/* uisutils.h * * Copyright (C) 2010 - 2013 UNISYS CORPORATION * All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or (at * your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, GOOD TITLE or * NON INFRINGEMENT. See the GNU General Public License for more * details. */ /* * Unisys Virtual HBA utilities header */ #ifndef __UISUTILS__H__ #define __UISUTILS__H__ #include <linux/string.h> #include <linux/io.h> #include <linux/sched.h> #include <linux/gfp.h> #include <linux/uuid.h> #include "vmcallinterface.h" #include "channel.h" #include "uisthread.h" #include "uisqueue.h" #include "diagnostics/appos_subsystems.h" #include "vbusdeviceinfo.h" #include <linux/atomic.h> /* This is the MAGIC number stuffed by virthba in host->this_id. Used to * identify virtual hbas. */ #define UIS_MAGIC_VHBA 707 /* global function pointers that act as callback functions into * uisnicmod, uissdmod, and virtpcimod */ extern int (*UisnicControlChanFunc)(struct io_msgs *); extern int (*UissdControlChanFunc)(struct io_msgs *); extern int (*VirtControlChanFunc)(struct guest_msgs *); /* Return values of above callback functions: */ #define CCF_ERROR 0 /* completed and failed */ #define CCF_OK 1 /* completed successfully */ #define CCF_PENDING 2 /* operation still pending */ extern atomic_t UisUtils_Registered_Services; typedef unsigned int MACARRAY[MAX_MACADDR_LEN]; typedef struct ReqHandlerInfo_struct { uuid_le switchTypeGuid; int (*controlfunc)(struct io_msgs *); unsigned long min_channel_bytes; int (*Server_Channel_Ok)(unsigned long channelBytes); int (*Server_Channel_Init) (void *x, unsigned char *clientStr, u32 clientStrLen, u64 bytes); char switch_type_name[99]; struct list_head list_link; /* links into ReqHandlerInfo_list */ } ReqHandlerInfo_t; ReqHandlerInfo_t *ReqHandlerAdd(uuid_le switchTypeGuid, const char *switch_type_name, int (*controlfunc)(struct io_msgs *), unsigned long min_channel_bytes, int (*Server_Channel_Ok)(unsigned long channelBytes), int (*Server_Channel_Init) (void *x, unsigned char *clientStr, u32 clientStrLen, u64 bytes)); ReqHandlerInfo_t *ReqHandlerFind(uuid_le switchTypeGuid); int ReqHandlerDel(uuid_le switchTypeGuid); #define uislib_ioremap_cache(addr, size) \ dbg_ioremap_cache(addr, size, __FILE__, __LINE__) static inline void __iomem * dbg_ioremap_cache(u64 addr, unsigned long size, char *file, int line) { void __iomem *new; new = ioremap_cache(addr, size); return new; } #define uislib_ioremap(addr, size) dbg_ioremap(addr, size, __FILE__, __LINE__) static inline void * dbg_ioremap(u64 addr, unsigned long size, char *file, int line) { void *new; new = ioremap(addr, size); return new; } #define uislib_iounmap(addr) dbg_iounmap(addr, __FILE__, __LINE__) static inline void dbg_iounmap(void __iomem *addr, char *file, int line) { iounmap(addr); } #define PROC_READ_BUFFER_SIZE 131072 /* size of the buffer to allocate to * hold all of /proc/XXX/info */ int uisutil_add_proc_line_ex(int *total, char **buffer, int *buffer_remaining, char *format, ...); int uisctrl_register_req_handler(int type, void *fptr, ULTRA_VBUS_DEVICEINFO *chipset_driver_info); int uisctrl_register_req_handler_ex(uuid_le switchTypeGuid, const char *switch_type_name, int (*fptr)(struct io_msgs *), unsigned long min_channel_bytes, int (*Server_Channel_Ok)(unsigned long channelBytes), int (*Server_Channel_Init) (void *x, unsigned char *clientStr, u32 clientStrLen, u64 bytes), ULTRA_VBUS_DEVICEINFO *chipset_DriverInfo); int