diff --git a/qnx/src/ipc3x_dev/ti/syslink/build/Qnx/resmgr/syslink_main.c b/qnx/src/ipc3x_dev/ti/syslink/build/Qnx/resmgr/syslink_main.c
index f29f385008616372fda2b3cd0dbbb361df25e2ab..11a8bd07a3bf325ea1c158a721157d44c4a34cdf 100644 (file)
/*
* @file syslink_main.c
*
- * @brief syslink main
+ * @brief ipc main
*
*
* @ver 02.00.00.46_alpha1
*
* ============================================================================
*
- * Copyright (c) 2011-2014, Texas Instruments Incorporated
+ * Copyright (c) 2011-2015, Texas Instruments Incorporated
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
#include <_GateMP_daemon.h>
#include <OsalSemaphore.h>
#include <ti/syslink/utils/OsalPrint.h>
-#if defined(SYSLINK_PLATFORM_OMAP5430)
+#if defined(IPC_PLATFORM_OMAP5430)
#include <_ipu_pm.h>
#endif
#include <ti/syslink/utils/Trace.h>
/* Number of cores to attach to */
static int numAttach = 0;
-#if defined(SYSLINK_PLATFORM_VAYU)
+#if defined(IPC_PLATFORM_VAYU)
static bool gatempEnabled = false;
+static Int32 sr0OwnerProcId = -1;
#endif
-// Syslink hibernation global variables
-Bool syslink_hib_enable = TRUE;
-#if !defined(SYSLINK_PLATFORM_OMAP5430)
+// IPC hibernation global variables
+Bool ipc_hib_enable = TRUE;
+#if !defined(IPC_PLATFORM_OMAP5430)
#define PM_HIB_DEFAULT_TIME 5000
#endif
-uint32_t syslink_hib_timeout = PM_HIB_DEFAULT_TIME;
-Bool syslink_hib_hibernating = FALSE;
-pthread_mutex_t syslink_hib_mutex = PTHREAD_MUTEX_INITIALIZER;
-pthread_cond_t syslink_hib_cond = PTHREAD_COND_INITIALIZER;
+uint32_t ipc_hib_timeout = PM_HIB_DEFAULT_TIME;
+Bool ipc_hib_hibernating = FALSE;
+pthread_mutex_t ipc_hib_mutex = PTHREAD_MUTEX_INITIALIZER;
+pthread_cond_t ipc_hib_cond = PTHREAD_COND_INITIALIZER;
extern Int rpmsg_rpc_setup (Void);
extern Void rpmsg_rpc_destroy (Void);
extern Void GateHWSpinlock_LeaveLockForPID(int pid);
-typedef struct syslink_firmware_info_t {
+typedef struct ipc_firmware_info_t {
uint16_t proc_id;
char * proc;
char * firmware;
bool attachOnly;
-} syslink_firmware_info;
-static syslink_firmware_info syslink_firmware[MultiProc_MAXPROCESSORS];
-static unsigned int syslink_num_cores = 0;
-
-int init_ipc(syslink_dev_t * dev, syslink_firmware_info * firmware, bool recover);
-int deinit_ipc(syslink_dev_t * dev, bool recover);
+ int procState; /* state of processor - index into procStateNames array */
+ int readProcState; /* state that is currently being printed */
+ bool reload; /* reload core during recovery */
+ bool freeString; /* Need to free previously allocated firmware string */
+} ipc_firmware_info;
+static ipc_firmware_info ipc_firmware[MultiProc_MAXPROCESSORS];
+
+/* Number of valid entries in ipc_firmware array */
+static unsigned int ipc_num_cores = 0;
+
+int init_ipc(ipc_dev_t * dev, ipc_firmware_info * firmware,
+ bool recover);
+int deinit_ipc(ipc_dev_t * dev, ipc_firmware_info * firmware,
+ bool recover);
+int init_ipc_trace_device(ipc_dev_t *dev);
+int deinit_ipc_trace_device(ipc_dev_t *dev);
+
+Int ipc_error_cb (UInt16 procId, ProcMgr_Handle handle,
+ ProcMgr_State fromState, ProcMgr_State toState,
+ ProcMgr_EventStatus status, Ptr args);
static RscTable_Handle rscHandle[MultiProc_MAXPROCESSORS];
ProcMgr_State_Watchdog,
ProcMgr_State_EndValue};
-typedef struct syslink_trace_info_t {
+/* Processor states */
+#define RESET_STATE 0
+#define RUNNING_STATE 1
+
+static String procStateNames[] = { "In reset\n",
+ "Running\n" };
+
+typedef struct ipc_trace_info_t {
uintptr_t va;
uint32_t len;
uint32_t * widx;
uint32_t * ridx;
Bool firstRead;
-} syslink_trace_info;
+} ipc_trace_info;
+
+static ipc_trace_info proc_traces[MultiProc_MAXPROCESSORS];
+
+static int runSlave(ipc_dev_t *dev, uint16_t procId,
+ ipc_firmware_info * firmware_info)
+{
+ int status = 0;
+ ProcMgr_AttachParams attachParams;
+
+ if (firmware_info->firmware) {
+ rscHandle[procId] = RscTable_alloc(firmware_info->firmware, procId);
+ if (rscHandle[procId] == NULL) {
+ status = -1;
+ return status;
+ }
+ }
+
+ status = ProcMgr_open(&procH[procId], procId);
+ if (status < 0 || procH[procId] == NULL) {
+ goto procmgropen_fail;
+ }
+
+ /* Load and start the remote processor. */
+ ProcMgr_getAttachParams(procH[procId], &attachParams);
+ if (firmware_info->attachOnly) {
+ attachParams.bootMode = ProcMgr_BootMode_NoBoot;
+ }
+ status = ProcMgr_attach(procH[procId], &attachParams);
+ if (status < 0) {
+ GT_setFailureReason(curTrace,
+ GT_4CLASS,
+ "runSlave",
+ status,
+ "ProcMgr_attach failed!");
+ goto procmgrattach_fail;
+ }
+
+ if ((firmware_info->firmware) &&
+ (!firmware_info->attachOnly)) {
+ status = ProcMgr_load(procH[procId],
+ (String)firmware_info->firmware, 0, NULL,
+ NULL, &procH_fileId[procId]);
+ if (status < 0) {
+ GT_setFailureReason(curTrace,
+ GT_4CLASS,
+ "runSlave",
+ status,
+ "ProcMgr_load failed!");
+ goto procmgrload_fail;
+ }
+ }
+
+ status = Ipc_attach(procId);
+ if (status < 0) {
+ GT_setFailureReason(curTrace,
+ GT_4CLASS,
+ "runSlave",
+ status,
+ "Ipc_attach failed!");
+ goto ipcattach_fail;
+ }
-static syslink_trace_info proc_traces[MultiProc_MAXPROCESSORS];
+ status = ProcMgr_registerNotify(procH[procId], ipc_error_cb, (Ptr)dev,
+ -1, errStates);
+ if (status < 0) {
+ goto procmgrreg_fail;
+ }
+
+ if (!firmware_info->attachOnly) {
+ status = ProcMgr_start(procH[procId], NULL);
+ if (status < 0) {
+ GT_setFailureReason(curTrace,
+ GT_4CLASS,
+ "runSlave",
+ status,
+ "ProcMgr_start failed!");
+ goto procmgrstart_fail;
+ }
+ }
+
+ Osal_printf("runSlave successful for core %d\n", procId);
-int syslink_read(resmgr_context_t *ctp, io_read_t *msg, syslink_ocb_t *ocb)
+ return 0;
+
+procmgrstart_fail:
+ ProcMgr_unregisterNotify(procH[procId], ipc_error_cb,
