@@ -4886,6 +4886,12 @@ static int bcdma_setup_resources(struct udma_dev *ud)
irq_res.desc[i].start = rm_res->desc[i].start +
oes->bcdma_bchan_ring;
irq_res.desc[i].num = rm_res->desc[i].num;
+
+ if (rm_res->desc[i].num_sec) {
+ irq_res.desc[i].start_sec = rm_res->desc[i].start_sec +
+ oes->bcdma_bchan_ring;
+ irq_res.desc[i].num_sec = rm_res->desc[i].num_sec;
+ }
}
}
} else {
@@ -4909,6 +4915,15 @@ static int bcdma_setup_resources(struct udma_dev *ud)
irq_res.desc[i + 1].start = rm_res->desc[j].start +
oes->bcdma_tchan_ring;
irq_res.desc[i + 1].num = rm_res->desc[j].num;
+
+ if (rm_res->desc[j].num_sec) {
+ irq_res.desc[i].start_sec = rm_res->desc[j].start_sec +
+ oes->bcdma_tchan_data;
+ irq_res.desc[i].num_sec = rm_res->desc[j].num_sec;
+ irq_res.desc[i + 1].start_sec = rm_res->desc[j].start_sec +
+ oes->bcdma_tchan_ring;
+ irq_res.desc[i + 1].num_sec = rm_res->desc[j].num_sec;
+ }
}
}
}
@@ -4929,6 +4944,15 @@ static int bcdma_setup_resources(struct udma_dev *ud)
irq_res.desc[i + 1].start = rm_res->desc[j].start +
oes->bcdma_rchan_ring;
irq_res.desc[i + 1].num = rm_res->desc[j].num;
+
+ if (rm_res->desc[j].num_sec) {
+ irq_res.desc[i].start_sec = rm_res->desc[j].start_sec +
+ oes->bcdma_rchan_data;
+ irq_res.desc[i].num_sec = rm_res->desc[j].num_sec;
+ irq_res.desc[i + 1].start_sec = rm_res->desc[j].start_sec +
+ oes->bcdma_rchan_ring;
+ irq_res.desc[i + 1].num_sec = rm_res->desc[j].num_sec;
+ }
}
}
}
@@ -5063,6 +5087,12 @@ static int pktdma_setup_resources(struct udma_dev *ud)
irq_res.desc[i].start = rm_res->desc[i].start +
oes->pktdma_tchan_flow;
irq_res.desc[i].num = rm_res->desc[i].num;
+
+ if (rm_res->desc[i].num_sec) {
+ irq_res.desc[i].start_sec = rm_res->desc[i].start_sec +
+ oes->pktdma_tchan_flow;
+ irq_res.desc[i].num_sec = rm_res->desc[i].num_sec;
+ }
}
}
rm_res = tisci_rm->rm_ranges[RM_RANGE_RFLOW];
@@ -5074,6 +5104,12 @@ static int pktdma_setup_resources(struct udma_dev *ud)
irq_res.desc[i].start = rm_res->desc[j].start +
oes->pktdma_rchan_flow;
irq_res.desc[i].num = rm_res->desc[j].num;
+
+ if (rm_res->desc[j].num_sec) {
+ irq_res.desc[i].start_sec = rm_res->desc[j].start_sec +
+ oes->pktdma_rchan_flow;
+ irq_res.desc[i].num_sec = rm_res->desc[j].num_sec;
+ }
}
}
ret = ti_sci_inta_msi_domain_alloc_irqs(ud->dev, &irq_res);
The SoC DMA resources for UDMA, BCDMA and PKTDMA can be described via a combination of up to two resource ranges. The first resource range handles the default partitioning wherein all resources belonging to that range are allocated to a single entity and form a continuous range. For use-cases where the resources are shared across multiple entities and require to be described via discontinuous ranges, a second resource range is required. Currently, udma_setup_resources() supports handling resources that belong to the second range. Extend bcdma_setup_resources() and pktdma_setup_resources() to support the same. Signed-off-by: Siddharth Vadapalli <s-vadapalli@ti.com> --- drivers/dma/ti/k3-udma.c | 36 ++++++++++++++++++++++++++++++++++++ 1 file changed, 36 insertions(+)