM_STACK_SIZE (20000) #define RVF_UVM_MB1_SIZE (350000) #define RVF_UVM_MB2_SIZE (800000) #define RVF_UVM_MB3_SIZE (250000) #define RVF_UVM_POOL_SIZE (RVF_UVM_STACK_SIZE + \ RVF_UVM_MB1_SIZE + RVF_UVM_MB2_SIZE + RVF_UVM_MB3_SIZE) #else #define RVF_UVM_POOL_SIZE (0) #endif /* * JTM SWE */ #ifdef RVM_JTM_SWE /* * Values used in jtm_env.h */ #define RVF_JTM_STACK_SIZE (4096) #define RVF_JTM_MB1_SIZE (30000) #define RVF_JTM_POOL_SIZE (RVF_JTM_STACK_SIZE + RVF_JTM_MB1_SIZE) #else #define RVF_JTM_POOL_SIZE (0) #endif /* * MDC SWE */ #ifdef RVM_MDC_SWE /* * Values used in mdc_env.h */ #ifdef MIDI_PLAYER #define RVF_MDC_MB1_SIZE (24000) #elif defined IMEL_PLAYER #define RVF_MDC_MB1_SIZE (4000) #elif defined DGP_PLAYER #define RVF_MDC_MB1_SIZE (4000) #endif #define RVF_MDC_POOL_SIZE (RVF_MDC_MB1_SIZE) #else #define RVF_MDC_POOL_SIZE (0) #endif /* * TTY SWE */ #ifdef RVM_TTY_SWE /* * Values used in tty_env.h */ #define RVF_TTY_STACK_SIZE (2000) #define RVF_TTY_MB1_SIZE (5300) #define RVF_TTY_POOL_SIZE (RVF_TTY_STACK_SIZE + \ RVF_TTY_MB1_SIZE) #else #define RVF_TTY_POOL_SIZE (0) #endif /* * Obigo SWEs */ /* MSFE SWE */ #ifdef RVM_MSFE_SWE #define RVF_MSFE_STACK_SIZE (512) #define RVF_MSFE_MB1_SIZE (25000) #define RVF_MSFE_POOL_SIZE (RVF_MSFE_STACK_SIZE + RVF_MSFE_MB1_SIZE) #else #define RVF_MSFE_POOL_SIZE (0) #endif /* MSME SWE */ #ifdef RVM_MSME_SWE #define RVF_MSME_STACK_SIZE (512) #define RVF_MSME_MB1_SIZE (20000) #define RVF_MSME_POOL_SIZE (RVF_MSME_STACK_SIZE + RVF_MSME_MB1_SIZE) #else #define RVF_MSME_POOL_SIZE (0) #endif /* STKE SWE */ #ifdef RVM_STKE_SWE #define RVF_STKE_STACK_SIZE (512) #define RVF_STKE_MB1_SIZE (20000) #define RVF_STKE_POOL_SIZE (RVF_STKE_STACK_SIZE + RVF_STKE_MB1_SIZE) #else #define RVF_STKE_POOL_SIZE (0) #endif /* BRSE SWE */ #ifdef RVM_BRSE_SWE #define RVF_BRSE_STACK_SIZE (512) #define RVF_BRSE_MB1_SIZE (75000) #define RVF_BRSE_POOL_SIZE (RVF_BRSE_STACK_SIZE + RVF_BRSE_MB1_SIZE) #else #define RVF_BRSE_POOL_SIZE (0) #endif /* BRAE SWE */ #ifdef RVM_BRAE_SWE #define RVF_BRAE_STACK_SIZE (512) #define RVF_BRAE_MB1_SIZE (10000) #define RVF_BRAE_POOL_SIZE (RVF_BRAE_STACK_SIZE + RVF_BRAE_MB1_SIZE) #else #define RVF_BRAE_POOL_SIZE (0) #endif /* IT1E SWE */ #ifdef RVM_IT1E_SWE #define RVF_IT1E_STACK_SIZE (512) #define RVF_IT1E_MB1_SIZE (512) #define RVF_IT1E_POOL_SIZE (RVF_IT1E_STACK_SIZE + RVF_IT1E_MB1_SIZE) #else #define RVF_IT1E_POOL_SIZE (0) #endif /* IT2E SWE */ #ifdef RVM_IT2E_SWE #define RVF_IT2E_STACK_SIZE (512) #define RVF_IT2E_MB1_SIZE (512) #define RVF_IT2E_POOL_SIZE (RVF_IT2E_STACK_SIZE + RVF_IT2E_MB1_SIZE) #else #define