FreeCalypso > hg > freecalypso-sw
diff gsm-fw/gpf/frame/vsi_ppm.c @ 316:79080922d8e4
GPF: FRAME C sources and include files imported from LoCosto source
| author | Michael Spacefalcon <msokolov@ivan.Harhan.ORG> |
|---|---|
| date | Thu, 10 Apr 2014 04:06:05 +0000 |
| parents | |
| children | 2c760f6b1fe0 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/gsm-fw/gpf/frame/vsi_ppm.c Thu Apr 10 04:06:05 2014 +0000 @@ -0,0 +1,1153 @@ +/* ++------------------------------------------------------------------------------ +| File: vsi_ppm.c ++------------------------------------------------------------------------------ +| Copyright 2002 Texas Instruments Berlin, AG +| All rights reserved. +| +| This file is confidential and a trade secret of Texas +| Instruments Berlin, AG +| The receipt of or possession of this file does not convey +| any rights to reproduce or disclose its contents or to +| manufacture, use, or sell anything it may describe, in +| whole, or in part, without the specific written consent of +| Texas Instruments Berlin, AG. ++----------------------------------------------------------------------------- +| Purpose : This Module defines the virtual system interface part +| for the primitive partition pool supervision. ++----------------------------------------------------------------------------- +*/ + +#ifndef __VSI_PPM_C__ +#define __VSI_PPM_C__ +#endif + +#ifdef MEMORY_SUPERVISION + +/*==== INCLUDES ===================================================*/ + +#include "string.h" +#include "typedefs.h" +#include "os.h" +#include "vsi.h" +#include "tools.h" +#include "frm_defs.h" +#include "frm_types.h" +#include "frm_glob.h" + +/*==== TYPES ======================================================*/ + +typedef struct +{ + USHORT pool_nr; + USHORT group_nr; +} T_POOL_GROUP; + +typedef struct +{ + SHORT state_id; + char const * state_name; +} T_PARTITION_STATE; +/* + * indices to read the stored counters + */ +typedef enum { TOTAL,CURRENT_BYTE,CURRENT_PART,MAX_RANGES,MAX_BYTE_MEM,MAX_PART_MEM } T_COUNTER_READ; + +/* + * indices to update the counters + */ +typedef enum { DECREMENT, INCREMENT, STORE_MAX_BYTE, STORE_MAX_PART } T_COUNTER_UPDATE; + +/*==== CONSTANTS ==================================================*/ + +#define OWNER_IS_COM_HANDLE 0x8000 +/* + * Partition States + */ +#define PARTITION_FREED 0x0001 +#define PARTITION_ALLOCATED 0x0002 +#define PARTITION_RECEIVED 0x0004 +#define PARTITION_SENT 0x0008 +#define PARTITION_REUSED 0x0010 +#define PARTITION_ACCESSED 0x0020 +#define PARTITION_STORED 0x0040 +#define MAX_PARTITION_STATE 7 + +#define ALLOWED_ALLOCATE_STATES (PARTITION_FREED) +#define ALLOWED_RECEIVE_STATES (PARTITION_SENT|PARTITION_RECEIVED) +#define ALLOWED_SEND_STATES (PARTITION_ALLOCATED|PARTITION_REUSED|\ + PARTITION_RECEIVED|PARTITION_ACCESSED|\ + PARTITION_STORED) +#define ALLOWED_REUSE_STATES (PARTITION_ALLOCATED|PARTITION_RECEIVED|\ + PARTITION_STORED|PARTITION_REUSED) +#define ALLOWED_DEALLOCATE_STATES (PARTITION_RECEIVED|PARTITION_ALLOCATED|\ + PARTITION_SENT|PARTITION_REUSED|\ + PARTITION_ACCESSED|PARTITION_STORED) +#define ALLOWED_ACCESS_STATES (PARTITION_ALLOCATED|PARTITION_RECEIVED|\ + PARTITION_REUSED|PARTITION_ACCESSED|\ + PARTITION_STORED) +#define ALLOWED_STORE_STATES (PARTITION_ALLOCATED|PARTITION_RECEIVED|\ + PARTITION_REUSED|PARTITION_ACCESSED|\ + PARTITION_SENT) + +#define FORBIDDEN_ALLOCATE_STATES (0xffff&~ALLOWED_ALLOCATE_STATES) +#define FORBIDDEN_RECEIVE_STATES (0xffff&~ALLOWED_RECEIVE_STATES) +#define FORBIDDEN_SEND_STATES (0xffff&~ALLOWED_SEND_STATES) +#define FORBIDDEN_REUSE_STATES (0xffff&~ALLOWED_REUSE_STATES) +#define FORBIDDEN_DEALLOCATE_STATES (0xffff&~ALLOWED_DEALLOCATE_STATES) +#define FORBIDDEN_ACCESS_STATES (0xffff&~ALLOWED_ACCESS_STATES) +#define FORBIDDEN_STORE_STATES (0xffff&~ALLOWED_STORE_STATES) + +#define PPM_END_MARKER ((char)0xff) + +#define PARTITION_SIZE(g,p) (partition_grp_config[g].grp_config[p].part_size) + +#ifndef RUN_INT_RAM +const T_PARTITION_STATE partition_state[MAX_PARTITION_STATE+1] = +{ + { PARTITION_FREED, "FREED" }, + { PARTITION_ALLOCATED, "ALLOCATED" }, + { PARTITION_RECEIVED, "RECEIVED" }, + { PARTITION_SENT, "SENT" }, + { PARTITION_REUSED, "REUSED" }, + { PARTITION_ACCESSED, "ACCESSED" }, + { PARTITION_STORED, "STORED" }, + { 0, NULL } +}; +#endif + +/*==== EXTERNALS ==================================================*/ + +/* -------------- S H A R E D - BEGIN ---------------- */ +#ifdef _TOOLS_ +#pragma data_seg("FRAME_SHARED") +#endif + +extern T_HANDLE TST_Handle; +extern const T_FRM_PARTITION_GROUP_CONFIG partition_grp_config[]; +extern T_HANDLE * PoolGroupHandle []; +extern OS_HANDLE ext_data_pool_handle; +extern USHORT MaxPoolGroups; + +/*==== VARIABLES ==================================================*/ + +#ifndef RUN_INT_RAM + +USHORT NumberOfPPMPartitions = 0; +USHORT NumOfPPMPools = 0; +USHORT NumOfPPMGroups; +USHORT NumOfPrimPools; +USHORT NumOfDmemPools; +T_PARTITION_POOL_STATUS PoolStatus; +T_PARTITION_STATUS *PartitionStatus; +T_OVERSIZE_STATUS *PartitionOversize; +T_COUNTER *PartitionCounter; +T_POOL_GROUP *PoolGroup; +#ifdef OPTIMIZE_POOL +T_COUNTER *ByteCounter; +T_COUNTER *RangeCounter; +int *GroupStartRange; +int *GroupStartCnt; +#endif /* OPTIMIZE_POOL */ +int ppm_check_partition_owner; + +#else /* RUN_INT_RAM */ + +extern int ppm_check_partition_owner; +extern T_PARTITION_POOL_STATUS PoolStatus; +extern T_POOL_GROUP * PoolGroup; +extern USHORT NumOfPrimPools; +extern USHORT NumOfDmemPools; +extern int *GroupStartRange; + +#endif /* RUN_INT_RAM */ + +#ifdef _TOOLS_ +#pragma data_seg() +#endif +/* -------------- S H A R E D - END ---------------- */ + +/*==== FUNCTIONS ==================================================*/ + +GLOBAL void SetPartitionStatus ( T_PARTITION_STATUS *pPoolStatus, const char *file, int line, + ULONG opc, USHORT Status, T_HANDLE owner ); + +USHORT update_dyn_state ( T_HANDLE Caller, T_PRIM_HEADER *prim, T_HANDLE owner, USHORT state, const char* file, int line ); +BOOL UpdatePoolCounter ( T_COUNTER *pCounter, T_COUNTER_UPDATE Status, ULONG Value ); +void StoreRangeCounters ( T_PRIM_HEADER *prim, T_COUNTER_UPDATE Status ); +int GetPartitionRange ( ULONG size, USHORT group_nr, USHORT pool_nr ); +LONG get_partition_group ( T_PRIM_HEADER *prim, USHORT *group_nr, USHORT *pool_nr ); +char const *get_partition_state_name ( USHORT partition_state ); + + +#ifndef RUN_FLASH +USHORT update_dyn_state ( T_HANDLE Caller, T_PRIM_HEADER *prim, T_HANDLE owner, USHORT state, const char* file, int line ) +{ +T_desc *desc; +T_desc3 *desc3; +T_M_HEADER *mem; +T_DP_HEADER *dp_hdr; +USHORT ret = TRUE; + + if ( prim->dph_offset != 0 ) + { + dp_hdr = (T_DP_HEADER*)((ULONG*)prim + prim->dph_offset); + if ( *((ULONG*)dp_hdr) == GUARD_PATTERN ) + { + dp_hdr = (T_DP_HEADER*)dp_hdr->next; + while (dp_hdr != NULL) + { + SetPartitionStatus ( &PoolStatus.PartitionStatus [ P_PNR(dp_hdr) ], file, line, P_OPC(prim), state, owner ); + dp_hdr = (T_DP_HEADER*)dp_hdr->next; + } + } + else + { + if ( Caller != TST_Handle ) + { + /* do not check and update the states of the primitives in descriptor lists when called by TST, because + descriptor lists are not routed to TST and will result in the warning generated below */ + desc = (T_desc*)(((T_desc_list*)dp_hdr)->first); + while (desc != NULL) + { +#ifdef _NUCLEUS_ + if ( *(((ULONG*)desc)-4) == 0 ) +#endif + { + mem = ((T_M_HEADER*)desc)-1; + SetPartitionStatus ( &PoolStatus.PartitionStatus [P_PNR(mem)], file, line, P_OPC(prim), state, owner ); + if ( mem->desc_type == (VSI_DESC_TYPE3 >> 16) ) + { + desc3 = (T_desc3*)desc; + mem = ((T_M_HEADER*)desc3->buffer)-1; + SetPartitionStatus ( &PoolStatus.PartitionStatus [P_PNR(mem)], file, line, P_OPC(prim), state, owner ); + } + } +#ifdef _NUCLEUS_ + else + vsi_o_ttrace (Caller, TC_SYSTEM,"[PPM]: FREED PARTITION 0x%lx IN DESCLIST, %s(%d)", prim,rm_path(file),line ); +#endif + desc = (T_desc *)desc->next; + } + } + } + } + else + ret = FALSE; + return ret; +} +#endif + +#ifndef RUN_INT_RAM +/* ++------------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : get_partition_state_name| ++------------------------------------------------------------------------+ + + PURPOSE : update counter. + +*/ +char const *get_partition_state_name ( USHORT state ) +{ +USHORT i = 0; + + while ( partition_state[i].state_id ) + { + if ( partition_state[i].state_id == state ) + return partition_state[i].state_name; + i++; + } + return NULL; +} +#endif + +#ifndef RUN_FLASH +/* ++----------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : check_partition_group | ++----------------------------------------------------------------------+ + + PURPOSE : update counter. + +*/ +LONG get_partition_group ( T_PRIM_HEADER *prim, USHORT *group_nr, USHORT *pool_nr ) +{ +SHORT invalid_pool = 0; +T_HANDLE Caller; + + *pool_nr = PoolGroup [ (USHORT)(P_PGR(prim)) ].pool_nr; + *group_nr = PoolGroup [ (USHORT)(P_PGR(prim)) ].group_nr; + + if ( *group_nr > MaxPoolGroups ) + invalid_pool = 1; + + if ( *group_nr == PrimGroupHandle ) + { + if ( *pool_nr > NumOfPrimPools ) + invalid_pool = 1; + } + else if ( *group_nr == DmemGroupHandle ) + { + if ( *pool_nr > NumOfDmemPools ) + invalid_pool = 1; + } + + if ( invalid_pool == 1 ) + { + Caller = e_running[os_MyHandle()]; + vsi_o_ttrace (Caller, TC_SYSTEM, + "[PPM]: Invalid Partition Pool, group: %d, pool: %d", *group_nr, *pool_nr ); + return VSI_ERROR; + } + + return VSI_OK; +} +#endif + +#ifndef RUN_FLASH +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : GetPartitionRange | ++--------------------------------------------------------------------+ + + PURPOSE : update counter. + +*/ +int GetPartitionRange ( ULONG size, USHORT group_nr, USHORT pool_nr ) +{ +int partition_range; +int size_offset; +int range; + + if ( pool_nr != 0 ) + { + partition_range = (int)(PARTITION_SIZE(group_nr,pool_nr) - PARTITION_SIZE(group_nr,pool_nr-1)); + + size_offset = (int)(size - (USHORT)(PARTITION_SIZE(group_nr,pool_nr-1)) - 1); + if ( size_offset < 0 ) + size_offset = 0; + } + else + { + partition_range = (USHORT)(PARTITION_SIZE(group_nr,pool_nr)); + if ( size == 0 ) + size_offset = 0; + else + size_offset = (int)(size - 1); + } + + range = (USHORT)((size_offset * RANGES_PER_POOL)/partition_range + pool_nr * RANGES_PER_POOL + GroupStartRange[group_nr]); + + return range; +} +#endif + +#ifndef RUN_FLASH +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : UpdatePoolCounter | ++--------------------------------------------------------------------+ + + PURPOSE : update counter. + +*/ +BOOL UpdatePoolCounter ( T_COUNTER *pCounter, T_COUNTER_UPDATE Status, ULONG Value ) +{ + + switch ( Status ) + { + case INCREMENT: + pCounter->Total += Value; /* total number */ + pCounter->Current += Value; /* current number */ + if ( pCounter->Current > pCounter->Maximum ) /* current > maximum ? */ + { + pCounter->Maximum = pCounter->Current; /* Maximum = Current */ + return TRUE ; + } + break; + case DECREMENT: + pCounter->Current -= Value; /* current number */ + break; + case STORE_MAX_BYTE: + pCounter->MaxByteMemory = pCounter->Current; /* store current number */ + break; + case STORE_MAX_PART: + pCounter->MaxPartMemory = pCounter->Current; /* store current number */ + break; + } + return FALSE; +} +#endif + +#ifndef RUN_FLASH +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : SetPartitionStatus | ++--------------------------------------------------------------------+ + + PURPOSE : update the status of the partition. + +*/ +GLOBAL void SetPartitionStatus ( T_PARTITION_STATUS *pPoolStatus, const char *file, int line, ULONG opc, USHORT Status, T_HANDLE owner ) +{ + + pPoolStatus->Status = Status; + pPoolStatus->PrimOPC = opc; + pPoolStatus->owner = owner; + if ( Status NEQ PARTITION_FREED ) + { + os_GetTime (0,&pPoolStatus->time); + pPoolStatus->Userfile = file; + pPoolStatus->Line = line; + } +} +#endif + +#ifdef OPTIMIZE_POOL +#ifndef RUN_FLASH +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : StoreRangeCounters | ++--------------------------------------------------------------------+ + + PURPOSE : stores the range counters for a specified partition. + +*/ +void StoreRangeCounters ( T_PRIM_HEADER *prim, T_COUNTER_UPDATE Status ) +{ +USHORT i; + + for ( i=0; i<5; i++ ) + UpdatePoolCounter ( &PoolStatus.RangeCounter [ P_PGR(prim)*5+i ], Status,0 ); +} +#endif + +#ifndef RUN_INT_RAM +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : TracePoolStatistic | ++--------------------------------------------------------------------+ + + PURPOSE : send the statistic information specified by the parameters + to the tst interface. + +*/ +LOCAL void TracePoolStatistic ( T_HANDLE Caller, USHORT group_nr, USHORT pool_nr, char const *Src, + T_COUNTER_READ Status ) +{ +#define RNG_COUNT_IDX(g,p,i) (GroupStartRange[g]+p*RANGES_PER_POOL+i) +#define COUNT_IDX(g,p) (GroupStartCnt[g]+p) +T_FRM_PARTITION_POOL_CONFIG * pool_config; +ULONG Value1; +ULONG Value2; +char const *Resource; +BOOL TraceRange = FALSE; +BOOL TraceValue = FALSE; +ULONG Value[5]; +int i; + + pool_config = (T_FRM_PARTITION_POOL_CONFIG*)partition_grp_config[group_nr].grp_config + pool_nr; + + switch ( Status ) + { + case TOTAL: + TraceRange = TRUE; + for ( i = 0; i < RANGES_PER_POOL; i++ ) + Value[i] = PoolStatus.RangeCounter [ RNG_COUNT_IDX(group_nr,pool_nr,i) ].Total; + break; + case CURRENT_BYTE: + TraceValue = TRUE; + Resource = "max bytes "; + Value1 = PoolStatus.ByteCounter [ COUNT_IDX(group_nr,pool_nr) ].Current; + Value2 = PoolStatus.PartitionCounter [COUNT_IDX(group_nr,pool_nr)].Current * pool_config->part_size; + break; + case CURRENT_PART: + TraceValue = TRUE; + Resource = "part"; + Value1 = PoolStatus.PartitionCounter [COUNT_IDX(group_nr,pool_nr)].Current; + Value2 = pool_config->part_num; + + break; + case MAX_RANGES: + TraceRange = TRUE; + for ( i = 0; i < RANGES_PER_POOL; i++ ) + Value[i] = PoolStatus.RangeCounter [ RNG_COUNT_IDX(group_nr,pool_nr,i) ].Maximum; + break; + case MAX_BYTE_MEM: + TraceRange = TRUE; + TraceValue = TRUE; + Resource = "bytes "; + Value1 = PoolStatus.ByteCounter [COUNT_IDX(group_nr,pool_nr)].Maximum; + Value2 = PoolStatus.PartitionCounter [COUNT_IDX(group_nr,pool_nr)].MaxByteMemory * pool_config->part_size; + for ( i = 0; i < RANGES_PER_POOL; i++ ) + Value[i] = PoolStatus.RangeCounter [ RNG_COUNT_IDX(group_nr,pool_nr,i) ].MaxByteMemory; + break; + case MAX_PART_MEM: + TraceRange = TRUE; + TraceValue = TRUE; + Resource = "partitions"; + Value1 = PoolStatus.PartitionCounter [COUNT_IDX(group_nr,pool_nr)].Maximum; + Value2 = pool_config->part_num; + for ( i = 0; i < RANGES_PER_POOL; i++ ) + Value[i] = PoolStatus.RangeCounter [ RNG_COUNT_IDX(group_nr,pool_nr,i) ].MaxPartMemory; + break; + default: + break; + } + + /*lint -e644, suppress Warning -- Variable may not have been initialized */ + if ( TraceValue ) + vsi_o_ttrace (Caller, TC_SYSTEM,"[PPM]: %s pool %d:%5d %s =>%3d%%", + Src, pool_nr, Value1, Resource, (Value1*100)/(Value2==0?1:Value2) ); + + if ( TraceRange ) + vsi_o_ttrace (Caller, TC_SYSTEM,"[PPM]: %s partitions pool %d: %3d, %3d, %3d, %3d, %3d",Src, pool_nr, + Value[0],Value[1],Value[2],Value[3],Value[4]); + /*lint +e644 */ + +} +#endif +#endif /* OPTIMIZE_POOL */ + +#ifndef RUN_INT_RAM +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : TracePoolStatus | ++--------------------------------------------------------------------+ + + PURPOSE : send the statistic information to the test interface. + +*/ +GLOBAL void TracePoolstatus ( T_HANDLE Caller ) +{ +T_PARTITION_STATUS *pPoolStatus; +T_FRM_PARTITION_POOL_CONFIG * pool_config; +USHORT i, m; +USHORT group_nr, pool_nr; +USHORT PartitionError = FALSE, OversizeError = FALSE; +T_OVERSIZE_STATUS *pOversizeStatus; +T_HANDLE owner; +char *opc; + + pOversizeStatus = &PoolStatus.PartitionOversize[0]; + pPoolStatus = &PoolStatus.PartitionStatus [0]; + for ( i = 0; i < NumberOfPPMPartitions; i++ ) + { + if ( pPoolStatus->Status > 0 && pPoolStatus->Status NEQ PARTITION_FREED ) + { + if ( pPoolStatus->owner & OWNER_IS_COM_HANDLE ) + owner = pPoolStatus->owner&~OWNER_IS_COM_HANDLE; + else + owner = pPoolStatus->owner; + + if ( pPoolStatus->PrimOPC && ( ((T_PRIM_HEADER*)pPoolStatus->ptr)->opc != pPoolStatus->PrimOPC ) ) + opc = "in desclist of OPC"; + else + opc = "OPC"; + get_partition_group ( pPoolStatus->ptr, &group_nr, &pool_nr ); + + pool_config = (T_FRM_PARTITION_POOL_CONFIG*)partition_grp_config[group_nr].grp_config + pool_nr; + + vsi_o_ttrace ( Caller, TC_SYSTEM, "POOL%d%d(%s), PARTITION 0x%lx(%d), %s 0x%lx, \ +%s, %s, TIME %d, %s(%d)", group_nr,pool_nr,partition_grp_config[group_nr].name, pPoolStatus->ptr,pool_config->part_size, + opc, pPoolStatus->PrimOPC, get_partition_state_name(pPoolStatus->Status), pf_TaskTable[owner].Name, pPoolStatus->time, + rm_path(pPoolStatus->Userfile), pPoolStatus->Line); + PartitionError = TRUE; + } + pPoolStatus++; + } + + for (m = 0; partition_grp_config[m].grp_config != NULL; m++ ) + { + if ( strcmp ("TEST", partition_grp_config[m].name ) ) + { + vsi_o_ttrace ( Caller, TC_SYSTEM, "---------------------------------------------------------" ); + vsi_o_ttrace ( Caller, TC_SYSTEM, "[PPM]: POOL NAME: %s", partition_grp_config[m].name ); + pool_config = (T_FRM_PARTITION_POOL_CONFIG*)partition_grp_config[m].grp_config; + for ( i = 0; pool_config != NULL; i++) + { + if ( pool_config->part_size ) + { +#ifdef OPTIMIZE_POOL + vsi_o_ttrace ( Caller, TC_SYSTEM, "---------------------------------------------------------" ); + vsi_o_ttrace ( Caller, TC_SYSTEM, "[PPM]: POOL %d (size %d) ",i, pool_config->part_size ); + TracePoolStatistic ( Caller, m, i, "MAXBYTE ", MAX_BYTE_MEM ); + TracePoolStatistic ( Caller, m, i, "MAXPART ", MAX_PART_MEM ); + TracePoolStatistic ( Caller, m, i, "MAXRANGE", MAX_RANGES ); + TracePoolStatistic ( Caller, m, i, "TOTAL ", TOTAL ); +#endif /* OPTIMIZE_POOL */ + if ( pOversizeStatus->PrimOPC ) + { + vsi_o_ttrace ( Caller, TC_SYSTEM, "PPM: PARTITION OF SIZE %d USED BY OVERSIZED \ + PRIMITIVE %lx AT %s(%d)", pool_config->part_size, + pOversizeStatus->PrimOPC, rm_path(pOversizeStatus->Userfile), pPoolStatus->Line); + OversizeError = TRUE; + } + pOversizeStatus++; + } + else + { + break; + } + pool_config++; + } + if ( !PartitionError ) + vsi_o_ttrace ( Caller, TC_SYSTEM, "[PPM]: ALL PARTITIONS FREED" ); + if ( !OversizeError ) + vsi_o_ttrace ( Caller, TC_SYSTEM, "[PPM]: NO OVERSIZE ERRORS OCCURED" ); + } + } + +} +#endif + +#ifndef RUN_INT_RAM +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : InitializePPM | ++--------------------------------------------------------------------+ + + PURPOSE : initialize supervision, write index to each partition. + +*/ +void InitializePPM ( void ) +{ +T_FRM_PARTITION_POOL_CONFIG * pool_config; +ULONG *Prims; +USHORT i,j,k,m,n; +int status; +static int last_range = 0; +static int last_cnt = 0; + + status = os_AllocateMemory (NO_TASK, (T_VOID_STRUCT**)&Prims, sizeof(int)*NumberOfPPMPartitions, OS_NO_SUSPEND, ext_data_pool_handle ); + status |= os_AllocateMemory (NO_TASK, (T_VOID_STRUCT**)&PoolGroup, sizeof(T_POOL_GROUP)*NumOfPPMPools, OS_NO_SUSPEND, ext_data_pool_handle ); + status |= os_AllocateMemory (NO_TASK, (T_VOID_STRUCT**)&PartitionStatus, sizeof(T_PARTITION_STATUS)*NumberOfPPMPartitions, OS_NO_SUSPEND, ext_data_pool_handle ); + status |= os_AllocateMemory (NO_TASK, (T_VOID_STRUCT**)&PartitionOversize, sizeof(T_OVERSIZE_STATUS)*NumOfPPMPools, OS_NO_SUSPEND, ext_data_pool_handle ); + status |= os_AllocateMemory (NO_TASK, (T_VOID_STRUCT**)&PartitionCounter, sizeof(T_COUNTER)*NumOfPPMPools, OS_NO_SUSPEND, ext_data_pool_handle ); +#ifdef OPTIMIZE_POOL + status |= os_AllocateMemory (NO_TASK, (T_VOID_STRUCT**)&ByteCounter, sizeof(T_COUNTER)*NumOfPPMPools, OS_NO_SUSPEND, ext_data_pool_handle ); + status |= os_AllocateMemory (NO_TASK, (T_VOID_STRUCT**)&RangeCounter, sizeof(T_COUNTER)*NumberOfPPMPartitions, OS_NO_SUSPEND, ext_data_pool_handle ); + status |= os_AllocateMemory (NO_TASK, (T_VOID_STRUCT**)&GroupStartRange, sizeof(int)*NumOfPPMGroups, OS_NO_SUSPEND, ext_data_pool_handle ); + status |= os_AllocateMemory (NO_TASK, (T_VOID_STRUCT**)&GroupStartCnt, sizeof(int)*NumOfPPMGroups, OS_NO_SUSPEND, ext_data_pool_handle ); +#endif + if ( status > 0 ) + { + vsi_o_assert ( 0, OS_SYST_ERR, __FILE__, __LINE__, "Memory allocation for partition supervision failed" ); + } + ppm_check_partition_owner = 0; + PoolStatus.PartitionStatus = PartitionStatus; + PoolStatus.PartitionOversize = PartitionOversize; + PoolStatus.PartitionCounter = PartitionCounter; +#ifdef OPTIMIZE_POOL + PoolStatus.ByteCounter = ByteCounter; + PoolStatus.RangeCounter = RangeCounter; +#endif + + for ( j = 0; j<NumberOfPPMPartitions; j++) + Prims[j] = 0; + + for (m = 0, j = 0, i = 0; partition_grp_config[m].grp_config != NULL; m++ ) + { + if ( strcmp ("TEST", partition_grp_config[m].name ) ) + { + pool_config = (T_FRM_PARTITION_POOL_CONFIG*)partition_grp_config[m].grp_config; + + for (n = 0; pool_config != NULL; i++, n++) + { + if ( pool_config->part_size ) + { + PoolGroup[i].group_nr = m; + PoolGroup[i].pool_nr = n; + for (k = 0; k < pool_config->part_num; k++ , j++) + { + if ( os_AllocatePartition ( NO_TASK, (T_VOID_STRUCT**)&Prims[j], pool_config->part_size, + OS_NO_SUSPEND, *PoolGroupHandle[m] ) == OS_OK ) + { + P_IDX((T_PRIM_HEADER*)(Prims[j]+PPM_IDX_OFFSET)) = ( ((USHORT)i<<16) | j ); + } + else + { + P_IDX((T_PRIM_HEADER*)(Prims[j]+PPM_IDX_OFFSET)) = 0; + } + } + } + else + { + break; + } + pool_config++; + } + if ( m == 0 ) + { + GroupStartCnt[m] = 0; + GroupStartRange[m] = 0; + last_cnt = n; + last_range = RANGES_PER_POOL * n; + } + else + { + GroupStartCnt[m] = last_cnt; + GroupStartRange[m] = last_range; + last_cnt = GroupStartCnt[m] + n; + last_range = GroupStartRange[m] + RANGES_PER_POOL * n; + } + + } + } + for ( j = 0; j<NumberOfPPMPartitions; j++) + { + if ( Prims[j] ) + { + os_DeallocatePartition ( NO_TASK, (T_VOID_STRUCT*)Prims[j] ); + PoolStatus.PartitionStatus [ P_PNR(Prims[j]+4) ].Status = PARTITION_FREED; + } + } +} +#endif + +#ifndef RUN_FLASH +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : vsi_ppm_new | ++--------------------------------------------------------------------+ + + PURPOSE : supervision of allocating a partition. + +*/ +GLOBAL void vsi_ppm_new ( T_HANDLE Caller, ULONG Size, T_PRIM_HEADER *prim, const char* file, int line ) +{ +T_PARTITION_STATUS *pPoolStatus; +USHORT group_nr, pool_nr; + + if ( prim != NULL ) + { + if ( get_partition_group ( prim, &group_nr, &pool_nr ) == VSI_OK ) + { + vsi_ppm_setend(prim, Size); + /* + * set pointer to status entry of the currently used partition + */ + pPoolStatus = &PoolStatus.PartitionStatus [ P_PNR(prim) ]; + + pPoolStatus->ptr = prim; + /* + * send error message in case of an illegal state transition + */ + if ( pPoolStatus->Status & FORBIDDEN_ALLOCATE_STATES ) + vsi_o_ttrace (Caller, TC_SYSTEM, + "[PPM]: %s->%s: %s(%d)", get_partition_state_name(pPoolStatus->Status), + get_partition_state_name(PARTITION_ALLOCATED),rm_path(file),line ); + + /* + * update partition status + */ + SetPartitionStatus ( pPoolStatus, file, line, P_OPC(prim), PARTITION_ALLOCATED, Caller ); + +#ifdef OPTIMIZE_POOL + /* + * get primitive size and update range counter + */ + pPoolStatus->UsedSize = Size; + UpdatePoolCounter ( &PoolStatus.RangeCounter [GetPartitionRange(pPoolStatus->UsedSize,group_nr,pool_nr)], INCREMENT,1 ); +#endif /* OPTIMIZE_POOL */ + + /* + * update partition counter, if new maximum and OPTIMIZE_POOL, then + * - store the counters of the ranges within this partition + * - send a message that a new maximum has occurred + */ + if ( UpdatePoolCounter ( &PoolStatus.PartitionCounter [P_PGR(prim)],INCREMENT,1 ) ) +#ifndef OPTIMIZE_POOL + ; +#else + { + StoreRangeCounters ( prim, STORE_MAX_PART ); + } + + /* + * update byte counter, if new maximum, then + * - store the counters of the ranges within this partition + * - store the number of currently allocated partitions + */ + if ( UpdatePoolCounter ( &PoolStatus.ByteCounter [P_PGR(prim)],INCREMENT,pPoolStatus->UsedSize ) ) + { + StoreRangeCounters ( prim, STORE_MAX_BYTE ); + UpdatePoolCounter ( &PoolStatus.PartitionCounter [ P_PGR(prim) ], STORE_MAX_BYTE,0 ); + } +#endif /* OPTIMIZE_POOL */ + } + else + vsi_o_ttrace (Caller, TC_SYSTEM,"[PPM]: Invalid Partition Pool, group: %d, pool: %d", group_nr, pool_nr ); + } +} +#endif + +#ifndef RUN_FLASH +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : vsi_ppm_rec | ++--------------------------------------------------------------------+ + + PURPOSE : supervision of receiving a partition. + +*/ +GLOBAL void vsi_ppm_rec ( T_HANDLE Caller, T_PRIM_HEADER *prim, const char *file, int line ) +{ +T_PARTITION_STATUS *pPoolStatus; +USHORT group_nr, pool_nr; + + if ( prim != NULL ) + { + if ( get_partition_group ( prim, &group_nr, &pool_nr ) == VSI_OK ) + { + Caller = e_running[os_MyHandle()]; + /* + * set pointer to status entry of the currently used partition + */ + pPoolStatus = &PoolStatus.PartitionStatus [ P_PNR(prim) ]; + + /* + * send error message in case of an illegal state transition + */ + if ( pPoolStatus->Status & FORBIDDEN_RECEIVE_STATES ) + vsi_o_ttrace (Caller, TC_SYSTEM, + "[PPM]: %s->%s: %s(%d)", get_partition_state_name(pPoolStatus->Status), + get_partition_state_name(PARTITION_RECEIVED),rm_path(file),line ); + + /* + * update partition status + */ + SetPartitionStatus ( pPoolStatus, file, line, P_OPC(prim), PARTITION_RECEIVED, Caller ); + update_dyn_state ( Caller, prim, Caller, PARTITION_RECEIVED, file, line ); + } + else + vsi_o_ttrace (Caller, TC_SYSTEM,"[PPM]: Invalid Partition Pool, group: %d, pool: %d", group_nr, pool_nr ); + } +} +#endif + +#ifndef RUN_INT_RAM +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : vsi_ppm_access | ++--------------------------------------------------------------------+ + + PURPOSE : supervision of receiving a partition. + +*/ +GLOBAL void vsi_ppm_access ( T_HANDLE Caller, T_PRIM_HEADER *prim, const char *file, int line ) +{ +T_PARTITION_STATUS *pPoolStatus; +USHORT group_nr, pool_nr; + + if ( prim != NULL ) + { + if ( get_partition_group ( prim, &group_nr, &pool_nr ) == VSI_OK ) + { + Caller = e_running[os_MyHandle()]; + /* + * set pointer to status entry of the currently used partition + */ + pPoolStatus = &PoolStatus.PartitionStatus [ P_PNR(prim) ]; + + /* + * send error message in case of an illegal state transition + */ + if ( pPoolStatus->Status & FORBIDDEN_ACCESS_STATES ) + vsi_o_ttrace (Caller, TC_SYSTEM, + "[PPM]: %s->%s: %s(%d)", get_partition_state_name(pPoolStatus->Status), + get_partition_state_name(PARTITION_ACCESSED),rm_path(file),line ); + + /* + * update partition status + */ + SetPartitionStatus ( pPoolStatus, file, line, P_OPC(prim), pPoolStatus->Status, Caller ); + update_dyn_state ( Caller, prim, Caller, PARTITION_ACCESSED, file, line ); + } + else + vsi_o_ttrace (Caller, TC_SYSTEM,"[PPM]: Invalid Partition Pool, group: %d, pool: %d", group_nr, pool_nr ); + } +} +#endif + +#ifndef RUN_FLASH +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : vsi_ppm_send | ++--------------------------------------------------------------------+ + + PURPOSE : supervision of receiving a partition. + +*/ +GLOBAL void vsi_ppm_send ( T_HANDLE Caller, T_HANDLE rcv, T_PRIM_HEADER *prim, const char *file, int line ) +{ +T_PARTITION_STATUS *pPoolStatus; +USHORT NewStatus = PARTITION_SENT; +USHORT group_nr, pool_nr; + + if ( prim != NULL ) + { + if ( get_partition_group ( prim, &group_nr, &pool_nr ) == VSI_OK ) + { + Caller = e_running[os_MyHandle()]; + /* + * set pointer to status entry of the currently used partition + */ + pPoolStatus = &PoolStatus.PartitionStatus [ P_PNR(prim) ]; + + + /* + * send error message in case of an illegal state transition + */ + if ( pPoolStatus->Status & FORBIDDEN_SEND_STATES ) + vsi_o_ttrace (Caller, TC_SYSTEM, + "[PPM]: %s->%s: %s(%d)", get_partition_state_name(pPoolStatus->Status), + get_partition_state_name(PARTITION_SENT),rm_path(file),line ); + + /* + * check if more bytes written than requested during allocation + */ + if ( *((char*)prim + pPoolStatus->RequestedSize - 1) != PPM_END_MARKER ) + { + if ( prim->dph_offset == 0 ) + vsi_o_ttrace ( NO_TASK, TC_SYSTEM, "SYSTEM WARNING: Bytes written > requested partition size, %s(%d)", rm_path(file), line ); + } + /* + * update partition status + */ + SetPartitionStatus ( pPoolStatus, file, line, P_OPC(prim), NewStatus, (T_HANDLE)(OWNER_IS_COM_HANDLE|rcv) ); + update_dyn_state ( Caller, prim, rcv, PARTITION_SENT, file, line ); + } + else + vsi_o_ttrace (Caller, TC_SYSTEM,"[PPM]: Invalid Partition Pool, group: %d, pool: %d", group_nr, pool_nr ); + } +} +#endif + +#ifndef RUN_INT_RAM +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : vsi_ppm_store | ++--------------------------------------------------------------------+ + + PURPOSE : supervision of storing a partition. + +*/ +GLOBAL void vsi_ppm_store ( T_HANDLE Caller, T_PRIM_HEADER *prim, const char *file, int line ) +{ +T_PARTITION_STATUS *pPoolStatus; +USHORT group_nr, pool_nr; + + if ( prim != NULL ) + { + if ( get_partition_group ( prim, &group_nr, &pool_nr ) == VSI_OK ) + { + Caller = e_running[os_MyHandle()]; + /* + * set pointer to status entry of the currently used partition + */ + pPoolStatus = &PoolStatus.PartitionStatus [ P_PNR(prim) ]; + + /* + * send error message in case of an illegal state transition + */ + if ( pPoolStatus->Status & FORBIDDEN_STORE_STATES ) + vsi_o_ttrace (Caller, TC_SYSTEM, + "[PPM]: %s->%s: %s(%d)", get_partition_state_name(pPoolStatus->Status), + get_partition_state_name(PARTITION_STORED),rm_path(file),line ); + + /* + * update partition status + */ + SetPartitionStatus ( pPoolStatus, file, line, P_OPC(prim), pPoolStatus->Status, Caller ); + } + else + vsi_o_ttrace (Caller, TC_SYSTEM,"[PPM]: Invalid Partition Pool, group: %d, pool: %d", group_nr, pool_nr ); + } +} +#endif + +#ifndef RUN_INT_RAM +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : vsi_ppm_reuse | ++--------------------------------------------------------------------+ + + PURPOSE : supervision of reusing a partition. + +*/ +GLOBAL void vsi_ppm_reuse ( T_HANDLE Caller, T_PRIM_HEADER *prim, const char *file, int line ) +{ +T_PARTITION_STATUS *pPoolStatus; +ULONG OldSize, NewSize; +USHORT group_nr, pool_nr; + + if ( prim != NULL ) + { + if ( get_partition_group ( prim, &group_nr, &pool_nr ) == VSI_OK ) + { + Caller = e_running[os_MyHandle()]; + /* + * set pointer to status entry of the currently used partition + */ + pPoolStatus = &PoolStatus.PartitionStatus [ P_PNR(prim) ]; + + /* + * send error message in case of an illegal state transition + */ + if ( pPoolStatus->Status & FORBIDDEN_REUSE_STATES ) + vsi_o_ttrace (Caller, TC_SYSTEM, + "[PPM]: %s->%s: %s(%d)", get_partition_state_name(pPoolStatus->Status), + get_partition_state_name(PARTITION_REUSED),rm_path(file),line ); + + /* + * update partition status + */ + SetPartitionStatus ( pPoolStatus, file, line, P_OPC(prim), PARTITION_REUSED, Caller ); + update_dyn_state ( Caller, prim, Caller, PARTITION_REUSED, file, line ); + /* + * if the new primitive exceeds the size of the partition, then + * - store file, line and primitive opc + * - send an error message + */ +#if 0 + if ( (ULONG)(P_LEN(prim)) > PoolGroupConfig[PrimGroupHandle]->PoolConfig[P_PGR(prim)].PartitionSize ) + { + PoolStatus.PartitionOversize [P_PGR(prim)].Userfile = file; + PoolStatus.PartitionOversize [P_PGR(prim)].Line = line; + PoolStatus.PartitionOversize [P_PGR(prim)].PrimOPC = P_OPC(prim); + vsi_o_assert (NO_TASK, OS_SYST_ERR_OVERSIZE, file, line, "PREUSE - oversize error in %s", + pf_TaskTable[Caller].Name ); + } +#endif +#ifdef OPTIMIZE_POOL + /* + * if the old and new primitve have different sizes, then + * - decrement byte counter by old size + * - decrement old range counter + * - increment new range counter + * - increment byte counter by new size + */ + if ( (OldSize=pPoolStatus->UsedSize) NEQ (NewSize=P_LEN(prim)) ) + { + UpdatePoolCounter ( &PoolStatus.ByteCounter [P_PGR(prim)],DECREMENT,OldSize ); + UpdatePoolCounter ( &PoolStatus.RangeCounter [ GetPartitionRange(OldSize,group_nr,pool_nr) ], DECREMENT, 1 ); + UpdatePoolCounter ( &PoolStatus.RangeCounter [ GetPartitionRange(NewSize,group_nr,pool_nr) ], INCREMENT, 1 ); + pPoolStatus->UsedSize = NewSize; + if ( UpdatePoolCounter ( &PoolStatus.ByteCounter [P_PGR(prim)],INCREMENT,NewSize ) ) + { + StoreRangeCounters ( prim, STORE_MAX_BYTE ); + UpdatePoolCounter ( &PoolStatus.PartitionCounter [ P_PGR(prim) ], STORE_MAX_BYTE,0 ); + } + } +#endif /* OPTIMIZE_POOL */ + } + else + vsi_o_ttrace (Caller, TC_SYSTEM,"[PPM]: Invalid Partition Pool, group: %d, pool: %d", group_nr, pool_nr ); + } +} +#endif + +#ifndef RUN_FLASH +/* ++--------------------------------------------------------------------+ +| PROJECT : GSM-Frame (8415) MODULE : VSI_PPM | +| STATE : code ROUTINE : vsi_ppm_free | ++--------------------------------------------------------------------+ + + PURPOSE : supervision of deallocating a partition. + +*/ +GLOBAL void vsi_ppm_free ( T_HANDLE Caller, T_PRIM_HEADER *prim, const char *file, int line ) +{ +T_PARTITION_STATUS *pPoolStatus; +USHORT group_nr, pool_nr; +T_HANDLE owner; + + if ( prim != NULL ) + { + if ( get_partition_group ( prim, &group_nr, &pool_nr ) == VSI_OK ) + { + Caller = e_running[os_MyHandle()]; + prim->opc = 0; + /* + * set pointer to status entry of the currently used partition + */ + pPoolStatus = &PoolStatus.PartitionStatus [ P_PNR(prim) ]; + + /* + * send error message in case of an illegal state transition + */ + if ( pPoolStatus->Status & FORBIDDEN_DEALLOCATE_STATES ) + vsi_o_ttrace (Caller, TC_SYSTEM, + "[PPM]: %s->%s: %s(%d)", get_partition_state_name(pPoolStatus->Status), + get_partition_state_name(PARTITION_FREED),file,line ); + + + /* CURRENTLY DISABLED FOR UMTS RELEASE */ + if ( pPoolStatus->owner & OWNER_IS_COM_HANDLE ) + { + owner = pPoolStatus->owner&~OWNER_IS_COM_HANDLE; + vsi_o_ttrace (NO_TASK, TC_SYSTEM, + "SYSTEM WARNING: %s freed partition stored in %s queue, %s(%d)", + pf_TaskTable[Caller].Name,pf_TaskTable[owner].Name,rm_path(file),line ); + } + if ( ppm_check_partition_owner == 1 ) + { + if ( (pPoolStatus->owner & ~OWNER_IS_COM_HANDLE) != Caller ) + { + owner = pPoolStatus->owner&~OWNER_IS_COM_HANDLE; + vsi_o_ttrace (NO_TASK, TC_SYSTEM, + "SYSTEM WARNING: %s freed partition belonging to %s, %s(%d)", + pf_TaskTable[Caller].Name,pf_TaskTable[owner].Name,rm_path(file),line ); + } + } + + if ( !(pPoolStatus->Status & PARTITION_FREED) ) + { +#ifdef OPTIMIZE_POOL + /* + * decrement byte counter by primitive size + * decrement range counter + * decrement partition counter + */ + UpdatePoolCounter ( &PoolStatus.ByteCounter [ P_PGR(prim) ], DECREMENT, pPoolStatus->UsedSize ); + UpdatePoolCounter ( &PoolStatus.RangeCounter [GetPartitionRange(pPoolStatus->UsedSize,group_nr,pool_nr)], DECREMENT, 1 ) ; +#endif /* OPTIMIZE_POOL */ + UpdatePoolCounter ( &PoolStatus.PartitionCounter [ P_PGR(prim) ], DECREMENT, 1 ); + } + + /* + * update partition status + */ + SetPartitionStatus ( pPoolStatus, file, line, 0, PARTITION_FREED, 0 ); + } + else + vsi_o_ttrace (Caller, TC_SYSTEM,"[PPM]: Invalid Partition Pool, group: %d, pool: %d", group_nr, pool_nr ); + } +} +#endif + +#ifndef RUN_FLASH +GLOBAL void vsi_ppm_setend ( T_PRIM_HEADER *prim, ULONG size ) +{ + *((char*)prim + size ) = PPM_END_MARKER; + PoolStatus.PartitionStatus[P_PNR(prim)].RequestedSize = size+1; +} +#endif +#endif /* MEMORY_SUPERVISION */