X-Git-Url: http://v3vee.org/palacios/gitweb/gitweb.cgi?a=blobdiff_plain;f=palacios%2Fsrc%2Fdevices%2Fapic.c;h=4387480fbafdfa2f6254041ce93468f5db2d5411;hb=efbe4a22cf885020ad0f5d8b9b5671b89d5f7e88;hp=fe1ecaa15d36e19416fa48a36e4463c7c2f1e3d6;hpb=15d029a29d7891dc3df00c16f0c1096080ce297f;p=palacios.git diff --git a/palacios/src/devices/apic.c b/palacios/src/devices/apic.c index fe1ecaa..4387480 100644 --- a/palacios/src/devices/apic.c +++ b/palacios/src/devices/apic.c @@ -11,7 +11,8 @@ * Copyright (c) 2008, The V3VEE Project * All rights reserved. * - * Author: Jack Lange + * Authors: Jack Lange + * Peter Dinda (SMP) * * This is free software. You are permitted to use, * redistribute, and modify it as specified in the file "V3VEE_LICENSE". @@ -27,21 +28,62 @@ #include +// +// MUST DO APIC SCAN FOR PHYSICAL DELIVERY +// + + + #ifndef CONFIG_DEBUG_APIC #undef PrintDebug #define PrintDebug(fmt, args...) #endif +static char * shorthand_str[] = { + "(no shorthand)", + "(self)", + "(all)", + "(all-but-me)", +}; + +static char * deliverymode_str[] = { + "(fixed)", + "(lowest priority)", + "(SMI)", + "(reserved)", + "(NMI)", + "(INIT)", + "(Start Up)", + "(ExtInt)", +}; +#ifdef CONFIG_DEBUG_APIC +#endif + + +#define v3_lock(p) p=p +#define v3_unlock(p) p=p + typedef enum { APIC_TMR_INT, APIC_THERM_INT, APIC_PERF_INT, APIC_LINT0_INT, APIC_LINT1_INT, APIC_ERR_INT } apic_irq_type_t; #define APIC_FIXED_DELIVERY 0x0 +#define APIC_LOWEST_DELIVERY 0x1 #define APIC_SMI_DELIVERY 0x2 +#define APIC_RES1_DELIVERY 0x3 #define APIC_NMI_DELIVERY 0x4 #define APIC_INIT_DELIVERY 0x5 +#define APIC_SIPI_DELIVERY 0x6 #define APIC_EXTINT_DELIVERY 0x7 +#define APIC_SHORTHAND_NONE 0x0 +#define APIC_SHORTHAND_SELF 0x1 +#define APIC_SHORTHAND_ALL 0x2 +#define APIC_SHORTHAND_ALL_BUT_ME 0x3 + +#define APIC_DEST_PHYSICAL 0x0 +#define APIC_DEST_LOGICAL 0x1 + #define BASE_ADDR_MSR 0x0000001B #define DEFAULT_BASE_ADDR 0xfee00000 @@ -116,10 +158,6 @@ typedef enum { APIC_TMR_INT, APIC_THERM_INT, APIC_PERF_INT, #define EXT_INT_LOC_VEC_TBL_OFFSET2 0x520 // 0x500 - 0x530 #define EXT_INT_LOC_VEC_TBL_OFFSET3 0x530 // 0x500 - 0x530 - - - - struct apic_msr { union { uint64_t value; @@ -128,15 +166,17 @@ struct apic_msr { uint8_t bootstrap_cpu : 1; uint8_t rsvd2 : 2; uint8_t apic_enable : 1; - uint64_t base_addr : 40; - uint32_t rsvd3 : 12; + uint64_t base_addr : 40; + uint32_t rsvd3 : 12; } __attribute__((packed)); } __attribute__((packed)); } __attribute__((packed)); -typedef enum {INIT, SIPI, STARTED} ipi_state_t; +typedef enum {INIT_ST, + SIPI, + STARTED} ipi_state_t; struct apic_dev_state; @@ -190,9 +230,16 @@ struct apic_state { struct guest_info * core; + void * controller_handle; + + struct v3_timer * timer; + uint32_t eoi; v3_lock_t lock; + + // debug + uint8_t in_icr; }; @@ -200,15 +247,19 @@ struct apic_state { struct apic_dev_state { int num_apics; + // v3_lock_t ipi_lock; // acquired by route_ipi - only one IPI active at a time struct apic_state apics[0]; } __attribute__((packed)); + + static int apic_read(struct guest_info * core, addr_t guest_addr, void * dst, uint_t length, void * priv_data); static int apic_write(struct guest_info * core, addr_t guest_addr, void * src, uint_t length, void * priv_data); +// No lcoking done static void init_apic_state(struct apic_state * apic, uint32_t id) { apic->base_addr = DEFAULT_BASE_ADDR; @@ -240,7 +291,7 @@ static void init_apic_state(struct apic_state * apic, uint32_t id) { apic->lapic_id.val = id; - apic->ipi_state = INIT; + apic->ipi_state = INIT_ST; // The P6 has 6 LVT entries, so we set the value to (6-1)... apic->apic_ver.val = 0x80050010; @@ -266,11 +317,15 @@ static void init_apic_state(struct apic_state * apic, uint32_t id) { apic->spec_eoi.val = 0x00000000; v3_lock_init(&(apic->lock)); + + //debug + apic->in_icr=0; } +// MSR handler - locks apic itself static int read_apic_msr(struct guest_info * core, uint_t msr, v3_msr_t * dst, void * priv_data) { struct apic_dev_state * apic_dev = (struct apic_dev_state *)priv_data; struct apic_state * apic = &(apic_dev->apics[core->cpu_id]); @@ -282,7 +337,7 @@ static int read_apic_msr(struct guest_info * core, uint_t msr, v3_msr_t * dst, v return 0; } - +// MSR handler - locks apic itself static int write_apic_msr(struct guest_info * core, uint_t msr, v3_msr_t src, void * priv_data) { struct apic_dev_state * apic_dev = (struct apic_dev_state *)priv_data; struct apic_state * apic = &(apic_dev->apics[core->cpu_id]); @@ -304,7 +359,9 @@ static int write_apic_msr(struct guest_info * core, uint_t msr, v3_msr_t src, vo apic->base_addr = src.value; - if (v3_hook_full_mem(core->vm_info, core->cpu_id, apic->base_addr, apic->base_addr + PAGE_SIZE_4KB, apic_read, apic_write, apic_dev) == -1) { + if (v3_hook_full_mem(core->vm_info, core->cpu_id, apic->base_addr, + apic->base_addr + PAGE_SIZE_4KB, + apic_read, apic_write, apic_dev) == -1) { PrintError("apic %u: core %u: Could not hook new APIC Base address\n", apic->lapic_id.val, core->cpu_id); v3_unlock(apic->lock); @@ -317,7 +374,12 @@ static int write_apic_msr(struct guest_info * core, uint_t msr, v3_msr_t src, vo // irq_num is the bit offset into a 256 bit buffer... -static int activate_apic_irq(struct apic_state * apic, uint32_t irq_num) { +// return values +// -1 = error +// 0 = OK, no interrupt needed now +// 1 = OK, interrupt needed now +// the caller is expeced to have locked the apic +static int activate_apic_irq_nolock(struct apic_state * apic, uint32_t irq_num) { int major_offset = (irq_num & ~0x00000007) >> 3; int minor_offset = irq_num & 0x00000007; uint8_t * req_location = apic->int_req_reg + major_offset; @@ -325,32 +387,39 @@ static int activate_apic_irq(struct apic_state * apic, uint32_t irq_num) { uint8_t flag = 0x1 << minor_offset; - - if (irq_num <= 15) { -// PrintError("apic %u: core ?: Attempting to raise an invalid interrupt: %d\n", apic->lapic_id.val,irq_num); + if (irq_num <= 15 || irq_num>255) { + PrintError("apic %u: core %d: Attempting to raise an invalid interrupt: %d\n", + apic->lapic_id.val, apic->core->cpu_id, irq_num); return -1; } - PrintDebug("apic %u: core ?: Raising APIC IRQ %d\n", apic->lapic_id.val, irq_num); + PrintDebug("apic %u: core %d: Raising APIC IRQ %d\n", apic->lapic_id.val, apic->core->cpu_id, irq_num); if (*req_location & flag) { - //V3_Print("Interrupts coallescing\n"); + PrintDebug("Interrupt %d coallescing\n", irq_num); + return 0; } if (*en_location & flag) { *req_location |= flag; + + if (apic->in_icr) { + PrintError("apic %u: core %d: activate_apic_irq_nolock to deliver irq 0x%x when in_icr=1\n", apic->lapic_id.val, apic->core->cpu_id, irq_num); + // return 0; + } + + return 1; } else { - PrintDebug("apic %u: core ?: Interrupt not enabled... %.2x\n", - apic->lapic_id.val, *en_location); + PrintDebug("apic %u: core %d: Interrupt not enabled... %.2x\n", + apic->lapic_id.val, apic->core->cpu_id,*en_location); return 0; } - return 0; } - +// Caller is expected to have locked the apic static int get_highest_isr(struct apic_state * apic) { int i = 0, j = 0; @@ -372,7 +441,7 @@ static int get_highest_isr(struct apic_state * apic) { } - +// Caller is expected to have locked the apic static int get_highest_irr(struct apic_state * apic) { int i = 0, j = 0; @@ -395,7 +464,7 @@ static int get_highest_irr(struct apic_state * apic) { - +// Caller is expected to have locked the apic static int apic_do_eoi(struct apic_state * apic) { int isr_irq = get_highest_isr(apic); @@ -427,8 +496,8 @@ static int apic_do_eoi(struct apic_state * apic) { return 0; } - -static int activate_internal_irq(struct apic_state * apic, apic_irq_type_t int_type) { +// Caller is expected to have locked the apic +static int activate_internal_irq_nolock(struct apic_state * apic, apic_irq_type_t int_type) { uint32_t vec_num = 0; uint32_t del_mode = 0; int masked = 0; @@ -478,7 +547,7 @@ static int activate_internal_irq(struct apic_state * apic, apic_irq_type_t int_t if (del_mode == APIC_FIXED_DELIVERY) { //PrintDebug("Activating internal APIC IRQ %d\n", vec_num); - return activate_apic_irq(apic, vec_num); + return activate_apic_irq_nolock(apic, vec_num); } else { PrintError("apic %u: core ?: Unhandled Delivery Mode\n", apic->lapic_id.val); return -1; @@ -486,12 +555,12 @@ static int activate_internal_irq(struct apic_state * apic, apic_irq_type_t int_t } - +// Caller is expected to have locked the destination apic static inline int should_deliver_cluster_ipi(struct guest_info * dst_core, struct apic_state * dst_apic, uint8_t mda) { - if ( ((mda & 0xf0) == (dst_apic->log_dst.dst_log_id & 0xf0)) && // (I am in the cluster and - ((mda & 0x0f) & (dst_apic->log_dst.dst_log_id & 0x0f)) ) { // I am in the set) + if ( ((mda & 0xf0) == (dst_apic->log_dst.dst_log_id & 0xf0)) && /* (I am in the cluster and */ + ((mda & 0x0f) & (dst_apic->log_dst.dst_log_id & 0x0f)) ) { /* I am in the set) */ PrintDebug("apic %u core %u: accepting clustered IRQ (mda 0x%x == log_dst 0x%x)\n", dst_apic->lapic_id.val, dst_core->cpu_id, mda, @@ -500,12 +569,13 @@ static inline int should_deliver_cluster_ipi(struct guest_info * dst_core, return 1; } else { PrintDebug("apic %u core %u: rejecting clustered IRQ (mda 0x%x != log_dst 0x%x)\n", - dst_apic->lapic_id.val, dst_core->cpu_id, mda, dst_ + dst_apic->lapic_id.val, dst_core->cpu_id, mda, dst_apic->log_dst.dst_log_id); return 0; } } +// Caller is expected to have locked the destiation apic static inline int should_deliver_flat_ipi(struct guest_info * dst_core, struct apic_state * dst_apic, uint8_t mda) { @@ -514,29 +584,42 @@ static inline int should_deliver_flat_ipi(struct guest_info * dst_core, PrintDebug("apic %u core %u: accepting flat IRQ (mda 0x%x == log_dst 0x%x)\n", dst_apic->lapic_id.val, dst_core->cpu_id, mda, dst_apic->log_dst.dst_log_id); - return 1; + + return 1; + } else { + PrintDebug("apic %u core %u: rejecting flat IRQ (mda 0x%x != log_dst 0x%x)\n", dst_apic->lapic_id.val, dst_core->cpu_id, mda, dst_apic->log_dst.dst_log_id); - return 0; + return 0; } } - +// Caller is expected to have locked the destiation apic static int should_deliver_ipi(struct guest_info * dst_core, struct apic_state * dst_apic, uint8_t mda) { - if (mda == 0xff) { - // always deliver broadcast - return 1; - } if (dst_apic->dst_fmt.model == 0xf) { - return should_deliver_cluster_ipi(dst_core, dst_apic, mda); - } else if (dst_apic->dst_fmt.model == 0x0) { + + if (mda == 0xff) { + /* always deliver broadcast */ + return 1; + } + return should_deliver_flat_ipi(dst_core, dst_apic, mda); + + } else if (dst_apic->dst_fmt.model == 0x0) { + + if (mda == 0xff) { + /* always deliver broadcast */ + return 1; + } + + return should_deliver_cluster_ipi(dst_core, dst_apic, mda); + } else { PrintError("apic %u core %u: invalid destination format register value 0x%x for logical mode delivery.\n", dst_apic->lapic_id.val, dst_core->cpu_id, dst_apic->dst_fmt.model); @@ -544,44 +627,59 @@ static int should_deliver_ipi(struct guest_info * dst_core, } } - -static int deliver_ipi(struct guest_info * core, - struct apic_state * src_apic, +// Caller is expected to have locked the destination apic +// Only the src_apic pointer is used +static int deliver_ipi(struct apic_state * src_apic, struct apic_state * dst_apic, uint32_t vector, uint8_t del_mode) { + struct guest_info * dst_core = dst_apic->core; + int do_xcall; switch (del_mode) { - case 0: //fixed - case 1: // lowest priority - PrintDebug(" delivering IRQ to core %u\n", dst_core->cpu_id); + case APIC_FIXED_DELIVERY: + case APIC_LOWEST_DELIVERY: + // lowest priority - + // caller needs to have decided which apic to deliver to! + + PrintDebug("delivering IRQ %d to core %u\n", vector, dst_core->cpu_id); - activate_apic_irq(dst_apic, vector); + do_xcall=activate_apic_irq_nolock(dst_apic, vector); + + if (do_xcall<0) { + PrintError("Failed to activate apic irq!\n"); + return -1; + } - if (dst_apic != src_apic) { + if (do_xcall && (dst_apic != src_apic)) { // Assume core # is same as logical processor for now // TODO FIX THIS FIX THIS // THERE SHOULD BE: guestapicid->virtualapicid map, // cpu_id->logical processor map // host maitains logical proc->phsysical proc - PrintDebug(" non-local core, forcing it to exit\n"); + PrintDebug(" non-local core with new interrupt, forcing it to exit now\n"); - v3_interrupt_cpu(core->vm_info, dst_core->cpu_id, 0); +#ifdef CONFIG_MULTITHREAD_OS + v3_interrupt_cpu(dst_core->vm_info, dst_core->cpu_id, 0); +#else + V3_ASSERT(0); +#endif } break; - case 5: { //INIT + + case APIC_INIT_DELIVERY: { PrintDebug(" INIT delivery to core %u\n", dst_core->cpu_id); // TODO: any APIC reset on dest core (shouldn't be needed, but not sure...) // Sanity check - if (dst_apic->ipi_state != INIT) { - PrintError(" Warning: core %u is not in INIT state (mode = %d), ignored\n", - dst_core->cpu_id, dst_core->cpu_mode); + if (dst_apic->ipi_state != INIT_ST) { + PrintError(" Warning: core %u is not in INIT state (mode = %d), ignored (assuming this is the deassert)\n", + dst_core->cpu_id, dst_apic->ipi_state); // Only a warning, since INIT INIT SIPI is common break; } @@ -599,12 +697,12 @@ static int deliver_ipi(struct guest_info * core, break; } - case 6: { //SIPI + case APIC_SIPI_DELIVERY: { // Sanity check if (dst_apic->ipi_state != SIPI) { PrintError(" core %u is not in SIPI state (mode = %d), ignored!\n", - dst_core->cpu_id, dst_core->cpu_mode); + dst_core->cpu_id, dst_apic->ipi_state); break; } @@ -624,11 +722,12 @@ static int deliver_ipi(struct guest_info * core, dst_core->segments.cs.base = vector << 12; PrintDebug(" SIPI delivery (0x%x -> 0x%x:0x0) to core %u\n", - vec, dst_core->segments.cs.selector, dst_core->cpu_id); + vector, dst_core->segments.cs.selector, dst_core->cpu_id); // Maybe need to adjust the APIC? // We transition the target core to SIPI state dst_core->core_run_state = CORE_RUNNING; // note: locking should not be needed here + dst_apic->ipi_state = STARTED; // As with INIT, we should not need to do anything else @@ -636,10 +735,10 @@ static int deliver_ipi(struct guest_info * core, break; } - case 2: // SMI - case 3: // reserved - case 4: // NMI - case 7: // ExtInt + case APIC_SMI_DELIVERY: + case APIC_RES1_DELIVERY: // reserved + case APIC_NMI_DELIVERY: + case APIC_EXTINT_DELIVERY: // ExtInt default: PrintError("IPI %d delivery is unsupported\n", del_mode); return -1; @@ -649,125 +748,252 @@ static int deliver_ipi(struct guest_info * core, } - -static