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If applicable, add the following below this CDDL HEADER, with the fields enclosed by brackets "[]" replaced with your own identifying information: Portions Copyright [yyyy] [name of copyright owner] .TH DDI_INTR_DUP_HANDLER 9F "May 09, 2006" .SH NAME ddi_intr_dup_handler \- reuse interrupt handler and arguments for MSI-X interrupts .SH SYNOPSIS .LP .nf #include #include #include #include \fBint\fR \fBddi_intr_dup_handler\fR(\fBddi_intr_handle_t\fR \fIprimary\fR, \fBint\fR \fIvector\fR, \fBddi_intr_handle_t *\fR\fInew\fR); .fi .SH INTERFACE LEVEL .sp .LP Solaris DDI specific (Solaris DDI). .SH PARAMETERS .sp .ne 2 .na \fB\fIprimary\fR\fR .ad .RS 11n Original DDI interrupt handle .RE .sp .ne 2 .na \fB\fIvector\fR\fR .ad .RS 11n Interrupt number to duplicate .RE .sp .ne 2 .na \fB\fInew\fR\fR .ad .RS 11n Pointer to new DDI interrupt handle .RE .SH DESCRIPTION .sp .LP The \fBddi_intr_dup_handler()\fR function is a feature for MSI-X interrupts that allows an unallocated interrupt vector of a device to use a previously initialized or added primary MSI-X interrupt vector in order to share the same vector address, vector data, interrupt handler, and handler arguments. This feature allows a driver to alias the resources provided by the Solaris Operating System to the unallocated interrupt vectors on an associated device. For example, if 2 MSI-X interrupts were allocated to a driver and 32 interrupts were supported on the device, the driver could alias the 2 interrupts it received to the 30 remaining on the device. .sp .LP The \fBddi_intr_dup_handler()\fR function must be called after the primary interrupt handle has been added to the system or enabled by \fBddi_intr_add_handler\fR(9F) and \fBddi_intr_enable\fR(9F) calls, respectively. If successful, the function returns the new interrupt handle for a given vector in the \fInew\fR argument passed to the function. The new interrupt handle must not have been previously allocated with \fBddi_intr_alloc\fR(9F). Otherwise, the \fBddi_intr_dup_handler()\fR call will fail. .sp .LP The only supported calls on \fIdup-ed\fR interrupt handles are \fBddi_intr_set_mask\fR(9F), \fBddi_intr_clr_mask\fR(9F), \fBddi_intr_get_pending\fR(9F), \fBddi_intr_enable\fR(9F), \fBddi_intr_disable\fR(9F), and \fBddi_intr_free\fR(9F). .sp .LP A call to \fBddi_intr_dup_handler()\fR does not imply that the interrupt source is automatically enabled. Initially, the dup-ed handle is in the disabled state and must be enabled before it can be used by calling \fBddi_intr_enable()\fR. Likewise, \fBddi_intr_disable()\fR must be called to disable the enabled dup-ed interrupt source. .sp .LP A dup-ed interrupt is removed by calling \fBddi_intr_free()\fR after it has been disabled. The \fBddi_intr_remove_handler\fR(9F) call is not required for a dup-ed handle. .sp .LP Before removing the original MSI-X interrupt handler, all dup-ed interrupt handlers associated with this MSI-X interrupt must have been disabled and freed. Otherwise, calls to \fBddi_intr_remove_handler()\fR will fail with \fBDDI_FAILURE\fR. .sp .LP See the EXAMPLES section for code that illustrates the use of the \fBddi_intr_dup_handler()\fR function. .SH RETURN VALUES .sp .LP The \fBddi_intr_dup_handler()\fR function returns: .sp .ne 2 .na \fB\fBDDI_SUCCESS\fR\fR .ad .RS 15n On success. .sp Note that the interface should be verified to ensure that the return value is not equal to \fBDDI_SUCCESS\fR. Incomplete checking for failure codes could result in inconsistent behavior among platforms. .RE .sp .ne 2 .na \fB\fBDDI_EINVAL\fR\fR .ad .RS 15n On encountering invalid input parameters. \fBDDI_EINVAL\fR is also returned if a dup is attempted from a dup-ed interrupt or if the hardware device is found not to support MSI-X interrupts. .RE .sp .ne 2 .na \fB\fBDDI_FAILURE\fR\fR .ad .RS 15n