uisctrl_unregister_req_handler_ex(uuid_le switchTypeGuid); unsigned char *util_map_virt(struct phys_info *sg); void util_unmap_virt(struct phys_info *sg); unsigned char *util_map_virt_atomic(struct phys_info *sg); void util_unmap_virt_atomic(void *buf); int uislib_server_inject_add_vnic(u32 switchNo, u32 BusNo, u32 numIntPorts, u32 numExtPorts, MACARRAY pmac[], pCHANNEL_HEADER **chan); void uislib_server_inject_del_vnic(u32 switchNo, u32 busNo, u32 numIntPorts, u32 numExtPorts); int uislib_client_inject_add_bus(u32 busNo, uuid_le instGuid, u64 channelAddr, ulong nChannelBytes); int uislib_client_inject_del_bus(u32 busNo); int uislib_client_inject_add_vhba(u32 busNo, u32 devNo, u64 phys_chan_addr, u32 chan_bytes, int is_test_addr, uuid_le instGuid, struct InterruptInfo *intr); int uislib_client_inject_pause_vhba(u32 busNo, u32 devNo); int uislib_client_inject_resume_vhba(u32 busNo, u32 devNo); int uislib_client_inject_del_vhba(u32 busNo, u32 devNo); int uislib_client_inject_add_vnic(u32 busNo, u32 devNo, u64 phys_chan_addr, u32 chan_bytes, int is_test_addr, uuid_le instGuid, struct InterruptInfo *intr); int uislib_client_inject_pause_vnic(u32 busNo, u32 devNo); int uislib_client_inject_resume_vnic(u32 busNo, u32 devNo); int uislib_client_inject_del_vnic(u32 busNo, u32 devNo); #ifdef STORAGE_CHANNEL u64 uislib_storage_channel(int client_id); #endif int uislib_get_owned_pdest(struct uisscsi_dest *pdest); int uislib_send_event(CONTROLVM_ID id, CONTROLVM_MESSAGE_PACKET *event); /* structure used by vhba & vnic to keep track of queue & thread info */ struct chaninfo { struct uisqueue_info *queueinfo; /* this specifies the queue structures for a channel */ /* ALLOCATED BY THE OTHER END - WE JUST GET A POINTER TO THE MEMORY */ spinlock_t insertlock; /* currently used only in virtnic when sending data to uisnic */ /* to synchronize the inserts into the signal queue */ struct uisthread_info threadinfo; /* this specifies the thread structures used by the thread that */ /* handles this channel */ }; /* this is the wait code for all the threads - it is used to get * something from a queue choices: wait_for_completion_interruptible, * _timeout, interruptible_timeout */ #define UIS_THREAD_WAIT_MSEC(x) { \ set_current_state(TASK_INTERRUPTIBLE); \ schedule_timeout(msecs_to_jiffies(x)); \ } #define UIS_THREAD_WAIT_USEC(x) { \ set_current_state(TASK_INTERRUPTIBLE); \ schedule_timeout(usecs_to_jiffies(x)); \ } #define UIS_THREAD_WAIT UIS_THREAD_WAIT_MSEC(5) #define UIS_THREAD_WAIT_SEC(x) { \ set_current_state(TASK_INTERRUPTIBLE); \ schedule_timeout((x)*HZ); \ } /* This is a hack until we fix IOVM to initialize the channel header * correctly at DEVICE_CREATE time, INSTEAD OF waiting until * DEVICE_CONFIGURE time. */ static inline void wait_for_valid_guid(uuid_le __iomem *guid) { uuid_le tmpguid; while (1) { memcpy_fromio((void *)&tmpguid, (void __iomem *)guid, sizeof(uuid_le)); if (uuid_le_cmp(tmpguid, NULL_UUID_LE) != 0) break; LOGERR("Waiting for non-0 GUID (why???)...