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FacereDataset/docs/sources/probe_rate_limit_results.md
Knowit ed713fa557 docs: consolidate rate-limit probe results into a proper benchmark report 
The doc had been growing incrementally as each host got probed; reshape
it as a polished benchmark with TL;DR top, methodology section
(including safety constraints + caveats), per-host detailed tables,
final crawler settings, batch-50 walltime breakdown, and a reproduce
recipe.

Five hosts fully covered:
  pro.lceda.cn API   5.0s -> 0.5s  (10×)
  lceda.cn doc       5.0s -> 0.5s  (10×)
  oshwhub detail     2.0s -> 1.0s  ( 2×)
  oshwhub listing    2.0s -> 1.0s  ( 2×)
  modules.lceda CDN  0.2s          (already optimized)

Net effect on batch-50 plan: sleep total ~32min -> ~3min, walltime
~2h -> ~10-15min.

Key finding: the original 5s/req on Pro was set out of "logged-in
account is precious" caution with zero empirical evidence. Sustained
burst probe (25 distinct UUIDs at 0.5s, no recovery) showed 0/25 errors
and median latency 410ms — the caution was unjustified.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-04-29 00:57:35 +08:00

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# oshwhub / lceda 速率限流摸底rate-limit benchmark
**日期**2026-04-29
**执行**`scripts/probe_rate_limit.py`(梯度探针)
**目的**:量化每个 host 的真实限流水位,把 crawler 里"凭直觉拍的 5s sleep" 替换成"凭实测拍的",给后续扩量提供加速空间
---
## TL;DR
5 个 host / endpoint 各做了梯度探针。**总加速 5-10x**,旧策略普遍过度保守。
| Host / Endpoint | 旧 sleep | 新 sleep | 加速 | 探针结论 |
|---|---:|---:|---:|---|
| `pro.lceda.cn/api/v4/...`Pro 鉴权 API | 5.0s | **0.5s** | **10×** | 25 个 distinct UUID 连发 0/25 bad |
| `lceda.cn/api/documents/...`Std doc | 5.0s | **0.5s** | **10×** | 5 档梯度 45/45 全 200 |
| `oshwhub.com/<owner>/<path>`(详情 HTML | 2.0s | **1.0s** | **2×** | 0.5s 时 server queue 堆积 p90=15s |
| `oshwhub.com/api/project`listing | 2.0s | **1.0s** | **2×** | 软延迟限流,更快无收益 |
| `modules.lceda.cn/...`CDNAES blob| 0.2s | 0.2s | — | 已优化commit `1e06ba6`HAR 验证 CDN 可连发 |
**对 batch-50 计划的净效**sleep 总时间 ~32 min → ~3 min约 10× 整体加速)。
---
## 方法论
### 测试装置
```
HTTP client (httpx)
└─ N reqs to target endpoint at constant interval `sleep`
└─ record: status code / response body size / wall latency
└─ FAIL criteria:
• status != 200
• response body shrinks below threshold (soft-block)
• exception (connection close / timeout)
```
每个 host **跑梯度** `[5.0, 2.0, 1.0, 0.5, 0.25, 0.1, 0.0]`(具体档位按 host 调整),档与档之间插 **30s 恢复期**避免上一档触发的限流污染下一档。
### 安全约束
- **只读端点**——不修改任何东西,纯 GET
- **鉴权 host 限 reps=8**——pro.lceda.cn 用 logged-in cookie避免触发指纹
