160742802SPekka Enberg #include "kvm/pci.h" 260742802SPekka Enberg #include "kvm/ioport.h" 376f9c841SCyrill Gorcunov #include "kvm/util.h" 4*9575e724SSasha Levin #include "kvm/kvm.h" 560742802SPekka Enberg 6b30d05adSPekka Enberg #include <assert.h> 760742802SPekka Enberg 8b30d05adSPekka Enberg #define PCI_MAX_DEVICES 256 9*9575e724SSasha Levin #define PCI_IO_SIZE 0x100 10*9575e724SSasha Levin #define PCI_BAR_OFFSET(b) (offsetof(struct pci_device_header, bar[b])) 11b30d05adSPekka Enberg 12b30d05adSPekka Enberg static struct pci_device_header *pci_devices[PCI_MAX_DEVICES]; 13b30d05adSPekka Enberg 144402a581SPekka Enberg static struct pci_config_address pci_config_address; 1560742802SPekka Enberg 16*9575e724SSasha Levin /* This is within our PCI gap - in an unused area */ 17*9575e724SSasha Levin static u32 io_space_blocks = KVM_32BIT_GAP_START + 0x1000000; 18*9575e724SSasha Levin 19*9575e724SSasha Levin u32 pci_get_io_space_block(void) 20*9575e724SSasha Levin { 21*9575e724SSasha Levin u32 block = io_space_blocks; 22*9575e724SSasha Levin io_space_blocks += PCI_IO_SIZE; 23*9575e724SSasha Levin 24*9575e724SSasha Levin return block; 25*9575e724SSasha Levin } 26*9575e724SSasha Levin 273fdf659dSSasha Levin static void *pci_config_address_ptr(u16 port) 28ba824677SPekka Enberg { 29ba824677SPekka Enberg unsigned long offset; 30ba824677SPekka Enberg void *base; 31ba824677SPekka Enberg 32ba824677SPekka Enberg offset = port - PCI_CONFIG_ADDRESS; 33ba824677SPekka Enberg base = &pci_config_address; 34ba824677SPekka Enberg 35ba824677SPekka Enberg return base + offset; 36ba824677SPekka Enberg } 37ba824677SPekka Enberg 383d62dea6SSasha Levin static bool pci_config_address_out(struct ioport *ioport, struct kvm *kvm, u16 port, void *data, int size, u32 count) 3960742802SPekka Enberg { 40ba824677SPekka Enberg void *p = pci_config_address_ptr(port); 4160742802SPekka Enberg 42ba824677SPekka Enberg memcpy(p, data, size); 4360742802SPekka Enberg 4460742802SPekka Enberg return true; 4560742802SPekka Enberg } 4660742802SPekka Enberg 473d62dea6SSasha Levin static bool pci_config_address_in(struct ioport *ioport, struct kvm *kvm, u16 port, void *data, int size, u32 count) 4860742802SPekka Enberg { 49ba824677SPekka Enberg void *p = pci_config_address_ptr(port); 5060742802SPekka Enberg 51ba824677SPekka Enberg memcpy(data, p, size); 5260742802SPekka Enberg 5360742802SPekka Enberg return true; 5460742802SPekka Enberg } 5560742802SPekka Enberg 56305b72ceSCyrill Gorcunov static struct ioport_operations pci_config_address_ops = { 57305b72ceSCyrill Gorcunov .io_in = pci_config_address_in, 58305b72ceSCyrill Gorcunov .io_out = pci_config_address_out, 5960742802SPekka Enberg }; 6060742802SPekka Enberg 613fdf659dSSasha Levin static bool pci_device_exists(u8 bus_number, u8 device_number, u8 function_number) 6276f9c841SCyrill Gorcunov { 63b30d05adSPekka Enberg struct pci_device_header *dev; 64b30d05adSPekka Enberg 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 71b30d05adSPekka Enberg if (device_number >= PCI_MAX_DEVICES) 72b30d05adSPekka Enberg return false; 73b30d05adSPekka Enberg 74b30d05adSPekka Enberg dev = pci_devices[device_number]; 75b30d05adSPekka Enberg 76b30d05adSPekka Enberg return dev != NULL; 7776f9c841SCyrill Gorcunov } 7876f9c841SCyrill Gorcunov 79*9575e724SSasha Levin static bool pci_config_data_out(struct ioport *ioport, struct kvm *kvm, u16 port, void *data, int size, u32 count) 80*9575e724SSasha Levin { 81*9575e724SSasha Levin unsigned long start; 82*9575e724SSasha Levin u8 dev_num; 83*9575e724SSasha Levin 84*9575e724SSasha Levin /* 85*9575e724SSasha Levin * If someone accesses PCI configuration space offsets that are not 86*9575e724SSasha Levin * aligned to 4 bytes, it uses ioports to signify that. 87*9575e724SSasha Levin */ 