+ (Ptr)dev, errStates);
+procmgrreg_fail:
+ Ipc_detach(procId);
+ipcattach_fail:
+ if ((firmware_info->firmware) &&
+ (!firmware_info->attachOnly)) {
+ ProcMgr_unload(procH[procId], procH_fileId[procId]);
+ }
+procmgrload_fail:
+ ProcMgr_detach(procH[procId]);
+procmgrattach_fail:
+ ProcMgr_close(&procH[procId]);
+ procH[procId] = NULL;
+procmgropen_fail:
+ RscTable_free(&rscHandle[procId]);
+
+ return -1;
+}
+
+static int resetSlave(ipc_dev_t *dev, uint16_t procId)
+{
+ if ((procH[procId]) && (procH_fileId[procId])) {
+ GT_1trace(curTrace, GT_4CLASS, "stopping %s", MultiProc_getName(procId));
+ ProcMgr_stop(procH[procId]);
+ }
+
+ if (procH[procId]) {
+ ProcMgr_unregisterNotify(procH[procId], ipc_error_cb, (Ptr)dev,
+ errStates);
+ Ipc_detach(procId);
+ if (procH_fileId[procId]) {
+ ProcMgr_unload(procH[procId], procH_fileId[procId]);
+ procH_fileId[procId] = 0;
+ }
+ ProcMgr_detach(procH[procId]);
+ ProcMgr_close(&procH[procId]);
+ procH[procId] = NULL;
+ RscTable_free(&rscHandle[procId]);
+ rscHandle[procId] = NULL;
+ }
+
+ Osal_printf("resetSlave successful for core %d\n", procId);
+
+ return 0;
+}
+
+/* Add firmware entry after IPC is setup */
+static void addFirmware(uint16_t procId)
+{
+ ipc_firmware[ipc_num_cores].proc =
+ MultiProc_getName(procId);
+ ipc_firmware[ipc_num_cores].proc_id = procId;
+ ipc_firmware[ipc_num_cores].attachOnly = false;
+ ipc_firmware[ipc_num_cores].reload = false;
+ ipc_firmware[ipc_num_cores].procState = RESET_STATE;
+ ipc_firmware[ipc_num_cores].freeString = false;
+ ipc_firmware[ipc_num_cores++].firmware = NULL;
+
+ return;
+}
+
+static int slave_state_read(resmgr_context_t *ctp, io_read_t *msg,
+ ipc_ocb_t *ocb)
+{
+ int nbytes;
+ int nparts;
+ int status;
+ int nleft;
+ int i;
+ uint16_t procId = ocb->ocb.attr->procid;
+ ipc_dev_t * dev = ocb->ocb.attr->dev;
+
+ if ((status = iofunc_read_verify(ctp, msg, &ocb->ocb, NULL)) != EOK) {
+ return (status);
+ }
+
+ if ((msg->i.xtype & _IO_XTYPE_MASK) != _IO_XTYPE_NONE) {
+ return (ENOSYS);
+ }
+
+ pthread_mutex_lock(&dev->firmwareLock);
+
+ for (i = 0; i < ipc_num_cores; i++) {
+ if (ipc_firmware[i].proc_id == procId) {
+ break;
+ }
+ }
+ if (i == ipc_num_cores) {
+ if ((ipc_num_cores < MultiProc_MAXPROCESSORS)) {
+ addFirmware(procId);
+ }
+ else {
+ pthread_mutex_unlock(&dev->firmwareLock);
+ return (EBADSLT);
+ }
+ }
+
+ if (ocb->ocb.offset == 0) {
+ /* latch onto new state, so that we print out complete strings */
+ ipc_firmware[i].readProcState = ipc_firmware[i].procState;
+ }
+
+ nleft = strlen(procStateNames[ipc_firmware[i].readProcState])
+ - ocb->ocb.offset; /* the state is expressed in one byte */
+ nbytes = min(msg->i.nbytes, nleft);
+
+ /* Make sure the user has supplied a big enough buffer */
+ if (nbytes > 0) {
+ /* set up the return data IOV */
+ SETIOV(ctp->iov,
+ (char *)procStateNames[ipc_firmware[i].readProcState]
+ + ocb->ocb.offset, nbytes);
+
+ pthread_mutex_unlock(&dev->firmwareLock);
+
+ /* set up the number of bytes (returned by client's read()) */
+ _IO_SET_READ_NBYTES(ctp, nbytes);
+
+ ocb->ocb.offset += nbytes;
+
+ nparts = 1;
+ }
+ else {
+ pthread_mutex_unlock(&dev->firmwareLock);
+
+ _IO_SET_READ_NBYTES (ctp, 0);
+
+ /* reset offset */
+ ocb->ocb.offset = 0;
+
+ nparts = 0;
+ }
+
+ /* mark the access time as invalid (we just accessed it) */
+
+ if (msg->i.nbytes > 0) {
+ ocb->ocb.attr->attr.flags |= IOFUNC_ATTR_ATIME;
+ }
+
+ return (_RESMGR_NPARTS(nparts));
+}
+
+static int slave_state_write(resmgr_context_t *ctp, io_write_t *msg,
+ ipc_ocb_t *ocb)
+{
+ int status;
+ char * buf;
+ uint16_t procId = ocb->ocb.attr->procid;
+ int i;
+ char * ptr;
+ ipc_dev_t * dev = ocb->ocb.attr->dev;
+ Int32 sr0ProcId;
+
+ if ((status = iofunc_write_verify(ctp, msg, &ocb->ocb, NULL)) != EOK) {
+ return (status);
+ }
+
+ if ((msg->i.xtype & _IO_XTYPE_MASK) != _IO_XTYPE_NONE) {
+ return (ENOSYS);
+ }
+
+ /* set up the number of bytes (returned by client's write()) */
+ _IO_SET_WRITE_NBYTES (ctp, msg->i.nbytes);
+
+ buf = (char *) malloc(msg->i.nbytes + 1);
+ if (buf == NULL) {
+ return (ENOMEM);
+ }
+
+ /*
+ * Read the data from the sender's message buffer.
+ */
+ resmgr_msgread(ctp, buf, msg->i.nbytes, sizeof(msg->i));
+ buf[msg->i.nbytes] = '\0'; /* just in case the text is not NULL terminated */
+ if((ptr = strchr(buf, '\n')) != NULL) { /* Remove line feed if any */
+ *ptr = '\0';
+ }
+
+ pthread_mutex_lock(&dev->firmwareLock);
+ for (i = 0; i < ipc_num_cores; i++) {
+ if (ipc_firmware[i].proc_id == procId) {
+ break;
+ }
+ }
+ if (i == ipc_num_cores) {
+ if ((ipc_num_cores < MultiProc_MAXPROCESSORS)) {
+ addFirmware(procId);
+ }
+ else {
+ pthread_mutex_unlock(&dev->firmwareLock);
+ return (EBADSLT);
+ }
+ }
+
+ if (strcmp("1", buf) == 0) {
+ if ((ipc_firmware[i].procState == RESET_STATE) &&
+ (ipc_firmware[i].firmware != NULL)) {
+ status = runSlave(ocb->ocb.attr->dev, procId, &ipc_firmware[i]);
+ if (status < 0) {
+ pthread_mutex_unlock(&dev->firmwareLock);
+ free(buf);
+ fprintf(stderr, "IPC: failed to run slave core %s\n",
+ MultiProc_getName(procId));
+ return (EIO);
+ }
+#if defined(IPC_PLATFORM_VAYU)
+ if (gatempEnabled) {
+ if (sr0OwnerProcId == -1) {
+ /* Set up GateMP */
+ status = GateMP_setup(&sr0ProcId);
+ if ((status < 0) && (status != GateMP_E_NOTFOUND)) {
+ resetSlave(ocb->ocb.attr->dev, procId);
+ pthread_mutex_unlock(&dev->firmwareLock);
+ free(buf);
+ fprintf(stderr, "GateMP_setup failed\n");
+ return (EIO);
+ }
+ else if (status == 0) {
+ /* We have discovered an owner for SR0 */
+ sr0OwnerProcId = sr0ProcId;
+ }
+ }
+ else {
+ /*
+ * We have already identified SR0 owner and setup GateMP.
+ * Do nothing.