\n"); UIS_THREAD_WAIT_SEC(5); } LOGERR("OK... GUID is non-0 now\n"); } /* CopyFragsInfoFromSkb returns the number of entries added to frags array * Returns -1 on failure. */ unsigned int uisutil_copy_fragsinfo_from_skb(unsigned char *calling_ctx, void *skb_in, unsigned int firstfraglen, unsigned int frags_max, struct phys_info frags[]); static inline unsigned int issue_vmcall_io_controlvm_addr(u64 *control_addr, u32 *control_bytes) { VMCALL_IO_CONTROLVM_ADDR_PARAMS params; int result = VMCALL_SUCCESS; u64 physaddr; physaddr = virt_to_phys(¶ms); ISSUE_IO_VMCALL(VMCALL_IO_CONTROLVM_ADDR, physaddr, result); if (VMCALL_SUCCESSFUL(result)) { *control_addr = params.ChannelAddress; *control_bytes = params.ChannelBytes; } return result; } static inline unsigned int issue_vmcall_io_diag_addr(u64 *diag_channel_addr) { VMCALL_IO_DIAG_ADDR_PARAMS params; int result = VMCALL_SUCCESS; u64 physaddr; physaddr = virt_to_phys(¶ms); ISSUE_IO_VMCALL(VMCALL_IO_DIAG_ADDR, physaddr, result); if (VMCALL_SUCCESSFUL(result)) *diag_channel_addr = params.ChannelAddress; return result; } static inline unsigned int issue_vmcall_io_visorserial_addr(u64 *channel_addr) { VMCALL_IO_VISORSERIAL_ADDR_PARAMS params; int result = VMCALL_SUCCESS; u64 physaddr; physaddr = virt_to_phys(¶ms); ISSUE_IO_VMCALL(VMCALL_IO_VISORSERIAL_ADDR, physaddr, result); if (VMCALL_SUCCESSFUL(result)) *channel_addr = params.ChannelAddress; return result; } static inline s64 issue_vmcall_query_guest_virtual_time_offset(void) { u64 result = VMCALL_SUCCESS; u64 physaddr = 0; ISSUE_IO_VMCALL(VMCALL_QUERY_GUEST_VIRTUAL_TIME_OFFSET, physaddr, result); return result; } static inline s64 issue_vmcall_measurement_do_nothing(void) { u64 result = VMCALL_SUCCESS; u64 physaddr = 0; ISSUE_IO_VMCALL(VMCALL_MEASUREMENT_DO_NOTHING, physaddr, result); return result; } struct log_info_t { volatile unsigned long long last_cycles; unsigned long long delta_sum[64]; unsigned long long delta_cnt[64]; unsigned long long max_delta[64]; unsigned long long min_delta[64]; }; static inline int issue_vmcall_update_physical_time(u64 adjustment) { int result = VMCALL_SUCCESS; ISSUE_IO_VMCALL(VMCALL_UPDATE_PHYSICAL_TIME, adjustment, result); return result; } static inline unsigned int issue_vmcall_channel_mismatch(const char *chname, const char *item_name, u32 line_no, const char *path_n_fn) { VMCALL_CHANNEL_VERSION_MISMATCH_PARAMS params; int result = VMCALL_SUCCESS; u64 physaddr; char *last_slash = NULL; strlcpy(params.ChannelName, chname, lengthof(VMCALL_CHANNEL_VERSION_MISMATCH_PARAMS, ChannelName)); strlcpy(params.ItemName, item_name, lengthof(VMCALL_CHANNEL_VERSION_MISMATCH_PARAMS, ItemName)); params.SourceLineNumber = line_no; last_slash = strrchr(path_n_fn, '/'); if (last_slash != NULL) { last_slash++; strlcpy(params.SourceFileName, last_slash, lengthof(VMCALL_CHANNEL_VERSION_MISMATCH_PARAMS, SourceFileName)); } else strlcpy(params.SourceFileName, "Cannot determine source filename", lengthof(VMCALL_CHANNEL_VERSION_MISMATCH_PARAMS, SourceFileName)); physaddr = virt_to_phys(¶ms); ISSUE_IO_VMCALL(VMCALL_CHANNEL_VERSION_MISMATCH, physaddr, result); return result; } static inline unsigned int issue_vmcall_fatal(void) { int result = VMCALL_SUCCESS; u64 physaddr = 0; ISSUE_IO_VMCALL(VMCALL_GENERIC_SURRENDER_QUANTUM_FOREVER, physaddr, result); return result; } #define UIS_DAEMONIZE(nam) void *uislib_cache_alloc(struct kmem_cache *cur_pool, char *fn, int ln); #define UISCACHEALLOC(cur_pool) uislib_cache_alloc(cur_pool, __FILE__, __LINE__) void uislib_cache_free(struct kmem_cache *cur_pool, void *p, char *fn, int ln); #define UISCACHEFREE(cur_pool, p) \ uislib_cache_free(cur_pool, p, __FILE__, __LINE__) void uislib_enable_channel_interrupts(u32 bus_no, u32 dev_no, int (*interrupt)(void *), void *interrupt_context); void uislib_disable_channel_interrupts(u32 bus_no, u32 dev_no); void uislib_force_channel_interrupt(u32 bus_no, u32 dev_no); #endif /* __UISUTILS__H__ */