X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=rts%2Fparallel%2FLLComms.c;fp=rts%2Fparallel%2FLLComms.c;h=baa6dddf0c1251a83773dd8178753dd51fd529ee;hb=0065d5ab628975892cea1ec7303f968c3338cbe1;hp=0000000000000000000000000000000000000000;hpb=28a464a75e14cece5db40f2765a29348273ff2d2;p=ghc-hetmet.git diff --git a/rts/parallel/LLComms.c b/rts/parallel/LLComms.c new file mode 100644 index 0000000..baa6ddd --- /dev/null +++ b/rts/parallel/LLComms.c @@ -0,0 +1,489 @@ +/* ---------------------------------------------------------------------------- + * Time-stamp: + * + * GUM Low-Level Inter-Task Communication + * + * This module defines PVM Routines for PE-PE communication. + * + * P. Trinder, December 5th. 1994. + * P. Trinder, July 1998 + * H-W. Loidl, November 1999 - + --------------------------------------------------------------------------- */ + +#ifdef PAR /* whole file */ + +//@node GUM Low-Level Inter-Task Communication, , , +//@section GUM Low-Level Inter-Task Communication + +/* + *This module defines the routines which communicate between PEs. The + *code is based on Kevin Hammond's GRIP RTS. (OpCodes.h defines + *PEOp1 etc. in terms of sendOp1 etc.). + * + *Routine & Arguments + * & + *sendOp & 0 \\ + *sendOp1 & 1 \\ + *sendOp2 & 2 \\ + *sendOpN & vector \\ + *sendOpV & variable \\ + *sendOpNV & variable+ vector \\ + * + *First the standard include files. + */ + +//@menu +//* Macros etc:: +//* Includes:: +//* Auxiliary functions:: +//* Index:: +//@end menu + +//@node Macros etc, Includes, GUM Low-Level Inter-Task Communication, GUM Low-Level Inter-Task Communication +//@subsection Macros etc + +/* Evidently not Posix */ +/* #include "PosixSource.h" */ + +#define UNUSED /* nothing */ + +//@node Includes, Auxiliary functions, Macros etc, GUM Low-Level Inter-Task Communication +//@subsection Includes + +#include "Rts.h" +#include "RtsFlags.h" +#include "RtsUtils.h" +#include "Parallel.h" +#include "ParallelRts.h" +#if defined(DEBUG) +# include "ParallelDebug.h" +#endif +#include "LLC.h" + +#ifdef __STDC__ +#include +#else +#include +#endif + +/* Cannot use std macro when compiling for SysMan */ +/* debugging enabled */ +// #define IF_PAR_DEBUG(c,s) { s; } +/* debugging disabled */ +#define IF_PAR_DEBUG(c,s) /* nothing */ + +//@node Auxiliary functions, Index, Includes, GUM Low-Level Inter-Task Communication +//@subsection Auxiliary functions + +/* + * heapChkCounter tracks the number of heap checks since the last probe. + * Not currently used! We check for messages when a thread is resheduled. + */ +int heapChkCounter = 0; + +/* + * Then some miscellaneous functions. + * getOpName returns the character-string name of any OpCode. + */ + +char *UserPEOpNames[] = { PEOP_NAMES }; + +//@cindex getOpName +char * +getOpName(nat op) +{ + if (op >= MIN_PEOPS && op <= MAX_PEOPS) + return (UserPEOpNames[op - MIN_PEOPS]); + else + return ("Unknown PE OpCode"); +} + +/* + * traceSendOp handles the tracing of messages. + */ + +//@cindex traceSendOp +static void +traceSendOp(OpCode op, GlobalTaskId dest UNUSED, + unsigned int data1 UNUSED, unsigned int data2 UNUSED) +{ + char *OpName; + + OpName = getOpName(op); + IF_PAR_DEBUG(trace, + fprintf(stderr," %s [%x,%x] sent from %x to %x", + OpName, data1, data2, mytid, dest)); +} + +/* + * sendOp sends a 0-argument message with OpCode {\em op} to + * the global task {\em task}. + */ + +//@cindex sendOp +void +sendOp(OpCode op, GlobalTaskId task) +{ + traceSendOp(op, task,0,0); + + pvm_initsend(PvmDataRaw); + pvm_send(task, op); +} + +/* + * sendOp1 sends a 1-argument message with OpCode {\em op} + * to the global task {\em task}. + */ + +//@cindex sendOp1 +void +sendOp1(OpCode op, GlobalTaskId task, StgWord arg1) +{ + traceSendOp(op, task, arg1,0); + + pvm_initsend(PvmDataRaw); + PutArg1(arg1); + pvm_send(task, op); +} + + +/* + * sendOp2 is used by the FP code only. + */ + +//@cindex sendOp2 +void +sendOp2(OpCode op, GlobalTaskId task, StgWord arg1, StgWord