88*9575e724SSasha Levin start = port - PCI_CONFIG_DATA; 89*9575e724SSasha Levin 90*9575e724SSasha Levin dev_num = pci_config_address.device_number; 91*9575e724SSasha Levin 92*9575e724SSasha Levin if (pci_device_exists(0, dev_num, 0)) { 93*9575e724SSasha Levin unsigned long offset; 94*9575e724SSasha Levin 95*9575e724SSasha Levin offset = start + (pci_config_address.register_number << 2); 96*9575e724SSasha Levin if (offset < sizeof(struct pci_device_header)) { 97*9575e724SSasha Levin void *p = pci_devices[dev_num]; 98*9575e724SSasha Levin u32 sz = PCI_IO_SIZE; 99*9575e724SSasha Levin 100*9575e724SSasha Levin /* 101*9575e724SSasha Levin * If the kernel masks the BAR it would expect to find the 102*9575e724SSasha Levin * size of the BAR there next time it reads from it. 103*9575e724SSasha Levin * When the kernel got the size it would write the address 104*9575e724SSasha Levin * back. 105*9575e724SSasha Levin */ 106*9575e724SSasha Levin if (*(u32 *)(p + offset)) { 107*9575e724SSasha Levin /* See if kernel tries to mask one of the BARs */ 108*9575e724SSasha Levin if ((offset >= PCI_BAR_OFFSET(0)) && 109*9575e724SSasha Levin (offset <= PCI_BAR_OFFSET(6))) 110*9575e724SSasha Levin memcpy(p + offset, &sz, sizeof(sz)); 111*9575e724SSasha Levin else 112*9575e724SSasha Levin memcpy(p + offset, data, size); 113*9575e724SSasha Levin } 114*9575e724SSasha Levin } 115*9575e724SSasha Levin } 116*9575e724SSasha Levin 117*9575e724SSasha Levin return true; 118*9575e724SSasha Levin } 119*9575e724SSasha Levin 1203d62dea6SSasha Levin static bool pci_config_data_in(struct ioport *ioport, struct kvm *kvm, u16 port, void *data, int size, u32 count) 12160742802SPekka Enberg { 122e4d2cea2SPekka Enberg unsigned long start; 1233fdf659dSSasha Levin u8 dev_num; 124e4d2cea2SPekka Enberg 125e4d2cea2SPekka Enberg /* 126e4d2cea2SPekka Enberg * If someone accesses PCI configuration space offsets that are not 12770d08766SCyrill Gorcunov * aligned to 4 bytes, it uses ioports to signify that. 128e4d2cea2SPekka Enberg */ 12970d08766SCyrill Gorcunov start = port - PCI_CONFIG_DATA; 130e4d2cea2SPekka Enberg 131b30d05adSPekka Enberg dev_num = pci_config_address.device_number; 132b30d05adSPekka Enberg 133b30d05adSPekka Enberg if (pci_device_exists(0, dev_num, 0)) { 134598419d5SPekka Enberg unsigned long offset; 135598419d5SPekka Enberg 136e4d2cea2SPekka Enberg offset = start + (pci_config_address.register_number << 2); 137598419d5SPekka Enberg if (offset < sizeof(struct pci_device_header)) { 138b30d05adSPekka Enberg void *p = pci_devices[dev_num]; 139b30d05adSPekka Enberg 14018ae021aSPekka Enberg memcpy(data, p + offset, size); 141598419d5SPekka Enberg } else 142598419d5SPekka Enberg memset(data, 0x00, size); 143e498ea08SPekka Enberg } else 144e498ea08SPekka Enberg memset(data, 0xff, size); 1454c797ebcSCyrill Gorcunov 14660742802SPekka Enberg return true; 14760742802SPekka Enberg } 14860742802SPekka Enberg 149305b72ceSCyrill Gorcunov static struct ioport_operations pci_config_data_ops = { 150305b72ceSCyrill Gorcunov .io_in = pci_config_data_in, 151305b72ceSCyrill Gorcunov .io_out = pci_config_data_out, 15260742802SPekka Enberg }; 15360742802SPekka Enberg 1543fdf659dSSasha Levin void pci__register(struct pci_device_header *dev, u8 dev_num) 155beb095ebSCyrill Gorcunov { 156b30d05adSPekka Enberg assert(dev_num < PCI_MAX_DEVICES); 157beb095ebSCyrill Gorcunov 158b30d05adSPekka Enberg pci_devices[dev_num] = dev; 159beb095ebSCyrill Gorcunov } 160beb095ebSCyrill Gorcunov 16160742802SPekka Enberg void pci__init(void) 16260742802SPekka Enberg { 1633d62dea6SSasha Levin ioport__register(PCI_CONFIG_DATA + 0, &pci_config_data_ops, 4, NULL); 1643d62dea6SSasha Levin ioport__register(PCI_CONFIG_ADDRESS + 0, &pci_config_address_ops, 4, NULL); 16560742802SPekka Enberg } 166