1*21ff329dSWill Deacon #include "kvm/devices.h" 260742802SPekka Enberg #include "kvm/pci.h" 360742802SPekka Enberg #include "kvm/ioport.h" 476f9c841SCyrill Gorcunov #include "kvm/util.h" 59575e724SSasha Levin #include "kvm/kvm.h" 660742802SPekka Enberg 76d987703SSasha Levin #include <linux/err.h> 86d987703SSasha Levin #include <assert.h> 96d987703SSasha Levin 109575e724SSasha Levin #define PCI_BAR_OFFSET(b) (offsetof(struct pci_device_header, bar[b])) 11b30d05adSPekka Enberg 12aa73be70SMatt Evans static union pci_config_address pci_config_address; 1360742802SPekka Enberg 1440f2fd06SMatt Evans /* This is within our PCI gap - in an unused area. 1540f2fd06SMatt Evans * Note this is a PCI *bus address*, is used to assign BARs etc.! 1640f2fd06SMatt Evans * (That's why it can still 32bit even with 64bit guests-- 64bit 1740f2fd06SMatt Evans * PCI isn't currently supported.) 1840f2fd06SMatt Evans */ 1940f2fd06SMatt Evans static u32 io_space_blocks = KVM_PCI_MMIO_AREA; 209575e724SSasha Levin 2195d13a52SSasha Levin u32 pci_get_io_space_block(u32 size) 229575e724SSasha Levin { 239575e724SSasha Levin u32 block = io_space_blocks; 2495d13a52SSasha Levin io_space_blocks += size; 259575e724SSasha Levin 269575e724SSasha Levin return block; 279575e724SSasha Levin } 289575e724SSasha Levin 293fdf659dSSasha Levin static void *pci_config_address_ptr(u16 port) 30ba824677SPekka Enberg { 31ba824677SPekka Enberg unsigned long offset; 32ba824677SPekka Enberg void *base; 33ba824677SPekka Enberg 34ba824677SPekka Enberg offset = port - PCI_CONFIG_ADDRESS; 35ba824677SPekka Enberg base = &pci_config_address; 36ba824677SPekka Enberg 37ba824677SPekka Enberg return base + offset; 38ba824677SPekka Enberg } 39ba824677SPekka Enberg 40c9f6a037SXiao Guangrong static bool pci_config_address_out(struct ioport *ioport, struct kvm *kvm, u16 port, void *data, int size) 4160742802SPekka Enberg { 42ba824677SPekka Enberg void *p = pci_config_address_ptr(port); 4360742802SPekka Enberg 44ba824677SPekka Enberg memcpy(p, data, size); 4560742802SPekka Enberg 4660742802SPekka Enberg return true; 4760742802SPekka Enberg } 4860742802SPekka Enberg 49c9f6a037SXiao Guangrong static bool pci_config_address_in(struct ioport *ioport, struct kvm *kvm, u16 port, void *data, int size) 5060742802SPekka Enberg { 51ba824677SPekka Enberg void *p = pci_config_address_ptr(port); 5260742802SPekka Enberg 53ba824677SPekka Enberg memcpy(data, p, size); 5460742802SPekka Enberg 5560742802SPekka Enberg return true; 5660742802SPekka Enberg } 5760742802SPekka Enberg 58305b72ceSCyrill Gorcunov static struct ioport_operations pci_config_address_ops = { 59305b72ceSCyrill Gorcunov .io_in = pci_config_address_in, 60305b72ceSCyrill Gorcunov .io_out = pci_config_address_out, 6160742802SPekka Enberg }; 6260742802SPekka Enberg 633fdf659dSSasha Levin static bool pci_device_exists(u8 bus_number, u8 device_number, u8 function_number) 6476f9c841SCyrill Gorcunov { 6576f9c841SCyrill Gorcunov if (pci_config_address.bus_number != bus_number) 6676f9c841SCyrill Gorcunov return false; 6776f9c841SCyrill Gorcunov 68b30d05adSPekka Enberg