RVF_IT2E_POOL_SIZE (0) #endif /* * MFW SWE */ #ifdef RVM_MFW_SWE /* * Values used in mfw_env.h */ #define RVF_MFW_STACK_SIZE (2000) #define RVF_MFW_MB1_SIZE (125000) #define RVF_MFW_POOL_SIZE (RVF_MFW_STACK_SIZE + \ RVF_MFW_MB1_SIZE) #else #define RVF_MFW_POOL_SIZE (0) #endif /* * SMBS SWE */ #ifdef RVM_SMBS_SWE /* * Values used in smbs_env.h */ #define RVF_SMBS_STACK_SIZE (5000) #define RVF_SMBS_MB1_SIZE (10000) #define RVF_SMBS_POOL_SIZE (RVF_SMBS_STACK_SIZE + \ RVF_SMBS_MB1_SIZE) #else #define RVF_SMBS_POOL_SIZE (0) #endif /* define the memory pools used by the RVF */ /* define RVF_NB_POOLS to 1 or 2 if you want to use 2 buffers in RAM, for example 1 in internal RAM, 1 in external RAM */ #define RVF_NB_POOLS 1 /* 500 corresponds to a "hard-coded" value for RVM_STACKS Memory Bank defined in rvm_i.h */ #define RVF_POOL_0_SIZE (RVF_ATP_POOL_SIZE + RVF_ATP_UART_POOL_SIZE + RVF_AUDIO_POOL_SIZE + \ RVF_BTCTRL_POOL_SIZE + RVF_DAR_POOL_SIZE + RVF_DEV1_POOL_SIZE + \ RVF_DEV2_POOL_SIZE + RVF_DEV3_POOL_SIZE + RVF_DUN_GW_POOL_SIZE + \ RVF_ETM_POOL_SIZE + RVF_EXPL_POOL_SIZE + RVF_FAX_GW_POOL_SIZE + \ RVF_FFS_POOL_SIZE + RVF_FTP_POOL_SIZE + RVF_HCI_POOL_SIZE + \ RVF_HS_POOL_SIZE + RVF_HSG_POOL_SIZE + RVF_KCL_POOL_SIZE + \ RVF_KGC_POOL_SIZE + RVF_KIL_POOL_SIZE + RVF_KMM_POOL_SIZE + \ RVF_KNM_POOL_SIZE + RVF_KPD_POOL_SIZE + RVF_KPG_POOL_SIZE + \ RVF_KZP_POOL_SIZE + RVF_L2CAP_POOL_SIZE + RVF_LLS_POOL_SIZE + \ RVF_MKS_POOL_SIZE + RVF_TTY_POOL_SIZE + RVF_MPM_POOL_SIZE + \ RVF_OBX_POOL_SIZE + RVF_OPP_POOL_SIZE + RVF_PWR_POOL_SIZE + \ RVF_R2D_POOL_SIZE + RVF_RFCOMM_POOL_SIZE + RVF_RGUI_POOL_SIZE + \ RVF_RNET_POOL_SIZE + RVF_RNET_BR_POOL_SIZE + RVF_MDC_POOL_SIZE + \ RVF_RNET_RT_POOL_SIZE + RVF_RNET_WS_POOL_SIZE + RVF_RTC_POOL_SIZE + \ RVF_RTEST_POOL_SIZE + RVF_RVM_POOL_SIZE + RVF_SDP_POOL_SIZE + \ RVF_SPI_POOL_SIZE + RVF_SPP_POOL_SIZE + RVF_SYN_POOL_SIZE + \ RVF_TI_PRF_POOL_SIZE + RVF_TRACE_POOL_SIZE + RVF_TUT_POOL_SIZE + \ RVF_UVM_POOL_SIZE + RVF_JTM_POOL_SIZE + RVF_DCM_POOL_SIZE + \ RVF_MSFE_POOL_SIZE + RVF_MSME_POOL_SIZE + RVF_STKE_POOL_SIZE + \ RVF_BRSE_POOL_SIZE + RVF_IT1E_POOL_SIZE + RVF_IT2E_POOL_SIZE + \ RVF_BRAE_POOL_SIZE + RVF_MFW_POOL_SIZE + RVF_SMBS_POOL_SIZE + \ RVF_AUDIO_BGD_POOL_SIZE ) #if (RVF_NB_POOLS > 1 ) #define RVF_POOL_1_SIZE 0 #endif /* define the memory usage ratio */ /* e.g. the ratio between the sum of the memory banks sizes and the memory available in the system */ /* for example: 90 for 90 % to be sure to always satisfy memory requests*/ /* 120 for 120 % to optimize memory usage */ #define RVF_MEM_USAGE_RATIO 100 #endif /* _RVF_POOL_SIZE_H */