+ */
+ }
+ }
+#endif
+ printf("Core is now running with image '%s'\n",
+ ipc_firmware[i].firmware);
+ ipc_firmware[i].procState = RUNNING_STATE;
+ ipc_firmware[i].reload = true;
+ status = init_ipc_trace_device(dev);
+ if (status < 0) {
+#if defined(IPC_PLATFORM_VAYU)
+ if ((gatempEnabled) && (procId == sr0OwnerProcId)) {
+ sr0OwnerProcId = -1;
+ GateMP_destroy(FALSE);
+ }
+#endif
+ resetSlave(ocb->ocb.attr->dev, procId);
+ pthread_mutex_unlock(&dev->firmwareLock);
+ free(buf);
+ fprintf(stderr, "IPC: init_ipc_trace_device failed %d\n",
+ status);
+ return (EIO);
+ }
+ printf("Core %s has been started.\n", MultiProc_getName(procId));
+ }
+ }
+ else if (strcmp("0", buf) == 0) {
+ if (ipc_firmware[i].procState == RUNNING_STATE) {
+#if defined(IPC_PLATFORM_VAYU)
+ if ((gatempEnabled) && (procId == sr0OwnerProcId)) {
+ sr0OwnerProcId = -1;
+ status = GateMP_destroy(FALSE);
+ if (status < 0) {
+ pthread_mutex_unlock(&dev->firmwareLock);
+ free(buf);
+ fprintf(stderr, "Core %s cannot be reset. GateMP may still"
+ " be in use by host\n", MultiProc_getName(procId));
+ return (EIO);
+ }
+ }
+#endif
+ status = resetSlave(ocb->ocb.attr->dev, procId);
+ if (status < 0) {
+ pthread_mutex_unlock(&dev->firmwareLock);
+ free(buf);
+ fprintf(stderr, "IPC: failed to reset slave core %s\n",
+ MultiProc_getName(procId));
+ return (EIO);
+ }
+ ipc_firmware[i].procState = RESET_STATE;
+ ipc_firmware[i].reload = false;
+ status = deinit_ipc_trace_device(dev);
+ if (status < 0) {
+ pthread_mutex_unlock(&dev->firmwareLock);
+ free(buf);
+ fprintf(stderr, "IPC: deinit_ipc_trace_device failed %d\n",
+ status);
+ return (EIO);
+ }
+ printf("Core %s has been reset.\n", MultiProc_getName(procId));
+ }
+ }
+ else {
+ /* ignore the input as it is not recognized */
+ fprintf(stderr, "Unrecognized input\n");
+ }
+
+ pthread_mutex_unlock(&dev->firmwareLock);
+
+ free(buf);
+
+ if (msg->i.nbytes > 0) {
+ ocb->ocb.attr->attr.flags |= IOFUNC_ATTR_MTIME | IOFUNC_ATTR_CTIME;
+ }
+
+ return (_RESMGR_NPARTS(0));
+}
+
+static int slave_file_read(resmgr_context_t *ctp, io_read_t *msg,
+ ipc_ocb_t *ocb)
+{
+ int nbytes;
+ int nparts;
+ int status;
+ int nleft;
+ int i;
+ uint16_t procId = ocb->ocb.attr->procid;
+ ipc_dev_t * dev = ocb->ocb.attr->dev;
+
+ if ((status = iofunc_read_verify (ctp, msg, &ocb->ocb, NULL)) != EOK) {
+ return (status);
+ }
+
+ if ((msg->i.xtype & _IO_XTYPE_MASK) != _IO_XTYPE_NONE) {
+ return (ENOSYS);
+ }
+
+ pthread_mutex_lock(&dev->firmwareLock);
+ for (i = 0; i < ipc_num_cores; i++) {
+ if (ipc_firmware[i].proc_id == procId) {
+ break;
+ }
+ }
+
+ if (i == ipc_num_cores) {
+ if ((ipc_num_cores < MultiProc_MAXPROCESSORS)) {
+ addFirmware(procId);
+ }
+ else {
+ pthread_mutex_unlock(&dev->firmwareLock);
+ return (EBADSLT);
+ }
+ }
+
+ if (ipc_firmware[i].firmware == NULL) {
+ nbytes = 0;
+ }
+ else {
+ nleft = strlen(ipc_firmware[i].firmware)
+ - ocb->ocb.offset + 1; /* Add one byte for carriage return */
+ nbytes = min(msg->i.nbytes, nleft);
+ }
+
+ /* Make sure the user has supplied a big enough buffer */
+ if (nbytes > 0) {
+ if (nbytes == nleft) {
+ /* set up the return data IOV */
+ SETIOV(&ctp->iov[0], (char *)ipc_firmware[i].firmware
+ + ocb->ocb.offset, nbytes - 1);
+
+ /* add a carriage return */
+ SETIOV(&ctp->iov[1], "\n", 1);
+
+ nparts = 2;
+ }
+ else {
+ /* set up the return data IOV */
+ SETIOV(ctp->iov, (char *)ipc_firmware[i].firmware
+ + ocb->ocb.offset, nbytes);
+
+ nparts = 1;
+ }
+
+ /* set up the number of bytes (returned by client's read()) */
+ _IO_SET_READ_NBYTES(ctp, nbytes);
+
+ ocb->ocb.offset += nbytes;
+ }
+ else {
+ _IO_SET_READ_NBYTES (ctp, 0);
+
+ /* reset offset */
+ ocb->ocb.offset = 0;
+
+ nparts = 0;
+ }
+
+ pthread_mutex_unlock(&dev->firmwareLock);
+
+ /* mark the access time as invalid (we just accessed it) */
+
+ if (msg->i.nbytes > 0) {
+ ocb->ocb.attr->attr.flags |= IOFUNC_ATTR_ATIME;
+ }
+
+ return (_RESMGR_NPARTS(nparts));
+}
+
+static int slave_file_write(resmgr_context_t *ctp, io_write_t *msg,
+ ipc_ocb_t *ocb)
+{
+ int status;
+ char * buf;
+ uint16_t procId = ocb->ocb.attr->procid;
+ int i;
+ char * absPath;
+ char * ptr;
+ ipc_dev_t * dev = ocb->ocb.attr->dev;
+
+ if ((status = iofunc_write_verify(ctp, msg, &ocb->ocb, NULL)) != EOK) {
+ return (status);
+ }
+
+ if ((msg->i.xtype & _IO_XTYPE_MASK) != _IO_XTYPE_NONE) {
+ return (ENOSYS);
+ }
+
+ /* set up the number of bytes (returned by client's write()) */
+ _IO_SET_WRITE_NBYTES (ctp, msg->i.nbytes);
+
+ buf = (char *) malloc(msg->i.nbytes + 1);
+ if (buf == NULL) {
+ return (ENOMEM);
+ }
+
+ /*
+ * Read the data from the sender's message buffer.
+ */
+ resmgr_msgread(ctp, buf, msg->i.nbytes, sizeof(msg->i));
+ buf[msg->i.nbytes] = '\0'; /* just in case the text is not NULL terminated */
+ if((ptr = strchr(buf, '\n')) != NULL) { /* Remove line feed if any */
+ *ptr = '\0';
+ }
+
+ /* Get the abs path for all firmware files */
+ absPath = calloc(1, PATH_MAX + 1);
+ if (absPath == NULL) {
+ free(buf);
+ return (ENOMEM);
+ }
+ if (NULL == realpath(buf, absPath)) {
+ fprintf(stderr, "invalid path to executable: %d\n", errno);
+ fprintf(stderr, "make sure you are specifying the full path to the "
+ "file.\n");
+ free(absPath);
+ free(buf);
+ return (ENOENT);
+ }
+ free(buf);
+
+ pthread_mutex_lock(&dev->firmwareLock);
+
+ /*
+ * Check if an entry in ipc_firmware already exists for this core.
+ * If not, create one. Otherwise just update the firmware path.