if (pci_config_address.function_number != function_number) 6976f9c841SCyrill Gorcunov return false; 7076f9c841SCyrill Gorcunov 71*21ff329dSWill Deacon return !IS_ERR_OR_NULL(device__find_dev(DEVICE_BUS_PCI, device_number)); 7276f9c841SCyrill Gorcunov } 7376f9c841SCyrill Gorcunov 74c9f6a037SXiao Guangrong static bool pci_config_data_out(struct ioport *ioport, struct kvm *kvm, u16 port, void *data, int size) 759575e724SSasha Levin { 769575e724SSasha Levin /* 779575e724SSasha Levin * If someone accesses PCI configuration space offsets that are not 789575e724SSasha Levin * aligned to 4 bytes, it uses ioports to signify that. 799575e724SSasha Levin */ 80d0297a59SMatt Evans pci_config_address.reg_offset = port - PCI_CONFIG_DATA; 819575e724SSasha Levin 82d0297a59SMatt Evans pci__config_wr(kvm, pci_config_address, data, size); 83d0297a59SMatt Evans 84d0297a59SMatt Evans return true; 85d0297a59SMatt Evans } 86d0297a59SMatt Evans 87d0297a59SMatt Evans static bool pci_config_data_in(struct ioport *ioport, struct kvm *kvm, u16 port, void *data, int size) 88d0297a59SMatt Evans { 89d0297a59SMatt Evans /* 90d0297a59SMatt Evans * If someone accesses PCI configuration space offsets that are not 91d0297a59SMatt Evans * aligned to 4 bytes, it uses ioports to signify that. 92d0297a59SMatt Evans */ 93d0297a59SMatt Evans pci_config_address.reg_offset = port - PCI_CONFIG_DATA; 94d0297a59SMatt Evans 95d0297a59SMatt Evans pci__config_rd(kvm, pci_config_address, data, size); 96d0297a59SMatt Evans 97d0297a59SMatt Evans return true; 98d0297a59SMatt Evans } 99d0297a59SMatt Evans 100d0297a59SMatt Evans static struct ioport_operations pci_config_data_ops = { 101d0297a59SMatt Evans .io_in = pci_config_data_in, 102d0297a59SMatt Evans .io_out = pci_config_data_out, 103d0297a59SMatt Evans }; 104d0297a59SMatt Evans 105d0297a59SMatt Evans void pci__config_wr(struct kvm *kvm, union pci_config_address addr, void *data, int size) 106d0297a59SMatt Evans { 107d0297a59SMatt Evans u8 dev_num; 108d0297a59SMatt Evans 109d0297a59SMatt Evans dev_num = addr.device_number; 1109575e724SSasha Levin 1119575e724SSasha Levin if (pci_device_exists(0, dev_num, 0)) { 1129575e724SSasha Levin unsigned long offset; 1139575e724SSasha Levin 114d0297a59SMatt Evans offset = addr.w & 0xff; 1159575e724SSasha Levin if (offset < sizeof(struct pci_device_header)) { 116*21ff329dSWill Deacon void *p = device__find_dev(DEVICE_BUS_PCI, dev_num)->data; 117*21ff329dSWill Deacon struct pci_device_header *hdr = p; 1187e012d3cSSasha Levin u8 bar = (offset - PCI_BAR_OFFSET(0)) / (sizeof(u32)); 1199575e724SSasha Levin u32 sz = PCI_IO_SIZE; 1209575e724SSasha Levin 121*21ff329dSWill Deacon if (bar < 6 && hdr->bar_size[bar]) 122*21ff329dSWill Deacon sz = hdr->bar_size[bar]; 123c64f7ff0SSasha Levin 1249575e724SSasha Levin /* 1259575e724SSasha Levin * If the kernel masks the BAR it would expect to find the 1269575e724SSasha Levin * size of the BAR there next time it reads from it. 1279575e724SSasha Levin * When the kernel got the size it would write the address 1289575e724SSasha Levin * back. 1299575e724SSasha Levin */ 