int route_ipi(struct guest_info * core, struct apic_dev_state * apic_dev, - struct apic_state * src_apic, uint32_t icr_val) { - struct int_cmd_reg * icr = (struct int_cmd_reg *)&icr_val; +// route_ipi is responsible for all locking +// the assumption is that you enter with no locks +// there is a global lock for the icc bus, so only +// one route_ipi progresses at any time +// destination apics are locked as needed +// if multiple apic locks are acquired at any point, +// this is done in the order of the array, so no +// deadlock should be possible +static int route_ipi(struct apic_dev_state * apic_dev, + struct apic_state * src_apic, + struct int_cmd_reg * icr) { struct apic_state * dest_apic = NULL; - PrintDebug("icc_bus: icc_bus=%p, src_apic=%u, icr_data=%llx, extirq=%u\n", - icc_bus, src_apic, icr_data, extirq); - - - // initial sanity checks - if (src_apic == NULL) { - PrintError("icc_bus: Apparently sending from unregistered apic id=%d\n", - src_apic->core->cpu_id); - return -1; - } - - - if ((icr->dst_mode == 0) && (icr->dst >= apic_dev->num_apics)) { - PrintError("icc_bus: Attempted send to unregistered apic id=%u\n", - icr->dst); - return -1; - } - dest_apic = &(apic_dev->apics[icr->dst]); + //v3_lock(apic_dev->ipi_lock); // this may not be needed + // now I know only one IPI is being routed, this one + // also, I do not have any apic locks + // I need to acquire locks on pairs of src/dest apics + // and I will do that using the total order + // given by their cores - PrintDebug("icc_bus: IPI %s %u from %s %u to %s %s %u (icr=0x%llx, extirq=%u)\n", + PrintDebug("apic: IPI %s %u from apic %p to %s %s %u (icr=0x%llx)\n", deliverymode_str[icr->del_mode], icr->vec, - (src_apic == state->ioapic_id) ? "ioapic" : "apic", src_apic, (icr->dst_mode == 0) ? "(physical)" : "(logical)", shorthand_str[icr->dst_shorthand], icr->dst, - icr->val, - extirq); + icr->val); + +#if 1 + if (icr->vec!=48) { + V3_Print("apic: IPI %s %u from apic %p to %s %s %u (icr=0x%llx)\n", + deliverymode_str[icr->del_mode], + icr->vec, + src_apic, + (icr->dst_mode == 0) ? "(physical)" : "(logical)", + shorthand_str[icr->dst_shorthand], + icr->dst, + icr->val); + } + +#endif switch (icr->dst_shorthand) { - case 0: // no shorthand - if (icr->dst_mode == 0) { - // physical delivery + case APIC_SHORTHAND_NONE: // no shorthand + if (icr->dst_mode == APIC_DEST_PHYSICAL) { - if (deliver_ipi(core, src_apic, dest_apic, + if (icr->dst >= apic_dev->num_apics) { + PrintError("apic: Attempted send to unregistered apic id=%u\n", icr->dst); + goto route_ipi_out_bad; + } + + + dest_apic = &(apic_dev->apics[icr->dst]); + + V3_Print("apic: phsyical destination of %u (apic %u at 0x%p)\n", icr->dst,dest_apic->lapic_id.val,dest_apic); + + v3_lock(dest_apic->lock); + + if (deliver_ipi(src_apic, dest_apic, icr->vec, icr->del_mode) == -1) { - PrintError("Error: Could not deliver IPI\n"); - return -1; + PrintError("apic: Could not deliver IPI\n"); + v3_unlock(dest_apic->lock); + goto route_ipi_out_bad; } - } else { - // logical delivery - int i; - uint8_t mda = icr->dst; - - for (i = 0; i < apic_dev->num_apics; i++) { - dest_apic = &(apic_dev->apics[i]); - int del_flag = should_deliver_ipi(dest_apic->core, dest_apic, mda); - - if (del_flag == -1) { - PrintError("Error checking delivery mode\n"); - return -1; - } else if (del_flag == 1) { - if (deliver_ipi(core, src_apic, dest_apic, + v3_unlock(dest_apic->lock); + + V3_Print("apic: done\n"); + + } else if (icr->dst_mode == APIC_DEST_LOGICAL) { + + if (icr->del_mode!=APIC_LOWEST_DELIVERY ) { + // logical, but not lowest priority + // we immediately trigger + // fixed, smi, reserved, nmi, init, sipi, etc + int i; + + uint8_t mda = icr->dst; + + for (i = 0; i < apic_dev->num_apics; i++) { + + dest_apic = &(apic_dev->apics[i]); + + v3_lock(dest_apic->lock); + + int del_flag = should_deliver_ipi(dest_apic->core, dest_apic, mda); + + if (del_flag == -1) { + PrintError("apic: Error checking delivery mode\n"); + v3_unlock(dest_apic->lock); + goto route_ipi_out_bad; + } else if (del_flag == 1) { + if (deliver_ipi(src_apic, dest_apic, + icr->vec, icr->del_mode) == -1) { + PrintError("apic: Error: Could not deliver IPI\n"); + v3_unlock(dest_apic->lock); + goto route_ipi_out_bad; + } + } + + v3_unlock(dest_apic->lock); + } + } else { //APIC_LOWEST_DELIVERY + // logical, lowest priority + // scan, keeping a lock on the current best, then trigger + int i; + int have_cur_lock; + struct apic_state * cur_best_apic = NULL; + + uint8_t mda = icr->dst; + + have_cur_lock=0; + + + // Note that even if there are multiple concurrent + // copies of this loop executing, they are all + // locking in the same order + + for (i = 0; i < apic_dev->num_apics; i++) { + + dest_apic = &(apic_dev->apics[i]); + + v3_lock(dest_apic->lock); + have_cur_lock=1; + + int del_flag = should_deliver_ipi(dest_apic->core, dest_apic, mda); + + if (del_flag == -1) { + PrintError("apic: Error checking delivery mode\n"); + v3_unlock(dest_apic->lock); + if (cur_best_apic && cur_best_apic!