arg2) +{ + traceSendOp(op, task, arg1, arg2); + + pvm_initsend(PvmDataRaw); + PutArg1(arg1); + PutArg2(arg2); + pvm_send(task, op); +} + +/* + * + * sendOpV takes a variable number of arguments, as specified by {\em n}. + * For example, + * + * sendOpV( PP_STATS, StatsTask, 3, start_time, stop_time, sparkcount); + */ + +//@cindex sendOpV +void +sendOpV(OpCode op, GlobalTaskId task, int n, ...) +{ + va_list ap; + int i; + StgWord arg; + + va_start(ap, n); + + traceSendOp(op, task, 0, 0); + + pvm_initsend(PvmDataRaw); + + for (i = 0; i < n; ++i) { + arg = va_arg(ap, StgWord); + PutArgN(i, arg); + } + va_end(ap); + + pvm_send(task, op); +} + +/* + * + * sendOpNV takes a variable-size datablock, as specified by {\em + * nelem} and a variable number of arguments, as specified by {\em + * narg}. N.B. The datablock and the additional arguments are contiguous + * and are copied over together. For example, + * + * sendOpNV(PP_RESUME, tsoga.pe, 6, nelem, data, + * (W_) ga.weight, (W_) ga.loc.gc.gtid, (W_) ga.loc.gc.slot, + * (W_) tsoga.weight, (W_) tsoga.loc.gc.gtid, (W_) tsoga.loc.gc.slot); + * + * Important: The variable arguments must all be StgWords. + + sendOpNV(_, tid, m, n, data, x1, ..., xm): + + | n elems + +------------------------------ + | x1 | ... | xm | n | data .... + +------------------------------ + */ + +//@cindex sendOpNV +void +sendOpNV(OpCode op, GlobalTaskId task, int nelem, + StgWord *datablock, int narg, ...) +{ + va_list ap; + int i; + StgWord arg; + + va_start(ap, narg); + + traceSendOp(op, task, 0, 0); + IF_PAR_DEBUG(trace, + fprintf(stderr,"~~ sendOpNV: op = %x (%s), task = %x, narg = %d, nelem = %d", + op, getOpName(op), task, narg, nelem)); + + pvm_initsend(PvmDataRaw); + + for (i = 0; i < narg; ++i) { + arg = va_arg(ap, StgWord); + IF_PAR_DEBUG(trace, + fprintf(stderr,"~~ sendOpNV: arg = %d\n",arg)); + PutArgN(i, arg); + } + arg = (StgWord) nelem; + PutArgN(narg, arg); + +/* for (i=0; i < nelem; ++i) fprintf(stderr, "%d ",datablock[i]); */ +/* fprintf(stderr," in sendOpNV\n");*/ + + PutArgs(datablock, nelem); + va_end(ap); + + pvm_send(task, op); +} + +/* + * sendOpN take a variable size array argument, whose size is given by + * {\em n}. For example, + * + * sendOpN( PP_STATS, StatsTask, 3, stats_array); + */ + +//@cindex sendOpN +void +sendOpN(OpCode op, GlobalTaskId task, int n, StgPtr args) +{ + long arg; + + traceSendOp(op, task, 0, 0); + + pvm_initsend(PvmDataRaw); + arg = (long) n; + PutArgN(0, arg); + PutArgs(args, n); + pvm_send(task, op); +} + +/* + * broadcastOpN is as sendOpN but broadcasts to all members of a group. + */ + +void +broadcastOpN(OpCode op, char *group, int n, StgPtr args) +{ + long arg; + + //traceSendOp(op, task, 0, 0); + + pvm_initsend(PvmDataRaw); + arg = (long) n; + PutArgN(0, arg); + PutArgs(args, n); + pvm_bcast(group, op); +} + +/* + waitForPEOp waits for a packet from global task who with the + OpCode op. If ignore is true all other messages are simply ignored; + otherwise they are handled by processUnexpected. + */ +//@cindex waitForPEOp +rtsPacket +waitForPEOp(OpCode op, GlobalTaskId who, void(*processUnexpected)(rtsPacket) ) +{ + rtsPacket p; + int nbytes; + OpCode opCode; + GlobalTaskId sender_id; + rtsBool match; + + IF_PAR_DEBUG(verbose, + fprintf(stderr,"~~ waitForPEOp: expecting op = %x (%s), who = [%x]\n", + op, getOpName(op), who)); + + do { + while((p = pvm_recv(ANY_TASK,ANY_OPCODE)) < 0) + pvm_perror("waitForPEOp: Waiting for PEOp"); + + pvm_bufinfo( p, &nbytes, &opCode, &sender_id ); + match = (op == ANY_OPCODE || op == opCode) && + (who == ANY_TASK || who == sender_id); + + if (match) { + IF_PAR_DEBUG(verbose, + fprintf(stderr, + "~~waitForPEOp: Qapla! received: OpCode = %#x (%s), sender_id = [%x]", + opCode, getOpName(opCode), sender_id)); + + return(p); + } + + /* Handle the unexpected OpCodes */ + if (processUnexpected!