+ */
+ for (i = 0; i < ipc_num_cores; i++) {
+ if (ipc_firmware[i].proc_id == procId) {
+ break;
+ }
+ }
+ if (i == ipc_num_cores) {
+ if (ipc_num_cores < MultiProc_MAXPROCESSORS) {
+ addFirmware(procId);
+ ipc_firmware[ipc_num_cores - 1].freeString = true;
+ ipc_firmware[ipc_num_cores - 1].firmware = absPath;
+ }
+ else {
+ pthread_mutex_unlock(&dev->firmwareLock);
+ free(absPath);
+ return (EBADSLT);
+ }
+ }
+ else {
+ /* Free previously allocated string */
+ if ((ipc_firmware[i].freeString) &&
+ (ipc_firmware[i].firmware)) {
+ free(ipc_firmware[i].firmware);
+ }
+ ipc_firmware[i].firmware = absPath;
+ }
+
+ pthread_mutex_unlock(&dev->firmwareLock);
+
+ if (msg->i.nbytes > 0) {
+ ocb->ocb.attr->attr.flags |= IOFUNC_ATTR_MTIME | IOFUNC_ATTR_CTIME;
+ }
+
+ return (_RESMGR_NPARTS(0));
+}
+
+int ipc_read(resmgr_context_t *ctp, io_read_t *msg, ipc_ocb_t *ocb)
{
int nbytes;
int nparts;
extern OsalSemaphore_Handle mqcopy_test_sem;
-int syslink_unblock(resmgr_context_t *ctp, io_pulse_t *msg, syslink_ocb_t *ocb)
+int ipc_unblock(resmgr_context_t *ctp, io_pulse_t *msg, ipc_ocb_t *ocb)
{
int status = _RESMGR_NOREPLY;
struct _msg_info info;
@@ -248,12 +840,12 @@ int syslink_unblock(resmgr_context_t *ctp, io_pulse_t *msg, syslink_ocb_t *ocb)
}
IOFUNC_OCB_T *
-syslink_ocb_calloc (resmgr_context_t * ctp, IOFUNC_ATTR_T * device)
+ipc_ocb_calloc (resmgr_context_t * ctp, IOFUNC_ATTR_T * device)
{
- syslink_ocb_t *ocb = NULL;
+ ipc_ocb_t *ocb = NULL;
/* Allocate the OCB */
- ocb = (syslink_ocb_t *) calloc (1, sizeof (syslink_ocb_t));
+ ocb = (ipc_ocb_t *) calloc (1, sizeof (ipc_ocb_t));
if (ocb == NULL){
errno = ENOMEM;
return (NULL);
}
void
-syslink_ocb_free (IOFUNC_OCB_T * i_ocb)
+ipc_ocb_free (IOFUNC_OCB_T * i_ocb)
{
- syslink_ocb_t * ocb = (syslink_ocb_t *)i_ocb;
+ ipc_ocb_t * ocb = (ipc_ocb_t *)i_ocb;
if (ocb) {
-#ifndef SYSLINK_PLATFORM_VAYU
+#ifndef IPC_PLATFORM_VAYU
GateHWSpinlock_LeaveLockForPID(ocb->pid);
#endif
free (ocb);
}
}
-int init_syslink_trace_device(syslink_dev_t *dev)
+int init_slave_devices(ipc_dev_t *dev)
{
resmgr_attr_t resmgr_attr;
int i;
- syslink_attr_t * trace_attr;
+ ipc_attr_t * slave_attr;
+ int status = 0;
+
+ memset(&resmgr_attr, 0, sizeof resmgr_attr);
+ resmgr_attr.nparts_max = 2;
+ resmgr_attr.msg_max_size = _POSIX_PATH_MAX;
+
+ /* Populate the /dev/ipc-state namespace */
+ for (i = 1; i < MultiProc_getNumProcessors(); i++) {
+ iofunc_func_init(_RESMGR_CONNECT_NFUNCS, &dev->ipc.cfuncs_state[i],
+ _RESMGR_IO_NFUNCS, &dev->ipc.iofuncs_state[i]);
+ slave_attr = &dev->ipc.cattr_slave[i];
+ iofunc_attr_init(&slave_attr->attr,
+ S_IFCHR | 0777, NULL, NULL);
+ slave_attr->attr.mount = &dev->ipc.mattr;
+ slave_attr->procid = i;
+ slave_attr->dev = (Ptr)dev;
+ iofunc_time_update(&slave_attr->attr);
+ snprintf(dev->ipc.device_name, _POSIX_PATH_MAX,
+ "%s-state/%s", IPC_DEVICE_PATH, MultiProc_getName(i));
+ dev->ipc.iofuncs_state[i].read = slave_state_read;
+ dev->ipc.iofuncs_state[i].write = slave_state_write;
+
+ if (-1 == (dev->ipc.resmgr_id_state[i] =
+ resmgr_attach(dev->dpp, &resmgr_attr,
+ dev->ipc.device_name, _FTYPE_ANY, 0,
+ &dev->ipc.cfuncs_state[i],
+ &dev->ipc.iofuncs_state[i],
+ &slave_attr->attr))) {
+ GT_setFailureReason(curTrace, GT_4CLASS, "init_slave_devices",
+ status, "resmgr_attach failed");
+ return (-1);
+ }
+ }
+
+ /* Populate the /dev/ipc-file namespace */
+ for (i = 1; i < MultiProc_getNumProcessors(); i++) {
+ iofunc_func_init(_RESMGR_CONNECT_NFUNCS, &dev->ipc.cfuncs_file[i],
+ _RESMGR_IO_NFUNCS, &dev->ipc.iofuncs_file[i]);
+ slave_attr = &dev->ipc.cattr_slave[i];
+ iofunc_attr_init(&slave_attr->attr,
+ S_IFCHR | 0777, NULL, NULL);
+ slave_attr->attr.mount = &dev->ipc.mattr;
+ slave_attr->procid = i;
+ slave_attr->dev = (Ptr)dev;
+ iofunc_time_update(&slave_attr->attr);
+ snprintf(dev->ipc.device_name, _POSIX_PATH_MAX,
+ "%s-file/%s", IPC_DEVICE_PATH, MultiProc_getName(i));
+ dev->ipc.iofuncs_file[i].read = slave_file_read;
+ dev->ipc.iofuncs_file[i].write = slave_file_write;
+
+ if (-1 == (dev->ipc.resmgr_id_file[i] =
+ resmgr_attach(dev->dpp, &resmgr_attr,
+ dev->ipc.device_name, _FTYPE_ANY, 0,
+ &dev->ipc.cfuncs_file[i],
+ &dev->ipc.iofuncs_file[i],
+ &slave_attr->attr))) {
+ GT_setFailureReason(curTrace, GT_4CLASS, "init_slave_devices",
+ status, "resmgr_attach failed");
+ return (-1);
+ }
+ }
+
+ return (status);
+}
+
+int deinit_slave_devices(ipc_dev_t *dev)
+{
+ int status = EOK;
+ int i = 0;
+
+ for (i = 1; i < MultiProc_getNumProcessors(); i++) {
+ status = resmgr_detach(dev->dpp, dev->ipc.resmgr_id_state[i], 0);
+ if (status < 0) {
+ Osal_printf("IPC: resmgr_detach of state device %d failed: %d",
+ i, errno);
+ }
+ status = resmgr_detach(dev->dpp, dev->ipc.resmgr_id_file[i], 0);
+ if (status < 0) {
+ Osal_printf("IPC: resmgr_detach of file device %d failed: %d",
+ i, errno);
+ }
+ }
+
+ return (status);
+}
+
+int init_ipc_trace_device(ipc_dev_t *dev)
+{
+ resmgr_attr_t resmgr_attr;
+ int i;
+ ipc_attr_t * trace_attr;
char trace_name[_POSIX_PATH_MAX];
int status = 0;
unsigned int da = 0, pa = 0;
resmgr_attr.nparts_max = 10;
resmgr_attr.msg_max_size = 2048;
- for (i = 0; i < syslink_num_cores; i++) {
- iofunc_func_init(_RESMGR_CONNECT_NFUNCS, &dev->syslink.cfuncs_trace[i],
- _RESMGR_IO_NFUNCS, &dev->syslink.iofuncs_trace[i]);
- trace_attr = &dev->syslink.cattr_trace[i];
- iofunc_attr_init(&trace_attr->attr,
+ for (i = 0; i < ipc_num_cores; i++) {
+ /*
+ * Initialize trace device only for cores that are running and their
+ * device is not yet setup.