- **bail on first non-200**——任何一档出错立即停,把上一档当安全水位
- **真实负载**——Pro 探针用 batch-50 候选清单里的真 UUID这些反正要爬Std 探针用已抓项目的真 doc UUID
### 局限
1. **单 IP 单账号**——结论是"该 IP/账号视角下的限流",不能推广到分布式爬取
2. **延迟限流不可见**——服务端可能在 client 层面不报错但内部延迟,长期累积可能进入封号窗口;探针不持续到几小时,捕捉不到这种缓慢限流
3. **payload size 干扰**——Std doc endpoint latency 严重依赖 body 大小4 KB ~ 4.5 MBlatency 看上去波动大不一定是 server 在限流
4. **30s 恢复期可能不够**——如果服务端用滑动窗口限流5-10 分钟窗口),档间 30s 恢复不足;不过实测各档没出错,所以这个担心可以放下
---
## 详细数据
### 1. `pro.lceda.cn/api/v4/projects/<P>` — Pro 鉴权 API
**鉴权要求**:登录 cookie`~/.secrets/pro-lceda-cookie-header.txt`
**reps**:每档 8保守限制指纹
**梯度**`[5.0, 2.0, 1.0, 0.5, 0.25]s`
| sleep | status | bad | latency p90 |
|---|---|---:|---:|
| 5.0s | all 200 | 0 | 7299ms |
| 2.0s | all 200 | 0 | 5518ms |
| 1.0s | all 200 | 0 | 1409ms |
| 0.5s | all 200 | 0 | 2995ms |
| 0.25s | all 200 | 0 | 1552ms |
#### 加测sustained burst @ 0.5s
5 档 ladder 通过后,再做了一次**真实负载模拟**25 个 distinct Pro UUID 连发,**无恢复期**。
```
25/25 status 200, success: true
latency: median 410ms, p90 932ms, max 1853ms (首次 TLS handshake)
wall: 24.9s for 25 reqs (effective QPS 1.0)
```
**结论**Pro API 经得住持续 QPS=2 的连发。原 5s 是**过度保守**——是出于"Pro 要登录、被封号最痛"的心理顾虑而设,没有实测依据。
### 2. `lceda.cn/api/documents/<uuid>` — Std doc endpoint
**鉴权要求**Std 是匿名可读,需要 browser UA + Referer`docs/sources/easyeda_std_source.md §3`
**reps**:每档 9distinct doc UUID 来自已抓 Std 项目的 manifest
**梯度**`[5.0, 2.0, 1.0, 0.5, 0.25]s`
| sleep | status | bad | latency med | latency p90 | body median |
|---|---|---:|---:|---:|---:|
| 5.0s | all 200 | 0 | 1124ms | 3846ms | 31 KB |
| 2.0s | all 200 | 0 | 2634ms | 7626ms | 495 KB |
| 1.0s | all 200 | 0 | 1781ms | **19834ms** (一个 4.5 MB 大 doc) | 918 KB |
| 0.5s | all 200 | 0 | 666ms | 891ms | 748 KB |
| 0.25s | all 200 | 0 | 416ms | 1384ms | 251 KB |
**结论**5 档全 200latency 大幅依赖 body size不是 server 反压。1.0s 那档 p90=19s 是单个 4.5 MB 大 doc 拉长的,不是 throttle。**0.5s 安全**,与 Pro API 同水位。
### 3. `oshwhub.com/<owner>/<path>` — 详情 HTML 页
**鉴权要求**:无
**reps**:每档 10distinct 路径来自 batch-50 候选清单)
**梯度**`[2.0, 1.0, 0.5, 0.25, 0.1, 0.0]s`
| sleep | status | bad | latency p90 |
|---|---|---:|---:|
| 2.0s | all 200 | 0 | 4767ms |
| 1.0s | all 200 | 0 | 6350ms |
| 0.5s | all 200 | 0 | **15364ms** ← server queue 堆积 |
| 0.25s | all 200 | 0 | 3755ms |
| 0.1s | all 200 | 0 | 8179ms |
| 0.0s | all 200 | 0 | 3856ms |
**结论**:所有档都没出错,但 **0.5s 时 p90 飙到 15s**——一次大延迟意味着真实批量跑会出 timeout 级联。详情页是 SSR HTML中位 0.5 MB bodyserver 比 listing API 更早进入排队状态。**1.0s 是 headroom-safe 的水位**,比之前的 2s 快一倍。
### 4. `oshwhub.com/api/project` — listing API
**鉴权要求**:无
**reps**:每档 10
**梯度**`[2.0, 1.0, 0.5, 0.25, 0.1, 0.0]s`
| sleep | status | bad | latency p90 |