=NULL) { + (*processUnexpected)(p); + } else { + IF_PAR_DEBUG(verbose, + fprintf(stderr, + "~~ waitForPEOp: ignoring OpCode = %#x (%s), sender_id = [%x]", + opCode, getOpName(opCode), sender_id)); + } + + } while(rtsTrue); +} + +/* + processUnexpected processes unexpected messages. If the message is a + FINISH it exits the prgram, and PVM gracefully + */ +//@cindex processUnexpectedMessage +void +processUnexpectedMessage(rtsPacket packet) { + OpCode opCode = getOpcode(packet); + + IF_PAR_DEBUG(verbose, + GlobalTaskId sender = senderTask(packet); + fprintf(stderr,"~~ [%x] processUnexpected: Received %x (%s), sender %x\n", + mytid, opCode, getOpName(opCode), sender)); + + switch (opCode) { + case PP_FINISH: + stg_exit(EXIT_SUCCESS); + break; + + /* Anything we're not prepared to deal with. Note that ALL OpCodes + are discarded during termination -- this helps prevent bizarre + race conditions. */ + default: + // if (!GlobalStopPending) + { + GlobalTaskId errorTask; + OpCode opCode; + + getOpcodeAndSender(packet, &opCode, &errorTask); + fprintf(stderr,"== Task %x: Unexpected OpCode %x from %x in processUnexpected", + mytid, opCode, errorTask ); + + stg_exit(EXIT_FAILURE); + } + } +} + +//@cindex getOpcode +OpCode +getOpcode(rtsPacket p) +{ + int nbytes; + OpCode OpCode; + GlobalTaskId sender_id; + /* read PVM buffer */ + pvm_bufinfo(p, &nbytes, &OpCode, &sender_id); + /* return tag of the buffer as opcode */ + return(OpCode); +} + +//@cindex getOpcodeAndSender +void +getOpcodeAndSender(rtsPacket p, OpCode *opCodep, GlobalTaskId *senderIdp) +{ + int nbytes; + /* read PVM buffer */ + pvm_bufinfo(p, &nbytes, opCodep, senderIdp); +} + +//@cindex senderTask +GlobalTaskId +senderTask(rtsPacket p) +{ + int nbytes; + OpCode opCode; + GlobalTaskId sender_id; + /* read PVM buffer */ + pvm_bufinfo(p, &nbytes, &opCode, &sender_id); + return(sender_id); +} + +/* + * startUpPE does the low-level comms specific startup stuff for a + * PE. It initialises the comms system, joins the appropriate groups + * allocates the PE buffer + */ + +//@cindex startUpPE +void +startUpPE(void) +{ + mytid = _my_gtid; /* Initialise PVM and get task id into global var.*/ + + IF_PAR_DEBUG(verbose, + fprintf(stderr,"== [%x] PEStartup: Task id = [%x], No. PEs = %d \n", + mytid, mytid, nPEs)); + checkComms(pvm_joingroup(PEGROUP), "PEStartup"); + IF_PAR_DEBUG(verbose, + fprintf(stderr,"== [%x] PEStartup: Joined PEGROUP\n", mytid)); +} + +/* + * PEShutdown does the low-level comms-specific shutdown stuff for a + * single PE. It leaves the groups and then exits from pvm. + */ +//@cindex shutDownPE +void +shutDownPE(void) +{ + IF_PAR_DEBUG(verbose, + fprintf(stderr, "== [%x] PEshutdown\n", mytid)); + + checkComms(pvm_lvgroup(PEGROUP),"PEShutDown"); + checkComms(pvm_exit(),"PEShutDown"); +} + +/* + Extract the exit code out of a PP_FINISH packet (used in SysMan) +*/ +int +getExitCode(int nbytes, GlobalTaskId *sender_idp) { + int exitCode=0; + + if (nbytes==4) { // Notification from a task doing pvm_exit + GetArgs(sender_idp,1); // Presumably this must be MainPE Id + exitCode = -1; + } else if (nbytes==8) { // Doing a controlled shutdown + GetArgs(&exitCode,1); // HACK: controlled shutdown == 2 values + GetArgs(&exitCode,1); + } else { + exitCode = -2; // everything else + } + return exitCode; +} + +#endif /* PAR -- whole file */ + +//@node Index, , Auxiliary functions, GUM Low-Level Inter-Task Communication +//@subsection Index + +//@index +//* getOpName:: @cindex\s-+getOpName +//* traceSendOp:: @cindex\s-+traceSendOp +//* sendOp:: @cindex\s-+sendOp +//* sendOp1:: @cindex\s-+sendOp1 +//* sendOp2:: @cindex\s-+sendOp2 +//* sendOpV:: @cindex\s-+sendOpV +//* sendOpNV:: @cindex\s-+sendOpNV +//* sendOpN:: @cindex\s-+sendOpN +//* waitForPEOp:: @cindex\s-+waitForPEOp +//* processUnexpectedMessage:: @cindex\s-+processUnexpectedMessage +//* getOpcode:: @cindex\s-+getOpcode +//* getOpcodeAndSender:: @cindex\s-+getOpcodeAndSender +//* senderTask:: @cindex\s-+senderTask +//* startUpPE:: @cindex\s-+startUpPE +//* shutDownPE:: @cindex\s-+shutDownPE +//@end index