+ */
+ if ((ipc_firmware[i].procState == RUNNING_STATE) &&
+ (proc_traces[i].va == NULL)) {
+ iofunc_func_init(_RESMGR_CONNECT_NFUNCS,
+ &dev->ipc.cfuncs_trace[i],
+ _RESMGR_IO_NFUNCS, &dev->ipc.iofuncs_trace[i]);
+ trace_attr = &dev->ipc.cattr_trace[i];
+ iofunc_attr_init(&trace_attr->attr,
S_IFCHR | 0777, NULL, NULL);
- trace_attr->attr.mount = &dev->syslink.mattr;
- trace_attr->procid = i;
- iofunc_time_update(&trace_attr->attr);
- snprintf (dev->syslink.device_name, _POSIX_PATH_MAX,
- "/dev/ipc-trace%d", syslink_firmware[i].proc_id);
- dev->syslink.iofuncs_trace[i].read = syslink_read;
- snprintf (trace_name, _POSIX_PATH_MAX, "%d", 0);
- pa = 0;
- status = RscTable_getInfo(syslink_firmware[i].proc_id, TYPE_TRACE, 0, &da, &pa, &len);
- if (status == 0) {
- /* last 8 bytes are for writeIdx/readIdx */
- proc_traces[i].len = len - (sizeof(uint32_t) * 2);
- if (da && !pa) {
- /* need to translate da->pa */
- status = ProcMgr_translateAddr (procH[syslink_firmware[i].proc_id],
- (Ptr *) &pa,
- ProcMgr_AddrType_MasterPhys,
- (Ptr) da,
- ProcMgr_AddrType_SlaveVirt);
- }
- else {
- GT_setFailureReason(curTrace, GT_4CLASS, "init_syslink_trace_device",
- status, "not performing ProcMgr_translate");
- }
- /* map length aligned to page size */
- proc_traces[i].va =
+ trace_attr->attr.mount = &dev->ipc.mattr;
+ trace_attr->procid = i;
+ iofunc_time_update(&trace_attr->attr);
+ snprintf(dev->ipc.device_name, _POSIX_PATH_MAX,
+ "%s-trace/%s", IPC_DEVICE_PATH,
+ MultiProc_getName(ipc_firmware[i].proc_id));
+ dev->ipc.iofuncs_trace[i].read = ipc_read;
+ snprintf (trace_name, _POSIX_PATH_MAX, "%d", 0);
+ pa = 0;
+ status = RscTable_getInfo(ipc_firmware[i].proc_id, TYPE_TRACE,
+ 0, &da, &pa, &len);
+ if (status == 0) {
+ /* last 8 bytes are for writeIdx/readIdx */
+ proc_traces[i].len = len - (sizeof(uint32_t) * 2);
+ if (da && !pa) {
+ /* need to translate da->pa */
+ status = ProcMgr_translateAddr(
+ procH[ipc_firmware[i].proc_id],
+ (Ptr *) &pa,
+ ProcMgr_AddrType_MasterPhys,
+ (Ptr) da,
+ ProcMgr_AddrType_SlaveVirt);
+ }
+ else {
+ GT_setFailureReason(curTrace, GT_4CLASS,
+ "init_ipc_trace_device",
+ status, "not performing ProcMgr_translate");
+ }
+ /* map length aligned to page size */
+ proc_traces[i].va =
mmap_device_io (((len + 0x1000 - 1) / 0x1000) * 0x1000, pa);
- proc_traces[i].widx = (uint32_t *)(proc_traces[i].va + \
+ proc_traces[i].widx = (uint32_t *)(proc_traces[i].va + \
proc_traces[i].len);
- proc_traces[i].ridx = (uint32_t *)((uint32_t)proc_traces[i].widx + \
- sizeof(uint32_t));
- if (proc_traces[i].va == MAP_DEVICE_FAILED) {
- GT_setFailureReason(curTrace, GT_4CLASS, "init_syslink_trace_device",
- status, "mmap_device_io failed");
- GT_1trace(curTrace, GT_4CLASS, "errno %d", errno);
+ proc_traces[i].ridx = (uint32_t *)((uint32_t)proc_traces[i].widx
+ + sizeof(uint32_t));
+ if (proc_traces[i].va == MAP_DEVICE_FAILED) {
+ GT_setFailureReason(curTrace, GT_4CLASS,
+ "init_ipc_trace_device",
+ status, "mmap_device_io failed");
+ GT_1trace(curTrace, GT_4CLASS, "errno %d", errno);
+ proc_traces[i].va = NULL;
+ }
+ proc_traces[i].firstRead = TRUE;
+ }
+ else {
+ GT_setFailureReason(curTrace, GT_4CLASS,
+ "init_ipc_trace_device",
+ status, "RscTable_getInfo failed");
proc_traces[i].va = NULL;
}
- proc_traces[i].firstRead = TRUE;
- }
- else {
- GT_setFailureReason(curTrace, GT_4CLASS, "init_syslink_trace_device",
- status, "RscTable_getInfo failed");
- proc_traces[i].va = NULL;
- }
- if (-1 == (dev->syslink.resmgr_id_trace[i] =
+ if (-1 == (dev->ipc.resmgr_id_trace[i] =
resmgr_attach(dev->dpp, &resmgr_attr,
- dev->syslink.device_name, _FTYPE_ANY, 0,
- &dev->syslink.cfuncs_trace[i],
- &dev->syslink.iofuncs_trace[i],
+ dev->ipc.device_name, _FTYPE_ANY, 0,
+ &dev->ipc.cfuncs_trace[i],
+ &dev->ipc.iofuncs_trace[i],
&trace_attr->attr))) {
- GT_setFailureReason(curTrace, GT_4CLASS, "init_syslink_trace_device",
- status, "resmgr_attach failed");
- return(-1);
+ GT_setFailureReason(curTrace, GT_4CLASS,
+ "init_ipc_trace_device",
+ status, "resmgr_attach failed");
+ return(-1);
+ }
}
}
return (status);
}
-int deinit_syslink_trace_device(syslink_dev_t *dev)
+int deinit_ipc_trace_device(ipc_dev_t *dev)
{
int status = EOK;
int i = 0;
- for (i = 0; i < syslink_num_cores; i++) {
- status = resmgr_detach(dev->dpp, dev->syslink.resmgr_id_trace[i], 0);
- if (status < 0) {
- Osal_printf("IPC: resmgr_detach failed %d", errno);
- status = errno;
- }
- if (proc_traces[i].va && proc_traces[i].va != MAP_DEVICE_FAILED) {
- munmap((void *)proc_traces[i].va,
+ for (i = 0; i < ipc_num_cores; i++) {
+ /* Only disable trace device on cores in RESET state */
+ if ((ipc_firmware[i].procState == RESET_STATE) &&
+ (proc_traces[i].va != NULL)) {
+ status = resmgr_detach(dev->dpp, dev->ipc.resmgr_id_trace[i],
+ 0);
+ if (status < 0) {
+ Osal_printf("IPC: resmgr_detach of trace device %d failed: %d",
+ i, errno);
+ status = errno;
+ }
+ if (proc_traces[i].va && proc_traces[i].va != MAP_DEVICE_FAILED) {
+ munmap((void *)proc_traces[i].va,
((proc_traces[i].len + 8 + 0x1000 - 1) / 0x1000) * 0x1000);
+ }
+ proc_traces[i].va = NULL;
}
- proc_traces[i].va = NULL;
}
return (status);
}
-/* Initialize the syslink device */
-int init_syslink_device(syslink_dev_t *dev)
+/* Initialize the ipc device */
+int init_ipc_device(ipc_dev_t *dev)
{
iofunc_attr_t * attr;
resmgr_attr_t resmgr_attr;
int status = 0;
pthread_mutex_init(&dev->lock, NULL);
+ pthread_mutex_init(&dev->firmwareLock, NULL);
memset(&resmgr_attr, 0, sizeof resmgr_attr);
resmgr_attr.nparts_max = 10;
resmgr_attr.msg_max_size = 2048;
- memset(&dev->syslink.mattr, 0, sizeof(iofunc_mount_t));
- dev->syslink.mattr.flags = ST_NOSUID | ST_NOEXEC;
