HV: add get_pbar_base() to get pbar base address in 64-bit
pbar base can be built by using the base address fields stored in struct pci_bar's reg member. get_pbar_base: return pbar's base address in 64-bit. For 64-bit MMIO bar, its lower 32-bits base address and upper 32-bits base are combined into one 64-bit base address pci_bar_2_bar_base: helper function that is called by get_pbar_base And changed related code to use get_pbar_base to get pbar base address in 64-bit Tracked-On: #3241 Signed-off-by: dongshen <dongsheng.x.zhang@intel.com> Reviewed-by: Eddie Dong <eddie.dong@intel.com>
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dongshen
ACRN System Integration
parent
8707834f83
commit
1b4dbdab70
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@ -33,6 +33,87 @@
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#include <logmsg.h>
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#include "vpci_priv.h"
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/**
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* @brief get bar's full base address in 64-bit
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* @pre idx < nr_bars
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* For 64-bit MMIO bar, its lower 32-bits base address and upper 32-bits base are combined
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* into one 64-bit base address
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*/
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static uint64_t pci_bar_2_bar_base(const struct pci_bar *pbars, uint32_t nr_bars, uint32_t idx)
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{
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uint64_t base = 0UL;
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uint64_t tmp;
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const struct pci_bar *bar;
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bar = &pbars[idx];
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if (bar->is_64bit_high) {
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ASSERT(idx > 0U, "idx for upper 32-bit of the 64-bit bar should be greater than 0!");
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if (idx > 0U) {
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const struct pci_bar *prev_bar = &pbars[idx - 1U];
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/* Upper 32-bit of 64-bit bar (does not have flags portion) */
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base = (uint64_t)(bar->reg.value);
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base <<= 32U;
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/* Lower 32-bit of a 64-bit bar (BITS 31-4 = base address, 16-byte aligned) */
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tmp = (uint64_t)(prev_bar->reg.bits.mem.base);
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tmp <<= 4U;
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base |= tmp;
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}
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} else {
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enum pci_bar_type type = pci_get_bar_type(bar->reg.value);
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switch (type) {
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case PCIBAR_IO_SPACE:
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/* IO bar, BITS 31-2 = base address, 4-byte aligned */
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base = (uint64_t)(bar->reg.bits.io.base);
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base <<= 2U;
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break;
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case PCIBAR_MEM32:
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base = (uint64_t)(bar->reg.bits.mem.base);
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base <<= 4U;
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break;
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case PCIBAR_MEM64:
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ASSERT((idx + 1U) < nr_bars, "idx for upper 32-bit of the 64-bit bar is out of range!");
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if ((idx + 1U) < nr_bars) {
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const struct pci_bar *next_bar = &pbars[idx + 1U];
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/* Upper 32-bit of 64-bit bar */
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base = (uint64_t)(next_bar->reg.value);
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base <<= 32U;
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/* Lower 32-bit of a 64-bit bar (BITS 31-4 = base address, 16-byte aligned) */
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tmp = (uint64_t)(bar->reg.bits.mem.base);
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tmp <<= 4U;
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base |= tmp;
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}
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break;
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default:
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/* Nothing to do */
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break;
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}
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}
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return base;
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}
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/**
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* @brief get pbar's full address in 64-bit
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* For 64-bit MMIO bar, its lower 32-bits base address and upper 32-bits base are combined
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* into one 64-bit base address
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* @pre pdev != NULL
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*/
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static uint64_t get_pbar_base(const struct pci_pdev *pdev, uint32_t idx)
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{
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return pci_bar_2_bar_base(&pdev->bar[0], pdev->nr_bars, idx);
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}
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/**
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* @pre vdev != NULL
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* @pre vdev->vpci != NULL
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@ -63,7 +144,7 @@ void vdev_pt_remap_msix_table_bar(struct pci_vdev *vdev)
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uint64_t addr_hi, addr_lo;
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struct pci_msix *msix = &vdev->msix;
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struct pci_pdev *pdev = vdev->pdev;
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struct pci_bar *bar;
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struct pci_bar *pbar;
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ASSERT(vdev->pdev->msix.table_bar < vdev->nr_bars, "msix->table_bar is out of range");
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@ -74,15 +155,16 @@ void vdev_pt_remap_msix_table_bar(struct pci_vdev *vdev)
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msix->table_entries[i].data = 0U;
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}
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bar = &pdev->bar[msix->table_bar];
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if (bar != NULL) {
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msix->mmio_hpa = bar->base;
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pbar = &pdev->bar[msix->table_bar];
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if (pbar != NULL) {
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uint64_t pbar_base = get_pbar_base(pdev, msix->table_bar); /* pbar (hpa) */
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msix->mmio_hpa = pbar_base;
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if (is_prelaunched_vm(vdev->vpci->vm)) {
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msix->mmio_gpa = vdev->bar[msix->table_bar].base;
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} else {
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msix->mmio_gpa = sos_vm_hpa2gpa(bar->base);
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msix->mmio_gpa = sos_vm_hpa2gpa(pbar_base);
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}
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msix->mmio_size = bar->size;
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msix->mmio_size = pbar->size;
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}
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/*
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@ -175,9 +257,11 @@ static void vdev_pt_remap_generic_mem_vbar(const struct pci_vdev *vdev, uint32_t
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}
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if (new_base != 0U) {
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uint64_t pbar_base = get_pbar_base(vdev->pdev, idx); /* pbar (hpa) */
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/* Map the physical BAR in the guest MMIO space */
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ept_add_mr(vm, (uint64_t *)vm->arch_vm.nworld_eptp,
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vdev->pdev->bar[idx].base, /* HPA */
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pbar_base, /* HPA (pbar) */
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new_base, /*GPA*/
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vdev->bar[idx].size,
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EPT_WR | EPT_RD | EPT_UNCACHED);
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