=dest_apic) { + v3_unlock(cur_best_apic->lock); + } + goto route_ipi_out_bad; + } else if (del_flag == 1) { + // update priority for lowest priority scan + if (!cur_best_apic) { + cur_best_apic=dest_apic; // note we leave it locked + have_cur_lock=0; // we will unlock as cur_best_apic + } else if (dest_apic->task_prio.val < cur_best_apic->task_prio.val) { + // we now unlock the current best one and then switch + // so in the end we have a lock on the new cur_best_apic + v3_unlock(cur_best_apic->lock); + cur_best_apic=dest_apic; + have_cur_lock=0; // will unlock as cur_best_apic + } + } + if (have_cur_lock) { + v3_unlock(dest_apic->lock); + } + + } + // now we will deliver to the best one if it exists + // and it is locked + if (!cur_best_apic) { + PrintDebug("apic: lowest priority deliver, but no destinations!\n"); + } else { + if (deliver_ipi(src_apic, cur_best_apic, icr->vec, icr->del_mode) == -1) { - PrintError("Error: Could not deliver IPI\n"); - return -1; + PrintError("apic: Error: Could not deliver IPI\n"); + v3_unlock(cur_best_apic->lock); + goto route_ipi_out_bad; + } else { + v3_unlock(cur_best_apic->lock); } + //V3_Print("apic: logical, lowest priority delivery to apic %u\n",cur_best_apic->lapic_id.val); } } } - + break; - case 1: // self + case APIC_SHORTHAND_SELF: // self + + /* I assume I am already locked! */ + + if (src_apic == NULL) { /* this is not an apic, but it's trying to send to itself??? */ + PrintError("apic: Sending IPI to self from generic IPI sender\n"); + break; + } - if (icr->dst_mode == 0) { - if (deliver_ipi(core, src_apic, src_apic, icr->vec, icr->del_mode) == -1) { - PrintError("Could not deliver IPI\n"); - return -1; + v3_lock(src_apic->lock); + + if (icr->dst_mode == APIC_DEST_PHYSICAL) { /* physical delivery */ + if (deliver_ipi(src_apic, src_apic, icr->vec, icr->del_mode) == -1) { + PrintError("apic: Could not deliver IPI to self (physical)\n"); + v3_unlock(src_apic->lock); + goto route_ipi_out_bad; + } + } else if (icr->dst_mode == APIC_DEST_LOGICAL) { /* logical delivery */ + PrintError("apic: use of logical delivery in self (untested)\n"); + if (deliver_ipi(src_apic, src_apic, icr->vec, icr->del_mode) == -1) { + PrintError("apic: Could not deliver IPI to self (logical)\n"); + v3_unlock(src_apic->lock); + goto route_ipi_out_bad; } - } else { - // logical delivery - PrintError("icc_bus: use of logical delivery in self is not yet supported.\n"); - return -1; } + v3_unlock(src_apic->lock); break; - case 2: - case 3: { // all and all-but-me - // assuming that logical verus physical doesn't matter - // although it is odd that both are used + case APIC_SHORTHAND_ALL: + case APIC_SHORTHAND_ALL_BUT_ME: { /* all and all-but-me */ + /* assuming that logical verus physical doesn't matter + although it is odd that both are used */ + int i; for (i = 0; i < apic_dev->num_apics; i++) { dest_apic = &(apic_dev->apics[i]); - - if ((dest_apic != src_apic) || (icr->dst_shorthand == 2)) { - if (deliver_ipi(core, src_apic, dest_apic, icr->vec, icr->del_mode) == -1) { - PrintError("Error: Could not deliver IPI\n"); - return -1; + + + if ((dest_apic != src_apic) || (icr->dst_shorthand == APIC_SHORTHAND_ALL)) { + v3_lock(dest_apic->lock); + if (deliver_ipi(src_apic, dest_apic, icr->vec, icr->del_mode) == -1) { + PrintError("apic: Error: Could not deliver IPI\n"); + v3_unlock(dest_apic->lock); + goto route_ipi_out_bad; } + v3_unlock(dest_apic->lock); } - } - - break; + + } } + break; default: - PrintError("Error routing IPI, invalid Mode (%d)\n", icr->dst_shorthand); - return -1; + PrintError("apic: Error routing IPI, invalid Mode (%d)\n", icr->dst_shorthand); + goto route_ipi_out_bad; } - + + // route_ipi_out_good: + //v3_unlock(apic_dev->ipi_lock); return 0; -} + route_ipi_out_bad: + //v3_unlock(apic_dev->ipi_lock); + return -1; +} +// External function, expected to acquire lock on apic static int apic_read(struct guest_info * core, addr_t guest_addr, void * dst, uint_t length, void * priv_data) { struct apic_dev_state * apic_dev = (struct apic_dev_state *)(priv_data); struct apic_state * apic = &(apic_dev->apics[core->cpu_id]); @@ -775,6 +1001,7 @@ static int apic_read(struct guest_info * core, addr_t guest_addr, void * dst, ui struct apic_msr * msr = (struct apic_msr *)&(apic->base_addr_msr.value); uint32_t val = 0; + v3_lock(apic->lock); PrintDebug("apic %u: core %u: at %p: Read apic address space (%p)\n", apic->lapic_id.val, core->cpu_id, apic, (void *)guest_addr); @@ -783,7 +1010,7 @@ static int apic_read(struct guest_info * core, addr_t guest_addr, void * dst, ui PrintError("apic %u: core %u: Read from APIC address space with disabled APIC, apic msr=0x%llx\n", apic->lapic_id.val, core->cpu_id, apic->base_addr_msr.value); - return -1; + goto apic_read_out_bad; } @@ -996,7 +1223,7 @@ static int apic_read(struct guest_info * core, addr_t guest_addr, void * dst, ui default: PrintError("apic %u: core %u: Read from Unhandled APIC Register: %x (getting zero)\n", apic->lapic_id.val, core->cpu_id, (uint32_t)reg_addr); - return -1; + goto apic_read_out_bad; } @@ -1019,13 +1246,20 @@ static int apic_read(struct guest_info * core, addr_t guest_addr, void * dst, ui } else { PrintError("apic %u: core %u: Invalid apic read length (%d)\n", apic->lapic_id.val, core->cpu_id, length); - return -1; + goto apic_read_out_bad; } PrintDebug("apic %u: core %u: Read finished (val=%x)\n", apic->lapic_id.val, core->cpu_id, *(uint32_t *)dst); + + // apic_read_out_good: + v3_unlock(apic->lock); return length; + + apic_read_out_bad: + v3_unlock(apic->lock); + return -1; } @@ -1039,23 +1273,26 @@ static int apic_write(struct guest_info * core, addr_t guest_addr, void * src, u struct apic_msr * msr = (struct apic_msr *)&(apic->base_addr_msr.value); uint32_t op_val = *(uint32_t *)src; + + v3_lock(apic->lock); + PrintDebug("apic %u: core %u: at %p and priv_data is at %p\n", apic->lapic_id.val, core->cpu_id, apic, priv_data); - PrintDebug("Write to address space (%p) (val=%x)\n", - (void *)guest_addr, *(uint32_t *)src); + PrintDebug("apic %u: core %u: write to address space (%p) (val=%x)\n", + apic->lapic_id.val, core->cpu_id, (void *)guest_addr, *(uint32_t *)src); if (msr->apic_enable == 0) { PrintError("apic %u: core %u: Write to APIC address space with disabled APIC, apic msr=0x%llx\n", apic->lapic_id.val, core->cpu_id, apic->base_addr_msr.value); - return -1; + goto apic_write_out_bad; } if (length != 4) { PrintError("apic %u: core %u: Invalid apic write length (%d)\n", apic->lapic_id.val, length, core->cpu_id); - return -1; + goto apic_write_out_bad; } switch (reg_addr) { @@ -1091,13 +1328,13 @@ static int apic_write(struct guest_info * core, addr_t guest_addr, void * src, u PrintError("apic %u: core %u: Attempting to write to read only register %p (error)\n", apic->lapic_id.val, core->cpu_id, (void *)reg_addr); - // return -1; + // goto apic_write_out_bad; break; // Data registers case APIC_ID_OFFSET: - PrintDebug("apic %u: core %u: my id is being changed to %u\n", + V3_Print("apic %u: core %u: my id is being changed to %u\n", apic->lapic_id.val, core->cpu_id, op_val); apic->lapic_id.val = op_val; @@ -1191,26 +1428,48 @@ static int apic_write(struct guest_info * core, addr_t guest_addr, void * src, u // Action Registers case EOI_OFFSET: - // do eoi + // do eoi (we already have the lock) apic_do_eoi(apic); break; - case INT_CMD_LO_OFFSET: + case INT_CMD_LO_OFFSET: { + // execute command (we already have the lock) + + struct int_cmd_reg tmp_icr; + apic->int_cmd.lo = op_val; - PrintDebug("apic %u: core %u: sending cmd 0x%llx to apic %u\n", - apic->lapic_id.val, core->cpu_id, - apic->int_cmd.val, apic->int_cmd.dst); + tmp_icr=apic->int_cmd; + + // V3_Print("apic %u: core %u: sending cmd 0x%llx to apic %u\n", + // apic->lapic_id.val, core->cpu_id, + // apic->int_cmd.val, apic->int_cmd.dst); + + apic->in_icr=0; - if (route_ipi(core, apic_dev, apic, apic->int_cmd.val) == -1) { + v3_unlock(apic->lock); + + // route_ipi is responsible for locking apics, so we go in unlocked) + if (route_ipi(apic_dev, apic, &tmp_icr) == -1) { PrintError("IPI Routing failure\n"); - return -1; + goto apic_write_out_bad; } + // v3_lock(apic->lock); // expected for leaving this function + + } break; - case INT_CMD_HI_OFFSET: + case INT_CMD_HI_OFFSET: { + // already have the lock + if (apic->in_icr) { + PrintError("apic %u: core %u: writing command high=0x%x while in_icr=1\n", apic->lapic_id.val, core->cpu_id,apic->int_cmd.hi); + } + apic->int_cmd.hi = op_val; + //V3_Print("apic %u: core %u: writing command high=0x%x\n", apic->lapic_id.val, core->cpu_id,apic->int_cmd.hi); + apic->in_icr=1; + } break; @@ -1221,20 +1480,26 @@ static int apic_write(struct guest_info * core, addr_t guest_addr, void * src, u PrintError("apic %u: core %u: Write to Unhandled APIC Register: %x (ignored)\n", apic->lapic_id.val, core->cpu_id, (uint32_t)reg_addr); - return -1; + goto apic_write_out_bad; } PrintDebug("apic %u: core %u: Write finished\n", apic->lapic_id.val, core->cpu_id); + // apic_write_out_good: + v3_unlock(apic->lock); return length; + + apic_write_out_bad: + v3_unlock(apic->lock); + return -1; } /* Interrupt Controller Functions */ -// returns 1 if an interrupt is pending, 0 otherwise -static int apic_intr_pending(struct guest_info * core, void * private_data) { +// internally used, expects caller to lock +static int