- dev->syslink.mattr.conf = IOFUNC_PC_CHOWN_RESTRICTED |
+ memset(&dev->ipc.mattr, 0, sizeof(iofunc_mount_t));
+ dev->ipc.mattr.flags = ST_NOSUID | ST_NOEXEC;
+ dev->ipc.mattr.conf = IOFUNC_PC_CHOWN_RESTRICTED |
IOFUNC_PC_NO_TRUNC |
IOFUNC_PC_SYNC_IO;
- dev->syslink.mattr.funcs = &dev->syslink.mfuncs;
+ dev->ipc.mattr.funcs = &dev->ipc.mfuncs;
- memset(&dev->syslink.mfuncs, 0, sizeof(iofunc_funcs_t));
- dev->syslink.mfuncs.nfuncs = _IOFUNC_NFUNCS;
+ memset(&dev->ipc.mfuncs, 0, sizeof(iofunc_funcs_t));
+ dev->ipc.mfuncs.nfuncs = _IOFUNC_NFUNCS;
- iofunc_func_init(_RESMGR_CONNECT_NFUNCS, &dev->syslink.cfuncs,
- _RESMGR_IO_NFUNCS, &dev->syslink.iofuncs);
+ iofunc_func_init(_RESMGR_CONNECT_NFUNCS, &dev->ipc.cfuncs,
+ _RESMGR_IO_NFUNCS, &dev->ipc.iofuncs);
- iofunc_attr_init(attr = &dev->syslink.cattr, S_IFCHR | 0777, NULL, NULL);
+ iofunc_attr_init(attr = &dev->ipc.cattr, S_IFCHR | 0777, NULL, NULL);
- dev->syslink.mfuncs.ocb_calloc = syslink_ocb_calloc;
- dev->syslink.mfuncs.ocb_free = syslink_ocb_free;
- dev->syslink.iofuncs.devctl = syslink_devctl;
- dev->syslink.iofuncs.unblock = syslink_unblock;
+ dev->ipc.mfuncs.ocb_calloc = ipc_ocb_calloc;
+ dev->ipc.mfuncs.ocb_free = ipc_ocb_free;
+ dev->ipc.iofuncs.devctl = ipc_devctl;
+ dev->ipc.iofuncs.unblock = ipc_unblock;
- attr->mount = &dev->syslink.mattr;
+ attr->mount = &dev->ipc.mattr;
iofunc_time_update(attr);
- if (-1 == (dev->syslink.resmgr_id =
+ if (-1 == (dev->ipc.resmgr_id =
resmgr_attach(dev->dpp, &resmgr_attr,
IPC_DEVICE_PATH, _FTYPE_ANY, 0,
- &dev->syslink.cfuncs,
- &dev->syslink.iofuncs, attr))) {
+ &dev->ipc.cfuncs,
+ &dev->ipc.iofuncs, attr))) {
return(-1);
}
- status = init_syslink_trace_device(dev);
+ status = init_slave_devices(dev);
+ if (status < 0) {
+ return status;
+ }
+
+ status = init_ipc_trace_device(dev);
if (status < 0) {
return status;
}
return(0);
}
-/* De-initialize the syslink device */
-int deinit_syslink_device(syslink_dev_t *dev)
+/* De-initialize the ipc device */
+int deinit_ipc_device(ipc_dev_t *dev)
{
int status = EOK;
- status = resmgr_detach(dev->dpp, dev->syslink.resmgr_id, 0);
+ status = resmgr_detach(dev->dpp, dev->ipc.resmgr_id, 0);
if (status < 0) {
- Osal_printf("IPC: resmgr_detach failed %d", errno);
+ Osal_printf("IPC: resmgr_detach of %s failed: %d",
+ IPC_DEVICE_PATH, errno);
status = errno;
}
- status = deinit_syslink_trace_device(dev);
+ status = deinit_ipc_trace_device(dev);
+ if (status < 0) {
+ Osal_printf("IPC: deinit_ipc_trace_device failed %d", status);
+ }
+
+ status = deinit_slave_devices(dev);
+ if (status < 0) {
+ Osal_printf("IPC: deinit_slave_devices failed %d", status);
+ }
+
+ pthread_mutex_destroy(&dev->lock);
+ pthread_mutex_destroy(&dev->firmwareLock);
return(status);
}
/* Initialize the devices */
-int init_devices(syslink_dev_t *dev)
+int init_devices(ipc_dev_t *dev)
{
- if (init_syslink_device(dev) < 0) {
+ if (init_ipc_device(dev) < 0) {
Osal_printf("IPC: device init failed");
return(-1);
}
/* De-initialize the devices */
-int deinit_devices(syslink_dev_t *dev)
+int deinit_devices(ipc_dev_t *dev)
{
int status = EOK;
- if ((status = deinit_syslink_device(dev)) < 0) {
+ if ((status = deinit_ipc_device(dev)) < 0) {
fprintf( stderr, "IPC: device de-init failed %d\n", status);
status = errno;
}
static void ipc_recover(Ptr args)
{
- syslink_dev_t * dev = (syslink_dev_t *)args;
+ ipc_dev_t * dev = (ipc_dev_t *)args;
if (!disableRecovery) {
- deinit_ipc(dev, TRUE);
- init_ipc(dev, syslink_firmware, TRUE);
- deinit_syslink_trace_device(dev);
- init_syslink_trace_device(dev);
+ /* Protect the ipc_firmware array as we recover */
+ pthread_mutex_lock(&dev->firmwareLock);
+ deinit_ipc(dev, ipc_firmware, TRUE);
+ deinit_ipc_trace_device(dev);
+ init_ipc(dev, ipc_firmware, TRUE);
+ init_ipc_trace_device(dev);
+ pthread_mutex_unlock(&dev->firmwareLock);
+ }
+ else {
+ GT_0trace(curTrace, GT_4CLASS,
+ "ipc_recover: Recovery disabled.\n");
}
}
-Int syslink_error_cb (UInt16 procId, ProcMgr_Handle handle,
+Int ipc_error_cb (UInt16 procId, ProcMgr_Handle handle,
ProcMgr_State fromState, ProcMgr_State toState,
ProcMgr_EventStatus status, Ptr args)
{
Int ret = 0;
String errString = NULL;
- syslink_dev_t * dev = (syslink_dev_t *)args;
+ ipc_dev_t * dev = (ipc_dev_t *)args;
if (status == ProcMgr_EventStatus_Event) {
switch (toState) {
break;
}
GT_2trace (curTrace, GT_4CLASS,
- "syslink_error_cb: Received Error Callback for %s : %s\n",
+ "ipc_error_cb: Received Error Callback for %s : %s\n",
MultiProc_getName(procId), errString);
/* Don't allow re-schedule of recovery until complete */
pthread_mutex_lock(&dev->lock);
dev->recover = TRUE;
/* Activate a thread to handle the recovery. */
GT_0trace (curTrace, GT_4CLASS,
- "syslink_error_cb: Scheduling recovery...");
+ "ipc_error_cb: Scheduling recovery...");
OsalThread_activate(dev->ipc_recovery_work);
}
else {
GT_0trace (curTrace, GT_4CLASS,
- "syslink_error_cb: Recovery already scheduled.");
+ "ipc_error_cb: Recovery already scheduled.");
}
pthread_mutex_unlock(&dev->lock);
}
else if (status == ProcMgr_EventStatus_Canceled) {
GT_1trace (curTrace, GT_3CLASS,
- "SysLink Error Callback Cancelled for %s",
+ "Ipc Error Callback Cancelled for %s",
MultiProc_getName(procId));
}
else {
GT_1trace (curTrace, GT_4CLASS,
- "SysLink Error Callback Unexpected Event for %s",
+ "Ipc Error Callback Unexpected Event for %s",
MultiProc_getName(procId));
}
}
/*
- * Initialize the syslink ipc
+ * Initialize ipc
*
* This function sets up the "kernel"-side IPC modules, and does any special
* initialization required for QNX and the platform being used. This function
* also registers for error notifications and initializes the recovery thread.