130aa73be70SMatt Evans if (*(u32 *)(p + offset)) { 1319575e724SSasha Levin /* See if kernel tries to mask one of the BARs */ 1329575e724SSasha Levin if ((offset >= PCI_BAR_OFFSET(0)) && 133c64f7ff0SSasha Levin (offset <= PCI_BAR_OFFSET(6)) && 134c64f7ff0SSasha Levin (ioport__read32(data) == 0xFFFFFFFF)) 1359575e724SSasha Levin memcpy(p + offset, &sz, sizeof(sz)); 1369575e724SSasha Levin else 1379575e724SSasha Levin memcpy(p + offset, data, size); 1389575e724SSasha Levin } 1399575e724SSasha Levin } 1409575e724SSasha Levin } 1419575e724SSasha Levin } 1429575e724SSasha Levin 143d0297a59SMatt Evans void pci__config_rd(struct kvm *kvm, union pci_config_address addr, void *data, int size) 14460742802SPekka Enberg { 1453fdf659dSSasha Levin u8 dev_num; 146e4d2cea2SPekka Enberg 147d0297a59SMatt Evans dev_num = addr.device_number; 148b30d05adSPekka Enberg 149b30d05adSPekka Enberg if (pci_device_exists(0, dev_num, 0)) { 150598419d5SPekka Enberg unsigned long offset; 151598419d5SPekka Enberg 152d0297a59SMatt Evans offset = addr.w & 0xff; 153598419d5SPekka Enberg if (offset < sizeof(struct pci_device_header)) { 154*21ff329dSWill Deacon void *p = device__find_dev(DEVICE_BUS_PCI, dev_num)->data; 155b30d05adSPekka Enberg 15618ae021aSPekka Enberg memcpy(data, p + offset, size); 1573a60be06SSasha Levin } else { 158598419d5SPekka Enberg memset(data, 0x00, size); 1593a60be06SSasha Levin } 1603a60be06SSasha Levin } else { 161e498ea08SPekka Enberg memset(data, 0xff, size); 16260742802SPekka Enberg } 1633a60be06SSasha Levin } 16460742802SPekka Enberg 165d0297a59SMatt Evans struct pci_device_header *pci__find_dev(u8 dev_num) 166d0297a59SMatt Evans { 167*21ff329dSWill Deacon struct device_header *hdr = device__find_dev(DEVICE_BUS_PCI, dev_num); 1686d987703SSasha Levin 169*21ff329dSWill Deacon if (IS_ERR_OR_NULL(hdr)) 170*21ff329dSWill Deacon return NULL; 171*21ff329dSWill Deacon 172*21ff329dSWill Deacon return hdr->data; 173d0297a59SMatt Evans } 174d0297a59SMatt Evans 1756d987703SSasha Levin int pci__init(struct kvm *kvm) 17660742802SPekka Enberg { 1776d987703SSasha Levin int r; 1786d987703SSasha Levin 1794346fd8fSSasha Levin r = ioport__register(kvm, PCI_CONFIG_DATA + 0, &pci_config_data_ops, 4, NULL); 1806d987703SSasha Levin if (r < 0) 1816d987703SSasha Levin return r; 1826d987703SSasha Levin 1834346fd8fSSasha Levin r = ioport__register(kvm, PCI_CONFIG_ADDRESS + 0, &pci_config_address_ops, 4, NULL); 1846d987703SSasha Levin if (r < 0) { 1854346fd8fSSasha Levin ioport__unregister(kvm, PCI_CONFIG_DATA); 1866d987703SSasha Levin return r; 1876d987703SSasha Levin } 1886d987703SSasha Levin 1896d987703SSasha Levin return 0; 1906d987703SSasha Levin } 191bca12bf6SSasha Levin dev_base_init(pci__init); 1926d987703SSasha Levin 1936d987703SSasha Levin int pci__exit(struct kvm *kvm) 1946d987703SSasha Levin { 1954346fd8fSSasha Levin ioport__unregister(kvm, PCI_CONFIG_DATA); 1964346fd8fSSasha Levin ioport__unregister(kvm, PCI_CONFIG_ADDRESS); 1976d987703SSasha Levin 1986d987703SSasha Levin return 0; 19960742802SPekka Enberg } 200bca12bf6SSasha Levin dev_base_exit(pci__exit); 201