apic_intr_pending_nolock(struct guest_info * core, void * private_data) { struct apic_dev_state * apic_dev = (struct apic_dev_state *)(private_data); struct apic_state * apic = &(apic_dev->apics[core->cpu_id]); int req_irq = get_highest_irr(apic); @@ -1250,7 +1515,23 @@ static int apic_intr_pending(struct guest_info * core, void * private_data) { return 0; } -static int apic_get_intr_number(struct guest_info * core, void * private_data) { +// externally visible, so must lock itself +static int apic_intr_pending(struct guest_info * core, void * private_data) { + struct apic_dev_state * apic_dev = (struct apic_dev_state *)(private_data); + struct apic_state * apic = &(apic_dev->apics[core->cpu_id]); + int rc; + + v3_lock(apic->lock); + + rc=apic_intr_pending_nolock(core,private_data); + + v3_unlock(apic->lock); + + return rc; +} + +// Internal - no lock +static int apic_get_intr_number_nolock(struct guest_info * core, void * private_data) { struct apic_dev_state * apic_dev = (struct apic_dev_state *)(private_data); struct apic_state * apic = &(apic_dev->apics[core->cpu_id]); int req_irq = get_highest_irr(apic); @@ -1266,29 +1547,84 @@ static int apic_get_intr_number(struct guest_info * core, void * private_data) { } -int v3_apic_raise_intr(struct v3_vm_info * vm, struct vm_device * dev, - uint32_t irq, uint32_t dst) { - struct apic_dev_state * apic_dev = (struct apic_dev_state *)(dev->private_data); +// Externally visible, so must lock itself +static int apic_get_intr_number(struct guest_info * core, void * private_data) { + struct apic_dev_state * apic_dev = (struct apic_dev_state *)(private_data); + struct apic_state * apic = &(apic_dev->apics[core->cpu_id]); + int rc; + + v3_lock(apic->lock); + + rc=apic_get_intr_number_nolock(core,private_data); + + v3_unlock(apic->lock); + + return rc; +} + + +// +// Here there is no source APIC, so there is no need to lock it +// Furthermore, the expectation is that route_ipi will lock the destiation apic +int v3_apic_send_ipi(struct v3_vm_info * vm, struct v3_gen_ipi * ipi, void * dev_data) { + struct apic_dev_state * apic_dev = (struct apic_dev_state *) + (((struct vm_device *)dev_data)->private_data); + struct int_cmd_reg tmp_icr; + + // zero out all the fields + tmp_icr.val = 0; + + tmp_icr.vec = ipi->vector; + tmp_icr.del_mode = ipi->mode; + tmp_icr.dst_mode = ipi->logical; + tmp_icr.trig_mode = ipi->trigger_mode; + tmp_icr.dst_shorthand = ipi->dst_shorthand; + tmp_icr.dst = ipi->dst; + + // route_ipi is responsible for locking the destination apic + return route_ipi(apic_dev, NULL, &tmp_icr); +} + + +int v3_apic_raise_intr(struct v3_vm_info * vm, uint32_t irq, uint32_t dst, void * dev_data) { + struct apic_dev_state * apic_dev = (struct apic_dev_state *) + (((struct vm_device*)dev_data)->private_data); struct apic_state * apic = &(apic_dev->apics[dst]); + int do_xcall; - activate_apic_irq(apic, irq); + PrintDebug("apic %u core ?: raising interrupt IRQ %u (dst = %u).\n", apic->lapic_id.val, irq, dst); - if (V3_Get_CPU() != dst) { - v3_interrupt_cpu(vm, dst, 0); + v3_lock(apic->lock); + + do_xcall=activate_apic_irq_nolock(apic, irq); + + if (do_xcall<0) { + PrintError("Failed to activate apic irq\n"); + v3_unlock(apic->lock); + return -1; } + + if (do_xcall>0 && (V3_Get_CPU() != dst)) { +#ifdef CONFIG_MULTITHREAD_OS + v3_interrupt_cpu(vm, dst, 0); +#else + V3_ASSERT(0); +#endif + } + v3_unlock(apic->lock); return 0; } - -static int apic_begin_irq(struct guest_info * core, void * private_data, int irq) { +// internal - caller must lock +static int apic_begin_irq_nolock(struct guest_info * core, void * private_data, int irq) { struct apic_dev_state * apic_dev = (struct apic_dev_state *)(private_data); struct apic_state * apic = &(apic_dev->apics[core->cpu_id]); int major_offset = (irq & ~0x00000007) >> 3; int minor_offset = irq & 0x00000007; - uint8_t * req_location = apic->int_req_reg + major_offset; - uint8_t * svc_location = apic->int_svc_reg + major_offset; + uint8_t *req_location = apic->int_req_reg + major_offset; + uint8_t *svc_location = apic->int_svc_reg + major_offset; uint8_t flag = 0x01 << minor_offset; if (*req_location & flag) { @@ -1298,18 +1634,33 @@ static int apic_begin_irq(struct guest_info * core, void * private_data, int irq *req_location &= ~flag; } else { // do nothing... - PrintDebug("apic %u: core %u: begin irq for %d ignored since I don't own it\n", - apic->lapic_id.val, info->cpu_id, irq); + //PrintDebug("apic %u: core %u: begin irq for %d ignored since I don't own it\n", + // apic->lapic_id.val, core->cpu_id, irq); } return 0; } +// Since this is called, externally, it should lock the apic +static int apic_begin_irq(struct guest_info * core, void * private_data, int irq) { + struct apic_dev_state * apic_dev = (struct apic_dev_state *)(private_data); + struct apic_state * apic = &(apic_dev->apics[core->cpu_id]); + int rc; + + v3_lock(apic->lock); + + rc=apic_begin_irq_nolock(core,private_data,irq); + + v3_unlock(apic->lock); + + return rc; +} /* Timer Functions */ -static void apic_update_time(struct guest_info * core, +// Caller will lock the apic +static void apic_update_time_nolock(struct guest_info * core, uint64_t cpu_cycles, uint64_t cpu_freq, void * priv_data) { struct apic_dev_state * apic_dev = (struct apic_dev_state *)(priv_data); @@ -1379,16 +1730,16 @@ static void apic_update_time(struct guest_info * core, // raise irq PrintDebug("apic %u: core %u: Raising APIC Timer interrupt (periodic=%d) (icnt=%d) (div=%d)\n", - apic->lapic_id.val, info->cpu_id, + apic->lapic_id.val, core->cpu_id, apic->tmr_vec_tbl.tmr_mode, apic->tmr_init_cnt, shift_num); - if (apic_intr_pending(core, priv_data)) { + if (apic_intr_pending_nolock(core, priv_data)) { PrintDebug("apic %u: core %u: Overriding pending IRQ %d\n", - apic->lapic_id.val, info->cpu_id, - apic_get_intr_number(info, priv_data)); + apic->lapic_id.val, core->cpu_id, + apic_get_intr_number(core, priv_data)); } - if (activate_internal_irq(apic, APIC_TMR_INT) == -1) { + if (activate_internal_irq_nolock(apic, APIC_TMR_INT) == -1) { PrintError("apic %u: core %u: Could not raise Timer interrupt\n", apic->lapic_id.val, core->cpu_id); } @@ -1399,10 +1750,25 @@ static void apic_update_time(struct guest_info * core, } } - + return; } +static void apic_update_time(struct guest_info * core, + uint64_t cpu_cycles, uint64_t cpu_freq, + void * priv_data) { + struct apic_dev_state * apic_dev = (struct apic_dev_state *)(priv_data); + struct apic_state * apic = &(apic_dev->apics[core->cpu_id]); + + v3_lock(apic->lock); + + apic_update_time_nolock(core,cpu_cycles,cpu_freq,priv_data); + + v3_unlock(apic->lock); + + return; +} + static struct intr_ctrl_ops intr_ops = { .intr_pending = apic_intr_pending, .get_intr_number = apic_get_intr_number, @@ -1410,36 +1776,46 @@ static struct intr_ctrl_ops intr_ops = { }; -static struct vm_timer_ops timer_ops = { +static struct v3_timer_ops timer_ops = { .update_timer = apic_update_time, }; -static int apic_free(struct vm_device * dev) { +static int apic_free(struct apic_dev_state * apic_dev) { + int i = 0; + struct v3_vm_info * vm = NULL; - /* TODO: This should crosscall to force an unhook on each CPU */ + for (i = 0; i < apic_dev->num_apics; i++) { + struct apic_state * apic = &(apic_dev->apics[i]); + struct guest_info * core = apic->core; + + vm = core->vm_info; - // struct apic_state * apic = (struct apic_state *)dev->private_data; + v3_remove_intr_controller(core, apic->controller_handle); + + if (apic->timer) { + v3_remove_timer(core, apic->timer); + } + + // unhook memory + + } - v3_unhook_msr(dev->vm, BASE_ADDR_MSR); + v3_unhook_msr(vm, BASE_ADDR_MSR); + V3_Free(apic_dev); return 0; } static struct v3_device_ops dev_ops = { - .free = apic_free, - .reset = NULL, - .start = NULL, - .stop = NULL, + .free = (int (*)(void *))apic_free, }; - - static int apic_init(struct v3_vm_info * vm, v3_cfg_tree_t * cfg) { char * dev_id = v3_cfg_val(cfg, "ID"); struct apic_dev_state * apic_dev = NULL; @@ -1452,10 +1828,13 @@ static int apic_init(struct v3_vm_info * vm, v3_cfg_tree_t * cfg) { apic_dev->num_apics = vm->num_cores; - struct vm_device * dev = v3_allocate_device(dev_id, &dev_ops, apic_dev); + //v3_lock_init(&(apic_dev->ipi_lock)); + + struct vm_device * dev = v3_add_device(vm, dev_id, &dev_ops, apic_dev); - if (v3_attach_device(vm, dev) == -1) { + if (dev == NULL) { PrintError("apic: Could not attach device %s\n", dev_id); + V3_Free(apic_dev); return -1; } @@ -1468,9 +1847,15 @@ static int apic_init(struct v3_vm_info * vm, v3_cfg_tree_t * cfg) { init_apic_state(apic, i); - v3_register_intr_controller(core, &intr_ops, apic_dev); + apic->controller_handle = v3_register_intr_controller(core, &intr_ops, apic_dev); - v3_add_timer(core, &timer_ops, apic_dev); + apic->timer = v3_add_timer(core, &timer_ops, apic_dev); + + if (apic->timer == NULL) { + PrintError("APIC: Failed to attach timer to core %d\n", i); + v3_remove_device(dev); + return -1; + } v3_hook_full_mem(vm, core->cpu_id, apic->base_addr, apic->base_addr + PAGE_SIZE_4KB, apic_read, apic_write, apic_dev); @@ -1480,8 +1865,8 @@ static int apic_init(struct v3_vm_info * vm, v3_cfg_tree_t * cfg) { #ifdef CONFIG_DEBUG_APIC for (i = 0; i < vm->num_cores; i++) { struct apic_state * apic = &(apic_dev->apics[i]); - PrintDebug("apic: sanity check: apic %u (at %p) has id %u and msr value %llx\n", - i, apic, apic->lapic_id.val, apic->base_addr_msr.value); + PrintDebug("apic: sanity check: apic %u (at %p) has id %u and msr value %llx and core at %p\n", + i, apic, apic->lapic_id.val, apic->base_addr_msr.value,apic->core); } #endif