*/
-int init_ipc(syslink_dev_t * dev, syslink_firmware_info * firmware, bool recover)
+int init_ipc(ipc_dev_t * dev, ipc_firmware_info * firmware, bool recover)
{
int status = 0;
Ipc_Config iCfg;
OsalThread_Params threadParams;
- ProcMgr_AttachParams attachParams;
UInt16 procId;
int i;
@@ -591,7 +1319,7 @@ int init_ipc(syslink_dev_t * dev, syslink_firmware_info * firmware, bool recover
memset(procH_fileId, 0, sizeof(procH_fileId));
- for (i = 0; i < syslink_num_cores; i++) {
+ for (i = 0; i < ipc_num_cores; i++) {
procId = firmware[i].proc_id = MultiProc_getId(firmware[i].proc);
if (procId >= MultiProc_MAXPROCESSORS) {
status = -1;
@@ -613,99 +1341,28 @@ int init_ipc(syslink_dev_t * dev, syslink_firmware_info * firmware, bool recover
* if we are in recovery, we load the cores we previously
* attached to
*/
- syslink_firmware[i].attachOnly = false;
+ firmware[i].attachOnly = false;
}
- if (syslink_firmware[i].firmware) {
- rscHandle[procId] = RscTable_alloc(firmware[i].firmware, procId);
- if (rscHandle[procId] == NULL) {
- status = -1;
- break;
+ if ((!recover) || (firmware[i].reload)) {
+ status = runSlave(dev, procId, &firmware[i]);
+ if (status == 0) {
+ firmware[i].procState = RUNNING_STATE;
+ continue;
}
- }
-
- status = ProcMgr_open(&procH[procId], procId);
- if (status < 0 || procH[procId] == NULL)
- goto procmgropen_fail;
-
- /* Load and start the remote processor. */
- ProcMgr_getAttachParams (procH[procId], &attachParams);
- if (syslink_firmware[i].attachOnly) {
- attachParams.bootMode = ProcMgr_BootMode_NoBoot;
- }
- status = ProcMgr_attach (procH[procId], &attachParams);
- if (status < 0) {
- GT_setFailureReason (curTrace,
- GT_4CLASS,
- "init_ipc",
- status,
- "ProcMgr_attach failed!");
- goto procmgrattach_fail;
- }
-
- if ((syslink_firmware[i].firmware) &&
- (!syslink_firmware[i].attachOnly)) {
- status = ProcMgr_load (procH[procId],
- (String)firmware[i].firmware, 0, NULL,
- NULL, &procH_fileId[procId]);
- if (status < 0) {
- GT_setFailureReason (curTrace,
- GT_4CLASS,
- "init_ipc",
- status,
- "ProcMgr_load failed!");
- goto procmgrload_fail;
- }
- }
-
- status = Ipc_attach (procId);
- if (status < 0) {
- GT_setFailureReason (curTrace,
- GT_4CLASS,
- "init_ipc",
- status,
- "Ipc_attach failed!");
- goto ipcattach_fail;
- }
-
- status = ProcMgr_registerNotify(procH[procId], syslink_error_cb, (Ptr)dev,
- -1, errStates);
- if (status < 0) {
- goto procmgrreg_fail;
- }
-
- if (!syslink_firmware[i].attachOnly) {
- status = ProcMgr_start(procH[procId], NULL);
- if (status < 0) {
- GT_setFailureReason (curTrace,
- GT_4CLASS,
- "init_ipc",
- status,
- "ProcMgr_start failed!");
- goto procmgrstart_fail;
+ else {
+ fprintf(stderr, "Failed to run core %s\n",
+ MultiProc_getName(procId));
+ break;
}
}
-
- continue;
-
-procmgrstart_fail:
- ProcMgr_unregisterNotify(procH[procId], syslink_error_cb,
- (Ptr)dev, errStates);
-procmgrreg_fail:
- Ipc_detach(procId);
-ipcattach_fail:
- if ((syslink_firmware[i].firmware) &&
- (!syslink_firmware[i].attachOnly)) {
- ProcMgr_unload(procH[procId], procH_fileId[procId]);
+ else {
+ /*
+ * During recovery, do not run cores unless they were previously
+ * running
+ */
+ continue;
}
-procmgrload_fail:
- ProcMgr_detach(procH[procId]);
-procmgrattach_fail:
- ProcMgr_close(&procH[procId]);
- procH[procId] = NULL;
-procmgropen_fail:
- RscTable_free(&rscHandle[procId]);
- break;
}
if (status < 0)
if (status < 0)
goto rpcsetup_fail;
-#if defined(SYSLINK_PLATFORM_VAYU)
+#if defined(IPC_PLATFORM_VAYU)
if (gatempEnabled) {
+ Int32 sr0ProcId;
+
/* Set up NameServer for resource manager process */
status = NameServer_setup();
if (status < 0) {
}
/* Set up GateMP */
- status = GateMP_setup();
- if (status < 0) {
+ status = GateMP_setup(&sr0ProcId);
+ if ((status < 0) && (status != GateMP_E_NOTFOUND)) {
goto gatempsetup_fail;
}
+ else if (status == 0) {
+ sr0OwnerProcId = sr0ProcId;
+ }
+ else {
+ /*
+ * If we did not find the default gate, perhaps SR0 is
+ * not yet loaded. This is ok.
+ */
+ status = 0;
+ }
}
#endif
goto exit;
}
-#if defined(SYSLINK_PLATFORM_VAYU)
+#if defined(IPC_PLATFORM_VAYU)
gatempsetup_fail:
NameServer_destroy();
nameserversetup_fail:
if (procId >= MultiProc_MAXPROCESSORS) {
continue;
}
- ProcMgr_unregisterNotify(procH[procId], syslink_error_cb,
+ ProcMgr_unregisterNotify(procH[procId], ipc_error_cb,
(Ptr)dev, errStates);
- if (!syslink_firmware[i].attachOnly) {
+ if (!firmware[i].attachOnly) {
ProcMgr_stop(procH[procId]);
if (procH_fileId[procId]) {
ProcMgr_unload(procH[procId], procH_fileId[procId]);
return status;
}
-int deinit_ipc(syslink_dev_t * dev, bool recover)
+int deinit_ipc(ipc_dev_t * dev, ipc_firmware_info * firmware,
+ bool recover)
{
int status = EOK;
uint32_t i = 0, id = 0;
// Stop the remote cores right away
for (i = 0; i < MultiProc_MAXPROCESSORS; i++) {
- /* Only stop the ones that we have loaded */
- if ((procH[i]) && (procH_fileId[i])) {
- GT_1trace(curTrace, GT_4CLASS, "stopping %s", MultiProc_getName(i));
- ProcMgr_stop(procH[i]);
+ if (procH[i]) {
+ resetSlave(dev, i);
}
}
-#if defined(SYSLINK_PLATFORM_VAYU)
+#if defined(IPC_PLATFORM_VAYU)
if (gatempEnabled) {
- GateMP_destroy();
+ GateMP_destroy(TRUE);
NameServer_destroy();
}
ti_ipc_destroy(recover);
- for (i = 0; i < MultiProc_MAXPROCESSORS; i++) {
- if (procH[i]) {
- ProcMgr_unregisterNotify (procH[i], syslink_error_cb, (Ptr)dev,
- errStates);
- Ipc_detach(i);
- if (procH_fileId[i]) {
- ProcMgr_unload(procH[i], procH_fileId[i]);
- procH_fileId[i] = 0;
- }
- ProcMgr_detach(procH[i]);
- ProcMgr_close(&procH[i]);
- procH[i] = NULL;
- RscTable_free(&rscHandle[i]);
- rscHandle[i] = NULL;
- }
- }
-
if (!recover && dev->ipc_recovery_work != NULL) {
OsalThread_delete (&dev->ipc_recovery_work);
dev->ipc_recovery_work = NULL;
Osal_printf("IPC: printing remote core trace dump");
log = fopen(logFilename, "a+");
if (log) {
- for (id = 0; id < syslink_num_cores; id++) {
- if (proc_traces[id].va) {
- /* print traces */
- fprintf(log, "*************************************\n");
- fprintf(log, "*** CORE%d TRACE DUMP ***\n",
- syslink_firmware[i].proc_id);
- fprintf(log, "*************************************\n");
- for (i = (*proc_traces[id].widx + 1);
- i < (proc_traces[id].len - 8);
- i++) {
- fprintf(log, "%c",
- *(char *)((uint32_t)proc_traces[id].va + i));
- }
- for (i = 0; i < *proc_traces[id].widx; i++) {
- fprintf(log, "%c",
- *(char *)((uint32_t)proc_traces[id].va + i));
+ for (id = 0; id < ipc_num_cores; id++) {
+ if (firmware[id].procState == RUNNING_STATE) {
+ if (proc_traces[id].va) {
+ /* print traces */
+ fprintf(log, "*************************************\n");
+ fprintf(log, "*** CORE%d TRACE DUMP ***\n",
+ firmware[i].proc_id);
+ fprintf(log, "*************************************\n");
+ for (i = (*proc_traces[id].widx + 1);
+ i < (proc_traces[id].len - 8);
+ i++) {
+ fprintf(log, "%c",
+ *(char *)((uint32_t)proc_traces[id].va + i));