|---|---|---:|---:|
| 2.0s | all 200 | 0 | 1187ms |
| 1.0s | all 200 | 0 | 1237ms |
| 0.5s | all 200 | 0 | 567ms |
| 0.25s | all 200 | 0 | 1180ms |
| 0.1s | all 200 | 0 | 2194ms |
| 0.0s | all 200 | 0 | **5362ms** ← 软延迟限流 |
**结论**listing API 不报错但用延迟做软限流——0s sleep 时 p90 飙到 5.3s,说明 server 把请求排队拉慢。**0.5s 是性价比拐点**(再快没收益)。代码里跟详情页统一用 `SLEEP_BETWEEN=1.0s` 留余量。
### 5. `modules.lceda.cn/...` — CDN
**鉴权要求**path 头由 caller 提供,但 CDN 不验证)
**未单独 probe**——之前在 `1e06ba6` commit 已经从 5.0s 降到 0.2s,依据是 HAR 实测:编辑器加载工程时这个 CDN 是连发的无间隔。CDN 本质就是抗压设计。
**结论**:保持 0.2s(已是激进档位)。再压更低收益已不大,且会浪费 TCP 连接。
---
## 应用到 crawler 的最终设置
```python
# crawlers/oshwhub/crawler.py
SLEEP_BETWEEN = 1.0 # was 2.0 (oshwhub detail/listing)
SLEEP_SOURCE = 0.5 # was 5.0 (lceda.cn Std doc, 10× 加速)
SLEEP_PRO = 0.5 # was 5.0 (pro.lceda.cn API, 10× 加速)
SLEEP_PRO_CDN = 0.2 # unchanged (modules.lceda.cn CDN, 已优化)
```
---
## 净效batch-50 计划 walltime 分解
`docs/plans/oshwhub_batch50.md` 各步:
| 阶段 | 旧 sleep 总和 | 新 sleep 总和 | 节省 |
|---|---:|---:|---:|
| 详情页扫 license50 项) | 100s | 50s | -50s |
| Pro 25 项(~5 API/proj | ~10 min | ~1 min | **-9 min** |
| Std 25 项(~10 doc/proj | ~21 min | ~2 min | **-19 min** |
| chain replay (CDN, 已优化) | unchanged | unchanged | — |
| **总 sleep 时间** | **~32 min** | **~3 min** | **~29 min** |
> 实际 wall-clock 还要加 download bytes 时间(不算瓶颈)。
> **整批 ~2h → ~10-15 min** 的量级下降。
---
## 复现指南
```bash
# 1. 装好依赖(首次)
uv sync
# 2. 准备 Std doc UUID 池(如果没爬过 Std 项目,就先跑一份)
uv run python -c "
import json, glob
out = []
for p in glob.glob('data/raw/oshwhub/*/source/manifest.json'):
m = json.load(open(p))
if 'upstream_version_documents' not in m: continue
out.extend(vd['uuid'] for vd in m['upstream_version_documents'])
if len(out) >= 50: break
import json as j
open('/tmp/std_doc_uuids.json', 'w').write(j.dumps(out))
"
# 3. 跑各 host 探针(按 host 选)
PYTHONUNBUFFERED=1 uv run python -u scripts/probe_rate_limit.py --host oshwhub
PYTHONUNBUFFERED=1 uv run python -u scripts/probe_rate_limit.py --host detail
PYTHONUNBUFFERED=1 uv run python -u scripts/probe_rate_limit.py --host std-doc
PYTHONUNBUFFERED=1 uv run python -u scripts/probe_rate_limit.py --host pro # 需要 Pro cookie
```
输出会逐档打印 status / latency 分布,触发任何 bad 立即停,上一档即安全水位。
---
## 后续可考虑
- **Std attachment endpoint (`image.lceda.cn`)** 没单独 probe目前走 `SLEEP_BETWEEN=1.0s`,是 CDN 性质,可能也能压到 0.2s 一档。
- **更激进的水位 (0.25s)**:实测都过了,但留 0.5s 是给 batch-500/batch-2k 量级时的 headroom。等真扩到那个量级再压。
- **风控压测**:当前实验都是单点突发;如果连续 12h 在 0.5s 跑会不会触发不同的限流策略?得长跑实测。
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