On any implementation specific failure. .RE .SH EXAMPLES .LP \fBExample 1 \fRUsing the \fBddi_intr_dup_handler()\fR function .sp .in +2 .nf int add_msix_interrupts(intr_state_t *state) { int x, y; /* * For this example, assume the device supports multiple * interrupt vectors, but only request to be allocated * 1 MSI-X to use and then dup the rest. */ if (ddi_intr_get_nintrs(state->dip, DDI_INTR_TYPE_MSIX, &state->intr_count) != DDI_SUCCESS) { cmn_err(CE_WARN, "Failed to retrieve the MSI-X interrupt count"); return (DDI_FAILURE); } state->intr_size = state->intr_count * sizeof (ddi_intr_handle_t); state->intr_htable = kmem_zalloc(state->intr_size, KM_SLEEP); /* Allocate one MSI-X interrupt handle */ if (ddi_intr_alloc(state->dip, state->intr_htable, DDI_INTR_TYPE_MSIX, state->inum, 1, &state->actual, DDI_INTR_ALLOC_STRICT) != DDI_SUCCESS) { cmn_err(CE_WARN, "Failed to allocate MSI-X interrupt"); kmem_free(state->intr_htable, state->intr_size); return (DDI_FAILURE); } /* Get the count of how many MSI-X interrupts we dup */ state->dup_cnt = state->intr_count - state->actual; if (ddi_intr_get_pri(state->intr_htable[0], &state->intr_pri) != DDI_SUCCESS) { cmn_err(CE_WARN, "Failed to get interrupt priority"); goto error1; } /* Make sure the MSI-X priority is below 'high level' */ if (state->intr_pri >= ddi_intr_get_hilevel_pri()) { cmn_err(CE_WARN, "Interrupt PRI is too high"); goto error1; } /* * Add the handler for the interrupt */ if (ddi_intr_add_handler(state->intr_htable[0], (ddi_intr_handler_t *)intr_isr, (caddr_t)state, NULL) != DDI_SUCCESS) { cmn_err(CE_WARN, "Failed to add interrupt handler"); goto error1; } /* Enable the main MSI-X handle first */ if (ddi_intr_enable(state->intr_htable[0]) != DDI_SUCCESS) { cmn_err(CE_WARN, "Failed to enable interrupt"); goto error2; } /* * Create and enable dups of the original MSI-X handler, note * that the inum we are using starts at 0. */ for (x = 1; x < state->dup_cnt; x++) { if (ddi_intr_dup_handler(state->intr_htable[0], state->inum + x, &state->intr_htable[x]) != DDI_SUCCESS) { for (y = x - 1; y > 0; y--) { (void) ddi_intr_disable(state->intr_htable[y]); (void) ddi_intr_free(state->intr_htable[y]); } goto error2; } if (ddi_intr_enable(state->intr_htable[x]) != DDI_SUCCESS) { for (y = x; y > 0; y--) { (void) ddi_intr_disable(state->intr_htable[y]); (void) ddi_intr_free(state->intr_htable[y]); } goto error2; } } return (DDI_SUCCESS); error2: (void) ddi_intr_remove_handler(state->intr_htable[0]); error1: (void) ddi_intr_free(state->intr_htable[0]); kmem_free(state->intr_htable, state->intr_size); return (DDI_FAILURE); } void remove_msix_interrupts(intr_state_t *state) { int x; /* * Disable all the handles and free the dup-ed handles * before we can remove the main MSI-X interrupt handle. */ for (x = 1; x < state->dup_cnt; x++) { (void) ddi_intr_disable(state->intr_htable[x]); (void) ddi_intr_free(state->intr_htable[x]); } /* * We can remove and free the main MSI-X handler now * that all the dups have been freed. */ (void) ddi_intr_disable(state->intr_htable[0]); (void) ddi_intr_remove_handler(state->intr_htable[0]); (void) ddi_intr_free(state->intr_htable[0]); kmem_free(state->intr_htable, state->intr_size); } .fi .in -2 .SH CONTEXT .sp .LP The \fBddi_intr_dup_handler()\fR function can be called from kernel non-interrupt context. .SH ATTRIBUTES .sp .LP See \fBattributes\fR(5) for descriptions of the following attributes: .sp .sp .TS box; c | c l | l . ATTRIBUTE TYPE ATTRIBUTE VALUE _ Interface Stability Committed .TE .SH SEE ALSO .sp .LP \fBattributes\fR(5), \fBddi_intr_add_handler\fR(9F), \fBddi_intr_alloc\fR(9F), \fBddi_intr_clr_mask\fR(9F), \fBddi_intr_disable\fR(9F), \fBddi_intr_enable\fR(9F), \fBddi_intr_free\fR(9F), \fBddi_intr_get_pending\fR(9F), \fBddi_intr_get_supported_types\fR(9F), \fBddi_intr_set_mask\fR(9F) .sp .LP \fIWriting Device Drivers\fR