+ }
+ for (i = 0; (i < *proc_traces[id].widx) && (i < proc_traces[id].len - 8); i++) {
+ fprintf(log, "%c",
+ *(char *)((uint32_t)proc_traces[id].va + i));
+ }
}
}
}
}
}
+ /* After printing trace, set all processor states to RESET */
+ for (id = 0; id < ipc_num_cores; id++) {
+ firmware[id].procState = RESET_STATE;
+ }
+
status = Ipc_destroy();
if (status < 0) {
printf("Ipc_destroy() failed 0x%x", status);
static Void printUsage (Char * app)
{
printf("\n\nUsage:\n");
-#if defined(SYSLINK_PLATFORM_OMAP5430)
+#if defined(IPC_PLATFORM_OMAP5430)
printf("\n%s: [-HTdca] <core_id1> <executable1> [<core_id2> <executable2> ...]\n",
app);
printf(" <core_id#> should be set to a core name (e.g. IPU, DSP)\n");
#else
printf("\n%s: [-gdca] <core_id1> <executable1> [<core_id2> <executable2> ...]\n",
app);
- printf(" <core_id#> should be set to a core name (e.g. DSP1, IPU2)\n");
+ printf(" <core_id#> should be set to a core name (e.g. DSP1, DSP2, IPU1, IPU2)\n");
printf(" followed by the path to the executable to load on that core.\n");
printf("Options:\n");
printf(" -g enable GateMP support on host\n");
exit (EXIT_SUCCESS);
}
-dispatch_t * syslink_dpp = NULL;
+dispatch_t * ipc_dpp = NULL;
int main(int argc, char *argv[])
{
- syslink_dev_t * dev = NULL;
+ ipc_dev_t * dev = NULL;
thread_pool_attr_t tattr;
int status;
- int error = 0;
+ int error = EOK;
sigset_t set;
int channelid = 0;
int c;
int hib_enable = 1;
uint32_t hib_timeout = PM_HIB_DEFAULT_TIME;
- char *user_parm = NULL;
struct stat sbuf;
int i = 0;
char * abs_path = NULL;
/* Parse the input args */
while (1)
{
- c = getopt (argc, argv, "H:T:U:gc:dv:a:");
+ c = getopt (argc, argv, "H:T:gc:dv:a:");
if (c == -1)
break;
switch (c)
{
-#if defined(SYSLINK_PLATFORM_OMAP5430)
+#if defined(IPC_PLATFORM_OMAP5430)
case 'H':
hib_enable = atoi(optarg);
if (hib_enable != 0 && hib_enable != 1) {
hib_timeout = atoi(optarg);
break;
#endif
- case 'U':
- user_parm = optarg;
- break;
case 'd':
disableRecovery = true;
break;
break;
case 'a':
numAttach = atoi(optarg);
+ printf("Late-attaching to %d core(s)\n", numAttach);
break;
case 'v':
verbosity++;
break;
-#if defined(SYSLINK_PLATFORM_VAYU)
+#if defined(IPC_PLATFORM_VAYU)
case 'g':
printf("GateMP support enabled on host\n");
gatempEnabled = true;
/* Now parse the operands, which should be in the format:
* "<multiproc_name> <firmware_file> ..*/
for (; optind + 1 < argc; optind+=2) {
- if (syslink_num_cores == MultiProc_MAXPROCESSORS) {
+ if (ipc_num_cores == MultiProc_MAXPROCESSORS) {
printUsage(argv[0]);
return (error);
}
- syslink_firmware[syslink_num_cores].proc = argv [optind];
- syslink_firmware[syslink_num_cores].attachOnly =
- ((numAttach-- > 0) ? true : false);
- syslink_firmware[syslink_num_cores++].firmware = argv [optind+1];
- }
- /* Get the name of the binary from the input args */
- if (!syslink_num_cores) {
- fprintf(stderr, "At least one core_id and executable must be "\
- "specified");
- printUsage(argv[0]);
- return (error);
+ ipc_firmware[ipc_num_cores].proc = argv [optind];
+ ipc_firmware[ipc_num_cores].attachOnly =
+ ((numAttach-- > 0) ? true : false);
+ ipc_firmware[ipc_num_cores].reload = true;
+ ipc_firmware[ipc_num_cores].freeString = false;
+ ipc_firmware[ipc_num_cores++].firmware = argv [optind+1];
}
/* Validate hib_enable args */
return (error);
}
- syslink_hib_enable = (Bool)hib_enable;
- syslink_hib_timeout = hib_timeout;
+ ipc_hib_enable = (Bool)hib_enable;
+ ipc_hib_timeout = hib_timeout;
- /* Init logging for syslink */
+ /* Init logging for ipc */
if (Osal_initlogging(verbosity) != 0) {
return -1;
}
}
/* Get the abs path for all firmware files */
- for (i = 0; i < syslink_num_cores; i++) {
+ for (i = 0; i < ipc_num_cores; i++) {
abs_path = calloc(1, PATH_MAX + 1);
if (abs_path == NULL) {
return -1;
}
- if (NULL == realpath(syslink_firmware[i].firmware, abs_path)) {
+ if (NULL == realpath(ipc_firmware[i].firmware, abs_path)) {
fprintf (stderr, "invalid path to executable\n");
return -1;
}
- syslink_firmware[i].firmware = abs_path;
+ ipc_firmware[i].firmware = abs_path;
}
/* allocate the device structure */
- if (NULL == (dev = calloc(1, sizeof(syslink_dev_t)))) {
+ if (NULL == (dev = calloc(1, sizeof(ipc_dev_t)))) {
Osal_printf("IPC: calloc() failed");
return (-1);
}
}
/* create the dispatch structure */
- if (NULL == (dev->dpp = syslink_dpp = dispatch_create_channel (channelid, 0))) {
+ if (NULL == (dev->dpp = ipc_dpp = dispatch_create_channel (channelid, 0))) {
Osal_printf("IPC: dispatch_create() failed");
return(-1);
}
return(-1);
}
- /* init syslink */
- status = init_ipc(dev, syslink_firmware, FALSE);
+ /* init ipc */
+ status = init_ipc(dev, ipc_firmware, FALSE);
if (status < 0) {
Osal_printf("IPC: init failed");
return(-1);
}
- /* init the syslink device */
+ /* init the ipc device */
status = init_devices(dev);
if (status < 0) {
Osal_printf("IPC: device init failed");
return(-1);
}
-#if (_NTO_VERSION >= 800)
- /* Relinquish privileges */
- status = procmgr_ability( 0,
- DENY_ALL | PROCMGR_AID_SPAWN,
- DENY_ALL | PROCMGR_AID_FORK,
- PROCMGR_ADN_NONROOT | PROCMGR_AOP_ALLOW | PROCMGR_AID_MEM_PEER,
- PROCMGR_ADN_NONROOT | PROCMGR_AOP_ALLOW | PROCMGR_AID_MEM_PHYS,
- PROCMGR_ADN_NONROOT | PROCMGR_AOP_ALLOW | PROCMGR_AID_INTERRUPT,
- PROCMGR_ADN_NONROOT | PROCMGR_AOP_ALLOW | PROCMGR_AID_PATHSPACE,
- PROCMGR_ADN_NONROOT | PROCMGR_AOP_ALLOW | PROCMGR_AID_RSRCDBMGR,
- PROCMGR_ADN_ROOT | PROCMGR_AOP_ALLOW | PROCMGR_AOP_LOCK | PROCMGR_AOP_SUBRANGE | PROCMGR_AID_SETUID,
- (uint64_t)1, (uint64_t)~0,
- PROCMGR_ADN_ROOT | PROCMGR_AOP_ALLOW | PROCMGR_AOP_LOCK | PROCMGR_AOP_SUBRANGE | PROCMGR_AID_SETGID,
- (uint64_t)1, (uint64_t)~0,
- PROCMGR_ADN_ROOT | PROCMGR_AOP_DENY | PROCMGR_AOP_LOCK | PROCMGR_AID_EOL);
-
- if (status != EOK) {
- Osal_printf("procmgr_ability failed! errno=%d", status);
- return EXIT_FAILURE;
- }
-
- /* Reduce priority to either what defined from command line or at least nobody */
- if (user_parm != NULL) {
- if (set_ids_from_arg(user_parm) < 0) {
- Osal_printf("unable to set uid/gid - %s", strerror(errno));
- return EXIT_FAILURE;
- }
- } else {
- if (setuid(99) != 0) {
- Osal_printf("unable to set uid - %s", strerror(errno));
- return EXIT_FAILURE;
- }
- }
-#endif
-
/* make this a daemon process */
if (-1 == procmgr_daemon(EXIT_SUCCESS,
PROCMGR_DAEMON_NOCLOSE | PROCMGR_DAEMON_NODEVNULL)) {
GT_0trace(curTrace, GT_4CLASS, "IPC resource manager exiting \n");
error = thread_pool_destroy(dev->tpool);
- if (error < 0)
+ if (error < 0) {
Osal_printf("IPC: thread_pool_destroy returned an error");
- deinit_ipc(dev, FALSE);
+ }
+ deinit_ipc(dev, ipc_firmware, FALSE);
deinit_devices(dev);
free(dev);
- return (EOK);
+ /* Free the abs path of firmware files if necessary */
+ for (i = 0; i < ipc_num_cores; i++) {
+ if ((ipc_firmware[i].freeString) &&
+ (ipc_firmware[i].firmware)) {
+ free(ipc_firmware[i].firmware);
+ }
+ }
+
+ return (error);
}